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1THE EFFECTS OF CROSS & SELF-FERTILISATION IN THE VEGETABLE KINGDOM.23BY45CHARLES DARWIN, M.A., F.R.S., ETC.678910CONTENTS.111213CHAPTER I.1415INTRODUCTORY REMARKS.1617Various means which favour or determine the cross-fertilisation of18plants.--Benefits derived from cross-fertilisation.--Self-fertilisation19favourable to the propagation of the species.--Brief history of the20subject.--Object of the experiments, and the manner in which they were21tried.--Statistical value of the measurements.--The experiments carried22on during several successive generations.--Nature of the relationship of23the plants in the later generations.--Uniformity of the conditions to24which the plants were subjected.--Some apparent and some real causes of25error.--Amount of pollen employed.--Arrangement of the work.--Importance26of the conclusions.272829CHAPTER II.3031CONVOLVULACEAE.3233Ipomoea purpurea, comparison of the height and fertility of the crossed34and self-fertilised plants during ten successive generations.--Greater35constitutional vigour of the crossed plants.--The effects on the36offspring of crossing different flowers on the same plant, instead of37crossing distinct individuals.--The effects of a cross with a fresh38stock.--The descendants of the self-fertilised plant named39Hero.--Summary on the growth, vigour, and fertility of the successive40crossed and self-fertilised generations.--Small amount of pollen in the41anthers of the self-fertilised plants of the later generations, and the42sterility of their first-produced flowers.--Uniform colour of the43flowers produced by the self-fertilised plants.--The advantage from a44cross between two distinct plants depends on their differing in45constitution.464748CHAPTER III.4950SCROPHULARIACEAE, GESNERIACEAE, LABIATAE, ETC.5152Mimulus luteus; height, vigour, and fertility of the crossed and53self-fertilised plants of the first four generations.--Appearance of a54new, tall, and highly self-fertile variety.--Offspring from a cross55between self-fertilised plants.--Effects of a cross with a fresh56stock.--Effects of crossing flowers on the same plant.--Summary on57Mimulus luteus.--Digitalis purpurea, superiority of the crossed58plants.--Effects of crossing flowers on the same59plant.--Calceolaria.--Linaria vulgaris.--Verbascum thapsus.--Vandellia60nummularifolia.--Cleistogene flowers.--Gesneria pendulina.--Salvia61coccinea.--Origanum vulgare, great increase of the crossed plants by62stolons.--Thunbergia alata.636465CHAPTER IV.6667CRUCIFERAE, PAPAVERACEAE, RESEDACEAE, ETC.6869Brassica oleracea, crossed and self-fertilised plants.--Great effect of70a cross with a fresh stock on the weight of the offspring.--Iberis71umbellata.--Papaver vagum.--Eschscholtzia californica, seedlings from a72cross with a fresh stock not more vigorous, but more fertile than the73self-fertilised seedlings.--Reseda lutea and odorata, many individuals74sterile with their own pollen.--Viola tricolor, wonderful effects of a75cross.--Adonis aestivalis.--Delphinium consolida.--Viscaria oculata,76crossed plants hardly taller, but more fertile than the77self-fertilised.--Dianthus caryophyllus, crossed and self-fertilised78plants compared for four generations.--Great effects of a cross with a79fresh stock.--Uniform colour of the flowers on the self-fertilised80plants.--Hibiscus africanus.818283CHAPTER V.8485GERANIACEAE, LEGUMINOSAE, ONAGRACEAE, ETC.8687Pelargonium zonale, a cross between plants propagated by cuttings does88no good.--Tropaeolum minus.--Limnanthes douglasii.--Lupinus luteus and89pilosus.--Phaseolus multiflorus and vulgaris.--Lathyrus odoratus,90varieties of, never naturally intercross in England.--Pisum sativum,91varieties of, rarely intercross, but a cross between them highly92beneficial.--Sarothamnus scoparius, wonderful effects of a93cross.--Ononis minutissima, cleistogene flowers of.--Summary on the94Leguminosae.--Clarkia elegans.--Bartonia aurea.--Passiflora95gracilis.--Apium petroselinum.--Scabiosa atropurpurea.--Lactuca96sativa.--Specularia speculum.--Lobelia ramosa, advantages of a cross97during two generations.--Lobelia fulgens.--Nemophila insignis, great98advantages of a cross.--Borago officinalis.--Nolana prostrata.99100101CHAPTER VI.102103SOLANACEAE, PRIMULACEAE, POLYGONEAE, ETC.104105Petunia violacea, crossed and self-fertilised plants compared for four106generations.--Effects of a cross with a fresh stock.--Uniform colour of107the flowers on the self-fertilised plants of the fourth108generation.--Nicotiana tabacum, crossed and self-fertilised plants of109equal height.--Great effects of a cross with a distinct sub-variety on110the height, but not on the fertility, of the offspring.--Cyclamen111persicum, crossed seedlings greatly superior to the112self-fertilised.--Anagallis collina.--Primula veris.--Equal-styled113variety of Primula veris, fertility of, greatly increased by a cross114with a fresh stock.--Fagopyrum esculentum.--Beta vulgaris.--Canna115warscewiczi, crossed and self-fertilised plants of equal height.--Zea116mays.--Phalaris canariensis.117118119CHAPTER VII.120121SUMMARY OF THE HEIGHTS AND WEIGHTS OF THE CROSSED AND SELF-FERTILISED122PLANTS.123124Number of species and plants measured.--Tables given.--Preliminary125remarks on the offspring of plants crossed by a fresh stock.--Thirteen126cases specially considered.--The effects of crossing a self-fertilised127plant either by another self-fertilised plant or by an intercrossed128plant of the old stock.--Summary of the results.--Preliminary remarks on129the crossed and self-fertilised plants of the same stock.--The130twenty-six exceptional cases considered, in which the crossed plants did131not exceed greatly in height the self-fertilised.--Most of these cases132shown not to be real exceptions to the rule that cross-fertilisation is133beneficial.--Summary of results.--Relative weights of the crossed and134self-fertilised plants.135136137CHAPTER VIII.138139DIFFERENCE BETWEEN CROSSED AND SELF-FERTILISED PLANTS IN CONSTITUTIONAL140VIGOUR AND IN OTHER RESPECTS.141142Greater constitutional vigour of crossed plants.--The effects of great143crowding.--Competition with other kinds of plants.--Self-fertilised144plants more liable to premature death.--Crossed plants generally flower145before the self-fertilised.--Negative effects of intercrossing flowers146on the same plant.--Cases described.--Transmission of the good effects147of a cross to later generations.--Effects of crossing plants of closely148related parentage.--Uniform colour of the flowers on plants149self-fertilised during several generations and cultivated under similar150conditions.151152153CHAPTER IX.154155THE EFFECTS OF CROSS-FERTILISATION AND SELF-FERTILISATION ON THE156PRODUCTION OF SEEDS.157158Fertility of plants of crossed and self-fertilised parentage, both lots159being fertilised in the same manner.--Fertility of the parent-plants160when first crossed and self-fertilised, and of their crossed and161self-fertilised offspring when again crossed and162self-fertilised.--Comparison of the fertility of flowers fertilised with163their own pollen and with that from other flowers on the same164plant.--Self-sterile plants.--Causes of self-sterility.--The appearance165of highly self-fertile varieties.--Self-fertilisation apparently in some166respects beneficial, independently of the assured production of167seeds.--Relative weights and rates of germination of seeds from crossed168and self-fertilised flowers.169170171CHAPTER X.172173MEANS OF FERTILISATION.174175Sterility and fertility of plants when insects are excluded.--The means176by which flowers are cross-fertilised.--Structures favourable to177self-fertilisation.--Relation between the structure and conspicuousness178of flowers, the visits of insects, and the advantages of179cross-fertilisation.--The means by which flowers are fertilised with180pollen from a distinct plant.--Greater fertilising power of such181pollen.--Anemophilous species.--Conversion of anemophilous species into182entomophilous.--Origin of nectar.--Anemophilous plants generally have183their sexes separated.--Conversion of diclinous into hermaphrodite184flowers.--Trees often have their sexes separated.185186187CHAPTER XI.188189THE HABITS OF INSECTS IN RELATION TO THE FERTILISATION OF FLOWERS.190191Insects visit the flowers of the same species as long as they192can.--Cause of this habit.--Means by which bees recognise the flowers of193the same species.--Sudden secretion of nectar.--Nectar of certain194flowers unattractive to certain insects.--Industry of bees, and the195number of flowers visited within a short time.--Perforation of the196corolla by bees.--Skill shown in the operation.--Hive-bees profit by the197holes made by humble-bees.--Effects of habit.--The motive for198perforating flowers to save time.--Flowers growing in crowded masses199chiefly perforated.200201202CHAPTER XII.203204GENERAL RESULTS.205206Cross-fertilisation proved to be beneficial, and self-fertilisation207injurious.--Allied species differ greatly in the means by which208cross-fertilisation is favoured and self-fertilisation avoided.--The209benefits and evils of the two processes depend on the degree of210differentiation in the sexual elements.--The evil effects not due to the211combination of morbid tendencies in the parents.--Nature of the212conditions to which plants are subjected when growing near together in a213state of nature or under culture, and the effects of such214conditions.--Theoretical considerations with respect to the interaction215of differentiated sexual elements.--Practical lessons.--Genesis of the216two sexes.--Close correspondence between the effects of217cross-fertilisation and self-fertilisation, and of the legitimate and218illegitimate unions of heterostyled plants, in comparison with hybrid219unions.220221222INDEX.223224225...226227228THE EFFECTS OF CROSS AND SELF-FERTILISATION IN THE VEGETABLE KINGDOM.229230231CHAPTER I.232233INTRODUCTORY REMARKS.234235Various means which favour or determine the cross-fertilisation of plants.236Benefits derived from cross-fertilisation.237Self-fertilisation favourable to the propagation of the species.238Brief history of the subject.239Object of the experiments, and the manner in which they were tried.240Statistical value of the measurements.241The experiments carried on during several successive generations.242Nature of the relationship of the plants in the later generations.243Uniformity of the conditions to which the plants were subjected.244Some apparent and some real causes of error.245Amount of pollen employed.246Arrangement of the work.247Importance of the conclusions.248249There is weighty and abundant evidence that the flowers of most kinds of250plants are constructed so as to be occasionally or habitually251cross-fertilised by pollen from another flower, produced either by the252same plant, or generally, as we shall hereafter see reason to believe,253by a distinct plant. Cross-fertilisation is sometimes ensured by the254sexes being separated, and in a large number of cases by the pollen and255stigma of the same flower being matured at different times. Such plants256are called dichogamous, and have been divided into two sub-classes:257proterandrous species, in which the pollen is mature before the stigma,258and proterogynous species, in which the reverse occurs; this latter form259of dichogamy not being nearly so common as the other.260Cross-fertilisation is also ensured, in many cases, by mechanical261contrivances of wonderful beauty, preventing the impregnation of the262flowers by their own pollen. There is a small class of plants, which I263have called dimorphic and trimorphic, but to which Hildebrand has given264the more appropriate name of heterostyled; this class consists of plants265presenting two or three distinct forms, adapted for reciprocal266fertilisation, so that, like plants with separate sexes, they can hardly267fail to be intercrossed in each generation. The male and female organs268of some flowers are irritable, and the insects which touch them get269dusted with pollen, which is thus transported to other flowers. Again,270there is a class, in which the ovules absolutely refuse to be fertilised271by pollen from the same plant, but can be fertilised by pollen from any272other individual of the same species. There are also very many species273which are partially sterile with their own pollen. Lastly, there is a274large class in which the flowers present no apparent obstacle of any275kind to self-fertilisation, nevertheless these plants are frequently276intercrossed, owing to the prepotency of pollen from another individual277or variety over the plant's own pollen.278279As plants are adapted by such diversified and effective means for280cross-fertilisation, it might have been inferred from this fact alone281that they derived some great advantage from the process; and it is the282object of the present work to show the nature and importance of the283benefits thus derived. There are, however, some exceptions to the rule284of plants being constructed so as to allow of or to favour285cross-fertilisation, for some few plants seem to be invariably286self-fertilised; yet even these retain traces of having been formerly287adapted for cross-fertilisation. These exceptions need not make us doubt288the truth of the above rule, any more than the existence of some few289plants which produce flowers, and yet never set seed, should make us290doubt that flowers are adapted for the production of seed and the291propagation of the species.292293We should always keep in mind the obvious fact that the production of294seed is the chief end of the act of fertilisation; and that this end can295be gained by hermaphrodite plants with incomparably greater certainty by296self-fertilisation, than by the union of the sexual elements belonging297to two distinct flowers or plants. Yet it is as unmistakably plain that298innumerable flowers are adapted for cross-fertilisation, as that the299teeth and talons of a carnivorous animal are adapted for catching prey;300or that the plumes, wings, and hooks of a seed are adapted for its301dissemination. Flowers, therefore, are constructed so as to gain two302objects which are, to a certain extent, antagonistic, and this explains303many apparent anomalies in their structure. The close proximity of the304anthers to the stigma in a multitude of species favours, and often305leads, to self-fertilisation; but this end could have been gained far306more safely if the flowers had been completely closed, for then the307pollen would not have been injured by the rain or devoured by insects,308as often happens. Moreover, in this case, a very small quantity of309pollen would have been sufficient for fertilisation, instead of millions310of grains being produced. But the openness of the flower and the311production of a great and apparently wasteful amount of pollen are312necessary for cross-fertilisation. These remarks are well illustrated by313the plants called cleistogene, which bear on the same stock two kinds of314flowers. The flowers of the one kind are minute and completely closed,315so that they cannot possibly be crossed; but they are abundantly316fertile, although producing an extremely small quantity of pollen. The317flowers of the other kind produce much pollen and are open; and these318can be, and often are, cross-fertilised. Hermann Muller has also made319the remarkable discovery that there are some plants which exist under320two forms; that is, produce on distinct stocks two kinds of321hermaphrodite flowers. The one form bears small flowers constructed for322self-fertilisation; whilst the other bears larger and much more323conspicuous flowers plainly constructed for cross-fertilisation by the324aid of insects; and without their aid these produce no seed.325326The adaptation of flowers for cross-fertilisation is a subject which has327interested me for the last thirty-seven years, and I have collected a328large mass of observations, but these are now rendered superfluous by329the many excellent works which have been lately published. In the year3301857 I wrote a short paper on the fertilisation of the kidney bean (1/1.331'Gardeners' Chronicle' 1857 page 725 and 1858 pages 824 and 844. 'Annals332and Magazine of Natural History' 3rd series volume 2 1858 page 462.);333and in 1862 my work 'On the Contrivances by which British and Foreign334Orchids are Fertilised by Insects' appeared. It seemed to me a better335plan to work out one group of plants as carefully as I could, rather336than to publish many miscellaneous and imperfect observations. My337present work is the complement of that on Orchids, in which it was shown338how admirably these plants are constructed so as to permit of, or to339favour, or to necessitate cross-fertilisation. The adaptations for340cross-fertilisation are perhaps more obvious in the Orchideae than in341any other group of plants, but it is an error to speak of them, as some342authors have done, as an exceptional case. The lever-like action of the343stamens of Salvia (described by Hildebrand, Dr. W. Ogle, and others), by344which the anthers are depressed and rubbed on the backs of bees, shows345as perfect a structure as can be found in any orchid. Papilionaceous346flowers, as described by various authors--for instance, by Mr. T.H.347Farrer--offer innumerable curious adaptations for cross-fertilisation.348The case of Posoqueria fragrans (one of the Rubiaceae), is as wonderful349as that of the most wonderful orchid. The stamens, according to Fritz350Muller, are irritable, so that as soon as a moth visits a flower, the351anthers explode and cover the insect with pollen; one of the filaments352which is broader than the others then moves and closes the flower for353about twelve hours, after which time it resumes its original position.354(1/2. 'Botanische Zeitung' 1866 page 129.) Thus the stigma cannot be355fertilised by pollen from the same flower, but only by that brought by a356moth from some other flower. Endless other beautiful contrivances for357this same purpose could be specified.358359Long before I had attended to the fertilisation of flowers, a remarkable360book appeared in 1793 in Germany, 'Das Entdeckte Geheimniss der Natur,'361by C.K. Sprengel, in which he clearly proved by innumerable362observations, how essential a part insects play in the fertilisation of363many plants. But he was in advance of his age, and his discoveries were364for a long time neglected. Since the appearance of my book on Orchids,365many excellent works on the fertilisation of flowers, such as those by366Hildebrand, Delpino, Axell and Hermann Muller, and numerous shorter367papers, have been published. (1/3. Sir John Lubbock has given an368interesting summary of the whole subject in his 'British Wild Flowers369considered in relation to Insects' 1875. Hermann Muller's work 'Die370Befruchtung der Blumen durch Insekten' 1873, contains an immense number371of original observations and generalisations. It is, moreover,372invaluable as a repertory with references to almost everything which has373been published on the subject. His work differs from that of all others374in specifying what kinds of insects, as far as known, visit the flowers375of each species. He likewise enters on new ground, by showing not only376that flowers are adapted for their own good to the visits of certain377insects; but that the insects themselves are excellently adapted for378procuring nectar or pollen from certain flowers. The value of H.379Muller's work can hardly be over-estimated, and it is much to be desired380that it should be translated into English. Severin Axell's work is381written in Swedish, so that I have not been able to read it.) A list382would occupy several pages, and this is not the proper place to give383their titles, as we are not here concerned with the means, but with the384results of cross-fertilisation. No one who feels interest in the385mechanism by which nature effects her ends, can read these books and386memoirs without the most lively interest.387388From my own observations on plants, guided to a certain extent by the389experience of the breeders of animals, I became convinced many years ago390that it is a general law of nature that flowers are adapted to be391crossed, at least occasionally, by pollen from a distinct plant.392Sprengel at times foresaw this law, but only partially, for it does not393appear that he was aware that there was any difference in power between394pollen from the same plant and from a distinct plant. In the395introduction to his book (page 4) he says, as the sexes are separated in396so many flowers, and as so many other flowers are dichogamous, "it397appears that nature has not willed that any one flower should be398fertilised by its own pollen." Nevertheless, he was far from keeping399this conclusion always before his mind, or he did not see its full400importance, as may be perceived by anyone who will read his observations401carefully; and he consequently mistook the meaning of various402structures. But his discoveries are so numerous and his work so403excellent, that he can well afford to bear a small amount of blame. A404most capable judge, H. Muller, likewise says: "It is remarkable in how405very many cases Sprengel rightly perceived that pollen is necessarily406transported to the stigmas of other flowers of the same species by the407insects which visit them, and yet did not imagine that this408transportation was of any service to the plants themselves." (1/4. 'Die409Befruchtung der Blumen' 1873 page 4. His words are: "Es ist merkwurdig,410in wie zahlreichen Fallen Sprengel richtig erkannte, dass durch die411Besuchenden Insekten der Bluthenstaub mit Nothwendigkeit auf die Narben412anderer Bluthen derselben Art ubertragen wird, ohne auf die Vermuthung413zu kommen, dass in dieser Wirkung der Nutzen des Insektenbesuches fur414die Pflanzen selbst gesucht werden musse.")415416Andrew Knight saw the truth much more clearly, for he remarks, "Nature417intended that a sexual intercourse should take place between418neighbouring plants of the same species." (1/5. 'Philosophical419Transactions' 1799 page 202.) After alluding to the various means by420which pollen is transported from flower to flower, as far as was then421imperfectly known, he adds, "Nature has something more in view than that422its own proper males would fecundate each blossom." In 1811 Kolreuter423plainly hinted at the same law, as did afterwards another famous424hybridiser of plants, Herbert. (1/6. Kolreuter 'Mem. de l'Acad. de St.425Petersbourg' tome 3 1809 published 1811 page 197. After showing how well426the Malvaceae are adapted for cross-fertilisation, he asks, "An id427aliquid in recessu habeat, quod hujuscemodi flores nunquam proprio suo428pulvere, sed semper eo aliarum suae speciei impregnentur, merito429quaeritur? Certe natura nil facit frustra." Herbert 'Amaryllidaceae,430with a Treatise on Cross-bred Vegetables' 1837.) But none of these431distinguished observers appear to have been sufficiently impressed with432the truth and generality of the law, so as to insist on it and impress433their beliefs on others.434435In 1862 I summed up my observations on Orchids by saying that nature436"abhors perpetual self-fertilisation." If the word perpetual had been437omitted, the aphorism would have been false. As it stands, I believe438that it is true, though perhaps rather too strongly expressed; and I439should have added the self-evident proposition that the propagation of440the species, whether by self-fertilisation or by cross-fertilisation, or441asexually by buds, stolons, etc. is of paramount importance. Hermann442Muller has done excellent service by insisting repeatedly on this latter443point.444445It often occurred to me that it would be advisable to try whether446seedlings from cross-fertilised flowers were in any way superior to447those from self-fertilised flowers. But as no instance was known with448animals of any evil appearing in a single generation from the closest449possible interbreeding, that is between brothers and sisters, I thought450that the same rule would hold good with plants; and that it would be451necessary at the sacrifice of too much time to self-fertilise and452intercross plants during several successive generations, in order to453arrive at any result. I ought to have reflected that such elaborate454provisions favouring cross-fertilisation, as we see in innumerable455plants, would not have been acquired for the sake of gaining a distant456and slight advantage, or of avoiding a distant and slight evil.457Moreover, the fertilisation of a flower by its own pollen corresponds to458a closer form of interbreeding than is possible with ordinary bi-sexual459animals; so that an earlier result might have been expected.460461I was at last led to make the experiments recorded in the present volume462from the following circumstance. For the sake of determining certain463points with respect to inheritance, and without any thought of the464effects of close interbreeding, I raised close together two large beds465of self-fertilised and crossed seedlings from the same plant of Linaria466vulgaris. To my surprise, the crossed plants when fully grown were467plainly taller and more vigorous than the self-fertilised ones. Bees468incessantly visit the flowers of this Linaria and carry pollen from one469to the other; and if insects are excluded, the flowers produce extremely470few seeds; so that the wild plants from which my seedlings were raised471must have been intercrossed during all previous generations. It seemed472therefore quite incredible that the difference between the two beds of473seedlings could have been due to a single act of self-fertilisation; and474I attributed the result to the self-fertilised seeds not having been475well ripened, improbable as it was that all should have been in this476state, or to some other accidental and inexplicable cause. During the477next year, I raised for the same purpose as before two large beds close478together of self-fertilised and crossed seedlings from the carnation,479Dianthus caryophyllus. This plant, like the Linaria, is almost sterile480if insects are excluded; and we may draw the same inference as before,481namely, that the parent-plants must have been intercrossed during every482or almost every previous generation. Nevertheless, the self-fertilised483seedlings were plainly inferior in height and vigour to the crossed.484485My attention was now thoroughly aroused, for I could hardly doubt that486the difference between the two beds was due to the one set being the487offspring of crossed, and the other of self-fertilised flowers.488Accordingly I selected almost by hazard two other plants, which happened489to be in flower in the greenhouse, namely, Mimulus luteus and Ipomoea490purpurea, both of which, unlike the Linaria and Dianthus, are highly491self-fertile if insects are excluded. Some flowers on a single plant of492both species were fertilised with their own pollen, and others were493crossed with pollen from a distinct individual; both plants being494protected by a net from insects. The crossed and self-fertilised seeds495thus produced were sown on opposite sides of the same pots, and treated496in all respects alike; and the plants when fully grown were measured and497compared. With both species, as in the cases of the Linaria and498Dianthus, the crossed seedlings were conspicuously superior in height499and in other ways to the self-fertilised. I therefore determined to500begin a long series of experiments with various plants, and these were501continued for the following eleven years; and we shall see that in a502large majority of cases the crossed beat the self-fertilised plants.503Several of the exceptional cases, moreover, in which the crossed plants504were not victorious, can be explained.505506It should be observed that I have spoken for the sake of brevity, and507shall continue to do so, of crossed and self-fertilised seeds,508seedlings, or plants; these terms implying that they are the product of509crossed or self-fertilised flowers. Cross-fertilisation always means a510cross between distinct plants which were raised from seeds and not from511cuttings or buds. Self-fertilisation always implies that the flowers in512question were impregnated with their own pollen.513514My experiments were tried in the following manner. A single plant, if it515produced a sufficiency of flowers, or two or three plants were placed516under a net stretched on a frame, and large enough to cover the plant517(together with the pot, when one was used) without touching it. This518latter point is important, for if the flowers touch the net they may be519cross-fertilised by bees, as I have known to happen; and when the net is520wet the pollen may be injured. I used at first "white cotton net," with521very fine meshes, but afterwards a kind of net with meshes one-tenth of522an inch in diameter; and this I found by experience effectually excluded523all insects excepting Thrips, which no net will exclude. On the plants524thus protected several flowers were marked, and were fertilised with525their own pollen; and an equal number on the same plants, marked in a526different manner, were at the same time crossed with pollen from a527distinct plant. The crossed flowers were never castrated, in order to528make the experiments as like as possible to what occurs under nature529with plants fertilised by the aid of insects. Therefore, some of the530flowers which were crossed may have failed to be thus fertilised, and531afterwards have been self-fertilised. But this and some other sources of532error will presently be discussed. In some few cases of spontaneously533self-fertile species, the flowers were allowed to fertilise themselves534under the net; and in still fewer cases uncovered plants were allowed to535be freely crossed by the insects which incessantly visited them. There536are some great advantages and some disadvantages in my having537occasionally varied my method of proceeding; but when there was any538difference in the treatment, it is always so stated under the head of539each species.540541Care was taken that the seeds were thoroughly ripened before being542gathered. Afterwards the crossed and self-fertilised seeds were in most543cases placed on damp sand on opposite sides of a glass tumbler covered544by a glass plate, with a partition between the two lots; and the glass545was placed on the chimney-piece in a warm room. I could thus observe the546germination of the seeds. Sometimes a few would germinate on one side547before any on the other, and these were thrown away. But as often as a548pair germinated at the same time, they were planted on opposite sides of549a pot, with a superficial partition between the two; and I thus550proceeded until from half-a-dozen to a score or more seedlings of551exactly the same age were planted on the opposite sides of several pots.552If one of the young seedlings became sickly or was in any way injured,553it was pulled up and thrown away, as well as its antagonist on the554opposite side of the same pot.555556As a large number of seeds were placed on the sand to germinate, many557remained after the pairs had been selected, some of which were in a558state of germination and others not so; and these were sown crowded559together on the opposite sides of one or two rather larger pots, or560sometimes in two long rows out of doors. In these cases there was the561most severe struggle for life among the crossed seedlings on one side of562the pot, and the self-fertilised seedlings on the other side, and563between the two lots which grew in competition in the same pot. A vast564number soon perished, and the tallest of the survivors on both sides565when fully grown were measured. Plants treated in this manner, were566subjected to nearly the same conditions as those growing in a state of567nature, which have to struggle to maturity in the midst of a host of568competitors.569570On other occasions, from the want of time, the seeds, instead of being571allowed to germinate on damp sand, were sown on the opposite sides of572pots, and the fully grown plants measured. But this plan is less573accurate, as the seeds sometimes germinated more quickly on one side574than on the other. It was however necessary to act in this manner with575some few species, as certain kinds of seeds would not germinate well576when exposed to the light; though the glasses containing them were kept577on the chimney-piece on one side of a room, and some way from the two578windows which faced the north-east. (1/7. This occurred in the plainest579manner with the seeds of Papaver vagum and Delphinium consolida, and580less plainly with those of Adonis aestivalis and Ononis minutissima.581Rarely more than one or two of the seeds of these four species582germinated on the bare sand, though left there for some weeks; but when583these same seeds were placed on earth in pots, and covered with a thin584layer of sand, they germinated immediately in large numbers.)585586The soil in the pots in which the seedlings were planted, or the seeds587sown, was well mixed, so as to be uniform in composition. The plants on588the two sides were always watered at the same time and as equally as589possible; and even if this had not been done, the water would have590spread almost equally to both sides, as the pots were not large. The591crossed and self-fertilised plants were separated by a superficial592partition, which was always kept directed towards the chief source of593the light, so that the plants on both sides were equally illuminated. I594do not believe it possible that two sets of plants could have been595subjected to more closely similar conditions, than were my crossed and596self-fertilised seedlings, as grown in the above described manner.597598In comparing the two sets, the eye alone was never trusted. Generally599the height of every plant on both sides was carefully measured, often600more than once, namely, whilst young, sometimes again when older, and601finally when fully or almost fully grown. But in some cases, which are602always specified, owing to the want of time, only one or two of the603tallest plants on each side were measured. This plan, which is not a604good one, was never followed (except with the crowded plants raised from605the seeds remaining after the pairs had been planted) unless the tallest606plants on each side seemed fairly to represent the average difference607between those on both sides. It has, however, some great advantages, as608sickly or accidentally injured plants, or the offspring of ill-ripened609seeds, are thus eliminated. When the tallest plants alone on each side610were measured, their average height of course exceeds that of all the611plants on the same side taken together. But in the case of the much612crowded plants raised from the remaining seeds, the average height of613the tallest plants was less than that of the plants in pairs, owing to614the unfavourable conditions to which they were subjected from being615greatly crowded. For our purpose, however, of the comparison of the616crossed and self-fertilised plants, their absolute height signifies617little.618619As the plants were measured by an ordinary English standard divided into620inches and eighths of an inch, I have not thought it worth while to621change the fractions into decimals. The average or mean heights were622calculated in the ordinary rough method by adding up the measurements of623all, and dividing the product by the number of plants measured; the624result being here given in inches and decimals. As the different species625grow to various heights, I have always for the sake of easy comparison626given in addition the average height of the crossed plants of each627species taken as 100, and have calculated the average height of the628self-fertilised plant in relation to this standard. With respect to the629crowded plants raised from the seeds remaining after the pairs had been630planted, and of which only some of the tallest on each side were631measured, I have not thought it worth while to complicate the results by632giving separate averages for them and for the pairs, but have added up633all their heights, and thus obtained a single average.634635I long doubted whether it was worth while to give the measurements of636each separate plant, but have decided to do so, in order that it may be637seen that the superiority of the crossed plants over the638self-fertilised, does not commonly depend on the presence of two or639three extra fine plants on the one side, or of a few very poor plants on640the other side. Although several observers have insisted in general641terms on the offspring from intercrossed varieties being superior to642either parent-form, no precise measurements have been given (1/8. A643summary of these statements, with references, may be found in my644'Variation of Animals and Plants under Domestication' chapter 17 2nd645edition 1875 volume 2 page 109.); and I have met with no observations on646the effects of crossing and self-fertilising the individuals of the same647variety. Moreover, experiments of this kind require so much time--mine648having been continued during eleven years--that they are not likely soon649to be repeated.650651As only a moderate number of crossed and self-fertilised plants were652measured, it was of great importance to me to learn how far the averages653were trustworthy. I therefore asked Mr. Galton, who has had much654experience in statistical researches, to examine some of my tables of655measurements, seven in number, namely, those of Ipomoea, Digitalis,656Reseda lutea, Viola, Limnanthes, Petunia, and Zea. I may premise that if657we took by chance a dozen or score of men belonging to two nations and658measured them, it would I presume be very rash to form any judgment from659such small numbers on their average heights. But the case is somewhat660different with my crossed and self-fertilised plants, as they were of661exactly the same age, were subjected from first to last to the same662conditions, and were descended from the same parents. When only from two663to six pairs of plants were measured, the results are manifestly of664little or no value, except in so far as they confirm and are confirmed665by experiments made on a larger scale with other species. I will now666give the report on the seven tables of measurements, which Mr. Galton667has had the great kindness to draw up for me.668669["I have examined the measurements of the plants with care, and by many670statistical methods, to find out how far the means of the several sets671represent constant realities, such as would come out the same so long as672the general conditions of growth remained unaltered. The principal673methods that were adopted are easily explained by selecting one of the674shorter series of plants, say of Zea mays, for an example."675676TABLE 1/1. Zea mays (young plants). (Mr. Galton.)677678Heights of Plants in inches:679680Column 1: Number (Name) of Pot.681682Column 2: Crossed, as recorded by Mr. Darwin.683684Column 3: Self-fertilised, as recorded by Mr. Darwin.685686Column 4: Crossed, in Separate Pots, arranged in order of magnitude.687688Column 5: Self-fertilised, in Separate Pots, arranged in order of magnitude.689690Column 6: Crossed, in a Single Series, arranged in order of magnitude.691692Column 7: Self-fertilised, in a Single Series, arranged in order of693magnitude.694695Column 8: Difference, in a Single Series, arranged in order of magnitude.696697Pot 1 : 23 4/8 : 17 3/8 :: 23 4/8 : 20 3/8 :: 23 4/8 : 20 3/8 : -3 1/8.698Pot 1 : 12 : 20 3/8 :: 21 : 20 :: 23 2/8 : 20 : -3 2/8.699Pot 1 : 21 : 20 :: 12 : 17 3/8 :: 23 : 20 : -3.700Pot 1 : - : - :: - : - :: 22 1/8 : 18 5/8 : -3 4/8.701Pot 1 : 22 : 20 :: 22 : 20 :: 22 1/8 : 18 5/8 : -3 4/8.702703Pot 2 : 19 1/8 : 18 3/8 :: 21 4/8 : 18 5/8 :: 22 : 18 3/8 : -3 5/8.704Pot 2 : 21 4/8 : 18 5/8 :: 19 1/8 : 18 3/8 :: 21 5/8 : 18 : -3 5/8.705Pot 2 : - : - :: - : - :: 21 4/8 : 18 : -3 4/8.706Pot 2 : 22 1/8 : 18 5/8 :: 23 2/8 : 18 5/8 :: 21 : 18 : -3.707Pot 2 : 20 3/8 : 15 2/8 :: 22 1/8 : 18 :: 21 : 17 3/8 : -3 5/8.708709Pot 3 : 18 2/8 : 16 4/8 :: 21 5/8 : 16 4/8 :: 20 3/8 : 16 4/8 : -3 7/8.710Pot 3 : 21 5/8 : 18 :: 20 3/8 : 16 2/8 :: 19 1/8 : 16 2/8 : -2 7/8.711Pot 3 : 23 2/8 : 16 2/8 :: 18 2/8 : 15 2/8 :: 18 2/8 : 15 4/8 : -2 6/8.712Pot 3 : - : - :: - : - :: 12 : 15 2/8 : +3 2/8.713Pot 3 : 21 : 18 :: 23 : 18 :: 12 : 12 6/8 : +0 6/8.714715Pot 4 : 22 1/8 : 12 6/8 :: 22 1/8 : 18.716Pot 4 : 23 : 15 4/8 :: 21 : 15 4/8.717Pot 4 : 12 : 18 :: 12 : 12 6/8.718719"The observations as I received them are shown in Table 1/1, Columns 2720and 3, where they certainly have no prima facie appearance of721regularity. But as soon as we arrange them the in order of their722magnitudes, as in columns 4 and 5, the case is materially altered. We723now see, with few exceptions, that the largest plant on the crossed side724in each pot exceeds the largest plant on the self-fertilised side, that725the second exceeds the second, the third the third, and so on. Out of726the fifteen cases in the table, there are only two exceptions to this727rule. We may therefore confidently affirm that a crossed series will728always be found to exceed a self-fertilised series, within the range of729the conditions under which the present experiment has been made."730731TABLE 1/2.732733Column 1: Number (Name) of Pot.734735Column 2: Crossed.736737Column 3: Self-fertilised.738739Column 4: Difference.740741Pot 1 : 18 7/8 : 19 2/8 : +0 3/8.742Pot 2 : 20 7/8 : 19 : -1 7/8.743Pot 3 : 21 1/8 : 16 7/8 : -4 2/8.744Pot 4 : 19 6/8 : 16 : -3 6/8.745746"Next as regards the numerical estimate of this excess. The mean values747of the several groups are so discordant, as is shown in Table 1/2, that748a fairly precise numerical estimate seems impossible. But the749consideration arises, whether the difference between pot and pot may not750be of much the same order of importance as that of the other conditions751upon which the growth of the plants has been modified. If so, and only752on that condition, it would follow that when all the measurements,753either of the crossed or the self-fertilised plants, were combined into754a single series, that series would be statistically regular. The755experiment is tried in Table 1/1, columns 7 and 8, where the regularity756is abundantly clear, and justifies us in considering its mean as757perfectly reliable. I have protracted these measurements, and revised758them in the usual way, by drawing a curve through them with a free hand,759but the revision barely modifies the means derived from the original760observations. In the present, and in nearly all the other cases, the761difference between the original and revised means is under 2 per cent of762their value. It is a very remarkable coincidence that in the seven kinds763of plants, whose measurements I have examined, the ratio between the764heights of the crossed and of the self-fertilised ranges in five cases765within very narrow limits. In Zea mays it is as 100 to 84, and in the766others it ranges between 100 to 76 and 100 to 86."767768"The determination of the variability (measured by what is technically769called the 'probable error') is a problem of more delicacy than that of770determining the means, and I doubt, after making many trials, whether it771is possible to derive useful conclusions from these few observations. We772ought to have measurements of at least fifty plants in each case, in773order to be in a position to deduce fair results. One fact, however,774bearing on variability, is very evident in most cases, though not in Zea775mays, namely, that the self-fertilised plants include the larger number776of exceptionally small specimens, while the crossed are more generally777full grown."778779"Those groups of cases in which measurements have been made of a few of780the tallest plants that grew in rows, each of which contained a781multitude of plants, show very clearly that the crossed plants exceed782the self-fertilised in height, but they do not tell by inference783anything about their respective mean values. If it should happen that a784series is known to follow the law of error or any other law, and if the785number of individuals in the series is known, it would be always786possible to reconstruct the whole series when a fragment of it has been787given. But I find no such method to be applicable in the present case.788The doubt as to the number of plants in each row is of minor importance;789the real difficulty lies in our ignorance of the precise law followed by790the series. The experience of the plants in pots does not help us to791determine that law, because the observations of such plants are too few792to enable us to lay down more than the middle terms of the series to793which they belong with any sort of accuracy, whereas the cases we are794now considering refer to one of its extremities. There are other special795difficulties which need not be gone into, as the one already mentioned796is a complete bar."]797798Mr. Galton sent me at the same time graphical representations which he799had made of the measurements, and they evidently form fairly regular800curves. He appends the words "very good" to those of Zea and Limnanthes.801He also calculated the average height of the crossed and self-fertilised802plants in the seven tables by a more correct method than that followed803by me, namely, by including the heights, as estimated in accordance with804statistical rules, of a few plants which died before they were measured;805whereas I merely added up the heights of the survivors, and divided the806sum by their number. The difference in our results is in one way highly807satisfactory, for the average heights of the self-fertilised plants, as808deduced by Mr. Galton, is less than mine in all the cases excepting one,809in which our averages are the same; and this shows that I have by no810means exaggerated the superiority of the crossed over the811self-fertilised plants.812813After the heights of the crossed and self-fertilised plants had been814taken, they were sometimes cut down close to the ground, and an equal815number of both weighed. This method of comparison gives very striking816results, and I wish that it had been oftener followed. Finally a record817was often kept of any marked difference in the rate of germination of818the crossed and self-fertilised seeds,--of the relative periods of819flowering of the plants raised from them,--and of their productiveness,820that is, of the number of seed-capsules which they produced and of the821average number of seeds which each capsule contained.822823When I began my experiments I did not intend to raise crossed and824self-fertilised plants for more than a single generation; but as soon as825the plants of the first generation were in flower I thought that I would826raise one more generation, and acted in the following manner. Several827flowers on one or more of the self-fertilised plants were again828self-fertilised; and several flowers on one or more of the crossed829plants were fertilised with pollen from another crossed plant of the830same lot. Having thus once begun, the same method was followed for as831many as ten successive generations with some of the species. The seeds832and seedlings were always treated in exactly the same manner as already833described. The self-fertilised plants, whether originally descended from834one or two mother-plants, were thus in each generation as closely835interbred as was possible; and I could not have improved on my plan. But836instead of crossing one of the crossed plants with another crossed837plant, I ought to have crossed the self-fertilised plants of each838generation with pollen taken from a non-related plant--that is, one839belonging to a distinct family or stock of the same species and variety.840This was done in several cases as an additional experiment, and gave841very striking results. But the plan usually followed was to put into842competition and compare intercrossed plants, which were almost always843the offspring of more or less closely related plants, with the844self-fertilised plants of each succeeding generation;--all having been845grown under closely similar conditions. I have, however, learnt more by846this method of proceeding, which was begun by an oversight and then847necessarily followed, than if I had always crossed the self-fertilised848plants of each succeeding generation with pollen from a fresh stock.849850I have said that the crossed plants of the successive generations were851almost always inter-related. When the flowers on an hermaphrodite plant852are crossed with pollen taken from a distinct plant, the seedlings thus853raised may be considered as hermaphrodite brothers or sisters; those854raised from the same capsule being as close as twins or animals of the855same litter. But in one sense the flowers on the same plant are distinct856individuals, and as several flowers on the mother-plant were crossed by857pollen taken from several flowers on the father-plant, such seedlings858would be in one sense half-brothers or sisters, but more closely related859than are the half-brothers and sisters of ordinary animals. The flowers860on the mother-plant were, however, commonly crossed by pollen taken from861two or more distinct plants; and in these cases the seedlings might be862called with more truth half-brothers or sisters. When two or three863mother-plants were crossed, as often happened, by pollen taken from two864or three father-plants (the seeds being all intermingled), some of the865seedlings of the first generation would be in no way related, whilst866many others would be whole or half-brothers and sisters. In the second867generation a large number of the seedlings would be what may be called868whole or half first-cousins, mingled with whole and half-brothers and869sisters, and with some plants not at all related. So it would be in the870succeeding generations, but there would also be many cousins of the871second and more remote degrees. The relationship will thus have become872more and more inextricably complex in the later generations; with most873of the plants in some degree and many of them closely related.874875I have only one other point to notice, but this is one of the highest876importance; namely, that the crossed and self-fertilised plants were877subjected in the same generation to as nearly similar and uniform878conditions as was possible. In the successive generations they were879exposed to slightly different conditions as the seasons varied, and they880were raised at different periods. But in other respects all were treated881alike, being grown in pots in the same artificially prepared soil, being882watered at the same time, and kept close together in the same greenhouse883or hothouse. They were therefore not exposed during successive years to884such great vicissitudes of climate as are plants growing out of doors.885886ON SOME APPARENT AND REAL CAUSES OF ERROR IN MY EXPERIMENTS.887888It has been objected to such experiments as mine, that covering plants889with a net, although only for a short time whilst in flower, may affect890their health and fertility. I have seen no such effect except in one891instance with a Myosotis, and the covering may not then have been the892real cause of injury. But even if the net were slightly injurious, and893certainly it was not so in any high degree, as I could judge by the894appearance of the plants and by comparing their fertility with that of895neighbouring uncovered plants, it would not have vitiated my896experiments; for in all the more important cases the flowers were897crossed as well as self-fertilised under a net, so that they were898treated in this respect exactly alike.899900As it is impossible to exclude such minute pollen-carrying insects as901Thrips, flowers which it was intended to fertilise with their own pollen902may sometimes have been afterwards crossed with pollen brought by these903insects from another flower on the same plant; but as we shall hereafter904see, a cross of this kind does not produce any effect, or at most only a905slight one. When two or more plants were placed near one another under906the same net, as was often done, there is some real though not great907danger of the flowers which were believed to be self-fertilised being908afterwards crossed with pollen brought by Thrips from a distinct plant.909I have said that the danger is not great because I have often found that910plants which are self-sterile, unless aided by insects, remained sterile911when several plants of the same species were placed under the same net.912If, however, the flowers which had been presumably self-fertilised by me913were in any case afterwards crossed by Thrips with pollen brought from a914distinct plant, crossed seedlings would have been included amongst the915self-fertilised; but it should be especially observed that this916occurrence would tend to diminish and not to increase any superiority in917average height, fertility, etc., of the crossed over the self-fertilised918plants.919920As the flowers which were crossed were never castrated, it is probable921or even almost certain that I sometimes failed to cross-fertilise them922effectually, and that they were afterwards spontaneously923self-fertilised. This would have been most likely to occur with924dichogamous species, for without much care it is not easy to perceive925whether their stigmas are ready to be fertilised when the anthers open.926But in all cases, as the flowers were protected from wind, rain, and the927access of insects, any pollen placed by me on the stigmatic surface928whilst it was immature, would generally have remained there until the929stigma was mature; and the flowers would then have been crossed as was930intended. Nevertheless, it is highly probable that self-fertilised931seedlings have sometimes by this means got included amongst the crossed932seedlings. The effect would be, as in the former case, not to exaggerate933but to diminish any average superiority of the crossed over the934self-fertilised plants.935936Errors arising from the two causes just named, and from others,--such as937some of the seeds not having been thoroughly ripened, though care was938taken to avoid this error--the sickness or unperceived injury of any of939the plants,--will have been to a large extent eliminated, in those cases940in which many crossed and self-fertilised plants were measured and an941average struck. Some of these causes of error will also have been942eliminated by the seeds having been allowed to germinate on bare damp943sand, and being planted in pairs; for it is not likely that ill-matured944and well-matured, or diseased and healthy seeds, would germinate at945exactly the same time. The same result will have been gained in the946several cases in which only a few of the tallest, finest, and healthiest947plants on each side of the pots were measured.948949Kolreuter and Gartner have proved that with some plants several, even as950many as from fifty to sixty, pollen-grains are necessary for the951fertilisation of all the ovules in the ovarium. (1/9. 'Kentniss der952Befruchtung' 1844 page 345. Naudin 'Nouvelles Archives du Museum' tome 1953page 27.) Naudin also found in the case of Mirabilis that if only one or954two of its very large pollen-grains were placed on the stigma, the955plants raised from such seeds were dwarfed. I was therefore careful to956give an amply sufficient supply of pollen, and generally covered the957stigma with it; but I did not take any special pains to place exactly958the same amount on the stigmas of the self-fertilised and crossed959flowers. After having acted in this manner during two seasons, I960remembered that Gartner thought, though without any direct evidence,961that an excess of pollen was perhaps injurious; and it has been proved962by Spallanzani, Quatrefages, and Newport, that with various animals an963excess of the seminal fluid entirely prevents fertilisation. (1/10.964'Transactions of the Philosophical Society' 1853 pages 253-258.) It was965therefore necessary to ascertain whether the fertility of the flowers966was affected by applying a rather small and an extremely large quantity967of pollen to the stigma. Accordingly a very small mass of pollen-grains968was placed on one side of the large stigma in sixty-four flowers of969Ipomoea purpurea, and a great mass of pollen over the whole surface of970the stigma in sixty-four other flowers. In order to vary the experiment,971half the flowers of both lots were on plants produced from972self-fertilised seeds, and the other half on plants from crossed seeds.973The sixty-four flowers with an excess of pollen yielded sixty-one974capsules; and excluding four capsules, each of which contained only a975single poor seed, the remainder contained on an average 5.07 seeds per976capsule. The sixty-four flowers with only a little pollen placed on one977side of the stigma yielded sixty-three capsules, and excluding one from978the same cause as before, the remainder contained on an average 5.129979seeds. So that the flowers fertilised with little pollen yielded rather980more capsules and seeds than did those fertilised with an excess; but981the difference is too slight to be of any significance. On the other982hand, the seeds produced by the flowers with an excess of pollen were a983little heavier of the two; for 170 of them weighed 79.67 grains, whilst984170 seeds from the flowers with very little pollen weighed 79.20 grains.985Both lots of seeds having been placed on damp sand presented no986difference in their rate of germination. We may therefore conclude that987my experiments were not affected by any slight difference in the amount988of pollen used; a sufficiency having been employed in all cases.989990The order in which our subject will be treated in the present volume is991as follows. A long series of experiments will first be given in Chapters9922 to 6. Tables will afterwards be appended, showing in a condensed form993the relative heights, weights, and fertility of the offspring of the994various crossed and self-fertilised species. Another table exhibits the995striking results from fertilising plants, which during several996generations had either been self-fertilised or had been crossed with997plants kept all the time under closely similar conditions, with pollen998taken from plants of a distinct stock and which had been exposed to999different conditions. In the concluding chapters various related points1000and questions of general interest will be discussed.10011002Anyone not specially interested in the subject need not attempt to read1003all the details (marked []); though they possess, I think, some value,1004and cannot be all summarised. But I would suggest to the reader to take1005as an example the experiments on Ipomoea in Chapter 2; to which may be1006added those on Digitalis, Origanum, Viola, or the common cabbage, as in1007all these cases the crossed plants are superior to the self-fertilised1008in a marked degree, but not in quite the same manner. As instances of1009self-fertilised plants being equal or superior to the crossed, the1010experiments on Bartonia, Canna, and the common pea ought to be read; but1011in the last case, and probably in that of Canna, the want of any1012superiority in the crossed plants can be explained.10131014Species were selected for experiment belonging to widely distinct1015families, inhabiting various countries. In some few cases several genera1016belonging to the same family were tried, and these are grouped together;1017but the families themselves have been arranged not in any natural order,1018but in that which was the most convenient for my purpose. The1019experiments have been fully given, as the results appear to me of1020sufficient value to justify the details. Plants bearing hermaphrodite1021flowers can be interbred more closely than is possible with bisexual1022animals, and are therefore well-fitted to throw light on the nature and1023extent of the good effects of crossing, and on the evil effects of close1024interbreeding or self-fertilisation. The most important conclusion at1025which I have arrived is that the mere act of crossing by itself does no1026good. The good depends on the individuals which are crossed differing1027slightly in constitution, owing to their progenitors having been1028subjected during several generations to slightly different conditions,1029or to what we call in our ignorance spontaneous variation. This1030conclusion, as we shall hereafter see, is closely connected with various1031important physiological problems, such as the benefit derived from1032slight changes in the conditions of life, and this stands in the closest1033connection with life itself. It throws light on the origin of the two1034sexes and on their separation or union in the same individual, and1035lastly on the whole subject of hybridism, which is one of the greatest1036obstacles to the general acceptance and progress of the great principle1037of evolution.10381039In order to avoid misapprehension, I beg leave to repeat that throughout1040this volume a crossed plant, seedling, or seed, means one of crossed1041PARENTAGE, that is, one derived from a flower fertilised with pollen1042from a distinct plant of the same species. And that a self-fertilised1043plant, seedling, or seed, means one of self-fertilised PARENTAGE, that1044is, one derived from a flower fertilised with pollen from the same1045flower, or sometimes, when thus stated, from another flower on the same1046plant.1047104810491050CHAPTER II.10511052CONVOLVULACEAE.10531054Ipomoea purpurea, comparison of the height and fertility of the crossed1055and self-fertilised plants during ten successive generations.1056Greater constitutional vigour of the crossed plants.1057The effects on the offspring of crossing different flowers on the same1058plant, instead of crossing distinct individuals.1059The effects of a cross with a fresh stock.1060The descendants of the self-fertilised plant named Hero.1061Summary on the growth, vigour, and fertility of the successive crossed1062and self-fertilised generations.1063Small amount of pollen in the anthers of the self-fertilised plants of1064the later generations, and the sterility of their first-produced1065flowers.1066Uniform colour of the flowers produced by the self-fertilised plants.1067The advantage from a cross between two distinct plants depends on their1068differing in constitution.10691070A plant of Ipomoea purpurea, or as it is often called in England the1071convolvulus major, a native of South America, grew in my greenhouse. Ten1072flowers on this plant were fertilised with pollen from the same flower;1073and ten other flowers on the same plant were crossed with pollen from a1074distinct plant. The fertilisation of the flowers with their own pollen1075was superfluous, as this convolvulus is highly self-fertile; but I acted1076in this manner to make the experiments correspond in all respects.1077Whilst the flowers are young the stigma projects beyond the anthers; and1078it might have been thought that it could not be fertilised without the1079aid of humble-bees, which often visit the flowers; but as the flower1080grows older the stamens increase in length, and their anthers brush1081against the stigma, which thus receives some pollen. The number of seeds1082produced by the crossed and self-fertilised flowers differed very1083little.10841085[Crossed and self-fertilised seeds obtained in the above manner were1086allowed to germinate on damp sand, and as often as pairs germinated at1087the same time they were planted in the manner described in the1088Introduction (Chapter 1), on the opposite sides of two pots. Five pairs1089were thus planted; and all the remaining seeds, whether or not in a1090state of germination, were planted on the opposite sides of a third pot,1091so that the young plants on both sides were here greatly crowded and1092exposed to very severe competition. Rods of iron or wood of equal1093diameter were given to all the plants to twine up; and as soon as one of1094each pair reached the summit both were measured. A single rod was placed1095on each side of the crowded pot, Number 3, and only the tallest plant on1096each side was measured.10971098TABLE 2/1. Ipomoea purpurea (First Generation.).10991100Heights of Plants in inches:11011102Column 1: Number (Name) of Pot.11031104Column 2: Seedlings from Crossed Plants.11051106Column 3: Seedlings from Self-fertilised Plants.11071108Pot 1 : 87 4/8 : 69.1109Pot 1 : 87 4/8 : 66.1110Pot 1 : 89 : 73.11111112Pot 2 : 88 : 68 4/8.1113Pot 2 : 87 : 60 4/8.11141115Pot 3 : 77 : 57.1116Plants crowded; the tallest one measured on each side.11171118Total : 516 : 394.11191120The average height of the six crossed plants is here 86 inches, whilst1121that of the six self-fertilised plants is only 65.66 inches, so that the1122crossed plants are to the self-fertilised in height as 100 to 76. It1123should be observed that this difference is not due to a few of the1124crossed plants being extremely tall, or to a few of the self-fertilised1125being extremely short, but to all the crossed plants attaining a greater1126height than their antagonists. The three pairs in Pot 1 were measured at1127two earlier periods, and the difference was sometimes greater and1128sometimes less than that at the final measuring. But it is an1129interesting fact, of which I have seen several other instances, that one1130of the self-fertilised plants, when nearly a foot in height, was half an1131inch taller than the crossed plant; and again, when two feet high, it1132was 1 3/8 of an inch taller, but during the ten subsequent days the1133crossed plant began to gain on its antagonist, and ever afterward1134asserted its supremacy, until it exceeded its self-fertilised opponent1135by 16 inches.11361137The five crossed plants in Pots 1 and 2 were covered with a net, and1138produced 121 capsules; the five self-fertilised plants produced1139eighty-four capsules, so that the numbers of capsules were as 100 to 69.1140Of the 121 capsules on the crossed plants sixty-five were the product of1141flowers crossed with pollen from a distinct plant, and these contained1142on an average 5.23 seeds per capsule; the remaining fifty-six capsules1143were spontaneously self-fertilised. Of the eighty-four capsules on the1144self-fertilised plants, all the product of renewed self-fertilisation,1145fifty-five (which were alone examined) contained on an average 4.851146seeds per capsule. Therefore the cross-fertilised capsules, compared1147with the self-fertilised capsules, yielded seeds in the proportion of1148100 to 93. The crossed seeds were relatively heavier than the1149self-fertilised seeds. Combining the above data (i.e., number of1150capsules and average number of contained seeds), the crossed plants,1151compared with the self-fertilised, yielded seeds in the ratio of 100 to115264.11531154These crossed plants produced, as already stated, fifty-six1155spontaneously self-fertilised capsules, and the self-fertilised plants1156produced twenty-nine such capsules. The former contained on an average,1157in comparison with the latter, seeds in the proportion of 100 to 99.11581159In Pot 3, on the opposite sides of which a large number of crossed and1160self-fertilised seeds had been sown and the seedlings allowed to1161struggle together, the crossed plants had at first no great advantage.1162At one time the tallest crossed was 25 1/8 inches high, and the tallest1163self-fertilised plants 21 3/8. But the difference afterwards became much1164greater. The plants on both sides, from being so crowded, were poor1165specimens. The flowers were allowed to fertilise themselves1166spontaneously under a net; the crossed plants produced thirty-seven1167capsules, the self-fertilised plants only eighteen, or as 100 to 47. The1168former contained on an average 3.62 seeds per capsule; and the latter11693.38 seeds, or as 100 to 93. Combining these data (i.e., number of1170capsules and average number of seeds), the crowded crossed plants1171produced seeds compared with the self-fertilised as 100 to 45. These1172latter seeds, however, were decidedly heavier, a hundred weighing 41.641173grains, than those from the capsules on the crossed plants, of which a1174hundred weighed 36.79 grains; and this probably was due to the fewer1175capsules borne by the self-fertilised plants having been better1176nourished. We thus see that the crossed plants in this the first1177generation, when grown under favourable conditions, and when grown under1178unfavourable conditions from being much crowded, greatly exceeded in1179height, and in the number of capsules produced, and slightly in the1180number of seeds per capsule, the self-fertilised plants.11811182CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.11831184Flowers on the crossed plants of the last generation (Table 2/1) were1185crossed by pollen from distinct plants of the same generation; and1186flowers on the self-fertilised plants were fertilised by pollen from the1187same flower. The seeds thus produced were treated in every respect as1188before, and we have in Table 2/2 the result.11891190TABLE 2/2. Ipomoea purpurea (Second Generation.).11911192Heights of Plants in inches:11931194Column 1: Number (Name) of Pot.11951196Column 2: Crossed Plants.11971198Column 3: Self-fertilised Plants.11991200Pot 1 : 87 : 67 4/8.1201Pot 1 : 83 : 68 4/8.1202Pot 1 : 83 : 80 4/8.12031204Pot 2 : 85 4/8 : 61 4/8.1205Pot 2 : 89 : 79.1206Pot 2 : 77 4/8 : 41.12071208Total : 505 : 398.12091210Here again every single crossed plant is taller than its antagonist. The1211self-fertilised plant in Pot 1, which ultimately reached the unusual1212height of 80 4/8 inches, was for a long time taller than the opposed1213crossed plant, though at last beaten by it. The average height of the1214six crossed plants is 84.16 inches, whilst that of the six1215self-fertilised plants is 66.33 inches, or as 100 to 79.12161217CROSSED AND SELF-FERTILISED PLANTS OF THE THIRD GENERATION.12181219Seeds from the crossed plants of the last generation (Table 2/2) again1220crossed, and from the self-fertilised plants again self-fertilised, were1221treated in all respects exactly as before, with the following result:--12221223TABLE 2/3. Ipomoea purpurea (Third Generation.).12241225Heights of Plants in inches:12261227Column 1: Number (Name) of Pot.12281229Column 2: Crossed Plants.12301231Column 3: Self-fertilised Plants.12321233Pot 1 : 74 : 56 4/8.1234Pot 1 : 72 : 51 4/8.1235Pot 1 : 73 4/8 : 54.12361237Pot 2 : 82 : 59.1238Pot 2 : 81 : 30.1239Pot 2 : 82 : 66.12401241Total : 464.5 : 317.12421243Again all the crossed plants are higher than their antagonists: their1244average height is 77.41 inches, whereas that of the self-fertilised is124552.83 inches, or as 100 to 68.12461247I attended closely to the fertility of the plants of this third1248generation. Thirty flowers on the crossed plants were crossed with1249pollen from other crossed plants of the same generation, and the1250twenty-six capsules thus produced contained, on an average, 4.73 seeds;1251whilst thirty flowers on the self-fertilised plants, fertilised with the1252pollen from the same flower, produced twenty-three capsules, each1253containing 4.43 seeds. Thus the average number of seeds in the crossed1254capsules was to that in the self-fertilised capsules as 100 to 94. A1255hundred of the crossed seeds weighed 43.27 grains, whilst a hundred of1256the self-fertilised seeds weighed only 37.63 grains. Many of these1257lighter self-fertilised seeds placed on damp sand germinated before the1258crossed; thus thirty-six of the former germinated whilst only thirteen1259of the latter or crossed seeds germinated. In Pot 1 the three crossed1260plants produced spontaneously under the net (besides the twenty-six1261artificially cross-fertilised capsules) seventy-seven self-fertilised1262capsules containing on an average 4.41 seeds; whilst the three1263self-fertilised plants produced spontaneously (besides the twenty-three1264artificially self-fertilised capsules) only twenty-nine self-fertilised1265capsules, containing on an average 4.14 seeds. Therefore the average1266number of seeds in the two lots of spontaneously self-fertilised1267capsules was as 100 to 94. Taking into consideration the number of1268capsules together with the average number of seeds, the crossed plants1269(spontaneously self-fertilised) produced seeds in comparison with the1270self-fertilised plants (spontaneously self-fertilised) in the proportion1271of 100 to 35. By whatever method the fertility of these plants is1272compared, the crossed are more fertile than the self-fertilised plants.12731274I tried in several ways the comparative vigour and powers of growth of1275the crossed and self-fertilised plants of this third generation. Thus,1276four self-fertilised seeds which had just germinated were planted on one1277side of a pot, and after an interval of forty-eight hours, four crossed1278seeds in the same state of germination were planted on the opposite1279side; and the pot was kept in the hothouse. I thought that the advantage1280thus given to the self-fertilised seedlings would have been so great1281that they would never have been beaten by the crossed ones. They were1282not beaten until all had grown to a height of 18 inches; and the degree1283to which they were finally beaten is shown in Table 2/4. We here see1284that the average height of the four crossed plants is 76.62, and of the1285four self-fertilised plants 65.87 inches, or as 100 to 86; therefore1286less than when both sides started fair.12871288TABLE 2/4. Ipomoea purpurea (Third Generation, the self-fertilised1289plants having had a start of forty-eight hours).12901291Heights of Plants in inches:12921293Column 1: Number (Name) of Pot.12941295Column 2: Crossed Plants.12961297Column 3: Self-fertilised Plants.12981299Pot 3 : 78 4/8 : 73 4/8.1300Pot 3 : 77 4/8 : 53.1301Pot 3 : 73 : 61 4/8.1302Pot 3 : 77 4/8 : 75 4/8.13031304Total : 306.5 : 263.5.13051306Crossed and self-fertilised seeds of the third generation were also sown1307out of doors late in the summer, and therefore under unfavourable1308conditions, and a single stick was given to each lot of plants to twine1309up. The two lots were sufficiently separate so as not to interfere with1310each other's growth, and the ground was clear of weeds. As soon as they1311were killed by the first frost (and there was no difference in their1312hardiness), the two tallest crossed plants were found to be 24.5 and131322.5 inches, whilst the two tallest self-fertilised plants were only 151314and 12.5 inches in height, or as 100 to 59.13151316I likewise sowed at the same time two lots of the same seeds in a part1317of the garden which was shady and covered with weeds. The crossed1318seedlings from the first looked the most healthy, but they twined up a1319stick only to a height of 7 1/4 inches; whilst the self-fertilised were1320not able to twine at all; and the tallest of them was only 3 1/2 inches1321in height.13221323Lastly, two lots of the same seeds were sown in the midst of a bed of1324candy-tuft (Iberis) growing vigorously. The seedlings came up, but all1325the self-fertilised ones soon died excepting one, which never twined and1326grew to a height of only 4 inches. Many of the crossed seedlings, on the1327other hand, survived; and some twined up the stems of the Iberis to the1328height of 11 inches. These cases prove that the crossed seedlings have1329an immense advantage over the self-fertilised, both when growing1330isolated under very unfavourable conditions, and when put into1331competition with each other or with other plants, as would happen in a1332state of nature.13331334CROSSED AND SELF-FERTILISED PLANTS OF THE FOURTH GENERATION.13351336Seedlings raised as before from the crossed and self-fertilised plants1337of the third generation in Table 2/3, gave results as follows:--13381339TABLE 2/5. Ipomoea purpurea (Fourth Generation).13401341Heights of Plants in inches:13421343Column 1: Number (Name) of Pot.13441345Column 2: Crossed Plants.13461347Column 3: Self-fertilised Plants.13481349Pot 1 : 84 : 80.1350Pot 1 : 47 : 44 1/2.13511352Pot 2 : 83 : 73 1/2.1353Pot 2 : 59 : 51 1/2.13541355Pot 3 : 82 : 56 1/2.1356Pot 3 : 65 1/2 : 63.1357Pot 3 : 68 : 52.13581359Total : 488.5 : 421.0.13601361Here the average height of the seven crossed plants is 69.78 inches, and1362that of the seven self-fertilised plants 60.14; or as 100 to 86. This1363smaller difference relatively to that in the former generations, may be1364attributed to the plants having been raised during the depth of winter,1365and consequently to their not having grown vigorously, as was shown by1366their general appearance and from several of them never reaching the1367summits of the rods. In Pot 2, one of the self-fertilised plants was for1368a long time taller by two inches than its opponent, but was ultimately1369beaten by it, so that all the crossed plants exceeded their opponents in1370height. Of twenty-eight capsules produced by the crossed plants1371fertilised by pollen from a distinct plant, each contained on an average13724.75 seeds; of twenty-seven self-fertilised capsules on the1373self-fertilised plants, each contained on an average 4.47 seeds; so that1374the proportion of seeds in the crossed and self-fertilised capsules was1375as 100 to 94.13761377Some of the same seeds, from which the plants in Table 2/5 had been1378raised, were planted, after they had germinated on damp sand, in a1379square tub, in which a large Brugmansia had long been growing. The soil1380was extremely poor and full of roots; six crossed seeds were planted in1381one corner, and six self-fertilised seeds in the opposite corner. All1382the seedlings from the latter soon died excepting one, and this grew to1383the height of only 1 1/2 inches. Of the crossed plants three survived,1384and they grew to the height of 2 1/2 inches, but were not able to twine1385round a stick; nevertheless, to my surprise, they produced some small1386miserable flowers. The crossed plants thus had a decided advantage over1387the self-fertilised plants under this extremity of bad conditions.13881389CROSSED AND SELF-FERTILISED PLANTS OF THE FIFTH GENERATION.13901391These were raised in the same manner as before, and when measured gave1392the following results:--13931394TABLE 2/6. Ipomoea purpurea (Fifth Generation).13951396Heights of Plants in inches:13971398Column 1: Number (Name) of Pot.13991400Column 2: Crossed Plants.14011402Column 3: Self-fertilised Plants.14031404Pot 1 : 96 : 73.1405Pot 1 : 86 : 78.1406Pot 1 : 69 : 29.14071408Pot 2 : 84 : 51.1409Pot 2 : 84 : 84.1410Pot 2 : 76 1/4 : 59.14111412Total : 495.25 : 374.00.14131414The average height of the six crossed plants is 82.54 inches, and that1415of the six self-fertilised plants 62.33 inches, or as 100 to 75. Every1416crossed plant exceeded its antagonist in height. In Pot 1 the middle1417plant on the crossed side was slightly injured whilst young by a blow,1418and was for a time beaten by its opponent, but ultimately recovered the1419usual superiority. The crossed plants produced spontaneously a vast1420number more capsules than did the self-fertilised plants; and the1421capsules of the former contained on an average 3.37 seeds, whilst those1422of the latter contained only 3.0 per capsule, or as 100 to 89. But1423looking only to the artificially fertilised capsules, those on the1424crossed plants again crossed contained on an average 4.46 seeds, whilst1425those on the self-fertilised plants again self-fertilised contained 4.771426seeds; so that the self-fertilised capsules were the more fertile of the1427two, and of this unusual fact I can offer no explanation.14281429CROSSED AND SELF-FERTILISED PLANTS OF THE SIXTH GENERATION.14301431These were raised in the usual manner, with the following result. I1432should state that there were originally eight plants on each side; but1433as two of the self-fertilised became extremely unhealthy and never grew1434to near their full height, these as well as their opponents have been1435struck out of the list. If they had been retained, they would have made1436the average height of the crossed plants unfairly greater than that of1437the self-fertilised. I have acted in the same manner in a few other1438instances, when one of a pair plainly became very unhealthy.14391440TABLE 2/7. Ipomoea purpurea (Sixth Generation).14411442Heights of Plants in inches:14431444Column 1: Number (Name) of Pot.14451446Column 2: Crossed Plants.14471448Column 3: Self-fertilised Plants.14491450Pot 1 : 93 : 50 1/2.1451Pot 1 : 91 : 65.14521453Pot 2 : 79 : 50.1454Pot 2 : 86 1/2 : 87.1455Pot 2 : 88 : 62.14561457Pot 3 : 87 1/2 : 64 1/2.14581459Total : 525 : 379.14601461The average height of the six crossed plants is here 87.5, and of the1462six self-fertilised plants 63.16, or as 100 to 72. This large difference1463was chiefly due to most of the plants, especially the self-fertilised1464ones, having become unhealthy towards the close of their growth, and1465they were severely attacked by aphides. From this cause nothing can be1466inferred with respect to their relative fertility. In this generation we1467have the first instance of a self-fertilised plant in Pot 2 exceeding1468(though only by half an inch) its crossed opponent. This victory was1469fairly won after a long struggle. At first the self-fertilised plant was1470several inches taller than its opponent, but when the latter was 4 1/21471feet high it had grown equal; it then grew a little taller than the1472self-fertilised plant, but was ultimately beaten by it to the extent of1473half an inch, as shown in Table 2/7. I was so much surprised at this1474case that I saved the self-fertilised seeds of this plant, which I will1475call the "Hero," and experimented on its descendants, as will hereafter1476be described.14771478Besides the plants included in Table 2/7, nine crossed and nine1479self-fertilised plants of the same lot were raised in two other pots, 41480and 5. These pots had been kept in the hothouse, but from want of room1481were, whilst the plants were young, suddenly moved during very cold1482weather into the coldest part of the greenhouse. They all suffered1483greatly, and never quite recovered. After a fortnight only two of the1484nine self-fertilised seedlings were alive, whilst seven of the crossed1485survived. The tallest of these latter plants when measured was 47 inches1486in height, whilst the tallest of the two surviving self-fertilised1487plants was only 32 inches. Here again we see how much more vigorous the1488crossed plants are than the self-fertilised.14891490CROSSED AND SELF-FERTILISED PLANTS OF THE SEVENTH GENERATION.14911492These were raised as heretofore with the following result:--14931494TABLE 2/8. Ipomoea purpurea (Seventh Generation).14951496Heights of Plants in inches:14971498Column 1: Number (Name) of Pot.14991500Column 2: Crossed Plants.15011502Column 3: Self-fertilised Plants.15031504Pot 1 : 84 4/8 : 74 6/8.1505Pot 1 : 84 6/8 : 84.1506Pot 1 : 76 2/8 : 55 4/8.15071508Pot 2 : 84 4/8 : 65.1509Pot 2 : 90 : 51 2/8.1510Pot 2 : 82 2/8 : 80 4/8.15111512Pot 3 : 83 : 67 6/8.1513Pot 3 : 86 : 60 2/8.15141515Pot 4 : 84 2/8 : 75 2/8.15161517Total : 755.50 : 614.25.15181519Each of these nine crossed plants is higher than its opponent, though in1520one case only by three-quarters of an inch. Their average height is152183.94 inches, and that of the self-fertilised plants 68.25, or as 100 to152281. These plants, after growing to their full height, became very1523unhealthy and infested with aphides, just when the seeds were setting,1524so that many of the capsules failed, and nothing can be said on their1525relative fertility.15261527CROSSED AND SELF-FERTILISED PLANTS OF THE EIGHTH GENERATION.15281529As just stated, the plants of the last generation, from which the1530present ones were raised, were very unhealthy and their seeds of1531unusually small size; and this probably accounts for the two lots1532behaving differently to what they did in any of the previous or1533succeeding generations. Many of the self-fertilised seeds germinated1534before the crossed ones, and these were of course rejected. When the1535crossed seedlings in Table 2/9 had grown to a height of between 1 and 21536feet, they were all, or almost all, shorter than their self-fertilised1537opponents, but were not then measured. When they had acquired an average1538height of 32.28 inches, that of the self-fertilised plants was 40.68, or1539as 100 to 122. Moreover, every one of the self-fertilised plants, with a1540single exception, exceeded its crossed opponent. When, however, the1541crossed plants had grown to an average height of 77.56 inches, they just1542exceeded (namely, by .7 of an inch) the average height of the1543self-fertilised plants; but two of the latter were still taller than1544their crossed opponents. I was so much astonished at this whole case,1545that I tied string to the summits of the rods; the plants being thus1546allowed to continue climbing upwards. When their growth was complete1547they were untwined, stretched straight, and measured. The crossed plants1548had now almost regained their accustomed superiority, as may be seen in1549Table 2/9.15501551The average height of the eight crossed plants is here 113.25 inches,1552and that of the self-fertilised plants 96.65, or as 100 to 85.1553Nevertheless two of the self-fertilised plants, as may be seen in Table15542/9, were still higher than their crossed opponents. The latter1555manifestly had much thicker stems and many more lateral branches, and1556looked altogether more vigorous than the self-fertilised plants, and1557generally flowered before them. The earlier flowers produced by these1558self-fertilised plants did not set any capsules, and their anthers1559contained only a small amount of pollen; but to this subject I shall1560return. Nevertheless capsules produced by two other self-fertilised1561plants of the same lot, not included in Table 2/9, which had been highly1562favoured by being grown in separate pots, contained the large average1563number of 5.1 seeds per capsule.15641565TABLE 2/9. Ipomoea purpurea (Eighth Generation).15661567Heights of Plants in inches:15681569Column 1: Number (Name) of Pot.15701571Column 2: Crossed Plants.15721573Column 3: Self-fertilised Plants.15741575Pot 1 : 111 6/8 : 96.1576Pot 1 : 127 : 54.1577Pot 1 : 130 6/8 : 93 4/8.15781579Pot 2 : 97 2/8 : 94.1580Pot 2 : 89 4/8 : 125 6/8.15811582Pot 3 : 103 6/8 : 115 4/8.1583Pot 3 : 100 6/8 : 84 6/8.1584Pot 3 : 147 4/8 : 109 6/8.15851586Total : 908.25 : 773.25.15871588CROSSED AND SELF-FERTILISED PLANTS OF THE NINTH GENERATION.15891590The plants of this generation were raised in the same manner as before,1591with the result shown in Table 2/10.15921593The fourteen crossed plants average in height 81.39 inches and the1594fourteen self-fertilised plants 64.07, or as 100 to 79. One1595self-fertilised plant in Pot 3 exceeded, and one in Pot 4 equalled in1596height, its opponent. The self-fertilised plants showed no sign of1597inheriting the precocious growth of their parents; this having been due,1598as it would appear, to the abnormal state of the seeds from the1599unhealthiness of their parents. The fourteen self-fertilised plants1600yielded only forty spontaneously self-fertilised capsules, to which must1601be added seven, the product of ten flowers artificially self-fertilised.1602On the other hand, the fourteen crossed plants yielded 152 spontaneously1603self-fertilised capsules; but thirty-six flowers on these plants were1604crossed (yielding thirty-three capsules), and these flowers would1605probably have produced about thirty spontaneously self-fertilised1606capsules. Therefore an equal number of the crossed and self-fertilised1607plants would have produced capsules in the proportion of about 182 to160847, or as 100 to 26. Another phenomenon was well pronounced in this1609generation, but I believe had occurred previously to a slight extent;1610namely, that most of the flowers on the self-fertilised plants were1611somewhat monstrous. The monstrosity consisted in the corolla being1612irregularly split so that it did not open properly, with one or two of1613the stamens slightly foliaceous, coloured, and firmly coherent to the1614corolla. I observed this monstrosity in only one flower on the crossed1615plants. The self-fertilised plants, if well nourished, would almost1616certainly, in a few more generations, have produced double flowers, for1617they had already become in some degree sterile. (2/1. See on this1618subject 'Variation of Animals and Plants under Domestication' chapter 1816192nd edition volume 2 page 152.)16201621TABLE 2/10. Ipomoea purpurea (Ninth Generation).16221623Heights of Plants in inches:16241625Column 1: Number (Name) of Pot.16261627Column 2: Crossed Plants.16281629Column 3: Self-fertilised Plants.16301631Pot 1 : 83 4/8 : 57.1632Pot 1 : 85 4/8 : 71.1633Pot 1 : 83 4/8 : 48 3/8.16341635Pot 2 : 83 2/8 : 45.1636Pot 2 : 64 2/8 : 43 6/8.1637Pot 2 : 64 3/8 : 38 4/8.16381639Pot 3 : 79 : 63.1640Pot 3 : 88 1/8 : 71.1641Pot 3 : 61 : 89 4/8.16421643Pot 4 : 82 4/8 : 82 4/8.1644Pot 4 : 90 : 76 1/8.16451646Pot 5 : 89 4/8 : 67.1647Pot 5 : 92 4/8 : 74 2/8.1648Pot 5 : 92 4/8 : 70.1649Crowded plants.16501651Total : 1139.5 : 897.0.16521653CROSSED AND SELF-FERTILISED PLANTS OF THE TENTH GENERATION.16541655Six plants were raised in the usual manner from the crossed plants of1656the last generation (Table 2/10) again intercrossed, and from the1657self-fertilised again self-fertilised. As one of the crossed plants in1658Pot 1 in Table 2/11 became much diseased, having crumpled leaves, and1659producing hardly any capsules, it and its opponent have been struck out1660of the table.16611662TABLE 2/11. Ipomoea purpurea (Tenth Generation).16631664Heights of Plants in inches:16651666Column 1: Number (Name) of Pot.16671668Column 2: Crossed Plants.16691670Column 3: Self-fertilised Plants.16711672Pot 1 : 92 3/8 : 47 2/8.1673Pot 1 : 94 4/8 : 34 6/8.16741675Pot 2 : 87 : 54 4/8.1676Pot 2 : 89 5/8 : 49 2/8.1677Pot 2 : 105 : 66 2/8.16781679Total : 468.5 : 252.0.16801681The five crossed plants average 93.7 inches, and the five1682self-fertilised only 50.4, or as 100 to 54. This difference, however, is1683so great that it must be looked at as in part accidental. The six1684crossed plants (the diseased one here included) yielded spontaneously1685101 capsules, and the six self-fertilised plants 88, the latter being1686chiefly produced by one of the plants. But as the diseased plant, which1687yielded hardly any seed, is here included, the ratio of 101 to 88 does1688not fairly give the relative fertility of the two lots. The stems of the1689six crossed plants looked so much finer than those of the six1690self-fertilised plants, that after the capsules had been gathered and1691most of the leaves had fallen off, they were weighed. Those of the1692crossed plants weighed 2,693 grains, whilst those of the self-fertilised1693plants weighed only 1,173 grains, or as 100 to 44; but as the diseased1694and dwarfed crossed plant is here included, the superiority of the1695former in weight was really greater.]16961697THE EFFECTS ON THE OFFSPRING OF CROSSING DIFFERENT FLOWERS ON THE SAME1698PLANT, INSTEAD OF CROSSING DISTINCT INDIVIDUALS.16991700In all the foregoing experiments, seedlings from flowers crossed by1701pollen from a distinct plant (though in the later generations more or1702less closely related) were put into competition with, and almost1703invariably proved markedly superior in height to the offspring from1704self-fertilised flowers. I wished, therefore, to ascertain whether a1705cross between two flowers on the same plant would give to the offspring1706any superiority over the offspring from flowers fertilised with their1707own pollen. I procured some fresh seed and raised two plants, which were1708covered with a net; and several of their flowers were crossed with1709pollen from a distinct flower on the same plant. Twenty-nine capsules1710thus produced contained on an average 4.86 seeds per capsule; and 100 of1711these seeds weighed 36.77 grains. Several other flowers were fertilised1712with their own pollen, and twenty-six capsules thus produced contained1713on an average 4.42 seeds per capsule; 100 of which weighed 42.61 grains.1714So that a cross of this kind appears to have increased slightly the1715number of seeds per capsule, in the ratio of 100 to 91; but these1716crossed seeds were lighter than the self-fertilised in the ratio of 861717to 100. I doubt, however, from other observations, whether these results1718are fully trustworthy. The two lots of seeds, after germinating on sand,1719were planted in pairs on the opposite sides of nine pots, and were1720treated in every respect like the plants in the previous experiments.1721The remaining seeds, some in a state of germination and some not so,1722were sown on the opposite sides of a large pot (Number 10); and the four1723tallest plants on each side of this pot were measured. The result is1724shown in Table 2/12.17251726TABLE 2/12. Ipomoea purpurea.17271728Heights of Plants in inches:17291730Column 1: Number (Name) of Pot.17311732Column 2: Crossed Plants.17331734Column 3: Self-fertilised Plants.17351736Pot 1 : 82 : 77 4/8.1737Pot 1 : 75 : 87.1738Pot 1 : 65 : 64.1739Pot 1 : 76 : 87 2/8.17401741Pot 2 : 78 4/8 : 84.1742Pot 2 : 43 : 86 4/8.1743Pot 2 : 65 4/8 : 90 4/8.17441745Pot 3 : 61 2/8 : 86.1746Pot 3 : 85 : 69 4/8.1747Pot 3 : 89 : 87 4/8.17481749Pot 4 : 83 : 80 4/8.1750Pot 4 : 73 4/8 : 88 4/8.1751Pot 4 : 67 : 84 4/8.17521753Pot 5 : 78 : 66 4/8.1754Pot 5 : 76 6/8 : 77 4/8.1755Pot 5 : 57 : 81 4/8.17561757Pot 6 : 70 4/8 : 80.1758Pot 6 : 79 : 82 4/8.1759Pot 6 : 79 6/8 : 55 4/8.17601761Pot 7 : 76 : 77.1762Pot 7 : 84 4/8 : 83 4/8.1763Pot 7 : 79 : 73 4/8.17641765Pot 8 : 73 : 76 4/8.1766Pot 8 : 67 : 82.1767Pot 8 : 83 : 80 4/8.17681769Pot 9 : 73 2/8 : 78 4/8.1770Pot 9 : 78 : 67 4/8.17711772Pot 10 : 34 : 82 4/8.1773Pot 10 : 82 : 36 6/8.1774Pot 10 : 84 6/8 : 69 4/8.1775Pot 10 : 71 : 75 2/8.1776Crowded plants.17771778Total : 2270.25 : 2399.75.17791780The average height of the thirty-one crossed plants is 73.23 inches, and1781that of the thirty-one self-fertilised plants 77.41 inches; or as 100 to1782106. Looking to each pair, it may be seen that only thirteen of the1783crossed plants, whilst eighteen of the self-fertilised plants exceed1784their opponents. A record was kept with respect to the plant which1785flowered first in each pot; and only two of the crossed flowered before1786one of the self-fertilised in the same pot; whilst eight of the1787self-fertilised flowered first. It thus appears that the crossed plants1788are slightly inferior in height and in earliness of flowering to the1789self-fertilised. But the inferiority in height is so small, namely as1790100 to 106, that I should have felt very doubtful on this head, had I1791not cut down all the plants (except those in the crowded pot Number 10)1792close to the ground and weighed them. The twenty-seven crossed plants1793weighed 16 1/2 ounces, and the twenty-seven self-fertilised plants 2017941/2 ounces; and this gives a ratio of 100 to 124.17951796A self-fertilised plant of the same parentage as those in Table 2/12 had1797been raised in a separate pot for a distinct purpose; and it proved1798partially sterile, the anthers containing very little pollen. Several1799flowers on this plant were crossed with the little pollen which could be1800obtained from the other flowers on the same plant; and other flowers1801were self-fertilised. From the seeds thus produced four crossed and four1802self-fertilised plants were raised, which were planted in the usual1803manner on the opposite sides of two pots. All these four crossed plants1804were inferior in height to their opponents; they averaged 78.18 inches,1805whilst the four self-fertilised plants averaged 84.8 inches; or as 1001806to 108. (2/2. From one of these self-fertilised plants, spontaneously1807self-fertilised, I gathered twenty-four capsules, and they contained on1808an average only 3.2 seeds per capsule; so that this plant had apparently1809inherited some of the sterility of its parent.) This case, therefore,1810confirms the last. Taking all the evidence together, we must conclude1811that these strictly self-fertilised plants grew a little taller, were1812heavier, and generally flowered before those derived from a cross1813between two flowers on the same plant. These latter plants thus present1814a wonderful contrast with those derived from a cross between two1815distinct individuals.18161817THE EFFECTS ON THE OFFSPRING OF A CROSS WITH A DISTINCT OR FRESH STOCK1818BELONGING TO THE SAME VARIETY.18191820From the two foregoing series of experiments we see, firstly, the good1821effects during several successive generations of a cross between1822distinct plants, although these were in some degree inter-related and1823had been grown under nearly the same conditions; and, secondly, the1824absence of all such good effects from a cross between flowers on the1825same plant; the comparison in both cases being made with the offspring1826of flowers fertilised with their own pollen. The experiments now to be1827given show how powerfully and beneficially plants, which have been1828intercrossed during many successive generations, having been kept all1829the time under nearly uniform conditions, are affected by a cross with1830another plant belonging to the same variety, but to a distinct family or1831stock, which had grown under different conditions.18321833[Several flowers on the crossed plants of the ninth generation in Table18342/10, were crossed with pollen from another crossed plant of the same1835lot. The seedlings thus raised formed the tenth intercrossed generation,1836and I will call them the "INTERCROSSED PLANTS." Several other flowers on1837the same crossed plants of the ninth generation were fertilised (not1838having been castrated) with pollen taken from plants of the same1839variety, but belonging to a distinct family, which had been grown in a1840distant garden at Colchester, and therefore under somewhat different1841conditions. The capsules produced by this cross contained, to my1842surprise, fewer and lighter seeds than did the capsules of the1843intercrossed plants; but this, I think, must have been accidental. The1844seedlings raised from them I will call the "COLCHESTER-CROSSED." The two1845lots of seeds, after germinating on sand, were planted in the usual1846manner on the opposite sides of five pots, and the remaining seeds,1847whether or not in a state of germination, were thickly sown on the1848opposite sides of a very large pot, Number 6 in Table 2/13. In three of1849the six pots, after the young plants had twined a short way up their1850sticks, one of the Colchester-crossed plants was much taller than any1851one of the intercrossed plants on the opposite side of the same pot; and1852in the three other pots somewhat taller. I should state that two of the1853Colchester-crossed plants in Pot 4, when about two-thirds grown, became1854much diseased, and were, together with their intercrossed opponents,1855rejected. The remaining nineteen plants, when almost fully grown, were1856measured, with the following result:18571858TABLE 2/13. Ipomoea purpurea.18591860Heights of Plants in inches:18611862Column 1: Number (Name) of Pot.18631864Column 2: Colchester-Crossed Plants.18651866Column 3: Intercrossed Plants of the Tenth Generation.18671868Pot 1 : 87 : 78.1869Pot 1 : 87 4/8 : 68 4/8.1870Pot 1 : 85 1/8 : 94 4/8.18711872Pot 2 : 93 6/8 : 60.1873Pot 2 : 85 4/8 : 87 2/8.1874Pot 2 : 90 5/8 : 45 4/8.18751876Pot 3 : 84 2/8 : 70 1/8.1877Pot 3 : 92 4/8 : 81 6/8.1878Pot 3 : 85 : 86 2/8.18791880Pot 4 : 95 6/8 : 65 1/8.18811882Pot 5 : 90 4/8 : 85 6/8.1883Pot 5 : 86 6/8 : 63.1884Pot 5 : 84 : 62 6/8.18851886Pot 6 : 90 4/8 : 43 4/8.1887Pot 6 : 75 : 39 6/8.1888Pot 6 : 71 : 30 2/8.1889Pot 6 : 83 6/8 : 86.1890Pot 6 : 63 : 53.1891Pot 6 : 65 : 48 6/8.1892Crowded plants in a very large pot.18931894Total : 1596.50 : 1249.75.18951896In sixteen out of these nineteen pairs, the Colchester-crossed plant1897exceeded in height its intercrossed opponent. The average height of the1898Colchester-crossed is 84.03 inches, and that of the intercrossed 65.781899inches; or as 100 to 78. With respect to the fertility of the two lots,1900it was too troublesome to collect and count the capsules on all the1901plants; so I selected two of the best pots, 5 and 6, and in these the1902Colchester-crossed produced 269 mature and half-mature capsules, whilst1903an equal number of the intercrossed plants produced only 154 capsules;1904or as 100 to 57. By weight the capsules from the Colchester-crossed1905plants were to those from the intercrossed plants as 100 to 51; so that1906the former probably contained a somewhat larger average number of1907seeds.]19081909We learn from this important experiment that plants in some degree1910related, which had been intercrossed during the nine previous1911generations, when they were fertilised with pollen from a fresh stock,1912yielded seedlings as superior to the seedlings of the tenth intercrossed1913generation, as these latter were to the self-fertilised plants of the1914corresponding generation. For if we look to the plants of the ninth1915generation in Table 2/10 (and these offer in most respects the fairest1916standard of comparison) we find that the intercrossed plants were in1917height to the self-fertilised as 100 to 79, and in fertility as 100 to191826; whilst the Colchester-crossed plants are in height to the1919intercrossed as 100 to 78, and in fertility as 100 to 51.19201921[THE DESCENDANTS OF THE SELF-FERTILISED PLANT, NAMED HERO, WHICH1922APPEARED IN THE SIXTH SELF-FERTILISED GENERATION.19231924In the five generations before the sixth, the crossed plant of each pair1925was taller than its self-fertilised opponent; but in the sixth1926generation (Table 2/7, Pot 2) the Hero appeared, which after a long and1927dubious struggle conquered its crossed opponent, though by only half an1928inch. I was so much surprised at this fact, that I resolved to ascertain1929whether this plant would transmit its powers of growth to its seedlings.1930Several flowers on Hero were therefore fertilised with their own pollen,1931and the seedlings thus raised were put into competition with1932self-fertilised and intercrossed plants of the corresponding generation.1933The three lots of seedlings thus all belong to the seventh generation.1934Their relative heights are shown in Tables 2/14 and 2/15.19351936TABLE 2/14. Ipomoea purpurea.19371938Heights of Plants in inches:19391940Column 1: Number (Name) of Pot.19411942Column 2: Self-fertilised Plants of the Seventh Generation, Children of1943Hero.19441945Column 3: Self-fertilised Plants of the Seventh Generation.19461947Pot 1 : 74 : 89 4/8.1948Pot 1 : 60 : 61.1949Pot 1 : 55 2/8 : 49.19501951Pot 2 : 92 : 82.1952Pot 2 : 91 6/8 : 56.1953Pot 2 : 74 2/8 : 38.19541955Total : 447.25 : 375.50.19561957The average height of the six self-fertilised children of Hero is 74.541958inches, whilst that of the ordinary self-fertilised plants of the1959corresponding generation is only 62.58 inches, or as 100 to 84.19601961TABLE 2/15. Ipomoea purpurea.19621963Heights of Plants in inches:19641965Column 1: Number (Name) of Pot.19661967Column 2: Self-fertilised Plants of the Seventh Generation, Children of1968Hero.19691970Column 3: Intercrossed Plants of the Seventh Generation.19711972Pot 3 : 92 : 76 6/8.19731974Pot 4 : 87 : 89.1975Pot 4 : 87 6/8 : 86 6/8.19761977Total : 266.75 : 252.50.19781979Here the average height of the three self-fertilised children of Hero is198088.91 inches, whilst that of the intercrossed plants is 84.16; or as 1001981to 95. We thus see that the self-fertilised children of Hero certainly1982inherit the powers of growth of their parents; for they greatly exceed1983in height the self-fertilised offspring of the other self-fertilised1984plants, and even exceed by a trifle the intercrossed plants,--all of the1985corresponding generation.19861987Several flowers on the self-fertilised children of Hero in Table 2/141988were fertilised with pollen from the same flower; and from the seeds1989thus produced, self-fertilised plants of the eighth generation1990(grandchildren of Hero) were raised. Several other flowers on the same1991plants were crossed with pollen from the other children of Hero. The1992seedlings raised from this cross may be considered as the offspring of1993the union of brothers and sisters. The result of the competition between1994these two sets of seedlings (namely self-fertilised and the offspring of1995brothers and sisters) is given in Table 2/16.19961997TABLE 2/16. Ipomoea purpurea.19981999Heights of Plants in inches:20002001Column 1: Number (Name) of Pot.20022003Column 2: Self-fertilised Grandchildren of Hero, from the2004Self-fertilised Children. Eighth Generation.20052006Column 3: Grandchildren from a cross between the self-fertilised2007children of Hero. Eighth Generation.20082009Pot 1 : 86 6/8 : 95 6/8.2010Pot 1 : 90 3/8 : 95 3/8.20112012Pot 2 : 96 : 85.2013Pot 2 : 77 2/8 : 93.20142015Pot 3 : 73 : 86 2/8.2016Pot 3 : 66 : 82 2/8.2017Pot 3 : 84 4/8 : 70 6/8.20182019Pot 4 : 88 1/8 : 66 3/8.2020Pot 4 : 84 : 15 4/8.2021Pot 4 : 36 2/8 : 38.2022Pot 4 : 74 : 78 3/8.20232024Pot 5 : 90 1/8 : 82 6/8.2025Pot 5 : 90 5/8 : 83 6/8.20262027Total : 1037.00 : 973.16.20282029The average height of the thirteen self-fertilised grandchildren of Hero2030is 79.76 inches, and that of the grandchildren from a cross between the2031self-fertilised children is 74.85; or as 100 to 94. But in Pot 4 one of2032the crossed plants grew only to a height of 15 1/2 inches; and if this2033plant and its opponent are struck out, as would be the fairest plan, the2034average height of the crossed plants exceeds only by a fraction of an2035inch that of the self-fertilised plants. It is therefore clear that a2036cross between the self-fertilised children of Hero did not produce any2037beneficial effect worth notice; and it is very doubtful whether this2038negative result can be attributed merely to the fact of brothers and2039sisters having been united, for the ordinary intercrossed plants of the2040several successive generations must often have been derived from the2041union of brothers and sisters (as shown in Chapter 1), and yet all of2042them were greatly superior to the self-fertilised plants. We are2043therefore driven to the suspicion, which we shall soon see strengthened,2044that Hero transmitted to its offspring a peculiar constitution adapted2045for self-fertilisation.20462047It would appear that the self-fertilised descendants of Hero have not2048only inherited from Hero a power of growth equal to that of the ordinary2049intercrossed plants, but have become more fertile when self-fertilised2050than is usual with the plants of the present species. The flowers on the2051self-fertilised grandchildren of Hero in Table 2.16 (the eighth2052generation of self-fertilised plants) were fertilised with their own2053pollen and produced plenty of capsules, ten of which (though this is too2054few a number for a safe average) contained 5.2 seeds per capsule,--a2055higher average than was observed in any other case with the2056self-fertilised plants. The anthers produced by these self-fertilised2057grandchildren were also as well developed and contained as much pollen2058as those on the intercrossed plants of the corresponding generation;2059whereas this was not the case with the ordinary self-fertilised plants2060of the later generations. Nevertheless some few of the flowers produced2061by the grandchildren of Hero were slightly monstrous, like those of the2062ordinary self-fertilised plants of the later generations. In order not2063to recur to the subject of fertility, I may add that twenty-one2064self-fertilised capsules, spontaneously produced by the2065great-grandchildren of Hero (forming the ninth generation of2066self-fertilised plants), contained on an average 4.47 seeds; and this is2067as high an average as the self-fertilised flowers of any generation2068usually yielded.20692070Several flowers on the self-fertilised grandchildren of Hero in Table20712/16 were fertilised with pollen from the same flower; and the seedlings2072raised from them (great-grandchildren of Hero) formed the ninth2073self-fertilised generation. Several other flowers were crossed with2074pollen from another grandchild, so that they may be considered as the2075offspring of brothers and sisters, and the seedlings thus raised may be2076called the INTERCROSSED great-grandchildren. And lastly, other flowers2077were fertilised with pollen from a distinct stock, and the seedlings2078thus raised may be called the COLCHESTER-CROSSED great-grandchildren. In2079my anxiety to see what the result would be, I unfortunately planted the2080three lots of seeds (after they had germinated on sand) in the hothouse2081in the middle of winter, and in consequence of this the seedlings2082(twenty in number of each kind) became very unhealthy, some growing only2083a few inches in height, and very few to their proper height. The result,2084therefore, cannot be fully trusted; and it would be useless to give the2085measurements in detail. In order to strike as fair an average as2086possible, I first excluded all the plants under 50 inches in height,2087thus rejecting all the most unhealthy plants. The six self-fertilised2088thus left were on an average 66.86 inches high; the eight intercrossed2089plants 63.2 high; and the seven Colchester-crossed 65.37 high; so that2090there was not much difference between the three sets, the2091self-fertilised plants having a slight advantage. Nor was there any2092great difference when only the plants under 36 inches in height were2093excluded. Nor again when all the plants, however much dwarfed and2094unhealthy, were included. In this latter case the Colchester-crossed2095gave the lowest average of all; and if these plants had been in any2096marked manner superior to the other two lots, as from my former2097experience I fully expected they would have been, I cannot but think2098that some vestige of such superiority would have been evident,2099notwithstanding the very unhealthy condition of most of the plants. No2100advantage, as far as we can judge, was derived from intercrossing two of2101the grandchildren of Hero, any more than when two of the children were2102crossed. It appears therefore that Hero and its descendants have varied2103from the common type, not only in acquiring great power of growth, and2104increased fertility when subjected to self-fertilisation, but in not2105profiting from a cross with a distinct stock; and this latter fact, if2106trustworthy, is a unique case, as far as I have observed in all my2107experiments.]21082109SUMMARY ON THE GROWTH, VIGOUR, AND FERTILITY OF THE SUCCESSIVE2110GENERATIONS OF THE CROSSED AND SELF-FERTILISED PLANTS OF Ipomoea2111purpurea, TOGETHER WITH SOME MISCELLANEOUS OBSERVATIONS.21122113In Table 2/17, we see the average or mean heights of the ten successive2114generations of the intercrossed and self-fertilised plants, grown in2115competition with each other; and in the right hand column we have the2116ratios of the one to the other, the height of the intercrossed plants2117being taken at 100. In the bottom line the mean height of the2118seventy-three intercrossed plants is shown to be 85.84 inches, and that2119of the seventy-three self-fertilised plants 66.02 inches, or as 100 to212077.21212122TABLE 2/17. Ipomoea purpurea. Summary of measurements of the ten2123generations.21242125Heights of Plants in inches:21262127Column 1: Name of Generation.21282129Column 2: Number of Crossed Plants.21302131Column 3: Average Height of Crossed Plants.21322133Column 4: Number of Self-fertilised Plants.21342135Column 5: Average Height of Self-fertilised Plants.21362137Column 6: n in Ratio between Average Heights of Crossed and2138Self-fertilised Plants, expressed as 100 to n.21392140First generation Table 2/1 : 6 : 86.00 : 6 : 65.66 : 76.21412142Second generation Table 2/2 : 6 : 84.16 : 6 : 66.33 : 79.21432144Third generation Table 2/3 : 6 : 77.41 : 6 : 52.83 : 68.21452146Fourth generation Table 2/5 : 7 : 69.78 : 7 : 60.14 : 86.21472148Fifth generation Table 2/6 : 6 : 82.54 : 6 : 62.33 : 75.21492150Sixth generation Table 2/7 : 6 : 87.50 : 6 : 63.16 : 72.21512152Seventh generation Table 2/8 : 9 : 83.94 : 9 : 68.25 : 81.21532154Eighth generation Table 2/9 : 8 : 113.25 : 8 : 96.65 : 85.21552156Ninth generation Table 2/10 : 14 : 81.39 : 14 : 64.07 : 79.21572158Tenth generation Table 2/11 : 5 : 93.70 : 5 : 50.40 : 54.21592160All ten generations together : 73 : 85.84 : 73 : 66.02 : 77.21612162(DIAGRAM 2/1. Diagram showing the mean heights of the crossed and2163self-fertilised plants of Ipomoea purpurea in the ten generations; the2164mean height of the crossed plants being taken as 100. On the right hand,2165the mean heights of the crossed and self-fertilised plants of all the2166generations taken together are shown (as eleven pairs of unequal2167vertical lines.))21682169The mean height of the self-fertilised plants in each of the ten2170generations is also shown in the diagram 2/1, that of the intercrossed2171plants being taken at 100, and on the right side we see the relative2172heights of the seventy-three intercrossed plants, and of the2173seventy-three self-fertilised plants. The difference in height between2174the crossed and self-fertilised plants will perhaps be best appreciated2175by an illustration: If all the men in a country were on an average 62176feet high, and there were some families which had been long and closely2177interbred, these would be almost dwarfs, their average height during ten2178generations being only 4 feet 8 1/4 inches.21792180It should be especially observed that the average difference between the2181crossed and self-fertilised plants is not due to a few of the former2182having grown to an extraordinary height, or to a few of the2183self-fertilised being extremely short, but to all the crossed plants2184having surpassed their self-fertilised opponents, with the few following2185exceptions. The first occurred in the sixth generation, in which the2186plant named "Hero" appeared; two in the eighth generation, but the2187self-fertilised plants in this generation were in an anomalous2188condition, as they grew at first at an unusual rate and conquered for a2189time the opposed crossed plants; and two exceptions in the ninth2190generation, though one of these plants only equalled its crossed2191opponent. Therefore, of the seventy-three crossed plants, sixty-eight2192grew to a greater height than the self-fertilised plants, to which they2193were opposed.21942195In the right-hand column of figures, the difference in height between2196the crossed and self-fertilised plants in the successive generations is2197seen to fluctuate much, as might indeed have been expected from the2198small number of plants measured in each generation being insufficient to2199give a fair average. It should be remembered that the absolute height of2200the plants goes for nothing, as each pair was measured as soon as one of2201them had twined up to the summit of its rod. The great difference in the2202tenth generation, namely, 100 to 54, no doubt was partly accidental,2203though, when these plants were weighed, the difference was even greater,2204namely, 100 to 44. The smallest amount of difference occurred in the2205fourth and the eighth generations, and this was apparently due to both2206the crossed and self-fertilised plants having become unhealthy, which2207prevented the former attaining their usual degree of superiority. This2208was an unfortunate circumstance, but my experiments were not thus2209vitiated, as both lots of plants were exposed to the same conditions,2210whether favourable or unfavourable.22112212There is reason to believe that the flowers of this Ipomoea, when2213growing out of doors, are habitually crossed by insects, so that the2214first seedlings which I raised from purchased seeds were probably the2215offspring of a cross. I infer that this is the case, firstly from2216humble-bees often visiting the flowers, and from the quantity of pollen2217left by them on the stigmas of such flowers; and, secondly, from the2218plants raised from the same lot of seed varying greatly in the colour of2219their flowers, for as we shall hereafter see, this indicates much2220intercrossing. (2/3. Verlot says 'Sur la Production des Variétés' 18652221page 66, that certain varieties of a closely allied plant, the2222Convolvulus tricolor, cannot be kept pure unless grown at a distance2223from all other varieties.) It is, therefore, remarkable that the plants2224raised by me from flowers which were, in all probability,2225self-fertilised for the first time after many generations of crossing,2226should have been so markedly inferior in height to the intercrossed2227plants as they were, namely, as 76 to 100. As the plants which were2228self-fertilised in each succeeding generation necessarily became much2229more closely interbred in the later than in the earlier generations, it2230might have been expected that the difference in height between them and2231the crossed plants would have gone on increasing; but, so far is this2232from being the case, that the difference between the two sets of plants2233in the seventh, eighth, and ninth generations taken together is less2234than in the first and second generations together. When, however, we2235remember that the self-fertilised and crossed plants are all descended2236from the same mother-plant, that many of the crossed plants in each2237generation were related, often closely related, and that all were2238exposed to the same conditions, which, as we shall hereafter find, is a2239very important circumstance, it is not at all surprising that the2240difference between them should have somewhat decreased in the later2241generations. It is, on the contrary, an astonishing fact, that the2242crossed plants should have been victorious, even to a slight degree,2243over the self-fertilised plants of the later generations.22442245The much greater constitutional vigour of the crossed than of the2246self-fertilised plants, was proved on five occasions in various ways;2247namely, by exposing them, while young, to a low temperature or to a2248sudden change of temperature, or by growing them, under very2249unfavourable conditions, in competition with full-grown plants of other2250kinds.22512252With respect to the productiveness of the crossed and self-fertilised2253plants of the successive generations, my observations unfortunately were2254not made on any uniform plan, partly from the want of time, and partly2255from not having at first intended to observe more than a single2256generation. A summary of the results is here given in a tabulated form,2257the fertility of the crossed plants being taken as 100.22582259TABLE 2/18. Ratio of productiveness of crossed and self-fertilised2260plants. Ipomoea purpurea.22612262FIRST GENERATION OF CROSSED AND SELF-FERTILISED PLANTS GROWING IN2263COMPETITION WITH ONE ANOTHER.22642265Sixty-five capsules produced from flowers on five crossed plants2266fertilised by pollen from a distinct plant, and fifty-five capsules2267produced from flowers on five self-fertilised plants fertilised by their2268own pollen, contained seeds in the proportion of : 100 to 93.22692270Fifty-six spontaneously self-fertilised capsules on the above five2271crossed plants, and twenty-five spontaneously self-fertilised capsules2272on the above five self-fertilised plants, yielded seeds in the2273proportion of : 100 to 99.22742275Combining the total number of capsules produced by these plants, and the2276average number of seeds in each, the above crossed and self-fertilised2277plants yielded seeds in the proportion of : 100 to 64.22782279Other plants of this first generation grown under unfavourable2280conditions and spontaneously self-fertilised, yielded seeds in the2281proportion of : 100 to 45.22822283THIRD GENERATION OF CROSSED AND SELF-FERTILISED PLANTS.22842285Crossed capsules compared with self-fertilised capsules contained seeds2286in the ratio of : 100 to 94.22872288An equal number of crossed and self-fertilised plants, both2289spontaneously self-fertilised, produced capsules in the ratio of : 1002290to 38.22912292And these capsules contained seeds in the ratio of : 100 to 94.22932294Combining these data, the productiveness of the crossed to the2295self-fertilised plants, both spontaneously self-fertilised, was as : 1002296to 35.22972298FOURTH GENERATION OF CROSSED AND SELF-FERTILISED PLANTS.22992300Capsules from flowers on the crossed plants fertilised by pollen from2301another plant, and capsules from flowers on the self-fertilised plants2302fertilised with their own pollen, contained seeds in the proportion of :2303100 to 94.23042305FIFTH GENERATION OF CROSSED AND SELF-FERTILISED PLANTS.23062307The crossed plants produced spontaneously a vast number more pods (not2308actually counted) than the self-fertilised, and these contained seeds in2309the proportion of : 100 to 89.23102311NINTH GENERATION OF CROSSED AND SELF-FERTILISED PLANTS.23122313Fourteen crossed plants, spontaneously self-fertilised, and fourteen2314self-fertilised plants spontaneously self-fertilised, yielded capsules2315(the average number of seeds per capsule not having been ascertained) in2316the proportion of : 100 to 26.23172318PLANTS DERIVED FROM A CROSSED WITH A FRESH STOCK COMPARED WITH2319INTERCROSSED PLANTS.23202321The offspring of intercrossed plants of the ninth generation, crossed by2322a fresh stock, compared with plants of the same stock intercrossed2323during ten generations, both sets of plants left uncovered and naturally2324fertilised, produced capsules by weight as : 100 to 51.23252326We see in this table that the crossed plants are always in some degree2327more productive than the self-fertilised plants, by whatever standard2328they are compared. The degree differs greatly; but this depends chiefly2329on whether an average was taken of the seeds alone, or of the capsules2330alone, or of both combined. The relative superiority of the crossed2331plants is chiefly due to their producing a much greater number of2332capsules, and not to each capsule containing a larger average number of2333seeds. For instance, in the third generation the crossed and2334self-fertilised plants produced capsules in the ratio of 100 to 38,2335whilst the seeds in the capsules on the crossed plants were to those on2336the self-fertilised plants only as 100 to 94. In the eighth generation2337the capsules on two self-fertilised plants (not included in table 2/18),2338grown in separate pots and thus not subjected to any competition,2339yielded the large average of 5.1 seeds. The smaller number of capsules2340produced by the self-fertilised plants may be in part, but not2341altogether, attributed to their lessened size or height; this being2342chiefly due to their lessened constitutional vigour, so that they were2343not able to compete with the crossed plants growing in the same pots.2344The seeds produced by the crossed flowers on the crossed plants were not2345always heavier than the self-fertilised seeds on the self-fertilised2346plants. The lighter seeds, whether produced from crossed or2347self-fertilised flowers, generally germinated before the heavier seeds.2348I may add that the crossed plants, with very few exceptions, flowered2349before their self-fertilised opponents, as might have been expected from2350their greater height and vigour.23512352The impaired fertility of the self-fertilised plants was shown in2353another way, namely, by their anthers being smaller than those in the2354flowers on the crossed plants. This was first observed in the seventh2355generation, but may have occurred earlier. Several anthers from flowers2356on the crossed and self-fertilised plants of the eighth generation were2357compared under the microscope; and those from the former were generally2358longer and plainly broader than the anthers of the self-fertilised2359plants. The quantity of pollen contained in one of the latter was, as2360far as could be judged by the eye, about half of that contained in one2361from a crossed plant. The impaired fertility of the self-fertilised2362plants of the eighth generation was also shown in another manner, which2363may often be observed in hybrids--namely, by the first-formed flowers2364being sterile. For instance, the fifteen first flowers on a2365self-fertilised plant of one of the later generations were carefully2366fertilised with their own pollen, and eight of them dropped off; at the2367same time fifteen flowers on a crossed plant growing in the same pot2368were self-fertilised, and only one dropped off. On two other crossed2369plants of the same generation, several of the earliest flowers were2370observed to fertilise themselves and to produce capsules. In the plants2371of the ninth, and I believe of some previous generations, very many of2372the flowers, as already stated, were slightly monstrous; and this2373probably was connected with their lessened fertility.23742375All the self-fertilised plants of the seventh generation, and I believe2376of one or two previous generations, produced flowers of exactly the same2377tint, namely, of a rich dark purple. So did all the plants, without any2378exception, in the three succeeding generations of self-fertilised2379plants; and very many were raised on account of other experiments in2380progress not here recorded. My attention was first called to this fact2381by my gardener remarking that there was no occasion to label the2382self-fertilised plants, as they could always be known by their colour.2383The flowers were as uniform in tint as those of a wild species growing2384in a state of nature; whether the same tint occurred, as is probable, in2385the earlier generations, neither my gardener nor self could recollect.2386The flowers on the plants which were first raised from purchased seed,2387as well as during the first few generations, varied much in the depth of2388the purple tint; many were more or less pink, and occasionally a white2389variety appeared. The crossed plants continued to the tenth generation2390to vary in the same manner as before, but to a much less degree, owing,2391probably, to their having become more or less closely inter-related. We2392must therefore attribute the extraordinary uniformity of colour in the2393flowers on the plants of the seventh and succeeding self-fertilised2394generations, to inheritance not having been interfered with by crosses2395during several preceding generations, in combination with the conditions2396of life having been very uniform.23972398A plant appeared in the sixth self-fertilised generation, named the2399Hero, which exceeded by a little in height its crossed antagonist, and2400which transmitted its powers of growth and increased self-fertility to2401its children and grandchildren. A cross between the children of Hero did2402not give to the grandchildren any advantage over the self-fertilised2403grandchildren raised from the self-fertilised children. And as far as my2404observations can be trusted, which were made on very unhealthy plants,2405the great-grandchildren raised from intercrossing the grandchildren had2406no advantage over the seedlings from the grandchildren the product of2407continued self-fertilisation; and what is far more remarkable, the2408great-grandchildren raised by crossing the grandchildren with a fresh2409stock, had no advantage over either the intercrossed or self-fertilised2410great-grandchildren. It thus appears that Hero and its descendants2411differed in constitution in an extraordinary manner from ordinary plants2412of the present species.24132414Although the plants raised during ten successive generations from2415crosses between distinct yet inter-related plants almost invariably2416exceeded in height, constitutional vigour, and fertility their2417self-fertilised opponents, it has been proved that seedlings raised by2418intercrossing flowers on the same plant are by no means superior, on the2419contrary are somewhat inferior in height and weight, to seedlings raised2420from flowers fertilised with their own pollen. This is a remarkable2421fact, which seems to indicate that self-fertilisation is in some manner2422more advantageous than crossing, unless the cross brings with it, as is2423generally the case, some decided and preponderant advantage; but to this2424subject I shall recur in a future chapter.24252426The benefits which so generally follow from a cross between two plants2427apparently depend on the two differing somewhat in constitution or2428character. This is shown by the seedlings from the intercrossed plants2429of the ninth generation, when crossed with pollen from a fresh stock,2430being as superior in height and almost as superior in fertility to the2431again intercrossed plants, as these latter were to seedlings from2432self-fertilised plants of the corresponding generation. We thus learn2433the important fact that the mere act of crossing two distinct plants,2434which are in some degree inter-related and which have been long2435subjected to nearly the same conditions, does little good as compared2436with that from a cross between plants belonging to different stocks or2437families, and which have been subjected to somewhat different2438conditions. We may attribute the good derived from the crossing of the2439intercrossed plants during the ten successive generations to their still2440differing somewhat in constitution or character, as was indeed proved by2441their flowers still differing somewhat in colour. But the several2442conclusions which may be deduced from the experiments on Ipomoea will be2443more fully considered in the final chapters, after all my other2444observations have been given.2445244624472448CHAPTER III.24492450SCROPHULARIACEAE, GESNERIACEAE, LABIATAE, ETC.24512452Mimulus luteus; height, vigour, and fertility of the crossed and2453self-fertilised plants of the first four generations.2454Appearance of a new, tall, and highly self-fertile variety.2455Offspring from a cross between self-fertilised plants.2456Effects of a cross with a fresh stock.2457Effects of crossing flowers on the same plant.2458Summary on Mimulus luteus.2459Digitalis purpurea, superiority of the crossed plants.2460Effects of crossing flowers on the same plant.2461Calceolaria.2462Linaria vulgaris.2463Verbascum thapsus.2464Vandellia nummularifolia.2465Cleistogene flowers.2466Gesneria pendulina.2467Salvia coccinea.2468Origanum vulgare, great increase of the crossed plants by stolons.2469Thunbergia alata.24702471In the family of the Scrophulariaceae I experimented on species in the2472six following genera: Mimulus, Digitalis, Calceolaria, Linaria,2473Verbascum, and Vandellia.24742475[3/2. SCROPHULARIACEAE.--Mimulus luteus.24762477The plants which I raised from purchased seed varied greatly in the2478colour of their flowers, so that hardly two individuals were quite2479alike; the corolla being of all shades of yellow, with the most2480diversified blotches of purple, crimson, orange, and coppery brown. But2481these plants differed in no other respect. (3/1. I sent several2482specimens with variously coloured flowers to Kew, and Dr. Hooker informs2483me that they all consisted of Mimulus luteus. The flowers with much red2484have been named by horticulturists as var. Youngiana.) The flowers are2485evidently well adapted for fertilisation by the agency of insects; and2486in the case of a closely allied species, Mimulus rosea, I have watched2487bees entering the flowers, thus getting their backs well dusted with2488pollen; and when they entered another flower the pollen was licked off2489their backs by the two-lipped stigma, the lips of which are irritable2490and close like a forceps on the pollen-grains. If no pollen is enclosed2491between the lips, these open again after a time. Mr. Kitchener has2492ingeniously explained the use of these movements, namely, to prevent the2493self-fertilisation of the flower. (3/2. 'A Year's Botany' 1874 page2494118.) If a bee with no pollen on its back enters a flower it touches the2495stigma, which quickly closes, and when the bee retires dusted with2496pollen, it can leave none on the stigma of the same flower. But as soon2497as it enters any other flower, plenty of pollen is left on the stigma,2498which will be thus cross-fertilised. Nevertheless, if insects are2499excluded, the flowers fertilise themselves perfectly and produce plenty2500of seed; but I did not ascertain whether this is effected by the stamens2501increasing in length with advancing age, or by the bending down of the2502pistil. The chief interest in my experiments on the present species,2503lies in the appearance in the fourth self-fertilised generation of a2504variety which bore large peculiarly-coloured flowers, and grew to a2505greater height than the other varieties; it likewise became more highly2506self-fertile, so that this variety resembles the plant named Hero, which2507appeared in the sixth self-fertilised generation of Ipomoea.25082509Some flowers on one of the plants raised from the purchased seeds were2510fertilised with their own pollen; and others on the same plant were2511crossed with pollen from a distinct plant. The seeds from twelve2512capsules thus produced were placed in separate watch-glasses for2513comparison; and those from the six crossed capsules appeared to the eye2514hardly more numerous than those from the six self-fertilised capsules.2515But when the seeds were weighed, those from the crossed capsules2516amounted to 1.02 grain, whilst those from the self-fertilised capsules2517were only .81 grain; so that the former were either heavier or more2518numerous than the latter, in the ratio of 100 to 79.25192520CROSSED AND SELF-FERTILISED PLANTS OF THE FIRST GENERATION.25212522Having ascertained, by leaving crossed and self-fertilised seed on damp2523sand, that they germinated simultaneously, both kinds were thickly sown2524on opposite sides of a broad and rather shallow pan; so that the two2525sets of seedlings, which came up at the same time, were subjected to the2526same unfavourable conditions. This was a bad method of treatment, but2527this species was one of the first on which I experimented. When the2528crossed seedlings were on an average half an inch high, the2529self-fertilised ones were only a quarter of an inch high. When grown to2530their full height under the above unfavourable conditions, the four2531tallest crossed plants averaged 7.62, and the four tallest2532self-fertilised 5.87 inches in height; or as 100 to 77. Ten flowers on2533the crossed plants were fully expanded before one on the self-fertilised2534plants. A few of these plants of both lots were transplanted into a2535large pot with plenty of good earth, and the self-fertilised plants, not2536now being subjected to severe competition, grew during the following2537year as tall as the crossed plants; but from a case which follows it is2538doubtful whether they would have long continued equal. Some flowers on2539the crossed plants were crossed with pollen from another plant, and the2540capsules thus produced contained a rather greater weight of seed than2541those on the self-fertilised plants again self-fertilised.25422543CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.25442545Seeds from the foregoing plants, fertilised in the manner just stated,2546were sown on the opposite sides of a small pot (1) and came up crowded.2547The four tallest crossed seedlings, at the time of flowering, averaged 82548inches in height, whilst the four tallest self-fertilised plants2549averaged only 4 inches. Crossed seeds were sown by themselves in a2550second small pot, and self-fertilised seeds were sown by themselves in a2551third small pot so that there was no competition whatever between these2552two lots. Nevertheless the crossed plants grew from 1 to 2 inches higher2553on an average than the self-fertilised. Both lots looked equally2554vigorous, but the crossed plants flowered earlier and more profusely2555than the self-fertilised. In Pot 1, in which the two lots competed with2556each other, the crossed plants flowered first and produced a large2557number of capsules, whilst the self-fertilised produced only nineteen.2558The contents of twelve capsules from the crossed flowers on the crossed2559plants, and of twelve capsules from self-fertilised flowers on the2560self-fertilised plants, were placed in separate watch-glasses for2561comparison; and the crossed seeds seemed more numerous by half than the2562self-fertilised.25632564The plants on both sides of Pot 1, after they had seeded, were cut down2565and transplanted into a large pot with plenty of good earth, and on the2566following spring, when they had grown to a height of between 5 and 62567inches, the two lots were equal, as occurred in a similar experiment in2568the last generation. But after some weeks the crossed plants exceeded2569the self-fertilised ones on the opposite side of the same pot, though2570not nearly to so great a degree as before, when they were subjected to2571very severe competition.25722573CROSSED AND SELF-FERTILISED PLANTS OF THE THIRD GENERATION.25742575Crossed seeds from the crossed plants, and self-fertilised seeds from2576the self-fertilised plants of the last generation, were sown thickly on2577opposite sides of a small pot, Number 1. The two tallest plants on each2578side were measured after they had flowered, and the two crossed ones2579were 12 and 7 1/2 inches, and the two self-fertilised ones 8 and 5 1/22580inches in height; that is, in the ratio of 100 to 69. Twenty flowers on2581the crossed plants were again crossed and produced twenty capsules; ten2582of which contained 1.33 grain weight of seeds. Thirty flowers on the2583self-fertilised plants were again self-fertilised and produced2584twenty-six capsules; ten of the best of which (many being very poor)2585contained only .87 grain weight of seeds; that is, in the ratio of 1002586to 65 by weight.25872588The superiority of the crossed over the self-fertilised plants was2589proved in various ways. Self-fertilised seeds were sown on one side of a2590pot, and two days afterwards crossed seeds on the opposite side. The two2591lots of seedlings were equal until they were above half an inch high;2592but when fully grown the two tallest crossed plants attained a height of259312 1/2 and 8 3/4 inches, whilst the two tallest self-fertilised plants2594were only 8 and 5 1/2 inches high.25952596In a third pot, crossed seeds were sown four days after the2597self-fertilised, and the seedlings from the latter had at first, as2598might have been expected, an advantage; but when the two lots were2599between 5 and 6 inches in height, they were equal, and ultimately the2600three tallest crossed plants were 11, 10, and 8 inches, whilst the three2601tallest self-fertilised were 12, 8 1/2, and 7 1/2 inches in height. So2602that there was not much difference between them, the crossed plants2603having an average advantage of only the third of an inch. The plants2604were cut down, and without being disturbed were transplanted into a2605larger pot. Thus the two lots started fair on the following spring, and2606now the crossed plants showed their inherent superiority, for the two2607tallest were 13 inches, whilst the two tallest self-fertilised plants2608were only 11 and 8 1/2 inches in height; or as 100 to 75. The two lots2609were allowed to fertilise themselves spontaneously: the crossed plants2610produced a large number of capsules, whilst the self-fertilised produced2611very few and poor ones. The seeds from eight of the capsules on the2612crossed plants weighed .65 grain, whilst those from eight of the2613capsules on the self-fertilised plants weighed only .22 grain; or as 1002614to 34.26152616The crossed plants in the above three pots, as in almost all the2617previous experiments, flowered before the self-fertilised. This occurred2618even in the third pot in which the crossed seeds were sown four days2619after the self-fertilised seeds.26202621Lastly, seeds of both lots were sown on opposite sides of a large pot in2622which a Fuchsia had long been growing, so that the earth was full of2623roots. Both lots grew miserably; but the crossed seedlings had an2624advantage at all times, and ultimately attained to a height of 3 1/22625inches, whilst the self-fertilised seedlings never exceeded 1 inch. The2626several foregoing experiments prove in a decisive manner the superiority2627in constitutional vigour of the crossed over the self-fertilised plants.26282629In the three generations now described and taken together, the average2630height of the ten tallest crossed plants was 8.19 inches, and that of2631the ten tallest self-fertilised plants 5.29 inches (the plants having2632been grown in small pots), or as 100 to 65.26332634In the next or fourth self-fertilised generation, several plants of a2635new and tall variety appeared, which increased in the later2636self-fertilised generations, owing to its great self-fertility, to the2637complete exclusion of the original kinds. The same variety also appeared2638amongst the crossed plants, but as it was not at first regarded with any2639particular attention, I know not how far it was used for raising the2640intercrossed plants; and in the later crossed generations it was rarely2641present. Owing to the appearance of this tall variety, the comparison of2642the crossed and self-fertilised plants of the fifth and succeeding2643generations was rendered unfair, as all the self-fertilised and only a2644few or none of the crossed plants consisted of it. Nevertheless, the2645results of the later experiments are in some respects well worth giving.264626472648CROSSED AND SELF-FERTILISED PLANTS OF THE FOURTH GENERATION.26492650Seeds of the two kinds, produced in the usual way from the two sets of2651plants of the third generation, were sown on opposite sides of two pots2652(1 and 2); but the seedlings were not thinned enough and did not grow2653well. Many of the self-fertilised plants, especially in one of the pots,2654consisted of the new and tall variety above referred to, which bore2655large and almost white flowers marked with crimson blotches. I will call2656it the WHITE VARIETY. I believe that it first appeared amongst both the2657crossed and self-fertilised plants of the last generation; but neither2658my gardener nor myself could remember any such variety in the seedlings2659raised from the purchased seed. It must therefore have arisen either2660through ordinary variation, or, judging from its appearance amongst both2661the crossed and self-fertilised plants, more probably through reversion2662to a formerly existing variety.26632664In Pot 1 the tallest crossed plant was 8 1/2 inches, and the tallest2665self-fertilised 5 inches in height. In Pot 2, the tallest crossed plant2666was 6 1/2 inches, and the tallest self-fertilised plant, which consisted2667of the white variety, 7 inches in height; and this was the first2668instance in my experiments on Mimulus in which the tallest2669self-fertilised plant exceeded the tallest crossed. Nevertheless, the2670two tallest crossed plants taken together were to the two tallest2671self-fertilised plants in height as 100 to 80. As yet the crossed plants2672were superior to the self-fertilised in fertility; for twelve flowers on2673the crossed plants were crossed and yielded ten capsules, the seeds of2674which weighed 1.71 grain. Twenty flowers on the self-fertilised plants2675were self-fertilised, and produced fifteen capsules, all appearing poor;2676and the seeds from ten of them weighed only .68 grain, so that from an2677equal number of capsules the crossed seeds were to the self-fertilised2678in weight as 100 to 40.26792680CROSSED AND SELF-FERTILISED PLANTS OF THE FIFTH GENERATION.26812682Seeds from both lots of the fourth generation, fertilised in the usual2683manner, were sown on opposite sides of three pots. When the seedlings2684flowered, most of the self-fertilised plants were found to consist of2685the tall white variety. Several of the crossed plants in Pot 1 likewise2686belonged to this variety, as did a very few in Pots 2 and 3. The tallest2687crossed plant in Pot 1 was 7 inches, and the tallest self-fertilised2688plant on the opposite side 8 inches; in Pots 2 and 3 the tallest crossed2689were 4 1/2 and 5 1/2, and the tallest self-fertilised 7 and 6 1/2 inches2690in height; so that the average height of the tallest plants in the two2691lots was as 100 for the crossed to 126 for the self-fertilised; and thus2692we have a complete reversal of what occurred in the four previous2693generations. Nevertheless, in all three pots the crossed plants retained2694their habit of flowering before the self-fertilised. The plants were2695unhealthy from being crowded and from the extreme heat of the season,2696and were in consequence more or less sterile; but the crossed plants2697were somewhat less sterile than the self-fertilised plants.26982699CROSSED AND SELF-FERTILISED PLANTS OF THE SIXTH GENERATION.27002701Seeds from plants of the fifth generation crossed and self-fertilised in2702the usual manner were sown on opposite sides of several pots. On the2703self-fertilised side every single plant belonged to the tall white2704variety. On the crossed side some plants belonged to this variety, but2705the greater number approached in character to the old and shorter kinds2706with smaller yellowish flowers blotched with coppery brown. When the2707plants on both sides were from 2 to 3 inches in height they were equal,2708but when fully grown the self-fertilised were decidedly the tallest and2709finest plants, but, from want of time, they were not actually measured.2710In half the pots the first plant which flowered was a self-fertilised2711one, and in the other half a crossed one. And now another remarkable2712change was clearly perceived, namely, that the self-fertilised plants2713had become more self-fertile than the crossed. The pots were all put2714under a net to exclude insects, and the crossed plants produced2715spontaneously only fifty-five capsules, whilst the self-fertilised2716plants produced eighty-one capsules, or as 100 to 147. The seeds from2717nine capsules of both lots were placed in separate watch-glasses for2718comparison, and the self-fertilised appeared rather the more numerous.2719Besides these spontaneously self-fertilised capsules, twenty flowers on2720the crossed plants again crossed yielded sixteen capsules; twenty-five2721flowers on the self-fertilised plants again self-fertilised yielded2722seventeen capsules, and this is a larger proportional number of capsules2723than was produced by the self-fertilised flowers on the self-fertilised2724plants in the previous generations. The contents of ten capsules of both2725these lots were compared in separate watch-glasses, and the seeds from2726the self-fertilised appeared decidedly more numerous than those from the2727crossed plants.27282729CROSSED AND SELF-FERTILISED PLANTS OF THE SEVENTH GENERATION.27302731Crossed and self-fertilised seeds from the crossed and self-fertilised2732plants of the sixth generation were sown in the usual manner on opposite2733sides of three pots, and the seedlings were well and equally thinned.2734Every one of the self-fertilised plants (and many were raised) in this,2735as well as in the eighth and ninth generations, belonged to the tall2736white variety. Their uniformity of character, in comparison with the2737seedlings first raised from the purchased seed, was quite remarkable. On2738the other hand, the crossed plants differed much in the tints of their2739flowers, but not, I think, to so great a degree as those first raised. I2740determined this time to measure the plants on both sides carefully. The2741self-fertilised seedlings came up rather before the crossed, but both2742lots were for a time of equal height. When first measured, the average2743height of the six tallest crossed plants in the three pots was 7.02, and2744that of the six tallest self-fertilised plants 8.97 inches, or as 100 to2745128. When fully grown the same plants were again measured, with the2746result shown in Table 3/18.27472748TABLE 3/18. Mimulus luteus (Seventh Generation).27492750Heights of Plants in inches:27512752Column 1: Number (Name) of Pot.27532754Column 2: Crossed Plants.27552756Column 3: Self-fertilised Plants.27572758Pot 1 : 11 2/8 : 19 1/8.2759Pot 1 : 11 7/8 : 18.27602761Pot 2 : 12 6/8 : 18 2/8.2762Pot 2 : 11 2/8 : 14 6/8.27632764Pot 3 : 9 6/8 : 12 6/8.2765Pot 3 : 11 6/8 : 11.27662767Total : 68.63 : 93.88.27682769The average height of the six crossed is here 11.43, and that of the six2770self-fertilised 15.64, or as 100 to 137.27712772As it is now evident that the tall white variety transmitted its2773characters faithfully, and as the self-fertilised plants consisted2774exclusively of this variety, it was manifest that they would always2775exceed in height the crossed plants which belonged chiefly to the2776original shorter varieties. This line of experiment was therefore2777discontinued, and I tried whether intercrossing two self-fertilised2778plants of the sixth generation, growing in distinct pots, would give2779their offspring any advantage over the offspring of flowers on one of2780the same plants fertilised with their own pollen. These latter seedlings2781formed the seventh generation of self-fertilised plants, like those in2782the right hand column in Table 3/18; the crossed plants were the product2783of six previous self-fertilised generations with an intercross in the2784last generation. The seeds were allowed to germinate on sand, and were2785planted in pairs on opposite sides of four pots, all the remaining seeds2786being sown crowded on opposite sides of Pot 5 in Table 3/19; the three2787tallest on each side in this latter pot being alone measured. All the2788plants were twice measured--the first time whilst young, and the average2789height of the crossed plants to that of the self-fertilised was then as2790100 to 122. When fully grown they were again measured, as in Table 3/19.27912792TABLE 3/19. Mimulus luteus.27932794Heights of Plants in inches:27952796Column 1: Number (Name) of Pot.27972798Column 2: Intercrossed Plants from Self-fertilised Plants of the Sixth2799Generation.28002801Column 3: Self-fertilised Plants of the Seventh Generation.28022803Pot 1 : 12 6/8 : 15 2/8.2804Pot 1 : 10 4/8 : 11 5/8.2805Pot 1 : 10 : 11.2806Pot 1 : 14 5/8 : 11.28072808Pot 2 : 10 2/8 : 11 3/8.2809Pot 2 : 7 6/8 : 11 4/8.2810Pot 2 : 12 1/8 : 8 5/8.2811Pot 2 : 7 : 14 3/8.28122813Pot 3 : 13 5/8 : 10 3/8.2814Pot 3 : 12 2/8 : 11 6/8.28152816Pot 4 : 7 1/8 : 14 6/8.2817Pot 4 : 8 2/8 : 7.2818Pot 4 : 7 2/8 : 8.28192820Pot 5 : 8 5/8 : 10 2/82821Pot 5 : 9 : 9 3/8.2822Pot 5 : 8 2/8 : 9 2/8.2823Crowded.28242825Total : 159.38 : 175.50.28262827The average height of the sixteen intercrossed plants is here 9.962828inches, and that of the sixteen self-fertilised plants 10.96, or as 1002829to 110; so that the intercrossed plants, the progenitors of which had2830been self-fertilised for the six previous generations, and had been2831exposed during the whole time to remarkably uniform conditions, were2832somewhat inferior in height to the plants of the seventh self-fertilised2833generation. But as we shall presently see that a similar experiment made2834after two additional generations of self-fertilisation gave a different2835result, I know not how far to trust the present one. In three of the2836five pots in Table 3/19 a self-fertilised plant flowered first, and in2837the other two a crossed plant. These self-fertilised plants were2838remarkably fertile, for twenty flowers fertilised with their own pollen2839produced no less than nineteen very fine capsules!28402841THE EFFECTS OF A CROSS WITH A DISTINCT STOCK.28422843Some flowers on the self-fertilised plants in Pot 4 in Table 3/19 were2844fertilised with their own pollen, and plants of the eighth2845self-fertilised generation were thus raised, merely to serve as parents2846in the following experiment. Several flowers on these plants were2847allowed to fertilise themselves spontaneously (insects being of course2848excluded), and the plants raised from these seeds formed the ninth2849self-fertilised generation; they consisted wholly of the tall white2850variety with crimson blotches. Other flowers on the same plants of the2851eighth self-fertilised generation were crossed with pollen taken from2852another plant of the same lot; so that the seedlings thus raised were2853the offspring of eight previous generations of self-fertilisation with2854an intercross in the last generation; these I will call the INTERCROSSED2855PLANTS. Lastly, other flowers on the same plants of the eighth2856self-fertilised generation were crossed with pollen taken from plants2857which had been raised from seed procured from a garden at Chelsea. The2858Chelsea plants bore yellow flowers blotched with red, but differed in no2859other respect. They had been grown out of doors, whilst mine had been2860cultivated in pots in the greenhouse for the last eight generations, and2861in a different kind of soil. The seedlings raised from this cross with a2862wholly different stock may be called the CHELSEA-CROSSED. The three lots2863of seeds thus obtained were allowed to germinate on bare sand; and2864whenever a seed in all three lots, or in only two, germinated at the2865same time, they were planted in pots superficially divided into three or2866two compartments. The remaining seeds, whether or not in a state of2867germination, were thickly sown in three divisions in a large pot, 10, in2868Table 3/20. When the plants had grown to their full height they were2869measured, as shown in Table 3/20; but only the three tallest plants in2870each of the three divisions in Pot 10 were measured.28712872TABLE 3/20. Mimulus luteus.28732874Heights of Plants in inches:28752876Column 1: Number (Name) of Pot.28772878Column 2: Plants from Self-fertilised Plants of the Eighth Generation2879crossed by Chelsea Plants.28802881Column 3: Plants from an intercross between the Plants of the Eighth2882Self-fertilised Generation.28832884Column 4: Self-fertilised Plants of the Ninth Generation from Plants of2885the Eighth Self-fertilised Generation.28862887Pot 1 : 30 7/8 : 14 : 9 4/8.2888Pot 1 : 28 3/8 : 13 6/8 : 10 5/8.2889Pot 1 : -- : 13 7/8 : 10.28902891Pot 2 : 20 6/8 : 11 4/8 : 11 6/8.2892Pot 2 : 22 2/8 : 12 : 12 3/8.2893Pot 2 : -- : 9 1/8 : --.28942895Pot 3 : 23 6/8 : 12 2/8 : 8 5/8.2896Pot 3 : 24 1/8 : -- : 11 4/8.2897Pot 3 : 25 6/8 : -- : 6 7/8.28982899Pot 4 : 22 5/8 : 9 2/8 : 4.2900Pot 4 : 22 : 8 1/8 : 13 3/8.2901Pot 4 : 17 : -- : 11.29022903Pot 5 : 22 3/8 : 9 : 4 4/8.2904Pot 5 : 19 5/8 : 11 : 13.2905Pot 5 : 23 4/8 : -- : 13 4/8.29062907Pot 6 : 28 2/8 : 18 6/8 : 12.2908Pot 6 : 22 : 7 : 16 1/8.2909Pot 6 : -- : 12 4/8 : --.29102911Pot 7 : 12 4/8 : 15 : --.2912Pot 7 : 24 3/8 : 12 3/8 : --.2913Pot 7 : 20 4/8 : 11 2/8 : --.2914Pot 7 : 26 4/8 : 15 2/8 : --.29152916Pot 8 : 17 2/8 : 13 3/8 : --.2917Pot 8 : 22 6/8 : 14 5/8 : --.2918Pot 8 : 27 : 14 3/8 : --.29192920Pot 9 : 22 6/8 : 11 6/8 : --.2921Pot 9 : 6 : 17 : --.2922Pot 9 : 20 2/8 : 14 7/8 : --.29232924Pot 10 : 18 1/8 : 9 2/8 : 10 3/8.2925Pot 10 : 16 5/8 : 8 2/8 : 8 1/8.2926Pot 10 : 17 4/8 : 10 : 11 2/8.2927Crowded plants.29282929Total : 605.38 : 329.50 : 198.50.29302931In this table the average height of the twenty-eight Chelsea-crossed2932plants is 21.62 inches; that of the twenty-seven intercrossed plants293312.2; and that of the nineteen self-fertilised 10.44. But with respect2934to the latter it will be the fairest plan to strike out two dwarfed ones2935(only 4 inches in height), so as not to exaggerate the inferiority of2936the self-fertilised plants; and this will raise the average height of2937the seventeen remaining self-fertilised plants to 11.2 inches. Therefore2938the Chelsea-crossed are to the intercrossed in height as 100 to 56; the2939Chelsea-crossed to the self-fertilised as 100 to 52; and the2940intercrossed to the self-fertilised as 100 to 92. We thus see how2941immensely superior in height the Chelsea-crossed are to the intercrossed2942and to the self-fertilised plants. They began to show their superiority2943when only one inch high. They were also, when fully grown, much more2944branched with larger leaves and somewhat larger flowers than the plants2945of the other two lots, so that if they had been weighed, the ratio would2946certainly have been much higher than that of 100 to 56 and 52.29472948The intercrossed plants are here to the self-fertilised in height as 1002949to 92; whereas in the analogous experiment given in Table 3/19 the2950intercrossed plants from the self-fertilised plants of the sixth2951generation were inferior in height to the self-fertilised plants in the2952ratio of 100 to 110. I doubt whether this discordance in the results of2953the two experiments can be explained by the self-fertilised plants in2954the present case having been raised from spontaneously self-fertilised2955seeds, whereas in the former case they were raised from artificially2956self-fertilised seeds; nor by the present plants having been2957self-fertilised during two additional generations, though this is a more2958probable explanation.29592960With respect to fertility, the twenty-eight Chelsea-crossed plants2961produced 272 capsules; the twenty-seven intercrossed plants produced 24;2962and the seventeen self-fertilised plants 17 capsules. All the plants2963were left uncovered so as to be naturally fertilised, and empty capsules2964were rejected.29652966Therefore 20 Chelsea-crossed plants would have produced 194.29 capsules.29672968Therefore 20 Intercrossed plants would have produced 17.77 capsules.29692970Therefore 20 Self-fertilised plants would have produced 20.00 capsules.29712972The seeds contained in 8 capsules from the Chelsea-crossed plants2973weighed 1.1 grains.29742975The seeds contained in 8 capsules from the Intercrossed plants weighed29760.51 grains.29772978The seeds contained in 8 capsules from the Self-fertilised plants2979weighed 0.33 grains.29802981If we combine the number of capsules produced together with the average2982weight of contained seeds, we get the following extraordinary ratios:29832984Weight of seed produced by the same number of Chelsea-crossed and2985intercrossed plants as 100 to 4.29862987Weight of seed produced by the same number of Chelsea-crossed and2988self-fertilised plants as 100 to 3.29892990Weight of seeds produced by the same number of intercrossed and2991self-fertilised plants as 100 to 73.29922993It is also a remarkable fact that the Chelsea-crossed plants exceeded2994the two other lots in hardiness, as greatly as they did in height,2995luxuriance, and fertility. In the early autumn most of the pots were2996bedded out in the open ground; and this always injures plants which have2997been long kept in a warm greenhouse. All three lots consequently2998suffered greatly, but the Chelsea-crossed plants much less than the2999other two lots. On the 3rd of October the Chelsea-crossed plants began3000to flower again, and continued to do so for some time; whilst not a3001single flower was produced by the plants of the other two lots, the3002stems of which were cut almost down to the ground and seemed half dead.3003Early in December there was a sharp frost, and the stems of3004Chelsea-crossed were now cut down; but on the 23rd of December they3005began to shoot up again from the roots, whilst all the plants of the3006other two lots were quite dead.30073008Although several of the self-fertilised seeds, from which the plants in3009the right hand column in Table 3/20 were raised, germinated (and were of3010course rejected) before any of those of the other two lots, yet in only3011one of the ten pots did a self-fertilised plant flower before the3012Chelsea-crossed or the intercrossed plants growing in the same pots. The3013plants of these two latter lots flowered at the same time, though the3014Chelsea-crossed grew so much taller and more vigorously than the3015intercrossed.30163017As already stated, the flowers of the plants originally raised from the3018Chelsea seeds were yellow; and it deserves notice that every one of the3019twenty-eight seedlings raised from the tall white variety fertilised,3020without being castrated, with pollen from the Chelsea plants, produced3021yellow flowers; and this shows how prepotent this colour, which is the3022natural one of the species, is over the white colour.30233024THE EFFECTS ON THE OFFSPRING OF INTERCROSSING FLOWERS ON THE SAME PLANT,3025INSTEAD OF CROSSING DISTINCT INDIVIDUALS.30263027In all the foregoing experiments the crossed plants were the product of3028a cross between distinct plants. I now selected a very vigorous plant in3029Table 3/20, raised by fertilising a plant of the eighth self-fertilised3030generation with pollen from the Chelsea stock. Several flowers on this3031plant were crossed with pollen from other flowers on the same plant, and3032several other flowers were fertilised with their own pollen. The seed3033thus produced was allowed to germinate on bare sand; and the seedlings3034were planted in the usual manner on the opposite sides of six pots. All3035the remaining seeds, whether or not in a state of germination, were sown3036thickly in Pot 7; the three tallest plants on each side of this latter3037pot being alone measured. As I was in a hurry to learn the result, some3038of these seeds were sown late in the autumn, but the plants grew so3039irregularly during the winter, that one crossed plant was 28 1/2 inches,3040and two others only 4, or less than 4 inches in height, as may be seen3041in Table 3/21. Under such circumstances, as I have observed in many3042other cases, the result is not in the least trustworthy; nevertheless I3043feel bound to give the measurements.30443045TABLE 3/21. Mimulus luteus.30463047Heights of Plants in inches:30483049Column 1: Number (Name) of Pot.30503051Column 2: Plants raised from a Cross between different Flowers on the3052same Plant.30533054Column 3: Plants raised from Flowers fertilised with their own Pollen.30553056Pot 1 : 17 : 17.3057Pot 1 : 9 : 3 1/8.30583059Pot 2 : 28 2/8 : 19 1/8.3060Pot 2 : 16 4/8 : 6.3061Pot 2 : 13 5/8 : 2.30623063Pot 3 : 4 : 15 6/8.3064Pot 3 : 2 2/8 : 10.30653066Pot 4 : 23 4/8 : 6 2/8.3067Pot 4 : 15 4/8 : 7 1/8.30683069Pot 5 : 7 : 13 4/8.30703071Pot 6 : 18 3/8 : 1 4/8.3072Pot 6 : 11 : 2.30733074Pot 7 : 21 : 15 1/8.3075Pot 7 : 11 6/8 : 11.3076Pot 7 : 12 1/8 : 11 2/8.3077Crowded.30783079Total : 210.88 : 140.75.30803081The fifteen crossed plants here average 14.05, and the fifteen3082self-fertilised plants 9.38 in height, or as 100 to 67. But if all the3083plants under ten inches in height are struck out, the ratio of the3084eleven crossed plants to the eight self-fertilised plants is as 100 to308582.30863087On the following spring, some remaining seeds of the two lots were3088treated in exactly the same manner; and the measurements of the3089seedlings are given in Table 3/22.30903091TABLE 3/22. Mimulus luteus.30923093Heights of Plants in inches:30943095Column 1: Number (Name) of Pot.30963097Column 2: Plants raised from a Cross between different Flowers on the3098same Plant.30993100Column 3: Plants raised from Flowers fertilised with their own Pollen.31013102Pot 1 : 15 1/8 : 19 1/8.3103Pot 1 : 12 : 20 5/8.3104Pot 1 : 10 1/8 : 12 6/8.31053106Pot 2 : 16 2/8 : 11 2/8.3107Pot 2 : 13 5/8 : 19 3/8.3108Pot 2 : 20 1/8 : 17 4/8.31093110Pot 3 : 18 7/8 : 12 6/8.3111Pot 3 : 15 : 15 6/8.3112Pot 3 : 13 7/8 : 17.31133114Pot 4 : 19 2/8 : 16 2/8.3115Pot 4 : 19 6/8 : 21 5/8.31163117Pot 5 : 25 3/8 : 22 5/8.31183119Pot 6 : 15 : 19 5/8.3120Pot 6 : 20 2/8 : 16 2/8.3121Pot 6 : 27 2/8 : 19 5/8.31223123Pot 7 : 7 6/8 : 7 6/8.3124Pot 7 : 14 : 8.3125Pot 7 : 13 4/8 : 7.31263127Pot 8 : 18 2/8 : 20 3/8.3128Pot 8 : 18 6/8 : 17 6/8.3129Pot 8 : 18 3/8 : 15 4/8.3130Pot 8 : 18 3/8 : 15 1/8.3131Crowded.31323133Total : 370.88 : 353.63.31343135Here the average height of the twenty-two crossed plants is 16.85, and3136that of the twenty-two self-fertilised plants 16.07; or as 100 to 95.3137But if four of the plants in Pot 7, which are much shorter than any of3138the others, are struck out (and this would be the fairest plan), the3139twenty-one crossed are to the nineteen self-fertilised plants in height3140as 100 to 100.6--that is, are equal. All the plants, except the crowded3141ones in Pot 8, after being measured were cut down, and the eighteen3142crossed plants weighed 10 ounces, whilst the same number of3143self-fertilised plants weighed 10 1/4 ounces, or as 100 to 102.5; but if3144the dwarfed plants in Pot 7 had been excluded, the self-fertilised would3145have exceeded the crossed in weight in a higher ratio. In all the3146previous experiments in which seedlings were raised from a cross between3147distinct plants, and were put into competition with self-fertilised3148plants, the former generally flowered first; but in the present case, in3149seven out of the eight pots a self-fertilised plant flowered before a3150crossed one on the opposite side. Considering all the evidence with3151respect to the plants in Table3/ 22, a cross between two flowers on the3152same plant seems to give no advantage to the offspring thus produced,3153the self-fertilised plants being in weight superior. But this conclusion3154cannot be absolutely trusted, owing to the measurements given in Table31553/21, though these latter, from the cause already assigned, are very3156much less trustworthy than the present ones.]31573158SUMMARY OF OBSERVATIONS ON Mimulus luteus.31593160In the three first generations of crossed and self-fertilised plants,3161the tallest plants alone on each side of the several pots were measured;3162and the average height of the ten crossed to that of the ten3163self-fertilised plants was as 100 to 64. The crossed were also much more3164fertile than the self-fertilised, and so much more vigorous that they3165exceeded them in height, even when sown on the opposite side of the same3166pot after an interval of four days. The same superiority was likewise3167shown in a remarkable manner when both kinds of seeds were sown on the3168opposite sides of a pot with very poor earth full of the roots of3169another plant. In one instance crossed and self-fertilised seedlings,3170grown in rich soil and not put into competition with each other,3171attained to an equal height. When we come to the fourth generation the3172two tallest crossed plants taken together exceeded by only a little the3173two tallest self-fertilised plants, and one of the latter beat its3174crossed opponent,--a circumstance which had not occurred in the previous3175generations. This victorious self-fertilised plant consisted of a new3176white-flowered variety, which grew taller than the old yellowish3177varieties. From the first it seemed to be rather more fertile, when3178self-fertilised, than the old varieties, and in the succeeding3179self-fertilised generations became more and more self-fertile. In the3180sixth generation the self-fertilised plants of this variety compared3181with the crossed plants produced capsules in the proportion of 147 to3182100, both lots being allowed to fertilise themselves spontaneously. In3183the seventh generation twenty flowers on one of these plants3184artificially self-fertilised yielded no less than nineteen very fine3185capsules!31863187This variety transmitted its characters so faithfully to all the3188succeeding self-fertilised generations, up to the last or ninth, that3189all the many plants which were raised presented a complete uniformity of3190character; thus offering a remarkable contrast with the seedlings raised3191from the purchased seeds. Yet this variety retained to the last a latent3192tendency to produce yellow flowers; for when a plant of the eighth3193self-fertilised generation was crossed with pollen from a3194yellow-flowered plant of the Chelsea stock, every single seedling bore3195yellow flowers. A similar variety, at least in the colour of its3196flowers, also appeared amongst the crossed plants of the third3197generation. No attention was at first paid to it, and I know not how far3198it was at first used either for crossing or self-fertilisation. In the3199fifth generation most of the self-fertilised plants, and in the sixth3200and all the succeeding generations every single plant consisted of this3201variety; and this no doubt was partly due to its great and increasing3202self-fertility. On the other hand, it disappeared from amongst the3203crossed plants in the later generations; and this was probably due to3204the continued intercrossing of the several plants. From the tallness of3205this variety, the self-fertilised plants exceeded the crossed plants in3206height in all the generations from the fifth to the seventh inclusive;3207and no doubt would have done so in the later generations, had they been3208grown in competition with one another. In the fifth generation the3209crossed plants were in height to the self-fertilised, as 100 to 126; in3210the sixth, as 100 to 147; and in the seventh generation, as 100 to 137.3211This excess of height may be attributed not only to this variety3212naturally growing taller than the other plants, but to its possessing a3213peculiar constitution, so that it did not suffer from continued3214self-fertilisation.32153216This variety presents a strikingly analogous case to that of the plant3217called the Hero, which appeared in the sixth self-fertilised generation3218of Ipomoea. If the seeds produced by Hero had been as greatly in excess3219of those produced by the other plants, as was the case with Mimulus, and3220if all the seeds had been mingled together, the offspring of Hero would3221have increased to the entire exclusion of the ordinary plants in the3222later self-fertilised generations, and from naturally growing taller3223would have exceeded the crossed plants in height in each succeeding3224generation.32253226Some of the self-fertilised plants of the sixth generation were3227intercrossed, as were some in the eighth generation; and the seedlings3228from these crosses were grown in competition with self-fertilised plants3229of the two corresponding generations. In the first trial the3230intercrossed plants were less fertile than the self-fertilised, and less3231tall in the ratio of 100 to 110. In the second trial, the intercrossed3232plants were more fertile than the self-fertilised in the ratio of 100 to323373, and taller in the ratio of 100 to 92. Notwithstanding that the3234self-fertilised plants in the second trial were the product of two3235additional generations of self-fertilisation, I cannot understand this3236discordance in the results of the two analogous experiments.32373238The most important of all the experiments on Mimulus are those in which3239flowers on plants of the eighth self-fertilised generation were again3240self-fertilised; other flowers on distinct plants of the same lot were3241intercrossed; and others were crossed with a new stock of plants from3242Chelsea. The Chelsea-crossed seedlings were to the intercrossed in3243height as 100 to 56, and in fertility as 100 to 4; and they were to the3244self-fertilised plants, in height as 100 to 52, and in fertility as 1003245to 3. These Chelsea-crossed plants were also much more hardy than the3246plants of the other two lots; so that altogether the gain from the cross3247with a fresh stock was wonderfully great.32483249Lastly, seedlings raised from a cross between flowers on the same plant3250were not superior to those from flowers fertilised with their own3251pollen; but this result cannot be absolutely trusted, owing to some3252previous observations, which, however, were made under very unfavourable3253circumstances.32543255[Digitalis purpurea.32563257The flowers of the common Foxglove are proterandrous; that is, the3258pollen is mature and mostly shed before the stigma of the same flower is3259ready for fertilisation. This is effected by the larger humble-bees,3260which, whilst in search of nectar, carry pollen from flower to flower.3261The two upper and longer stamens shed their pollen before the two lower3262and shorter ones. The meaning of this fact probably is, as Dr. Ogle3263remarks, that the anthers of the longer stamens stand near to the3264stigma, so that they would be the most likely to fertilise it (3/3.3265'Popular Science Review' January 1870 page 50.); and as it is an3266advantage to avoid self-fertilisation, they shed their pollen first,3267thus lessening the chance. There is, however, but little danger of3268self-fertilisation until the bifid stigma opens; for Hildebrand found3269that pollen placed on the stigma before it had opened produced no3270effect. (3/4. 'Geschlechter-Vertheilung bei den Pflanzen' 1867 page 20.)3271The anthers, which are large, stand at first transversely with respect3272to the tubular corolla, and if they were to dehisce in this position3273they would, as Dr. Ogle also remarks, smear with pollen the whole back3274and sides of an entering humble-bee in a useless manner; but the anthers3275twist round and place themselves longitudinally before they dehisce. The3276lower and inner side of the mouth of the corolla is thickly clothed with3277hairs, and these collect so much of the fallen pollen that I have seen3278the under surface of a humble-bee thickly dusted with it; but this can3279never be applied to the stigma, as the bees in retreating do not turn3280their under surfaces upwards. I was therefore puzzled whether these3281hairs were of any use; but Mr. Belt has, I think, explained their use:3282the smaller kinds of bees are not fitted to fertilise the flowers, and3283if they were allowed to enter easily they would steal much nectar, and3284fewer large bees would haunt the flowers. Humble-bees can crawl into the3285dependent flowers with the greatest ease, using the "hairs as footholds3286while sucking the honey; but the smaller bees are impeded by them, and3287when, having at length struggled through them, they reach the slippery3288precipice above, they are completely baffled." Mr. Belt says that he3289watched many flowers during a whole season in North Wales, and "only3290once saw a small bee reach the nectary, though many were seen trying in3291vain to do so." (3/5. 'The Naturalist in Nicaragua' 1874 page 132. But3292it appears from H. Muller 'Die Befruchtung der Blumen' 1873 page 285,3293that small insects sometimes succeed in entering the flowers.)32943295I covered a plant growing in its native soil in North Wales with a net,3296and fertilised six flowers each with its own pollen, and six others with3297pollen from a distinct plant growing within the distance of a few feet.3298The covered plant was occasionally shaken with violence, so as to3299imitate the effects of a gale of wind, and thus to facilitate as far as3300possible self-fertilisation. It bore ninety-two flowers (besides the3301dozen artificially fertilised), and of these only twenty-four produced3302capsules; whereas almost all the flowers on the surrounding uncovered3303plants were fruitful. Of the twenty-four spontaneously self-fertilised3304capsules, only two contained their full complement of seed; six3305contained a moderate supply; and the remaining sixteen extremely few3306seeds. A little pollen adhering to the anthers after they had dehisced,3307and accidentally falling on the stigma when mature, must have been the3308means by which the above twenty-four flowers were partially3309self-fertilised; for the margins of the corolla in withering do not curl3310inwards, nor do the flowers in dropping off turn round on their axes, so3311as to bring the pollen-covered hairs, with which the lower surface is3312clothed, into contact with the stigma--by either of which means3313self-fertilisation might be effected.33143315Seeds from the above crossed and self-fertilised capsules, after3316germinating on bare sand, were planted in pairs on the opposite sides of3317five moderately-sized pots, which were kept in the greenhouse. The3318plants after a time appeared starved, and were therefore, without being3319disturbed, turned out of their pots, and planted in the open ground in3320two close parallel rows. They were thus subjected to tolerably severe3321competition with one another; but not nearly so severe as if they had3322been left in the pots. At the time when they were turned out, their3323leaves were between 5 and 8 inches in length, and the longest leaf on3324the finest plant on each side of each pot was measured, with the result3325that the leaves of the crossed plants exceeded, on an average, those of3326the self-fertilised plants by .4 of an inch.33273328In the following summer the tallest flower-stem on each plant, when3329fully grown, was measured. There were seventeen crossed plants; but one3330did not produce a flower-stem. There were also, originally, seventeen3331self-fertilised plants, but these had such poor constitutions that no3332less than nine died in the course of the winter and spring, leaving only3333eight to be measured, as in Table 3/23.33343335TABLE 3/23. Digitalis purpurea.33363337The tallest Flower-stem on each Plant measured in inches: 0 means that3338the Plant died before a Flower-stem was produced.33393340Column 1: Number (Name) of Pot.33413342Column 2: Crossed Plants.33433344Column 3: Self-fertilised Plants.33453346Pot 1 : 53 6/8 : 27 4/8.3347Pot 1 : 57 4/8 : 55 6/8.3348Pot 1 : 57 6/8 : 0.3349Pot 1 : 65 : 0.33503351Pot 2 : 34 4/8 : 39.3352Pot 2 : 52 4/8 : 32.3353Pot 2 : 63 6/8 : 21.33543355Pot 3 : 57 4/8 : 53 4/8.3356Pot 3 : 53 4/8 : 0.3357Pot 3 : 50 6/8 : 0.3358Pot 3 : 37 2/8 : 0.33593360Pot 4 : 64 4/8 : 34 4/8.3361Pot 4 : 37 4/8 : 23 6/8.3362Pot 4 : -- : 0.33633364Pot 5 : 53 : 0.3365Pot 5 : 47 6/8 : 0.3366Pot 5 : 34 6/8 : 0.33673368Total : 821.25 : 287.00.33693370The average height of the flower-stems of the sixteen crossed plants is3371here 51.33 inches; and that of the eight self-fertilised plants, 35.87;3372or as 100 to 70. But this difference in height does not give at all a3373fair idea of the vast superiority of the crossed plants. These latter3374produced altogether sixty-four flower-stems, each plant producing, on an3375average, exactly four flower-stems, whereas the eight self-fertilised3376plants produced only fifteen flower-stems, each producing an average3377only of 1.87 stems, and these had a less luxuriant appearance. We may3378put the result in another way: the number of flower-stems on the crossed3379plants was to those on an equal number of self-fertilised plants as 1003380to 48.33813382Three crossed seeds in a state of germination were also planted in three3383separate pots; and three self-fertilised seeds in the same state in3384three other pots. These plants were therefore at first exposed to no3385competition with one another, and when turned out of their pots into the3386open ground they were planted at a moderate distance apart, so that they3387were exposed to much less severe competition than in the last case. The3388longest leaves on the three crossed plants, when turned out, exceeded3389those on the self-fertilised plants by a mere trifle, namely, on an3390average by .17 of an inch. When fully grown the three crossed plants3391produced twenty-six flower-stems; the two tallest of which on each plant3392were on an average 54.04 inches in height. The three self-fertilised3393plants produced twenty-three flower-stems, the two tallest of which on3394each plant had an average height of 46.18 inches. So that the difference3395between these two lots, which hardly competed together, is much less3396than in the last case when there was moderately severe competition,3397namely, as 100 to 85, instead of as 100 to 70.33983399THE EFFECTS ON THE OFFSPRING OF INTERCROSSING DIFFERENT FLOWERS ON THE3400SAME PLANT, INSTEAD OF CROSSING DISTINCT INDIVIDUALS.34013402A fine plant growing in my garden (one of the foregoing seedlings) was3403covered with a net, and six flowers were crossed with pollen from3404another flower on the same plant, and six others were fertilised with3405their own pollen. All produced good capsules. The seeds from each were3406placed in separate watch-glasses, and no difference could be perceived3407by the eye between the two lots of seeds; and when they were weighed3408there was no difference of any significance, as the seeds from the3409self-fertilised capsules weighed 7.65 grains, whilst those from the3410crossed capsules weighed 7.7 grains. Therefore the sterility of the3411present species, when insects are excluded, is not due to the impotence3412of pollen on the stigma of the same flower. Both lots of seeds and3413seedlings were treated in exactly the same manner as in Table 3/23,3414excepting that after the pairs of germinating seeds had been planted on3415the opposite sides of eight pots, all the remaining seeds were thickly3416sown on the opposite sides of Pots 9 and 10 in Table 3/24. The young3417plants during the following spring were turned out of their pots,3418without being disturbed, and planted in the open ground in two rows, not3419very close together, so that they were subjected to only moderately3420severe competition with one another. Very differently to what occurred3421in the first experiment, when the plants were subjected to somewhat3422severe mutual competition, an equal number on each side either died or3423did not produce flower-stems. The tallest flower-stems on the surviving3424plants were measured, as shown in Table 3/24.34253426TABLE 3/24. Digitalis purpurea.34273428The tallest Flower-stem on each Plant measured in inches: 0 signifies3429that the Plant died, or did not produce a Flower-stem.34303431Column 1: Number (Name) of Pot.34323433Column 2: Plants raised from a Cross between different Flowers on the3434same Plant.34353436Column 3: Plants raised from Flowers fertilised with their own Pollen.34373438Pot 1 : 49 4/8 : 45 5/8.3439Pot 1 : 46 7/8 : 52.3440Pot 1 : 43 6/8 : 0.34413442Pot 2 : 38 4/8 : 54 4/8.3443Pot 2 : 47 4/8 : 47 4/8.3444Pot 2 : 0 : 32 5/8.34453446Pot 3 : 54 7/8 : 46 5/8.34473448Pot 4 : 32 1/8 : 41 3/8.3449Pot 4 : 0 : 29 7/8.3450Pot 4 : 43 7/8 : 37 1/8.34513452Pot 5 : 46 6/8 : 42 1/8.3453Pot 5 : 40 4/8 : 42 1/8.3454Pot 5 : 43 : 0.34553456Pot 6 : 48 2/8 : 47 7/8.3457Pot 6 : 46 2/8 : 48 3/8.34583459Pot 7 : 48 5/8 : 25.3460Pot 7 : 42 : 40 5/8.34613462Pot 8 : 46 7/8 : 39 1/8.34633464Pot 9 : 49 : 30 3/8.3465Pot 9 : 50 3/8 : 15.3466Pot 9 : 46 3/8 : 36 7/8.3467Pot 9 : 47 6/8 : 44 1/8.3468Pot 9 : 0 : 31 6/8.3469Crowded Plants.34703471Pot 10 : 46 4/8 : 47 7/8.3472Pot 10 : 35 2/8 : 0.3473Pot 10 : 24 5/8 : 34 7/8.3474Pot 10 : 41 4/8 : 40 7/8.3475Pot 10 : 17 3/8 : 41 1/8.3476Crowded Plants.34773478Total : 1078.00 : 995.38.34793480The average height of the flower-stems on the twenty-five crossed plants3481in all the pots taken together is 43.12 inches, and that of the3482twenty-five self-fertilised plants 39.82, or as 100 to 92. In order to3483test this result, the plants planted in pairs in Pots 1 and 8 were3484considered by themselves, and the average height of the sixteen crossed3485plants is here 44.9, and that of the sixteen self-fertilised plants348642.03, or as 100 to 94. Again, the plants raised from the thickly sown3487seed in Pots 9 and 10, which were subjected to very severe mutual3488competition, were taken by themselves, and the average height of the3489nine crossed plants is 39.86, and that of the nine self-fertilised3490plants 35.88, or as 100 to 90. The plants in these two latter pots (93491and 10), after being measured, were cut down close to the ground and3492weighed: the nine crossed plants weighed 57.66 ounces, and the nine3493self-fertilised plants 45.25 ounces, or as 100 to 78. On the whole we3494may conclude, especially from the evidence of weight, that seedlings3495from a cross between flowers on the same plant have a decided, though3496not great, advantage over those from flowers fertilised with their own3497pollen, more especially in the case of the plants subjected to severe3498mutual competition. But the advantage is much less than that exhibited3499by the crossed offspring of distinct plants, for these exceeded the3500self-fertilised plants in height as 100 to 70, and in the number of3501flower-stems as 100 to 48. Digitalis thus differs from Ipomoea, and3502almost certainly from Mimulus, as with these two species a cross between3503flowers on the same plant did no good.35043505CALCEOLARIA.35063507A BUSHY GREENHOUSE VARIETY, WITH YELLOW FLOWERS BLOTCHED WITH PURPLE.35083509The flowers in this genus are constructed so as to favour or almost3510ensure cross-fertilisation (3/6. Hildebrand as quoted by H. Muller 'Die3511Befruchtung der Blumen' 1873 page 277.); and Mr. Anderson remarks that3512extreme care is necessary to exclude insects in order to preserve any3513kind true. (3/7. 'Gardeners' Chronicle' 1853 page 534.) He adds the3514interesting statement, that when the corolla is cut quite away, insects,3515as far as he has seen, never discover or visit the flowers. This plant3516is, however, self-fertile if insects are excluded. So few experiments3517were made by me, that they are hardly worth giving. Crossed and3518self-fertilised seeds were sown on opposite sides of a pot, and after a3519time the crossed seedlings slightly exceeded the self-fertilised in3520height. When a little further grown, the longest leaves on the former3521were very nearly 3 inches in length, whilst those on the self-fertilised3522plants were only 2 inches. Owing to an accident, and to the pot being3523too small, only one plant on each side grew up and flowered; the crossed3524plant was 19 1/2 inches in height, and the self-fertilised one 153525inches; or as 100 to 77.35263527Linaria vulgaris.35283529It has been mentioned in the introductory chapter that two large beds of3530this plant were raised by me many years ago from crossed and3531self-fertilised seeds, and that there was a conspicuous difference in3532height and general appearance between the two lots. The trial was3533afterwards repeated with more care; but as this was one of the first3534plants experimented on, my usual method was not followed. Seeds were3535taken from wild plants growing in this neighbourhood and sown in poor3536soil in my garden. Five plants were covered with a net, the others being3537left exposed to the bees, which incessantly visit the flowers of this3538species, and which, according to H. Muller, are the exclusive3539fertilisers. This excellent observer remarks that, as the stigma lies3540between the anthers and is mature at the same time with them,3541self-fertilisation is possible. (3/8. 'Die Befruchtung' etc. page 279.)3542But so few seeds are produced by protected plants, that the pollen and3543stigma of the same flower seem to have little power of mutual3544interaction. The exposed plants bore numerous capsules forming solid3545spikes. Five of these capsules were examined and appeared to contain an3546equal number of seeds; and these being counted in one capsule, were3547found to be 166. The five protected plants produced altogether only3548twenty-five capsules, of which five were much finer than all the others,3549and these contained an average of 23.6 seeds, with a maximum in one3550capsule of fifty-five. So that the number of seeds in the capsules on3551the exposed plants to the average number in the finest capsules on the3552protected plants was as 100 to 14.35533554Some of the spontaneously self-fertilised seeds from under the net, and3555some seeds from the uncovered plants naturally fertilised and almost3556certainly intercrossed by the bees, were sown separately in two large3557pots of the same size; so that the two lots of seedlings were not3558subjected to any mutual competition. Three of the crossed plants when in3559full flower were measured, but no care was taken to select the tallest3560plants; their heights were 7 4/8, 7 2/8, and 6 4/8 inches; averaging35617.08 in height. The three tallest of all the self-fertilised plants were3562then carefully selected, and their heights were 6 3/8, 5 5/8, and 5 2/8,3563averaging 5.75 in height. So that the naturally crossed plants were to3564the spontaneously self-fertilised plants in height, at least as much as3565100 to 81.35663567Verbascum thapsus.35683569The flowers of this plant are frequented by various insects, chiefly by3570bees, for the sake of the pollen. Hermann Muller, however, has shown3571('Die Befruchtung' etc. page 277) that V. nigrum secretes minute drops3572of nectar. The arrangement of the reproductive organs, though not at all3573complex, favours cross-fertilisation; and even distinct species are3574often crossed, for a greater number of naturally produced hybrids have3575been observed in this genus than in almost any other. (3/9. I have given3576a striking case of a large number of such hybrids between Verbascum3577thapsus and lychnitis found growing wild: 'Journal of Linnean Society3578Botany' volume 10 page 451.) Nevertheless the present species is3579perfectly self-fertile, if insects are excluded; for a plant protected3580by a net was as thickly loaded with fine capsules as the surrounding3581uncovered plants. Verbascum lychnitis is rather less self-fertile, for3582some protected plants did not yield quite so many capsules as the3583adjoining uncovered plants.35843585Plants of Verbascum thapsus had been raised for a distinct purpose from3586self-fertilised seeds; and some flowers on these plants were again3587self-fertilised, yielding seed of the second self-fertilised generation;3588and other flowers were crossed with pollen from a distinct plant. The3589seeds thus produced were sown on the opposite sides of four large pots.3590They germinated, however, so irregularly (the crossed seedlings3591generally coming up first) that I was able to save only six pairs of3592equal age. These when in full flower were measured, as in Table 3/25.35933594TABLE 3/25. Verbascum thapsus.35953596Heights of Plants measured in inches.35973598Column 1: Number (Name) of Pot.35993600Column 2: Crossed Plants.36013602Column 3: Self-fertilised Plants of the Second Generation.36033604Pot 1 : 76 : 53 4/8.36053606Pot 2 : 54 : 66.36073608Pot 3 : 62 : 75.3609Pot 3 : 60 5/8 : 30 4/8.36103611Pot 4 : 73 : 62.3612Pot 4 : 66 4/8 : 52.36133614Total : 392.13 : 339.00.36153616We here see that two of the self-fertilised plants exceed in height3617their crossed opponents. Nevertheless the average height of the six3618crossed plants is 65.34 inches, and that of the six self-fertilised3619plants 56.5 inches; or as 100 to 86.36203621Vandellia nummularifolia.36223623Seeds were sent to me by Mr. J. Scott from Calcutta of this small Indian3624weed, which bears perfect and cleistogene flowers. (3/10. The convenient3625term of CLEISTOGENE was proposed by Kuhn in an article on the present3626genus in 'Bot. Zeitung' 1867 page 65.) The latter are extremely small,3627imperfectly developed, and never expand, yet yield plenty of seeds. The3628perfect and open flowers are also small, of a white colour with purple3629marks; they generally produce seed, although the contrary has been3630asserted; and they do so even if protected from insects. They have a3631rather complicated structure, and appear to be adapted for3632cross-fertilisation, but were not carefully examined by me. They are not3633easy to fertilise artificially, and it is possible that some of the3634flowers which I thought that I had succeeded in crossing were afterwards3635spontaneously self-fertilised under the net. Sixteen capsules from the3636crossed perfect flowers contained on an average ninety-three seeds (with3637a maximum in one capsule of 137), and thirteen capsules from the3638self-fertilised perfect flowers contained sixty-two seeds (with a3639maximum in one capsule of 135); or as 100 to 67. But I suspect that this3640considerable excess was accidental, as on one occasion nine crossed3641capsules were compared with seven self-fertilised capsules (both3642included in the above number), and they contained almost exactly the3643same average number of seed. I may add that fifteen capsules from3644self-fertilised cleistogene flowers contained on an average sixty-four3645seeds, with a maximum in one of eighty-seven.36463647Crossed and self-fertilised seeds from the perfect flowers, and other3648seeds from the self-fertilised cleistogene flowers, were sown in five3649pots, each divided superficially into three compartments. The seedlings3650were thinned at an early age, so that twenty plants were left in each of3651the three divisions. The crossed plants when in full flower averaged 4.33652inches, and the self-fertilised plants from the perfect flowers 4.273653inches in height; or as 100 to 99. The self-fertilised plants from the3654cleistogene flowers averaged 4.06 inches in height; so that the crossed3655were in height to these latter plants as 100 to 94.36563657I determined to compare again the growth of plants raised from crossed3658and self-fertilised perfect flowers, and obtained two fresh lots of3659seeds. These were sown on opposite sides of five pots, but they were not3660sufficiently thinned, so that they grew rather crowded. When fully3661grown, all those above 2 inches in height were selected, all below this3662standard being rejected; the former consisted of forty-seven crossed and3663forty-one self-fertilised plants; thus a greater number of the crossed3664than of the self-fertilised plants grew to a height of above 2 inches.3665Of the crossed plants, the twenty-four tallest were on an average 3.63666inches in height; whilst the twenty-four tallest self-fertilised plants3667were 3.38 inches in average height; or as 100 to 94. All these plants3668were then cut down close to the ground, and the forty-seven crossed3669plants weighed 1090.3 grains, and the forty-one self-fertilised plants3670weighed 887.4 grains. Therefore an equal number of crossed and3671self-fertilised would have been to each other in weight as 100 to 97.3672From these several facts we may conclude that the crossed plants had3673some real, though very slight, advantage in height and weight over the3674self-fertilised plants, when grown in competition with one another.36753676The crossed plants were, however, inferior in fertility to the3677self-fertilised. Six of the finest plants were selected out of the3678forty-seven crossed plants, and six out of the forty-one self-fertilised3679plants; and the former produced 598 capsules, whilst the latter or3680self-fertilised plants produced 752 capsules. All these capsules were3681the product of cleistogene flowers, for the plants did not bear during3682the whole of this season any perfect flowers. The seeds were counted in3683ten cleistogene capsules produced by crossed plants, and their average3684number was 46.4 per capsule; whilst the number in ten cleistogene3685capsules produced by the self-fertilised plants was 49.4; or as 100 to3686106.368736883. GESNERIACEAE.--Gesneria pendulina.36893690In Gesneria the several parts of the flower are arranged on nearly the3691same plan as in Digitalis, and most or all of the species are3692dichogamous. (3/11. Dr. Ogle 'Popular Science Review' January 1870 page369351.) Plants were raised from seed sent me by Fritz Muller from South3694Brazil. Seven flowers were crossed with pollen from a distinct plant,3695and produced seven capsules containing by weight 3.01 grains of seeds.3696Seven flowers on the same plants were fertilised with their own pollen,3697and their seven capsules contained exactly the same weight of seeds.3698Germinating seeds were planted on opposite sides of four pots, and when3699fully grown measured to the tips of their leaves.37003701TABLE 3/26. Gesneria pendulina.37023703Heights of Plants measured in inches.37043705Column 1: Number (Name) of Pot.37063707Column 2: Crossed Plants.37083709Column 3: Self-fertilised Plants.37103711Pot 1 : 42 2/8 : 39.3712Pot 1 : 24 4/8 : 27 3/8.37133714Pot 2 : 33 : 30 6/8.3715Pot 2 : 27 : 19 2/8.37163717Pot 3 : 33 4/8 : 31 7/8.3718Pot 3 : 29 4/8 : 28 6/8.37193720Pot 4 : 30 6/8 : 29 6/8.3721Pot 4 : 36 : 26 3/8.37223723Total : 256.50 : 233.13.37243725The average height of the eight crossed plants is 32.06 inches, and that3726of the eight self-fertilised plants 29.14; or as 100 to 90.372737284. LABIATAE.--Salvia coccinea. (3/12. The admirable mechanical3729adaptations in this genus for favouring or ensuring cross-fertilisation,3730have been fully described by Sprengel, Hildebrand, Delpino, H. Muller,3731Ogle, and others, in their several works.)37323733This species, unlike most of the others in the same genus, yields a good3734many seeds when insects are excluded. I gathered ninety-eight capsules3735produced by flowers spontaneously self-fertilised under a net, and they3736contained on an average 1.45 seeds, whilst flowers artificially3737fertilised with their own pollen, in which case the stigma will have3738received plenty of pollen, yielded on an average 3.3 seeds, or more than3739twice as many. Twenty flowers were crossed with pollen from a distinct3740plant, and twenty-six were self-fertilised. There was no great3741difference in the proportional number of flowers which produced capsules3742by these two processes, or in the number of the contained seeds, or in3743the weight of an equal number of seeds.37443745Seeds of both kinds were sown rather thickly on opposite sides of three3746pots. When the seedlings were about 3 inches in height, the crossed3747showed a slight advantage over the self-fertilised. When two-thirds3748grown, the two tallest plants on each side of each pot were measured;3749the crossed averaged 16.37 inches, and the self-fertilised 11.75 in3750height; or as 100 to 71. When the plants were fully grown and had done3751flowering, the two tallest plants on each side were again measured, with3752the results shown in Table 3/27.37533754TABLE 3/27. Salvia coccinea.37553756Heights of Plants measured in inches.37573758Column 1: Number (Name) of Pot.37593760Column 2: Crossed Plants.37613762Column 3: Self-fertilised Plants.37633764Pot 1 : 32 6/8 : 25.3765Pot 1 : 20 : 18 6/8.37663767Pot 2 : 32 3/8 : 20 6/8.3768Pot 2 : 24 4/8 : 19 4/8.37693770Pot 3 : 29 4/8 : 25.3771Pot 3 : 28 : 18.37723773Total : 167.13 : 127.00.37743775It may be here seen that each of the six tallest crossed plants exceeds3776in height its self-fertilised opponent; the former averaged 27.853777inches, whilst the six tallest self-fertilised plants averaged 21.163778inches; or as 100 to 76. In all three pots the first plant which3779flowered was a crossed one. All the crossed plants together produced 4093780flowers, whilst all the self-fertilised together produced only 2323781flowers; or as 100 to 57. So that the crossed plants in this respect3782were far more productive than the self-fertilised.37833784Origanum vulgare.37853786This plant exists, according to H. Muller, under two forms; one3787hermaphrodite and strongly proterandrous, so that it is almost certain3788to be fertilised by pollen from another flower; the other form is3789exclusively female, has a smaller corolla, and must of course be3790fertilised by pollen from a distinct plant in order to yield any seeds.3791The plants on which I experimented were hermaphrodites; they had been3792cultivated for a long period as a pot-herb in my kitchen garden, and3793were, like so many long-cultivated plants, extremely sterile. As I felt3794doubtful about the specific name I sent specimens to Kew, and was3795assured that the species was Origanum vulgare. My plants formed one3796great clump, and had evidently spread from a single root by stolons. In3797a strict sense, therefore, they all belonged to the same individual. My3798object in experimenting on them was, firstly, to ascertain whether3799crossing flowers borne by plants having distinct roots, but all derived3800asexually from the same individual, would be in any respect more3801advantageous than self-fertilisation; and, secondly, to raise for future3802trial seedlings which would constitute really distinct individuals.3803Several plants in the above clump were covered by a net, and about two3804dozen seeds (many of which, however, were small and withered) were3805obtained from the flowers thus spontaneously self-fertilised. The3806remainder of the plants were left uncovered and were incessantly visited3807by bees, so that they were doubtless crossed by them. These exposed3808plants yielded rather more and finer seed (but still very few) than did3809the covered plants. The two lots of seeds thus obtained were sown on3810opposite sides of two pots; the seedlings were carefully observed from3811their first growth to maturity, but they did not differ at any period in3812height or in vigour, the importance of which latter observation we shall3813presently see. When fully grown, the tallest crossed plant in one pot3814was a very little taller than the tallest self-fertilised plant on the3815opposite side, and in the other pot exactly the reverse occurred. So3816that the two lots were in fact equal; and a cross of this kind did no3817more good than crossing two flowers on the same plant of Ipomoea or3818Mimulus.38193820The plants were turned out of the two pots without being disturbed and3821planted in the open ground, in order that they might grow more3822vigorously. In the following summer all the self-fertilised and some of3823the quasi-crossed plants were covered by a net. Many flowers on the3824latter were crossed by me with pollen from a distinct plant, and others3825were left to be crossed by the bees. These quasi-crossed plants produced3826rather more seed than did the original ones in the great clump when left3827to the action of the bees. Many flowers on the self-fertilised plants3828were artificially self-fertilised, and others were allowed to fertilise3829themselves spontaneously under the net, but they yielded altogether very3830few seeds. These two lots of seeds--the product of a cross between3831distinct seedlings, instead of as in the last case between plants3832multiplied by stolons, and the product of self-fertilised flowers--were3833allowed to germinate on bare sand, and several equal pairs were planted3834on opposite sides of two LARGE pots. At a very early age the crossed3835plants showed some superiority over the self-fertilised, which was ever3836afterwards retained. When the plants were fully grown, the two tallest3837crossed and the two tallest self-fertilised plants in each pot were3838measured, as shown in Table 3/28. I regret that from want of time I did3839not measure all the pairs; but the tallest on each side seemed fairly to3840represent the average difference between the two lots.38413842TABLE 3/28. Origanum vulgare.38433844Heights of Plants measured in inches.38453846Column 1: Number (Name) of Pot.38473848Column 2: Crossed Plants (two tallest in each pot).38493850Column 3: Self-fertilised Plants (two tallest in each pot).38513852Pot 1 : 26 : 24.3853Pot 1 : 21 : 21.38543855Pot 2 : 17 : 12.3856Pot 2 : 16 : 11 4/8.38573858Total : 80.0 : 68.5.38593860The average height of the crossed plants is here 20 inches, and that of3861the self-fertilised 17.12; or as 100 to 86. But this excess of height by3862no means gives a fair idea of the vast superiority in vigour of the3863crossed over the self-fertilised plants. The crossed flowered first and3864produced thirty flower-stems, whilst the self-fertilised produced only3865fifteen, or half the number. The pots were then bedded out, and the3866roots probably came out of the holes at the bottom and thus aided their3867growth. Early in the following summer the superiority of the crossed3868plants, owing to their increase by stolons, over the self-fertilised3869plants was truly wonderful. In Pot 1, and it should be remembered that3870very large pots had been used, the oval clump of crossed plants was 103871by 4 1/2 inches across, with the tallest stem, as yet young, 5 1/23872inches in height; whilst the clump of self-fertilised plants, on the3873opposite side of the same pot, was only 3 1/2 by 2 1/2 inches across,3874with the tallest young stem 4 inches in height. In Pot 2, the clump of3875crossed plants was 18 by 9 inches across, with the tallest young stem 838761/2 inches in height; whilst the clump of self-fertilised plants on the3877opposite side of the same pot was 12 by 4 1/2 inches across, with the3878tallest young stem 6 inches in height. The crossed plants during this3879season, as during the last, flowered first. Both the crossed and3880self-fertilised plants being left freely exposed to the visits of bees,3881manifestly produced much more seed than their grand-parents,--the plants3882of the original clump still growing close by in the same garden, and3883equally left to the action of the bees.388438855. ACANTHACEAE.--Thunbergia alata.38863887It appears from Hildebrand's description ('Botanische Zeitung' 1867 page3888285) that the conspicuous flowers of this plant are adapted for3889cross-fertilisation. Seedlings were twice raised from purchased seed;3890but during the early summer, when first experimented on, they were3891extremely sterile, many of the anthers containing hardly any pollen.3892Nevertheless, during the autumn these same plants spontaneously produced3893a good many seeds. Twenty-six flowers during the two years were crossed3894with pollen from a distinct plant, but they yielded only eleven3895capsules; and these contained very few seeds! Twenty-eight flowers were3896fertilised with pollen from the same flower, and these yielded only ten3897capsules, which, however, contained rather more seed than the crossed3898capsules. Eight pairs of germinating seeds were planted on opposite3899sides of five pots; and exactly half the crossed and half the3900self-fertilised plants exceeded their opponents in height. Two of the3901self-fertilised plants died young, before they were measured, and their3902crossed opponents were thrown away. The six remaining pairs of these3903grew very unequally, some, both of the crossed and self-fertilised3904plants, being more than twice as tall as the others. The average height3905of the crossed plants was 60 inches, and that of the self-fertilised3906plants 65 inches, or as 100 to 108. A cross, therefore, between distinct3907individuals here appears to do no good; but this result deduced from so3908few plants in a very sterile condition and growing very unequally,3909obviously cannot be trusted.]3910391139123913CHAPTER IV.39143915CRUCIFERAE, PAPAVERACEAE, RESEDACEAE, ETC.39163917Brassica oleracea, crossed and self-fertilised plants.3918Great effect of a cross with a fresh stock on the weight of the3919offspring.3920Iberis umbellata.3921Papaver vagum.3922Eschscholtzia californica, seedlings from a cross with a fresh stock not3923more vigorous, but more fertile than the self-fertilised seedlings.3924Reseda lutea and odorata, many individuals sterile with their own pollen.3925Viola tricolor, wonderful effects of a cross.3926Adonis aestivalis.3927Delphinium consolida.3928Viscaria oculata, crossed plants hardly taller, but more fertile than3929the self-fertilised.3930Dianthus caryophyllus, crossed and self-fertilised plants compared for3931four generations.3932Great effects of a cross with a fresh stock.3933Uniform colour of the flowers on the self-fertilised plants.3934Hibiscus africanus.39353936[6. CRUCIFERAE.--Brassica oleracea.39373938VAR. CATTELL'S EARLY BARNES CABBAGE.39393940The flowers of the common cabbage are adapted, as shown by H. Muller,3941for cross-fertilisation, and should this fail, for self-fertilisation.3942(4/1. 'Die Befruchtung' etc. page 139.) It is well known that the3943varieties are crossed so largely by insects, that it is impossible to3944raise pure kinds in the same garden, if more than one kind is in flower3945at the same time. Cabbages, in one respect, were not well fitted for my3946experiments, as, after they had formed heads, they were often difficult3947to measure. The flower-stems also differ much in height; and a poor3948plant will sometimes throw up a higher stem than that of a fine plant.3949In the later experiments, the fully-grown plants were cut down and3950weighed, and then the immense advantage from a cross became manifest.39513952A single plant of the above variety was covered with a net just before3953flowering, and was crossed with pollen from another plant of the same3954variety growing close by; and the seven capsules thus produced contained3955on an average 16.3 seeds, with a maximum of twenty in one capsule. Some3956flowers were artificially self-fertilised, but their capsules did not3957contain so many seeds as those from flowers spontaneously3958self-fertilised under the net, of which a considerable number were3959produced. Fourteen of these latter capsules contained on an average 4.13960seeds, with a maximum in one of ten seeds; so that the seeds in the3961crossed capsules were in number to those in the self-fertilised capsules3962as 100 to 25. The self-fertilised seeds, fifty-eight of which weighed39633.88 grains, were, however, a little finer than those from the crossed3964capsules, fifty-eight of which weighed 3.76 grains. When few seeds are3965produced, these seem often to be better nourished and to be heavier than3966when many are produced.39673968The two lots of seeds in an equal state of germination were planted,3969some on opposite sides of a single pot, and some in the open ground. The3970young crossed plants in the pot at first exceeded by a little in height3971the self-fertilised; then equalled them; were then beaten; and lastly3972were again victorious. The plants, without being disturbed, were turned3973out of the pot, and planted in the open ground; and after growing for3974some time, the crossed plants, which were all of nearly the same height,3975exceeded the self-fertilised ones by 2 inches. When they flowered, the3976flower-stems of the tallest crossed plant exceeded that of the tallest3977self-fertilised plant by 6 inches. The other seedlings which were3978planted in the open ground stood separate, so that they did not compete3979with one another; nevertheless the crossed plants certainly grew to a3980rather greater height than the self-fertilised; but no measurements were3981made. The crossed plants which had been raised in the pot, and those3982planted in the open ground, all flowered a little before the3983self-fertilised plants.39843985CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.39863987Some flowers on the crossed plants of the last generation were again3988crossed with pollen from another crossed plant, and produced fine3989capsules. The flowers on the self-fertilised plants of the last3990generation were allowed to fertilise themselves spontaneously under a3991net, and they produced some remarkably fine capsules. The two lots of3992seeds thus produced germinated on sand, and eight pairs were planted on3993opposite sides of four pots. These plants were measured to the tips of3994their leaves on the 20th of October of the same year, and the eight3995crossed plants averaged in height 8.4 inches, whilst the self-fertilised3996averaged 8.53 inches, so that the crossed were a little inferior in3997height, as 100 to 101.5. By the 5th of June of the following year these3998plants had grown much bulkier, and had begun to form heads. The crossed3999had now acquired a marked superiority in general appearance, and4000averaged 8.02 inches in height, whilst the self-fertilised averaged 7.314001inches; or as 100 to 91. The plants were then turned out of their pots4002and planted undisturbed in the open ground. By the 5th of August their4003heads were fully formed, but several had grown so crooked that their4004heights could hardly be measured with accuracy. The crossed plants,4005however, were on the whole considerably taller than the self-fertilised.4006In the following year they flowered; the crossed plants flowering before4007the self-fertilised in three of the pots, and at the same time in Pot 2.4008The flower-stems were now measured, as shown in Table 4/29.40094010TABLE 3/29. Brassica oleracea.40114012Measured in inches to tops of flower-stems: 0 signifies that a4013Flower-stem was not formed.40144015Column 1: Number (Name) of Pot.40164017Column 2: Crossed Plants.40184019Column 3: Self-fertilised Plants.40204021Pot 1 : 49 2/8 : 44.4022Pot 1 : 39 4/8 : 41.40234024Pot 2 : 37 4/8 : 38.4025Pot 2 : 33 4/8 : 35 4/8.40264027Pot 3 : 47 : 51 1/8.4028Pot 3 : 40 : 41 2/8.4029Pot 3 : 42 : 46 4/8.40304031Pot 4 : 43 6/8 : 20 2/8.4032Pot 4 : 37 2/8 : 33 3/8.4033Pot 4 : 0 : 0.40344035Total : 369.75 : 351.00.40364037The nine flower-stems on the crossed plants here average 41.08 inches,4038and the nine on the self-fertilised plants 39 inches in height, or as4039100 to 95. But this small difference, which, moreover, depended almost4040wholly on one of the self-fertilised plants being only 20 inches high,4041does not in the least show the vast superiority of the crossed over the4042self-fertilised plants. Both lots, including the two plants in Pot 4,4043which did not flower, were now cut down close to the ground and weighed,4044but those in Pot 2 were excluded, for they had been accidentally injured4045by a fall during transplantation, and one was almost killed. The eight4046crossed plants weighed 219 ounces, whilst the eight self-fertilised4047plants weighed only 82 ounces, or as 100 to 37; so that the superiority4048of the former over the latter in weight was great.40494050THE EFFECTS OF A CROSS WITH A FRESH STOCK.40514052Some flowers on a crossed plant of the last or second generation were4053fertilised, without being castrated, by pollen taken from a plant of the4054same variety, but not related to my plants, and brought from a nursery4055garden (whence my seeds originally came) having a different soil and4056aspect. The flowers on the self-fertilised plants of the last or second4057generation (Table 4/29) were allowed to fertilise themselves4058spontaneously under a net, and yielded plenty of seeds. These latter and4059the crossed seeds, after germinating on sand, were planted in pairs on4060the opposite sides of six large pots, which were kept at first in a cool4061greenhouse. Early in January their heights were measured to the tips of4062their leaves. The thirteen crossed plants averaged 13.16 inches in4063height, and the twelve (for one had died) self-fertilised plants4064averaged 13.7 inches, or as 100 to 104; so that the self-fertilised4065plants exceeded by a little the crossed plants.40664067TABLE 3/30. Brassica oleracea.40684069Weights in ounces of plants after they had formed heads.40704071Column 1: Number (Name) of Pot.40724073Column 2: Crossed Plants from Pollen of fresh Stock.40744075Column 3: Self-fertilised Plants of the Third Generation.40764077Pot 1 : 130 : 18 2/4.40784079Pot 2 : 74 : 34 3/4.40804081Pot 3 : 121 : 17 2/4.40824083Pot 4 : 127 2/4 : 14.40844085Pot 5 : 90 : 11 2/4.40864087Pot 6 : 106 2/4 : 46.40884089Total : 649.00 : 142.25.40904091Early in the spring the plants were gradually hardened, and turned out4092of their pots into the open ground without being disturbed. By the end4093of August the greater number had formed fine heads, but several grew4094extremely crooked, from having been drawn up to the light whilst in the4095greenhouse. As it was scarcely possible to measure their heights, the4096finest plant on each side of each pot was cut down close to the ground4097and weighed. In Table 4/30 we have the result.40984099The six finest crossed plants average 108.16 ounces, whilst the six4100finest self-fertilised plants average only 23.7 ounces, or as 100 to 22.4101This difference shows in the clearest manner the enormous benefit which4102these plants derived from a cross with another plant belonging to the4103same sub-variety, but to a fresh stock, and grown during at least the4104three previous generations under somewhat different conditions.41054106THE OFFSPRING FROM A CUT-LEAVED, CURLED, AND VARIEGATED WHITE-GREEN4107CABBAGE CROSSED WITH A CUT-LEAVED, CURLED, AND VARIEGATED CRIMSON-GREEN4108CABBAGE, COMPARED WITH THE SELF-FERTILISED OFFSPRING FROM THE TWO4109VARIETIES.41104111These trials were made, not for the sake of comparing the growth of the4112crossed and self-fertilised seedlings, but because I had seen it stated4113that these varieties would not naturally intercross when growing4114uncovered and near one another. This statement proved quite erroneous;4115but the white-green variety was in some degree sterile in my garden,4116producing little pollen and few seeds. It was therefore no wonder that4117seedlings raised from the self-fertilised flowers of this variety were4118greatly exceeded in height by seedlings from a cross between it and the4119more vigorous crimson-green variety; and nothing more need be said about4120this experiment.41214122The seedlings from the reciprocal cross, that is, from the crimson-green4123variety fertilised with pollen from the white-green variety, offer a4124somewhat more curious case. A few of these crossed seedlings reverted to4125a pure green variety with their leaves less cut and curled, so that they4126were altogether in a much more natural state, and these plants grew more4127vigorously and taller than any of the others. Now it is a strange fact4128that a much larger number of the self-fertilised seedlings from the4129crimson-green variety than of the crossed seedlings thus reverted; and4130as a consequence the self-fertilised seedlings grew taller by 2 1/24131inches on an average than the crossed seedlings, with which they were4132put into competition. At first, however, the crossed seedlings exceeded4133the self-fertilised by an average of a quarter of an inch. We thus see4134that reversion to a more natural condition acted more powerfully in4135favouring the ultimate growth of these plants than did a cross; but it4136should be remembered that the cross was with a semi-sterile variety4137having a feeble constitution.41384139Iberis umbellata.41404141VAR. KERMESIANA.41424143This variety produced plenty of spontaneously self-fertilised seed under4144a net. Other plants in pots in the greenhouse were left uncovered, and4145as I saw small flies visiting the flowers, it seemed probable that they4146would be intercrossed. Consequently seeds supposed to have been thus4147crossed and spontaneously self-fertilised seeds were sown on opposite4148sides of a pot. The self-fertilised seedlings grew from the first4149quicker than the supposed crossed seedlings, and when both lots were in4150full flower the former were from 5 to 6 inches higher than the crossed!4151I record in my notes that the self-fertilised seeds from which these4152self-fertilised plants were raised were not so well ripened as the4153crossed; and this may possibly have caused the great difference in their4154growth, in a somewhat analogous manner as occurred with the4155self-fertilised plants of the eighth generation of Ipomoea raised from4156unhealthy parents. It is a curious circumstance, that two other lots of4157the above seeds were sown in pure sand mixed with burnt earth, and4158therefore without any organic matter; and here the supposed crossed4159seedlings grew to double the height of the self-fertilised, before both4160lots died, as necessarily occurred at an early period. We shall4161hereafter meet with another case apparently analogous to this of Iberis4162in the third generation of Petunia.41634164The above self-fertilised plants were allowed to fertilise themselves4165again under a net, yielding self-fertilised plants of the second4166generation, and the supposed crossed plants were crossed by pollen of a4167distinct plant; but from want of time this was done in a careless4168manner, namely, by smearing one head of expanded flowers over another. I4169should have thought that this would have succeeded, and perhaps it did4170so; but the fact of 108 of the self-fertilised seeds weighing 4.874171grains, whilst the same number of the supposed crossed seeds weighed4172only 3.57 grains, does not look like it. Five seedlings from each lot of4173seeds were raised, and the self-fertilised plants, when fully grown,4174exceeded in average height by a trifle (namely .4 of an inch) the five4175probably crossed plants. I have thought it right to give this case and4176the last, because had the supposed crossed plants proved superior to the4177self-fertilised in height, I should have assumed without doubt that the4178former had really been crossed. As it is, I do not know what to4179conclude.41804181Being much surprised at the two foregoing trials, I determined to make4182another, in which there should be no doubt about the crossing. I4183therefore fertilised with great care (but as usual without castration)4184twenty-four flowers on the supposed crossed plants of the last4185generation with pollen from distinct plants, and thus obtained4186twenty-one capsules. The self-fertilised plants of the last generation4187were allowed to fertilise themselves again under a net, and the4188seedlings reared from these seeds formed the third self-fertilised4189generation. Both lots of seeds, after germinating on bare sand, were4190planted in pairs on the opposite sides of two pots. All the remaining4191seeds were sown crowded on opposite sides of a third pot; but as all the4192self-fertilised seedlings in this latter pot died before they grew to4193any considerable height, they were not measured. The plants in Pots 14194and 2 were measured when between 7 and 8 inches in height, and the4195crossed exceeded the self-fertilised in average height by 1.57 inches.4196When fully grown they were again measured to the summits of their4197flower-heads, with the following result:--41984199TABLE 4/31. Iberis umbellata.42004201Heights of plants to the summits of their flower-heads, in inches.42024203Column 1: Number (Name) of Pot.42044205Column 2: Crossed Plants.42064207Column 3: Self-fertilised Plants of the Third Generation.42084209Pot 1 : 18 : 19.4210Pot 1 : 21 : 21.4211Pot 1 : 18 2/8 : 19 4/8.42124213Pot 2 : 19 : 16 6/8.4214Pot 2 : 18 4/8 : 7 4/8.4215Pot 2 : 17 6/8 : 14 4/8.4216Pot 2 : 21 3/8 : 16 4/8.42174218Total : 133.88 : 114.75.42194220The average height of the seven crossed plants is here 19.12 inches, and4221that of the seven self-fertilised plants 16.39, or as 100 to 86. But as4222the plants on the self-fertilised side grew very unequally, this ratio4223cannot be fully trusted, and is probably too high. In both pots a4224crossed plant flowered before any one of the self-fertilised. These4225plants were left uncovered in the greenhouse; but from being too much4226crowded they were not very productive. The seeds from all seven plants4227of both lots were counted; the crossed produced 206, and the4228self-fertilised 154; or as 100 to 75.42294230CROSS BY A FRESH STOCK.42314232From the doubts caused by the two first trials, in which it was not4233known with certainty that the plants had been crossed; and from the4234crossed plants in the last experiment having been put into competition4235with plants self-fertilised for three generations, which moreover grew4236very unequally, I resolved to repeat the trial on a larger scale, and in4237a rather different manner. I obtained seeds of the same crimson variety4238of Iberis umbellata from another nursery garden, and raised plants from4239them. Some of these plants were allowed to fertilise themselves4240spontaneously under a net; others were crossed by pollen taken from4241plants raised from seed sent me by Dr. Durando from Algiers, where the4242parent-plants had been cultivated for some generations. These latter4243plants differed in having pale pink instead of crimson flowers, but in4244no other respect. That the cross had been effective (though the flowers4245on the crimson mother-plant had NOT been castrated) was well shown when4246the thirty crossed seedlings flowered, for twenty-four of them produced4247pale pink flowers, exactly like those of their father; the six others4248having crimson flowers exactly like those of their mother and like those4249of all the self-fertilised seedlings. This case offers a good instance4250of a result which not rarely follows from crossing varieties having4251differently coloured flowers; namely, that the colours do not blend, but4252resemble perfectly those either of the father or mother plant. The seeds4253of both lots, after germinating on sand, were planted on opposite sides4254of eight pots. When fully grown, the plants were measured to the summits4255of the flower-heads, as shown in Table 4/32.42564257TABLE 4/32. Iberis umbellata.42584259Height of Plants to the summits of the flower-heads, measured in inches:42600 signifies that the Plant died.42614262Column 1: Number (Name) of Pot.42634264Column 2: Plants from a Cross with a fresh Stock.42654266Column 3: Plants from Spontaneously Self-fertilised Seeds.42674268Pot 1 : 18 6/8 : 17 3/8.4269Pot 1 : 17 5/8 : 16 7/8.4270Pot 1 : 17 6/8 : 13 1/8.4271Pot 1 : 20 1/8 : 15 3/8.42724273Pot 2 : 20 2/8 : 0.4274Pot 2 : 15 7/8 : 16 6/8.4275Pot 2 : 17 : 15 2/8.42764277Pot 3 : 19 2/8 : 13 6/8.4278Pot 3 : 18 1/8 : 14 2/8.4279Pot 3 : 15 2/8 : 13 4/8.42804281Pot 4 : 17 1/8 : 16 4/8.4282Pot 4 : 18 7/8 : 14 4/8.4283Pot 4 : 17 5/8 : 16.4284Pot 4 : 15 6/8 : 15 3/8.4285Pot 4 : 14 4/8 : 14 7/8.42864287Pot 5 : 18 1/8 : 16 4/8.4288Pot 5 : 14 7/8 : 16 2/8.4289Pot 5 : 16 2/8 : 14 2/8.4290Pot 5 : 15 5/8 : 14 2/8.4291Pot 5 : 12 4/8 : 16 1/8.42924293Pot 6 : 18 6/8 : 16 1/8.4294Pot 6 : 18 6/8 : 15.4295Pot 6 : 17 3/8 : 15 2/8.42964297Pot 7 : 18 : 16 3/8.4298Pot 7 : 16 4/8 : 14 4/8.4299Pot 7 : 18 2/8 : 13 5/8.43004301Pot 8 : 20 6/8 : 15 6/8.4302Pot 8 : 17 7/8 : 16 3/8.4303Pot 8 : 13 5/8 : 20 2/8.4304Pot 8 : 19 2/8 : 15 6/8.43054306Total : 520.38 : 449.88.43074308The average height of the thirty crossed plants is here 17.34, and that4309of the twenty-nine self-fertilised plants (one having died) 15.51, or as4310100 to 89. I am surprised that the difference did not prove somewhat4311greater, considering that in the last experiment it was as 100 to 86;4312but this latter ratio, as before explained, was probably too great. It4313should, however, be observed that in the last experiment (Table 4/31),4314the crossed plants competed with plants of the third self-fertilised4315generation; whilst in the present case, plants derived from a cross with4316a fresh stock competed with self-fertilised plants of the first4317generation.43184319The crossed plants in the present case, as in the last, were more4320fertile than the self-fertilised, both lots being left uncovered in the4321greenhouse. The thirty crossed plants produced 103 seed-bearing4322flowers-heads, as well as some heads which yielded no seeds; whereas the4323twenty-nine self-fertilised plants produced only 81 seed-bearing heads;4324therefore thirty such plants would have produced 83.7 heads. We thus get4325the ratio of 100 to 81, for the number of seed-bearing flower-heads4326produced by the crossed and self-fertilised plants. Moreover, a number4327of seed-bearing heads from the crossed plants, compared with the same4328number from the self-fertilised, yielded seeds by weight, in the ratio4329of 100 to 92. Combining these two elements, namely, the number of4330seed-bearing heads and the weight of seeds in each head, the4331productiveness of the crossed to the self-fertilised plants was as 1004332to 75.43334334The crossed and self-fertilised seeds, which remained after the above4335pairs had been planted, (some in a state of germination and some not4336so), were sown early in the year out of doors in two rows. Many of the4337self-fertilised seedlings suffered greatly, and a much larger number of4338them perished than of the crossed. In the autumn the surviving4339self-fertilised plants were plainly less well-grown than the crossed4340plants.434143427. PAPAVERACEAE.--Papaver vagum.43434344A SUB-SPECIES OF Papaver dubium, FROM THE SOUTH OF FRANCE.43454346The poppy does not secrete nectar, but the flowers are highly4347conspicuous and are visited by many pollen-collecting bees, flies and4348beetles. The anthers shed their pollen very early, and in the case of4349Papaver rhoeas, it falls on the circumference of the radiating stigmas,4350so that this species must often be self-fertilised; but with Papaver4351dubium the same result does not follow (according to H. Muller 'Die4352Befruchtung' page 128), owing to the shortness of the stamens, unless4353the flower happens to stand inclined. The present species, therefore,4354does not seem so well fitted for self-fertilisation as most of the4355others. Nevertheless Papaver vagum produced plenty of capsules in my4356garden when insects were excluded, but only late in the season. I may4357here add that Papaver somniferum produces an abundance of spontaneously4358self-fertilised capsules, as Professor H. Hoffmann likewise found to be4359the case. (4/2. 'Zur Speciesfrage' 1875 page 53.) Some species of4360Papaver cross freely when growing in the same garden, as I have known to4361be the case with Papaver bracteatum and orientale.43624363Plants of Papaver vagum were raised from seeds sent me from Antibes4364through the kindness of Dr. Bornet. Some little time after the flowers4365had expanded, several were fertilised with their own pollen, and others4366(not castrated) with pollen from a distinct individual; but I have4367reason to believe, from observations subsequently made, that these4368flowers had been already fertilised by their own pollen, as this process4369seems to take place soon after their expansion. (4/3. Mr. J. Scott found4370'Report on the Experimental Culture of the Opium Poppy' Calcutta 18744371page 47, in the case of Papaver somniferum, that if he cut away the4372stigmatic surface before the flower had expanded, no seeds were4373produced; but if this was done "on the second day, or even a few hours4374after the expansion of the flower on the first day, a partial4375fertilisation had already been effected, and a few good seeds were4376almost invariably produced." This proves at how early a period4377fertilisation takes place.) I raised, however, a few seedlings of both4378lots, and the self-fertilised rather exceeded the crossed plants in4379height.43804381Early in the following year I acted differently, and fertilised seven4382flowers, very soon after their expansion, with pollen from another4383plant, and obtained six capsules. From counting the seeds in a4384medium-sized one, I estimated that the average number in each was at4385least 120. Four out of twelve capsules, spontaneously self-fertilised at4386the same time, were found to contain no good seeds; and the remaining4387eight contained on an average 6.6 seeds per capsule. But it should be4388observed that later in the season the same plants produced under a net4389plenty of very fine spontaneously self-fertilised capsules.43904391The above two lots of seeds, after germinating on sand, were planted in4392pairs on opposite sides of five pots. The two lots of seedlings, when4393half an inch in height, and again when 6 inches high, were measured to4394the tips of their leaves, but presented no difference. When fully grown,4395the flower-stalks were measured to the summits of the seed capsules,4396with the following result:--43974398TABLE 4/33. Papaver vagum.43994400Heights of flower-stalks to the summits of the seed capsules measured in4401inches.44024403Column 1: Number (Name) of Pot.44044405Column 2: Crossed Plants.44064407Column 3: Self-fertilised Plants.44084409Pot 1 : 24 2/8 : 21.4410Pot 1 : 30 : 26 5/8.4411Pot 1 : 18 4/8 : 16.44124413Pot 2 : 14 4/8 : 15 3/8.4414Pot 2 : 22 : 20 1/8.4415Pot 2 : 19 5/8 : 14 1/8.4416Pot 2 : 21 5/8 : 16 4/8.44174418Pot 3 : 20 6/8 : 19 2/8.4419Pot 3 : 20 2/8 : 13 2/8.4420Pot 3 : 20 6/8 : 18.44214422Pot 4 : 25 3/8 : 23 2/8.4423Pot 4 : 24 2/8 : 23.44244425Pot 5 : 20 : 18 3/8.4426Pot 5 : 27 7/8 : 27.4427Pot 5 : 19 : 21 2/8.44284429Total : 328.75 : 293.13.44304431The fifteen crossed plants here average 21.91 inches, and the fifteen4432self-fertilised plants 19.54 inches in height, or as 100 to 89. These4433plants did not differ in fertility, as far as could be judged by the4434number of capsules produced, for there were seventy-five on the crossed4435side and seventy-four on the self-fertilised side.44364437Eschscholtzia californica.44384439This plant is remarkable from the crossed seedlings not exceeding in4440height or vigour the self-fertilised. On the other hand, a cross greatly4441increases the productiveness of the flowers on the parent-plant, and is4442indeed sometimes necessary in order that they should produce any seed;4443moreover, plants thus derived are themselves much more fertile than4444those raised from self-fertilised flowers; so that the whole advantage4445of a cross is confined to the reproductive system. It will be necessary4446for me to give this singular case in considerable detail.44474448Twelve flowers on some plants in my flower-garden were fertilised with4449pollen from distinct plants, and produced twelve capsules; but one of4450these contained no good seed. The seeds of the eleven good capsules4451weighed 17.4 grains. Eighteen flowers on the same plants were fertilised4452with their own pollen and produced twelve good capsules, which contained445313.61 grains weight of seed. Therefore an equal number of crossed and4454self-fertilised capsules would have yielded seed by weight as 100 to 71.4455(4/4. Professor Hildebrand experimented on plants in Germany on a larger4456scale than I did, and found them much more self-fertile. Eighteen4457capsules, produced by cross-fertilisation, contained on an average4458eighty-five seeds, whilst fourteen capsules from self-fertilised flowers4459contained on an average only nine seeds; that is, as 100 to 11: 'Jahrb.4460fur Wissen Botanik.' B. 7 page 467.) If we take into account of the fact4461that a much greater proportion of flowers produced capsules when crossed4462than when self-fertilised, the relative fertility of the crossed to the4463self-fertilised flowers was as 100 to 52. Nevertheless these plants,4464whilst still protected by the net, spontaneously produced a considerable4465number of self-fertilised capsules.44664467The seeds of the two lots after germinating on sand were planted in4468pairs on the opposite sides of four large pots. At first there was no4469difference in their growth, but ultimately the crossed seedlings4470exceeded the self-fertilised considerably in height, as shown in Table44714/34. But I believe from the cases which follow that this result was4472accidental, owing to only a few plants having been measured, and to one4473of the self-fertilised plants having grown only to a height of 154474inches. The plants had been kept in the greenhouse, and from being drawn4475up to the light had to be tied to sticks in this and the following4476trials. They were measured to the summits of their flower-stems.44774478TABLE 4/34. Eschscholtzia californica.44794480Heights of Plants to the summits of their flower-stems measured in inches.44814482Column 1: Number (Name) of Pot.44834484Column 2: Crossed Plants.44854486Column 3: Self-fertilised Plants.44874488Pot 1 : 33 4/8 : 25.44894490Pot 2 : 34 2/8 : 35.44914492Pot 3 : 29 : 27 2/8.44934494Pot 4 : 22 : 15.44954496Total : 118.75 : 102.25.44974498The four crossed plants here average 29.68 inches, and the four4499self-fertilised 25.56 in height; or as 100 to 86. The remaining seeds4500were sown in a large pot in which a Cineraria had long been growing; and4501in this case again the two crossed plants on the one side greatly4502exceeded in height the two self-fertilised plants on the opposite side.4503The plants in the above four pots from having been kept in the4504greenhouse did not produce on this or any other similar occasion many4505capsules; but the flowers on the crossed plants when again crossed were4506much more productive than the flowers on the self-fertilised plants when4507again self-fertilised. These plants after seeding were cut down and kept4508in the greenhouse; and in the following year, when grown again, their4509relative heights were reversed, as the self-fertilised plants in three4510out of the four pots were now taller than and flowered before the4511crossed plants.45124513CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.45144515The fact just given with respect to the growth of the cut-down plants4516made me doubtful about my first trial, so I determined to make another4517on a larger scale with crossed and self-fertilised seedlings raised from4518the crossed and self-fertilised plants of the last generation. Eleven4519pairs were raised and grown in competition in the usual manner; and now4520the result was different, for the two lots were nearly equal during4521their whole growth. It would therefore be superfluous to give a table of4522their heights. When fully grown and measured, the crossed averaged452332.47, and the self-fertilised 32.81 inches in height; or as 100 to 101.4524There was no great difference in the number of flowers and capsules4525produced by the two lots when both were left freely exposed to the4526visits of insects.45274528PLANTS RAISED FROM BRAZILIAN SEED.45294530Fritz Muller sent me from South Brazil seeds of plants which were there4531absolutely sterile when fertilised with pollen from the same plant, but4532were perfectly fertile when fertilised with pollen from any other plant.4533The plants raised by me in England from these seeds were examined by4534Professor Asa Gray, and pronounced to belong to E. Californica, with4535which they were identical in general appearance. Two of these plants4536were covered by a net, and were found not to be so completely4537self-sterile as in Brazil. But I shall recur to this subject in another4538part of this work. Here it will suffice to state that eight flowers on4539these two plants, fertilised with pollen from another plant under the4540net, produced eight fine capsules, each containing on an average about4541eighty seeds. Eight flowers on these same plants, fertilised with their4542own pollen, produced seven capsules, which contained on an average only4543twelve seeds, with a maximum in one of sixteen seeds. Therefore the4544cross-fertilised capsules, compared with the self-fertilised, yielded4545seeds in the ratio of about 100 to 15. These plants of Brazilian4546parentage differed also in a marked manner from the English plants in4547producing extremely few spontaneously self-fertilised capsules under a4548net.45494550Crossed and self-fertilised seeds from the above plants, after4551germinating on bare sand, were planted in pairs on the opposite sides of4552five large pots. The seedlings thus raised were the grandchildren of the4553plants which grew in Brazil; the parents having been grown in England.4554As the grandparents in Brazil absolutely require cross-fertilisation in4555order to yield any seeds, I expected that self-fertilisation would have4556proved very injurious to these seedlings, and that the crossed ones4557would have been greatly superior in height and vigour to those raised4558from self-fertilised flowers. But the result showed that my anticipation4559was erroneous; for as in the last experiment with plants of the English4560stock, so in the present one, the self-fertilised plants exceeded the4561crossed by a little in height. It will be sufficient to state that the4562fourteen crossed plants averaged 44.64, and the fourteen self-fertilised456345.12 inches in height; or as 100 to 101.45644565THE EFFECTS OF A CROSS WITH A FRESH STOCK.45664567I now tried a different experiment. Eight flowers on the self-fertilised4568plants of the last experiment (i.e., grandchildren of the plants which4569grew in Brazil) were again fertilised with pollen from the same plant,4570and produced five capsules, containing on an average 27.4 seeds, with a4571maximum in one of forty-two seeds. The seedlings raised from these seeds4572formed the second SELF-FERTILISED generation of the Brazilian stock.45734574Eight flowers on one of the crossed plants of the last experiment were4575crossed with pollen from another grandchild, and produced five capsules.4576These contained on an average 31.6 seeds, with a maximum in one of4577forty-nine seeds. The seedlings raised from these seeds may be called4578the INTERCROSSED.45794580Lastly, eight other flowers on the crossed plants of the last experiment4581were fertilised with pollen from a plant of the English stock, growing4582in my garden, and which must have been exposed during many previous4583generations to very different conditions from those to which the4584Brazilian progenitors of the mother-plant had been subjected. These4585eight flowers produced only four capsules, containing on an average 63.24586seeds, with a maximum in one of ninety. The plants raised from these4587seeds may be called the ENGLISH-CROSSED. As far as the above averages4588can be trusted from so few capsules, the English-crossed capsules4589contained twice as many seeds as the intercrossed, and rather more than4590twice as many as the self-fertilised capsules. The plants which yielded4591these capsules were grown in pots in the greenhouse, so that their4592absolute productiveness must not be compared with that of plants growing4593out of doors.45944595The above three lots of seeds, namely, the self-fertilised,4596intercrossed, and English-crossed, were planted in an equal state of4597germination (having been as usual sown on bare sand) in nine large pots,4598each divided into three parts by superficial partitions. Many of the4599self-fertilised seeds germinated before those of the two crossed lots,4600and these were of course rejected. The seedlings thus raised are the4601great-grandchildren of the plants which grew in Brazil. When they were4602from 2 to 4 inches in height, the three lots were equal. They were4603measured when four-fifths grown, and again when fully grown, and as4604their relative heights were almost exactly the same at these two ages, I4605will give only the last measurements. The average height of the nineteen4606English-crossed plants was 45.92 inches; that of the eighteen4607intercrossed plants (for one died), 43.38; and that of the nineteen4608self-fertilised plants, 50.3 inches. So that we have the following4609ratios in height:--46104611The English-crossed to the self-fertilised plants, as 100 to 109.46124613The English-crossed to the intercrossed plants, as 100 to 94.46144615The intercrossed to the self-fertilised plants, as 100 to 116.46164617After the seed-capsules had been gathered, all these plants were cut4618down close to the ground and weighed. The nineteen English crossed4619plants weighed 18.25 ounces; the intercrossed plants (with their weight4620calculated as if there had been nineteen) weighed 18.2 ounces; and the4621nineteen self-fertilised plants, 21.5 ounces. We have therefore for the4622weights of the three lots of plants the following ratios:--46234624The English-crossed to the self-fertilised plants, as 100 to 118.46254626The English-crossed to the intercrossed plants, as 100 to 100.46274628The intercrossed to the self-fertilised plants, as 100 to 118.46294630We thus see that in weight, as in height, the self-fertilised plants had4631a decided advantage over the English-crossed and intercrossed plants.46324633The remaining seeds of the three kinds, whether or not in a state of4634germination, were sown in three long parallel rows in the open ground;4635and here again the self-fertilised seedlings exceeded in height by4636between 2 and 3 inches the seedlings in the two other rows, which were4637of nearly equal heights. The three rows were left unprotected throughout4638the winter, and all the plants were killed, with the exception of two of4639the self-fertilised; so that as far as this little bit of evidence goes,4640some of the self-fertilised plants were more hardy than any of the4641crossed plants of either lot.46424643We thus see that the self-fertilised plants which were grown in the nine4644pots were superior in height (as 116 to 100), and in weight (as 118 to4645100), and apparently in hardiness, to the intercrossed plants derived4646from a cross between the grandchildren of the Brazilian stock. The4647superiority is here much more strongly marked than in the second trial4648with the plants of the English stock, in which the self-fertilised were4649to the crossed in height as 101 to 100. It is a far more remarkable4650fact--if we bear in mind the effects of crossing plants with pollen from4651a fresh stock in the cases of Ipomoea, Mimulus, Brassica, and4652Iberis--that the self-fertilised plants exceeded in height (as 109 to4653100), and in weight (as 118 to 100), the offspring of the Brazilian4654stock crossed by the English stock; the two stocks having been long4655subjected to widely different conditions.46564657If we now turn to the fertility of the three lots of plants we find a4658very different result. I may premise that in five out of the nine pots4659the first plant which flowered was one of the English-crossed; in four4660of the pots it was a self-fertilised plant; and in not one did an4661intercrossed plant flower first; so that these latter plants were beaten4662in this respect, as in so many other ways. The three closely adjoining4663rows of plants growing in the open ground flowered profusely, and the4664flowers were incessantly visited by bees, and certainly thus4665intercrossed. The manner in which several plants in the previous4666experiments continued to be almost sterile as long as they were covered4667by a net, but set a multitude of capsules immediately that they were4668uncovered, proves how effectually the bees carry pollen from plant to4669plant. My gardener gathered, at three successive times, an equal number4670of ripe capsules from the plants of the three lots, until he had4671collected forty-five from each lot. It is not possible to judge from4672external appearance whether or not a capsule contains any good seeds; so4673that I opened all the capsules. Of the forty-five from the4674English-crossed plants, four were empty; of those from the intercrossed,4675five were empty; and of those from the self-fertilised, nine were empty.4676The seeds were counted in twenty-one capsules taken by chance out of4677each lot, and the average number of seeds in the capsules from the4678English-crossed plants was 67; from the intercrossed, 56; and from the4679self-fertilised, 48.52. It therefore follows that:--46804681The forty-five capsules (the four empty ones included) from the4682English-crossed plants contained 2747 seeds.46834684The forty-five capsules (the five empty ones included) from the4685intercrossed plants contained 2240 seeds.46864687The forty-five capsules (the nine empty ones included) from the4688self-fertilised plants contained 1746.7 seeds.46894690The reader should remember that these capsules are the product of4691cross-fertilisation, effected by the bees; and that the difference in4692the number of the contained seeds must depend on the constitution of the4693plants;--that is, on whether they were derived from a cross with a4694distinct stock, or from a cross between plants of the same stock, or4695from self-fertilisation. From the above facts we obtain the following4696ratios:--46974698Number of seeds contained in an equal number of naturally fertilised4699capsules produced:--47004701By the English-crossed and self-fertilised plants, as 100 to 63.47024703By the English-crossed and intercrossed plants, as 100 to 81.47044705By the intercrossed and self-fertilised plants, as 100 to 78.47064707But to have ascertained the productiveness of the three lots of plants,4708it would have been necessary to know how many capsules were produced by4709the same number of plants. The three long rows, however, were not of4710quite equal lengths, and the plants were much crowded, so that it would4711have been extremely difficult to have ascertained how many capsules were4712produced by them, even if I had been willing to undertake so laborious a4713task as to collect and count all the capsules. But this was feasible4714with the plants grown in pots in the greenhouse; and although these were4715much less fertile than those growing out of doors, their relative4716fertility appeared, after carefully observing them, to be the same. The4717nineteen plants of the English-crossed stock in the pots produced4718altogether 240 capsules; the intercrossed plants (calculated as4719nineteen) produced 137.22 capsules; and the nineteen self-fertilised4720plants, 152 capsules. Now, knowing the number of seeds contained in4721forty-five capsules of each lot, it is easy to calculate the relative4722numbers of seeds produced by an equal number of the plants of the three4723lots.47244725Number of seeds produced by an equal number of naturally-fertilised4726plants:--47274728Plants of English-crossed and self-fertilised parentage, as 100 to 404729seeds.47304731Plants of English-crossed and intercrossed parentage, as 100 to 454732seeds.47334734Plants of intercrossed and self-fertilised parentage, as 100 to 894735seeds.47364737The superiority in productiveness of the intercrossed plants (that is,4738the product of a cross between the grandchildren of the plants which4739grew in Brazil) over the self-fertilised, small as it is, is wholly due4740to the larger average number of seeds contained in the capsules; for the4741intercrossed plants produced fewer capsules in the greenhouse than did4742the self-fertilised plants. The great superiority in productiveness of4743the English-crossed over the self-fertilised plants is shown by the4744larger number of capsules produced, the larger average number of4745contained seeds, and the smaller number of empty capsules. As the4746English-crossed and intercrossed plants were the offspring of crosses in4747every previous generation (as must have been the case from the flowers4748being sterile with their own pollen), we may conclude that the great4749superiority in productiveness of the English-crossed over the4750intercrossed plants is due to the two parents of the former having been4751long subjected to different conditions.47524753The English-crossed plants, though so superior in productiveness, were,4754as we have seen, decidedly inferior in height and weight to the4755self-fertilised, and only equal to, or hardly superior to, the4756intercrossed plants. Therefore, the whole advantage of a cross with a4757distinct stock is here confined to productiveness, and I have met with4758no similar case.475947608. RESEDACEAE.--Reseda lutea.47614762Seeds collected from wild plants growing in this neighbourhood were sown4763in the kitchen-garden; and several of the seedlings thus raised were4764covered with a net. Of these, some were found (as will hereafter be more4765fully described) to be absolutely sterile when left to fertilise4766themselves spontaneously, although plenty of pollen fell on their4767stigmas; and they were equally sterile when artificially and repeatedly4768fertilised with their own pollen; whilst other plants produced a few4769spontaneously self-fertilised capsules. The remaining plants were left4770uncovered, and as pollen was carried from plant to plant by the hive and4771humble-bees which incessantly visit the flowers, they produced an4772abundance of capsules. Of the necessity of pollen being carried from one4773plant to another, I had ample evidence in the case of this species and4774of R. odorata; for those plants, which set no seeds or very few as long4775as they were protected from insects, became loaded with capsules4776immediately that they were uncovered.47774778Seeds from the flowers spontaneously self-fertilised under the net, and4779from flowers naturally crossed by the bees, were sown on opposite sides4780of five large pots. The seedlings were thinned as soon as they appeared4781above ground, so that an equal number were left on the two sides. After4782a time the pots were plunged into the open ground. The same number of4783plants of crossed and self-fertilised parentage were measured up to the4784summits of their flower-stems, with the result given in Table 4/35.4785Those which did not produce flower-stems were not measured.47864787TABLE 4/35. Reseda lutea, in pots.47884789Heights of plants to the summits of the flower-stems measured in inches.47904791Column 1: Number (Name) of Pot.47924793Column 2: Crossed Plants.47944795Column 3: Self-fertilised Plants.47964797Pot 1 : 21 : 12 7/8.4798Pot 1 : 14 2/8 : 16.4799Pot 1 : 19 1/8 : 11 7/8.4800Pot 1 : 7 : 15 2/8.4801Pot 1 : 15 1/8 : 19 1/8.48024803Pot 2 : 20 4/8 : 12 4/8.4804Pot 2 : 17 3/8 : 16 2/8.4805Pot 2 : 23 7/8 : 16 2/8.4806Pot 2 : 17 1/8 : 13 3/8.4807Pot 2 : 20 6/8 : 13 5/8.48084809Pot 3 : 16 1/8 : 14 4/8.4810Pot 3 : 17 6/8 : 19 4/8.4811Pot 3 : 16 2/8 : 20 7/8.4812Pot 3 : 10 : 7 7/8.4813Pot 3 : 10 : 17 6/8.48144815Pot 4 : 22 1/8 : 9.4816Pot 4 : 19 : 11 4/8.4817Pot 4 : 18 7/8 : 11.4818Pot 4 : 16 4/8 : 16.4819Pot 4 : 19 2/8 : 16 3/8.48204821Pot 5 : 25 2/8 : 14 6/8.4822Pot 5 : 22 : 16.4823Pot 5 : 8 6/8 : 14 3/8.4824Pot 5 : 14 2/8 : 14 2/8.48254826Total : 412.25 : 350.86.48274828The average height of the twenty-four crossed plants is here 17.174829inches, and that of the same number of self-fertilised plants 14.61; or4830as 100 to 85. Of the crossed plants all but five flowered, whilst4831several of the self-fertilised did not do so. The above pairs, whilst4832still in flower, but with some capsules already formed, were afterwards4833cut down and weighed. The crossed weighed 90.5 ounces; and an equal4834number of the self-fertilised only 19 ounces, or as 100 to 21; and this4835is an astonishing difference.48364837Seeds of the same two lots were also sown in two adjoining rows in the4838open ground. There were twenty crossed plants in the one row and4839thirty-two self-fertilised plants in the other row, so that the4840experiment was not quite fair; but not so unfair as it at first appears,4841for the plants in the same row were not crowded so much as seriously to4842interfere with each other's growth, and the ground was bare on the4843outside of both rows. These plants were better nourished than those in4844the pots and grew to a greater height. The eight tallest plants in each4845row were measured in the same manner as before, with the following4846result:--48474848TABLE 4/36. Reseda lutea, growing in the open ground.48494850Heights of plants to the summits of the flower-stems measured in inches.48514852Column 1: Crossed Plants.48534854Column 2: Self-fertilised Plants.4855485628 : 33 2/8.485727 3/8 : 23.485827 5/8 : 21 5/8.485928 6/8 : 20 4/8.486029 7/8 : 21 5/8.486126 6/8 : 22.486226 2/8 : 21 2/8.486330 1/8 : 21 7/8.48644865Total : 224.75 : 185.1348664867The average height of the crossed plants, whilst in full flower, was4868here 28.09, and that of the self-fertilised 23.14 inches; or as 100 to486982. It is a singular fact that the tallest plant in the two rows, was4870one of the self-fertilised. The self-fertilised plants had smaller and4871paler green leaves than the crossed. All the plants in the two rows were4872afterwards cut down and weighed. The twenty crossed plants weighed 654873ounces, and twenty self-fertilised (by calculation from the actual4874weight of the thirty-two self-fertilised plants) weighed 26.25 ounces;4875or as 100 to 40. Therefore the crossed plants did not exceed in weight4876the self-fertilised plants in nearly so great a degree as those growing4877in the pots, owing probably to the latter having been subjected to more4878severe mutual competition. On the other hand, they exceeded the4879self-fertilised in height in a slightly greater degree.48804881Reseda odorata.48824883Plants of the common mignonette were raised from purchased seed, and4884several of them were placed under separate nets. Of these some became4885loaded with spontaneously self-fertilised capsules; others produced a4886few, and others not a single one. It must not be supposed that these4887latter plants produced no seed because their stigmas did not receive any4888pollen, for they were repeatedly fertilised with pollen from the same4889plant with no effect; but they were perfectly fertile with pollen from4890any other plant. Spontaneously self-fertilised seeds were saved from one4891of the highly self-fertile plants, and other seeds were collected from4892the plants growing outside the nets, which had been crossed by the bees.4893These seeds after germinating on sand were planted in pairs on the4894opposite sides of five pots. The plants were trained up sticks, and4895measured to the summits of their leafy stems--the flower-stems not being4896included. We here have the result:--48974898TABLE 4/37. Reseda odorata (seedlings from a highly self-fertile plant).48994900Heights of plants to the summits of the leafy stems, flower-stems not4901included, measured in inches.49024903Column 1: Number (Name) of Pot.49044905Column 2: Crossed Plants.49064907Column 3: Self-fertilised Plants.49084909Pot 1 : 20 7/8 : 22 4/8.4910Pot 1 : 34 7/8 : 28 5/8.4911Pot 1 : 26 6/8 : 23 2/8.4912Pot 1 : 32 6/8 : 30 4/8.49134914Pot 2 : 34 3/8 : 28 5/8.4915Pot 2 : 34 5/8 : 30 5/8.4916Pot 2 : 11 6/8 : 23.4917Pot 2 : 33 3/8 : 30 1/8.49184919Pot 3 : 17 7/8 : 4 4/8.4920Pot 3 : 27 : 25.4921Pot 3 : 30 1/8 : 26 3/8.4922Pot 3 : 30 2/8 : 25 1/8.49234924Pot 4 : 21 5/8 : 22 6/8.4925Pot 4 : 28 : 25 4/8.4926Pot 4 : 32 5/8 : 15 1/8.4927Pot 4 : 32 3/8 : 24 6/8.49284929Pot 5 : 21 : 11 6/8.4930Pot 5 : 25 2/8 : 19 7/8.4931Pot 5 : 26 6/8 : 10 4/8.49324933Total : 522.25 : 428.50.49344935The average height of the nineteen crossed plants is here 27.48, and4936that of the nineteen self-fertilised 22.55 inches; or as 100 to 82. All4937these plants were cut down in the early autumn and weighed: the crossed4938weighed 11.5 ounces, and the self-fertilised 7.75 ounces, or as 100 to493967. These two lots having been left freely exposed to the visits of4940insects, did not present any difference to the eye in the number of4941seed-capsules which they produced.49424943The remainder of the same two lots of seeds were sown in two adjoining4944rows in the open ground; so that the plants were exposed to only4945moderate competition. The eight tallest on each side were measured, as4946shown in Table 4/38.49474948TABLE 4/38. Reseda odorata, growing in the open ground.49494950Heights of plants measured in inches.49514952Column 1: Crossed Plants.49534954Column 2: Self-fertilised Plants.4955495624 4/8 : 26 5/8.495727 2/8 : 25 7/8.495824 : 25.495926 6/8 : 28 3/8.496025 : 29 7/8.496126 2/8 : 25 7/8.496227 2/8 : 26 7/8.496325 1/8 : 28 2/8.49644965Total : 206.13 : 216.7549664967The average height of the eight crossed plants is 25.76, and that of the4968eight self-fertilised 27.09; or as 100 to 105.49694970We here have the anomalous result of the self-fertilised plants being a4971little taller than the crossed; of which fact I can offer no4972explanation. It is of course possible, but not probable, that the labels4973may have been interchanged by accident.49744975Another experiment was now tried: all the self-fertilised capsules,4976though very few in number, were gathered from one of the4977semi-self-sterile plants under a net; and as several flowers on this4978same plant had been fertilised with pollen from a distinct individual,4979crossed seeds were thus obtained. I expected that the seedlings from4980this semi-self-sterile plant would have profited in a higher degree from4981a cross, than did the seedlings from the fully self-fertile plants. But4982my anticipation was quite wrong, for they profited in a less degree. An4983analogous result followed in the case of Eschscholtzia, in which the4984offspring of the plants of Brazilian parentage (which were partially4985self-sterile) did not profit more from a cross, than did the plants of4986the far more self-fertile English stock. The above two lots of crossed4987and self-fertilised seeds from the same plant of Reseda odorata, after4988germinating on sand, were planted on opposite sides of five pots, and4989measured as in the last case, with the result in Table 4/39.49904991TABLE 4/39. Reseda odorata (seedlings from a semi-self-sterile plant).49924993Heights of plants to the summits of the leafy stems, flower-stems not4994included, measured in inches.49954996Column 1: Number (Name) of Pot.49974998Column 2: Crossed Plants.49995000Column 3: Self-fertilised Plants.50015002Pot 1 : 33 4/8 : 31.5003Pot 1 : 30 6/8 : 28.5004Pot 1 : 29 6/8 : 13 2/8.5005Pot 1 : 20 : 32.50065007Pot 2 : 22 : 21 6/8.5008Pot 2 : 33 4/8 : 26 6/8.5009Pot 2 : 31 2/8 : 25 2/8.5010Pot 2 : 32 4/8 : 30 4/8.50115012Pot 3 : 30 1/8 : 17 2/8.5013Pot 3 : 32 1/8 : 29 6/8.5014Pot 3 : 31 4/8 : 24 6/8.5015Pot 3 : 32 2/8 : 34 2/8.50165017Pot 4 : 19 1/8 : 20 6/8.5018Pot 4 : 30 1/8 : 32 6/8.5019Pot 4 : 24 3/8 : 31 4/8.5020Pot 4 : 30 6/8 : 36 6/8.50215022Pot 5 : 34 6/8 : 24 5/8.5023Pot 5 : 37 1/8 : 34.5024Pot 5 : 31 2/8 : 22 2/8.5025Pot 5 : 33 : 37 1/8.50265027Total : 599.75 : 554.25.50285029The average height of the twenty crossed plants is here 29.98, and that5030of the twenty self-fertilised 27.71 inches; or as 100 to 92. These5031plants were then cut down and weighed; and the crossed in this case5032exceeded the self-fertilised in weight by a mere trifle, namely, in the5033ratio of 100 to 99. The two lots, left freely exposed to insects, seemed5034to be equally fertile.50355036The remainder of the seed was sown in two adjoining rows in the open5037ground; and the eight tallest plants in each row were measured, with the5038result in Table 4/40.50395040TABLE 4/40. Reseda odorata, (seedlings from a semi-self-sterile plant,5041planted in the open ground).50425043Heights of plants measured in inches.50445045Column 1: Crossed Plants.50465047Column 2: Self-fertilised Plants.5048504928 2/8 : 22 3/8.505022 4/8 : 24 3/8.505125 7/8 : 23 4/8.505225 3/8 : 21 4/8.505329 4/8 : 22 5/8.505427 1/8 : 27 3/8.505522 4/8 : 27 3/8.505626 2/8 : 19 2/8.50575058Total : 207.38 : 188.38.50595060The average height of the eight crossed plants is here 25.92, and that5061of the eight self-fertilised plants 23.54 inches; or as 100 to 90.506250639. VIOLACEAE.--Viola tricolor.50645065Whilst the flowers of the common cultivated heartsease are young, the5066anthers shed their pollen into a little semi-cylindrical passage, formed5067by the basal portion of the lower petal, and surrounded by papillae. The5068pollen thus collected lies close beneath the stigma, but can seldom gain5069access into its cavity, except by the aid of insects, which pass their5070proboscides down this passage into the nectary. (4/5. The flowers of5071this plant have been fully described by Sprengel, Hildebrand, Delpino,5072and H. Muller. The latter author sums up all the previous observations5073in his 'Befruchtung der Blumen' and in 'Nature' November 20, 1873 page507444. See also Mr. A.W. Bennett in 'Nature' May 15, 1873 page 50 and some5075remarks by Mr. Kitchener ibid page 143. The facts which follow on the5076effects of covering up a plant of V. tricolor have been quoted by Sir J.5077Lubbock in his 'British Wild Flowers' etc. page 62.) Consequently when I5078covered up a large plant of a cultivated variety, it set only eighteen5079capsules, and most of these contained very few good seeds--several from5080only one to three; whereas an equally fine uncovered plant of the same5081variety, growing close by, produced 105 fine capsules. The few flowers5082which produce capsules when insects are excluded, are perhaps fertilised5083by the curling inwards of the petals as their wither, for by this means5084pollen-grains adhering to the papillae might be inserted into the cavity5085of the stigma. But it is more probable that their fertilisation is5086effected, as Mr. Bennett suggests, by Thrips and certain minute beetles5087which haunt the flowers, and which cannot be excluded by any net.5088Humble-bees are the usual fertilisers; but I have more than once seen5089flies (Rhingia rostrata) at work, with the under sides of their bodies,5090heads and legs dusted with pollen; and having marked the flowers which5091they visited, I found them after a few days fertilised. (4/6. I should5092add that this fly apparently did not suck the nectar, but was attracted5093by the papillae which surround the stigma. Hermann Muller also saw a5094small bee, an Andrena, which could not reach the nectar, repeatedly5095inserting its proboscis beneath the stigma, where the papillae are5096situated; so that these papillae must be in some way attractive to5097insects. A writer asserts 'Zoologist' volume 3-4 page 1225, that a moth5098(Plusia) frequently visits the flowers of the pansy. Hive-bees do not5099ordinarily visit them, but a case has been recorded 'Gardeners'5100Chronicle' 1844 page 374, of these bees doing so. Hermann Muller has5101also seen the hive-bee at work, but only on the wild small-flowered5102form. He gives a list 'Nature' 1873 page 45, of all the insects which he5103has seen visiting both the large and small-flowered forms. From his5104account, I suspect that the flowers of plants in a state of nature are5105visited more frequently by insects than those of the cultivated5106varieties. He has seen several butterflies sucking the flowers of wild5107plants, and this I have never observed in gardens, though I have watched5108the flowers during many years.) It is curious for how long a time the5109flowers of the heartsease and of some other plants may be watched5110without an insect being seen to visit them. During the summer of 1841, I5111observed many times daily for more than a fortnight some large clumps of5112heartsease growing in my garden, before I saw a single humble-bee at5113work. During another summer I did the same, but at last saw some5114dark-coloured humble-bees visiting on three successive days almost every5115flower in several clumps; and almost all these flowers quickly withered5116and produced fine capsules. I presume that a certain state of the5117atmosphere is necessary for the secretion of nectar, and that as soon as5118this occurs the insects discover the fact by the odour emitted, and5119immediately frequent the flowers.51205121As the flowers require the aid of insects for their complete5122fertilisation, and as they are not visited by insects nearly so often as5123most other nectar-secreting flowers, we can understand the remarkable5124fact discovered by H. Muller and described by him in 'Nature,' namely,5125that this species exists under two forms. One of these bears conspicuous5126flowers, which, as we have seen, require the aid of insects, and are5127adapted to be cross-fertilised by them; whilst the other form has much5128smaller and less conspicuously coloured flowers, which are constructed5129on a slightly different plan, favouring self-fertilisation, and are thus5130adapted to ensure the propagation of the species. The self-fertile form,5131however, is occasionally visited, and may be crossed by insects, though5132this is rather doubtful.51335134In my first experiments on Viola tricolor I was unsuccessful in raising5135seedlings, and obtained only one full-grown crossed and self-fertilised5136plant. The former was 12 1/2 inches and the latter 8 inches in height.5137On the following year several flowers on a fresh plant were crossed with5138pollen from another plant, which was known to be a distinct seedling;5139and to this point it is important to attend. Several other flowers on5140the same plant were fertilised with their own pollen. The average number5141of seeds in the ten crossed capsules was 18.7, and in the twelve5142self-fertilised capsules 12.83; or as 100 to 69. These seeds, after5143germinating on bare sand, were planted in pairs on the opposite sides of5144five pots. They were first measured when about a third of their full5145size, and the crossed plants then averaged 3.87 inches, and the5146self-fertilised only 2.00 inches in height; or as 100 to 52. They were5147kept in the greenhouse, and did not grow vigorously. Whilst in flower5148they were again measured to the summits of their stems (see Table 4/41),5149with the following result:--51505151TABLE 4/41. Viola tricolor.51525153Heights of plants measured in inches.51545155Column 1: Number (Name) of Pot.51565157Column 2: Crossed Plants.51585159Column 3: Self-fertilised Plants.51605161Pot 1 : 8 2/8 : 0 2/8.5162Pot 1 : 7 4/8 : 2 4/8.5163Pot 1 : 5 : 1 2/8.51645165Pot 2 : 5 : 6.5166Pot 2 : 4 : 4.5167Pot 2 : 4 4/8 : 3 1/8.51685169Pot 3 : 9 4/8 : 3 1/8.5170Pot 3 : 3 3/8 : 1 7/8.5171Pot 3 : 8 4/8 : 0 5/8.51725173Pot 4 : 4 7/8 : 2 1/8.5174Pot 4 : 4 2/8 : 1 6/8.5175Pot 4 : 4 : 2 1/8.51765177Pot 5 : 6 : 3.5178Pot 5 : 3 3/8 : 1 4/8.51795180Total : 78.13 : 33.25.51815182The average height of the fourteen crossed plants is here 5.58 inches,5183and that of the fourteen self-fertilised 2.37; or as 100 to 42. In four5184out of the five pots, a crossed plant flowered before any one of the5185self-fertilised; as likewise occurred with the pair raised during the5186previous year. These plants without being disturbed were now turned out5187of their pots and planted in the open ground, so as to form five5188separate clumps. Early in the following summer (1869) they flowered5189profusely, and being visited by humble-bees set many capsules, which5190were carefully collected from all the plants on both sides. The crossed5191plants produced 167 capsules, and the self-fertilised only 17; or as 1005192to 10. So that the crossed plants were more than twice the height of the5193self-fertilised, generally flowered first, and produced ten times as5194many naturally fertilised capsules.51955196By the early part of the summer of 1870 the crossed plants in all the5197five clumps had grown and spread so much more than the self-fertilised,5198that any comparison between them was superfluous. The crossed plants5199were covered with a sheet of bloom, whilst only a single self-fertilised5200plant, which was much finer than any of its brethren, flowered. The5201crossed and self-fertilised plants had now grown all matted together on5202the respective sides of the superficial partitions still separating5203them; and in the clump which included the finest self-fertilised plant,5204I estimated that the surface covered by the crossed plants was about5205nine times as large as that covered by the self-fertilised plants. The5206extraordinary superiority of the crossed over the self-fertilised plants5207in all five clumps, was no doubt due to the crossed plants at first5208having had a decided advantage over the self-fertilised, and then5209robbing them more and more of their food during the succeeding seasons.5210But we should remember that the same result would follow in a state of5211nature even to a greater degree; for my plants grew in ground kept clear5212of weeds, so that the self-fertilised had to compete only with the5213crossed plants; whereas the whole surface of the ground is naturally5214covered with various kinds of plants, all of which have to struggle5215together for existence.52165217The ensuing winter was very severe, and in the following spring (1871)5218the plants were again examined. All the self-fertilised were now dead,5219with the exception of a single branch on one plant, which bore on its5220summit a minute rosette of leaves about as large as a pea. On the other5221hand, all the crossed plants without exception were growing vigorously.5222So that the self-fertilised plants, besides their inferiority in other5223respects, were more tender.52245225Another experiment was now tried for the sake of ascertaining how far5226the superiority of the crossed plants, or to speak more correctly, the5227inferiority of the self-fertilised plants, would be transmitted to their5228offspring. The one crossed and one self-fertilised plant, which were5229first raised, had been turned out of their pot and planted in the open5230ground. Both produced an abundance of very fine capsules, from which5231fact we may safely conclude that they had been cross-fertilised by5232insects. Seeds from both, after germinating on sand, were planted in5233pairs on the opposite sides of three pots. The naturally crossed5234seedlings derived from the crossed plants flowered in all three pots5235before the naturally crossed seedlings derived from the self-fertilised5236plants. When both lots were in full flower, the two tallest plants on5237each side of each pot were measured, and the result is shown in Table52384/42.52395240TABLE 4/42. Viola tricolor: seedlings from crossed and self-fertilised5241plants, the parents of both sets having been left to be naturally5242fertilised.52435244Heights of plants measured in inches.52455246Column 1: Number (Name) of Pot.52475248Column 2: Naturally Crossed Plants from artificially crossed Plants.52495250Column 3: Naturally Crossed Plants from Self-fertilised Plants.52515252Pot 1 : 12 1/8 : 9 6/8.5253Pot 1 : 11 6/8 : 8 3/8.52545255Pot 2 : 13 2/8 : 9 6/8.5256Pot 2 : 10 : 11 4/8.52575258Pot 3 : 14 4/8 : 11 1/8.5259Pot 3 : 13 6/8 : 11 3/8.52605261Total : 75.38 : 61.88.52625263The average height of the six tallest plants derived from the crossed5264plants is 12.56 inches; and that of the six tallest plants derived from5265the self-fertilised plants is 10.31 inches; or as 100 to 82. We here see5266a considerable difference in height between the two sets, though very5267far from equalling that in the previous trials between the offspring5268from crossed and self-fertilised flowers. This difference must be5269attributed to the latter set of plants having inherited a weak5270constitution from their parents, the offspring of self-fertilised5271flowers; notwithstanding that the parents themselves had been freely5272intercrossed with other plants by the aid of insects.5273527410. RANUNCULACEAE.--Adonis aestivalis.52755276The results of my experiments on this plant are hardly worth giving, as5277I remark in my notes made at the time, "seedlings, from some unknown5278cause, all miserably unhealthy." Nor did they ever become healthy; yet I5279feel bound to give the present case, as it is opposed to the general5280results at which I have arrived. Fifteen flowers were crossed and all5281produced fruit, containing on an average 32.5 seeds; nineteen flowers5282were fertilised with their own pollen, and they likewise all yielded5283fruit, containing a rather larger average of 34.5 seeds; or as 100 to5284106. Seedlings were raised from these seeds. In one of the pots all the5285self-fertilised plants died whilst quite young; in the two others, the5286measurements were as follows:52875288TABLE 4/43. Adonis aestivalis.52895290Heights of plants measured in inches.52915292Column 1: Number (Name) of Pot.52935294Column 2: Crossed Plants.52955296Column 3: Self-fertilised Plants.52975298Pot 1 : 14 : 13 4/8.5299Pot 1 : 13 4/8 : 13 4/8.53005301Pot 2 : 16 2/8 : 15 2/8.5302Pot 2 : 13 2/8 : 15.53035304Total : 57.00 : 57.25.53055306The average height of the four crossed plants is 14.25, and that of the5307four self-fertilised plants 14.31; or as 100 to 100.4; so that they were5308in fact of equal height. According to Professor H. Hoffman, this plant5309is proterandrous (4/7. 'Zur Speciesfrage' 1875 page 11.); nevertheless5310it yields plenty of seeds when protected from insects.53115312Delphinium consolida.53135314It has been said in the case of this plant, as of so many others, that5315the flowers are fertilised in the bud, and that distinct plants or5316varieties can never naturally intercross. (4/8. Decaisne5317'Comptes-Rendus' July 1863 page 5.) But this is an error, as we may5318infer, firstly from the flowers being proterandrous,--the mature stamens5319bending up, one after the other, into the passage which leads to the5320nectary, and afterwards the mature pistils bending in the same5321direction; secondly, from the number of humble-bees which visit the5322flowers (4/9. Their structure is described by H. Muller 'Befruchtung'5323etc., page 122.); and thirdly, from the greater fertility of the flowers5324when crossed with pollen from a distinct plant than when spontaneously5325self-fertilised. In the year 1863 I enclosed a large branch in a net,5326and crossed five flowers with pollen from a distinct plant; these5327yielded capsules containing on an average 35.2 very fine seeds, with a5328maximum of forty-two in one capsule. Thirty-two other flowers on the5329same branch produced twenty-eight spontaneously self-fertilised5330capsules, containing on an average 17.2 seeds, with a maximum in one of5331thirty-six seeds. But six of these capsules were very poor, yielding5332only from one to five seeds; if these are excluded, the remaining5333twenty-two capsules give an average of 20.9 seeds, though many of these5334seeds were small. The fairest ratio, therefore, for the number of seeds5335produced by a cross and by spontaneous self-fertilisation is as 100 to533659. These seeds were not sown, as I had too many other experiments in5337progress.53385339In the summer of 1867, which was a very unfavourable one, I again5340crossed several flowers under a net with pollen from a distinct plant,5341and fertilised other flowers on the same plant with their own pollen.5342The former yielded a much larger proportion of capsules than the latter;5343and many of the seeds in the self-fertilised capsules, though numerous,5344were so poor that an equal number of seeds from the crossed and5345self-fertilised capsules were in weight as 100 to 45. The two lots were5346allowed to germinate on sand, and pairs were planted on the opposite5347sides of four pots. When nearly two-thirds grown they were measured, as5348shown in Table 4/44.53495350TABLE 4/44. Delphinium consolida.53515352Heights of plants measured in inches.53535354Column 1: Number (Name) of Pot.53555356Column 2: Crossed Plants.53575358Column 3: Self-fertilised Plants.53595360Pot 1 : 11 : 11.53615362Pot 2 : 19 : 16 2/8.5363Pot 2 : 16 2/8 : 11 4/8.53645365Pot 3 : 26 : 22.53665367Pot 4 : 9 4/8 : 8 2/8.5368Pot 4 : 8 : 6 4/8.53695370Total : 89.75 : 75.50.53715372The six crossed plants here average 14.95, and the six self-fertilised537312.50 inches in height; or as 100 to 84. When fully grown they were5374again measured, but from want of time only a single plant on each side5375was measured; so that I have thought it best to give the earlier5376measurements. At the later period the three tallest crossed plants still5377exceeded considerably in height the three tallest self-fertilised, but5378not in quite so great a degree as before. The pots were left uncovered5379in the greenhouse, but whether the flowers were intercrossed by bees or5380self-fertilised I do not know. The six crossed plants produced 2825381mature and immature capsules, whilst the six self-fertilised plants5382produced only 159; or as 100 to 56. So that the crossed plants were very5383much more productive than the self-fertilised.5384538511. CARYOPHYLLACEAE.--Viscaria oculata.53865387Twelve flowers were crossed with pollen from another plant, and yielded5388ten capsules, containing by weight 5.77 grains of seeds. Eighteen5389flowers were fertilised with their own pollen and yielded twelve5390capsules, containing by weight 2.63 grains. Therefore the seeds from an5391equal number of crossed and self-fertilised flowers would have been in5392weight as 100 to 38. I had previously selected a medium-sized capsule5393from each lot, and counted the seeds in both; the crossed one contained5394284, and the self-fertilised one 126 seeds; or as 100 to 44. These seeds5395were sown on opposite sides of three pots, and several seedlings raised;5396but only the tallest flower-stem of one plant on each side was measured.5397The three on the crossed side averaged 32.5 inches, and the three on the5398self-fertilised side 34 inches in height; or as 100 to 104. But this5399trial was on much too small a scale to be trusted; the plants also grew5400so unequally that one of the three flower-stems on the crossed plants5401was very nearly twice as tall as that on one of the others; and one of5402the three flower-stems on the self-fertilised plants exceeded in an5403equal degree one of the others.54045405In the following year the experiment was repeated on a larger scale: ten5406flowers were crossed on a new set of plants and yielded ten capsules5407containing by weight 6.54 grains of seed. Eighteen spontaneously5408self-fertilised capsules were gathered, of which two contained no seed;5409the other sixteen contained by weight 6.07 grains of seed. Therefore the5410weight of seed from an equal number of crossed and spontaneously5411self-fertilised flowers (instead of artificially fertilised as in the5412previous case) was as 100 to 58.54135414The seeds after germinating on sand were planted in pairs on the5415opposite sides of four pots, with all the remaining seeds sown crowded5416in the opposite sides of a fifth pot; in this latter pot only the5417tallest plant on each side was measured. Until the seedlings had grown5418about 5 inches in height no difference could be perceived in the two5419lots. Both lots flowered at nearly the same time. When they had almost5420done flowering, the tallest flower-stem on each plant was measured, as5421shown in Table 4/45.54225423TABLE 4/45. Viscaria oculata.54245425Tallest flower-stem on each plant measured in inches.54265427Column 1: Number (Name) of Pot.54285429Column 2: Crossed Plants.54305431Column 3: Self-fertilised Plants.54325433Pot 1 : 19 : 32 3/8.5434Pot 1 : 33 : 38.5435Pot 1 : 41 : 38.5436Pot 1 : 41 : 28 7/8.54375438Pot 2 : 37 4/8 : 36.5439Pot 2 : 36 4/8 : 32 3/8.5440Pot 2 : 38 : 35 6/8.54415442Pot 3 : 44 4/8 : 36.5443Pot 3 : 39 4/8 : 20 7/8.5444Pot 3 : 39 : 30 5/8.54455446Pot 4 : 30 2/8 : 36.5447Pot 4 : 31 : 39.5448Pot 4 : 33 1/8 : 29.5449Pot 4 : 24 : 38 4/8.54505451Pot 5 : 30 2/8 : 32.5452Crowded.54535454Total : 517.63 : 503.36.54555456The fifteen crossed plants here average 34.5, and the fifteen5457self-fertilised 33.55 inches in height; or as 100 to 97. So that the5458excess of height of the crossed plants is quite insignificant. In5459productiveness, however, the difference was much more plainly marked.5460All the capsules were gathered from both lots of plants (except from the5461crowded and unproductive ones in Pot 5), and at the close of the season5462the few remaining flowers were added in. The fourteen crossed plants5463produced 381, whilst the fourteen self-fertilised plants produced only5464293 capsules and flowers; or as 100 to 77.54655466Dianthus caryophyllus.54675468The common carnation is strongly proterandrous, and therefore depends to5469a large extent upon insects for fertilisation. I have seen only5470humble-bees visiting the flowers, but I dare say other insects likewise5471do so. It is notorious that if pure seed is desired, the greatest care5472is necessary to prevent the varieties which grow in the same garden from5473intercrossing. (4/10. 'Gardeners' Chronicle' 1847 page 268.) The pollen5474is generally shed and lost before the two stigmas in the same flower5475diverge and are ready to be fertilised. I was therefore often forced to5476use for self-fertilisation pollen from the same plant instead of from5477the same flower. But on two occasions, when I attended to this point, I5478was not able to detect any marked difference in the number of seeds5479produced by these two forms of self-fertilisation.54805481Several single-flowered carnations were planted in good soil, and were5482all covered with a net. Eight flowers were crossed with pollen from a5483distinct plant and yielded six capsules, containing on an average 88.65484seeds, with a maximum in one of 112 seeds. Eight other flowers were5485self-fertilised in the manner above described, and yielded seven5486capsules containing on an average 82 seeds, with a maximum in one of 1125487seeds. So that there was very little difference in the number of seeds5488produced by cross-fertilisation and self-fertilisation, namely, as 1005489to 92. As these plants were covered by a net, they produced5490spontaneously only a few capsules containing any seeds, and these few5491may perhaps be attributed to the action of Thrips and other minute5492insects which haunt the flowers. A large majority of the spontaneously5493self-fertilised capsules produced by several plants contained no seeds,5494or only a single one. Excluding these latter capsules, I counted the5495seeds in eighteen of the finest ones, and these contained on an average549618 seeds. One of the plants was spontaneously self-fertile in a higher5497degree than any of the others. On another occasion a single covered-up5498plant produced spontaneously eighteen capsules, but only two of these5499contained any seed, namely 10 and 15.55005501CROSSED AND SELF-FERTILISED PLANTS OF THE FIRST GENERATION.55025503The many seeds obtained from the above crossed and artificially5504self-fertilised flowers were sown out of doors, and two large beds of5505seedlings, closely adjoining one another, thus raised. This was the5506first plant on which I experimented, and I had not then formed any5507regular scheme of operation. When the two lots were in full flower, I5508measured roughly a large number of plants but record only that the5509crossed were on an average fully 4 inches taller than the5510self-fertilised. Judging from subsequent measurements, we may assume5511that the crossed plants were about 28 inches, and the self-fertilised5512about 24 inches in height; and this will give us a ratio of 100 to 86.5513Out of a large number of plants, four of the crossed ones flowered5514before any one of the self-fertilised plants.55155516Thirty flowers on these crossed plants of the first generation were5517again crossed with pollen from a distinct plant of the same lot, and5518yielded twenty-nine capsules, containing on an average 55.62 seeds, with5519a maximum in one of 110 seeds.55205521Thirty flowers on the self-fertilised plants were again self-fertilised;5522eight of them with pollen from the same flower, and the remainder with5523pollen from another flower on the same plant; and these produced5524twenty-two capsules, containing on an average 35.95 seeds, with a5525maximum in one of sixty-one seeds. We thus see, judging by the number of5526seeds per capsule, that the crossed plants again crossed were more5527productive than the self-fertilised again self-fertilised, in the ratio5528of 100 to 65. Both the crossed and self-fertilised plants, from having5529grown much crowded in the two beds, produced less fine capsules and5530fewer seeds than did their parents.55315532CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.55335534The crossed and self-fertilised seeds from the crossed and5535self-fertilised plants of the last generation were sown on opposite5536sides of two pots; but the seedlings were not thinned enough, so that5537both lots grew very irregularly, and most of the self-fertilised plants5538after a time died from being smothered. My measurements were, therefore,5539very incomplete. From the first the crossed seedlings appeared the5540finest, and when they were on an average, by estimation, 5 inches high,5541the self-fertilised plants were only 4 inches. In both pots the crossed5542plants flowered first. The two tallest flower-stems on the crossed5543plants in the two pots were 17 and 16 1/2 inches in height; and the two5544tallest flower-stems on the self-fertilised plants 10 1/2 and 9 inches;5545so that their heights were as 100 to 58. But this ratio, deduced from5546only two pairs, obviously is not in the least trustworthy, and would not5547have been given had it not been otherwise supported. I state in my notes5548that the crossed plants were very much more luxuriant than their5549opponents, and seemed to be twice as bulky. This latter estimate may be5550believed from the ascertained weights of the two lots in the next5551generation. Some flowers on these crossed plants were again crossed with5552pollen from another plant of the same lot, and some flowers on the5553self-fertilised plants again self-fertilised; and from the seeds thus5554obtained the plants of the next generation were raised.55555556CROSSED AND SELF-FERTILISED PLANTS OF THE THIRD GENERATION.55575558The seeds just alluded to were allowed to germinate on bare sand, and5559were planted in pairs on the opposite sides of four pots. When the5560seedlings were in full flower, the tallest stem on each plant was5561measured to the base of the calyx. The measurements are given in Table55624/46. In Pot 1 the crossed and self-fertilised plants flowered at the5563same time; but in the other three pots the crossed flowered first. These5564latter plants also continued flowering much later in the autumn than the5565self-fertilised.55665567TABLE 4/46. Dianthus caryophyllus (third generation).55685569Tallest flower-stem on each plant measured in inches.55705571Column 1: Number (Name) of Pot.55725573Column 2: Crossed Plants.55745575Column 3: Self-fertilised Plants.55765577Pot 1 : 28 6/8 : 30.5578Pot 1 : 27 3/8 : 26.55795580Pot 2 : 29 : 30 7/8.5581Pot 2 : 29 4/8 : 27 4/8.55825583Pot 3 : 28 4/8 : 31 6/8.5584Pot 3 : 23 4/8 : 24 5/8.55855586Pot 4 : 27 : 30.5587Pot 4 : 33 4/8 : 25.55885589Total : 227.13 : 225.75.55905591The average height of the eight crossed plants is here 28.39 inches, and5592of the eight self-fertilised 28.21; or as 100 to 99. So that there was5593no difference in height worth speaking of; but in general vigour and5594luxuriance there was an astonishing difference, as shown by their5595weights. After the seed-capsules had been gathered, the eight crossed5596and the eight self-fertilised plants were cut down and weighed; the5597former weighed 43 ounces, and the latter only 21 ounces; or as 100 to559849.55995600These plants were all kept under a net, so that the capsules which they5601produced must have been all spontaneously self-fertilised. The eight5602crossed plants produced twenty-one such capsules, of which only twelve5603contained any seed, averaging 8.5 per capsule. On the other hand, the5604eight self-fertilised plants produced no less than thirty-six capsules,5605of which I examined twenty-five, and, with the exception of three, all5606contained seeds, averaging 10.63 seeds per capsule. Thus the5607proportional number of seeds per capsule produced by the plants of5608crossed origin to those produced by the plants of self-fertilised origin5609(both lots being spontaneously self-fertilised) was as 100 to 125. This5610anomalous result is probably due to some of the self-fertilised plants5611having varied so as to mature their pollen and stigmas more nearly at5612the same time than is proper to the species; and we have already seen5613that some plants in the first experiment differed from the others in5614being slightly more self-fertile.56155616THE EFFECTS OF A CROSS WITH A FRESH STOCK.56175618Twenty flowers on the self-fertilised plants of the last or third5619generation, in Table 4/46, were fertilised with their own pollen, but5620taken from other flowers on the same plants. These produced fifteen5621capsules, which contained (omitting two with only three and six seeds)5622on an average 47.23 seeds, with a maximum of seventy in one. The5623self-fertilised capsules from the self-fertilised plants of the first5624generation yielded the much lower average of 35.95 seeds; but as these5625latter plants grew extremely crowded, nothing can be inferred with5626respect to this difference in their self-fertility. The seedlings raised5627from the above seeds constitute the plants of the fourth self-fertilised5628generation in Table 4/47.56295630Twelve flowers on the same plants of the third self-fertilised5631generation, in Table 4/46, were crossed with pollen from the crossed5632plants in the same table. These crossed plants had been intercrossed for5633the three previous generations; and many of them, no doubt, were more or5634less closely inter-related, but not so closely as in some of the5635experiments with other species; for several carnation plants had been5636raised and crossed in the earlier generations. They were not related, or5637only in a distant degree, to the self-fertilised plants. The parents of5638both the self-fertilised and crossed plants had been subjected to as5639nearly as possible the same conditions during the three previous5640generations. The above twelve flowers produced ten capsules, containing5641on an average 48.66 seeds, with a maximum in one of seventy-two seeds.5642The plants raised from these seeds may be called the INTERCROSSED.56435644Lastly, twelve flowers on the same self-fertilised plants of the third5645generation were crossed with pollen from plants which had been raised5646from seeds purchased in London. It is almost certain that the plants5647which produced these seeds had grown under very different conditions to5648those to which my self-fertilised and crossed plants had been subjected;5649and they were in no degree related. The above twelve flowers thus5650crossed all produced capsules, but these contained the low average of565137.41 seeds per capsule, with a maximum in one of sixty-four seeds. It5652is surprising that this cross with a fresh stock did not give a much5653higher average number of seeds; for, as we shall immediately see, the5654plants raised from these seeds, which may be called the LONDON-CROSSED,5655benefited greatly by the cross, both in growth and fertility.56565657The above three lots of seeds were allowed to germinate on bare sand.5658Many of the London-crossed germinated before the others, and were5659rejected; and many of the intercrossed later than those of the other two5660lots. The seeds after thus germinating were planted in ten pots, made5661tripartite by superficial divisions; but when only two kinds of seeds5662germinated at the same time, they were planted on the opposite sides of5663other pots; and this is indicated by blank spaces in one of the three5664columns in Table 4/47. A 0 in the table signifies that the seedling died5665before it was measured; and a + signifies that the plant did not produce5666a flower-stem, and therefore was not measured. It deserves notice that5667no less than eight out of the eighteen self-fertilised plants either5668died or did not flower; whereas only three out of the eighteen5669intercrossed, and four out of the twenty London-crossed plants, were in5670this predicament. The self-fertilised plants had a decidedly less5671vigorous appearance than the plants of the other two lots, their leaves5672being smaller and narrower. In only one pot did a self-fertilised plant5673flower before one of the two kinds of crossed plants, between which5674there was no marked difference in the period of flowering. The plants5675were measured to the base of the calyx, after they had completed their5676growth, late in the autumn.56775678TABLE 4/47. Dianthus caryophyllus.56795680Heights of plants to the base of the calyx, measured in inches.56815682Column 1: Number (Name) of Pot.56835684Column 2: London-Crossed Plants.56855686Column 3: Intercrossed Plants.56875688Column 4: Self-fertilised Plants.56895690Pot 1 : 39 5/8 : 25 1/8 : 29 2/8.5691Pot 1 : 30 7/8 : 21 6/8 : +.56925693Pot 2 : 36 2/8 : : 22 3/8.5694Pot 2 : 0 : : +.56955696Pot 3 : 28 5/8 : 30 2/8 : .5697Pot 3 : + : 23 1/8 : .56985699Pot 4 : 33 4/8 : 35 5/8 : 30.5700Pot 4 : 28 7/8 : 32 : 24 4/8.57015702Pot 5 : 28 : 34 4/8 : +.5703Pot 5 : 0 : 24 2/8 : +.57045705Pot 6 : 32 5/8 : 24 7/8 : 30 3/8.5706Pot 6 : 31 : 26 : 24 4/8.57075708Pot 7 : 41 7/8 : 29 7/8 : 27 7/8.5709Pot 7 : 34 7/8 : 26 4/8 : 27.57105711Pot 8 : 34 5/8 : 29 : 26 6/8.5712Pot 8 : 28 5/8 : 0 : +.57135714Pot 9 : 25 5/8 : 28 5/8 : +.5715Pot 9 : 0 : + : 0.57165717Pot 10 : 38 : 28 4/8 : 22 7/8.5718Pot 10 : 32 1/8 : + : 0.57195720Total : 525.13 : 420.00 : 265.50.57215722The average height of the sixteen London-crossed plants in Table 4/47 is572332.82 inches; that of the fifteen intercrossed plants, 28 inches; and5724that of the ten self-fertilised plants, 26.55.57255726So that in height we have the following ratios:--57275728The London-crossed to the self-fertilised as 100 to 81.57295730The London-crossed to the intercrossed as 100 to 85.57315732The intercrossed to the self-fertilised as 100 to 95.57335734These three lots of plants, which it should be remembered were all5735derived on the mother-side from plants of the third self-fertilised5736generation, fertilised in three different ways, were left exposed to the5737visits of insects, and their flowers were freely crossed by them. As the5738capsules of each lot became ripe they were gathered and kept separate,5739the empty or bad ones being thrown away. But towards the middle of5740October, when the capsules could no longer ripen, all were gathered and5741were counted, whether good or bad. The capsules were then crushed, and5742the seed cleaned by sieves and weighed. For the sake of uniformity the5743results are given from calculation, as if there had been twenty plants5744in each lot.57455746The sixteen London-crossed plants actually produced 286 capsules;5747therefore twenty such plants would have produced 357.5 capsules; and5748from the actual weight of the seeds, the twenty plants would have5749yielded 462 grains weight of seeds.57505751The fifteen intercrossed plants actually produced 157 capsules;5752therefore twenty of them would have produced 209.3 capsules and the5753seeds would have weighed 208.48 grains.57545755The ten self-fertilised plants actually produced 70 capsules, therefore5756twenty of them would have produced 140 capsules; and the seeds would5757have weighed 153.2 grains.57585759From these data we get the following ratios:--57605761NUMBER OF CAPSULES PRODUCED BY AN EQUAL NUMBER OF PLANTS OF THE THREE5762LOTS.57635764NUMBER OF CAPSULES:57655766The London-crossed to the self-fertilised as 100 to 39.57675768The London-crossed to the intercrossed as 100 to 45.57695770The intercrossed to the self-fertilised as 100 to 67.57715772WEIGHT OF SEEDS PRODUCED BY AN EQUAL NUMBER OF PLANTS OF THE THREE LOTS.57735774WEIGHT OF SEED:57755776The London-crossed to the self-fertilised as 100 to 33.57775778The London-crossed to the intercrossed as 100 to 45.57795780The intercrossed to the self-fertilised as 100 to 73.57815782We thus see how greatly the offspring from the self-fertilised plants of5783the third generation crossed by a fresh stock, had their fertility5784increased, whether tested by the number of capsules produced or by the5785weight of the contained seeds; this latter being the more trustworthy5786method. Even the offspring from the self-fertilised plants crossed by5787one of the crossed plants of the same stock, notwithstanding that both5788lots had been long subjected to the same conditions, had their fertility5789considerably increased, as tested by the same two methods.57905791In conclusion it may be well to repeat in reference to the fertility of5792these three lots of plants, that their flowers were left freely exposed5793to the visits of insects and were undoubtedly crossed by them, as may be5794inferred from the large number of good capsules produced. These plants5795were all the offspring of the same mother-plants, and the strongly5796marked difference in their fertility must be attributed to the nature of5797the pollen employed in fertilising their parents; and the difference in5798the nature of the pollen must be attributed to the different treatment5799to which the pollen-bearing parents had been subjected during several5800previous generations.58015802COLOUR OF THE FLOWERS.58035804The flowers produced by the self-fertilised plants of the last or fourth5805generation were as uniform in tint as those of a wild species, being of5806a pale pink or rose colour. Analogous cases with Mimulus and Ipomoea,5807after several generations of self-fertilisation, have been already5808given. The flowers of the intercrossed plants of the fourth generation5809were likewise nearly uniform in colour. On the other hand, the flowers5810of the London-crossed plants, or those raised from a cross with the5811fresh stock which bore dark crimson flowers, varied extremely in colour,5812as might have been expected, and as is the general rule with seedling5813carnations. It deserves notice that only two or three of the5814London-crossed plants produced dark crimson flowers like those of their5815fathers, and only a very few of a pale pink like those of their mothers.5816The great majority had their petals longitudinally and variously striped5817with the two colours,--the groundwork tint being, however, in some cases5818darker than that of the mother-plants.5819582012. MALVACEAE.--Hibiscus africanus.58215822Many flowers on this Hibiscus were crossed with pollen from a distinct5823plant, and many others were self-fertilised. A rather larger5824proportional number of the crossed than of the self-fertilised flowers5825yielded capsules, and the crossed capsules contained rather more seeds.5826The self-fertilised seeds were a little heavier than an equal number of5827the crossed seeds, but they germinated badly, and I raised only four5828plants of each lot. In three out of the four pots, the crossed plants5829flowered first.58305831TABLE 4/48. Hibiscus africanus.58325833Heights of plants measured in inches.58345835Column 1: Number (Name) of Pot.58365837Column 2: Crossed Plants.58385839Column 3: Self-fertilised Plants.58405841Pot 1 : 13 4/8 : 16 2/8.58425843Pot 2 : 14 : 14.58445845Pot 3 : 8 : 7.58465847Pot 4 : 17 4/8 : 20 4/8.58485849Total : 53.00 : 57.75.58505851The four crossed plants average 13.25, and the four self-fertilised585214.43 inches in height; or as 100 to 109. Here we have the unusual case5853of self-fertilised plants exceeding the crossed in height; but only four5854pairs were measured, and these did not grow well or equally. I did not5855compare the fertility of the two lots.5856585758585859CHAPTER V.58605861GERANIACEAE, LEGUMINOSAE, ONAGRACEAE, ETC.58625863Pelargonium zonale, a cross between plants propagated by cuttings does5864no good.5865Tropaeolum minus.5866Limnanthes douglasii.5867Lupinus luteus and pilosus.5868Phaseolus multiflorus and vulgaris.5869Lathyrus odoratus, varieties of, never naturally intercross in England.5870Pisum sativum, varieties of, rarely intercross, but a cross between them5871highly beneficial.5872Sarothamnus scoparius, wonderful effects of a cross.5873Ononis minutissima, cleistogene flowers of.5874Summary on the Leguminosae.5875Clarkia elegans.5876Bartonia aurea.5877Passiflora gracilis.5878Apium petroselinum.5879Scabiosa atropurpurea.5880Lactuca sativa.5881Specularia speculum.5882Lobelia ramosa, advantages of a cross during two generations.5883Lobelia fulgens.5884Nemophila insignis, great advantages of a cross.5885Borago officinalis.5886Nolana prostrata.5887588813. GERANIACEAE.--Pelargonium zonale.58895890This plant, as a general rule, is strongly proterandrous, and is5891therefore adapted for cross-fertilisation by the aid of insects. (5/1.5892Mr. J. Denny, a great raiser of new varieties of pelargoniums, after5893stating that this species is proterandrous, adds 'The Florist and5894Pomologist' January 1872 page 11, "there are some varieties, especially5895those with petals of a pink colour, or which possess a weakly5896constitution, where the pistil expands as soon as or even before the5897pollen-bag bursts, and in which also the pistil is frequently short, so5898when it expands it is smothered as it were by the bursting anthers;5899these varieties are great seeders, each pip being fertilised by its own5900pollen. I would instance Christine as an example of this fact." We have5901here an interesting case of variability in an important functional5902point.) Some flowers on a common scarlet variety were self-fertilised,5903and other flowers were crossed with pollen from another plant; but no5904sooner had I done so, than I remembered that these plants had been5905propagated by cuttings from the same stock, and were therefore parts in5906a strict sense of the same individual. Nevertheless, having made the5907cross I resolved to save the seeds, which, after germinating on sand,5908were planted on the opposite sides of three pots. In one pot the5909quasi-crossed plant was very soon and ever afterwards taller and finer5910than the self-fertilised. In the two other pots the seedlings on both5911sides were for a time exactly equal; but when the self-fertilised plants5912were about 10 inches in height, they surpassed their antagonists by a5913little, and ever afterwards showed a more decided and increasing5914advantage; so that the self-fertilised plants, taken altogether, were5915somewhat superior to the quasi-crossed plants. In this case, as in that5916of the Origanum, if individuals which have been asexually propagated5917from the same stock, and which have been long subjected to the same5918conditions, are crossed, no advantage whatever is gained.59195920Several flowers on another plant of the same variety were fertilised5921with pollen from the younger flowers on the same plant, so as to avoid5922using the old and long-shed pollen from the same flower, as I thought5923that this latter might be less efficient than fresh pollen. Other5924flowers on the same plant were crossed with fresh pollen from a plant5925which, although closely similar, was known to have arisen as a distinct5926seedling. The self-fertilised seeds germinated rather before the others;5927but as soon as I got equal pairs they were planted on the opposite sides5928of four pots.59295930TABLE 5/49. Pelargonium zonale.59315932Heights of plants measured in inches.59335934Column 1: Number (Name) of Pot.59355936Column 2: Crossed Plants.59375938Column 3: Self-fertilised Plants.59395940Pot 1 : 22 3/8 : 25 5/8.5941Pot 1 : 19 6/8 : 12 4/8.59425943Pot 2 : 15 : 19 6/8.5944Pot 2 : 12 2/8 : 22 3/8.59455946Pot 3 : 30 5/8 : 19 4/8.5947Pot 3 : 18 4/8 : 7 4/8.59485949Pot 4 : 38 : 9 1/8.59505951Total : 156.50 : 116.38.59525953When the two lots of seedlings were between 4 and 5 inches in height5954they were equal, excepting in Pot 4, in which the crossed plant was much5955the tallest. When between 11 and 14 inches in height, they were measured5956to the tips of their uppermost leaves; the crossed averaged 13.46, and5957the self-fertilised 11.07 inches in height, or as 100 to 82. Five months5958later they were again measured in the same manner, and the results are5959given in Table 5/49.59605961The seven crossed plants now averaged 22.35, and the seven5962self-fertilised 16.62 inches in height, or as 100 to 74. But from the5963great inequality of the several plants, the result is less trustworthy5964than in most other cases. In Pot 2 the two self-fertilised plants always5965had an advantage, except whilst quite young over the two crossed plants.59665967As I wished to ascertain how these plants would behave during a second5968growth, they were cut down close to the ground whilst growing freely.5969The crossed plants now showed their superiority in another way, for only5970one out of the seven was killed by the operation, whilst three of the5971self-fertilised plants never recovered. There was, therefore, no use in5972keeping any of the plants excepting those in Pots 1 and 3; and in the5973following year the crossed plants in these two pots showed during their5974second growth nearly the same relative superiority over the5975self-fertilised plants as before.59765977Tropaeolum minus.59785979The flowers are proterandrous, and are manifestly adapted for5980cross-fertilisation by insects, as shown by Sprengel and Delpino. Twelve5981flowers on some plants growing out of doors were crossed with pollen5982from a distinct plant and produced eleven capsules, containing5983altogether twenty-four good seeds. Eighteen flowers were fertilised with5984their own pollen and produced only eleven capsules, containing5985twenty-two good seeds; so that a much larger proportion of the crossed5986than of the self-fertilised flowers produced capsules, and the crossed5987capsules contained rather more seed than the self-fertilised in the5988ratio of 100 to 92. The seeds from the self-fertilised capsules were5989however the heavier of the two, in the ratio of 100 to 87.59905991Seeds in an equal state of germination were planted on the opposite5992sides of four pots, but only the two tallest plants on each side of each5993pot were measured to the tops of their stems. The pots were placed in5994the greenhouse, and the plants trained up sticks, so that they ascended5995to an unusual height. In three of the pots the crossed plants flowered5996first, but in the fourth at the same time with the self-fertilised. When5997the seedlings were between 6 and 7 inches in height, the crossed began5998to show a slight advantage over their opponents. When grown to a5999considerable height the eight tallest crossed plants averaged 44.43, and6000the eight tallest self-fertilised plants 37.34 inches, or as 100 to 84.6001When their growth was completed they were again measured, as shown in6002Table 5/50.60036004TABLE 5/50. Tropaeolum minus.60056006Heights of plants measured in inches.60076008Column 1: Number (Name) of Pot.60096010Column 2: Crossed Plants.60116012Column 3: Self-fertilised Plants.60136014Pot 1 : 65 : 31.6015Pot 1 : 50 : 45.60166017Pot 2 : 69 : 42.6018Pot 2 : 35 : 45.60196020Pot 3 : 70 : 50 4/8.6021Pot 3 : 59 4/8 : 55 4/8.60226023Pot 4 : 61 4/8 : 37 4/8.6024Pot 4 : 57 4/8 : 61 4/8.60256026Total : 467.5 : 368.0.60276028The eight tallest crossed plants now averaged 58.43, and the eight6029tallest self-fertilised plants 46 inches in height, or as 100 to 79.60306031There was also a great difference in the fertility of the two lots which6032were left uncovered in the greenhouse. On the 17th of September the6033capsules from all the plants were gathered, and the seeds counted. The6034crossed plants yielded 243, whilst the same number of self-fertilised6035plants yielded only 155 seeds, or as 100 to 64.60366037Limnanthes douglasii.60386039Several flowers were crossed and self-fertilised in the usual manner,6040but there was no marked difference in the number of seeds which they6041yielded. A vast number of spontaneously self-fertilised capsules were6042also produced under the net. Seedlings were raised in five pots from the6043above seeds, and when the crossed were about 3 inches in height they6044showed a slight advantage over the self-fertilised. When double this6045height, the sixteen crossed and sixteen self-fertilised plants were6046measured to the tips of their leaves; the former averaged 7.3 inches,6047and the self-fertilised 6.07 inches in height, or as 100 to 83. In all6048the pots, excepting 4, a crossed plant flowered before any one of the6049self-fertilised plants. The plants, when fully grown, were again6050measured to the summits of their ripe capsules, with the result in Table60515/51.60526053TABLE 5/51. Limnanthes douglasii.60546055Heights of plants to the summits of their ripe capsules, measured in inches.60566057Column 1: Number (Name) of Pot.60586059Column 2: Crossed Plants.60606061Column 3: Self-fertilised Plants.60626063Pot 1 : 17 7/8 : 15 1/8.6064Pot 1 : 17 6/8 : 16 4/8.6065Pot 1 : 13 : 11.60666067Pot 2 : 20 : 14 4/8.6068Pot 2 : 22 : 15 6/8.6069Pot 2 : 21 : 16 1/8.6070Pot 2 : 18 4/8 : 17.60716072Pot 3 : 15 6/8 : 11 4/8.6073Pot 3 : 17 2/8 : 10 4/8.6074Pot 3 : 14 : 0.60756076Pot 4 : 20 4/8 : 13 4/8.6077Pot 4 : 14 : 13.6078Pot 4 : 18 : 12 2/8.60796080Pot 5 : 17 : 14 2/8.6081Pot 5 : 18 5/8 : 14 1/8.6082Pot 5 : 14 2/8 : 12 5/8.60836084Total : 279.50 : 207.75.60856086The sixteen crossed plants now averaged 17.46, and the fifteen (for one6087had died) self-fertilised plants 13.85 inches in height, or as 100 to608879. Mr. Galton considers that a higher ratio would be fairer, namely,6089100 to 76. He made a graphical representation of the above measurements,6090and adds the words "very good" to the curvature thus formed. Both lots6091of plants produced an abundance of seed-capsules, and, as far as could6092be judged by the eye, there was no difference in their fertility.]6093609414. LEGUMINOSAE.60956096In this family I experimented on the following six genera, Lupinus,6097Phaseolus, Lathyrus, Pisum, Sarothamnus, and Ononis.60986099[Lupinus luteus. (5/2. The structure of the flowers of this plant, and6100their manner of fertilisation, have been described by H. Muller6101'Befruchtung' etc. page 243. The flowers do not secrete free nectar, and6102bees generally visit them for their pollen. Mr. Farrer, however, remarks6103'Nature' 1872 page 499, that "there is a cavity at the back and base of6104the vexillum, in which I have not been able to find nectar. But the6105bees, which constantly visit these flowers, certainly go to this cavity6106for what they want, and not to the staminal tube.")61076108A few flowers were crossed with pollen from a distinct plant, but owing6109to the unfavourable season only two crossed seeds were produced. Nine6110seeds were saved from flowers spontaneously self-fertilised under a net,6111on the same plant which yielded the two crossed seeds. One of these6112crossed seeds was sown in a pot with two self-fertilised seeds on the6113opposite side; the latter came up between two and three days before the6114crossed seed. The second crossed seed was sown in like manner with two6115self-fertilised seeds on the opposite side; these latter also came up6116about a day before the crossed one. In both pots, therefore, the crossed6117seedlings from germinating later, were at first completely beaten by the6118self-fertilised; nevertheless, this state of things was afterwards6119completely reversed. The seeds were sown late in the autumn, and the6120pots, which were much too small, were kept in the greenhouse. The plants6121in consequence grew badly, and the self-fertilised suffered most in both6122pots. The two crossed plants when in flower during the following spring6123were 9 inches in height; one of the self-fertilised plants was 8, and6124the three others only 3 inches in height, being thus mere dwarfs. The6125two crossed plants produced thirteen pods, whilst the four6126self-fertilised plants produced only a single one. Some other6127self-fertilised plants which had been raised separately in larger pots6128produced several spontaneously self-fertilised pods under a net, and6129seeds from these were used in the following experiment.61306131CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.61326133The spontaneously self-fertilised seeds just mentioned, and crossed6134seeds obtained by intercrossing the two crossed plants of the last6135generation, after germinating on sand, were planted in pairs on the6136opposite sides of three large pots. When the seedlings were only 46137inches in height, the crossed had a slight advantage over their6138opponents. When grown to their full height, every one of the crossed6139plants exceeded its opponent in height. Nevertheless the self-fertilised6140plants in all three pots flowered before the crossed! The measurements6141are given in Table 5/52.61426143TABLE 5/52. Lupinus luteus.61446145Heights of plants measured in inches.61466147Column 1: Number (Name) of Pot.61486149Column 2: Crossed Plants.61506151Column 3: Self-fertilised Plants.61526153Pot 1 : 33 2/8 : 24 4/8.6154Pot 1 : 30 4/8 : 18 4/8.6155Pot 1 : 30 : 28.61566157Pot 2 : 29 4/8 : 26.6158Pot 2 : 30 : 25.61596160Pot 3 : 30 4/8 : 28.6161Pot 3 : 31 : 27 2/8.6162Pot 3 : 31 4/8 : 24 4/8.61636164Total : 246.25 : 201.75.61656166The eight crossed plants here average 30.78, and the eight6167self-fertilised 25.21 inches in height; or as 100 to 82. These plants6168were left uncovered in the greenhouse to set their pods, but they6169produced very few good ones, perhaps in part owing to few bees visiting6170them. The crossed plants produced nine pods, containing on an average61713.4 seeds, and the self-fertilised plants seven pods, containing on an6172average 3 seeds, so that the seeds from an equal number of plants were6173as 100 to 88.61746175Two other crossed seedlings, each with two self-fertilised seedlings on6176the opposite sides of the same large pot, were turned out of their pots6177early in the season, without being disturbed, into open ground of good6178quality. They were thus subjected to but little competition with one6179another, in comparison with the plants in the above three pots. In the6180autumn the two crossed plants were about 3 inches taller than the four6181self-fertilised plants; they looked also more vigorous and produced many6182more pods.61836184Two other crossed and self-fertilised seeds of the same lot, after6185germinating on sand, were planted on the opposite sides of a large pot,6186in which a Calceolaria had long been growing, and were therefore exposed6187to unfavourable conditions: the two crossed plants ultimately attained a6188height of 20 1/2 and 20 inches, whilst the two self-fertilised were only618918 and 9 1/2 inches high.61906191Lupinus pilosus.61926193From a series of accidents I was again unfortunate in obtaining a6194sufficient number of crossed seedlings; and the following results would6195not be worth giving, did they not strictly accord with those just given6196with respect to Lupinus luteus. I raised at first only a single crossed6197seedling, which was placed in competition with two self-fertilised ones6198on the opposite side of the same pot. These plants, without being6199disturbed, were soon afterwards turned into the open ground. By the6200autumn the crossed plant had grown to so large a size that it almost6201smothered the two self-fertilised plants, which were mere dwarfs; and6202the latter died without maturing a single pod. Several self-fertilised6203seeds had been planted at the same time separately in the open ground;6204and the two tallest of these were 33 and 32 inches, whereas the one6205crossed plant was 38 inches in height. This latter plant also produced6206many more pods than did any one of the self-fertilised plants, although6207growing separately. A few flowers on the one crossed plant were crossed6208with pollen from one of the self-fertilised plants, for I had no other6209crossed plant from which to obtain pollen. One of the self-fertilised6210plants having been covered by a net produced plenty of spontaneously6211self-fertilised pods.62126213CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.62146215From crossed and self-fertilised seeds obtained in the manner just6216described, I succeeded in raising to maturity only a pair of plants,6217which were kept in a pot in the greenhouse. The crossed plant grew to a6218height of 33 inches, and the self-fertilised to that of 26 1/2 inches.6219The former produced, whilst still kept in the greenhouse, eight pods,6220containing on an average 2.77 seeds; and the latter only two pods,6221containing on an average 2.5 seeds. The average height of the two6222crossed plants of the two generations taken together was 35.5, and that6223of the three self-fertilised plants of the same two generations 30.5; or6224as 100 to 86. (5/3. We here see that both Lupinus luteus and pilosus6225seed freely when insects are excluded; but Mr. Swale, of Christchurch,6226in New Zealand, informs me 'Gardeners' Chronicle' 1858 page 828, that6227the garden varieties of the lupine are not there visited by any bees,6228and that they seed less freely than any other introduced leguminous6229plant, with the exception of red clover. He adds "I have, for amusement,6230during the summer, released the stamens with a pin, and a pod of seed6231has always rewarded me for my trouble, the adjoining flowers not so6232served having all proved blind." I do not know to what species this6233statement refers.)62346235Phaseolus multiflorus.62366237This plant, the scarlet-runner of English gardeners and the Phaseolus6238coccineus of Lamarck, originally came from Mexico, as I am informed by6239Mr. Bentham. The flowers are so constructed that hive and humble-bees,6240which visit them incessantly, almost always alight on the left6241wing-petal, as they can best suck the nectar from this side. Their6242weight and movements depress the petal, and this causes the stigma to6243protrude from the spirally-wound keel, and a brush of hairs round the6244stigma pushes out the pollen before it. The pollen adheres to the head6245or proboscis of the bee which is at work, and is thus placed either on6246the stigma of the same flower, or is carried to another flower. (5/4.6247The flowers have been described by Delpino, and in an admirable manner6248by Mr. Farrer in the 'Annals and Magazine of Natural History' volume 262494th series October 1868 page 256. My son Francis has explained 'Nature'6250January 8, 1874 page 189, the use of one peculiarity in their structure,6251namely, a little vertical projection on the single free stamen near its6252base, which seems placed as if to guard the entrance into the two6253nectar-holes in the staminal sheath. He shows that this projection6254prevents the bees reaching the nectar, unless they go to the left side6255of the flower, and it is absolutely necessary for cross-fertilisation6256that they should alight on the left wing-petal.) Several years ago I6257covered some plants under a large net, and these produced on one6258occasion about one-third, and on another occasion about one-eighth, of6259the number of pods which the same number of uncovered plants growing6260close alongside produced. (5/5. 'Gardeners' Chronicle' 1857 page 725 and6261more especially ibid 1858 page 828. Also 'Annals and Magazine of Natural6262History' 3rd series volume 2 1858 page 462.) This lessened fertility was6263not caused by any injury from the net, as I moved the wing-petals of6264several protected flowers, in the same manner as bees do, and these6265produced remarkably fine pods. When the net was taken off, the flowers6266were immediately visited by bees, and it was interesting to observe how6267quickly the plants became covered with young pods. As the flowers are6268much frequented by Thrips, the self-fertilisation of most of the flowers6269under the net may have been due to the action of these minute insects.6270Dr. Ogle likewise covered up a large portion of a plant, and "out of a6271vast number of blossoms thus protected not a single one produced a pod,6272while the unprotected blossoms were for the most part fruitful." Mr.6273Belt gives a more curious case; this plant grows well and flowers in6274Nicaragua; but as none of the native bees visit the flowers, not a6275single pod is ever produced. (5/6. Dr. Ogle 'Popular Science Review'62761870 page 168. Mr. Belt 'The Naturalist in Nicaragua' 1874 page 70. The6277latter author gives a case 'Nature' 1875 page 26, of a late crop of6278Phaseolus multiflorus near London which "was rendered barren" by the6279humble-bees cutting, as they frequently do, holes at the bases of the6280flowers instead of entering them in the proper manner.)62816282From the facts now given we may feel nearly sure that individuals of the6283same variety or of different varieties, if growing near each other and6284in flower at the same time, would intercross; but I cannot myself6285advance any direct evidence of such an occurrence, as only a single6286variety is commonly cultivated in England. I have, however, received an6287account from the Reverend W.A. Leighton, that plants raised by him from6288ordinary seed produced seeds differing in an extraordinary manner in6289colour and shape, leading to the belief that their parents must have6290been crossed. In France M. Fermond more than once planted close together6291varieties which ordinarily come true and which bear differently coloured6292flowers and seeds; and the offspring thus raised varied so greatly that6293there could hardly be a doubt that they had intercrossed. (5/7.6294'Fécondation chez les Végétaux' 1859 pages 34-40. He adds that M.6295Villiers has described a spontaneous hybrid, which he calls Phaseolus6296coccineus hybridus, in the 'Annales de la Soc. R. de Horticulture' June62971844.) On the other hand, Professor H. Hoffman does not believe in the6298natural crossing of the varieties; for although seedlings raised from6299two varieties growing close together produced plants which yielded seeds6300of a mixed character, he found that this likewise occurred with plants6301separated by a space of from 40 to 150 paces from any other variety; he6302therefore attributes the mixed character of the seed to spontaneous6303variability. (5/8. 'Bestimmung des Werthes von Species und Varietat'63041869 pages 47-72.) But the above distance would be very far from6305sufficient to prevent intercrossing: cabbages have been known to cross6306at several times this distance; and the careful Gartner gives many6307instances of plants growing at from 600 to 800 yards apart fertilising6308one another. (5/9. 'Kenntnis der Befruchtung' 1844 pages 573, 577.)6309Professor Hoffman even maintains that the flowers of the kidney-bean are6310specially adapted for self-fertilisation. He enclosed several flowers in6311bags; and as the buds often dropped off, he attributes the partial6312sterility of these flowers to the injurious effects of the bags, and not6313to the exclusion of insects. But the only safe method of experimenting6314is to cover up a whole plant, which then never suffers.63156316Self-fertilised seeds were obtained by moving up and down in the same6317manner as bees do the wing-petals of flowers protected by a net; and6318crossed seeds were obtained by crossing two of the plants under the same6319net. The seeds after germinating on sand were planted on the opposite6320sides of two large pots, and equal-sized sticks were given them to twine6321up. When 8 inches in height, the plants on the two sides were equal. The6322crossed plants flowered before the self-fertilised in both pots. As soon6323as one of each pair had grown to the summit of its stick both were6324measured.63256326TABLE 5/53. Phaseolus multiflorus.63276328Column 1: Number (Name) of Pot.63296330Column 2: Crossed Plants.63316332Column 3: Self-fertilised Plants.63336334Pot 1 : 87 : 84 6/8.6335Pot 1 : 88 : 87.6336Pot 1 : 82 4/8 : 76.63376338Pot 2 : 90 : 76 4/8.6339Pot 2 : 82 4/8 : 87 4/8.63406341Total : 430.00 : 411.75.63426343The average height of the five crossed plants is 86 inches, and that of6344the five self-fertilised plants 82.35; or as 100 to 96. The pots were6345kept in the greenhouse, and there was little or no difference in the6346fertility of the two lots. Therefore as far as these few observations6347serve, the advantage gained by a cross is very small.63486349Phaseolus vulgaris.63506351With respect to this species, I merely ascertained that the flowers were6352highly fertile when insects were excluded, as indeed must be the case,6353for the plants are often forced during the winter when no insects are6354present. Some plants of two varieties (namely Canterbury and Fulmer's6355Forcing Bean) were covered with a net, and they seemed to produce as6356many pods, containing as many beans, as some uncovered plants growing6357alongside; but neither the pods nor the beans were actually counted.6358This difference in self-fertility between Phaseolus vulgaris and6359multifloris is remarkable, as these two species are so closely related6360that Linnaeus thought that they formed one. When the varieties of6361Phaseolus vulgaris grow near one another in the open ground, they6362sometimes cross largely, notwithstanding their capacity for6363self-fertilisation. Mr. Coe has given me a remarkable instance of this6364fact with respect to the negro and a white-seeded and a brown-seeded6365variety, which were all grown together. The diversity of character in6366the seedlings of the second generation raised by me from his plants was6367wonderful. I could add other analogous cases, and the fact is well-known6368to gardeners. (5/10. I have given Mr. Coe's case in the 'Gardeners'6369Chronicle' 1858 page 829. See also for another case ibid page 845.)63706371Lathyrus odoratus.63726373Almost everyone who has studied the structure of papilionaceous flowers6374has been convinced that they are specially adapted for6375cross-fertilisation, although many of the species are likewise capable6376of self-fertilisation. The case therefore of Lathyrus odoratus or the6377sweet-pea is curious, for in this country it seems invariably to6378fertilise itself. I conclude that this is so, as five varieties,6379differing greatly in the colour of their flowers but in no other6380respect, are commonly sold and come true; yet on inquiry from two great6381raisers of seed for sale, I find that they take no precautions to insure6382purity--the five varieties being habitually grown close together. (5/11.6383See Mr. W. Earley in 'Nature' 1872 page 242, to the same effect. He6384once, however, saw bees visiting the flowers, and supposed that on this6385occasion they would have been intercrossed.) I have myself purposely6386made similar trials with the same result. Although the varieties always6387come true, yet, as we shall presently see, one of the five well-known6388varieties occasionally gives birth to another, which exhibits all its6389usual characters. Owing to this curious fact, and to the darker-coloured6390varieties being the most productive, these increase, to the exclusion of6391the others, as I was informed by the late Mr. Masters, if there be no6392selection.63936394In order to ascertain what would be the effect of crossing two6395varieties, some flowers on the Purple sweet-pea, which has a dark6396reddish-purple standard-petal with violet-coloured wing-petals and keel,6397were castrated whilst very young, and were fertilised with pollen of the6398Painted Lady. This latter variety has a pale cherry-coloured standard,6399with almost white wings and keel. On two occasions I raised from a6400flower thus crossed plants perfectly resembling both parent-forms; but6401the greater number resembled the paternal variety. So perfect was the6402resemblance, that I should have suspected some mistake in the label, had6403not the plants, which were at first identical in appearance with the6404father or Painted Lady, later in the season produced flowers blotched6405and streaked with dark purple. This is an interesting example of partial6406reversion in the same individual plant as it grows older. The6407purple-flowered plants were thrown away, as they might possibly have6408been the product of the accidental self-fertilisation of the6409mother-plant, owing to the castration not having been effectual. But the6410plants which resembled in the colour of their flowers the paternal6411variety or Painted Lady were preserved, and their seeds saved. Next6412summer many plants were raised from these seeds, and they generally6413resembled their grandfather the Painted Lady, but most of them had their6414wing-petals streaked and stained with dark pink; and a few had pale6415purple wings with the standard of a darker crimson than is natural to6416the Painted Lady, so that they formed a new sub-variety. Amongst these6417plants a single one appeared having purple flowers like those of the6418grandmother, but with the petals slightly streaked with a paler tint:6419this was thrown away. Seeds were again saved from the foregoing plants,6420and the seedlings thus raised still resembled the Painted Lady, or6421great-grandfather; but they now varied much, the standard petal varying6422from pale to dark red, in a few instances with blotches of white; and6423the wing-petals varied from nearly white to purple, the keel being in6424all nearly white.64256426As no variability of this kind can be detected in plants raised from6427seeds, the parents of which have grown during many successive6428generations in close proximity, we may infer that they cannot have6429intercrossed. What does occasionally occur is that in a row of plants6430raised from seeds of one variety, another variety true of its kind6431appears; for instance, in a long row of Scarlets (the seeds of which had6432been carefully gathered from Scarlets for the sake of this experiment)6433two Purples and one Painted Lady appeared. Seeds from these three6434aberrant plants were saved and sown in separate beds. The seedlings from6435both the Purples were chiefly Purples, but with some Painted Ladies and6436some Scarlets. The seedlings from the aberrant Painted Lady were chiefly6437Painted Ladies with some Scarlets. Each variety, whatever its parentage6438may have been, retained all its characters perfect, and there was no6439streaking or blotching of the colours, as in the foregoing plants of6440crossed origin. Another variety, however, is often sold, which is6441striped and blotched with dark purple; and this is probably of crossed6442origin, for I found, as well as Mr. Masters, that it did not transmit6443its characters at all truly.64446445From the evidence now given, we may conclude that the varieties of the6446sweet-pea rarely or never intercross in this country; and this is a6447highly remarkable fact, considering, firstly, the general structure of6448the flowers; secondly, the large quantity of pollen produced, far more6449than is requisite for self-fertilisation; and thirdly, the occasional6450visit of insects. That insects should sometimes fail to cross-fertilise6451the flowers is intelligible, for I have thrice seen humble-bees of two6452kinds, as well as hive-bees, sucking the nectar, and they did not6453depress the keel-petals so as to expose the anthers and stigma; they6454were therefore quite inefficient for fertilising the flowers. One of6455these bees, namely, Bombus lapidarius, stood on one side at the base of6456the standard and inserted its proboscis beneath the single separate6457stamen, as I afterwards ascertained by opening the flower and finding6458this stamen prised up. Bees are forced to act in this manner from the6459slit in the staminal tube being closely covered by the broad membranous6460margin of the single stamen, and from the tube not being perforated by6461nectar-passages. On the other hand, in the three British species of6462Lathyrus which I have examined, and in the allied genus Vicia, two6463nectar-passages are present. Therefore British bees might well be6464puzzled how to act in the case of the sweet-pea. I may add that the6465staminal tube of another exotic species, Lathyrus grandiflorus, is not6466perforated by nectar-passages, and this species has rarely set any pods6467in my garden, unless the wing-petals were moved up and down, in the same6468manner as bees ought to do; and then pods were generally formed, but6469from some cause often dropped off afterwards. One of my sons caught an6470elephant sphinx-moth whilst visiting the flowers of the sweet-pea, but6471this insect would not depress the wing-petals and keel. On the other6472hand, I have seen on one occasion hive-bees, and two or three occasions6473the Megachile willughbiella in the act of depressing the keel; and these6474bees had the under sides of their bodies thickly covered with pollen,6475and could not thus fail to carry pollen from one flower to the stigma of6476another. Why then do not the varieties occasionally intercross, though6477this would not often happen, as insects so rarely act in an efficient6478manner? The fact cannot, as it appears, be explained by the flowers6479being self-fertilised at a very early age; for although nectar is6480sometimes secreted and pollen adheres to the viscid stigma before the6481flowers are fully expanded, yet in five young flowers which were6482examined by me the pollen-tubes were not exserted. Whatever the cause6483may be, we may conclude, that in England the varieties never or very6484rarely intercross. But it does not follow from this, that they would not6485be cross by the aid of other and larger insects in their native country,6486which in botanical works is said to be the south of Europe and the East6487Indies. Accordingly I wrote to Professor Delpino, in Florence, and he6488informs me "that it is the fixed opinion of gardeners there that the6489varieties do intercross, and that they cannot be preserved pure unless6490they are sown separately."64916492It follows also from the foregoing facts that the several varieties of6493the sweet-pea must have propagated themselves in England by6494self-fertilisation for very many generations, since the time when each6495new variety first appeared. From the analogy of the plants of Mimulus6496and Ipomoea, which had been self-fertilised for several generations, and6497from trials previously made with the common pea, which is in nearly the6498same state as the sweet-pea, it appeared to me very improbable that a6499cross between the individuals of the same variety would benefit the6500offspring. A cross of this kind was therefore not tried, which I now6501regret. But some flowers of the Painted Lady, castrated at an early age,6502were fertilised with pollen from the Purple sweet-pea; and it should be6503remembered that these varieties differ in nothing except in the colour6504of their flowers. The cross was manifestly effectual (though only two6505seeds were obtained), as was shown by the two seedlings, when they6506flowered, closely resembling their father, the Purple pea, excepting6507that they were a little lighter coloured, with their keels slightly6508streaked with pale purple. Seeds from flowers spontaneously6509self-fertilised under a net were at the same time saved from the same6510mother-plant, the Painted Lady. These seeds unfortunately did not6511germinate on sand at the same time with the crossed seeds, so that they6512could not be planted simultaneously. One of the two crossed seeds in a6513state of germination was planted in a pot (Number 1) in which a6514self-fertilised seed in the same state had been planted four days6515before, so that this latter seedling had a great advantage over the6516crossed one. In Pot 2 the other crossed seed was planted two days before6517a self-fertilised one; so that here the crossed seedling had a6518considerable advantage over the self-fertilised one. But this crossed6519seedling had its summit gnawed off by a slug, and was in consequence for6520a time quite beaten by the self-fertilised plant. Nevertheless I allowed6521it to remain, and so great was its constitutional vigour that it6522ultimately beat its uninjured self-fertilised rival. When all four6523plants were almost fully grown they were measured, as here shown:--65246525TABLE 5/54. Lathyrus odoratus.65266527Heights of plants measured in inches.65286529Column 1: Number (Name) of Pot.65306531Column 2: Crossed Plants.65326533Column 3: Self-fertilised Plants.65346535Pot 1 : 80 : 64 4/8.65366537Pot 2 : 78 4/8 : 63.65386539Total : 158.5 : 127.5.65406541The two crossed plants here average 79.25, and the two self-fertilised654263.75 inches in height, or as 100 to 80. Six flowers on these two6543crossed plants were reciprocally crossed with pollen from the other6544plant, and the six pods thus produced contained on an average six peas,6545with a maximum in one of seven. Eighteen spontaneously self-fertilised6546pods from the Painted Lady, which, as already stated, had no doubt been6547self-fertilised for many previous generations, contained on an average6548only 3.93 peas, with a maximum in one of five peas; so that the number6549of peas in the crossed and self-fertilised pods was as 100 to 65. The6550self-fertilised peas were, however, quite as heavy as those from the6551crossed pods. From these two lots of seeds, the plants of the next6552generation were raised.65536554PLANTS OF THE SECOND GENERATION.65556556Many of the self-fertilised peas just referred to germinated on sand6557before any of the crossed ones, and were rejected. As soon as I got6558equal pairs, they were planted on the opposite sides of two large pots,6559which were kept in the greenhouse. The seedlings thus raised were the6560grandchildren of the Painted Lady, which was first crossed by the Purple6561variety. When the two lots were from 4 to 6 inches in height there was6562no difference between them. Nor was there any marked difference in the6563period of their flowering. When fully grown they were measured, as6564follows:--65656566TABLE 5/55. Lathyrus odoratus (Second Generation).65676568Heights of plants measured in inches.65696570Column 1: Number (Name) of Pot.65716572Column 2: Seedlings from Plants Crossed during the two previous6573Generations.65746575Column 3: Seedlings from Plants Self-fertilised during many previous6576Generations.65776578Pot 1 : 72 4/8 : 57 4/8.6579Pot 1 : 71 : 67.6580Pot 1 : 52 2/8 : 56 2/8.65816582Pot 2 : 81 4/8 : 66 2/8.6583Pot 2 : 45 2/8 : 38 7/8.6584Pot 2 : 55 : 46.65856586Total : 377.50 : 331.86.65876588The average height of the six crossed plants is here 62.91, and that of6589the six self-fertilised 55.31 inches; or as 100 to 88. There was not6590much difference in the fertility of the two lots; the crossed plants6591having produced in the greenhouse thirty-five pods, and the6592self-fertilised thirty-two pods.65936594Seeds were saved from the self-fertilised flowers on these two lots of6595plants, for the sake of ascertaining whether the seedlings thus raised6596would inherit any difference in growth or vigour. It must therefore be6597understood that both lots in the following trial are plants of6598self-fertilised parentage; but that in the one lot the plants were the6599children of plants which had been crossed during two previous6600generations, having been before that self-fertilised for many6601generations; and that in the other lot they were the children of plants6602which had not been crossed for very many previous generations. The seeds6603germinated on sand and were planted in pairs on the opposite sides of6604four pots. They were measured, when fully grown, with the following6605result:--66066607TABLE 5/56. Lathyrus odoratus.66086609Heights of plants measured in inches.66106611Column 1: Number (Name) of Pot.66126613Column 2: Self-fertilised Plants from Crossed Plants.66146615Column 3: Self-fertilised Plants from Self-fertilised Plants.66166617Pot 1 : 72 : 65.6618Pot 1 : 72 : 61 4/8.66196620Pot 2 : 58 : 64.6621Pot 2 : 68 : 68 2/8.6622Pot 2 : 72 4/8 : 56 4/8.66236624Pot 3 : 81 : 60 2/8.66256626Pot 4 : 77 4/8 : 76 4/8.66276628Total : 501 : 452.66296630The average height of the seven self-fertilised plants, the offspring of6631crossed plants, is 71.57, and that of the seven self-fertilised plants,6632the offspring of self-fertilised plants, is 64.57; or as 100 to 90. The6633self-fertilised plants from the self-fertilised produced rather more6634pods--namely, thirty-six--than the self-fertilised plants from the6635crossed, for these produced only thirty-one pods.66366637A few seeds of the same two lots were sown in the opposite corners of a6638large box in which a Brugmansia had long been growing, and in which the6639soil was so exhausted that seeds of Ipomoea purpurea would hardly6640vegetate; yet the two plants of the sweet-pea which were raised6641flourished well. For a long time the self-fertilised plant from the6642self-fertilised beat the self-fertilised plant from the crossed plant;6643the former flowered first, and was at one time 77 1/2 inches, whilst the6644latter was only 68 1/2 in height; but ultimately the plant from the6645previous cross showed its superiority and attained a height of 108 1/26646inches, whilst the other was only 95 inches. I also sowed some of the6647same two lots of seeds in poor soil in a shady place in a shrubbery.6648Here again the self-fertilised plants from the self-fertilised for a6649long time exceeded considerably in height those from the previously6650crossed plants; and this may probably be attributed, in the present as6651in the last case, to these seeds having germinated rather sooner than6652those from the crossed plants; but at the close of the season the6653tallest of the self-fertilised plants from the crossed plants was 306654inches, whilst the tallest of the self-fertilised from the6655self-fertilised was 29 3/8 inches in height.66566657From the various facts now given we see that plants derived from a cross6658between two varieties of the sweet-pea, which differ in no respect6659except in the colour of their flowers, exceed considerably in height the6660offspring from self-fertilised plants, both in the first and second6661generations. The crossed plants also transmit their superiority in6662height and vigour to their self-fertilised offspring.66636664Pisum sativum.66656666The common pea is perfectly fertile when its flowers are protected from6667the visits of insects; I ascertained this with two or three different6668varieties, as did Dr. Ogle with another. But the flowers are likewise6669adapted for cross-fertilisation; Mr. Farrer specifies the following6670points, namely: "The open blossom displaying itself in the most6671attractive and convenient position for insects; the conspicuous6672vexillum; the wings forming an alighting place; the attachment of the6673wings to the keel, by which any body pressing on the former must press6674down the latter; the staminal tube enclosing nectar, and affording by6675means of its partially free stamen with apertures on each side of its6676base an open passage to an insect seeking the nectar; the moist and6677sticky pollen placed just where it will be swept out of the apex of the6678keel against the entering insect; the stiff elastic style so placed that6679on a pressure being applied to the keel it will be pushed upwards out of6680the keel; the hairs on the style placed on that side of the style only6681on which there is space for the pollen, and in such a direction as to6682sweep it out; and the stigma so placed as to meet an entering6683insect,--all these become correlated parts of one elaborate mechanism,6684if we suppose that the fertilisation of these flowers is effected by the6685carriage of pollen from one to the other." (5/12. 'Nature' October 10,66861872 page 479. Hermann Muller gives an elaborate description of the6687flowers 'Befruchtung' etc. page 247.) Notwithstanding these manifest6688provisions for cross-fertilisation, varieties which have been cultivated6689for very many successive generations in close proximity, although6690flowering at the same time, remain pure. I have elsewhere given evidence6691on this head, and if required could give more. (5/13. 'Variation of6692Animals and Plants under Domestication' chapter 9 2nd edition volume 16693page 348.) There can hardly be a doubt that some of Knight's varieties,6694which were originally produced by an artificial cross and were very6695vigorous, lasted for at least sixty years, and during all these years6696were self-fertilised; for had it been otherwise, they would not have6697kept true, as the several varieties are generally grown near together.6698Most of the varieties, however, endure for a shorter period; and this6699may be in part due to their weakness of constitution from long-continued6700self-fertilisation.67016702It is remarkable, considering that the flowers secrete much nectar and6703afford much pollen, how seldom they are visited by insects either in6704England, or, as H. Muller remarks, in North Germany. I have observed the6705flowers for the last thirty years, and in all this time have only thrice6706seen bees of the proper kind at work (one of them being Bombus6707muscorum), such as were sufficiently powerful to depress the keel, so as6708to get the undersides of their bodies dusted with pollen. These bees6709visited several flowers, and could hardly have failed to cross-fertilise6710them. Hive-bees and other small kinds sometimes collect pollen from old6711and already fertilised flowers, but this is of no account. The rarity of6712the visits of efficient bees to this exotic plant is, I believe, the6713chief cause of the varieties so seldom intercrossing. That a cross does6714occasionally take place, as might be expected from what has just been6715stated, is certain, from the recorded cases of the direct action of the6716pollen of one variety on the seed-coats of another. (5/14. 'Variation of6717Animals and Plants under Domestication' chapter 11 2nd edition volume 16718page 428.) The late Mr. Masters, who particularly attended to the6719raising of new varieties of peas, was convinced that some of them had6720originated from accidental crosses. But as such crosses are rare, the6721old varieties would not often be thus deteriorated, more especially as6722plants departing from the proper type are generally rejected by those6723who collect seed for sale. There is another cause which probably tends6724to render cross-fertilisation rare, namely, the early age at which the6725pollen-tubes are exserted; eight flowers not fully expanded were6726examined, and in seven of these the pollen-tubes were in this state; but6727they had not as yet penetrated the stigma. Although so few insects visit6728the flowers of the pea in this country or in North Germany, and although6729the anthers seem here to open abnormally soon, it does not follow that6730the species in its native country would be thus circumstanced.67316732Owing to the varieties having been self-fertilised for many generations,6733and to their having been subjected in each generation to nearly the same6734conditions (as will be explained in a future chapter) I did not expect6735that a cross between two such plants would benefit the offspring; and so6736it proved on trial. In 1867 I covered up several plants of the Early6737Emperor pea, which was not then a very new variety, so that it must6738already have been propagated by self-fertilisation for at least a dozen6739generations. Some flowers were crossed with pollen from a distinct plant6740growing in the same row, and others were allowed to fertilise themselves6741under a net. The two lots of seeds thus obtained were sown on opposite6742sides of two large pots, but only four pairs came up at the same time.6743The pots were kept in the greenhouse. The seedlings of both lots when6744between 6 and 7 inches in height were equal. When nearly full-grown they6745were measured, as in Table 5/57.67466747TABLE 5/57. Pisum sativum.67486749Heights of plants measured in inches.67506751Column 1: Number (Name) of Pot.67526753Column 2: Crossed Plants.67546755Column 3: Self-fertilised Plants.67566757Pot 1 : 35 : 29 6/8.67586759Pot 2 : 31 4/8 : 51.6760Pot 2 : 35 : 45.6761Pot 2 : 37 : 33.67626763Total : 138.50 : 158.75.67646765The average height of the four crossed plants is here 34.62, and that of6766the four self-fertilised plants 39.68, or as 100 to 115. So that the6767crossed plants, far from beating the self-fertilised, were completely6768beaten by them.67696770There can be no doubt that the result would have been widely different,6771if any two varieties out of the numberless ones which exist had been6772crossed. Notwithstanding that both had been self-fertilised for many6773previous generations, each would almost certainly have possessed its own6774peculiar constitution; and this degree of differentiation would have6775been sufficient to make a cross highly beneficial. I have spoken thus6776confidently of the benefit which would have been derived from crossing6777any two varieties of the pea from the following facts: Andrew Knight in6778speaking of the results of crossing reciprocally very tall and short6779varieties, says, "I had in this experiment a striking instance of the6780stimulative effects of crossing the breeds; for the smallest variety,6781whose height rarely exceeded 2 feet, was increased to 6 feet; whilst the6782height of the large and luxuriant kind was very little diminished."6783(5/15. 'Philosophical Transactions' 1799 page 200.) Recently Mr. Laxton6784has made numerous crosses, and everyone had been astonished at the6785vigour and luxuriance of the new varieties which he has thus raised and6786afterwards fixed by selection. He gave me seed-peas produced from6787crosses between four distinct kinds; and the plants thus raised were6788extraordinarily vigorous, being in each case from 1 to 2 or even 3 feet6789taller than the parent-forms, which were raised at the same time close6790alongside. But as I did not measure their actual height I cannot give6791the exact ratio, but it must have been at least as 100 to 75. A similar6792trial was subsequently made with two other peas from a different cross,6793and the result was nearly the same. For instance, a crossed seedling6794between the Maple and Purple-podded pea was planted in poor soil and6795grew to the extraordinary height of 116 inches; whereas the tallest6796plant of either parent variety, namely, a Purple-podded pea, was only 706797inches in height; or as 100 to 60.67986799Sarothamnus scoparius.68006801Bees incessantly visit the flowers of the common Broom, and these are6802adapted by a curious mechanism for cross-fertilisation. When a bee6803alights on the wing-petals of a young flower, the keel is slightly6804opened and the short stamens spring out, which rub their pollen against6805the abdomen of the bee. If a rather older flower is visited for the6806first time (or if the bee exerts great force on a younger flower), the6807keel opens along its whole length, and the longer as well as the shorter6808stamens, together with the much elongated curved pistil, spring forth6809with violence. The flattened, spoon-like extremity of the pistil rests6810for a time on the back of the bee, and leaves on it the load of pollen6811with which it is charged. As soon as the bee flies away, the pistil6812instantly curls round, so that the stigmatic surface is now upturned and6813occupies a position, in which it would be rubbed against the abdomen of6814another bee visiting the same flower. Thus, when the pistil first6815escapes from the keel, the stigma is rubbed against the back of the bee,6816dusted with pollen from the longer stamens, either of the same or6817another flower; and afterwards against the lower surface of the bee6818dusted with pollen from the shorter stamens, which is often shed a day6819or two before that from the longer stamens. (5/16. These observations6820have been quoted in an abbreviated form by the Reverend G. Henslow, in6821the 'Journal of Linnean Society Botany' volume 9 1866 page 358. Hermann6822Muller has since published a full and excellent account of the flower in6823his 'Befruchtung' etc. page 240.) By this mechanism cross-fertilisation6824is rendered almost inevitable, and we shall immediately see that pollen6825from a distinct plant is more effective than that from the same flower.6826I need only add that, according to H. Muller, the flowers do not secrete6827nectar, and he thinks that bees insert their proboscides only in the6828hope of finding nectar; but they act in this manner so frequently and6829for so long a time that I cannot avoid the belief that they obtain6830something palatable within the flowers.68316832If the visits of bees are prevented, and if the flowers are not dashed6833by the wind against any object, the keel never opens, so that the6834stamens and pistil remain enclosed. Plants thus protected yield very few6835pods in comparison with those produced by neighbouring uncovered bushes,6836and sometimes none at all. I fertilised a few flowers on a plant growing6837almost in a state of nature with pollen from another plant close6838alongside, and the four crossed capsules contained on an average 9.26839seeds. This large number no doubt was due to the bush being covered up,6840and thus not exhausted by producing many pods; for fifty pods gathered6841from an adjoining plant, the flowers of which had been fertilised by the6842bees, contained an average of only 7.14 seeds. Ninety-three pods6843spontaneously self-fertilised on a large bush which had been covered up,6844but had been much agitated by the wind, contained an average of 2.936845seeds. Ten of the finest of these ninety-three capsules yielded an6846average of 4.30 seeds, that is less than half the average number in the6847four artificially crossed capsules. The ratio of 7.14 to 2.93, or as 1006848to 41, is probably the fairest for the number of seeds per pod, yielded6849by naturally-crossed and spontaneously self-fertilised flowers. The6850crossed seeds compared with an equal number of the spontaneously6851self-fertilised seeds were heavier, in the ratio of 100 to 88. We thus6852see that besides the mechanical adaptations for cross-fertilisation, the6853flowers are much more productive with pollen from a distinct plant than6854with their own pollen.68556856Eight pairs of the above crossed and self-fertilised seeds, after they6857had germinated on sand, were planted (1867) on the opposite sides of two6858large pots. When several of the seedlings were an inch and a half in6859height, there was no marked difference between the two lots. But even at6860this early age the leaves of the self-fertilised seedlings were smaller6861and of not so bright a green as those of the crossed seedlings. The pots6862were kept in the greenhouse, and as the plants on the following spring6863(1868) looked unhealthy and had grown but little, they were plunged,6864still in their pots, into the open ground. The plants all suffered much6865from the sudden change, especially the self-fertilised, and two of the6866latter died. The remainder were measured, and I give the measurements in6867Table 5/58, because I have not seen in any other species so great a6868difference between the crossed and self-fertilised seedlings at so early6869an age.68706871TABLE 5/58. Sarothamnus scoparius (very young plants).68726873Heights of plants measured in inches.68746875Column 1: Number (Name) of Pot.68766877Column 2: Crossed Plants.68786879Column 3: Self-fertilised Plants.68806881Pot 1 : 4 4/8 : 2 4/8.6882Pot 1 : 6 : 1 4/8.6883Pot 1 : 2 : 1.68846885Pot 2 : 2 : 1 4/8.6886Pot 2 : 2 4/8 : 1.6887Pot 2 : 0 4/8 : 0 4/8.68886889Total : 17.5 : 8.0.68906891The six crossed plants here average 2.91, and the six self-fertilised68921.33 inches in height; so that the former were more than twice as high6893as the latter, or as 100 to 46.68946895In the spring of the succeeding year (1869) the three crossed plants in6896Pot 1 had all grown to nearly a foot in height, and they had smothered6897the three little self-fertilised plants so completely that two were6898dead; and the third, only an inch and a half in height, was dying. It6899should be remembered that these plants had been bedded out in their6900pots, so that they were subjected to very severe competition. This pot6901was now thrown away.69026903The six plants in Pot 2 were all alive. One of the self-fertilised was6904an inch and a quarter taller than any one of the crossed plants; but the6905other two self-fertilised plants were in a very poor condition. I6906therefore resolved to leave these plants to struggle together for some6907years. By the autumn of the same year (1869) the self-fertilised plant6908which had been victorious was now beaten. The measurements are shown in6909Table 5/59.69106911TABLE 5/59. Pot 2.--Sarothamnus scoparius.69126913Heights of plants measured in inches.69146915Column 1: Crossed Plants.69166917Column 2: Self-fertilised Plants.69186919: 15 6/8 : 13 1/8.6920: 9 6/8 : 3.6921: 8 2/8 : 2 4/8.69226923The same plants were again measured in the autumn of the following year,69241870.69256926TABLE 5/60. Pot 2.--Sarothamnus scoparius.69276928Heights of plants measured in inches.69296930Column 1: Crossed Plants.69316932Column 2: Self-fertilised Plants.69336934: 26 2/8 : 14 2/8.6935: 16 4/8 : 11 4/8.6936: 14 : 9 6/8.69376938Total : 56.75 : 35.50.69396940The three crossed plants now averaged 18.91, and the three6941self-fertilised 11.83 inches in height; or as 100 to 63. The three6942crossed plants in Pot 1, as already shown, had beaten the three6943self-fertilised plants so completely, that any comparison between them6944was superfluous.69456946The winter of 1870-1871 was severe. In the spring the three crossed6947plants in Pot 2 had not even the tips of their shoots in the least6948injured, whereas all three self-fertilised plants were killed half-way6949down to the ground; and this shows how much more tender they were. In6950consequence not one of these latter plants bore a single flower during6951the ensuing summer of 1871, whilst all three crossed plants flowered.69526953Ononis minutissima.69546955This plant, of which seeds were sent me from North Italy, produces,6956besides the ordinary papilionaceous flowers, minute, imperfect, closed6957or cleistogene flowers, which can never be cross-fertilised, but are6958highly self-fertile. Some of the perfect flowers were crossed with6959pollen from a distinct plant, and six capsules thus produced yielded on6960an average 3.66 seeds, with a maximum of five in one. Twelve perfect6961flowers were marked and allowed to fertilise themselves spontaneously6962under a net, and they yielded eight capsules, containing on an average69632.38 seeds, with a maximum of three seeds in one. So that the crossed6964and self-fertilised capsules from the perfect flowers yielded seeds in6965the proportion of 100 to 65. Fifty-three capsules produced by the6966cleistogene flowers contained on an average 4.1 seeds, so that these6967were the most productive of all; and the seeds themselves looked finer6968even than those from the crossed perfect flowers.69696970The seeds from the crossed perfect flowers and from the self-fertilised6971cleistogene flowers were allowed to germinate on sand; but unfortunately6972only two pairs germinated at the same time. These were planted on the6973opposite sides of the same pot, which was kept in the greenhouse. In the6974summer of the same year, when the seedlings were about 4 1/2 inches in6975height, the two lots were equal. In the autumn of the following year6976(1868) the two crossed plants were of exactly the same height, namely,697711 4/8 inches, and the two self-fertilised plants 12 6/8 and 7 2/86978inches; so that one of the self-fertilised exceeded considerably in6979height all the others. By the autumn of 1869 the two crossed plants had6980acquired the supremacy; their height being 16 4/8 and 15 1/8, whilst6981that of the two self-fertilised plants was 14 5/8 and 11 4/8 inches.69826983By the autumn of 1870, the heights were as follows:--69846985TABLE 5/61. Ononis minutissima.69866987Heights of plants measured in inches.69886989Column 1: Crossed Plants.69906991Column 2: Self-fertilised Plants.69926993: 20 3/8 : 17 4/8.6994: 19 2/8 : 17 2/8.69956996Total : 39.63 : 34.75.69976998So that the mean height of the two crossed plants was 19.81, and that of6999the two self-fertilised 17.37 inches; or as 100 to 88. It should be7000remembered that the two lots were at first equal in height; that one of7001the self-fertilised plants then had the advantage, the two crossed7002plants being at last victorious.]70037004SUMMARY ON THE LEGUMINOSAE.70057006Six genera in this family were experimented on, and the results are in7007some respects remarkable. The crossed plants of the two species of7008Lupinus were conspicuously superior to the self-fertilised plants in7009height and fertility; and when grown under very unfavourable conditions,7010in vigour. The scarlet-runner (Phaseolus multiflorus) is partially7011sterile if the visits of bees are prevented, and there is reason to7012believe that varieties growing near one another intercross. The five7013crossed plants, however, exceeded in height the five self-fertilised7014only by a little. Phaseolus vulgaris is perfectly self-sterile;7015nevertheless, varieties growing in the same garden sometimes intercross7016largely. The varieties of Lathyrus odoratus, on the other hand, appear7017never to intercross in this country; and though the flowers are not7018often visited by efficient insects, I cannot account for this fact, more7019especially as the varieties are believed to intercross in North Italy.7020Plants raised from a cross between two varieties, differing only in the7021colour of their flowers, grew much taller and were under unfavourable7022conditions more vigorous than the self-fertilised plants; they also7023transmitted, when self-fertilised, their superiority to their offspring.7024The many varieties of the common Pea (Pisum sativum), though growing in7025close proximity, very seldom intercross; and this seems due to the7026rarity in this country of the visits of bees sufficiently powerful to7027effect cross-fertilisation. A cross between the self-fertilised7028individuals of the same variety does no good whatever to the offspring;7029whilst a cross between distinct varieties, though closely allied, does7030great good, of which we have excellent evidence. The flowers of the7031Broom (Sarothamnus) are almost sterile if they are not disturbed and if7032insects are excluded. The pollen from a distinct plant is more effective7033than that from the same flower in producing seeds. The crossed seedlings7034have an enormous advantage over the self-fertilised when grown together7035in close competition. Lastly, only four plants of the Ononis minutissima7036were raised; but as these were observed during their whole growth, the7037advantage of the crossed over the self-fertilised plants may, I think,7038be fully trusted.70397040[15. ONAGRACEAE.--Clarkia elegans.70417042Owing to the season being very unfavourable (1867), few of the flowers7043which I fertilised formed capsules; twelve crossed flowers produced only7044four, and eighteen self-fertilised flowers yielded only one capsule. The7045seeds after germinating on sand were planted in three pots, but all the7046self-fertilised plants died in one of them. When the two lots were7047between 4 and 5 inches in height, the crossed began to show a slight7048superiority over the self-fertilised. When in full flower they were7049measured, with the following result:--70507051TABLE 5/62. Clarkia elegans.70527053Heights of plants measured in inches.70547055Column 1: Number (Name) of Pot.70567057Column 2: Crossed Plants.70587059Column 3: Self-fertilised Plants.70607061Pot 1 : 40 4/8 : 33.7062Pot 1 : 35 : 24.7063Pot 1 : 25 : 23.70647065Pot 2 : 33 4/8 : 30 4/8.70667067Total : 134.0 : 110.5.70687069The average height of the four crossed plants is 33.5, and that of the7070four self-fertilised plants 27.62 inches, or as 100 to 82. The crossed7071plants altogether produced 105 and the self-fertilised plants 637072capsules; or as 100 to 60. In both pots a self-fertilised plant flowered7073before any one of the crossed plants.7074707516. LOASACEAE.--Bartonia aurea.70767077Some flowers were crossed and self-fertilised in the usual manner during7078two seasons; but as I reared on the first occasion only two pairs, the7079results are given together. On both occasions the crossed capsules7080contained slightly more seeds than the self-fertilised. During the first7081year, when the plants were about 7 inches in height, the self-fertilised7082were the tallest, and in the second year the crossed were the tallest.7083When the two lots were in full flower they were measured, as in Table70845/63.70857086TABLE 5/63. Bartonia aurea.70877088Heights of plants measured in inches.70897090Column 1: Number (Name) of Pot.70917092Column 2: Crossed Plants.70937094Column 3: Self-fertilised Plants.70957096Pot 1 : 31 : 37.70977098Pot 2 : 18 4/8 : 20 4/8.70997100Pot 3 : 19 4/8 : 40 4/8.71017102Pot 4 : 25 : 35.7103Pot 4 : 36 : 15 4/8.71047105Pot 5 : 31 : 18.7106Pot 5 : 16 : 11 4/8.71077108Pot 6 : 20 : 32 4/8.71097110Total : 197.0 : 210.5.71117112The average height of the eight crossed plants is 24.62, and that of the7113eight self-fertilised 26.31 inches; or as 100 to 107. So that the7114self-fertilised had a decided advantage over the crossed. But the plants7115from some cause never grew well, and finally became so unhealthy that7116only three crossed and three self-fertilised plants survived to set any7117capsules, and these were few in number. The two lots seemed to be about7118equally unproductive.7119712017. PASSIFLORACEAE.--Passiflora gracilis.71217122This annual species produces spontaneously numerous fruits when insects7123are excluded, and behaves in this respect very differently from most of7124the other species in the genus, which are extremely sterile unless7125fertilised with pollen from a distinct plant. (5/17. 'Variation of7126Animals and Plants under Domestication' chapter 17 2nd edition volume 27127page 118.) Fourteen fruits from crossed flowers contained on an average712824.14 seeds. Fourteen fruits (two poor ones being rejected),7129spontaneously self-fertilised under a net, contained on an average 20.587130seeds per fruit; or as 100 to 85. These seeds were sown on the opposite7131sides of three pots, but only two pairs came up at the same time; and7132therefore a fair judgment cannot be formed.71337134TABLE 5/64. Passiflora gracilis.71357136Heights of plants measured in inches.71377138Column 1: Number (Name) of Pot.71397140Column 2: Crossed Plants.71417142Column 3: Self-fertilised Plants.71437144Pot 1 : 56 : 38.71457146Pot 2 : 42 : 64.71477148Total : 98 : 102.71497150The mean of the two crossed is 49 inches, and that of the two7151self-fertilised 51 inches; or as 100 to 104.7152715318. UMBELLIFERAE.--Apium petroselinum.71547155The Umbelliferae are proterandrous, and can hardly fail to be7156cross-fertilised by the many flies and small Hymenoptera which visit the7157flowers. (5/18. Hermann Muller 'Befruchtung' etc. page 96. According to7158M. Mustel as stated by Godron 'De l'espèce' tome 2 page 58 1859,7159varieties of the carrot growing near each other readily intercross.) A7160plant of the common parsley was covered by a net, and it apparently7161produced as many and as fine spontaneously self-fertilised fruits or7162seeds as the adjoining uncovered plants. The flowers on the latter were7163visited by so many insects that they must have received pollen from one7164another. Some of these two lots of seeds were left on sand, but nearly7165all the self-fertilised seeds germinated before the others, so that I7166was forced to throw all away. The remaining seeds were then sown on the7167opposite sides of four pots. At first the self-fertilised seedlings were7168a little taller in most of the pots than the naturally crossed7169seedlings, and this no doubt was due to the self-fertilised seeds having7170germinated first. But in the autumn all the plants were so equal that it7171did not seem worth while to measure them. In two of the pots they were7172absolutely equal; in a third, if there was any difference, it was in7173favour of the crossed plants, and in a somewhat plainer manner in the7174fourth pot. But neither side had any substantial advantage over the7175other; so that in height they may be said to be as 100 to 100.7176717719. DIPSACEAE.--Scabiosa atro-purpurea.71787179The flowers, which are proterandrous, were fertilised during the7180unfavourable season of 1867, so that I got few seeds, especially from7181the self-fertilised heads, which were extremely sterile. The crossed and7182self-fertilised plants raised from these seeds were measured before they7183were in full flower, as in Table 5/65.71847185TABLE 5/65. Scabiosa atro-purpurea.71867187Heights of plants measured in inches.71887189Column 1: Number (Name) of Pot.71907191Column 2: Crossed Plants.71927193Column 3: Self-fertilised Plants.71947195Pot 1 : 14 : 20.71967197Pot 2 : 15 : 14 4/8.71987199Pot 3 : 21 : 14.7200Pot 3 : 18 4/8 : 13.72017202Total : 68.5 : 61.5.72037204The four crossed plants averaged 17.12, and the four self-fertilised720515.37 inches in height; or as 100 to 90. One of the self-fertilised7206plants in Pot 3 was killed by an accident, and its fellow pulled up; so7207that when they were again measured to the summits of their flowers,7208there were only three on each side; the crossed now averaged in height720932.83, and the self-fertilised 30.16 inches; or as 100 to 92.7210721120. COMPOSITAE.--Lactuca sativa. (5/19. The Compositae are well-adapted7212for cross-fertilisation, but a nurseryman on whom I can rely, told me7213that he had been in the habit of sowing several kinds of lettuce near7214together for the sake of seed, and had never observed that they became7215crossed. It is very improbable that all the varieties which were thus7216cultivated near together flowered at different times; but two which I7217selected by hazard and sowed near each other did not flower at the same7218time; and my trial failed.)72197220Three plants of Lettuce (Great London Cos var.) grew close together in7221my garden; one was covered by a net, and produced self-fertilised seeds,7222the other two were allowed to be naturally crossed by insects; but the7223season (1867) was unfavourable, and I did not obtain many seeds. Only7224one crossed and one self-fertilised plant were raised in Pot 1, and7225their measurements are given in Table 5/66. The flowers on this one7226self-fertilised plant were again self-fertilised under a net, not with7227pollen from the same floret, but from other florets on the same head.7228The flowers on the two crossed plants were left to be crossed by7229insects, but the process was aided by some pollen being occasionally7230transported by me from plant to plant. These two lots of seeds, after7231germinating on sand, were planted in pairs on the opposite sides of Pots72322 and 3, which were at first kept in the greenhouse and then turned out7233of doors. The plants were measured when in full flower. Table 5/66,7234therefore, includes plants belonging to two generations. When the7235seedlings of the two lots were only 5 or 6 inches in height they were7236equal. In Pot 3 one of the self-fertilised plants died before flowering,7237as has occurred in so many other cases.72387239TABLE 5/66. Lactuca sativa.72407241Heights of plants measured in inches.72427243Column 1: Number (Name) of Pot.72447245Column 2: Crossed Plants.72467247Column 3: Self-fertilised Plants.72487249Pot 1 : 27 : 21 4/8.7250Pot 1 : 25 : 20.7251First generation, planted in open ground.72527253Pot 2 : 29 4/8 : 24.7254Pot 2 : 17 4/8 : 10.7255Pot 2 : 12 4/8 : 11.7256Second generation, planted in open ground.72577258Pot 3 : 14 : 9 4/8.7259Pot 3 : 10 4/8 : 0.7260Second generation, kept in the pot.72617262Total : 136 : 96.72637264The average height of the seven crossed plants is 19.43, and that of the7265six self-fertilised plants 16 inches; or as 100 to 82.7266726721. CAMPANULACEAE.--Specularia speculum.72687269In the closely allied genus, Campanula, in which Specularia was formerly7270included, the anthers shed at an early period their pollen, and this7271adheres to the collecting hairs which surround the pistil beneath the7272stigma; so that without some mechanical aid the flowers cannot be7273fertilised. For instance, I covered up a plant of Campanula carpathica,7274and it did not produce a single capsule, whilst the surrounding7275uncovered plants seeded profusely. On the other hand, the present7276species of Specularia appears to set almost as many capsules when7277covered up, as when left to the visits of the Diptera, which, as far as7278I have seen, are the only insects that frequent the flowers. (5/20. It7279has long been known that another species of the genus, Specularia7280perfoliata, produces cleistogene as well as perfect flowers, and the7281former are of course self-fertile.) I did not ascertain whether the7282naturally crossed and spontaneously self-fertilised capsules contained7283an equal number of seeds, but a comparison of artificially crossed and7284self-fertilised flowers, showed that the former were probably the most7285productive. It appears that this plant is capable of producing a large7286number of self-fertilised capsules owing to the petals closing at night,7287as well as during cold weather. In the act of closing, the margins of7288the petals become reflexed, and their inwardly projecting midribs then7289pass between the clefts of the stigma, and in doing so push the pollen7290from the outside of the pistil on to the stigmatic surfaces. (5/21. Mr.7291Meehan has lately shown 'Proceedings of the Academy of Natural Science7292Philadelphia' May 16, 1876 page 84, that the closing of the flowers of7293Claytonia virginica and Ranunculus bulbosus during the night causes7294their self-fertilisation.)72957296Twenty flowers were fertilised by me with their own pollen, but owing to7297the bad season, only six capsules were produced; they contained on an7298average 21.7 seeds, with a maximum of forty-eight in one. Fourteen7299flowers were crossed with pollen from another plant, and these produced7300twelve capsules, containing on an average 30 seeds, with a maximum in7301one of fifty-seven seeds; so that the crossed seeds were to the7302self-fertilised from an equal number of capsules as 100 to 72. The7303former were also heavier than an equal number of self-fertilised seeds,7304in the ratio of 100 to 86. Thus, whether we judge by the number of7305capsules produced from an equal number of flowers, or by the average7306number of the contained seeds, or the maximum number in any one capsule,7307or by their weight, crossing does great good in comparison with7308self-fertilisation. The two lots of seeds were sown on the opposite7309sides of four pots; but the seedlings were not sufficiently thinned.7310Only the tallest plant on each side was measured, when fully grown. The7311measurements are given in Table 5/67. In all four pots the crossed7312plants flowered first. When the seedlings were only about an inch and a7313half in height both lots were equal.73147315TABLE 5/67. Specularia speculum.73167317Heights of plants measured in inches.73187319Column 1: Number (Name) of Pot.73207321Column 2: Tallest Crossed Plant in each Pot.73227323Column 3: Tallest Self-fertilised Plant in each Pot.73247325Pot 1 : 18 : 15 6/8.73267327Pot 2 : 17 : 19.73287329Pot 3 : 22 1/8 : 18.73307331Pot 4 : 20 : 23.73327333Total : 77.13 : 75.75.73347335The four tallest crossed plants averaged 19.28, and the four tallest7336self-fertilised 18.93 inches in height; or as 100 to 98. So that there7337was no difference worth speaking of between the two lots in height;7338though other great advantages are derived, as we have seen, from7339cross-fertilisation. From being grown in pots and kept in the7340greenhouse, none of the plants produced any capsules.73417342Lobelia ramosa. (5/22. I have adopted the name given to this plant in7343the 'Gardeners' Chronicle' 1866. Professor T. Dyer, however, informs me7344that it probably is a white variety of L. tenuior of R. Brown, from W.7345Australia.)73467347VAR. SNOW-FLAKE.73487349The well-adapted means by which cross-fertilisation is ensured in this7350genus have been described by several authors. (5/23. See the works of7351Hildebrand and Delpino. Mr. Farrer also has given a remarkably clear7352description of the mechanism by which cross-fertilisation is effected in7353this genus, in the 'Annals and Magazine of Natural History' volume 2 4th7354series 1868 page 260. In the allied genus Isotoma, the curious spike7355which projects rectangularly from the anthers, and which when shaken7356causes the pollen to fall on the back of an entering insect, seems to7357have been developed from a bristle, like one of those which spring from7358the anthers in some of or all the species of Lobelia, as described by7359Mr. Farrer.) The pistil as it slowly increases in length pushes the7360pollen out of the conjoined anthers, by the aid of a ring of bristles;7361the two lobes of the stigma being at this time closed and incapable of7362fertilisation. The extrusion of the pollen is also aided by insects,7363which rub against the little bristles that project from the anthers. The7364pollen thus pushed out is carried by insects to the older flowers, in7365which the stigma of the now freely projecting pistil is open and ready7366to be fertilised. I proved the importance of the gaily-coloured corolla,7367by cutting off the large flowers of Lobelia erinus; and these flowers7368were neglected by the hive-bees which were incessantly visiting the7369other flowers.73707371A capsule was obtained by crossing a flower of L. ramosa with pollen7372from another plant, and two other capsules from artificially7373self-fertilised flowers. The contained seeds were sown on the opposite7374sides of four pots. Some of the crossed seedlings which came up before7375the others had to be pulled up and thrown away. Whilst the plants were7376very small there was not much difference in height between the two lots;7377but in Pot 3 the self-fertilised were for a time the tallest. When in7378full flower the tallest plant on each side of each pot was measured, and7379the result is shown in Table 5/68. In all four pots a crossed plant7380flowered before any one of its opponents.73817382TABLE 5/68. Lobelia ramosa (First Generation).73837384Heights of plants measured in inches.73857386Column 1: Number (Name) of Pot.73877388Column 2: Tallest Crossed Plant in each Pot.73897390Column 3: Tallest Self-fertilised Plant in each Pot.73917392Pot 1 : 22 4/8 : 17 4/8.73937394Pot 2 : 27 4/8 : 24.73957396Pot 3 : 16 4/8 : 15.73977398Pot 4 : 22 4/8 : 17.73997400Total : 89.0 : 73.5.74017402The four tallest crossed plants averaged 22.25, and the four tallest7403self-fertilised 18.37 inches in height; or as 100 to 82. I was surprised7404to find that the anthers of a good many of these self-fertilised plants7405did not cohere and did not contain any pollen; and the anthers even of a7406very few of the crossed plants were in the same condition. Some flowers7407on the crossed plants were again crossed, four capsules being thus7408obtained; and some flowers on the self-fertilised plants were again7409self-fertilised, seven capsules being thus obtained. The seeds from both7410lots were weighed, and it was calculated that an equal number of7411capsules would have yielded seed in the proportion by weight of 100 for7412the crossed to 60 for the self-fertilised capsules. So that the flowers7413on the crossed plants again crossed were much more fertile than those on7414the self-fertilised plants again self-fertilised.74157416PLANTS OF THE SECOND GENERATION.74177418The above two lots of seeds were placed on damp sand, and many of the7419crossed seeds germinated, as on the last occasion, before the7420self-fertilised, and were rejected. Three or four pairs in the same7421state of germination were planted on the opposite sides of two pots; a7422single pair in a third pot; and all the remaining seeds were sown7423crowded in a fourth pot. When the seedlings were about one and a half7424inches in height, they were equal on both sides of the three first pots;7425but in Pot 4, in which they grew crowded and were thus exposed to severe7426competition, the crossed were about a third taller than the7427self-fertilised. In this latter pot, when the crossed averaged 5 inches7428in height, the self-fertilised were about 4 inches; nor did they look7429nearly such fine plants. In all four pots the crossed plants flowered7430some days before the self-fertilised. When in full flower the tallest7431plant on each side was measured; but before this time the single crossed7432plant in Pot 3, which was taller than its antagonist, had died and was7433not measured. So that only the tallest plant on each side of three pots7434was measured, as in Table 5/69.74357436TABLE 5/69. Lobelia ramosa (Second Generation).74377438Heights of plants measured in inches.74397440Column 1: Number (Name) of Pot.74417442Column 2: Tallest Crossed Plant in each Pot.74437444Column 3: Tallest Self-fertilised Plant in each Pot.74457446Pot 1 : 27 4/8 : 18 4/8.74477448Pot 2 : 21 : 19 4/8.74497450Pot 3 : 21 4/8 : 19.7451Crowded.74527453Total : 70 : 57.74547455The average height of the three tallest crossed plants is here 23.33,7456and that of the tallest self-fertilised 19 inches; or as 100 to 81.7457Besides this difference in height, the crossed plants were much more7458vigorous and more branched than the self-fertilised plants, and it is7459unfortunate that they were not weighed.74607461Lobelia fulgens.74627463This species offers a somewhat perplexing case. In the first generation7464the self-fertilised plants, though few in number, greatly exceeded the7465crossed in height; whilst in the second generation, when the trial was7466made on a much larger scale, the crossed beat the self-fertilised7467plants. As this species is generally propagated by off-sets, some7468seedlings were first raised, in order to have distinct plants. On one of7469these plants several flowers were fertilised with their own pollen; and7470as the pollen is mature and shed long before the stigma of the same7471flower is ready for fertilisation, it was necessary to number each7472flower and keep its pollen in paper with a corresponding number. By this7473means well-matured pollen was used for self-fertilisation. Several7474flowers on the same plant were crossed with pollen from a distinct7475individual, and to obtain this the conjoined anthers of young flowers7476were roughly squeezed, and as it is naturally protruded very slowly by7477the growth of the pistil, it is probable that the pollen used by me was7478hardly mature, certainly less mature than that employed for7479self-fertilisation. I did not at the time think of this source of error,7480but I now suspect that the growth of the crossed plants was thus7481injured. Anyhow the trial was not perfectly fair. Opposed to the belief7482that the pollen used in crossing was not in so good a state as that used7483for self-fertilisation, is the fact that a greater proportional number7484of the crossed than of the self-fertilised flowers produced capsules;7485but there was no marked difference in the amount of seed contained in7486the capsules of the two lots. (5/24. Gartner has shown that certain7487plants of Lobelia fulgens are quite sterile with pollen from the same7488plant, though this pollen is efficient on any other individual; but none7489of the plants on which I experimented, which were kept in the7490greenhouse, were in this peculiar condition.)74917492As the seeds obtained by the above two methods would not germinate when7493left on bare sand, they were sown on the opposite sides of four pots;7494but I succeeded in raising only a single pair of seedlings of the same7495age in each pot. The self-fertilised seedlings, when only a few inches7496in height, were in most of the pots taller than their opponents; and7497they flowered so much earlier in all the pots, that the height of the7498flower-stems could be fairly compared only in Pots 1 and 2.74997500TABLE 5/70. Lobelia fulgens (First Generation).75017502Heights of flower-stems measured in inches.75037504Column 1: Number (Name) of Pot.75057506Column 2: Height of Flower-stems on the Crossed Plants.75077508Column 3: Height of Flower-stems on the Self-fertilised Plants.75097510Pot 1 : 33 : 50.75117512Pot 2 : 36 4/8 : 38 4/8.75137514Pot 3 : 21* : 43.75157516Pot 4 : 12* : 35 6/8.75177518*Not in full flower.75197520The mean height of the flower-stems of the two crossed plants in Pots 17521and 2 is here 34.75 inches, and that of the two self-fertilised plants7522in the same pots 44.25 inches; or as 100 to 127. The self-fertilised7523plants in Pots 3 and 4 were in every respect very much finer than the7524crossed plants.75257526I was so much surprised at this great superiority of the self-fertilised7527over the crossed plants, that I determined to try how they would behave7528in one of the pots during a second growth. The two plants, therefore, in7529Pot 1 were cut down, and repotted without being disturbed in a much7530larger pot. In the following year the self-fertilised plant showed even7531a greater superiority than before; for the two tallest flower-stems7532produced by the one crossed plant were only 29 4/8 and 30 1/8 inches in7533height, whereas the two tallest stems on the one self-fertilised plant7534were 49 4/8 and 49 6/8 inches; and this gives a ratio of 100 to 167.7535Considering all the evidence, there can be no doubt that these7536self-fertilised plants had a great superiority over the crossed plants.75377538CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.75397540TABLE 5/71. Lobelia fulgens (Second Generation).75417542Heights of flower-stems measured in inches.75437544Column 1: Number (Name) of Pot.75457546Column 2: Crossed Plants.75477548Column 3: Self-fertilised Plants.75497550Pot 1 : 27 3/8 : 32 3/8.7551Pot 1 : 26 : 26 3/8.7552Pot 1 : 24 3/8 : 25 1/8.7553Pot 1 : 24 4/8 : 26 2/8.75547555Pot 2 : 34 : 36 2/8.7556Pot 2 : 26 6/8 : 28 6/8.7557Pot 2 : 25 1/8 : 30 1/8.7558Pot 2 : 26 : 32 2/8.75597560Pot 3 : 40 4/8 : 30 4/8.7561Pot 3 : 37 5/8 : 28 2/8.7562Pot 3 : 32 1/8 : 23.75637564Pot 4 : 34 5/8 : 29 4/8.7565Pot 4 : 32 2/8 : 28 3/8.7566Pot 4 : 29 3/8 : 26.7567Pot 4 : 27 1/8 : 25 2/8.75687569Pot 5 : 28 1/8 : 29.7570Pot 5 : 27 : 24 6/8.7571Pot 5 : 25 3/8 : 23 2/8.7572Pot 5 : 24 3/8 : 24.75737574Pot 6 : 33 5/8 : 44 2/8.7575Pot 6 : 32 : 37 6/8.7576Pot 6 : 26 1/8 : 37.7577Pot 6 : 25 : 35.75787579Pot 7 : 30 6/8 : 27 2/8.7580Pot 7 : 30 3/8 : 19 2/8.7581Pot 7 : 29 2/8 : 21.75827583Pot 8 : 39 3/8 : 23 1/8.7584Pot 8 : 37 2/8 : 23 4/8.7585Pot 8 : 36 : 25 4/8.7586Pot 8 : 36 : 25 1/8.75877588Pot 9 : 33 3/8 : 19 3/8.7589Pot 9 : 25 : 16 3/8.7590Pot 9 : 25 3/8 : 19.7591Pot 9 : 21 7/8 : 18 6/8.75927593Total : 1014.00 : 921.63.75947595I determined on this occasion to avoid the error of using pollen of not7596quite equal maturity for crossing and self-fertilisation; so that I7597squeezed pollen out of the conjoined anthers of young flowers for both7598operations. Several flowers on the crossed plant in Pot 1 in Table 5/707599were again crossed with pollen from a distinct plant. Several other7600flowers on the self-fertilised plant in the same pot were again7601self-fertilised with pollen from the anthers of other flowers on the7602SAME PLANT. Therefore the degree of self-fertilisation was not quite so7603close as in the last generation, in which pollen from the SAME FLOWER,7604kept in paper, was used. These two lots of seeds were thinly sown on7605opposite sides of nine pots; and the young seedlings were thinned, an7606equal number of nearly as possible the same age being left on the two7607sides. In the spring of the following year (1870), when the seedlings7608had grown to a considerable size, they were measured to the tips of7609their leaves; and the twenty-three crossed plants averaged 14.04 inches7610in height, whilst the twenty-three self-fertilised seedlings were 13.547611inches; or as 100 to 96.76127613In the summer of the same year several of these plants flowered, the7614crossed and self-fertilised plants flowering almost simultaneously, and7615all the flower-stems were measured. Those produced by eleven of the7616crossed plants averaged 30.71 inches, and those by nine of the7617self-fertilised plants 29.43 inches in height; or as 100 to 96.76187619The plants in these nine pots, after they had flowered, were repotted7620without being disturbed in much larger pots; and in the following year,76211871, all flowered freely; but they had grown into such an entangled7622mass, that the separate plants on each side could no longer be7623distinguished. Accordingly three or four of the tallest flower-stems on7624each side of each pot were measured; and the measurements in Table 5/717625are, I think, more trustworthy than the previous ones, from being more7626numerous, and from the plants being well established and growing7627vigorously.76287629The average height of the thirty-four tallest flower-stems on the7630twenty-three crossed plants is 29.82 inches, and that of the same number7631of flower-stems on the same number of self-fertilised plants is 27.107632inches, or as 100 to 91. So that the crossed plants now showed a decided7633advantage over their self-fertilised opponents.7634763522. POLEMONIACEAE.--Nemophila insignis.76367637Twelve flowers were crossed with pollen from a distinct plant, but7638produced only six capsules, containing on an average 18.3 seeds.7639Eighteen flowers were fertilised with their own pollen and produced ten7640capsules, containing on an average 12.7 seeds, so that the seeds per7641capsule were as 100 to 69. (5/25. Several species of Polemoniaceae are7642known to be proterandrous, but I did not attend to this point in7643Nemophila. Verlot says 'Des Variétés' 1865 page 66, that varieties7644growing near one another spontaneously intercross.) The crossed seeds7645weighed a little less than an equal number of self-fertilised seeds, in7646the proportion of 100 to 105; but this was clearly due to some of the7647self-fertilised capsules containing very few seeds, and these were much7648bulkier than the others, from having been better nourished. A subsequent7649comparison of the number of seeds in a few capsules did not show so7650great a superiority on the side of the crossed capsules as in the7651present case.76527653The seeds were placed on sand, and after germinating were planted in7654pairs on the opposite sides of five pots, which were kept in the7655greenhouse. When the seedlings were from 2 to 3 inches in height, most7656of the crossed had a slight advantage over the self-fertilised. The7657plants were trained up sticks, and thus grew to a considerable height.7658In four out of the five pots a crossed plant flowered before any one of7659the self-fertilised. The plants were first measured to the tips of their7660leaves, before they had flowered and when the crossed were under a foot7661in height. The twelve crossed plants averaged 11.1 inches in height,7662whilst the twelve self-fertilised were less than half of this height,7663namely, 5.45; or as 100 to 49. Before the plants had grown to their full7664height, two of the self-fertilised died, and as I feared that this might7665happen with others, they were again measured to the tops of their stems,7666as shown in Table 5/72.76677668TABLE 5/72. Nemophila insignis; 0 means that the plant died.76697670Heights of plants measured in inches.76717672Column 1: Number (Name) of Pot.76737674Column 2: Crossed Plants.76757676Column 3: Self-fertilised Plants.76777678Pot 1 : 32 4/8 : 21 2/8.76797680Pot 2 : 34 4/8 : 23 5/8.76817682Pot 3 : 33 1/8 : 19.7683Pot 3 : 22 2/8 : 7 2/8.7684Pot 3 : 29 : 17 4/8.76857686Pot 4 : 35 4/8 : 10 4/8.7687Pot 4 : 33 4/8 : 27.76887689Pot 5 : 35 : 0.7690Pot 5 : 38 : 18 3/8.7691Pot 5 : 36 : 20 4/8.7692Pot 5 : 37 4/8 : 34.7693Pot 5 : 32 4/8 : 0.76947695Total : 399.38 : 199.00.76967697The twelve crossed plants now averaged 33.28, and the ten7698self-fertilised 19.9 inches in height, or as 100 to 60; so that they7699differed somewhat less than before.77007701The plants in Pots 3 and 5 were placed under a net in the greenhouse,7702two of the crossed plants in the latter pot being pulled up on account7703of the death of two of the self-fertilised; so that altogether six7704crossed and six self-fertilised plants were left to fertilise themselves7705spontaneously. The pots were rather small, and the plants did not7706produce many capsules. The small size of the self-fertilised plants will7707largely account for the fewness of the capsules which they produced. The7708six crossed plants bore 105, and the six self-fertilised only 307709capsules; or as 100 to 29.77107711The self-fertilised seeds thus obtained from the crossed and7712self-fertilised plants, after germinating on sand, were planted on the7713opposite sides of four small pots, and treated as before. But many of7714the plants were unhealthy, and their heights were so unequal--some on7715both sides being five times as tall as the others--that the averages7716deduced from the measurements in Table 5/73 are not in the least7717trustworthy. Nevertheless I have felt bound to give them, as they are7718opposed to my general conclusions.77197720The seven self-fertilised plants from the crossed plants here average772115.73, and the seven self-fertilised from the self-fertilised 21 inches7722in height; or as 100 to 133. Strictly analogous experiments with Viola7723tricolor and Lathyrus odoratus gave a very different result.77247725TABLE 5/73. Nemophila insignis.77267727Heights of plants measured in inches.77287729Column 1: Number (Name) of Pot.77307731Column 2: Self-fertilised Plants from Crossed Plants.77327733Column 3: Self-fertilised Plants from Self-fertilised Plants.77347735Pot 1 : 27 : 27 4/8.7736Pot 1 : 14 : 34 2/8.77377738Pot 2 : 17 6/8 : 23.7739Pot 2 : 24 4/8 : 32.77407741Pot 3 : 16 : 7.77427743Pot 4 : 5 3/8 : 7 2/8.7744Pot 4 : 5 4/8 : 16.77457746Total : 110.13 : 147.00.7747774823. BORAGINACEAE.--Borago officinalis.77497750This plant is frequented by a greater number of bees than any other one7751which I have observed. It is strongly proterandrous (H. Muller7752'Befruchtung' etc. page 267), and the flowers can hardly fail to be7753cross-fertilised; but should this not occur, they are capable of7754self-fertilisation to a limited extent, as some pollen long remains7755within the anthers, and is apt to fall on the mature stigma. In the year77561863 I covered up a plant, and examined thirty-five flowers, of which7757only twelve yielded any seeds; whereas of thirty-five flowers on an7758exposed plant growing close by, all with the exception of two yielded7759seeds. The covered-up plant, however, produced altogether twenty-five7760spontaneously self-fertilised seeds; the exposed plant producing7761fifty-five seeds, the product, no doubt, of cross-fertilisation.77627763In the year 1868 eighteen flowers on a protected plant were crossed with7764pollen from a distinct plant, but only seven of these produced fruit;7765and I suspect that I applied pollen to many of the stigmas before they7766were mature. These fruits contained on an average 2 seeds, with a7767maximum in one of three seeds. Twenty-four spontaneously self-fertilised7768fruits were produced by the same plant, and these contained on an7769average 1.2 seeds, with a maximum of two in one fruit. So that the7770fruits from the artificially crossed flowers yielded seeds compared with7771those from the spontaneously self-fertilised flowers, in the ratio of7772100 to 60. But the self-fertilised seeds, as often occurs when few are7773produced, were heavier than the crossed seeds in the ratio of 100 to 90.77747775These two lots of seeds were sown on opposite sides of two large pots;7776but I succeeded in raising only four pairs of equal age. When the7777seedlings on both sides were about 8 inches in height they were equal.7778When in full flower they were measured, as follows:--77797780TABLE 5/74. Borago officinalis.77817782Heights of plants measured in inches.77837784Column 1: Number (Name) of Pot.77857786Column 2: Crossed Plants.77877788Column 3: Self-fertilised Plants.77897790Pot 1 : 19 : 13 4/8.7791Pot 1 : 21 : 18 6/8.7792Pot 1 : 16 4/8 : 20 2/8.77937794Pot 2 : 26 2/8 : 32 2/8.77957796Total : 82.75 : 84.75.77977798The average height of the four crossed plants is here 20.68, and that of7799the four self-fertilised 21.18 inches; or as 100 to 102. The7800self-fertilised plants thus exceeded the crossed in height by a little;7801but this was entirely due to the tallness of one of the self-fertilised.7802The crossed plants in both pots flowered before the self-fertilised.7803Therefore I believe if more plants had been raised, the result would7804have been different. I regret that I did not attend to the fertility of7805the two lots.7806780724. NOLANACEAE.--Nolana prostrata.78087809In some of the flowers the stamens are considerably shorter than the7810pistil, in others equal to it in length. I suspected, therefore, but7811erroneously as it proved, that this plant was dimorphic, like Primula,7812Linum, etc., and in the year 1862 twelve plants, covered by a net in the7813greenhouse, were subjected to trial. The spontaneously self-fertilised7814flowers yielded 64 grains weight of seeds, but the product of fourteen7815artificially crossed flowers is here included, which falsely increases7816the weight of the self-fertilised seeds. Nine uncovered plants, the7817flowers of which were eagerly visited by bees for their pollen and were7818no doubt intercrossed by them, produced 79 grains weight of seeds:7819therefore twelve plants thus treated would have yielded 105 grains. Thus7820the seeds produced by the flowers on an equal number of plants, when7821crossed by bees, and spontaneously self-fertilised (the product of7822fourteen artificially crossed flowers being, however, included in the7823latter) were in weight as 100 to 61.78247825In the summer of 1867 the trial was repeated; thirty flowers were7826crossed with pollen from a distinct plant and produced twenty-seven7827capsules, each containing five seeds. Thirty-two flowers were fertilised7828with their own pollen, and produced only six capsules, each with five7829seeds. So that the crossed and self-fertilised capsules contained the7830same number of seeds, though many more capsules were produced by the7831cross-fertilised than by the self-fertilised flowers, in the ratio of7832100 to 21.78337834An equal number of seeds of both lots were weighed, and the crossed7835seeds were to the self-fertilised in weight as 100 to 82. Therefore a7836cross increases the number of capsules produced and the weight of the7837seeds, but not the number of seeds in each capsule.78387839These two lots of seeds, after germinating on sand, were planted on the7840opposite sides of three pots. The seedlings when from 6 to 7 inches in7841height were equal. The plants were measured when fully grown, but their7842heights were so unequal in the several pots, that the result cannot be7843fully trusted.78447845TABLE 5/75. Nolana prostrata.78467847Heights of plants measured in inches.78487849Column 1: Number (Name) of Pot.78507851Column 2: Crossed Plants.78527853Column 3: Self-fertilised Plants.78547855Pot 1 : 8 4/8 : 4 2/8.7856Pot 1 : 6 4/8 : 7 4/8.78577858Pot 2 : 10 4/8 : 14 4/8.7859Pot 2 : 18 : 18.78607861Pot 3 : 20 2/8 : 22 6/8.78627863Total : 63.75 : 67.00.78647865The five crossed plants average 12.75, and the five self-fertilised 13.47866inches in height; or as 100 to 105.7867786878697870CHAPTER VI.78717872SOLANACEAE, PRIMULACEAE, POLYGONEAE, ETC.78737874Petunia violacea, crossed and self-fertilised plants compared for four7875generations.7876Effects of a cross with a fresh stock.7877Uniform colour of the flowers on the self-fertilised plants of the7878fourth generation.7879Nicotiana tabacum, crossed and self-fertilised plants of equal height.7880Great effects of a cross with a distinct sub-variety on the height, but7881not on the fertility, of the offspring.7882Cyclamen persicum, crossed seedlings greatly superior to the self-fertilised.7883Anagallis collina.7884Primula veris.7885Equal-styled variety of Primula veris, fertility of, greatly increased7886by a cross with a fresh stock.7887Fagopyrum esculentum.7888Beta vulgaris.7889Canna warscewiczi, crossed and self-fertilised plants of equal height.7890Zea mays.7891Phalaris canariensis.7892789325. SOLANACEAE. Petunia violacea.78947895DINGY PURPLE VARIETY.78967897The flowers of this plant are so seldom visited during the day by7898insects in this country, that I have never seen an instance; but my7899gardener, on whom I can rely, once saw some humble-bees at work. Mr.7900Meehan says, that in the United States bees bore through the corolla for7901the nectar, and adds that their "fertilisation is carried on by7902night-moths." (6/1. 'Proceedings of the Academy of Natural Science of7903Philadelphia' August 2, 1870 page 90.)79047905In France M. Naudin, after castrating a large number of flowers whilst7906in bud, left them exposed to the visits of insects, and about a quarter7907produced capsules (6/2. 'Annales des Sc. Nat.' 4th series Bot. Tome 97908cah. 5); but I am convinced that a much larger proportion of flowers in7909my garden are cross-fertilised by insects, for protected flowers with7910their own pollen placed on the stigma never yielded nearly a full7911complement of seed; whilst those left uncovered produced fine capsules,7912showing that pollen from other plants must have been brought to them,7913probably by moths. Plants growing vigorously and flowering in pots in7914the greenhouse, never yielded a single capsule; and this may be7915attributed, at least in chief part, to the exclusion of moths.79167917Six flowers on a plant covered by a net were crossed with pollen from a7918distinct plant and produced six capsules, containing by weight 4.447919grains of seed. Six other flowers were fertilised with their own pollen7920and produced only three capsules, containing only 1.49 grains weight of7921seed. From this it follows that an equal number of crossed and7922self-fertilised capsules would have contained seeds by weight as 100 to792367. I should not have thought the proportional contents of so few7924capsules worth giving, had not nearly the same result been confirmed by7925several subsequent trials.79267927Seeds of the two lots were placed on sand, and many of the7928self-fertilised seeds germinated before the crossed, and were rejected.7929Several pairs in an equal state of germination were planted on the7930opposite sides of Pots 1 and 2; but only the tallest plant on each side7931was measured. Seeds were also sown thickly on the two sides of a large7932pot (3), the seedlings being afterwards thinned, so that an equal number7933was left on each side; the three tallest on each side being measured.7934The pots were kept in the greenhouse, and the plants were trained up7935sticks. For some time the young crossed plants had no advantage in7936height over the self-fertilised; but their leaves were larger. When7937fully grown and in flower the plants were measured, as follows:--79387939TABLE 6/76. Petunia violacea (first generation).79407941Heights of plants measured in inches.79427943Column 1: Number (Name) of Pot.79447945Column 2: Crossed Plants.79467947Column 3: Self-fertilised Plants.79487949Pot 1 : 30 : 20 4/8.79507951Pot 2 : 34 4/8 : 27 4/8.79527953Pot 3 : 34 : 28 4/8.7954Pot 3 : 30 4/8 : 27 4/8.7955Pot 3 : 25 : 26.79567957Total : 154 : 130.79587959The five tallest crossed plants here average 30.8, and the five tallest7960self-fertilised 26 inches in height, or as 100 to 84.79617962Three capsules were obtained by crossing flowers on the above crossed7963plants, and three other capsules by again self-fertilising flowers on7964the self-fertilised plants. One of the latter capsules appeared as fine7965as any one of the crossed capsules; but the other two contained many7966imperfect seeds. From these two lots of seeds the plants of the7967following generation were raised.79687969CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.79707971As in the last generation, many of the self-fertilised seeds germinated7972before the crossed.79737974Seeds in an equal state of germination were planted on the opposite7975sides of three pots. The crossed seedlings soon greatly exceeded in7976height the self-fertilised. In Pot 1, when the tallest crossed plant was797710 1/2 inches high, the tallest self-fertilised was only 3 1/2 inches;7978in Pot 2 the excess in height of the crossed was not quite so great. The7979plants were treated as in the last generation, and when fully grown7980measured as before. In Pot 3 both the crossed plants were killed at an7981early age by some animal, so that the self-fertilised had no7982competitors. Nevertheless these two self-fertilised plants were7983measured, and are included in Table 6/77. The crossed plants flowered7984long before their self-fertilised opponents in Pots 1 and 2, and before7985those growing separately in Pot 3.79867987TABLE 6/77. Petunia violacea (Second generation).79887989Heights of plants measured in inches.79907991Column 1: Number (Name) of Pot.79927993Column 2: Crossed Plants.79947995Column 3: Self-fertilised Plants.79967997Pot 1 : 57 2/8 : 13 4/8.7998Pot 1 : 36 2/8 : 8.79998000Pot 2 : 44 4/8 : 33 2/8.8001Pot 2 : 24 : 28.80028003Pot 3 : 0 : 46 2/8.8004Pot 3 : 0 : 28 4/8.80058006Total : 162.0 : 157.5.80078008The four crossed plants average 40.5, and the six self-fertilised 26.258009inches in height; or as 100 to 65. But this great inequality is in part8010accidental, owing to some of the self-fertilised plants being very8011short, and to one of the crossed being very tall.80128013Twelve flowers on these crossed plants were again crossed, and eleven8014capsules were produced; of these, five were poor and six good; the8015latter contained by weight 3.75 grains of seeds. Twelve flowers on the8016self-fertilised plants were again fertilised with their own pollen and8017produced no less than twelve capsules, and the six finest of these8018contained by weight 2.57 grains of seeds. It should however be observed8019that these latter capsules were produced by the plants in Pot 3, which8020were not exposed to any competition. The seeds in the six fine crossed8021capsules to those in the six finest self-fertilised capsules were in8022weight as 100 to 68. From these seeds the plants of the next generation8023were raised.80248025CROSSED AND SELF-FERTILISED PLANTS OF THE THIRD GENERATION.80268027TABLE 6/78. Petunia violacea (third generation; plants very young).80288029Heights of plants measured in inches.80308031Column 1: Number (Name) of Pot.80328033Column 2: Crossed Plants.80348035Column 3: Self-fertilised Plants.80368037Pot 1 : 1 4/8 : 5 6/8.8038Pot 1 : 1 : 4 4/8.80398040Pot 2 : 5 7/8 : 8 3/8.8041Pot 2 : 5 6/8 : 6 7/8.80428043Pot 3 : 4 : 5 5/8.80448045Pot 4 : 1 4/8 : 5 3/8.80468047Total : 19.63 : 36.50.80488049The above seeds were placed on sand, and after germinating were planted8050in pairs on the opposite sides of four pots; and all the remaining seeds8051were thickly sown on the two sides of a fifth large pot. The result was8052surprising, for the self-fertilised seedlings very early in life beat8053the crossed, and at one time were nearly double their height. At first8054the case appeared like that of Mimulus, in which after the third8055generation a tall and highly self-fertile variety appeared. But as in8056the two succeeding generations the crossed plants resumed their former8057superiority over the self-fertilised, the case must be looked at as an8058anomaly. The sole conjecture which I can form is that the crossed seeds8059had not been sufficiently ripened, and thus produced weakly plants, as8060occurred with Iberis. When the crossed plants were between 3 and 48061inches in height, the six finest in four of the pots were measured to8062the summits of their stems, and at the same time the six finest of the8063self-fertilised plants. The measurements are given in Table 6/78, and it8064may be here seen that all the self-fertilised plants exceed their8065opponents in height, whereas when subsequently measured the excess of8066the self-fertilised depended chiefly on the unusual tallness of two of8067the plants in Pot 2. The crossed plants here average 3.27, and the8068self-fertilised 6.08 inches in height; or as 100 to 186.80698070When fully grown they were again measured, as follows:--80718072TABLE 6/79. Petunia violacea (third generation; plants fully grown).80738074Heights of plants measured in inches.80758076Column 1: Number (Name) of Pot.80778078Column 2: Crossed Plants.80798080Column 3: Self-fertilised Plants.80818082Pot 1 : 41 4/8 : 40 6/8.8083Pot 1 : 48 : 39.8084Pot 1 : 36 : 48.80858086Pot 2 : 36 : 47.8087Pot 2 : 21 : 80 2/8.8088Pot 2 : 36 2/8 : 86 2/8.80898090Pot 3 : 52 : 46.80918092Pot 4 : 57 : 43 6/8.80938094Total : 327.75 : 431.00.80958096The eight crossed plants now averaged 40.96, and the eight8097self-fertilised plants 53.87 inches in height, or as 100 to 131; and8098this excess chiefly depended, as already stated, on the unusual tallness8099of two of the self-fertilised plants in Pot 2. The self-fertilised had8100therefore lost some of their former great superiority over the crossed8101plants. In three of the pots the self-fertilised plants flowered first;8102but in Pot 3 at the same time with the crossed.81038104The case is rendered the more strange, because the crossed plants in the8105fifth pot (not included in the two last tables), in which all the8106remaining seeds had been thickly sown, were from the first finer plants8107than the self-fertilised, and had larger leaves. At the period when the8108two tallest crossed plants in this pot were 6 4/8 and 4 5/8 inches high,8109the two tallest self-fertilised were only 4 inches. When the two crossed8110plants were 12 and 10 inches high, the two self-fertilised were only 88111inches. These latter plants, as well as many others on the same side of8112this pot never grew any higher, whereas several of the crossed plants8113grew to the height of two feet! On account of this great superiority of8114the crossed plants, the plants on neither side of this pot have been8115included in the two last tables.81168117Thirty flowers on the crossed plants in Pots 1 and 4 (Table 6/79) were8118again crossed, and produced seventeen capsules. Thirty flowers on the8119self-fertilised plants in the same two pots were again self-fertilised,8120but produced only seven capsules. The contents of each capsule of both8121lots were placed in separate watch-glasses, and the seeds from the8122crossed appeared to the eye to be at least double the number of those8123from the self-fertilised capsules.81248125In order to ascertain whether the fertility of the self-fertilised8126plants had been lessened by the plants having been self-fertilised for8127the three previous generations, thirty flowers on the crossed plants8128were fertilised with their own pollen. These yielded only five capsules,8129and their seeds being placed in separate watch-glasses did not seem more8130numerous than those from the capsules on the self-fertilised plants8131self-fertilised for the fourth time. So that as far as can be judged8132from so few capsules, the self-fertility of the self-fertilised plants8133had not decreased in comparison with that of the plants which had been8134intercrossed during the three previous generations. It should, however,8135be remembered that both lots of plants had been subjected in each8136generation to almost exactly similar conditions.81378138Seeds from the crossed plants again crossed, and from the8139self-fertilised again self-fertilised, produced by the plants in Pot 18140(Table 6/79), in which the three self-fertilised plants were on an8141average only a little taller than the crossed, were used in the8142following experiment. They were kept separate from two similar lots of8143seeds produced by the two plants in Pot 4 in the same table, in which8144the crossed plant was much taller than its self-fertilised opponent.81458146CROSSED AND SELF-FERTILISED PLANTS OF THE FOURTH GENERATION (RAISED FROM8147THE PLANTS IN POT 1, TABLE 6/79).81488149Crossed and self-fertilised seeds from plants of the last generation in8150Pot 1 in Table 6/79, were placed on sand, and after germinating, were8151planted in pairs on the opposite sides of four pots. The seedlings when8152in full flower were measured to the base of the calyx. The remaining8153seeds were sown crowded on the two sides of Pot 5; and the four tallest8154plants on each side of this pot were measured in the same manner.81558156TABLE 6/80. Petunia violacea (fourth generation; raised from plants of8157the third generation in Pot 1, table 6/79).81588159Heights of plants measured in inches.81608161Column 1: Number (Name) of Pot.81628163Column 2: Crossed Plants.81648165Column 3: Self-fertilised Plants.81668167Pot 1 : 29 2/8 : 30 2/8.8168Pot 1 : 36 2/8 : 34 6/8.8169Pot 1 : 49 : 31 3/8.81708171Pot 2 : 33 3/8 : 31 5/8.8172Pot 2 : 37 3/8 : 38 2/8.8173Pot 2 : 56 4/8 : 38 4/8.81748175Pot 3 : 46 : 45 1/8.8176Pot 3 : 67 2/8 : 45.8177Pot 3 : 54 3/8 : 23 2/8.81788179Pot 4 : 51 6/8 : 34.8180Pot 4 : 51 7/8 : 0.81818182Pot 5 : 49 4/8 : 22 3/8.8183Pot 5 : 46 3/8 : 24 2/8.8184Pot 5 : 40 : 24 6/8.8185Pot 5 : 53 : 30.8186Crowded plants.81878188Total : 701.88 : 453.50.81898190The fifteen crossed plants average 46.79, and the fourteen (one having8191died) self-fertilised plants 32.39 inches in height; or as 100 to 69. So8192that the crossed plants in this generation had recovered their wonted8193superiority over the self-fertilised plants; though the parents of the8194latter in Pot 1, Table 6/79, were a little taller than their crossed8195opponents.81968197CROSSED AND SELF-FERTILISED PLANTS OF THE FOURTH GENERATION (RAISED FROM8198THE PLANTS IN POT 4, TABLE 6/79).81998200Two similar lots of seeds, obtained from the plants in Pot 4 in Table82016/79, in which the single crossed plant was at first shorter, but8202ultimately much taller than its self-fertilised opponent, were treated8203in every way like their brethren of the same generation in the last8204experiment. We have in Table 6/81 the measurements of the present8205plants. Although the crossed plants greatly exceeded in height the8206self-fertilised; yet in three out of the five pots a self-fertilised8207plant flowered before any one of the crossed; in a fourth pot8208simultaneously; and in a fifth (namely Pot 2) a crossed plant flowered8209first.82108211TABLE 6/81. Petunia violacea (fourth generation; raised from plants of8212the third generation in Pot 4, Table 6/79).82138214Heights of plants measured in inches.82158216Column 1: Number (Name) of Pot.82178218Column 2: Crossed Plants.82198220Column 3: Self-fertilised Plants.82218222Pot 1 : 46 : 30 2/8.8223Pot 1 : 46 : 28.82248225Pot 2 : 50 6/8 : 25.8226Pot 2 : 40 2/8 : 31 3/8.8227Pot 2 : 37 3/8 : 22 4/8.82288229Pot 3 : 54 2/8 : 22 5/8.8230Pot 3 : 61 1/8 : 26 6/8.8231Pot 3 : 45 : 32.82328233Pot 4 : 30 : 24 4/8.8234Pot 4 : 29 1/8 : 26.82358236Pot 5 : 37 4/8 : 40 2/8.8237Pot 5 : 63 : 18 5/8.8238Pot 5 : 41 2/8 : 17 4/8.8239Crowded plants.82408241Total : 581.63 : 349.36.82428243The thirteen crossed plants here average 44.74, and the thirteen8244self-fertilised plants 26.87 inches in height; or as 100 to 60. The8245crossed parents of these were much taller, relatively to the8246self-fertilised parents, than in the last case; and apparently they8247transmitted some of this superiority to their crossed offspring. It is8248unfortunate that I did not turn these plants out of doors, so as to8249observe their relative fertility, for I compared the pollen from some of8250the crossed and self-fertilised plants in Pot 1, Table 6/81, and there8251was a marked difference in its state; that of the crossed plants8252contained hardly any bad and empty grains, whilst such abounded in the8253pollen of the self-fertilised plants.82548255THE EFFECTS OF A CROSS WITH A FRESH STOCK.82568257I procured from a garden in Westerham, whence my plants originally came,8258a fresh plant differing in no respect from mine except in the colour of8259the flowers, which was a fine purple. But this plant must have been8260exposed during at least four generations to very different conditions8261from those to which my plants had been subjected, as these had been8262grown in pots in the greenhouse. Eight flowers on the self-fertilised8263plants in Table 6/81, of the last or fourth self-fertilised generation,8264were fertilised with pollen from this fresh stock; all eight produced8265capsules containing together by weight 5.01 grains of seeds. The plants8266raised from these seeds may be called the Westerham-crossed.82678268Eight flowers on the crossed plants of the last or fourth generation in8269Table 6/81 were again crossed with pollen from one of the other crossed8270plants, and produced five capsules, containing by weight 2.07 grains of8271seeds. The plants raised from these seeds may be called the8272INTERCROSSED; and these form the fifth intercrossed generation.82738274Eight flowers on the self-fertilised plants of the same generation in8275Table 6/81 were again self-fertilised, and produced seven capsules,8276containing by weight 2.1 grains of seeds. The SELF-FERTILISED plants8277raised from these seeds form the fifth self-fertilised generation. These8278latter plants and the intercrossed are comparable in all respects with8279the crossed and self-fertilised plants of the four previous generations.82808281From the foregoing data it is easy to calculate that:82828283Ten Westerham-crossed capsules would have contained 6.26 grains weight8284of seed.82858286Ten intercrossed capsules would have contained 4.14 grains weight of8287seed.82888289Ten self-fertilised capsules would have contained 3.00 grains weight of8290seed.82918292We thus get the following ratios:--82938294Seeds from the Westerham-crossed capsules to those from the capsules of8295the fifth self-fertilised generation, in weight as 100 to 48.82968297Seeds from the Westerham-crossed capsules to those from the capsules of8298the fifth intercrossed generation, in weight as 100 to 66.82998300Seeds from the intercrossed capsules to those from the self-fertilised8301capsules, in weight as 100 to 72.83028303So that a cross with pollen from a fresh stock greatly increased the8304productiveness of the flowers on plants which had been self-fertilised8305for the four previous generations, in comparison not only with the8306flowers on the same plants self-fertilised for the fifth time, but with8307the flowers on the crossed plants crossed with pollen from another plant8308of the same old stock for the fifth time.83098310These three lots of seeds were placed on sand, and were planted in an8311equal state of germination in seven pots, each made tripartite by three8312superficial partitions. Some of the remaining seeds, whether or not in a8313state of germination, were thickly sown in an eighth pot. The pots were8314kept in the greenhouse, and the plants trained up sticks. They were8315first measured to the tops of their stems when coming into flower; and8316the twenty-two Westerham-crossed plants then averaged 25.51 inches; the8317twenty-three intercrossed plants 30.38; and the twenty-three8318self-fertilised plants 23.40 inches in height. We thus get the following8319ratios:--83208321The Westerham-crossed plants in height to the self-fertilised as 100 to832291.83238324The Westerham-crossed plants in height to the intercrossed as 100 to8325119.83268327The intercrossed plants in height to the self-fertilised as 100 to 77.83288329These plants were again measured when their growth appeared on a casual8330inspection to be complete. But in this I was mistaken, for after cutting8331them down, I found that the summits of the stems of the8332Westerham-crossed plants were still growing vigorously; whilst the8333intercrossed had almost, and the self-fertilised had quite completed8334their growth. Therefore I do not doubt, if the three lots had been left8335to grow for another month, that the ratios would have been somewhat8336different from those deduced from the measurements in Table 6/82.83378338TABLE 6/82. Petunia violacea.83398340Heights of plants measured in inches.83418342Column 1: Number (Name) of Pot.83438344Column 2: Westerham-Crossed Plants (from self-fertilised Plants of8345fourth generation crossed by a fresh stock).83468347Column 3: Intercrossed Plants (Plants of one and the same stock8348intercrossed for five generations).83498350Column 4: Self-fertilised Plants (self-fertilised for five generations).83518352Pot 1 : 64 5/8 : 57 2/8 : 43 6/8.8353Pot 1 : 24 : 64 : 56 3/8.8354Pot 1 : 51 4/8 : 58 6/8 : 31 5/8.83558356Pot 2 : 48 7/8 : 59 7/8 : 41 5/8.8357Pot 2 : 54 4/8 : 58 2/8 : 41 2/8.8358Pot 2 : 58 1/8 : 53 : 18 2/8.83598360Pot 3 : 62 : 52 2/8 : 46 6/8.8361Pot 3 : 53 2/8 : 54 6/8 : 45.8362Pot 3 : 62 7/8 : 61 6/8 : 19 4/8.83638364Pot 4 : 44 4/8 : 58 7/8 : 37 5/8.8365Pot 4 : 49 2/8 : 65 2/8 : 33 2/8.8366Pot 4 : .. : 59 6/8 : 32 2/8.83678368Pot 5 : 43 1/8 : 35 6/8 : 41 6/8.8369Pot 5 : 53 7/8 : 34 6/8 : 26 4/8.8370Pot 5 : 53 2/8 : 54 6/8 : 0.83718372Pot 6 : 37 4/8 : 56 : 46 4/8.8373Pot 6 : 61 : 63 5/8 : 29 6/8.8374Pot 6 : 0 : 57 7/8 : 14 4/8.83758376Pot 7 : 59 6/8 : 51 : 43.8377Pot 7 : 43 4/8 : 49 6/8 : 12 2/8.8378Pot 7 : 50 5/8 : 0 : 0.83798380Pot 8 : 37 7/8 : 38 5/8 : 21 6/8.8381Pot 8 : 37 2/8 : 44 5/8 : 14 5/8.83828383Total : 1051.25 : 1190.50 : 697.88.83848385The twenty-one Westerham-crossed plants now averaged 50.05 inches; the8386twenty-two intercrossed plants, 54.11 inches; and the twenty-one8387self-fertilised plants, 33.23 inches in height. We thus get the8388following ratios:--83898390The Westerham-crossed plants in height to the self-fertilised as 100 to839166.83928393The Westerham-crossed plants in height to the intercrossed as 100 to8394108.83958396The intercrossed plants in height to the self-fertilised as 100 to 61.83978398We here see that the Westerham-crossed (the offspring of plants8399self-fertilised for four generations and then crossed with a fresh8400stock) have gained greatly in height, since they were first measured,8401relatively to the plants self-fertilised for five generations. They were8402then as 100 to 91, and now as 100 to 66 in height. The intercrossed8403plants (i.e., those which had been intercrossed for the last five8404generations) likewise exceed in height the self-fertilised plants, as8405occurred in all the previous generations with the exception of the8406abnormal plants of the third generation. On the other hand, the8407Westerham-crossed plants are exceeded in height by the intercrossed; and8408this is a surprising fact, judging from most of the other strictly8409analogous cases. But as the Westerham-crossed plants were still growing8410vigorously, while the intercrossed had almost ceased to grow, there can8411hardly be a doubt that if left to grow for another month they would have8412beaten the intercrossed in height. That they were gaining on them is8413clear, as when measured before they were as 100 to 119, and now as only8414100 to 108 in height. The Westerham-crossed plants had also leaves of a8415darker green, and looked altogether more vigorous than the intercrossed;8416and what is much more important, they produced, as we shall presently8417see, much heavier seed-capsules. So that in fact the offspring from the8418self-fertilised plants of the fourth generation crossed by a fresh stock8419were superior to the intercrossed, as well as to the self-fertilised8420plants of the fifth generation--of which latter fact there could not be8421the least doubt.84228423These three lots of plants were cut down close to the ground and8424weighed. The twenty-one Westerham-crossed plants weighed 32 ounces; the8425twenty-two intercrossed plants, 34 ounces, and the twenty-one8426self-fertilised plants 7 1/4 ounces. The following ratios are calculated8427for an equal number of plants of each kind. But as the self-fertilised8428plants were just beginning to wither, their relative weight is here8429slightly too small; and as the Westerham-crossed were still growing8430vigorously, their relative weight with time allowed would no doubt have8431greatly increased.84328433The Westerham-crossed plants in weight to the self-fertilised as 100 to843422.84358436The Westerham-crossed plants in weight to the intercrossed as 100 to8437101.84388439The intercrossed plants in weight to the self-fertilised as 100 to 22.3.84408441We here see, judging by weight instead of as before by height, that the8442Westerham-crossed and the intercrossed have an immense advantage over8443the self-fertilised. The Westerham-crossed are inferior to the8444intercrossed by a mere trifle; but it is almost certain that if they had8445been allowed to go on growing for another month, the former would have8446completely beaten the latter.84478448As I had an abundance of seeds of the same three lots, from which the8449foregoing plants had been raised, these were sown in three long parallel8450and adjoining rows in the open ground, so as to ascertain whether under8451these circumstances the results would be nearly the same as before. Late8452in the autumn (November 13) the ten tallest plants were carefully8453selected out of each row, and their heights measured, with the following8454result:--84558456TABLE 6/83. Petunia violacea (plants growing in the open ground).84578458Heights of plants measured in inches.84598460Column 1: Westerham-Crossed Plants (from self-fertilised Plants of the8461fourth generation crossed by a fresh stock).84628463Column 2: intercrossed Plants (Plants of one and the same stock8464intercrossed for five generations).84658466Column 3: self-fertilised Plants (self-fertilised for five generations).8467846834 2/8 : 38 : 27 3/8.846936 2/8 : 36 2/8 : 23.847035 2/8 : 39 5/8 : 25.847132 4/8 : 37 : 24 1/8.847237 : 36 : 22 4/8.847336 4/8 : 41 3/8 : 23 3/8.847440 7/8 : 37 2/8 : 21 5/8.847537 2/8 : 40 : 23 4/8.847638 2/8 : 41 2/8 : 21 3/8.847738 5/8 : 36 : 21 2/8.84788479366.76 : 382.76 : 233.13.84808481The ten Westerham-crossed plants here average 36.67 inches in height;8482the ten intercrossed plants, 38.27 inches; and the ten self-fertilised,848323.31 inches. These three lots of plants were also weighed; the8484Westerham-crossed plants weighed 28 ounces; the intercrossed plants, 418485ounces; and the self-fertilised, 14.75 ounces. We thus get the following8486ratios:--84878488The Westerham-crossed plants in height to the self-fertilised as 100 to848963.84908491The Westerham-crossed plants in weight to the self-fertilised as 100 to849253.84938494The Westerham-crossed plants in height to the intercrossed as 100 to8495104.84968497The Westerham-crossed plants in weight to the intercrossed as 100 to8498146.84998500The intercrossed plants in height to the self-fertilised as 100 to 61.85018502The intercrossed plants in weight to the self-fertilised as 100 to 36.85038504Here the relative heights of the three lots are nearly the same (within8505three or four per cent) as with the plants in the pots. In weight there8506is a much greater difference: the Westerham-crossed exceed the8507self-fertilised by much less than they did before; but the8508self-fertilised plants in the pots had become slightly withered, as8509before stated, and were in consequence unfairly light. The8510Westerham-crossed plants are here inferior in weight to the intercrossed8511plants in a much higher degree than in the pots; and this appeared due8512to their being much less branched, owing to their having germinated in8513greater numbers and consequently being much crowded. Their leaves were8514of a brighter green than those of the intercrossed and self-fertilised8515plants.85168517RELATIVE FERTILITY OF THE THREE LOTS OF PLANTS.85188519None of the plants in pots in the greenhouse ever produced a capsule;8520and this may be attributed in chief part to the exclusion of moths.8521Therefore the fertility of the three lots could be judged of only by8522that of the plants growing out of doors, which from being left uncovered8523were probably cross-fertilised. The plants in the three rows were8524exactly of the same age and had been subjected to closely similar8525conditions, so that any difference in their fertility must be attributed8526to their different origin; namely, to the one lot being derived from8527plants self-fertilised for four generations and then crossed with a8528fresh stock; to the second lot being derived from plants of the same old8529stock intercrossed for five generations; and to the third lot being8530derived from plants self-fertilised for five generations. All the8531capsules, some nearly mature and some only half-grown, were gathered,8532counted, and weighed from the ten finest plants in each of the three8533rows, of which the measurements and weights have already been given. The8534intercrossed plants, as we have seen, were taller and considerably8535heavier than the plants of the other two lots, and they produced a8536greater number of capsules than did even the Westerham-crossed plants;8537and this may be attributed to the latter having grown more crowded and8538being in consequence less branched. Therefore the average weight of an8539equal number of capsules from each lot of plants seems to be the fairest8540standard of comparison, as their weights will have been determined8541chiefly by the number of the included seeds. As the intercrossed plants8542were taller and heavier than the plants of the other two lots, it might8543have been expected that they would have produced the finest or heaviest8544capsules; but this was very far from being the case.85458546The ten tallest Westerham-crossed plants produced 111 ripe and unripe8547capsules, weighing 121.2 grains. Therefore 100 of such capsules would8548have weighed 109.18 grains.85498550The ten tallest intercrossed plants produced 129 capsules, weighing855176.45 grains. Therefore 100 of these capsules would have weighed 59.268552grains.85538554The ten tallest self-fertilised plants produced only 44 capsules,8555weighing 22.35 grains. Therefore 100 of these capsules would have8556weighed 50.79 grains.85578558From these data we get the following ratios for the fertility of the8559three lots, as deduced from the relative weights of an equal number of8560capsules from the finest plants in each lot:--85618562Westerham-crossed plants to self-fertilised plants as 100 to 46.85638564Westerham-crossed plants to intercrossed plants as 100 to 54.85658566Intercrossed plants to self-fertilised plants as 100 to 86.85678568We here see how potent the influence of a cross with pollen from a fresh8569stock has been on the fertility of plants self-fertilised for four8570generations, in comparison with plants of the old stock when either8571intercrossed or self-fertilised for five generations; the flowers on all8572these plants having been left to be freely crossed by insects or to8573fertilise themselves. The Westerham-crossed plants were also much taller8574and heavier plants than the self-fertilised, both in the pots and open8575ground; but they were less tall and heavy than the intercrossed plants.8576This latter result, however, would almost certainly have been reversed,8577if the plants had been allowed to grow for another month, as the8578Westerham-crossed were still growing vigorously, whilst the intercrossed8579had almost ceased to grow. This case reminds us of the somewhat8580analogous one of Eschscholtzia, in which plants raised from a cross with8581a fresh stock did not grow higher than the self-fertilised or8582intercrossed plants, but produced a greater number of seed-capsules,8583which contained a far larger average number of seeds.85848585COLOUR OF THE FLOWERS ON THE ABOVE THREE LOTS OF PLANTS.85868587The original mother-plant, from which the five successive8588self-fertilised generations were raised, bore dingy purple flowers. At8589no time was any selection practised, and the plants were subjected in8590each generation to extremely uniform conditions. The result was, as in8591some previous cases, that the flowers on all the self-fertilised plants,8592both in the pots and open ground, were absolutely uniform in tint; this8593being a dull, rather peculiar flesh colour. This uniformity was very8594striking in the long row of plants growing in the open ground, and these8595first attracted my attention. I did not notice in which generation the8596original colour began to change and to become uniform, but I have every8597reason to believe that the change was gradual. The flowers on the8598intercrossed plants were mostly of the same tint, but not nearly so8599uniform as those on the self-fertilised plants, and many of them were8600pale, approaching almost to white. The flowers on the plants from the8601cross with the purple-flowered Westerham stock were, as might have been8602expected, much more purple and not nearly so uniform in tint. The8603self-fertilised plants were also remarkably uniform in height, as judged8604by the eye; the intercrossed less so, whilst the Westerham-crossed8605plants varied much in height.86068607Nicotiana tabacum.86088609This plant offers a curious case. Out of six trials with crossed and8610self-fertilised plants, belonging to three successive generations, in8611one alone did the crossed show any marked superiority in height over the8612self-fertilised; in four of the trials they were approximately equal;8613and in one (i.e., in the first generation) the self-fertilised plants8614were greatly superior to the crossed. In no case did the capsules from8615flowers fertilised with pollen from a distinct plant yield many more,8616and sometimes they yielded much fewer seeds than the capsules from8617self-fertilised flowers. But when the flowers of one variety were8618crossed with pollen from a slightly different variety, which had grown8619under somewhat different conditions,--that is, by a fresh stock,--the8620seedlings derived from this cross exceeded in height and weight those8621from the self-fertilised flowers in an extraordinary degree.86228623Twelve flowers on some plants of the common tobacco, raised from8624purchased seeds, were crossed with pollen from a distinct plant of the8625same lot, and these produced ten capsules. Twelve flowers on the same8626plants were fertilised with their own pollen, and produced eleven8627capsules. The seeds in the ten crossed capsules weighed 31.7 grains,8628whilst those in ten of the self-fertilised capsules weighed 47.678629grains; or as 100 to 150. The much greater productiveness of the8630self-fertilised than of the crossed capsules can hardly be attributed to8631chance, as all the capsules of both lots were very fine and healthy8632ones.86338634The seeds were placed on sand, and several pairs in an equal state of8635germination were planted on the opposite sides of three pots. The8636remaining seeds were thickly sown on the two sides of Pot 4, so that the8637plants in this pot were much crowded. The tallest plant on each side of8638each pot was measured. Whilst the plants were quite young the four8639tallest crossed plants averaged 7.87 inches, and the four tallest8640self-fertilised 14.87 inches in height; or as 100 to 189. The heights at8641this age are given in the two left columns of Table 6/84.86428643When in full flower the tallest plants on each side were again measured,8644see the two right hand columns in Table 6/84. But I should state that8645the pots were not large enough, and the plants never grew to their8646proper height. The four tallest crossed plants now averaged 18.5, and8647the four tallest self-fertilised plants 32.75 inches in height; or as8648100 to 178. In all four pots a self-fertilised plant flowered before any8649one of the crossed.86508651In Pot 4, in which the plants were extremely crowded, the two lots were8652at first equal; and ultimately the tallest crossed plant exceeded by a8653trifle the tallest self-fertilised plant. This recalled to my mind an8654analogous case in the one generation of Petunia, in which the8655self-fertilised plants were throughout their growth taller than the8656crossed in all the pots except in the crowded one. Accordingly another8657trial was made, and some of the same crossed and self-fertilised seeds8658of tobacco were sown thickly on opposite sides of two additional pots;8659the plants being left to grow up much crowded. When they were between 138660and 14 inches in height there was no difference between the two sides,8661nor was there any marked difference when the plants had grown as tall as8662they could; for in one pot the tallest crossed plant was 26 1/2 inches8663in height, and exceeded by 2 inches the tallest self-fertilised plant,8664whilst in the other pot, the tallest crossed plant was shorter by 3 1/28665inches than the tallest self-fertilised plant, which was 22 inches in8666height.86678668TABLE 6/84. Nicotiana tabacum (first generation).86698670Heights of plants measured in inches.86718672Column 1: Number (Name) of Pot.86738674Column 2: Crossed Plants, May 20, 1868.86758676Column 3: self-fertilised Plants, May 20, 1868.86778678Column 4: Crossed Plants, December 6, 1868.86798680Column 5: self-fertilised Plants, December 6, 1868.86818682Pot 1 : 15 4/8 : 26 : 40 : 44.86838684Pot 2 : 3 : 15 : 6 4/8 : 43.86858686Pot 3 : 8 : 13 4/8 : 16 : 33.86878688Pot 4 : 5 : 5 : 11 4/8 : 11.86898690Total : 31.5 : 59.5 : 74.0 : 131.0.86918692As the plants did not grow to their proper height in the above small8693pots in Table 6/84, four crossed and four self-fertilised plants were8694raised from the same seed, and were planted in pairs on the opposite8695sides of four very large pots containing rich soil; so that they were8696not exposed to at all severe mutual competition. When these plants were8697in flower I neglected to measure them, but record in my notes that all8698four self-fertilised plants exceeded in height the four crossed plants8699by 2 or 3 inches. We have seen that the flowers on the original or8700parent-plants which were crossed with pollen from a distinct plant8701yielded much fewer seeds than those fertilised with their own pollen;8702and the trial just given, as well as that in Table 6/84, show us clearly8703that the plants raised from the crossed seeds were inferior in height to8704those from the self-fertilised seeds; but only when not greatly crowded.8705When crowded and thus subjected to very severe competition, the crossed8706and self-fertilised plants were nearly equal in height.87078708CROSSED AND SELF-FERTILISED PLANTS OF THE SECOND GENERATION.87098710Twelve flowers on the crossed plants of the last generation growing in8711the four large pots just mentioned, were crossed with pollen from a8712crossed plant growing in one of the other pots; and twelve flowers on8713the self-fertilised plants were fertilised with their own pollen. All8714these flowers of both lots produced fine capsules. Ten of the crossed8715capsules contained by weight 38.92 grains of seeds, and ten of the8716self-fertilised capsules 37.74 grains; or as 100 to 97. Some of these8717seeds in an equal state of germination were planted in pairs on the8718opposite sides of five large pots. A good many of the crossed seeds8719germinated before the self-fertilised, and were of course rejected. The8720plants thus raised were measured when several of them were in full8721flower.87228723TABLE 6/85. Nicotiana tabacum (second generation).87248725Heights of plants measured in inches.87268727Column 1: Number (Name) of Pot.87288729Column 2: Crossed Plants.87308731Column 3: Self-fertilised Plants.87328733Pot 1 : 14 4/8 : 27 6/8.8734Pot 1 : 78 4/8 : 8 6/8.8735Pot 1 : 9 : 56.87368737Pot 2 : 60 4/8 : 16 6/8.8738Pot 2 : 44 6/8 : 7.8739Pot 2 : 10 : 50 4/8.87408741Pot 3 : 57 1/8 : 87 (A).8742Pot 3 : 1 2/8 : 81 2/8 (B).87438744Pot 4 : 6 6/8 : 19.8745Pot 4 : 31 : 43 2/8.8746Pot 4 : 69 4/8 : 4.87478748Pot 5 : 99 4/8 : 9 4/8.8749Pot 5 : 29 2/8 : 3.87508751Total : 511.63 : 413.75.87528753The thirteen crossed plants here average 39.35, and the thirteen8754self-fertilised plants 31.82 inches in height; or as 100 to 81. But it8755would be a very much fairer plan to exclude all the starved plants of8756only 10 inches and under in height; and in this case the nine remaining8757crossed plants average 53.84, and the seven remaining self-fertilised8758plants 51.78 inches in height, or as 100 to 96; and this difference is8759so small that the crossed and self-fertilised plants may be considered8760as of equal heights.87618762In addition to these plants, three crossed plants were planted8763separately in three large pots, and three self-fertilised plants in8764three other large pots, so that they were not exposed to any8765competition; and now the self-fertilised plants exceeded the crossed in8766height by a little, for the three crossed averaged 55.91, and the three8767self-fertilised 59.16 inches; or as 100 to 106.87688769CROSSED AND SELF-FERTILISED PLANTS OF THE THIRD GENERATION.87708771TABLE 6/86. Nicotiana tabacum (third generation). Seedlings from the8772self-fertilised plant A in pot 3, Table 6/85, of the last or second8773generation.87748775Heights of plants measured in inches.87768777Column 1: Number (Name) of Pot.87788779Column 2: From Self-fertilised Plant, crossed by a Crossed Plant.87808781Column 3: From Self-fertilised Plant again self-fertilised, forming the8782third Self-fertilised generation.87838784Pot 1 : 100 2/8 : 98.8785Pot 1 : 91 : 79.87868787Pot 2 : 110 2/8 : 59 1/8.8788Pot 2 : 100 4/8 : 66 6/8.87898790Pot 3 : 104 : 79 6/8.87918792Pot 4 : 84 2/8 : 110 4/8.8793Pot 4 : 76 4/8 : 64 1/8.87948795Total : 666.75 : 557.25.87968797As I wished to ascertain, firstly, whether those self-fertilised plants8798of the last generation, which greatly exceeded in height their crossed8799opponents, would transmit the same tendency to their offspring, and8800secondly, whether they possessed the same sexual constitution, I8801selected for experiment the two self-fertilised plants marked A and B in8802Pot 3 in Table 6/85, as these two were of nearly equal height, and were8803greatly superior to their crossed opponents. Four flowers on each plant8804were fertilised with their own pollen, and four others on the same8805plants were crossed with pollen from one of the crossed plants growing8806in another pot. This plan differs from that before followed, in which8807seedlings from crossed plants again crossed, have been compared with8808seedlings from self-fertilised plants again self-fertilised. The seeds8809from the crossed and self-fertilised capsules of the above two plants8810were placed in separate watch-glasses and compared, but were not8811weighed; and in both cases those from the crossed capsules seemed to be8812rather less numerous than those from the self-fertilised capsules. These8813seeds were planted in the usual manner, and the heights of the crossed8814and self-fertilised seedlings, when fully grown, are given in Tables88156/86 and 6/87.88168817The seven crossed plants in the first of these two tables average 95.25,8818and the seven self-fertilised 79.6 inches in height; or as 100 to 83. In8819half the pots a crossed plant, and in the other half a self-fertilised8820plant flowered first.88218822We now come to the seedlings raised from the other parent-plant B.88238824TABLE 6/87. Nicotiana tabacum (third generation). Seedlings from the8825self-fertilised plant B in pot 3, Table 6/85, of the last or second8826generation.88278828Heights of plants measured in inches.88298830Column 1: Number (Name) of Pot.88318832Column 2: From Self-fertilised Plant, crossed by a Crossed Plant.88338834Column 3: From Self-fertilised Plant again self-fertilised, forming the8835third Self-fertilised generation.88368837Pot 1 : 87 2/8 : 72 4/8.8838Pot 1 : 49 : 14 2/8.88398840Pot 2 : 98 4/8 : 73.8841Pot 2 : 0 : 110 4/8.88428843Pot 3 : 99 : 106 4/8.8844Pot 3 : 15 2/8 : 73 6/8.88458846Pot 4 : 97 6/8 : 48 6/8.88478848Pot 5 : 48 6/8 : 81 2/8.8849Pot 5 : 0 : 61 2/8.88508851Total : 495.50 : 641.75.88528853The seven crossed plants (for two of them died) here average 70.788854inches, and the nine self-fertilised plants 71.3 inches in height; or as8855100 to barely 101. In four out of these five pots, a self-fertilised8856plant flowered before any one of the crossed plants. So that,8857differently from the last case, the self-fertilised plants are in some8858respects slightly superior to the crossed.88598860If we now consider the crossed and self-fertilised plants of the three8861generations, we find an extraordinary diversity in their relative8862heights. In the first generation, the crossed plants were inferior to8863the self-fertilised as 100 to 178; and the flowers on the original8864parent-plants which were crossed with pollen from a distinct plant8865yielded much fewer seeds than the self-fertilised flowers, in the8866proportion of 100 to 150. But it is a strange fact that the8867self-fertilised plants, which were subjected to very severe competition8868with the crossed, had on two occasions no advantage over them. The8869inferiority of the crossed plants of this first generation cannot be8870attributed to the immaturity of the seeds, for I carefully examined8871them; nor to the seeds being diseased or in any way injured in some one8872capsule, for the contents of the ten crossed capsules were mingled8873together and a few taken by chance for sowing. In the second generation8874the crossed and self-fertilised plants were nearly equal in height. In8875the third generation, crossed and self-fertilised seeds were obtained8876from two plants of the previous generation, and the seedlings raised8877from them differed remarkably in constitution; the crossed in the one8878case exceeded the self-fertilised in height in the ratio of 100 to 83,8879and in the other case were almost equal. This difference between the two8880lots, raised at the same time from two plants growing in the same pot,8881and treated in every respect alike, as well as the extraordinary8882superiority of the self-fertilised over the crossed plants in the first8883generation, considered together, make me believe that some individuals8884of the present species differ to a certain extent from others in their8885sexual affinities (to use the term employed by Gartner), like closely8886allied species of the same genus. Consequently if two plants which thus8887differ are crossed, the seedlings suffer and are beaten by those from8888the self-fertilised flowers, in which the sexual elements are of the8889same nature. It is known that with our domestic animals certain8890individuals are sexually incompatible, and will not produce offspring,8891although fertile with other individuals. (6/3. I have given evidence on8892this head in my 'Variation of Animals and Plants under Domestication'8893chapter 18 2nd edition volume 2 page 146.) But Kolreuter has recorded a8894case which bears more closely on our present one, as it shows that in8895the genus Nicotiana the varieties differ in their sexual affinities.8896(6/4. 'Das Geschlecht der Pflanzen, Zweite Fortsetzung' 1764 pages889755-60.) He experimented on five varieties of the common tobacco, and8898proved that they were varieties by showing that they were perfectly8899fertile when reciprocally crossed; but one of these varieties, if used8900either as the father or the mother, was more fertile than any of the8901others when crossed with a widely distinct species, N. glutinosa. As the8902different varieties thus differ in their sexual affinities, there is8903nothing surprising in the individuals of the same variety differing in a8904like manner to a slight degree.89058906Taking the plants of the three generations altogether, the crossed show8907no superiority over the self-fertilised, and I can account for this fact8908only by supposing that with this species, which is perfectly8909self-fertile without insect aid, most of the individuals are in the same8910condition, as those of the same variety of the common pea and of a few8911other exotic plants, which have been self-fertilised for many8912generations. In such cases a cross between two individuals does no good;8913nor does it in any case, unless the individuals differ in general8914constitution, either from so-called spontaneous variation, or from their8915progenitors having been subjected to different conditions. I believe8916that this is the true explanation in the present instance, because, as8917we shall immediately see, the offspring of plants, which did not profit8918at all by being crossed with a plant of the same stock, profited to an8919extraordinary degree by a cross with a slightly different sub-variety.89208921THE EFFECTS OF A CROSS WITH A FRESH STOCK.89228923I procured some seed of N. tabacum from Kew and raised some plants,8924which formed a slightly different sub-variety from my former plants; as8925the flowers were a shade pinker, the leaves a little more pointed, and8926the plants not quite so tall. Therefore the advantage in height which8927the seedlings gained by this cross cannot be attributed to direct8928inheritance. Two of the plants of the third self-fertilised generation,8929growing in Pots 2 and 5 in Table 6/87, which exceeded in height their8930crossed opponents (as did their parents in a still higher degree) were8931fertilised with pollen from the Kew plants, that is, by a fresh stock.8932The seedlings thus raised may be called the Kew-crossed. Some other8933flowers on the same two plants were fertilised with their own pollen,8934and the seedlings thus raised from the fourth self-fertilised8935generation. The crossed capsules produced by the plant in Pot 2, Table89366/87, were plainly less fine than the self-fertilised capsules on the8937same plant. In Pot 5 the one finest capsule was also a self-fertilised8938one; but the seeds produced by the two crossed capsules together8939exceeded in number those produced by the two self-fertilised capsules on8940the same plant. Therefore as far as the flowers on the parent-plants are8941concerned, a cross with pollen from a fresh stock did little or no good;8942and I did not expect that the offspring would have received any benefit,8943but in this I was completely mistaken.89448945The crossed and self-fertilised seeds from the two plants were placed on8946bare sand, and very many of the crossed seeds of both sets germinated8947before the self-fertilised seeds, and protruded their radicles at a8948quicker rate. Hence many of the crossed seeds had to be rejected, before8949pairs in an equal state of germination were obtained for planting on the8950opposite sides of sixteen large pots. The two series of seedlings raised8951from the parent-plants in the two Pots 2 and 5 were kept separate, and8952when fully grown were measured to the tips of their highest leaves, as8953shown in Table 6/88. But as there was no uniform difference in height8954between the crossed and self-fertilised seedlings raised from the two8955plants, their heights have been added together in calculating the8956averages. I should state that by the accidental fall of a large bush in8957the greenhouse, several plants in both the series were much injured.8958These were at once measured together with their opponents and afterwards8959thrown away. The others were left to grow to their full height, and were8960measured when in flower. This accident accounts for the small height of8961some of the pairs; but as all the pairs, whether only partly or fully8962grown, were measured at the same time, the measurements are fair.89638964The average height of the twenty-six crossed plants in the sixteen pots8965of the two series is 63.29, and that of the twenty-six self-fertilised8966plants is 41.67 inches; or as 100 to 66. The superiority of the crossed8967plants was shown in another way, for in every one of the sixteen pots a8968crossed plant flowered before a self-fertilised one, with the exception8969of Pot 6 of the second series, in which the plants on the two sides8970flowered simultaneously.89718972TABLE 6/88. Nicotiana tabacum. Plants raised from two plants of the8973third self-fertilised generation in Pots 2 and 5, in Table 6/87.89748975Heights of plants measured in inches.89768977Column 1: Number (Name) of Pot.89788979Column 2: Kew-crossed Plants, pot 2, Table 6/87.89808981Column 3: Plants of the fourth Self-fertilised generation, pot 2, Table89826/87.89838984Column 4: Kew-crossed Plants, pot 5, Table 6/87.89858986Column 5: Plants of the fourth Self-fertilised generation, pot 5, Table89876/87.89888989Pot 1 : 84 6/8 : 68 4/8 : 77 6/8 : 56.8990Pot 1 : 31 : 5 : 7 2/8 : 5 3/8.89918992Pot 2 : 78 4/8 : 51 4/8 : 55 4/8 : 27 6/8.8993Pot 2 : 48 : 70 : 18 : 7.89948995Pot 3 : 77 3/8 : 12 6/8 : 76 2/8 : 60 6/8.8996Pot 3 : 77 1/8 : 6 6/8.89978998Pot 4 : 49 2/8 : 29 4/8 : 90 4/8 : 11 6/8.8999Pot 4 : 15 6/8 : 32 : 22 2/8 : 4 1/8.90009001Pot 5 : 89 : 85 : 94 2/8 : 28 4/8.9002Pot 5 : 17 : 5 3/8.90039004Pot 6 : 90 : 80 : 78 : 78 6/8.90059006Pot 7 : 84 4/8 : 48 6/8 : 85 4/8 : 61 4/8.9007Pot 7 : 76 4/8 : 56 4/8.90089009Pot 8 : 83 4/8 : 84 4/8 : 65 5/8 : 78 3/8.9010Pot 8 : : : 72 2/8 : 27 4/8.90119012Total : 902.63 : 636.13 : 743.13 : 447.38.90139014Some of the remaining seeds of both series, whether or not in a state of9015germination, were thickly sown on the opposite sides of two very large9016pots; and the six highest plants on each side of each pot were measured9017after they had grown to nearly their full height. But their heights were9018much less than in the former trials, owing to their extremely crowded9019condition. Even whilst quite young, the crossed seedlings manifestly had9020much broader and finer leaves than the self-fertilised seedlings.90219022TABLE 6/89. Nicotiana tabacum. Plants of the same parentage as those in9023Table 6/88, but grown extremely crowded in two large pots.90249025Heights of plants measured in inches.90269027Column 1: Kew-crossed Plants, from pot 2, Table 6/87.90289029Column 2: Plants of the fourth Self-fertilised generation, from pot 2,9030Table 6/87.90319032Column 3: Kew-crossed Plants, from pot 5, Table 6/87.90339034Column 4: Plants of the fourth Self-fertilised generation, from pot 5,9035Table 6/87.9036903742 4/8 : 22 4/8 : 44 6/8 : 22 4/8.903834 : 19 2/8 : 42 4/8 : 21.903930 4/8 : 14 2/8 : 27 4/8 : 18.904023 4/8 : 16 : 31 2/8 : 15 2/8.904126 6/8 : 13 4/8 : 32 : 13 5/8.904218 3/8 : 16 : 24 6/8 : 14 6/8.90439044175.63 : 101.50 : 202.75 : 105.13.90459046The twelve tallest crossed plants in the two pots belonging to the two9047series average here 31.53, and the twelve tallest self-fertilised plants904817.21 inches in height; or as 100 to 54. The plants on both sides, when9049fully grown, some time after they had been measured, were cut down close9050to the ground and weighed. The twelve crossed plants weighed 21.259051ounces; and the twelve self-fertilised plants only 7.83 ounces; or in9052weight as 100 to 37.90539054The rest of the crossed and self-fertilised seeds from the two9055parent-plants (the same as in the last experiment) was sown on the 1st9056of July in four long parallel and separate rows in good soil in the open9057ground; so that the seedlings were not subjected to any mutual9058competition. The summer was wet and unfavourable for their growth.9059Whilst the seedlings were very small the two crossed rows had a clear9060advantage over the two self-fertilised rows. When fully grown the twenty9061tallest crossed plants and the twenty tallest self-fertilised plants9062were selected and measured on the 11th of November to the extremities of9063their leaves, as shown in Table 6/90. Of the twenty crossed plants,9064twelve had flowered; whilst of the twenty self-fertilised plants one9065alone had flowered.90669067TABLE 6/90. Nicotiana tabacum. Plants raised from the same seeds as in9068the last two experiments, but sown separately in the open ground, so as9069not to compete together.90709071Heights of plants measured in inches.90729073Column 1: Kew-crossed Plants, from pot 2, Table 6/87.90749075Column 2: Plants of the fourth Self-fertilised generation, from pot 2,9076Table 6/87.90779078Column 3: Kew-crossed Plants, from pot 5, Table 6/87.90799080Column 4: Plants of the fourth Self-fertilised generation, from pot 5,9081Table 6/87.9082908342 2/8 : 22 6/8 : 54 4/8 : 34 4/8.908454 5/8 : 37 4/8 : 51 4/8 : 38 5/8.908539 3/8 : 34 4/8 : 45 : 40 6/8.908653 2/8 : 30 : 43 : 43 2/8.908749 3/8 : 28 6/8 : 43 : 40.908850 3/8 : 31 2/8 : 48 6/8 : 38 2/8.908947 1/8 : 25 4/8 : 44 : 35 6/8.909057 3/8 : 26 2/8 : 48 2/8 : 39 6/8.909137 : 22 3/8 : 55 1/8 : 47 6/8.909248 : 28 : 63 : 58 5/8.90939094478.75 : 286.86 : 496.13 : 417.2590959096The twenty tallest crossed plants here average 48.74, and the twenty9097tallest self-fertilised 35.2 inches in height; or as 100 to 72. These9098plants after being measured were cut down close to the ground, and the9099twenty crossed plants weighed 195.75 ounces, and the twenty9100self-fertilised plants 123.25 ounces; or as 100 to 63.91019102In Tables 6/88, 6/89 and 6/90, we have the measurements of fifty-six9103plants derived from two plants of the third self-fertilised generation9104crossed with pollen from a fresh stock, and of fifty-six plants of the9105fourth self-fertilised generation derived from the same two plants.9106These crossed and self-fertilised plants were treated in three different9107ways, having been put, firstly, into moderately close competition with9108one another in pots; secondly, having been subjected to unfavourable9109conditions and to very severe competition from being greatly crowded in9110two large pots; and thirdly, having been sown separately in open and9111good ground, so as not to suffer from any mutual competition. In all9112these cases the crossed plants in each lot were greatly superior to the9113self-fertilised. This was shown in several ways,--by the earlier9114germination of the crossed seeds, by the more rapid growth of the9115seedlings whilst quite young, by the earlier flowering of the mature9116plants, as well as by the greater height which they ultimately attained.9117The superiority of the crossed plants was shown still more plainly when9118the two lots were weighed; the weight of the crossed plants to that of9119the self-fertilised in the two crowded pots being as 100 to 37. Better9120evidence could hardly be desired of the immense advantage derived from a9121cross with a fresh stock.9122912326. PRIMULACEAE.--Cyclamen persicum. (6/5. Cyclamen repandum according9124to Lecoq 'Geographie Botanique de l'Europe' tome 8 1858 page 150, is9125proterandrous, and this I believe to be the case with Cyclamen9126persicum.)91279128Ten flowers crossed with pollen from plants known to be distinct9129seedlings, yielded nine capsules, containing on an average 34.2 seeds,9130with a maximum of seventy-seven in one. Ten flowers self-fertilised9131yielded eight capsules, containing on an average only 13.1 seeds, with a9132maximum of twenty-five in one. This gives a ratio of 100 to 38 for the9133average number of seeds per capsule for the crossed and self-fertilised9134flowers. The flowers hang downwards, and as the stigmas stand close9135beneath the anthers, it might have been expected that pollen would have9136fallen on them, and that they would have been spontaneously9137self-fertilised; but these covered-up plants did not produce a single9138capsule. On some other occasions uncovered plants in the same greenhouse9139produced plenty of capsules, and I suppose that the flowers had been9140visited by bees, which could hardly fail to carry pollen from plant to9141plant.91429143The seeds obtained in the manner just described were placed on sand, and9144after germinating were planted in pairs,--three crossed and three9145self-fertilised plants on the opposite sides of four pots. When the9146leaves were 2 or 3 inches in length, including the foot-stalks, the9147seedlings on both sides were equal. In the course of a month or two the9148crossed plants began to show a slight superiority over the9149self-fertilised, which steadily increased; and the crossed flowered in9150all four pots some weeks before, and much more profusely than the9151self-fertilised. The two tallest flower-stems on the crossed plants in9152each pot were now measured, and the average height of the eight stems9153was 9.49 inches. After a considerable interval of time the9154self-fertilised plants flowered, and several of their flower-stems (but9155I forgot to record how many) were roughly measured, and their average9156height was a little under 7.5 inches; so that the flower-stems on the9157crossed plants to those on the self-fertilised were at least as 100 to915879. The reason why I did not make more careful measurements of the9159self-fertilised plants was, that they looked such poor specimens that I9160determined to there them re-potted in larger pots and in the following9161year to measure them carefully; but we shall see that this was partly9162frustrated by so few flower-stems being then produced.91639164These plants were left uncovered in the greenhouse; and the twelve9165crossed plants produced forty capsules, whilst the twelve9166self-fertilised plants produced only five; or as 100 to 12. But this9167difference does not give a just idea of the relative fertility of the9168two lots. I counted the seeds in one of the finest capsules on the9169crossed plants, and it contained seventy-three; whilst the finest of the9170five capsules produced by the self-fertilised plants contained only9171thirty-five good seeds. In the other four capsules most of the seeds9172were barely half as large as those in the crossed capsules.91739174TABLE 6/91. Cyclamen persicum: 0 implies that no flower-stem was9175produced.91769177Heights of plants measured in inches.91789179Column 1: Number (Name) of Pot.91809181Column 2: Crossed Plants.91829183Column 3: Self-fertilised Plants.91849185Pot 1 : 10 : 0.9186Pot 1 : 9 2/8 : 0.9187Pot 1 : 10 2/8 : 0.91889189Pot 2 : 9 2/8 : 0.9190Pot 2 : 10 : 0.9191Pot 2 : 10 2/8 : 0.91929193Pot 3 : 9 1/8 : 8.9194Pot 3 : 9 5/8 : 6 7/8.9195Pot 3 : 9 5/8 : 6 6/8.91969197Pot 4 : 11 1/8 : 0.9198Pot 4 : 10 5/8 : 7 7/8.9199Pot 4 : 10 6/8 : 0.92009201Total : 119.88 : 29.50.92029203In the following year the crossed plants again bore many flowers before9204the self-fertilised bore a single one. The three tallest flower-stems on9205the crossed plants in each of the pots were measured, as shown in Table92066/91. In Pots 1 and 2 the self-fertilised plants did not produce a9207single flower-stem; in Pot 4 only one; and in Pot 3 six, of which the9208three tallest were measured.92099210The average height of the twelve flower-stems on the crossed plants is92119.99, and that of the four flower-stems on the self-fertilised plants92127.37 inches; or as 100 to 74. The self-fertilised plants were miserable9213specimens, whilst the crossed ones looked very vigorous.92149215ANAGALLIS.92169217Anagallis collina, var. grandiflora (pale red and blue-flowered9218sub-varieties).92199220Firstly, twenty-five flowers on some plants of the red variety were9221crossed with pollen from a distinct plant of the same variety, and9222produced ten capsules; thirty-one flowers were fertilised with their own9223pollen, and produced eighteen capsules. These plants, which were grown9224in pots in the greenhouse, were evidently in a very sterile condition,9225and the seeds in both sets of capsules, especially in the9226self-fertilised, although numerous, were of so poor a quality that it9227was very difficult to determine which were good and which bad. But as9228far as I could judge, the crossed capsules contained on an average 6.39229good seeds, with a maximum in one of thirteen; whilst the9230self-fertilised contained 6.05 such seeds, with a maximum in one of9231fourteen.92329233Secondly, eleven flowers on the red variety were castrated whilst young9234and fertilised with pollen from the blue variety, and this cross9235evidently much increased their fertility; for the eleven flowers yielded9236seven capsules, which contained on an average twice as many good seeds9237as before, namely, 12.7; with a maximum in two of the capsules of9238seventeen seeds. Therefore these crossed capsules yielded seeds compared9239with those in the foregoing self-fertilised capsules, as 100 to 48.9240These seeds were also conspicuously larger than those from the cross9241between two individuals of the same red variety, and germinated much9242more freely. The flowers on most of the plants produced by the cross9243between the two-coloured varieties (of which several were raised), took9244after their mother, and were red-coloured. But on two of the plants the9245flowers were plainly stained with blue, and to such a degree in one case9246as to be almost intermediate in tint.92479248The crossed seeds of the two foregoing kinds and the self-fertilised9249were sown on the opposite sides of two large pots, and the seedlings9250were measured when fully grown, as shown in Tables 6/92a and 6/92b.92519252TABLE 6/92a. Anagallis collina: Red variety crossed by a distinct plant9253of the red variety, and red variety self-fertilised.92549255Heights of plants measured in inches.92569257Column 1: Number (Name) of Pot.92589259Column 2: Crossed Plants.92609261Column 3: Self-fertilised Plants.92629263Pot 1 : 23 4/8 : 15 4/8.9264Pot 1 : 21 : 15 4/8.9265Pot 1 : 17 2/8 : 14.92669267Total : 61.75 : 45.00.92689269TABLE 6/92b. Anagallis collina: Red variety crossed by blue variety, and9270red variety self-fertilised.92719272Heights of plants measured in inches.92739274Column 1: Number (Name) of Pot.92759276Column 2: Crossed Plants.92779278Column 3: Self-fertilised Plants.92799280Pot 2 : 30 4/8 : 24 4/8.9281Pot 2 : 27 3/8 : 18 4/8.9282Pot 2 : 25 : 11 6/8.92839284Total : 82.88 : 54.75.92859286Total of both lots:9287: 144.63 : 99.75.92889289As the plants of the two lots are few in number, they may be run9290together for the general average; but I may first state that the height9291of the seedlings from the cross between two individuals of the red9292variety is to that of the self-fertilised plants of the red variety as9293100 to 73; whereas the height of the crossed offspring from the two9294varieties to the self-fertilised plants of the red variety is as 100 to929566. So that the cross between the two varieties is here seen to be the9296most advantageous. The average height of all six crossed plants in the9297two lots taken together is 48.20, and that of the six self-fertilised9298plants 33.25; or as 100 to 69.92999300These six crossed plants produced spontaneously twenty-six capsules,9301whilst the six self-fertilised plants produced only two, or as 100 to 8.9302There is therefore the same extraordinary difference in fertility9303between the crossed and self-fertilised plants as in the last genus,9304Cyclamen, which belongs to the same family of the Primulaceae.93059306Primula veris. British flora. (var. officinalis, Linn.).93079308THE COWSLIP.93099310Most of the species in this genus are heterostyled or dimorphic; that9311is, they present two forms,--one long-styled with short stamens, and the9312other short-styled with long stamens. (6/6. See my paper 'On the Two9313Forms or Dimorphic Condition in the Species of Primula' in 'Journal of9314the Proceedings of the Linnean Society' volume 6 1862 page 77. A second9315paper, to which I presently refer 'On the Hybrid-like Nature of the9316Offspring from the Illegitimate Unions of Dimorphic and Trimorphic9317Plants' was published in volume 10 1867 page 393 of the same journal.)9318For complete fertilisation it is necessary that pollen from the one form9319should be applied to the stigma of the other form; and this is effected9320under nature by insects. Such unions, and the seedlings raised from9321them, I have called legitimate. If one form is fertilised with pollen9322from the same form, the full complement of seed is not produced; and in9323the case of some heterostyled genera no seed at all is produced. Such9324unions, and the seedlings raised from them, I have called illegitimate.9325These seedlings are often dwarfed and more or less sterile, like9326hybrids. I possessed some long-styled plants of Primula veris, which9327during four successive generations had been produced from illegitimate9328unions between long-styled plants; they were, moreover, in some degree9329inter-related, and had been subjected all the time to similar conditions9330in pots in the greenhouse. As long as they were cultivated in this9331manner, they grew well and were healthy and fertile. Their fertility9332even increased in the later generations, as if they were becoming9333habituated to illegitimate fertilisation. Plants of the first9334illegitimate generation when taken from the greenhouse and planted in9335moderately good soil out of doors grew well and were healthy; but when9336those of the two last illegitimate generations were thus treated they9337became excessively sterile and dwarfed, and remained so during the9338following year, by which time they ought to have become accustomed to9339growing out of doors, so that they must have possessed a weak9340constitution.93419342Under these circumstances, it seemed advisable to ascertain what would9343be the effect of legitimately crossing long-styled plants of the fourth9344illegitimate generation with pollen taken from non-related short-styled9345plants, growing under different conditions. Accordingly several flowers9346on plants of the fourth illegitimate generation (i.e.,9347great-great-grandchildren of plants which had been legitimately9348fertilised), growing vigorously in pots in the greenhouse, were9349legitimately fertilised with pollen from an almost wild short-styled9350cowslip, and these flowers yielded some fine capsules. Thirty other9351flowers on the same illegitimate plants were fertilised with their own9352pollen, and these yielded seventeen capsules, containing on an average9353thirty-two seeds. This is a high degree of fertility; higher, I believe,9354than that which generally obtains with illegitimately fertilised9355long-styled plants growing out of doors, and higher than that of the9356previous illegitimate generations, although their flowers were9357fertilised with pollen taken from a distinct plant of the same form.93589359These two lots of seeds were sown (for they will not germinate well when9360placed on bare sand) on the opposite sides of four pots, and the9361seedlings were thinned, so that an equal number were left on the two9362sides. For some time there was no marked difference in height between9363the two lots; and in Pot 3, Table 6/93, the self-fertilised plants were9364rather the tallest. But by the time that they had thrown up young9365flower-stems, the legitimately crossed plants revealed much the finest,9366and had greener and larger leaves. The breadth of the largest leaf on9367each plant was measured, and those on the crossed plants were on an9368average a quarter of an inch (exactly .28 of an inch) broader than those9369on the self-fertilised plants. The plants, from being too much crowded,9370produced poor and short flower-stems. The two finest on each side were9371measured; the eight on the legitimately crossed plants averaged 4.08,9372and the eight on the illegitimately self-fertilised plants averaged 2.939373inches in height; or as 100 to 72.93749375These plants after they had flowered were turned out of their pots, and9376planted in fairly good soil in the open ground. In the following year9377(1870), when in full flower, the two tallest flower-stems on each side9378were again measured, as shown in Table 6/93, which likewise gives the9379number of flower-stems produced on both sides of all the pots.93809381TABLE 6/93. Primula veris.93829383Heights of plants measured in inches.93849385Column 1: Number (Name) of Pot.93869387Column 2: Height: Legitimately crossed Plants.93889389Column 3: Number of Flower-stems produced: Legitimately crossed Plants.93909391Column 4: Height: Illegitimately crossed Plants.93929393Column 5: Number of Flower-stems produced: Illegitimately crossed9394Plants.93959396Pot 1 : 9 : 16 : 2 1/8 : 3.9397Pot 1 : 8 : : 3 4/8.93989399Pot 2 : 7 : 16 : 6 : 3.9400Pot 2 : 6 4/8 : : 5 4/8.94019402Pot 3 : 6 : 16 : 3 : 4.9403Pot 3 : 6 2/8 : : 0 4/8.94049405Pot 4 : 7 3/8 : 14 : 2 5/8 : 5.9406Pot 4 : 6 1/8 : : 2 4/8.94079408Total : 56.26 : 62 : 25.75 : 15.94099410The average height of the eight tallest flower-stems on the crossed9411plants is here 7.03 inches, and that of the eight tallest flower-stems9412on the self-fertilised plants 3.21 inches; or as 100 to 46. We see,9413also, that the crossed plants bore sixty-two flower-stems; that is,9414above four times as many as those (namely fifteen) borne by the9415self-fertilised plants. The flowers were left exposed to the visits of9416insects, and as many plants of both forms grew close by, they must have9417been legitimately and naturally fertilised. Under these circumstances9418the crossed plants produced 324 capsules, whilst the self-fertilised9419produced only 16; and these were all produced by a single plant in Pot94202, which was much finer than any other self-fertilised plant. Judging by9421the number of capsules produced, the fertility of an equal number of9422crossed and self-fertilised plants was as 100 to 5.94239424In the succeeding year (1871) I did not count all the flower-stems on9425these plants, but only those which produced capsules containing good9426seeds. The season was unfavourable, and the crossed plants produced only9427forty such flower-stems, bearing 168 good capsules, whilst the9428self-fertilised plants produced only two such flower-stems, bearing only94296 capsules, half of which were very poor ones. So that the fertility of9430the two lots, judging by the number of capsules, was as 100 to 3.5.94319432In considering the great difference in height and the wonderful9433difference in fertility between the two sets of plants, we should bear9434in mind that this is the result of two distinct agencies. The9435self-fertilised plants were the product of illegitimate fertilisation9436during five successive generations, in all of which, excepting the last,9437the plants had been fertilised with pollen taken from a distinct9438individual belonging to the same form, but which was more or less9439closely related. The plants had also been subjected in each generation9440to closely similar conditions. This treatment alone, as I know from9441other observations, would have greatly reduced the size and fertility of9442the offspring. On the other hand, the crossed plants were the offspring9443of long-styled plants of the fourth illegitimate generation legitimately9444crossed with pollen from a short-styled plant, which, as well as its9445progenitors, had been exposed to very different conditions; and this9446latter circumstance alone would have given great vigour to the9447offspring, as we may infer from the several analogous cases already9448given. How much proportional weight ought to be attributed to these two9449agencies,--the one tending to injure the self-fertilised offspring, and9450the other to benefit the crossed offspring,--cannot be determined. But9451we shall immediately see that the greater part of the benefit, as far as9452increased fertility is concerned, must be attributed to the cross having9453been made with a fresh stock.94549455Primula veris.94569457EQUAL-STYLED AND RED-FLOWERED VAR.94589459I have described in my paper 'On the Illegitimate Unions of Dimorphic9460and Trimorphic Plants' this remarkable variety, which was sent to me9461from Edinburgh by Mr. J. Scott. It possessed a pistil proper to the9462long-styled form, and stamens proper to the short-styled form; so that9463it had lost the heterostyled or dimorphic character common to most of9464the species of the genus, and may be compared with an hermaphrodite form9465of a bisexual animal. Consequently the pollen and stigma of the same9466flower are adapted for complete mutual fertilisation, instead of its9467being necessary that pollen should be brought from one form to another,9468as in the common cowslip. From the stigma and anthers standing nearly on9469the same level, the flowers are perfectly self-fertile when insects are9470excluded. Owing to the fortunate existence of this variety, it is9471possible to fertilise its flowers in a legitimate manner with their own9472pollen, and to cross other flowers in a legitimate manner with pollen9473from another variety or fresh stock. Thus the offspring from both unions9474can be compared quite fairly, free from any doubt from the injurious9475effects of an illegitimate union.94769477The plants on which I experimented had been raised during two successive9478generations from spontaneously self-fertilised seeds produced by plants9479under a net; and as the variety is highly self-fertile, its progenitors9480in Edinburgh may have been self-fertilised during some previous9481generations. Several flowers on two of my plants were legitimately9482crossed with pollen from a short-styled common cowslip growing almost9483wild in my orchard; so that the cross was between plants which had been9484subjected to considerably different conditions. Several other flowers on9485the same two plants were allowed to fertilise themselves under a net;9486and this union, as already explained, is a legitimate one.94879488The crossed and self-fertilised seeds thus obtained were sown thickly on9489the opposite sides of three pots, and the seedlings thinned, so that an9490equal number were left on the two sides. The seedlings during the first9491year were nearly equal in height, excepting in Pot 3, Table 6/94, in9492which the self-fertilised plants had a decided advantage. In the autumn9493the plants were bedded out, in their pots; owing to this circumstance,9494and to many plants growing in each pot, they did not flourish, and none9495were very productive in seeds. But the conditions were perfectly equal9496and fair for both sides. In the following spring I record in my notes9497that in two of the pots the crossed plants are "incomparably the finest9498in general appearance," and in all three pots they flowered before the9499self-fertilised. When in full flower the tallest flower-stem on each9500side of each pot was measured, and the number of the flower-stems on9501both sides counted, as shown in Table 6/94. The plants were left9502uncovered, and as other plants were growing close by, the flowers no9503doubt were crossed by insects. When the capsules were ripe they were9504gathered and counted, and the result is likewise shown in Table 6/94.95059506TABLE 6/94. Primula veris (equal-styled, red-flowered variety).95079508Heights of plants measured in inches.95099510Column 1: Number (Name) of Pot.95119512Column 2: Height of tallest flower-stem: crossed Plants.95139514Column 3: Number of Flower-stems: crossed Plants.95159516Column 4: Number of good capsules: crossed Plants.95179518Column 5: Height of tallest flower-stem: self-fertilised Plants.95199520Column 6: Number of Flower-stems: self-fertilised Plants.95219522Column 7: Number of good capsules: self-fertilised Plants.95239524Pot 1 : 10 : 14 : 163 : 6 4/8 : 6 : 6.95259526Pot 2 : 8 4/8 : 12 : * : 5 : 2 : 0.9527*Several, not counted.95289529Pot 3 : 7 4/8 : 7 : 43 : 10 4/8 : 5 : 26.95309531Totals : 26.0 : 33 : 206 : 22.0 : 13 : 32.95329533The average height of the three tallest flower-stems on the crossed9534plants is 8.66 inches, and that of the three on the self-fertilised9535plants 7.33 inches; or as 100 to 85.95369537All the crossed plants together produced thirty-three flower-stems,9538whilst the self-fertilised bore only thirteen. The number of the9539capsules were counted only on the plants in Pots 1 and 3, for the9540self-fertilised plants in Pot 2 produced none; therefore those on the9541crossed plants on the opposite side were not counted. Capsules not9542containing any good seeds were rejected. The crossed plants in the above9543two pots produced 206, and the self-fertilised in the same pots only 329544capsules; or as 100 to 15. Judging from the previous generations, the9545extreme unproductiveness of the self-fertilised plants in this9546experiment was wholly due to their having been subjected to unfavourable9547conditions, and to severe competition with the crossed plants; for had9548they grown separately in good soil, it is almost certain that they would9549have produced a large number of capsules. The seeds were counted in9550twenty capsules from the crossed plants, and they averaged 24.75; whilst9551in twenty capsules from the self-fertilised plants the average was955217.65; or as 100 to 71. Moreover, the seeds from the self-fertilised9553plants were not nearly so fine as those from the crossed plants. If we9554consider together the number of capsules produced and the average number9555of contained seeds, the fertility of the crossed plants to the9556self-fertilised plants was as 100 to 11. We thus see what a great9557effect, as far as fertility is concerned, was produced by a cross9558between the two varieties, which had been long exposed to different9559conditions, in comparison with self-fertilisation; the fertilisation9560having been in both cases of the legitimate order.95619562Primula sinensis.95639564As the Chinese primrose is a heterostyled or dimorphic plant, like the9565common cowslip, it might have been expected that the flowers of both9566forms when illegitimately fertilised with their own pollen or with that9567from flowers on another plant of the same form, would have yielded less9568seed than the legitimately crossed flowers; and that the seedlings9569raised from illegitimately self-fertilised seeds would have been9570somewhat dwarfed and less fertile, in comparison with the seedlings from9571legitimately crossed seeds. This holds good in relation to the fertility9572of the flowers; but to my surprise there was no difference in growth9573between the offspring from a legitimate union between two distinct9574plants, and from an illegitimate union whether between the flowers on9575the same plant, or between distinct plants of the same form. But I have9576shown, in the paper before referred to, that in England this plant is in9577an abnormal condition, such as, judging from analogous cases, would tend9578to render a cross between two individuals of no benefit to the9579offspring. Our plants have been commonly raised from self-fertilised9580seeds; and the seedlings have generally been subjected to nearly uniform9581conditions in pots in greenhouses. Moreover, many of the plants are now9582varying and changing their character, so as to become in a greater or9583less degree equal-styled, and in consequence highly self-fertile. From9584the analogy of Primula veris there can hardly be a doubt that if a plant9585of Primula sinensis could have been procured direct from China, and if9586it had been crossed with one of our English varieties, the offspring9587would have shown wonderful superiority in height and fertility (though9588probably not in the beauty of their flowers) over our ordinary plants.95899590My first experiment consisted in fertilising many flowers on long-styled9591and short-styled plants with their own pollen, and other flowers on the9592same plants with pollen taken from distinct plants belonging to the same9593form; so that all the unions were illegitimate. There was no uniform and9594marked difference in the number of seeds obtained from these two modes9595of self-fertilisation, both of which were illegitimate. The two lots of9596seeds from both forms were sown thickly on opposite sides of four pots,9597and numerous plants thus raised. But there was no difference in their9598growth, excepting in one pot, in which the offspring from the9599illegitimate union of two long-styled plants exceeded in a decided9600manner in height the offspring of flowers on the same plants fertilised9601with their own pollen. But in all four pots the plants raised from the9602union of distinct plants belonging to the same form, flowered before the9603offspring from the self-fertilised flowers.96049605Some long-styled and short-styled plants were now raised from purchased9606seeds, and flowers on both forms were legitimately crossed with pollen9607from a distinct plant; and other flowers on both forms were9608illegitimately fertilised with pollen from the flowers on the same9609plant. The seeds were sown on opposite sides of Pots 1 to 4 in Table96106/95; a single plant being left on each side. Several flowers on the9611illegitimate long-styled and short-styled plants described in the last9612paragraph, were also legitimately and illegitimately fertilised in the9613manner just described, and their seeds were sown in Pots 5 to 8 in the9614same table. As the two sets of seedlings did not differ in any essential9615manner, their measurements are given in a single table. I should add9616that the legitimate unions in both cases yielded, as might have been9617expected, many more seeds than the illegitimate unions. The seedlings9618whilst half-grown presented no difference in height on the two sides of9619the several pots. When fully grown they were measured to the tips of9620their longest leaves, and the result is given in Table 6/95.96219622TABLE 6/95. Primula sinensis.96239624Heights of plants measured in inches.96259626Column 1: Number (Name) of Pot.96279628Column 2: Plants from legitimately Crossed seeds.96299630Column 3: Plants from illegitimately Self-fertilised seeds.96319632Pot 1 : 8 2/8 : 8.9633From short-styled mother.96349635Pot 2 : 7 4/8 : 8 5/8.9636From short-styled mother.96379638Pot 3 : 9 5/8 : 9 3/8.9639From long-styled mother.96409641Pot 4 : 8 4/8 : 8 2/8.9642From long-styled mother.96439644Pot 5 : 9 3/8 : 9.9645From illegitimate short-styled mother.96469647Pot 6 : 9 7/8 : 9 4/8.9648From illegitimate short-styled mother.96499650Pot 7 : 8 4/8 : 9 4/8.9651From illegitimate long-styled mother.96529653Pot 8 : 10 4/8 : 10.9654From illegitimate long-styled mother.96559656Total : 72.13 : 72.25.96579658In six out of the eight pots the legitimately crossed plants exceeded in9659height by a trifle the illegitimately self-fertilised plants; but the9660latter exceeded the former in two of the pots in a more strongly marked9661manner. The average height of the eight legitimately crossed plants is96629.01, and that of the eight illegitimately self-fertilised 9.03 inches,9663or as 100 to 100.2. The plants on the opposite sides produced, as far as9664could be judged by the eye, an equal number of flowers. I did not count9665the capsules or the seeds produced by them; but undoubtedly, judging9666from many previous observations, the plants derived from the9667legitimately crossed seeds would have been considerably more fertile9668than those from the illegitimately self-fertilised seeds. The crossed9669plants, as in the previous case, flowered before the self-fertilised9670plants in all the pots except in Pot 2, in which the two sides flowered9671simultaneously; and this early flowering may, perhaps, be considered as9672an advantage.9673967427. POLYGONEAE.--Fagopyrum esculentum.96759676This plant was discovered by Hildebrand to be heterostyled, that is, to9677present, like the species of Primula, a long-styled and a short-styled9678form, which are adapted for reciprocal fertilisation. Therefore the9679following comparison of the growth of the crossed and self-fertilised9680seedlings is not fair, for we do not know whether the difference in9681their heights may not be wholly due to the illegitimate fertilisation of9682the self-fertilised flowers.96839684I obtained seeds by legitimately crossing flowers on long-styled and9685short-styled plants, and by fertilising other flowers on both forms with9686pollen from the same plant. Rather more seeds were obtained by the9687former than by the latter process; and the legitimately crossed seeds9688were heavier than an equal number of the illegitimately self-fertilised9689seeds, in the ratio of 100 to 82. Crossed and self-fertilised seeds from9690the short-styled parents, after germinating on sand, were planted in9691pairs on the opposite sides of a large pot; and two similar lots of9692seeds from long-styled parents were planted in a like manner on the9693opposite sides of two other pots. In all three pots the legitimately9694crossed seedlings, when a few inches in height, were taller than the9695self-fertilised; and in all three pots they flowered before them by one9696or two days. When fully grown they were all cut down close to the9697ground, and as I was pressed for time, they were placed in a long row,9698the cut end of one plant touching the tip of another, and the total9699length of the legitimately crossed plants was 47 feet 7 inches, and of9700the illegitimately self-fertilised plants 32 feet 8 inches. Therefore9701the average height of the fifteen crossed plants in all three pots was970238.06 inches, and that of the fifteen self-fertilised plants 26.139703inches; or as 100 to 69.9704970528. CHENOPODIACEAE.--Beta vulgaris.97069707A single plant, no others growing in the same garden, was left to9708fertilise itself, and the self-fertilised seeds were collected. Seeds9709were also collected from a plant growing in the midst of a large bed in9710another garden; and as the incoherent pollen is abundant, the seeds of9711this plant will almost certainly have been the product of a crossed9712between distinct plants by means of the wind. Some of the two lots of9713seeds were sown on the opposite sides of two very large pots; and the9714young seedlings were thinned, so that an equal but considerable number9715was left on the two sides. These plants were thus subjected to very9716severe competition, as well as to poor conditions. The remaining seeds9717were sown out of doors in good soil in two long and not closely9718adjoining rows, so that these seedlings were placed under favourable9719conditions, and were not subjected to any mutual competition. The9720self-fertilised seeds in the open ground came up very badly; and on9721removing the soil in two or three places, it was found that many had9722sprouted under ground and had then died. No such case had been observed9723before. Owing to the large number of seedlings which thus perished, the9724surviving self-fertilised plants grew thinly in the row, and thus had an9725advantage over the crossed plants, which grew very thickly in the other9726row. The young plants in the two rows were protected by a little straw9727during the winter, and those in the two large pots were placed in the9728greenhouse.97299730There was no difference between the two lots in the pots until the9731ensuing spring, when they had grown a little, and then some of the9732crossed plants were finer and taller than any of the self-fertilised.9733When in full flower their stems were measured, and the measurements are9734given in Table 6/96.97359736TABLE 6/96. Beta vulgaris.97379738Heights of flower stems measured in inches.97399740Column 1: Number (Name) of Pot.97419742Column 2: Crossed Plants.97439744Column 3: Self-fertilised Plants.97459746Pot 1 : 34 6/8 : 36.9747Pot 1 : 30 : 20 1/8.9748Pot 1 : 33 6/8 : 32 2/8.9749Pot 1 : 34 4/8 : 32.97509751Pot 2 : 42 3/8 : 42 1/8.9752Pot 2 : 33 1/8 : 26 4/8.9753Pot 2 : 31 2/8 : 29 2/8.9754Pot 2 : 33 : 20 2/8.97559756Total : 272.75 : 238.50.97579758The average height of the eight crossed plants is here 34.09, and that9759of the eight self-fertilised plants 29.81; or as 100 to 87.97609761With respect to the plants in the open ground, each long row was divided9762into half, so as to diminish the chance of any accidental advantage in9763one part of either row; and the four tallest plants in the two halves of9764the two rows were carefully selected and measured. The eight tallest9765crossed plants averaged 30.92, and the eight tallest self-fertilised976630.7 inches in height, or as 100 to 99; so that they were practically9767equal. But we should bear in mind that the trial was not quite fair, as9768the self-fertilised plants had a great advantage over the crossed in9769being much less crowded in their own row, owing to the large number of9770seeds which had perished under ground after sprouting. Nor were the lots9771in the two rows subjected to any mutual competition.9772977329. CANNACEAE.--Canna warscewiczi.97749775In most or all the species belonging to this genus, the pollen is shed9776before the flower expands, and adheres in a mass to the foliaceous9777pistil close beneath the stigmatic surface. As the edge of this mass9778generally touches the edge of the stigma, and as it was ascertained by9779trials purposely made that a very few pollen-grains suffice for9780fertilisation, the present species and probably all the others of the9781genus are highly self-fertile. Exceptions occasionally occur in which,9782from the stamen being slightly shorter than usual, the pollen is9783deposited a little beneath the stigmatic surface, and such flowers drop9784off unimpregnated unless they are artificially fertilised. Sometimes,9785though rarely, the stamen is a little longer than usual, and then the9786whole stigmatic surface gets thickly covered with pollen. As some pollen9787is generally deposited in contact with the edge of the stigma, certain9788authors have concluded that the flowers are invariably self-fertilised.9789This is an extraordinary conclusion, for it implies that a great amount9790of pollen is produced for no purpose. On this view, also, the large size9791of the stigmatic surface is an unintelligible feature in the structure9792of the flower, as well as the relative position of all the parts, which9793is such that when insects visit the flowers to suck the copious nectar,9794they cannot fail to carry pollen from one flower to another. (6/7.9795Delpino has described 'Bot. Zeitung' 1867 page 277 and 'Scientific9796Opinion' 1870 page 135, the structure of the flowers in this genus, but9797he was mistaken in thinking that self-fertilisation is impossible, at9798least in the case of the present species. Dr. Dickie and Professor9799Faivre state that the flowers are fertilised in the bud, and that9800self-fertilisation is inevitable. I presume that they were misled by the9801pollen being deposited at a very early period on the pistil: see9802'Journal of Linnean Society Botany' volume 10 page 55 and 'Variabilité9803des Espèces' 1868 page 158.)98049805According to Delpino, bees eagerly visit the flowers in North Italy, but9806I have never seen any insect visiting the flowers of the present species9807in my hothouse, although many plants grew there during several years.9808Nevertheless these plants produced plenty of seed, as they likewise did9809when covered by a net; they are therefore fully capable of9810self-fertilisation, and have probably been self-fertilised in this9811country for many generations. As they are cultivated in pots, and are9812not exposed to competition with surrounding plants, they have also been9813subjected for a considerable time to somewhat uniform conditions. This,9814therefore, is a case exactly parallel with that of the common pea, in9815which we have no right to expect much or any good from intercrossing9816plants thus descended and thus treated; and no good did follow,9817excepting that the cross-fertilised flowers yielded rather more seeds9818than the self-fertilised. This species was one of the earlier ones on9819which I experimented, and as I had not then raised any self-fertilised9820plants for several successive generations under uniform conditions, I9821did not know or even suspect that such treatment would interfere with9822the advantages to be gained from a cross. I was therefore much surprised9823at the crossed plants not growing more vigorously than the9824self-fertilised, and a large number of plants were raised,9825notwithstanding that the present species is an extremely troublesome one9826to experiment on. The seeds, even those which have been long soaked in9827water, will not germinate well on bare sand; and those that were sown in9828pots (which plan I was forced to follow) germinated at very unequal9829intervals of time; so that it was difficult to get pairs of the same9830exact age, and many seedlings had to be pulled up and thrown away. My9831experiments were continued during three successive generations; and in9832each generation the self-fertilised plants were again self-fertilised,9833their early progenitors in this country having probably been9834self-fertilised for many previous generations. In each generation, also,9835the crossed plants were fertilised with pollen from another crossed9836plant.98379838Of the flowers which were crossed in the three generations, taken9839together, a rather larger proportion yielded capsules than did those9840which were self-fertilised. The seeds were counted in forty-seven9841capsules from the crossed flowers, and they contained on an average 9.959842seeds; whereas forty-eight capsules from the self-fertilised flowers9843contained on an average 8.45 seeds; or as 100 to 85. The seeds from the9844crossed flowers were not heavier, on the contrary a little lighter, than9845those from the self-fertilised flowers, as was thrice ascertained. On9846one occasion I weighed 200 of the crossed and 106 of the self-fertilised9847seeds, and the relative weight of an equal number was as 100 for the9848crossed to 101.5 for the self-fertilised. With other plants, when the9849seeds from the self-fertilised flowers were heavier than those from the9850crossed flowers, this appeared to be due generally to fewer having been9851produced by the self-fertilised flowers, and to their having been in9852consequence better nourished. But in the present instance the seeds from9853the crossed capsules were separated into two lots,--namely, those from9854the capsules containing over fourteen seeds, and those from the capsules9855containing under fourteen seeds, and the seeds from the more productive9856capsules were the heavier of the two; so that the above explanation here9857fails.98589859As pollen is deposited at a very early age on the pistil, generally in9860contact with the stigma, some flowers whilst still in bud were castrated9861for my first experiment, and were afterwards fertilised with pollen from9862a distinct plant. Other flowers were fertilised with their own pollen.9863From the seeds thus obtained, I succeeded in rearing only three pairs of9864plants of equal age. The three crossed plants averaged 32.79 inches, and9865the three self-fertilised 32.08 inches in height; so that they were9866nearly equal, the crossed having a slight advantage. As the same result9867followed in all three generations, it would be superfluous to give the9868heights of all the plants, and I will give only the averages.98699870In order to raise crossed and self-fertilised plants of the second9871generation, some flowers on the above crossed plants were crossed within9872twenty-four hours after they had expanded with pollen from a distinct9873plant; and this interval would probably not be too great to allow of9874cross-fertilisation being effectual. Some flowers on the self-fertilised9875plants of the last generation were also self-fertilised. From these two9876lots of seeds, ten crossed and twelve self-fertilised plants of equal9877ages were raised; and these were measured when fully grown. The crossed9878averaged 36.98, and the self-fertilised averaged 37.42 inches in height;9879so that here again the two lots were nearly equal; but the9880self-fertilised had a slight advantage.98819882In order to raise plants of the third generation, a better plan was9883followed, and flowers on the crossed plants of the second generation9884were selected in which the stamens were too short to reach the stigmas,9885so that they could not possibly have been self-fertilised. These flowers9886were crossed with pollen from a distinct plant. Flowers on the9887self-fertilised plants of the second generation were again9888self-fertilised. From the two lots of seeds thus obtained, twenty-one9889crossed and nineteen self-fertilised plants of equal age, and forming9890the third generation, were raised in fourteen large pots. They were9891measured when fully grown, and by an odd chance the average height of9892the two lots was exactly the same, namely, 35.96 inches; so that neither9893side had the least advantage over the other. To test this result, all9894the plants on both sides in ten out of the above fourteen pots were cut9895down after they had flowered, and in the ensuing year the stems were9896again measured; and now the crossed plants exceeded by a little (namely,98971.7 inches) the self-fertilised. They were again cut down, and on their9898flowering for the third time, the self-fertilised plants had a slight9899advantage (namely, 1.54 inches) over the crossed. Hence the result9900arrived at with these plants during the previous trials was confirmed,9901namely, that neither lot had any decided advantage over the other. It9902may, however, be worth mentioning that the self-fertilised plants showed9903some tendency to flower before the crossed plants: this occurred with9904all three pairs of the first generation; and with the cut down plants of9905the third generation, a self-fertilised plant flowered first in nine out9906of the twelve pots, whilst in the remaining three pots a crossed plant9907flowered first.99089909If we consider all the plants of the three generations taken together,9910the thirty-four crossed plants average 35.98, and the thirty-four9911self-fertilised plants 36.39 inches in height; or as 100 to 101. We may9912therefore conclude that the two lots possessed equal powers of growth;9913and this I believe to be the result of long-continued9914self-fertilisation, together with exposure to similar conditions in each9915generation, so that all the individuals had acquired a closely similar9916constitution.9917991830. GRAMINACEAE.--Zea mays.99199920This plant is monoecious, and was selected for trial on this account, no9921other such plant having been experimented on. (6/8. Hildebrand remarks9922that this species seems at first sight adapted to be fertilised by9923pollen from the same plant, owing to the male flowers standing above the9924female flowers; but practically it must generally be fertilised by9925pollen from another plant, as the male flowers usually shed their pollen9926before the female flowers are mature: 'Monatsbericht der K. Akad.'9927Berlin October 1872 page 743.) It is also anemophilous, or is fertilised9928by the wind; and of such plants only the common beet had been tried.9929Some plants were raised in the greenhouse, and were crossed with pollen9930taken from a distinct plant; and a single plant, growing quite9931separately in a different part of the house, was allowed to fertilise9932itself spontaneously. The seeds thus obtained were placed on damp sand,9933and as they germinated in pairs of equal age were planted on the9934opposite sides of four very large pots; nevertheless they were9935considerably crowded. The pots were kept in the hothouse. The plants9936were first measured to the tips of their leaves when only between 1 and99372 feet in height, as shown in Table 6/97.99389939TABLE 6/97. Zea mays.99409941Heights of plants measured in inches.99429943Column 1: Number (Name) of Pot.99449945Column 2: Crossed Plants.99469947Column 3: Self-fertilised Plants.99489949Pot 1 : 23 4/8 : 17 3/8.9950Pot 1 : 12 : 20 3/8.9951Pot 1 : 21 : 20.99529953Pot 2 : 22 : 20.9954Pot 2 : 19 1/8 : 18 3/8.9955Pot 2 : 21 4/8 : 18 5/8.99569957Pot 3 : 22 1/8 : 18 5/8.9958Pot 3 : 20 3/8 : 15 2/8.9959Pot 3 : 18 2/8 : 16 4/8.9960Pot 3 : 21 5/8 : 18.9961Pot 3 : 23 2/8 : 16 2/8.99629963Pot 4 : 21 : 18.9964Pot 4 : 22 1/8 : 12 6/8.9965Pot 4 : 23 : 15 4/8.9966Pot 4 : 12 : 18.99679968Total : 302.88 : 263.63.99699970The fifteen crossed plants here average 20.19, and the fifteen9971self-fertilised plants 17.57 inches in height; or as 100 to 87. Mr.9972Galton made a graphical representation, in accordance with the method9973described in the introductory chapter, of the above measurements, and9974adds the words "very good" to the curves thus formed.99759976Shortly afterwards one of the crossed plants in Pot 1 died; another9977became much diseased and stunted; and the third never grew to its full9978height. They seemed to have been all injured, probably by some larva9979gnawing their roots. Therefore all the plants on both sides of this pot9980were rejected in the subsequent measurements. When the plants were fully9981grown they were again measured to the tips of the highest leaves, and9982the eleven crossed plants now averaged 68.1, and the eleven9983self-fertilised plants 62.34 inches in height; or as 100 to 91. In all9984four pots a crossed plant flowered before any one of the9985self-fertilised; but three of the plants did not flower at all. Those9986that flowered were also measured to the summits of the male flowers: the9987ten crossed plants averaged 66.51, and the nine self-fertilised plants998861.59 inches in height; or as 100 to 93.99899990A large number of the same crossed and self-fertilised seeds were sown9991in the middle of the summer in the open ground in two long rows. Very9992much fewer of the self-fertilised than of the crossed plants produced9993flowers; but those that did flower, flowered almost simultaneously. When9994fully grown the ten tallest plants in each row were selected and9995measured to the tips of their highest leaves, as well as to the summits9996of their male flowers. The crossed averaged to the tips of their leaves999754 inches in height, and the self-fertilised 44.65, or as 100 to 83; and9998to the summits of their male flowers, 53.96 and 43.45 inches; or as 1009999to 80.1000010001Phalaris canariensis.1000210003Hildebrand has shown in the paper referred to under the last species,10004that this hermaphrodite grass is better adapted for cross-fertilisation10005than for self-fertilisation. Several plants were raised in the10006greenhouse close together, and their flowers were mutually intercrossed.10007Pollen from a single plant growing quite separately was collected and10008placed on the stigmas of the same plant. The seeds thus produced were10009self-fertilised, for they were fertilised with pollen from the same10010plant, but it will have been a mere chance whether with pollen from the10011same flowers. Both lots of seeds, after germinating on sand, were10012planted in pairs on the opposite sides of four pots, which were kept in10013the greenhouse. When the plants were a little over a foot in height they10014were measured, and the crossed plants averaged 13.38, and the10015self-fertilised 12.29 inches in height; or as 100 to 92.1001610017When in full flower they were again measured to the extremities of their10018culms, as shown in Table 6/98.1001910020TABLE 6/98. Phalaris canariensis.1002110022Heights of plants measured in inches.1002310024Column 1: Number (Name) of Pot.1002510026Column 2: Crossed Plants.1002710028Column 3: Self-fertilised Plants.1002910030Pot 1 : 42 2/8 : 41 2/8.10031Pot 1 : 39 6/8 : 45 4/8.1003210033Pot 2 : 37 : 31 6/8.10034Pot 2 : 49 4/8 : 37 2/8.10035Pot 4 : 29 : 42 3/8.10036Pot 2 : 37 : 34 7/8.1003710038Pot 3 : 37 6/8 : 28.10039Pot 3 : 35 4/8 : 28.10040Pot 3 : 43 : 34.1004110042Pot 4 : 40 2/8 : 35 1/8.10043Pot 4 : 37 : 34 4/8.1004410045Total : 428.00 : 392.63.1004610047The eleven crossed plants now averaged 38.9, and the eleven10048self-fertilised plants 35.69 inches in height; or as 100 to 92, which is10049the same ratio as before. Differently to what occurred with the maize,10050the crossed plants did not flower before the self-fertilised; and though10051both lots flowered very poorly from having been kept in pots in the10052greenhouse, yet the self-fertilised plants produced twenty-eight10053flower-heads, whilst the crossed produced only twenty!1005410055Two long rows of the same seeds were sown out of doors, and care was10056taken that they were sown in nearly equal number; but a far greater10057number of the crossed than of the self-fertilised seeds yielded plants.10058The self-fertilised plants were in consequence not so much crowded as10059the crossed, and thus had an advantage over them. When in full flower,10060the twelve tallest plants were carefully selected from both rows and10061measured, as shown in Table 6/99.1006210063TABLE 6/99. Phalaris canariensis (growing in the open ground).1006410065Heights of plants measured in inches.1006610067Column 1: Crossed Plants, twelve tallest.1006810069Column 2: Self-fertilised Plants, twelve tallest.100701007134 1/8 : 35 2/8.1007235 7/8 : 31 1/8.1007336 : 33.1007435 5/8 : 32.1007535 5/8 : 31 5/8.1007636 1/8 : 36.1007736 6/8 : 33.1007838 6/8 : 32.1007936 2/8 : 35 1/8.1008035 5/8 : 33 5/8.1008134 1/8 : 34 2/8.1008234 5/8 : 35.1008310084Total : 429.5 : 402.0.1008510086The twelve crossed plants here average 35.78, and the twelve10087self-fertilised 33.5 inches in height; or as 100 to 93. In this case the10088crossed plants flowered rather before the self-fertilised, and thus10089differed from those growing in the pots.]10090100911009210093CHAPTER VII.1009410095SUMMARY OF THE HEIGHTS AND WEIGHTS OF THE CROSSED AND SELF-FERTILISED10096PLANTS.1009710098Number of species and plants measured.10099Tables given.10100Preliminary remarks on the offspring of plants crossed by a fresh stock.10101Thirteen cases specially considered.10102The effects of crossing a self-fertilised plant either by another10103self-fertilised plant or by an intercrossed plant of the old stock.10104Summary of the results.10105Preliminary remarks on the crossed and self-fertilised plants of the10106same stock.10107The twenty-six exceptional cases considered, in which the crossed plants10108did not exceed greatly in height the self-fertilised.10109Most of these cases shown not to be real exceptions to the rule that10110cross-fertilisation is beneficial.10111Summary of results.10112Relative weights of the crossed and self-fertilised plants.1011310114The details which have been given under the head of each species are so10115numerous and so intricate, that it is necessary to tabulate the results.10116In Table 7/A, the number of plants of each kind which were raised from a10117cross between two individuals of the same stock and from self-fertilised10118seeds, together with their mean or average heights, are given. In the10119right hand column, the mean height of the crossed to that of the10120self-fertilised plants, the former being taken as 100, is shown. To make10121this clear, it may be advisable to give an example. In the first10122generation of Ipomoea, six plants derived from a cross between two10123plants were measured, and their mean height is 86.00 inches; six plants10124derived from flowers on the same parent-plant fertilised with their own10125pollen were measured, and their mean height is 65.66 inches. From this10126it follows, as shown in the right hand column, that if the mean height10127of the crossed plants be taken as 100, that of the self-fertilised10128plants is 76. The same plan is followed with all the other species.1012910130The crossed and self-fertilised plants were generally grown in pots in10131competition with one another, and always under as closely similar10132conditions as could be attained. They were, however, sometimes grown in10133separate rows in the open ground. With several of the species, the10134crossed plants were again crossed, and the self-fertilised plants again10135self-fertilised, and thus successive generations were raised and10136measured, as may be seen in Table 7/A. Owing to this manner of10137proceeding, the crossed plants became in the later generations more or10138less closely inter-related.1013910140In Table 7/B the relative weights of the crossed and self-fertilised10141plants, after they had flowered and had been cut down, are given in the10142few cases in which they were ascertained. The results are, I think, more10143striking and of greater value as evidence of constitutional vigour than10144those deduced from the relative heights of the plants.1014510146The most important table is Table 7/C, as it includes the relative10147heights, weights, and fertility of plants raised from parents crossed by10148a fresh stock (that is, by non-related plants grown under different10149conditions), or by a distinct sub-variety, in comparison with10150self-fertilised plants, or in a few cases with plants of the same old10151stock intercrossed during several generations. The relative fertility of10152the plants in this and the other tables will be more fully considered in10153a future chapter.1015410155TABLE 7/A. Relative heights of plants from parents crossed with pollen10156from other plants of the same stock, and self-fertilised.1015710158Heights of plants measured in inches.1015910160Column 1: Name of Plant.1016110162Column 2: Number of Crossed Plants measured.1016310164Column 3: Average Height of Crossed Plants.1016510166Column 4: Number of Self-fertilised Plants measured.1016710168Column 5: Average Height of Self-fertilised Plants.1016910170Column 6: x, where the ratio of the Average Height of the Crossed to the10171Self-fertilised Plants is expressed as 100 to x.1017210173Ipomoea purpurea--first generation:101746 : 86.00 : 6 : 65.66 : 76.1017510176Ipomoea purpurea--second generation:101776 : 84.16 : 6 : 66.33 : 79.1017810179Ipomoea purpurea--third generation:101806 : 77.41 : 6 : 52.83 : 68.1018110182Ipomoea purpurea--fourth generation:101837 : 69.78 : 7 : 60.14 : 86.1018410185Ipomoea purpurea--fifth generation:101866 : 82.54 : 6 : 62.33 : 75.1018710188Ipomoea purpurea--sixth generation:101896 : 87.50 : 6 : 63.16 : 72.1019010191Ipomoea purpurea--seventh generation:101929 : 83.94 : 9 : 68.25 : 81.1019310194Ipomoea purpurea--eighth generation:101958 : 113.25 : 8 : 96.65 : 85.1019610197Ipomoea purpurea--ninth generation:1019814 : 81.39 : 14 : 64.07 : 79.1019910200Ipomoea purpurea--tenth generation:102015 : 93.70 : 5 : 50.40 : 54.1020210203Ipomoea purpurea--Number and average height of all the plants of the ten10204generations:1020573 : 85.84 : 73 : 66.02 : 77.1020610207Mimulus luteus--three first generations, before the new and taller10208self-fertilised variety appeared:1020910 : 8.19 : 10 : 5.29 : 65.1021010211Digitalis purpurea:1021216 : 51.33 : 8 : 35.87 : 70.1021310214Calceolaria--(common greenhouse variety):102151 : 19.50 : 1 : 15.00 : 77.1021610217Linaria vulgaris:102183 : 7.08 : 3 : 5.75 : 81.1021910220Verbascum thapsus:102216 : 65.34 : 6 : 56.50 : 86.1022210223Vandellia nummularifolia--crossed and self-fertilised plants, raised10224from perfect flowers:1022520 : 4.30 : 20 : 4.27 : 99.1022610227Vandellia nummularifolia--crossed and self-fertilised plants, raised10228from perfect flowers: second trial, plants crowded:1022924 : 3.60 : 24 : 3.38 : 94.1023010231Vandellia nummularifolia--crossed plants raised from perfect flowers,10232and self-fertilised plants from cleistogene flowers:1023320 : 4.30 : 20 : 4.06 : 94.1023410235Gesneria pendulina:102368 : 32.06 : 8 : 29.14 : 90.1023710238Salvia coccinea:102396 : 27.85 : 6 : 21.16 : 76.1024010241Origanum vulgare:102424 : 20.00 : 4 : 17.12 : 86.1024310244Thunbergia alata:102456 : 60.00 : 6 : 65.00 : 108.1024610247Brassica oleracea:102489 : 41.08 : 9 : 39.00 : 95.1024910250Iberis umbellata--the self-fertilised plants of the third generation:102517 : 19.12 : 7 : 16.39 : 86.1025210253Papaver vagum:1025415 : 21.91 : 15 : 19.54 : 89.1025510256Eschscholtzia californica--English stock, first generation:102574 : 29.68 : 4 : 25.56 : 86.1025810259Eschscholtzia californica--English stock, second generation:1026011 : 32.47 : 11 : 32.81 : 101.1026110262Eschscholtzia californica--Brazilian stock, first generation:1026314 : 44.64 : 14 : 45.12 : 101.1026410265Eschscholtzia californica--Brazilian stock, second generation:1026618 : 43.38 : 19 : 50.30 : 116.1026710268Eschscholtzia californica--average height and number of all the plants10269of Eschscholtzia:1027047 : 40.03 : 48 : 42.72 : 107.1027110272Reseda lutea--grown in pots:1027324 : 17.17 : 24 : 14.61 : 85.1027410275Reseda lutea--grown in open ground :102768 : 28.09 : 8 : 23.14 : 82.1027710278Reseda odorata--self-fertilised seeds from a highly self-fertile plant,10279grown in pots:1028019 : 27.48 : 19 : 22.55 : 82.1028110282Reseda odorata--self-fertilised seeds from a highly self-fertile plant,10283grown in open ground:102848 : 25.76 : 8 : 27.09 : 105.1028510286Reseda odorata--self-fertilised seeds from a semi-self-fertile plant,10287grown in pots:1028820 : 29.98 : 20 : 27.71 : 92.1028910290Reseda odorata--self-fertilised seeds from a semi-self-fertile plant,10291grown in open ground:102928 : 25.92 : 8 : 23.54 : 90.1029310294Viola tricolor:1029514 : 5.58 : 14 : 2.37 : 42.1029610297Adonis aestivalis:102984 : 14.25 : 4 : 14.31 : 100.1029910300Delphinium consolida:103016 : 14.95 : 6 : 12.50 : 84.1030210303Viscaria oculata:1030415 : 34.50 : 15 : 33.55 : 97.1030510306Dianthus caryophyllus--open ground, about :103076?: 28? : 6?: 24? : 86.1030810309Dianthus caryophyllus--second generation, in pots, crowded:103102 : 16.75 : 2 : 9.75 : 58.1031110312Dianthus caryophyllus--third generation, in pots:103138 : 28.39 : 8 : 28.21 : 99.1031410315Dianthus caryophyllus--offspring from plants of the third10316self-fertilised generation crossed by intercrossed plants of the third10317generation, compared with plants of fourth self-fertilised generation:1031815 : 28.00 : 10 : 26.55 : 95.1031910320Dianthus caryophyllus--number and average height of all the plants of10321Dianthus:1032231 : 27.37 : 26 : 25.18 : 92.1032310324Hibiscus africanus:103254 : 13.25 : 4 : 14.43 : 109.1032610327Pelargonium zonale:103287 : 22.35 : 7 : 16.62 : 74.1032910330Tropaeolum minus:103318 : 58.43 : 8 : 46.00 : 79.1033210333Limnanthes douglasii:1033416 : 17.46 : 16 : 13.85 : 79.1033510336Lupinus luteus--second generation:103378 : 30.78 : 8 : 25.21 : 82.1033810339Lupinus pilosus--plants of two generations:103402 : 35.50 : 3 : 30.50 : 86.1034110342Phaseolus multiflorus:103435 : 86.00 : 5 : 82.35 : 96.1034410345Pisum sativum:103464 : 34.62 : 4 : 39.68 : 115.1034710348Sarothamnus scoparius--small seedlings:103496 : 2.91 : 6 : 1.33 : 46.1035010351Sarothamnus scoparius--the three survivors on each side after three10352years' growth:10353: 18.91 : : 11.83 : 63.1035410355Ononis minutissima:103562 : 19.81 : 2 : 17.37 : 88.1035710358Clarkia elegans:103594 : 33.50 : 4 : 27.62 : 82.1036010361Bartonia aurea:103628 : 24.62 : 8 : 26.31 : 107.1036310364Passiflora gracilis:103652 : 49.00 : 2 : 51.00 : 104.1036610367Apium petroselinum:10368* : : * : : 100.10369*not measured.1037010371Scabiosa atro-purpurea:103724 : 17.12 : 4 : 15.37 : 90.1037310374Lactuca sativa--plants of two generations:103757 : 19.43 : 6 : 16.00 : 82.1037610377Specularia speculum:103784 : 19.28 : 4 : 18.93 : 98.1037910380Lobelia ramosa--first generation:103814 : 22.25 : 4 : 18.37 : 82.1038210383Lobelia ramosa--second generation:103843 : 23.33 : 3 : 19.00 : 81.1038510386Lobelia fulgens--first generation:103872 : 34.75 : 2 : 44.25 : 127.1038810389Lobelia fulgens--second generation:1039023 : 29.82 : 23 : 27.10 : 91.1039110392Nemophila insignis--half-grown:1039312 : 11.10 : 12 : 5.45 : 49.1039410395Nemophila insignis--the same fully-grown:10396: 33.28 : : 19.90 : 60.1039710398Borago officinalis:103994 : 20.68 : 4 : 21.18 : 102.1040010401Nolana prostrata:104025 : 12.75 : 5 : 13.40 : 105.1040310404Petunia violacea--first generation:104055 : 30.80 : 5 : 26.00 : 84.1040610407Petunia violacea--second generation:104084 : 40.50 : 6 : 26.25 : 65.1040910410Petunia violacea--third generation:104118 : 40.96 : 8 : 53.87 : 131.1041210413Petunia violacea--fourth generation:1041415 : 46.79 : 14 : 32.39 : 69.1041510416Petunia violacea--fourth generation, from a distinct parent:1041713 : 44.74 : 13 : 26.87 : 60.1041810419Petunia violacea--fifth generation:1042022 : 54.11 : 21 : 33.23 : 61.1042110422Petunia violacea--fifth generation, in open ground:1042310 : 38.27 : 10 : 23.31 : 61.1042410425Petunia violacea--Number and average height of all the plants in pots of10426Petunia:1042767 : 46.53 : 67 : 33.12 : 71.1042810429Nicotiana tabacum--first generation:104304 : 18.50 : 4 : 32.75 : 178.1043110432Nicotiana tabacum--second generation:104339 : 53.84 : 7 : 51.78 : 96.1043410435Nicotiana tabacum--third generation:104367 : 95.25 : 7 : 79.60 : 83.1043710438Nicotiana tabacum--third generation but raised from a distinct plant:104397 : 70.78 : 9 : 71.30 : 101.1044010441Nicotiana tabacum--Number and average height of all the plants of10442Nicotiana:1044327 : 63.73 : 27 : 61.31 : 96.1044410445Cyclamen persicum:104468 : 9.49 : 8?: 7.50 : 79.1044710448Anagallis collina:104496 : 42.20 : 6 : 33.35 : 69.1045010451Primula sinensis--a dimorphic species:104528 : 9.01 : 8 : 9.03 : 100.1045310454Fagopyrum esculentum--a dimorphic species:1045515 : 38.06 : 15 : 26.13 : 69.1045610457Beta vulgaris--in pots:104588 : 34.09 : 8 : 29.81 : 87.1045910460Beta vulgaris--in open ground:104618 : 30.92 : 8 : 30.70 : 99.1046210463Canna warscewiczi--plants of three generations:1046434 : 35.98 : 34 : 36.39 : 101.1046510466Zea mays--in pots, whilst young, measured to tips of leaves:1046715 : 20.19 : 15 : 17.57 : 87.1046810469Zea mays--when full-grown, after the death of some, measured to tips of10470leaves:10471: 68.10 : : 62.34 : 91.1047210473Zea mays--when full-grown, after the death of some, measured to tips of10474flowers:10475: 66.51 : : 61.59 : 93.1047610477Zea mays--grown in open ground, measured to tips of leaves:1047810 : 54.00 : 10 : 44.55 : 83.1047910480Zea mays--grown in open ground, measured to tips of flowers:10481: 53.96 : : 43.45 : 80.1048210483Phalaris canariensis--in pots.1048411 : 38.90 : 11 : 35.69 : 92.1048510486Phalaris canariensis--in open ground:1048712 : 35.78 : 12 : 33.50 : 93.1048810489TABLE 7/B.--Relative weights of plants from parents crossed with pollen10490from distinct plants of the same stock, and self-fertilised.1049110492Column 1: Names of plants.1049310494Column 2: Number of crossed plants.1049510496Column 3: Number of self-fertilised plants.1049710498Column 4: x, where the ratio of the Weight of the Crossed to the10499Self-fertilised Plants is expressed as 100 to x.1050010501Ipomoea purpurea--plants of the tenth generation:105026 : 6 : 44.1050310504Vandellia nummularifolia--first generation:1050541 : 41 : 97.1050610507Brassica oleracea--first generation:105089 : 9 : 37.1050910510Eschscholtzia californica--plants of the second generation:1051119 : 19 : 118.1051210513Reseda lutea--first generation, grown in pots:1051424 : 24 : 21.1051510516Reseda lutea--first generation, grown in open ground:105178 : 8 : 40.1051810519Reseda odorata--first generation, descended from a highly self-fertile10520plant, grown in pots:1052119 : 19 : 67.1052210523Reseda odorata--first generation, descended from a semi-self-fertile10524plant, grown in pots:1052520 : 20 : 99.1052610527Dianthus caryophyllus--plants of the third generation:105288 : 8 : 49.1052910530Petunia violacea--plants of the fifth generation, in pots:1053122 : 21 : 22.1053210533Petunia violacea--plants of the fifth generation, in open ground:1053410 : 10 : 36.1053510536TABLE 7/C.--Relative heights, weights, and fertility of plants from10537parents crossed by a fresh stock, and from parents either10538self-fertilised or intercrossed with plants of the same stock.1053910540Column 1: Names of the plants and nature of the experiments.1054110542Column 2: Number of plants from a cross with a fresh stock.1054310544Column 3: Average height in inches and weight.1054510546Column 4: Number of the plants from self-fertilised or intercrossed10547parents of the same stock.1054810549Column 5: Average height in inches and weight.1055010551Column 4: x, where the ratio of the Height, Weight and Fertility of the10552plants from the Cross with a fresh stock is expressed as 100 to x.1055310554Ipomoea purpurea--offspring of plants intercrossed for nine generations10555and then crossed by a fresh stock, compared with plants of the tenth10556intercrossed generation:1055719 : 84.03 : 19 : 65.78 : 78.1055810559Ipomoea purpurea--offspring of plants intercrossed for nine generations10560and then crossed by a fresh stock, compared with plants of the tenth10561intercrossed generation, in fertility:10562.. : .. : .. : .. : 51.1056310564Mimulus luteus--offspring of plants self-fertilised for eight10565generations and then crossed by a fresh stock, compared with plants of10566the ninth self-fertilised generation:1056728 : 21.62 : 19 : 10.44 : 52.1056810569Mimulus luteus--offspring of plants self-fertilised for eight10570generations and then crossed by a fresh stock, compared with plants of10571the ninth self-fertilised generation, in fertility:10572.. : .. : .. : .. : 3.1057310574Mimulus luteus--offspring of plants self-fertilised for eight10575generations and then crossed by a fresh stock, compared with the10576offspring of a plant self-fertilised for eight generations, and then10577intercrossed with another self-fertilised plant of the same generation:1057828 : 21.62 : 27 : 12.20 : 56.1057910580Mimulus luteus--offspring of plants self-fertilised for eight10581generations and then crossed by a fresh stock, compared with the10582offspring of a plant self-fertilised for eight generations, and then10583intercrossed with another self-fertilised plant of the same generation,10584in fertility:10585.. : .. : .. : .. : 4.1058610587Brassica oleracea--offspring of plants self-fertilised for two10588generations and then crossed by a fresh stock, compared with plants of10589the third self-fertilised generation, by weight:105906 : : 6 : : 22.1059110592Iberis umbellata--offspring from English variety crossed by slightly10593different Algerine variety, compared with the self-fertilised offspring10594of the English variety:1059530 : 17.34 : 29 : 15.51 : 89.1059610597Iberis umbellata--offspring from English variety crossed by slightly10598different Algerine variety, compared with the self-fertilised offspring10599of the English variety, in fertility:10600.. : .. : .. : .. : 75.1060110602Eschscholtzia californica--offspring of a Brazilian stock crossed by an10603English stock, compared with plants of the Brazilian stock of the second10604self-fertilised generation:1060519 : 45.92 : 19 : 50.30 : 109.1060610607Eschscholtzia californica--offspring of a Brazilian stock crossed by an10608English stock, compared with plants of the Brazilian stock of the second10609self-fertilised generation, in weight:10610.. : .. : .. : .. : 118.1061110612Eschscholtzia californica--offspring of a Brazilian stock crossed by an10613English stock, compared with plants of the Brazilian stock of the second10614self-fertilised generation, in fertility:10615.. : .. : .. : .. : 40.1061610617Eschscholtzia californica--offspring of a Brazilian stock crossed by an10618English stock, compared with plants of the Brazilian stock of the second10619intercrossed generation, in height:1062019 : 45.92 : 18 : 43.38 : 94.1062110622Eschscholtzia californica--offspring of a Brazilian stock crossed by an10623English stock, compared with plants of the Brazilian stock of the second10624intercrossed generation, in weight:10625.. : .. : .. : .. : 100.1062610627Eschscholtzia californica--offspring of a Brazilian stock crossed by an10628English stock, compared with plants of the Brazilian stock of the second10629intercrossed generation, in fertility:10630.. : .. : .. : .. : 45.1063110632Dianthus caryophyllus--offspring of plants self-fertilised for three10633generations and then crossed by a fresh stock, compared with plants of10634the fourth self-fertilised generation:1063516 : 32.82 : 10 : 26.55 : 81.1063610637Dianthus caryophyllus--offspring of plants self-fertilised for three10638generations and then crossed by a fresh stock, compared with plants of10639the fourth self-fertilised generation, in fertility:10640.. : .. : .. : .. : 33.1064110642Dianthus caryophyllus--offspring of plants self-fertilised for three10643generations and then crossed by a fresh stock, compared with the10644offspring of plants self-fertilised for three generations and then10645crossed by plants of the third intercrossed generation:1064616 : 32.82 : 15 : 28.00 : 85.1064710648Dianthus caryophyllus--offspring of plants self-fertilised for three10649generations and then crossed by a fresh stock, compared with the10650offspring of plants self-fertilised for three generations and then10651crossed by plants of the third intercrossed generation, in fertility:10652.. : .. : .. : .. : 45.1065310654Pisum sativum--offspring from a cross between two closely allied10655varieties, compared with the self-fertilised offspring of one of the10656varieties, or with intercrossed plants of the same stock:10657? : : ? : : 60 to 75.1065810659Lathyrus odoratus--offspring from two varieties, differing only in10660colour of their flowers, compared with the self-fertilised offspring of10661one of the varieties: in first generation:106622 : 79.25 : 2 : 63.75 : 80.1066310664Lathyrus odoratus--offspring from two varieties, differing only in10665colour of their flowers, compared with the self-fertilised offspring of10666one of the varieties: in second generation:106676 : 62.91 : 6 : 55.31 : 88.1066810669Petunia violacea--offspring of plants self-fertilised for four10670generations and then crossed by a fresh stock, compared with plants of10671the fifth self-fertilised generation, in height:1067221 : 50.05 : 21 : 33.23 : 66.1067310674Petunia violacea--offspring of plants self-fertilised for four10675generations and then crossed by a fresh stock, compared with plants of10676the fifth self-fertilised generation, in weight:10677.. : .. : .. : .. : 23.1067810679Petunia violacea--offspring of plants self-fertilised for four10680generations and then crossed by a fresh stock, compared with plants of10681the fifth self-fertilised generation, grown in open ground, in height:1068210 : 36.67 : 10 : 23.31 : 63.1068310684Petunia violacea--offspring of plants self-fertilised for four10685generations and then crossed by a fresh stock, compared with plants of10686the fifth self-fertilised generation, grown in open ground, in weight:10687.. : .. : .. : .. : 53.1068810689Petunia violacea--offspring of plants self-fertilised for four10690generations and then crossed by a fresh stock, compared with plants of10691the fifth self-fertilised generation, grown in open ground, in10692fertility:10693.. : .. : .. : .. : 46.1069410695Petunia violacea--offspring of plants self-fertilised for four10696generations and then crossed by a fresh stock, compared with plants of10697the fifth intercrossed generation, in height:1069821 : 50.05 : 22 : 54.11 : 108.1069910700Petunia violacea--offspring of plants self-fertilised for four10701generations and then crossed by a fresh stock, compared with plants of10702the fifth intercrossed generation, in weight:10703.. : .. : .. : .. : 101.1070410705Petunia violacea--offspring of plants self-fertilised for four10706generations and then crossed by a fresh stock, compared with plants of10707the fifth intercrossed generation, grown in open ground, in height:1070810 : 36.67 : 10 : 38.27 : 104.1070910710Petunia violacea--offspring of plants self-fertilised for four10711generations and then crossed by a fresh stock, compared with plants of10712the fifth intercrossed generation, grown in open ground, in weight:10713.. : .. : .. : .. : 146.1071410715Petunia violacea--offspring of plants self-fertilised for four10716generations and then crossed by a fresh stock, compared with plants of10717the fifth intercrossed generation, grown in open ground, in fertility:10718.. : .. : .. : .. : 54.1071910720Nicotiana tabacum--offspring of plants self-fertilised for three10721generations and then crossed by a slightly different variety, compared10722with plants of the fourth self-fertilised generation, grown not much10723crowded in pots, in height:1072426 : 63.29 : 26 : 41.67 : 66.1072510726Nicotiana tabacum--offspring of plants self-fertilised for three10727generations and then crossed by a slightly different variety, compared10728with plants of the fourth self-fertilised generation, grown much crowded10729in pots, in height:1073012 : 31.53 : 12 : 17.21 : 54.1073110732Nicotiana tabacum--offspring of plants self-fertilised for three10733generations and then crossed by a slightly different variety, compared10734with plants of the fourth self-fertilised generation, grown much crowded10735in pots, in weight:10736.. : .. : .. : .. : 37.1073710738Nicotiana tabacum--offspring of plants self-fertilised for three10739generations and then crossed by a slightly different variety, compared10740with plants of the fourth self-fertilised generation, grown in open10741ground, in height:1074220 : 48.74 : 20 : 35.20 : 72.1074310744Nicotiana tabacum--offspring of plants self-fertilised for three10745generations and then crossed by a slightly different variety, compared10746with plants of the fourth self-fertilised generation, grown in open10747ground, in weight:10748.. : .. : .. : .. : 63.1074910750Anagallis collina--offspring from a red variety crossed by a blue10751variety, compared with the self-fertilised offspring of the red variety:107523 : 27.62 : 3 : 18.21 : 66.1075310754Anagallis collina--offspring from a red variety crossed by a blue10755variety, compared with the self-fertilised offspring of the red variety,10756in fertility:10757.. : .. : .. : .. : 6.1075810759Primula veris--offspring from long-styled plants of the third10760illegitimate generation, crossed by a fresh stock, compared with plants10761of the fourth illegitimate and self-fertilised generation:107628 : 7.03 : 8 : 3.21 : 46.1076310764Primula veris--offspring from long-styled plants of the third10765illegitimate generation, crossed by a fresh stock, compared with plants10766of the fourth illegitimate and self-fertilised generation, in fertility:10767.. : .. : .. : .. : 5.1076810769Primula veris--offspring from long-styled plants of the third10770illegitimate generation, crossed by a fresh stock, compared with plants10771of the fourth illegitimate and self-fertilised generation, in fertility10772in following year:10773.. : .. : .. : .. : 3.5.1077410775Primula veris--(equal-styled, red-flowered variety)--offspring from10776plants self-fertilised for two generations and then crossed by a10777different variety, compared with plants of the third self-fertilised10778generation:107793 : 8.66 : 3 : 7.33 : 85.1078010781Primula veris--(equal-styled, red-flowered variety)--offspring from10782plants self-fertilised for two generations and then crossed by a10783different variety, compared with plants of the third self-fertilised10784generation, in fertility:10785.. : .. : .. : .. : 11.1078610787In these three tables the measurements of fifty-seven species, belonging10788to fifty-two genera and to thirty great natural families, are given. The10789species are natives of various parts of the world. The number of crossed10790plants, including those derived from a cross between plants of the same10791stock and of two different stocks, amounts to 1,101; and the number of10792self-fertilised plants (including a few in Table 7/C derived from a10793cross between plants of the same old stock) is 1,076. Their growth was10794observed from the germination of the seeds to maturity; and most of them10795were measured twice and some thrice. The various precautions taken to10796prevent either lot being unduly favoured, have been described in the10797introductory chapter. Bearing all these circumstances in mind, it may be10798admitted that we have a fair basis for judging of the comparative10799effects of cross-fertilisation and of self-fertilisation on the growth10800of the offspring.1080110802It will be the most convenient plan first to consider the results given10803in Table 7/C, as an opportunity will thus be afforded of incidentally10804discussing some important points. If the reader will look down the right10805hand column of this table, he will see at a glance what an extraordinary10806advantage in height, weight, and fertility the plants derived from a10807cross with a fresh stock or with another sub-variety have over the10808self-fertilised plants, as well as over the intercrossed plants of the10809same old stock. There are only two exceptions to this rule, and these10810are hardly real ones. In the case of Eschscholtzia, the advantage is10811confined to fertility. In that of Petunia, though the plants derived10812from a cross with a fresh stock had an immense superiority in height,10813weight, and fertility over the self-fertilised plants, they were10814conquered by the intercrossed plants of the same old stock in height and10815weight, but not in fertility. It has, however, been shown that the10816superiority of these intercrossed plants in height and weight was in all10817probability not real; for if the two sets had been allowed to grow for10818another month, it is almost certain that those from a cross with the10819fresh stock would have been victorious in every way over the10820intercrossed plants.1082110822Before we consider in detail the several cases given in Table 7/C, some10823preliminary remarks must be made. There is the clearest evidence, as we10824shall presently see, that the advantage of a cross depends wholly on the10825plants differing somewhat in constitution; and that the disadvantages of10826self-fertilisation depend on the two parents, which are combined in the10827same hermaphrodite flower, having a closely similar constitution. A10828certain amount of differentiation in the sexual elements seems10829indispensable for the full fertility of the parents, and for the full10830vigour of the offspring. All the individuals of the same species, even10831those produced in a state of nature, differ somewhat, though often very10832slightly, from one another in external characters and probably in10833constitution. This obviously holds good between the varieties of the10834same species, as far as external characters are concerned; and much10835evidence could be advanced with respect to their generally differing10836somewhat in constitution. There can hardly be a doubt that the10837differences of all kinds between the individuals and varieties of the10838same species depend largely, and as I believe exclusively, on their10839progenitors having been subjected to different conditions; though the10840conditions to which the individuals of the same species are exposed in a10841state of nature often falsely appear to us the same. For instance, the10842individuals growing together are necessarily exposed to the same10843climate, and they seem to us at first sight to be subjected to10844identically the same conditions; but this can hardly be the case, except10845under the unusual contingency of each individual being surrounded by10846other kinds of plants in exactly the same proportional numbers. For the10847surrounding plants absorb different amounts of various substances from10848the soil, and thus greatly affect the nourishment and even the life of10849the individuals of any particular species. These will also be shaded and10850otherwise affected by the nature of the surrounding plants. Moreover,10851seeds often lie dormant in the ground, and those which germinate during10852any one year will often have been matured during very different seasons.10853Seeds are widely dispersed by various means, and some will occasionally10854be brought from distant stations, where their parents have grown under10855somewhat different conditions, and the plants produced from such seeds10856will intercross with the old residents, thus mingling their10857constitutional peculiarities in all sorts of proportions.1085810859Plants when first subjected to culture, even in their native country,10860cannot fail to be exposed to greatly changed conditions of life, more10861especially from growing in cleared ground, and from not having to10862compete with many or any surrounding plants. They are thus enabled to10863absorb whatever they require which the soil may contain. Fresh seeds are10864often brought from distant gardens, where the parent-plants have been10865subjected to different conditions. Cultivated plants like those in a10866state of nature frequently intercross, and will thus mingle their10867constitutional peculiarities. On the other hand, as long as the10868individuals of any species are cultivated in the same garden, they will10869apparently be subjected to more uniform conditions than plants in a10870state of nature, as the individuals have not to compete with various10871surrounding species. The seeds sown at the same time in a garden have10872generally been matured during the same season and in the same place; and10873in this respect they differ much from the seeds sown by the hand of10874nature. Some exotic plants are not frequented by the native insects in10875their new home, and therefore are not intercrossed; and this appears to10876be a highly important factor in the individuals acquiring uniformity of10877constitution.1087810879In my experiments the greatest care was taken that in each generation10880all the crossed and self-fertilised plants should be subjected to the10881same conditions. Not that the conditions were absolutely the same, for10882the more vigorous individuals will have robbed the weaker ones of10883nutriment, and likewise of water when the soil in the pots was becoming10884dry; and both lots at one end of the pot will have received a little10885more light than those at the other end. In the successive generations,10886the plants were subjected to somewhat different conditions, for the10887seasons necessarily varied, and they were sometimes raised at different10888periods of the year. But as they were all kept under glass, they were10889exposed to far less abrupt and great changes of temperature and moisture10890than are plants growing out of doors. With respect to the intercrossed10891plants, their first parents, which were not related, would almost10892certainly have differed somewhat in constitution; and such10893constitutional peculiarities would be variously mingled in each10894succeeding intercrossed generation, being sometimes augmented, but more10895commonly neutralised in a greater or less degree, and sometimes revived10896through reversion; just as we know to be the case with the external10897characters of crossed species and varieties. With the plants which were10898self-fertilised during the successive generations, this latter important10899source of some diversity of constitution will have been wholly10900eliminated; and the sexual elements produced by the same flower must10901have been developed under as nearly the same conditions as it is10902possible to conceive.1090310904In Table 7/C the crossed plants are the offspring of a cross with a10905fresh stock, or with a distinct variety; and they were put into10906competition either with self-fertilised plants, or with intercrossed10907plants of the same old stock. By the term fresh stock I mean a10908non-related plant, the progenitors of which have been raised during some10909generations in another garden, and have consequently been exposed to10910somewhat different conditions. In the case of Nicotiana, Iberis, the red10911variety of Primula, the common Pea, and perhaps Anagallis, the plants10912which were crossed may be ranked as distinct varieties or sub-varieties10913of the same species; but with Ipomoea, Mimulus, Dianthus, and Petunia,10914the plants which were crossed differed exclusively in the tint of their10915flowers; and as a large proportion of the plants raised from the same10916lot of purchased seeds thus varied, the differences may be estimated as10917merely individual. Having made these preliminary remarks, we will now10918consider in detail the several cases given in Table 7/C, and they are10919well worthy of full consideration.10920109211. Ipomoea purpurea.1092210923Plants growing in the same pots, and subjected in each generation to the10924same conditions, were intercrossed for nine consecutive generations.10925These intercrossed plants thus became in the later generations more or10926less closely inter-related. Flowers on the plants of the ninth10927intercrossed generation were fertilised with pollen taken from a fresh10928stock, and seedlings thus raised. Other flowers on the same intercrossed10929plants were fertilised with pollen from another intercrossed plant,10930producing seedlings of the tenth intercrossed generation. These two sets10931of seedlings were grown in competition with one another, and differed10932greatly in height and fertility. For the offspring from the cross with a10933fresh stock exceeded in height the intercrossed plants in the ratio of10934100 to 78; and this is nearly the same excess which the intercrossed had10935over the self-fertilised plants in all ten generations taken together,10936namely, as 100 to 77. The plants raised from the cross with a fresh10937stock were also greatly superior in fertility to the intercrossed,10938namely, in the ratio of 100 to 51, as judged by the relative weight of10939the seed-capsules produced by an equal number of plants of the two sets,10940both having been left to be naturally fertilised. It should be10941especially observed that none of the plants of either lot were the10942product of self-fertilisation. On the contrary, the intercrossed plants10943had certainly been crossed for the last ten generations, and probably,10944during all previous generations, as we may infer from the structure of10945the flowers and from the frequency of the visits of humble-bees. And so10946it will have been with the parent-plants of the fresh stock. The whole10947great difference in height and fertility between the two lots must be10948attributed to the one being the product of a cross with pollen from a10949fresh stock, and the other of a cross between plants of the same old10950stock.1095110952This species offers another interesting case. In the five first10953generations in which intercrossed and self-fertilised plants were put10954into competition with one another, every single intercrossed plant beat10955its self-fertilised antagonist, except in one instance, in which they10956were equal in height. But in the sixth generation a plant appeared,10957named by me the Hero, remarkable for its tallness and increased10958self-fertility, and which transmitted its characters to the next three10959generations. The children of Hero were again self-fertilised, forming10960the eighth self-fertilised generation, and were likewise intercrossed10961one with another; but this cross between plants which had been subjected10962to the same conditions and had been self-fertilised during the seven10963previous generations, did not effect the least good; for the10964intercrossed grandchildren were actually shorter than the10965self-fertilised grandchildren, in the ratio of 100 to 107. We here see10966that the mere act of crossing two distinct plants does not by itself10967benefit the offspring. This case is almost the converse of that in the10968last paragraph, on which the offspring profited so greatly by a cross10969with a fresh stock. A similar trial was made with the descendants of10970Hero in the following generation, and with the same result. But the10971trial cannot be fully trusted, owing to the extremely unhealthy10972condition of the plants. Subject to this same serious cause of doubt,10973even a cross with a fresh stock did not benefit the great-grandchildren10974of Hero; and if this were really the case, it is the greatest anomaly10975observed by me in all my experiments.10976109772. Mimulus luteus.1097810979During the three first generations the intercrossed plants taken10980together exceeded in height the self-fertilised taken together, in the10981ratio of 100 to 65, and in fertility in a still higher degree. In the10982fourth generation a new variety, which grew taller and had whiter and10983larger flowers than the old varieties, began to prevail, especially10984amongst the self-fertilised plants. This variety transmitted its10985characters with remarkable fidelity, so that all the plants in the later10986self-fertilised generations belonged to it. These consequently exceeded10987the intercrossed plants considerably in height. Thus in the seventh10988generation the intercrossed plants were to the self-fertilised in height10989as 100 to 137. It is a more remarkable fact that the self-fertilised10990plants of the sixth generation had become much more fertile than the10991intercrossed plants, judging by the number of capsules spontaneously10992produced, in the ratio of 147 to 100. This variety, which as we have10993seen appeared amongst the plants of the fourth self-fertilised10994generation, resembles in almost all its constitutional peculiarities the10995variety called Hero which appeared in the sixth self-fertilised10996generation of Ipomoea. No other such case, with the partial exception of10997that of Nicotiana, occurred in my experiments, carried on during eleven10998years.1099911000Two plants of this variety of Mimulus, belonging to the sixth11001self-fertilised generation, and growing in separate pots, were11002intercrossed; and some flowers on the same plants were again11003self-fertilised. From the seeds thus obtained, plants derived from a11004cross between the self-fertilised plants, and others of the seventh11005self-fertilised generation, were raised. But this cross did not do the11006least good, the intercrossed plants being inferior in height to the11007self-fertilised, in the ratio of 100 to 110. This case is exactly11008parallel with that given under Ipomoea, of the grandchildren of Hero,11009and apparently of its great-grandchildren; for the seedlings raised by11010intercrossing these plants were not in any way superior to those of the11011corresponding generation raised from the self-fertilised flowers.11012Therefore in these several cases the crossing of plants, which had been11013self-fertilised for several generations and which had been cultivated11014all the time under as nearly as possible the same conditions, was not in11015the least beneficial.1101611017Another experiment was now tried. Firstly, plants of the eighth11018self-fertilised generation were again self-fertilised, producing plants11019of the ninth self-fertilised generation. Secondly, two of the plants of11020the eighth self-fertilised generation were intercrossed one with11021another, as in the experiment above referred to; but this was now11022effected on plants which had been subjected to two additional11023generations of self-fertilisation. Thirdly, the same plants of the11024eighth self-fertilised generation were crossed with pollen from plants11025of a fresh stock brought from a distant garden. Numerous plants were11026raised from these three sets of seeds, and grown in competition with one11027another. The plants derived from a cross between the self-fertilised11028plants exceeded in height by a little the self-fertilised, namely, as11029100 to 92; and in fertility in a greater degree, namely, as 100 to 73. I11030do not know whether this difference in the result, compared with that in11031the previous case, can be accounted for by the increased deterioration11032of the self-fertilised plants from two additional generations of11033self-fertilisation, and the consequent advantage of any cross whatever,11034along merely between the self-fertilised plants. But however this may11035be, the effects of crossing the self-fertilised plants of the eighth11036generation with a fresh stock were extremely striking; for the seedlings11037thus raised were to the self-fertilised of the ninth generation as 10011038to 52 in height, and as 100 to 3 in fertility! They were also to the11039intercrossed plants (derived from crossing two of the self-fertilised11040plants of the eighth generation) in height as 100 to 56, and in11041fertility as 100 to 4. Better evidence could hardly be desired of the11042potent influence of a cross with a fresh stock on plants which had been11043self-fertilised for eight generations, and had been cultivated all the11044time under nearly uniform conditions, in comparison with plants11045self-fertilised for nine generations continuously, or then once11046intercrossed, namely in the last generation.11047110483. Brassica oleracea.1104911050Some flowers on cabbage plants of the second self-fertilised generation11051were crossed with pollen from a plant of the same variety brought from a11052distant garden, and other flowers were again self-fertilised. Plants11053derived from a cross with a fresh stock and plants of the third11054self-fertilised generation were thus raised. The former were to the11055self-fertilised in weight as 100 to 22; and this enormous difference11056must be attributed in part to the beneficial effects of a cross with a11057fresh stock, and in part to the deteriorating effects of11058self-fertilisation continued during three generations.11059110604. Iberis umbellata.1106111062Seedlings from a crimson English variety crossed by a pale-coloured11063variety which had been grown for some generations in Algiers, were to11064the self-fertilised seedlings from the crimson variety in height as 10011065to 89, and as 100 to 75 in fertility. I am surprised that this cross11066with another variety did not produce a still more strongly marked11067beneficial effect; for some intercrossed plants of the crimson English11068variety, put into competition with plants of the same variety11069self-fertilised during three generations, were in height as 100 to 86,11070and in fertility as 100 to 75. The slightly greater difference in height11071in this latter case, may possibly be attributed to the deteriorating11072effects of self-fertilisation carried on for two additional generations.11073110745. Eschscholtzia californica.1107511076This plant offers an almost unique case, inasmuch as the good effects of11077a cross are confined to the reproductive system. Intercrossed and11078self-fertilised plants of the English stock did not differ in height11079(nor in weight, as far as was ascertained) in any constant manner; the11080self-fertilised plants usually having the advantage. So it was with the11081offspring of plants of the Brazilian stock, tried in the same manner.11082The parent-plants, however, of the English stock produced many more11083seeds when fertilised with pollen from another plant than when11084self-fertilised; and in Brazil the parent-plants were absolutely sterile11085unless they were fertilised with pollen from another plant. Intercrossed11086seedlings, raised in England from the Brazilian stock, compared with11087self-fertilised seedlings of the corresponding second generation,11088yielded seeds in number as 100 to 89; both lots of plants being left11089freely exposed to the visits of insects. If we now turn to the effects11090of crossing plants of the Brazilian stock with pollen from the English11091stock,--so that plants which had been long exposed to very different11092conditions were intercrossed,--we find that the offspring were, as11093before, inferior in height and weight to the plants of the Brazilian11094stock after two generations of self-fertilisation, but were superior to11095them in the most marked manner in the number of seeds produced, namely,11096as 100 to 40; both lots of plants being left freely exposed to the11097visits of insects.1109811099In the case of Ipomoea, we have seen that the plants derived from a11100cross with a fresh stock were superior in height as 100 to 78, and in11101fertility as 100 to 51, to the plants of the old stock, although these11102had been intercrossed during the last ten generations. With11103Eschscholtzia we have a nearly parallel case, but only as far as11104fertility is concerned, for the plants derived from a cross with a fresh11105stock were superior in fertility in the ratio of 100 to 45 to the11106Brazilian plants, which had been artificially intercrossed in England11107for the two last generations, and which must have been naturally11108intercrossed by insects during all previous generations in Brazil, where11109otherwise they are quite sterile.11110111116. Dianthus caryophyllus.1111211113Plants self-fertilised for three generations were crossed with pollen11114from a fresh stock, and their offspring were grown in competition with11115plants of the fourth self-fertilised generation. The crossed plants thus11116obtained were to the self-fertilised in height as 100 to 81, and in11117fertility (both lots being left to be naturally fertilised by insects)11118as 100 to 33.1111911120These same crossed plants were also to the offspring from the plants of11121the third generation crossed by the intercrossed plants of the11122corresponding generation, in height as 100 to 85, and in fertility as11123100 to 45.1112411125We thus see what a great advantage the offspring from a cross with a11126fresh stock had, not only over the self-fertilised plants of the fourth11127generation, but over the offspring from the self-fertilised plants of11128the third generation, when crossed by the intercrossed plants of the old11129stock.11130111317. Pisum sativum.1113211133It has been shown under the head of this species, that the several11134varieties in this country almost invariably fertilise themselves, owing11135to insects rarely visiting the flowers; and as the plants have been long11136cultivated under nearly similar conditions, we can understand why a11137cross between two individuals of the same variety does not do the least11138good to the offspring either in height or fertility. This case is almost11139exactly parallel with that of Mimulus, or that of the Ipomoea named11140Hero; for in these two instances, crossing plants which had been11141self-fertilised for seven generations did not at all benefit the11142offspring. On the other hand, a cross between two varieties of the pea11143causes a marked superiority in the growth and vigour of the offspring,11144over the self-fertilised plants of the same varieties, as shown by two11145excellent observers. From my own observations (not made with great care)11146the offspring from crossed varieties were to self-fertilised plants in11147height, in one case as 100 to about 75, and in a second case as 100 to1114860.11149111508. Lathyrus odoratus.1115111152The sweet-pea is in the same state in regard to self-fertilisation as11153the common pea; and we have seen that seedlings from a cross between two11154varieties, which differed in no respect except in the colour of their11155flowers, were to the self-fertilised seedlings from the same11156mother-plant in height as 100 to 80; and in the second generation as 10011157to 88. Unfortunately I did not ascertain whether crossing two plants of11158the same variety failed to produce any beneficial effect, but I venture11159to predict such would be the result.11160111619. Petunia violacea.1116211163The intercrossed plants of the same stock in four out of the five11164successive generations plainly exceeded in height the self-fertilised11165plants. The latter in the fourth generation were crossed by a fresh11166stock, and the seedlings thus obtained were put into competition with11167the self-fertilised plants of the fifth generation. The crossed plants11168exceeded the self-fertilised in height in the ratio of 100 to 66, and in11169weight as 100 to 23; but this difference, though so great, is not much11170greater than that between the intercrossed plants of the same stock in11171comparison with the self-fertilised plants of the corresponding11172generation. This case, therefore, seems at first sight opposed to the11173rule that a cross with a fresh stock is much more beneficial than a11174cross between individuals of the same stock. But as with Eschscholtzia,11175the reproductive system was here chiefly benefited; for the plants11176raised from the cross with the fresh stock were to the self-fertilised11177plants in fertility, both lots being naturally fertilised, as 100 to 46,11178whereas the intercrossed plants of the same stock were to the11179self-fertilised plants of the corresponding fifth generation in11180fertility only as 100 to 86.1118111182Although at the time of measurement the plants raised from the cross11183with the fresh stock did not exceed in height or weight the intercrossed11184plants of the old stock (owing to the growth of the former not having11185been completed, as explained under the head of this species), yet they11186exceeded the intercrossed plants in fertility in the ratio of 100 to 54.11187This fact is interesting, as it shows that plants self-fertilised for11188four generations and then crossed by a fresh stock, yielded seedlings11189which were nearly twice as fertile as those from plants of the same11190stock which had been intercrossed for the five previous generations. We11191here see, as with Eschscholtzia and Dianthus, that the mere act of11192crossing, independently of the state of the crossed plants, has little11193efficacy in giving increased fertility to the offspring. The same11194conclusion holds good, as we have already seen, in the analogous cases11195of Ipomoea, Mimulus, and Dianthus, with respect to height.111961119710. Nicotiana tabacum.1119811199My plants were remarkably self-fertile, and the capsules from the11200self-fertilised flowers apparently yielded more seeds than those which11201were cross-fertilised. No insects were seen to visit the flowers in the11202hothouse, and I suspect that the stock on which I experimented had been11203raised under glass, and had been self-fertilised during several previous11204generations; if so, we can understand why, in the course of three11205generations, the crossed seedlings of the same stock did not uniformly11206exceed in height the self-fertilised seedlings. But the case is11207complicated by individual plants having different constitutions, so that11208some of the crossed and self-fertilised seedlings raised at the same11209time from the same parents behaved differently. However this may be,11210plants raised from self-fertilised plants of the third generation11211crossed by a slightly different sub-variety, exceeded greatly in height11212and weight the self-fertilised plants of the fourth generation; and the11213trial was made on a large scale. They exceeded them in height when grown11214in pots, and not much crowded, in the ratio of 100 to 66; and when much11215crowded, as 100 to 54. These crossed plants, when thus subjected to11216severe competition, also exceeded the self-fertilised in weight in the11217ratio of 100 to 37. So it was, but in a less degree (as may be seen in11218Table 7/C), when the two lots were grown out of doors and not subjected11219to any mutual competition. Nevertheless, strange as is the fact, the11220flowers on the mother-plants of the third self-fertilised generation did11221not yield more seed when they were crossed with pollen from plants of11222the fresh stock than when they were self-fertilised.112231122411. Anagallis collina.1122511226Plants raised from a red variety crossed by another plant of the same11227variety were in height to the self-fertilised plants from the red11228variety as 100 to 73. When the flowers on the red variety were11229fertilised with pollen from a closely similar blue-flowered variety,11230they yielded double the number of seeds to what they did when crossed by11231pollen from another individual of the same red variety, and the seeds11232were much finer. The plants raised from this cross between the two11233varieties were to the self-fertilised seedlings from the red variety, in11234height as 100 to 66, and in fertility as 100 to 6.112351123612. Primula veris.1123711238Some flowers on long-styled plants of the third illegitimate generation11239were legitimately crossed with pollen from a fresh stock, and others11240were fertilised with their own pollen. From the seeds thus produced11241crossed plants, and self-fertilised plants of the fourth illegitimate11242generation, were raised. The former were to the latter in height as 10011243to 46, and in fertility during one year as 100 to 5, and as 100 to 3.511244during the next year. In this case, however, we have no means of11245distinguishing between the evil effects of illegitimate fertilisation11246continued during four generations (that is, by pollen of the same form,11247but taken from a distinct plant) and strict self-fertilisation. But it11248is probable that these two processes do not differ so essentially as at11249first appears to be the case. In the following experiment any doubt11250arising from illegitimate fertilisation was completely eliminated.112511125213. Primula veris. (Equal-styled, red-flowered variety.)1125311254Flowers on plants of the second self-fertilised generation were crossed11255with pollen from a distinct variety or fresh stock, and others were11256again self-fertilised. Crossed plants and plants of the third11257self-fertilised generation, all of legitimate origin, were thus raised;11258and the former was to the latter in height as 100 to 85, and in11259fertility (as judged by the number of capsules produced, together with11260the average number of seeds) as 100 to 11.1126111262SUMMARY OF THE MEASUREMENTS IN TABLE 7/C.1126311264This table includes the heights and often the weights of 292 plants11265derived from a cross with a fresh stock, and of 305 plants, either of11266self-fertilised origin, or derived from an intercross between plants of11267the same stock. These 597 plants belong to thirteen species and twelve11268genera. The various precautions which were taken to ensure a fair11269comparison have already been stated. If we now look down the right hand11270column, in which the mean height, weight, and fertility of the plants11271derived from a cross with a fresh stock are represented by 100, we shall11272see by the other figures how wonderfully superior they are both to the11273self-fertilised and to the intercrossed plants of the same stock. With11274respect to height and weight, there are only two exceptions to the rule,11275namely, with Eschscholtzia and Petunia, and the latter is probably no11276real exception. Nor do these two species offer an exception in regard to11277fertility, for the plants derived from the cross with a fresh stock were11278much more fertile than the self-fertilised plants. The difference11279between the two sets of plants in the table is generally much greater in11280fertility than in height or weight. On the other hand, with some of the11281species, as with Nicotiana, there was no difference in fertility between11282the two sets, although a great difference in height and weight.11283Considering all the cases in this table, there can be no doubt that11284plants profit immensely, though in different ways, by a cross with a11285fresh stock or with a distinct sub-variety. It cannot be maintained that11286the benefit thus derived is due merely to the plants of the fresh stock11287being perfectly healthy, whilst those which had been long intercrossed11288or self-fertilised had become unhealthy; for in most cases there was no11289appearance of such unhealthiness, and we shall see under Table 7/A that11290the intercrossed plants of the same stock are generally superior to a11291certain extent to the self-fertilised,--both lots having been subjected11292to exactly the same conditions and being equally healthy or unhealthy.1129311294We further learn from Table 7/C, that a cross between plants that have11295been self-fertilised during several successive generations and kept all11296the time under nearly uniform conditions, does not benefit the offspring11297in the least or only in a very slight degree. Mimulus and the11298descendants of Ipomoea named Hero offer instances of this rule. Again,11299plants self-fertilised during several generations profit only to a small11300extent by a cross with intercrossed plants of the same stock (as in the11301case of Dianthus), in comparison with the effects of a cross by a fresh11302stock. Plants of the same stock intercrossed during several generations11303(as with Petunia) were inferior in a marked manner in fertility to those11304derived from the corresponding self-fertilised plants crossed by a fresh11305stock. Lastly, certain plants which are regularly intercrossed by11306insects in a state of nature, and which were artificially crossed in11307each succeeding generation in the course of my experiments, so that they11308can never or most rarely have suffered any evil from self-fertilisation11309(as with Eschscholtzia and Ipomoea), nevertheless profited greatly by a11310cross with a fresh stock. These several cases taken together show us in11311the clearest manner that it is not the mere crossing of any two11312individuals which is beneficial to the offspring. The benefit thus11313derived depends on the plants which are united differing in some manner,11314and there can hardly be a doubt that it is in the constitution or nature11315of the sexual elements. Anyhow, it is certain that the differences are11316not of an external nature, for two plants which resemble each other as11317closely as the individuals of the same species ever do, profit in the11318plainest manner when intercrossed, if their progenitors have been11319exposed during several generations to different conditions. But to this11320latter subject I shall have to recur in a future chapter.1132111322TABLE 7/A.1132311324We will now turn to our first table, which relates to crossed and11325self-fertilised plants of the same stock. These consist of fifty-four11326species belonging to thirty natural orders. The total number of crossed11327plants of which measurements are given is 796, and of self-fertilised11328809; that is altogether 1,605 plants. Some of the species were11329experimented on during several successive generations; and it should be11330borne in mind that in such cases the crossed plants in each generation11331were crossed with pollen from another crossed plant, and the flowers on11332the self-fertilised plants were almost always fertilised with their own11333pollen, though sometimes with pollen from other flowers on the same11334plant. The crossed plants thus became more or less closely inter-related11335in the later generations; and both lots were subjected in each11336generation to almost absolutely the same conditions, and to nearly the11337same conditions in the successive generations. It would have been a11338better plan in some respects if I had always crossed some flowers either11339on the self-fertilised or intercrossed plants of each generation with11340pollen from a non-related plant, grown under different conditions, as11341was done with the plants in Table 7/C; for by this procedure I should11342have learnt how much the offspring became deteriorated through continued11343self-fertilisation in the successive generations. As the case stands,11344the self-fertilised plants of the successive generations in Table 7/A11345were put into competition with and compared with intercrossed plants,11346which were probably deteriorated in some degree by being more or less11347inter-related and grown under similar conditions. Nevertheless, had I11348always followed the plan in Table 7/C, I should not have discovered the11349important fact that, although a cross between plants which are rather11350closely related and which had been subjected to closely similar11351conditions, gives during several generations some advantage to the11352offspring, yet that after a time they may be intercrossed with no11353advantage whatever to the offspring. Nor should I have learnt that the11354self-fertilised plants of the later generations might be crossed with11355intercrossed plants of the same stock with little or no advantage,11356although they profited to an extraordinary degree by a cross with a11357fresh stock.1135811359With respect to the greater number of the plants in Table 7/A, nothing11360special need here be said; full particulars may be found under the head11361of each species by the aid of the Index. The figures in the right-hand11362column show the mean height of the self-fertilised plants, that of the11363crossed plants with which they competed being represented by 100. No11364notice is here taken of the few cases in which crossed and11365self-fertilised plants were grown in the open ground, so as not to11366compete together. The table includes, as we have seen, plants belonging11367to fifty-four species, but as some of these were measured during several11368successive generations, there are eighty-three cases in which crossed11369and self-fertilised plants were compared. As in each generation the11370number of plants which were measured (given in the table) was never very11371large and sometimes small, whenever in the right hand column the mean11372height of the crossed and self-fertilised plants is the same within five11373per cent, their heights may be considered as practically equal. Of such11374cases, that is, of self-fertilised plants of which the mean height is11375expressed by figures between 95 and 105, there are eighteen, either in11376some one or all the generations. There are eight cases in which the11377self-fertilised plants exceed the crossed by above five per cent, as11378shown by the figures in the right hand column being above 105. Lastly,11379there are fifty-seven cases in which the crossed plants exceed the11380self-fertilised in a ratio of at least 100 to 95, and generally in a11381much higher degree.1138211383If the relative heights of the crossed and self-fertilised plants had11384been due to mere chance, there would have been about as many cases of11385self-fertilised plants exceeding the crossed in height by above five per11386cent as of the crossed thus exceeding the self-fertilised; but we see11387that of the latter there are fifty-seven cases, and of the former only11388eight cases; so that the cases in which the crossed plants exceed in11389height the self-fertilised in the above proportion are more than seven11390times as numerous as those in which the self-fertilised exceed the11391crossed in the same proportion. For our special purpose of comparing the11392powers of growth of crossed and self-fertilised plants, it may be said11393that in fifty-seven cases the crossed plants exceeded the11394self-fertilised by more than five per cent, and that in twenty-six cases11395(18 + 8) they did not thus exceed them. But we shall now show that in11396several of these twenty-six cases the crossed plants had a decided11397advantage over the self-fertilised in other respects, though not in11398height; that in other cases the mean heights are not trustworthy, owing11399to too few plants having been measured, or to their having grown11400unequally from being unhealthy, or to both causes combined.11401Nevertheless, as these cases are opposed to my general conclusion I have11402felt bound to give them. Lastly, the cause of the crossed plants having11403no advantage over the self-fertilised can be explained in some other11404cases. Thus a very small residue is left in which the self-fertilised11405plants appear, as far as my experiments serve, to be really equal or11406superior to the crossed plants.1140711408We will now consider in some little detail the eighteen cases in which11409the self-fertilised plants equalled in average height the crossed plants11410within five per cent; and the eight cases in which the self-fertilised11411plants exceeded in average height the crossed plants by above five per11412cent; making altogether twenty-six cases in which the crossed plants11413were not taller than the self-fertilised plants in any marked degree.1141411415[1. Dianthus caryophyllus (third generation).1141611417This plant was experimented on during four generations, in three of11418which the crossed plants exceeded in height the self-fertilised11419generally by much more than five per cent; and we have seen under Table114207/C that the offspring from the plants of the third self-fertilised11421generation crossed by a fresh stock profited in height and fertility to11422an extraordinary degree. But in this third generation the crossed plants11423of the same stock were in height to the self-fertilised only as 100 to1142499, that is, they were practically equal. Nevertheless, when the eight11425crossed and eight self-fertilised plants were cut down and weighed, the11426former were to the latter in weight as 100 to 49! There can therefore be11427not the least doubt that the crossed plants of this species are greatly11428superior in vigour and luxuriance to the self-fertilised; and what was11429the cause of the self-fertilised plants of the third generation, though11430so light and thin, growing up so as almost to equal the crossed in11431height, I cannot explain.11432114332. Lobelia fulgens (first generation).1143411435The crossed plants of this generation were much inferior in height to11436the self-fertilised, in the proportion of 100 to 127. Although only two11437pairs were measured, which is obviously much too few to be trusted, yet11438from other evidence given under the head of this species, it is certain11439that the self-fertilised plants were very much more vigorous than the11440crossed. As I used pollen of unequal maturity for crossing and11441self-fertilising the parent-plants, it is possible that the great11442difference in the growth of their offspring may have been due to this11443cause. In the next generation this source of error was avoided, and many11444more plants were raised, and now the average height of the twenty-three11445crossed plants was to that of the twenty-three self-fertilised plants as11446100 to 91. We can therefore hardly doubt that a cross is beneficial to11447this species.11448114493. Petunia violacea (third generation).1145011451Eight crossed plants were to eight self-fertilised of the third11452generation in average height as 100 to 131; and at an early age the11453crossed were inferior even in a still higher degree. But it is a11454remarkable fact that in one pot in which plants of both lots grew11455extremely crowded, the crossed were thrice as tall as the11456self-fertilised. As in the two preceding and two succeeding generations,11457as well as with plants raised by a crossed with a fresh stock, the11458crossed greatly exceeded the self-fertilised in height, weight, and11459fertility (when these two latter points were attended to), the present11460case must be looked at as an anomaly not affecting the general rule. The11461most probable explanation is that the seeds from which the crossed11462plants of the third generation were raised were not well ripened; for I11463have observed an analogous case with Iberis. Self-fertilised seedlings11464of this latter plant, which were known to have been produced from seeds11465not well matured, grew from the first much more quickly than the crossed11466plants, which were raised from better matured seeds; so that having thus11467once got a great start they were enabled ever afterwards to retain their11468advantage. Some of these same seeds of the Iberis were sown on the11469opposite sides of pots filled with burnt earth and pure sand, not11470containing any organic matter; and now the young crossed seedlings grew11471during their short life to double the height of the self-fertilised, in11472the same manner as occurred with the above two sets of seedlings of11473Petunia which were much crowded and thus exposed to very unfavourable11474conditions. We have seen also in the eighth generation of Ipomoea that11475the self-fertilised seedlings raised from unhealthy parents grew at11476first very much more quickly than the crossed seedlings, so that they11477were for a long time much taller, though ultimately beaten by them.11478114794, 5, 6. Eschscholtzia californica.1148011481Four sets of measurements are given in Table 7/A. In one of these the11482crossed plants exceed the self-fertilised in average height, so that11483this is not one of the exceptions here to be considered. In two other11484cases the crossed equalled the self-fertilised in height within five per11485cent; and in the fourth case the self-fertilised exceeded the crossed by11486above this limit. We have seen in Table 7/C that the whole advantage of11487a cross by a fresh stock is confined to fertility, and so it was with11488the intercrossed plants of the same stock compared with the11489self-fertilised, for the former were in fertility to the latter as 10011490to 89. The intercrossed plants thus have at least one important11491advantage over the self-fertilised. Moreover, the flowers on the11492parent-plants when fertilised with pollen from another individual of the11493same stock yield far more seeds than when self-fertilised; the flowers11494in this latter case being often quite sterile. We may therefore conclude11495that a cross does some good, though it does not give to the crossed11496seedlings increased powers of growth.11497114987. Viscaria oculata.1149911500The average height of the fifteen intercrossed plants to that of the11501fifteen self-fertilised plants was only as 100 to 97; but the former11502produced many more capsules than the latter, in the ratio of 100 to 77.11503Moreover, the flowers on the parent-plants which were crossed and11504self-fertilised, yielded seeds on one occasion in the proportion of 10011505to 38, and on a second occasion in the proportion of 100 to 58. So that11506there can be no doubt about the beneficial effects of a cross, although11507the mean height of the crossed plants was only three per cent above that11508of the self-fertilised plants.11509115108. Specularia speculum.1151111512Only the four tallest of the crossed and the four tallest of the11513self-fertilised plants, growing in four pots, were measured; and the11514former were to the latter in height as 100 to 98. In all four pots a11515crossed plant flowered before any one of the self-fertilised plants, and11516this is usually a safe indication of some real superiority in the11517crossed plants. The flowers on the parent-plants which were crossed with11518pollen from another plant yielded seeds compared with the11519self-fertilised flowers in the ratio of 100 to 72. We may therefore draw11520the same conclusion as in the last case with respect to a cross being11521decidedly beneficial.11522115239. Borago officinalis.1152411525Only four crossed and four self-fertilised plants were raised and11526measured, and the former were to the latter in height as 100 to 102. So11527small a number of measurements ought never to be trusted; and in the11528present instance the advantage of the self-fertilised over the crossed11529plants depended almost entirely on one of the self-fertilised plants11530having grown to an unusual height. All four crossed plants flowered11531before their self-fertilised opponents. The cross-fertilised flowers on11532the parent-plants in comparison with the self-fertilised flowers yielded11533seeds in the proportion of 100 to 60. So that here again we may draw the11534same conclusion as in the two last cases.115351153610. Passiflora gracilis.1153711538Only two crossed and two self-fertilised plants were raised; and the11539former were to the latter in height as 100 to 104. On the other hand,11540fruits from the cross-fertilised flowers on the parent-plants contained11541seeds in number, compared with those from the self-fertilised flowers,11542in the proportion of 100 to 85.115431154411. Phaseolus multiflorus.1154511546The five crossed plants were to the five self-fertilised in height as11547100 to 96. Although the crossed plants were thus only four per cent11548taller than the self-fertilised, they flowered in both pots before them.11549It is therefore probable that they had some real advantage over the11550self-fertilised plants.115511155212. Adonis aestivalis.1155311554The four crossed plants were almost exactly equal in height to the four11555self-fertilised plants, but as so few plants were measured, and as these11556were all "miserably unhealthy," nothing can be inferred with safety with11557respect to their relative heights.115581155913. Bartonia aurea.1156011561The eight crossed plants were to the eight self-fertilised in height as11562100 to 107. This number of plants, considering the care with which they11563were raised and compared, ought to have given a trustworthy result. But11564from some unknown cause they grew very unequally, and they became so11565unhealthy that only three of the crossed and three of the11566self-fertilised plants set any seeds, and these few in number. Under11567these circumstances the mean height of neither lot can be trusted, and11568the experiment is valueless. The cross-fertilised flowers on the11569parent-plants yielded rather more seeds than the self-fertilised11570flowers.115711157214. Thunbergia alata.1157311574The six crossed plants were to the six self-fertilised in height as 10011575to 108. Here the self-fertilised plants seem to have a decided11576advantage; but both lots grew unequally, some of the plants in both11577being more than twice as tall as others. The parent-plants also were in11578an odd semi-sterile condition. Under these circumstances the superiority11579of the self-fertilised plants cannot be fully trusted.115801158115. Nolana prostrata.1158211583The five crossed plants were to the five self-fertilised in height as11584100 to 105; so that the latter seem here to have a small but decided11585advantage. On the other hand, the flowers on the parent-plants which11586were cross-fertilised produced very many more capsules than the11587self-fertilised flowers, in the ratio of 100 to 21; and the seeds which11588the former contained were heavier than an equal number from the11589self-fertilised capsules in the ratio of 100 to 82.115901159116. Hibiscus africanus.1159211593Only four pairs were raised, and the crossed were to the self-fertilised11594in height as 100 to 109. Excepting that too few plants were measured, I11595know of nothing else to cause distrust in the result. The11596cross-fertilised flowers on the parent-plants were, on the other hand,11597rather more productive than the self-fertilised flowers.115981159917. Apium petroselinum.1160011601A few plants (number not recorded) derived from flowers believed to have11602been crossed by insects and a few self-fertilised plants were grown on11603the opposite sides of four pots. They attained to a nearly equal height,11604the crossed having a very slight advantage.116051160618. Vandellia nummularifolia.1160711608Twenty crossed plants raised from the seeds of perfect flowers were to11609twenty self-fertilised plants, likewise raised from the seeds of perfect11610flowers, in height as 100 to 99. The experiment was repeated, with the11611sole difference that the plants were allowed to grow more crowded; and11612now the twenty-four tallest of the crossed plants were to the11613twenty-four tallest self-fertilised plants in height as 100 to 94, and11614in weight as 100 to 97. Moreover, a larger number of the crossed than of11615the self-fertilised plants grew to a moderate height. The11616above-mentioned twenty crossed plants were also grown in competition11617with twenty self-fertilised plants raised from the closed or cleistogene11618flowers, and their heights were as 100 to 94. Therefore had it not been11619for the first trial, in which the crossed plants were to the11620self-fertilised in height only as 100 to 99, this species might have11621been classed with those in which the crossed plants exceed the11622self-fertilised by above five per cent. On the other hand, the crossed11623plants in the second trial bore fewer capsules; and these contained11624fewer seeds, than did the self-fertilised plants, all the capsules11625having been produced by cleistogene flowers. The whole case therefore11626must be left doubtful.116271162819. Pisum sativum (common pea).1162911630Four-plants derived from a cross between individuals of the same variety11631were in height to four self-fertilised plants belonging to the same11632variety as 100 to 115. Although this cross did no good, we have seen11633under Table 7/C that a cross between distinct varieties adds greatly to11634the height and vigour of the offspring; and it was there explained that11635the fact of a cross between the individuals of the same variety not11636being beneficial, is almost certainly due to their having been11637self-fertilised for many generations, and in each generation grown under11638nearly similar conditions.116391164020, 21, 22. Canna warscewiczi.1164111642Plants belonging to three generations were observed, and in all of three11643the crossed were approximately equal to the self-fertilised; the average11644height of the thirty-four crossed plants being to that of the same11645number of self-fertilised plants as 100 to 101. Therefore the crossed11646plants had no advantage over the self-fertilised; and it is probable11647that the same explanation here holds good as in the case of Pisum11648sativum; for the flowers of this Canna are perfectly self-fertile, and11649were never seen to be visited by insects in the hothouse, so as to be11650crossed by them. This plant, moreover, has been cultivated under glass11651for several generations in pots, and therefore under nearly uniform11652conditions. The capsules produced by the cross-fertilised flowers on the11653above thirty-four crossed plants contained more seeds than did the11654capsules produced by the self-fertilised flowers on the self-fertilised11655plants, in the proportion of 100 to 85; so that in this respect crossing11656was beneficial.116571165823. Primula sinensis.1165911660The offspring of plants, some of which were legitimately and others11661illegitimately fertilised with pollen from a distinct plant, were almost11662exactly of the same height as the offspring of self-fertilised plants;11663but the former with rare exceptions flowered before the latter. I have11664shown in my paper on dimorphic plants that this species is commonly11665raised in England from self-fertilised seed, and the plants from having11666been cultivated in pots have been subjected to nearly uniform11667conditions. Moreover, many of them are now varying and changing their11668character, so as to become in a greater or less degree equal-styled, and11669in consequence highly self-fertile. Therefore I believe that the cause11670of the crossed plants not exceeding in height the self-fertilised is the11671same as in the two previous cases of Pisum sativum and Canna.116721167324, 25, 26. Nicotiana tabacum.1167411675Four sets of measurements were made; in one, the self-fertilised plants11676greatly exceeded in height the crossed, in two others they were11677approximately equal to the crossed, and in the fourth were beaten by11678them; but this latter case does not here concern us. The individual11679plants differ in constitution, so that the descendants of some profit by11680their parents having been intercrossed, whilst others do not. Taking all11681three generations together, the twenty-seven crossed plants were in11682height to the twenty-seven self-fertilised plants as 100 to 96. This11683excess of height in the crossed plants, is so small compared with that11684displayed by the offspring from the same mother-plants when crossed by a11685slightly different variety, that we may suspect (as explained under11686Table 7/C) that most of the individuals belonging to the variety which11687served as the mother-plants in my experiments, had acquired a nearly11688similar constitution, so as not to profit by being mutually11689intercrossed.]1169011691Reviewing these twenty-six cases, in which the crossed plants either do11692not exceed the self-fertilised by above five per cent in height, or are11693inferior to them, we may conclude that much the greater number of the11694cases do not form real exceptions to the rule,--that a cross between two11695plants, unless these have been self-fertilised and exposed to nearly the11696same conditions for many generations, gives a great advantage of some11697kind to the offspring. Of the twenty-six cases, at least two, namely,11698those of Adonis and Bartonia, may be wholly excluded, as the trials were11699worthless from the extreme unhealthiness of the plants. Inn twelve other11700cases (three trials with Eschscholtzia here included) the crossed plants11701either were superior in height to the self-fertilised in all the other11702generations excepting the one in question, or they showed their11703superiority in some different manner, as in weight, fertility, or in11704flowering first; or again, the cross-fertilised flowers on the11705mother-plant were much more productive of seed than the self-fertilised.1170611707Deducting these fourteen cases, there remain twelve in which the crossed11708plants show no well-marked advantage over the self-fertilised. On the11709other hand, we have seen that there are fifty-seven cases in which the11710crossed plants exceed the self-fertilised in height by at least five per11711cent, and generally in a much higher degree. But even in the twelve11712cases just referred to, the want of any advantage on the crossed side is11713far from certain: with Thunbergia the parent-plants were in an odd11714semi-sterile condition, and the offspring grew very unequally; with11715Hibiscus and Apium much too few plants were raised for the measurements11716to be trusted, and the cross-fertilised flowers of Hibiscus produced11717rather more seed than did the self-fertilised; with Vandellia the11718crossed plants were a little taller and heavier than the11719self-fertilised, but as they were less fertile the case must be left11720doubtful. Lastly, with Pisum, Primula, the three generations of Canna,11721and the three of Nicotiana (which together complete the twelve cases), a11722cross between two plants certainly did no good or very little good to11723the offspring; but we have reason to believe that this is the result of11724these plants having been self-fertilised and cultivated under nearly11725uniform conditions for several generations. The same result followed11726with the experimental plants of Ipomoea and Mimulus, and to a certain11727extent with some other species, which had been intentionally treated by11728me in this manner; yet we know that these species in their normal11729condition profit greatly by being intercrossed. There is, therefore, not11730a single case in Table 7/A which affords decisive evidence against the11731rule that a cross between plants, the progenitors of which have been11732subjected to somewhat diversified conditions, is beneficial to the11733offspring. This is a surprising conclusion, for from the analogy of11734domesticated animals it could not have been anticipated, that the good11735effects of crossing or the evil effects of self-fertilisation would have11736been perceptible until the plants had been thus treated for several11737generations.1173811739The results given in Table 7/A may be looked at under another point of11740view. Hitherto each generation has been considered as a separate case,11741of which there are eighty-three; and this no doubt is the more correct11742method of comparing the crossed and self-fertilised plants.1174311744But in those cases in which plants of the same species were observed11745during several generations, a general average of their heights in all11746the generations together may be made; and such averages are given in11747Table 7/A; for instance, under Ipomoea the general average for the11748plants of all ten generations is as 100 for the crossed, to 77 for the11749self-fertilised plants. This having been done in each case in which more11750than one generation was raised, it is easy to calculate the average of11751the average heights of the crossed and self-fertilised plants of all the11752species included in Table 7/A. It should however be observed that as11753only a few plants of some species, whilst a considerable number of11754others, were measured, the value of the mean or average heights of the11755several species is very different. Subject to this source of error, it11756may be worth while to give the mean of the mean heights of the11757fifty-four species in Table 7/A; and the result is, calling the mean of11758the mean heights of the crossed plants 100, that of the self-fertilised11759plants is 87. But it is a better plan to divide the fifty-four species11760into three groups, as was done with the previously given eighty-three11761cases. The first group consists of species of which the mean heights of11762the self-fertilised plants are within five per cent of 100; so that the11763crossed and self-fertilised plants are approximately equal; and of such11764species there are twelve about which nothing need be said, the mean of11765the mean heights of the self-fertilised being of course very nearly 100,11766or exactly 99.58. The second group consists of the species, thirty-seven11767in number, of which the mean heights of the crossed plants exceed that11768of the self-fertilised plants by more than five per cent; and the mean11769of their mean heights is to that of the self-fertilised plants as 100 to1177078. The third group consists of the species, only five in number, of11771which the mean heights of the self-fertilised plants exceed that of the11772crossed by more than five per cent; and here the mean of the mean11773heights of the crossed plants is to that of the self-fertilised as 10011774to 109. Therefore if we exclude the species which are approximately11775equal, there are thirty-seven species in which the mean of the mean11776heights of the crossed plants exceeds that of the self-fertilised by11777twenty-two per cent; whereas there are only five species in which the11778mean of the mean heights of the self-fertilised plants exceeds that of11779the crossed, and this only by nine per cent.1178011781The truth of the conclusion--that the good effects of a cross depend on11782the plants having been subjected to different conditions or to their11783belonging to different varieties, in both of which cases they would11784almost certainly differ somewhat in constitution--is supported by a11785comparison of the Tables 7/A and 7/C. The latter table gives the results11786of crossing plants with a fresh stock or with a distinct variety; and11787the superiority of the crossed offspring over the self-fertilised is11788here much more general and much more strongly marked than in Table 7/A,11789in which plants of the same stock were crossed. We have just seen that11790the mean of the mean heights of the crossed plants of the whole11791fifty-four species in Table 7/A is to that of the self-fertilised plants11792as 100 to 87; whereas the mean of the mean heights of the plants crossed11793by a fresh stock is to that of the self-fertilised in Table 7/C as 10011794to 74. So that the crossed plants beat the self-fertilised plants by11795thirteen per cent in Table 7/A, and by twenty-six per cent, or double as11796much, in Table 7/C, which includes the results of the cross by a fresh11797stock.1179811799TABLE 7/B.1180011801A few words must be added on the weights of the crossed plants of the11802same stock, in comparison with the self-fertilised. Eleven cases are11803given in Table 7/B, relating to eight species. The number of plants11804which were weighed is shown in the two left columns, and their relative11805weights in the right column, that of the crossed plants being taken as11806100. A few other cases have already been recorded in Table 7/C in11807reference to plants crossed by a fresh stock. I regret that more trials11808of this kind were not made, as the evidence of the superiority of the11809crossed over the self-fertilised plants is thus shown in a more11810conclusive manner than by their relative heights. But this plan was not11811thought of until a rather late period, and there were difficulties11812either way, as the seeds had to be collected when ripe, by which time11813the plants had often begun to wither. In only one out of the eleven11814cases in Table 7/B, that of Eschscholtzia, do the self-fertilised plants11815exceed the crossed in weight; and we have already seen they are likewise11816superior to them in height, though inferior in fertility, the whole11817advantage of a cross being here confined to the reproductive system.11818With Vandellia the crossed plants were a little heavier, as they were11819also a little taller than the self-fertilised; but as a greater number11820of more productive capsules were produced by the cleistogene flowers on11821the self-fertilised plants than by those on the crossed plants, the case11822must be left, as remarked under Table 7/A, altogether doubtful. The11823crossed and self-fertilised offspring from a partially self-sterile11824plant of Reseda odorata were almost equal in weight, though not in11825height. In the remaining eight cases, the crossed plants show a11826wonderful superiority over the self-fertilised, being more than double11827their weight, except in one case, and here the ratio is as high as 10011828to 67. The results thus deduced from the weights of the plants confirm11829in a striking manner the former evidence of the beneficial effects of a11830cross between two plants of the same stock; and in the few cases in11831which plants derived from a cross with a fresh stock were weighed, the11832results are similar or even more striking.11833118341183511836CHAPTER VIII.1183711838DIFFERENCE BETWEEN CROSSED AND SELF-FERTILISED PLANTS IN CONSTITUTIONAL11839VIGOUR AND IN OTHER RESPECTS.1184011841Greater constitutional vigour of crossed plants.11842The effects of great crowding.11843Competition with other kinds of plants.11844Self-fertilised plants more liable to premature death.11845Crossed plants generally flower before the self-fertilised.11846Negative effects of intercrossing flowers on the same plant.11847Cases described.11848Transmission of the good effects of a cross to later generations.11849Effects of crossing plants of closely related parentage.11850Uniform colour of the flowers on plants self-fertilised during several11851generations and cultivated under similar conditions.1185211853GREATER CONSTITUTIONAL VIGOUR OF CROSSED PLANTS.1185411855As in almost all my experiments an equal number of crossed and11856self-fertilised seeds, or more commonly seedlings just beginning to11857sprout, were planted on the opposite sides of the same pots, they had to11858compete with one another; and the greater height, weight, and fertility11859of the crossed plants may be attributed to their possessing greater11860innate constitutional vigour. Generally the plants of the two lots11861whilst very young were of equal height; but afterwards the crossed11862gained insensibly on their opponents, and this shows that they possessed11863some inherent superiority, though not displayed at a very early period11864in life. There were, however, some conspicuous exceptions to the rule of11865the two lots being at first equal in height; thus the crossed seedlings11866of the broom (Sarothamnus scoparius) when under three inches in height11867were more than twice as tall as the self-fertilised plants.1186811869After the crossed or the self-fertilised plants had once grown decidedly11870taller than their opponents, a still increasing advantage would tend to11871follow from the stronger plants robbing the weaker ones of nourishment11872and overshadowing them. This was evidently the case with the crossed11873plants of Viola tricolor, which ultimately quite overwhelmed the11874self-fertilised. But that the crossed plants have an inherent11875superiority, independently of competition, was sometimes well shown when11876both lots were planted separately, not far distant from one another, in11877good soil in the open ground. This was likewise shown in several cases,11878even with plants growing in close competition with one another, by one11879of the self-fertilised plants exceeding for a time its crossed opponent,11880which had been injured by some accident or was at first sickly, but11881being ultimately conquered by it. The plants of the eighth generation of11882Ipomoea were raised from small seeds produced by unhealthy parents, and11883the self-fertilised plants grew at first very rapidly, so that when the11884plants of both lots were about three feet in height, the mean height of11885the crossed to that of the self-fertilised was as 100 to 122; when they11886were about six feet high the two lots were very nearly equal, but11887ultimately when between eight and nine feet in height, the crossed11888plants asserted their usually superiority, and were to the11889self-fertilised in height as 100 to 85.1189011891The constitutional superiority of the crossed over the self-fertilised11892plants was proved in another way in the third generation of Mimulus, by11893self-fertilised seeds being sown on one side of a pot, and after a11894certain interval of time crossed seeds on the opposite side. The11895self-fertilised seedlings thus had (for I ascertained that the seeds11896germinated simultaneously) a clear advantage over the crossed in the11897start for the race. Nevertheless they were easily beaten (as may be seen11898under the head of Mimulus) when the crossed seeds were sown two whole11899days after the self-fertilised. But when the interval was four days, the11900two lots were nearly equal throughout life. Even in this latter case the11901crossed plants still possessed an inherent advantage, for after both11902lots had grown to their full height they were cut down, and without11903being disturbed were transferred to a larger pot, and when in the11904ensuing year they had again grown to their full height they were11905measured; and now the tallest crossed plants were to the tallest11906self-fertilised plants in height as 100 to 75, and in fertility (i.e.,11907by weight of seeds produced by an equal number of capsules from both11908lots) as 100 to 34.1190911910My usual method of proceeding, namely, to plant several pairs of crossed11911and self-fertilised seeds in an equal state of germination on the11912opposite sides of the same pots, so that the plants were subjected to11913moderately severe mutual competition, was I think the best that could11914have been followed, and was a fair test of what occurs in a state of11915nature. For plants sown by nature generally come up crowded, and are11916almost always exposed to very severe competition with one another and11917with other kinds of plants. This latter consideration led me to make11918some trials, chiefly but not exclusively with Ipomoea and Mimulus, by11919sowing crossed and self-fertilised seeds on the opposite sides of large11920pots in which other plants had long been growing, or in the midst of11921other plants out of doors. The seedlings were thus subjected to very11922severe competition with plants of other kinds; and in all such cases,11923the crossed seedlings exhibited a great superiority in their power of11924growth over the self-fertilised.1192511926After the germinating seedlings had been planted in pairs on the11927opposite sides of several pots, the remaining seeds, whether or not in a11928state of germination, were in most cases sown very thickly on the two11929sides of an additional large pot; so that the seedlings came up11930extremely crowded, and were subjected to extremely severe competition11931and unfavourable conditions. In such cases the crossed plants almost11932invariably showed a greater superiority over the self-fertilised, than11933did the plants which grew in pairs in the pots.1193411935Sometimes crossed and self-fertilised seeds were sown in separate rows11936in the open ground, which was kept clear of weeds; so that the seedlings11937were not subjected to any competition with other kinds of plants. Those11938however in each row had to struggle with the adjoining ones in the same11939row. When fully grown, several of the tallest plants in each row were11940selected, measured, and compared. The result was in several cases (but11941not so invariably as might have been expected) that the crossed plants11942did not exceed in height the self-fertilised in nearly so great a degree11943as when grown in pairs in the pots. Thus with the plants of Digitalis,11944which competed together in pots, the crossed were to the self-fertilised11945in height as 100 to 70; whilst those which were grown separately were11946only as 100 to 85. Nearly the same result was observed with Brassica.11947With Nicotiana the crossed were to the self-fertilised plants in height,11948when grown extremely crowded together in pots, as 100 to 54; when grown11949much less crowded in pots as 100 to 66, and when grow in the open11950ground, so as to be subjected to but little competition, as 100 to 72.11951On the other hand with Zea, there was a greater difference in height11952between the crossed and self-fertilised plants growing out of doors,11953than between the pairs which grew in pots in the hothouse; but this may11954be attributed to the self-fertilised plants being more tender, so that11955they suffered more than the crossed, when both lots were exposed to a11956cold and wet summer. Lastly, with one out of two series of Reseda11957odorata, grown out of doors in rows, as well as with Beta vulgaris, the11958crossed plants did not at all exceed the self-fertilised in height, or11959exceeded them by a mere trifle.1196011961The innate power of the crossed plants to resist unfavourable conditions11962far better than did the self-fertilised plants, was shown on two11963occasions in a curious manner, namely, with Iberis and in the third11964generation of Petunia, by the great superiority in height of the crossed11965over the self-fertilised seedlings, when both sets were grown under11966extremely unfavourable conditions; whereas owing to special11967circumstances exactly the reverse occurred with the plants raised from11968the same seeds and grown in pairs in pots. A nearly analogous case was11969observed on two other occasions with plants of the first generation of11970Nicotiana.1197111972The crossed plants always withstood the injurious effects of being11973suddenly removed into the open air after having been kept in the11974greenhouse better than did the self-fertilised. On several occasions11975they also resisted much better cold and intemperate weather. This was11976manifestly the case with some crossed and self-fertilised plants of11977Ipomoea, which were suddenly moved from the hothouse to the coldest part11978of a cool greenhouse. The offspring of plants of the eighth11979self-fertilised generation of Mimulus crossed by a fresh stock, survived11980a frost which killed every single self-fertilised and intercrossed plant11981of the same old stock. Nearly the same result followed with some crossed11982and self-fertilised plants of Viola tricolor. Even the tips of the11983shoots of the crossed plants of Sarothamnus scoparius were not touched11984by a very severe winter; whereas all the self-fertilised plants were11985killed halfway down to the ground, so that they were not able to flower11986during the next summer. Young crossed seedlings of Nicotiana withstood a11987cold and wet summer much better than the self-fertilised seedlings. I11988have met with only one exception to the rule of crossed plants being11989hardier than the self-fertilised: three long rows of Eschscholtzia11990plants, consisting of crossed seedlings from a fresh stock, of11991intercrossed seedlings of the same stock, and of self-fertilised ones,11992were left unprotected during a severe winter, and all perished except11993two of the self-fertilised. But this case is not so anomalous as it at11994first appears, for it should be remembered that the self-fertilised11995plants of Eschscholtzia always grow taller and are heavier than the11996crossed; the whole benefit of a cross with this species being confined11997to increased fertility.1199811999Independently of any external cause which could be detected, the12000self-fertilised plants were more liable to premature death than were the12001crossed; and this seems to me a curious fact. Whilst the seedlings were12002very young, if one died its antagonist was pulled up and thrown away,12003and I believe that many more of the self-fertilised died at this early12004age than of the crossed; but I neglected to keep any record. With Beta12005vulgaris, however, it is certain that a large number of the12006self-fertilised seeds perished after germinating beneath the ground,12007whereas the crossed seeds sown at the same time did not thus suffer.12008When a plant died at a somewhat more advanced age the fact was recorded;12009and I find in my notes that out of several hundred plants, only seven of12010the crossed died, whilst of the self-fertilised at least twenty-nine12011were thus lost, that is more than four times as many. Mr. Galton, after12012examining some of my tables, remarks: "It is very evident that the12013columns with the self-fertilised plants include the larger number of12014exceptionally small plants;" and the frequent presence of such puny12015plants no doubt stands in close relation with their liability to12016premature death. The self-fertilised plants of Petunia completed their12017growth and began to wither sooner than did the intercrossed plants; and12018these latter considerably before the offspring from a cross with a fresh12019stock.1202012021PERIOD OF FLOWERING.1202212023In some cases, as with Digitalis, Dianthus, and Reseda, a larger number12024of the crossed than of the self-fertilised plants threw up flower-stems;12025but this probably was merely the result of their greater power of12026growth; for in the first generation of Lobelia fulgens, in which the12027self-fertilised plants greatly exceeded in height the crossed plants,12028some of the latter failed to throw up flower-stems. With a large number12029of species, the crossed plants exhibited a well-marked tendency to12030flower before the self-fertilised ones growing in the same pots. It12031should however be remarked that no record was kept of the flowering of12032many of the species; and when a record was kept, the flowering of the12033first plant in each pot was alone observed, although two or more pairs12034grew in the same pot. I will now give three lists,--one of the species12035in which the first plant that flowered was a crossed one,--a second in12036which the first that flowered was a self-fertilised plant,--and a third12037of those which flowered at the same time.1203812039[SPECIES, OF WHICH THE FIRST PLANTS THAT FLOWERED WERE OF CROSSED12040PARENTAGE.1204112042Ipomoea purpurea.1204312044I record in my notes that in all ten generations many of the crossed12045plants flowered before the self-fertilised; but no details were kept.1204612047Mimulus luteus (First Generation).1204812049Ten flowers on the crossed plants were fully expanded before one on the12050self-fertilised.1205112052Mimulus luteus (Second and Third Generation).1205312054In both these generations a crossed plant flowered before one of the12055self-fertilised in all three pots.1205612057Mimulus luteus (Fifth Generation).1205812059In all three pots a crossed plant flowered first; yet the12060self-fertilised plants, which belonged to the new tall variety, were in12061height to the crossed as 126 to 100.1206212063Mimulus luteus.1206412065Plants derived from a cross with a fresh stock as well as the12066intercrossed plants of the old stock, flowered before the12067self-fertilised plants in nine out of the ten pots.1206812069Salvia coccinea.1207012071A crossed plant flowered before any one of the self-fertilised in all12072three pots.1207312074Origanum vulgare.1207512076During two successive seasons several crossed plants flowered before the12077self-fertilised.1207812079Brassica oleracea (First Generation).1208012081All the crossed plants growing in pots and in the open ground flowered12082first.1208312084Brassica oleracea (Second Generation).1208512086A crossed plant in three out of the four pots flowered before any one of12087the self-fertilised.1208812089Iberis umbellata.1209012091In both pots a crossed plant flowered first.1209212093Eschscholtzia californica.1209412095Plants derived from the Brazilian stock crossed by the English stock12096flowered in five out of the nine pots first; in four of them a12097self-fertilised plant flowered first; and not in one pot did an12098intercrossed plant of the old stock flower first.1209912100Viola tricolor.1210112102A crossed plant in five out of the six pots flowered before any one of12103the self-fertilised.1210412105Dianthus caryophyllus (First Generation).1210612107In two large beds of plants, four of the crossed plants flowered before12108any one of the self-fertilised.1210912110Dianthus caryophyllus (Second Generation).1211112112In both pots a crossed plant flowered first.1211312114Dianthus caryophyllus (Third Generation).1211512116In three out of the four pots a crossed plant flowered first; yet the12117crossed were to the self-fertilised in height only as 100 to 99, but in12118weight as 100 to 49.1211912120Dianthus caryophyllus.1212112122Plants derived from a cross with a fresh stock, and the intercrossed12123plants of the old stock, both flowered before the self-fertilised in12124nine out of the ten pots.1212512126Hibiscus africanus.1212712128In three out of the four pots a crossed plant flowered before any one of12129the self-fertilised; yet the latter were to the crossed in height as 10912130to 100.1213112132Tropaeolum minus.1213312134A crossed plant flowered before any one of the self-fertilised in three12135out of the four pots, and simultaneously in the fourth pot.1213612137Limnanthes douglasii.1213812139A crossed plant flowered before any one of the self-fertilised in four12140out of the five pots.1214112142Phaseolus multiflorus.1214312144In both pots a crossed plant flowered first.1214512146Specularia speculum.1214712148In all four pots a crossed plant flowered first.1214912150Lobelia ramosa (First Generation).1215112152In all four pots a crossed plant flowered before any one of the12153self-fertilised.1215412155Lobelia ramosa (Second Generation).1215612157In all four pots a crossed plant flowered some days before any one of12158the self-fertilised.1215912160Nemophila insignis.1216112162In four out of the five pots a crossed plant flowered first.1216312164Borago officinalis.1216512166In both pots a crossed plant flowered first.1216712168Petunia violacea (Second Generation).1216912170In all three pots a crossed plant flowered first.1217112172Nicotiana tabacum.1217312174A plant derived from a cross with a fresh stock flowered before any one12175of the self-fertilised plants of the fourth generation, in fifteen out12176of the sixteen pots.1217712178Cyclamen persicum.1217912180During two successive seasons a crossed plant flowered some weeks before12181any one of the self-fertilised in all four pots.1218212183Primula veris (equal-styled var.)1218412185In all three pots a crossed plant flowered first.1218612187Primula sinensis.1218812189In all four pots plants derived from an illegitimate cross between12190distinct plants flowered before any one of the self-fertilised plants.1219112192Primula sinensis.1219312194A legitimately crossed plant flowered before any one of the12195self-fertilised plants in seven out of the eight pots.1219612197Fagopyrum esculentum.1219812199A legitimately crossed plant flowered from one to two days before any12200one of the self-fertilised plants in all three pots.1220112202Zea mays.1220312204In all four pots a crossed plant flowered first.1220512206Phalaris canariensis.1220712208The crossed plants flowered before the self-fertilised in the open12209ground, but simultaneously in the pots.1221012211SPECIES OF WHICH THE FIRST PLANTS THAT FLOWERED WERE OF SELF-FERTILISED12212PARENTAGE.1221312214Eschscholtzia californica (First Generation).1221512216The crossed plants were at first taller than the self-fertilised, but on12217their second growth during the following year the self-fertilised12218exceeded the crossed in height, and now they flowered first in three out12219of the four pots.1222012221Lupinus luteus.1222212223Although the crossed plants were to the self-fertilised in height as 10012224to 82; yet in all three pots the self-fertilised plants flowered first.1222512226Clarkia elegans.1222712228Although the crossed plants were, as in the last case, to the12229self-fertilised in height as 100 to 82, yet in the two pots the12230self-fertilised flowered first.1223112232Lobelia fulgens (First Generation).1223312234The crossed plants were to the self-fertilised in height only as 100 to12235127, and the latter flowered much before the crossed.1223612237Petunia violacea (Third Generation).1223812239The crossed plants were to the self-fertilised in height as 100 to 131,12240and in three out of the four pots a self-fertilised plant flowered12241first; in the fourth pot simultaneously.1224212243Petunia violacea (Fourth generation).1224412245Although the crossed plants were to the self-fertilised in height as 10012246to 69, yet in three out of the five pots a self-fertilised plant12247flowered first; in the fourth pot simultaneously, and only in the fifth12248did a crossed plant flower first.1224912250Nicotiana tabacum (First Generation).1225112252The crossed plants were to the self-fertilised in height only as 100 to12253178, and a self-fertilised plant flowered first in all four pots.1225412255Nicotiana tabacum (Third Generation).1225612257The crossed plants were to the self-fertilised in height as 100 to 101,12258and in four out of the five pots a self-fertilised plant flowered first.1225912260Canna warscewiczi.1226112262In the three generations taken together the crossed were to the12263self-fertilised in height as 100 to 101; in the first generation the12264self-fertilised plants showed some tendency to flower first, and in the12265third generation they flowered first in nine out of the twelve pots.1226612267SPECIES IN WHICH THE CROSSED AND SELF-FERTILISED PLANTS FLOWERED ALMOST12268SIMULTANEOUSLY.1226912270Mimulus luteus (Sixth Generation).1227112272The crossed plants were inferior in height and vigour to the12273self-fertilised plants, which all belonged to the new white-flowered12274tall variety, yet in only half the pots did the self-fertilised plants12275flower first, and in the other half the crossed plants.1227612277Viscaria oculata.1227812279The crossed plants were only a little taller than the self-fertilised12280(namely, as 100 to 97), but considerably more fertile, yet both lots12281flowered almost simultaneously.1228212283Lathyrus odoratus (Second Generation).1228412285Although the crossed plants were to the self-fertilised in height as 10012286to 88, yet there was no marked difference in their period of flowering.1228712288Lobelia fulgens (Second Generation).1228912290Although the crossed plants were to the self-fertilised in height as 10012291to 91, yet they flowered simultaneously.1229212293Nicotiana tabacum (Third Generation).1229412295Although the crossed plants were to the self-fertilised in height as 10012296to 83, yet in half the pots a self-fertilised plant flowered first, and12297in the other half a crossed plant.]1229812299These three lists include fifty-eight cases, in which the period of12300flowering of the crossed and self-fertilised plants was recorded. In12301forty-four of them a crossed plant flowered first either in a majority12302of the pots or in all; in nine instances a self-fertilised plant12303flowered first, and in five the two lots flowered simultaneously. One of12304the most striking cases is that of Cyclamen, in which the crossed plants12305flowered some weeks before the self-fertilised in all four pots during12306two seasons. In the second generation of Lobelia ramosa, a crossed plant12307flowered in all four pots some days before any one of the12308self-fertilised. Plants derived from a cross with a fresh stock12309generally showed a very strongly marked tendency to flower before the12310self-fertilised and the intercrossed plants of the old stock; all three12311lots growing in the same pots. Thus with Mimulus and Dianthus, in only12312one pot out of ten, and in Nicotiana in only one pot out of sixteen, did12313a self-fertilised plant flower before the plants of the two crossed12314kinds,--these latter flowering almost simultaneously.1231512316A consideration of the two first lists, especially of the second one,12317shows that a tendency to flower first is generally connected with12318greater power of growth, that is, with greater height. But there are12319some remarkable exceptions to this rule, proving that some other cause12320comes into play. Thus the crossed plants both of Lupinus luteus and12321Clarkia elegans were to the self-fertilised plants in height as 100 to1232282, and yet the latter flowered first. In the third generation of12323Nicotiana, and in all three generations of Canna, the crossed and12324self-fertilised plants were of nearly equal height, yet the12325self-fertilised tended to flower first. On the other hand, with Primula12326sinensis, plants raised from a cross between two distinct individuals,12327whether these were legitimately or illegitimately crossed, flowered12328before the illegitimately self-fertilised plants, although all the12329plants were of nearly equal height in both cases. So it was with respect12330to height and flowering with Phaseolus, Specularia, and Borago. The12331crossed plants of Hibiscus were inferior in height to the12332self-fertilised, in the ratio of 100 to 109, and yet they flowered12333before the self-fertilised in three out of the four pots. On the whole,12334there can be no doubt that the crossed plants exhibit a tendency to12335flower before the self-fertilised, almost though not quite so strongly12336marked as to grow to a greater height, to weigh more, and to be more12337fertile.1233812339A few other cases not included in the above three lists deserve notice.12340In all three pots of Viola tricolor, naturally crossed plants the12341offspring of crossed plants flowered before naturally crossed plants the12342offspring of self-fertilised plants. Flowers on two plants, both of12343self-fertilised parentage, of the sixth generation of Mimulus luteus12344were intercrossed, and other flowers on the same plants were fertilised12345with their own pollen; intercrossed seedlings and seedlings of the12346seventh self-fertilised generation were thus raised, and the latter12347flowered before the intercrossed in three out of the five pots. Flowers12348on a plant both of Mimulus luteus and of Ipomoea purpurea were crossed12349with pollen from other flowers on the same plant, and other flowers were12350fertilised with their own pollen; intercrossed seedlings of this12351peculiar kind, and others strictly self-fertilised being thus raised. In12352the case of the Mimulus the self-fertilised plants flowered first in12353seven out of the eight pots, and in the case of the Ipomoea in eight out12354of the ten pots; so that an intercross between the flowers on the same12355plant was very far from giving to the offspring thus raised, any12356advantage over the strictly self-fertilised plants in their period of12357flowering.1235812359EFFECTS OF CROSSING FLOWERS ON THE SAME PLANT.1236012361In the discussion on the results of a cross with a fresh stock, given12362under Table 7/C in the last chapter, it was shown that the mere act of12363crossing by itself does no good; but that the advantages thus derived12364depend on the plants which are crossed, either consisting of distinct12365varieties which will almost certainly differ somewhat in constitution,12366or on the progenitors of the plants which are crossed, though identical12367in every external character, having been subjected to somewhat different12368conditions and having thus acquired some slight difference in12369constitution. All the flowers produced by the same plant have been12370developed from the same seed; those which expand at the same time have12371been exposed to exactly the same climatic influences; and the stems have12372all been nourished by the same roots. Therefore in accordance with the12373conclusion just referred to, no good ought to result from crossing12374flowers on the same plant. (8/1. It is, however, possible that the12375stamens which differ in length or construction in the same flower may12376produce pollen differing in nature, and in this manner a cross might be12377made effective between the several flowers on the same plant. Mr. Macnab12378states in a communication to M. Verlot 'La Production des Varietes' 186512379page 42, that seedlings raised from the shorter and longer stamens of12380rhododendron differ in character; but the shorter stamens apparently are12381becoming rudimentary, and the seedlings are dwarfs, so that the result12382may be simply due to a want of fertilising power in the pollen, as in12383the case of the dwarfed plants of Mirabilis raised by Naudin by the use12384of too few pollen-grains. Analogous statements have been made with12385respect to the stamens of Pelargonium. With some of the Melastomaceae,12386seedlings raised by me from flowers fertilised by pollen from the12387shorter stamens, certainly differed in appearance from those raised from12388the longer stamens, with differently coloured anthers; but here, again,12389there is some reason for believing that the shorter stamens are tending12390towards abortion. In the very different case of trimorphic heterostyled12391plants, the two sets of stamens in the same flower have widely different12392fertilising powers.) In opposition to this conclusion is the fact that a12393bud is in one sense a distinct individual, and is capable of12394occasionally or even not rarely assuming new external characters, as12395well as new constitutional peculiarities. Plants raised from buds which12396have thus varied may be propagated for a great length of time by grafts,12397cuttings, etc., and sometimes even by seminal generation. (8/2. I have12398given numerous cases of such bud-variations in my 'Variation of Animals12399and Plants under Domestication' chapter 11 2nd edition volume 1 page12400448.) There exist also numerous species in which the flowers on the same12401plant differ from one another,--as in the sexual organs of monoecious12402and polygamous plants,--in the structure of the circumferential flowers12403in many Compositae, Umbelliferae, etc.,--in the structure of the central12404flower in some plants,--in the two kinds of flowers produced by12405cleistogene species,--and in several other such cases. These instances12406clearly prove that the flowers on the same plant have often varied12407independently of one another in many important respects, such variations12408having been fixed, like those on distinct plants during the development12409of species.1241012411It was therefore necessary to ascertain by experiment what would be the12412effect of intercrossing flowers on the same plant, in comparison with12413fertilising them with their own pollen or crossing them with pollen from12414a distinct plant. Trials were carefully made on five genera belonging to12415four families; and in only one case, namely, Digitalis, did the12416offspring from a cross between the flowers on the same plant receive any12417benefit, and the benefit here was small compared with that derived from12418a cross between distinct plants. In the chapter on Fertility, when we12419consider the effects of cross-fertilisation and self-fertilisation on12420the productiveness of the parent-plants we shall arrive at nearly the12421same result, namely, that a cross between the flowers on the same plant12422does not at all increase the number of the seeds, or only occasionally12423and to a slight degree. I will now give an abstract of the results of12424the five trials which were made.12425124261. Digitalis purpurea.1242712428Seedlings raised from intercrossed flowers on the same plant, and others12429from flowers fertilised with their own pollen, were grown in the usual12430manner in competition with one another on the opposite sides of ten12431pots. In this and the four following cases, the details may be found12432under the head of each species. In eight pots, in which the plants did12433not grow much crowded, the flower-stems on sixteen intercrossed plants12434were in height to those on sixteen self-fertilised plants, as 100 to 94.12435In the two other pots on which the plants grew much crowded, the12436flower-stems on nine intercrossed plants were in height to those on nine12437self-fertilised plants, as 100 to 90. That the intercrossed plants in12438these two latter pots had a real advantage over their self-fertilised12439opponents, was well shown by their relative weights when cut down, which12440was as 100 to 78. The mean height of the flower-stems on the twenty-five12441intercrossed plants in the ten pots taken together, was to that of the12442flower-stems on the twenty-five self-fertilised plants, as 100 to 92.12443Thus the intercrossed plants were certainly superior to the12444self-fertilised in some degree; but their superiority was small compared12445with that of the offspring from a cross between distinct plants over the12446self-fertilised, this being in the ratio of 100 to 70 in height. Nor12447does this latter ratio show at all fairly the great superiority of the12448plants derived from a cross between distinct individuals over the12449self-fertilised, as the former produced more than twice as many12450flower-stems as the latter, and were much less liable to premature12451death.12452124532. Ipomoea purpurea.1245412455Thirty-one intercrossed plants raised from a cross between flowers on12456the same plants were grown in ten pots in competition with the same12457number of self-fertilised plants, and the former were to the latter in12458height as 100 to 105. So that the self-fertilised plants were a little12459taller than the intercrossed; and in eight out of the ten pots a12460self-fertilised plant flowered before any one of the crossed plants in12461the same pots. The plants which were not greatly crowded in nine of the12462pots (and these offer the fairest standard of comparison) were cut down12463and weighed; and the weight of the twenty-seven intercrossed plants was12464to that of the twenty-seven self-fertilised as 100 to 124; so that by12465this test the superiority of the self-fertilised was strongly marked. To12466this subject of the superiority of the self-fertilised plants in certain12467cases, I shall have to recur in a future chapter. If we now turn to the12468offspring from a cross between distinct plants when put into competition12469with self-fertilised plants, we find that the mean height of12470seventy-three such crossed plants, in the course of ten generations, was12471to that of the same number of self-fertilised plants as 100 to 77; and12472in the case of the plants of the tenth generation in weight as 100 to1247344. Thus the contrast between the effects of crossing flowers on the12474same plant, and of crossing flowers on distinct plants, is wonderfully12475great.12476124773. Mimulus luteus.1247812479Twenty-two plants raised by crossing flowers on the same plant were12480grown in competition with the same number of self-fertilised plants; and12481the former were to the latter in height as 100 to 105, and in weight as12482100 to 103. Moreover, in seven out of the eight pots a self-fertilised12483plant flowered before any of the intercrossed plants. So that here again12484the self-fertilised exhibit a slight superiority over the intercrossed12485plants. For the sake of comparison, I may add that seedlings raised12486during three generations from a cross between distinct plants were to12487the self-fertilised plants in height as 100 to 65.12488124894. Pelargonium zonale.1249012491Two plants growing in separate pots, which had been propagated by12492cuttings from the same plant, and therefore formed in fact parts of the12493same individual, were intercrossed, and other flowers on one of these12494plants were self-fertilised; but the seedlings obtained by the two12495processes did not differ in height. When, on the other hand, flowers on12496one of the above plants were crossed with pollen taken from a distinct12497seedling, and other flowers were self-fertilised, the crossed offspring12498thus obtained were to the self-fertilised in height as 100 to 74.12499125005. Origanum vulgare.1250112502A plant which had been long cultivated in my kitchen garden, had spread12503by stolons so as to form a large bed or clump. Seedlings raised by12504intercrossing flowers on these plants, which strictly consisted of the12505same plant, and other seedlings raised from self-fertilised flowers,12506were carefully compared from their earliest youth to maturity; and they12507did not differ at all in height or in constitutional vigour. Some12508flowers on these seedlings were then crossed with pollen taken from a12509distinct seedling, and other flowers were self-fertilised; two fresh12510lots of seedlings being thus raised, which were the grandchildren of the12511plant that had spread by stolons and formed a large clump in my garden.12512These differed much in height, the crossed plants being to the12513self-fertilised as 100 to 86. They differed, also, to a wonderful degree12514in constitutional vigour. The crossed plants flowered first, and12515produced exactly twice as many flower-stems; and they afterwards12516increased by stolons to such an extent as almost to overwhelm the12517self-fertilised plants.1251812519Reviewing these five cases, we see that in four of them, the effect of a12520cross between flowers on the same plant (even on offsets of the same12521plant growing on separate roots, as with the Pelargonium and Origanum)12522does not differ from that of the strictest self-fertilisation. Indeed,12523in two of the cases the self-fertilised plants were superior to such12524intercrossed plants. With Digitalis a cross between the flowers on the12525same plant certainly did do some good, yet very slight compared with12526that from a cross between distinct plants. On the whole the results here12527arrived at, if we bear in mind that the flower-buds are to a certain12528extent distinct individuals and occasionally vary independently of one12529another, agree well with our general conclusion, that the advantages of12530a cross depend on the progenitors of the crossed plants possessing12531somewhat different constitutions, either from having been exposed to12532different conditions, or to their having varied from unknown causes in a12533manner which we in our ignorance are forced to speak of as spontaneous.12534Hereafter I shall have to recur to this subject of the inefficiency of a12535cross between the flowers on the same plant, when we consider the part12536which insects play in the cross-fertilisation of flowers.1253712538ON THE TRANSMISSION OF THE GOOD EFFECTS FROM A CROSS AND OF THE EVIL12539EFFECTS FROM SELF-FERTILISATION.1254012541We have seen that seedlings from a cross between distinct plants almost12542always exceed their self-fertilised opponents in height, weight, and12543constitutional vigour, and, as will hereafter be shown, often in12544fertility. To ascertain whether this superiority would be transmitted12545beyond the first generation, seedlings were raised on three occasions12546from crossed and self-fertilised plants, both sets being fertilised in12547the same manner, and therefore not as in the many cases given in Tables125487/A, 7/B, 7/C, in which the crossed plants were again crossed and the12549self-fertilised again self-fertilised.1255012551Firstly, seedlings were raised from self-fertilised seeds produced under12552a net by crossed and self-fertilised plants of Nemophila insignis; and12553the latter were to the former in height as 133 to 100. But these12554seedlings became very unhealthy early in life, and grew so unequally12555that some of them in both lots were five times as tall as the others.12556Therefore this experiment was quite worthless; but I have felt bound to12557give it, as opposed to my general conclusion. I should state that in12558this and the two following trials, both sets of plants were grown on the12559opposite sides of the same pots, and treated in all respects alike. The12560details of the experiments may be found under the head of each species.1256112562Secondly, a crossed and a self-fertilised plant of Heartsease (Viola12563tricolor) grew near together in the open ground and near to other plants12564of heartsease; and as both produced an abundance of very fine capsules,12565the flowers on both were certainly cross-fertilised by insects. Seeds12566were collected from both plants, and seedlings raised from them. Those12567from the crossed plants flowered in all three pots before those from the12568self-fertilised plants; and when fully grown the former were to the12569latter in height as 100 to 82. As both sets of plants were the product12570of cross-fertilisation, the difference in their growth and period of12571flowering was clearly due to their parents having been of crossed and12572self-fertilised parentage; and it is equally clear that they transmitted12573different constitutional powers to their offspring, the grandchildren of12574the plants which were originally crossed and self-fertilised.1257512576Thirdly, the Sweet Pea (Lathyrus odoratus) habitually fertilises itself12577in this country. As I possessed plants, the parents and grandparents of12578which had been artificially crossed and other plants descended from the12579same parents which had been self-fertilised for many previous12580generations, these two lots of plants were allowed to fertilise12581themselves under a net, and their self-fertilised seeds saved. The12582seedlings thus raised were grown in competition with each other in the12583usual manner, and differed in their powers of growth. Those from the12584self-fertilised plants which had been crossed during the two previous12585generations were to those from the plants self-fertilised during many12586previous generations in height as 100 to 90. These two lots of seeds12587were likewise tried by being sown under very unfavourable conditions in12588poor exhausted soil, and the plants whose grandparents and12589great-grandparents had been crossed showed in an unmistakable manner12590their superior constitutional vigour. In this case, as in that of the12591heartsease, there could be no doubt that the advantage derived from a12592cross between two plants was not confined to the offspring of the first12593generation. That constitutional vigour due to cross-parentage is12594transmitted for many generations may also be inferred as highly12595probable, from some of Andrew Knight's varieties of the common pea,12596which were raised by crossing distinct varieties, after which time they12597no doubt fertilised themselves in each succeeding generation. These12598varieties lasted for upwards of sixty years, "but their glory is now12599departed." (8/3. See the evidence on this head in my 'Variation under12600Domestication' chapter 9 volume 1 2nd edition page 397.) On the other12601hand, most of the varieties of the common pea, which there is no reason12602to suppose owe their origin to a cross, have had a much shorter12603existence. Some also of Mr. Laxton's varieties produced by artificial12604crosses have retained their astonishing vigour and luxuriance for a12605considerable number of generations; but as Mr. Laxton informs me, his12606experience does not extend beyond twelve generations, within which12607period he has never perceived any diminution of vigour in his plants.1260812609An allied point may be here noticed. As the force of inheritance is12610strong with plants (of which abundant evidence could be given), it is12611almost certain that seedlings from the same capsule or from the same12612plant would tend to inherit nearly the same constitution; and as the12613advantage from a cross depends on the plants which are crossed differing12614somewhat in constitution, it may be inferred as probable that under12615similar conditions a cross between the nearest relations would not12616benefit the offspring so much as one between non-related plants. In12617support of this conclusion we have some evidence, as Fritz Muller has12618shown by his valuable experiments on hybrid Abutilons, that the union of12619brothers and sisters, parents and children, and of other near relations12620is highly injurious to the fertility of the offspring. In one case,12621moreover, seedlings from such near relations possessed very weak12622constitutions. (8/4. 'Jenaische Zeitschrift fur Naturw.' B. 7 pages 2212623and 45 1872 and 1873 pages 441-450.) This same observer also found three12624plants of a Bignonia growing near together. (8/5. 'Botanische Zeitung'126251868 page 626.) He fertilised twenty-nine flowers on one of them with12626their own pollen, and they did not set a single capsule. Thirty flowers12627were then fertilised with pollen from a distinct plant, one of the three12628growing together, and they yielded only two capsules. Lastly, five12629flowers were fertilised with pollen from a fourth plant growing at a12630distance, and all five produced capsules. It seems therefore probable,12631as Fritz Muller suggests, that the three plants growing near together12632were seedlings from the same parent, and that from being closely related12633they had little power of fertilising one another. (8/6. Some remarkable12634cases are given in my 'Variation under Domestication' chapter 17 2nd12635edition volume 2 page 121, of hybrids of Gladiolus and Cistus, any one12636of which could be fertilised by pollen from any other, but not by its12637own pollen.)1263812639Lastly, the fact of the intercrossed plants in Table 7/A not exceeding12640in height the self-fertilised plants in a greater and greater degree in12641the later generations, is probably the result of their having become12642more and more closely inter-related.1264312644UNIFORM COLOUR OF THE FLOWERS ON PLANTS, SELF-FERTILISED AND GROWN UNDER12645SIMILAR CONDITIONS FOR SEVERAL GENERATIONS.1264612647At the commencement of my experiments, the parent-plants of Mimulus12648luteus, Ipomoea purpurea, Dianthus caryophyllus, and Petunia violacea,12649raised from purchased seeds, varied greatly in the colour of their12650flowers. This occurs with many plants which have been long cultivated as12651an ornament for the flower-garden, and which have been propagated by12652seeds. The colour of the flowers was a point to which I did not at first12653in the least attend, and no selection whatever was practised.12654Nevertheless, the flowers produced by the self-fertilised plants of the12655above four species became absolutely uniform in tint, or very nearly so,12656after they had been grown for some generations under closely similar12657conditions. The intercrossed plants, which were more or less closely12658inter-related in the later generations, and which had been likewise12659cultivated all the time under similar conditions, became more uniform in12660the colour of their flowers than were the original parent-plants, but12661much less so than the self-fertilised plants. When self-fertilised12662plants of one of the later generations were crossed with a fresh stock,12663and seedlings thus raised, these presented a wonderful contrast in the12664diversified tints of their flowers compared with those of the12665self-fertilised seedlings. As such cases of flowers becoming uniformly12666coloured without any aid from selection seem to me curious, I will give12667a full abstract of my observations.1266812669Mimulus luteus.1267012671A tall variety, bearing large, almost white flowers blotched with12672crimson, appeared amongst the intercrossed and self-fertilised plants of12673the third and fourth generations. This variety increased so rapidly,12674that in the sixth generation of self-fertilised plants every single one12675consisted of it. So it was with all the many plants which were raised,12676up to the last or ninth self-fertilised generation. Although this12677variety first appeared amongst the intercrossed plants, yet from their12678offspring being intercrossed in each succeeding generation, it never12679prevailed amongst them; and the flowers on the several intercrossed12680plants of the ninth generation differed considerably in colour. On the12681other hand, the uniformity in colour of the flowers on the plants of all12682the later self-fertilised generations was quite surprising; on a casual12683inspection they might have been said to be quite alike, but the crimson12684blotches were not of exactly the same shape, or in exactly the same12685position. Both my gardener and myself believe that this variety did not12686appear amongst the parent-plants, raised from purchased seeds, but from12687its appearance amongst both the crossed and self-fertilised plants of12688the third and fourth generations; and from what I have seen of the12689variation of this species on other occasions, it is probable that it12690would occasionally appear under any circumstances. We learn, however,12691from the present case that under the peculiar conditions to which my12692plants were subjected, this particular variety, remarkable for its12693colouring, largeness of the corolla, and increased height of the whole12694plant, prevailed in the sixth and all the succeeding self-fertilised12695generations to the complete exclusion of every other variety.1269612697Ipomoea purpurea.1269812699My attention was first drawn to the present subject by observing that12700the flowers on all the plants of the seventh self-fertilised generation12701were of a uniform, remarkably rich, dark purple tint. The many plants12702which were raised during the three succeeding generations, up to the12703last or tenth, all produced flowers coloured in the same manner. They12704were absolutely uniform in tint, like those of a constant species living12705in a state of nature; and the self-fertilised plants might have been12706distinguished with certainty, as my gardener remarked, without the aid12707of labels, from the intercrossed plants of the later generations. These,12708however, had more uniformly coloured flowers than those which were first12709raised from the purchased seeds. This dark purple variety did not12710appear, as far as my gardener and myself could recollect, before the12711fifth or sixth self-fertilised generation. However this may have been,12712it became, through continued self-fertilisation and the cultivation of12713the plants under uniform conditions, perfectly constant, to the12714exclusion of every other variety.1271512716Dianthus caryophyllus.1271712718The self-fertilised plants of the third generation all bore flowers of12719exactly the same pale rose-colour; and in this respect they differed12720quite remarkably from the plants growing in a large bed close by and12721raised from seeds purchased from the same nursery garden. In this case12722it is not improbable that some of the parent-plants which were first12723self-fertilised may have borne flowers thus coloured; but as several12724plants were self-fertilised in the first generation, it is extremely12725improbable that all bore flowers of exactly the same tint as those of12726the self-fertilised plants of the third generation. The intercrossed12727plants of the third generation likewise produced flowers almost, though12728not quite so uniform in tint as those of the self-fertilised plants.1272912730Petunia violacea.1273112732In this case I happened to record in my notes that the flowers on the12733parent-plant which was first self-fertilised were of a "dingy purple12734colour." In the fifth self-fertilised generation, every one of the12735twenty-one self-fertilised plants growing in pots, and all the many12736plants in a long row out of doors, produced flowers of absolutely the12737same tint, namely, of a dull, rather peculiar and ugly flesh colour;12738therefore, considerably unlike those on the parent-plant. I believe that12739this change of colour supervened quite gradually; but I kept no record,12740as the point did not interest me until I was struck with the uniform12741tint of the flowers on the self-fertilised plants of the fifth12742generation. The flowers on the intercrossed plants of the corresponding12743generation were mostly of the same dull flesh colour, but not nearly so12744uniform as those on the self-fertilised plants, some few being very12745pale, almost white. The self-fertilised plants which grew in a long row12746in the open ground were also remarkable for their uniformity in height,12747as were the intercrossed plants in a less degree, both lots being12748compared with a large number of plants raised at the same time under12749similar conditions from the self-fertilised plants of the fourth12750generation crossed by a fresh stock. I regret that I did not attend to12751the uniformity in height of the self-fertilised seedlings in the later12752generations of the other species.1275312754These few cases seem to me to possess much interest. We learn from them12755that new and slight shades of colour may be quickly and firmly fixed,12756independently of any selection, if the conditions are kept as nearly12757uniform as is possible, and no intercrossing be permitted. With Mimulus,12758not only a grotesque style of colouring, but a larger corolla and12759increased height of the whole plant were thus fixed; whereas with most12760plants which have been long cultivated for the flower-garden, no12761character is more variable than that of colour, excepting perhaps that12762of height. From the consideration of these cases we may infer that the12763variability of cultivated plants in the above respects is due, firstly,12764to their being subjected to somewhat diversified conditions, and,12765secondly, to their being often intercrossed, as would follow from the12766free access of insects. I do not see how this inference can be avoided,12767as when the above plants were cultivated for several generations under12768closely similar conditions, and were intercrossed in each generation,12769the colour of their flowers tended in some degree to change and to12770become uniform. When no intercrossing with other plants of the same12771stock was allowed,--that is, when the flowers were fertilised with their12772own pollen in each generation--their colour in the later generations12773became as uniform as that of plants growing in a state of nature,12774accompanied at least in one instance by much uniformity in the height of12775the plants. But in saying that the diversified tints of the flowers on12776cultivated plants treated in the ordinary manner are due to differences12777in the soil, climate, etc., to which they are exposed, I do not wish to12778imply that such variations are caused by these agencies in any more12779direct manner than that in which the most diversified illnesses, as12780colds, inflammation of the lungs or pleura, rheumatism, etc., may be12781said to be caused by exposure to cold. In both cases the constitution of12782the being which is acted on is of preponderant importance.12783127841278512786CHAPTER IX.1278712788THE EFFECTS OF CROSS-FERTILISATION AND SELF-FERTILISATION ON THE12789PRODUCTION OF SEEDS.1279012791Fertility of plants of crossed and self-fertilised parentage, both lots12792being fertilised in the same manner.12793Fertility of the parent-plants when first crossed and self-fertilised,12794and of their crossed and self-fertilised offspring when again crossed12795and self-fertilised.12796Comparison of the fertility of flowers fertilised with their own pollen12797and with that from other flowers on the same plant.12798Self-sterile plants.12799Causes of self-sterility.12800The appearance of highly self-fertile varieties.12801Self-fertilisation apparently in some respects beneficial, independently12802of the assured production of seeds.12803Relative weights and rates of germination of seeds from crossed and12804self-fertilised flowers.1280512806The present chapter is devoted to the Fertility of plants, as influenced12807by cross-fertilisation and self-fertilisation. The subject consists of12808two distinct branches; firstly, the relative productiveness or fertility12809of flowers crossed with pollen from a distinct plant and with their own12810pollen, as shown by the proportional number of capsules which they12811produce, together with the number of the contained seeds. Secondly, the12812degree of innate fertility or sterility of the seedlings raised from12813crossed and self-fertilised seeds; such seedlings being of the same age,12814grown under the same conditions, and fertilised in the same manner.12815These two branches of the subject correspond with the two which have to12816be considered by any one treating of hybrid plants; namely, in the first12817place the comparative productiveness of a species when fertilised with12818pollen from a distinct species and with its own pollen; and in the12819second place, the fertility of its hybrid offspring. These two classes12820of cases do not always run parallel; thus some plants, as Gartner has12821shown, can be crossed with great ease, but yield excessively sterile12822hybrids; while others are crossed with extreme difficulty, but yield12823fairly fertile hybrids.1282412825The natural order to follow in this chapter would have been first to12826consider the effects on the fertility of the parent-plants of crossing12827them, and of fertilising them with their own pollen; but as we have12828discussed in the two last chapters the relative height, weight, and12829constitutional vigour of crossed and self-fertilised plants--that is, of12830plants raised from crossed and self-fertilised seeds--it will be12831convenient here first to consider their relative fertility. The cases12832observed by me are given in Table 9/D, in which plants of crossed and12833self-fertilised parentage were left to fertilise themselves, being12834either crossed by insects or spontaneously self-fertilised. It should be12835observed that the results cannot be considered as fully trustworthy, for12836the fertility of a plant is a most variable element, depending on its12837age, health, nature of the soil, amount of water given, and temperature12838to which it is exposed. The number of the capsules produced and the12839number of the contained seeds, ought to have been ascertained on a large12840number of crossed and self-fertilised plants of the same age and treated12841in every respect alike. In these two latter respects my observations may12842be trusted, but a sufficient number of capsules were counted only in a12843few instances. The fertility, or as it may perhaps better be called the12844productiveness, of a plant depends on the number of capsules produced,12845and on the number of seeds which these contain. But from various causes,12846chiefly from the want of time, I was often compelled to rely on the12847number of the capsules alone. Nevertheless, in the more interesting12848cases, the seeds were also counted or weighed. The average number of12849seeds per capsule is a more valuable criterion of fertility than the12850number of capsules produced. This latter circumstance depends partly on12851the size of the plant; and we know that crossed plants are generally12852taller and heavier than the self-fertilised; but the difference in this12853respect is rarely sufficient to account for the difference in the number12854of the capsules produced. It need hardly be added that in Table 9/D the12855same number of crossed and self-fertilised plants are always compared.12856Subject to the foregoing sources of doubt I will now give the table, in12857which the parentage of the plants experimented on, and the manner of12858determining their fertility are explained. Fuller details may be found12859in the previous part of this work, under the head of each species.1286012861TABLE 9/D.--RELATIVE FERTILITY OF PLANTS OF CROSSED AND SELF-FERTILISED12862PARENTAGE, BOTH SETS BEING FERTILISED IN THE SAME MANNER. FERTILITY12863JUDGED OF BY VARIOUS STANDARDS. THAT OF THE CROSSED PLANTS TAKEN AS 100.1286412865Column 1: Name of plant and feature observed.1286612867Column 2: x, in the expression, as 100 to x.1286812869Ipomoea purpurea--first generation: seeds per capsule on crossed and12870self-fertilised plants, not growing much crowded, spontaneously12871self-fertilised under a net, in number: 99.1287212873Ipomoea purpurea--seeds per capsule on crossed and self-fertilised12874plants from the same parents as in the last case, but growing much12875crowded, spontaneously self-fertilised under a net, in number: 93.1287612877Ipomoea purpurea--productiveness of the same plants, as judged by the12878number of capsules produced, and average number of seeds per capsule:1287945.1288012881Ipomoea purpurea--third generation: seeds per capsule on crossed and12882self-fertilised plants, spontaneously self-fertilised under a net, in12883number: 94.1288412885Ipomoea purpurea--productiveness of the same plants, as judged by the12886number of capsules produced, and the average number of seeds per12887capsule: 35.1288812889Ipomoea purpurea--fifth generation: seeds per capsule on crossed and12890self-fertilised plants, left uncovered in the hothouse, and12891spontaneously fertilised: 89.1289212893Ipomoea purpurea--ninth generation: number of capsules on crossed plants12894to those on self-fertilised plants, spontaneously self-fertilised under12895a net: 26.1289612897Mimulus luteus--an equal number of capsules on plants descended from12898self-fertilised plants of the 8th generation crossed by a fresh stock,12899and on plants of the 9th self-fertilised generation, both sets having12900been left uncovered and spontaneously fertilised, contained seeds, by12901weight: 30.1290212903Mimulus luteus--productiveness of the same plants, as judged by the12904number of capsules produced, and the average weight of seeds per12905capsule: 3.1290612907Vandellia nummularifolia--seeds per capsule from cleistogene flowers on12908the crossed and self-fertilised plants, in number: 106.1290912910Salvia coccinea--crossed plants, compared with self-fertilised plants,12911produced flowers, in number: 57.1291212913Iberis umbellata--plants left uncovered in greenhouse; intercrossed12914plants of the 3rd generation, compared with self-fertilised plants of12915the 3rd generation, yielded seeds, in number: 75.1291612917Iberis umbellata--plants from a cross between two varieties, compared12918with self-fertilised plants of the 3rd generation, yielded seeds, by12919weight : 75.1292012921Papaver vagum--crossed and self-fertilised plants, left uncovered,12922produced capsules, in number: 99.1292312924Eschscholtzia californica--Brazilian stock; plants left uncovered and12925cross-fertilised by bees; capsules on intercrossed plants of the 2nd12926generation, compared with capsules on self-fertilised plants of 2nd12927generation, contained seeds, in number: 78.1292812929Eschscholtzia californica--productiveness of the same plants, as judged12930by the number of capsules produced, and the average number of seeds per12931capsule: 89.1293212933Eschscholtzia californica--plants left uncovered and cross-fertilised by12934bees; capsules on plants derived from intercrossed plants of the 2nd12935generation of the Brazilian stock crossed by English stock, compared12936with capsules on self-fertilised plants of 2nd generation, contained12937seeds, in number: 63.1293812939Eschscholtzia californica--productiveness of the same plants, as judged12940by the number of capsules produced, and the average number of seeds per12941capsule: 40.1294212943Reseda odorata--crossed and self-fertilised plants, left uncovered and12944cross-fertilised by bees; produced capsules in number (about): 100.1294512946Viola tricolor--crossed and self-fertilised plants, left uncovered and12947cross-fertilised by bees, produced capsules in number: 10.1294812949Delphinium consolida--crossed and self-fertilised plants, left uncovered12950in the greenhouse, produced capsules in number: 56.1295112952Viscaria oculata--crossed and self-fertilised plants, left uncovered in12953the greenhouse, produced capsules in number: 77.1295412955Dianthus caryophyllus--plants spontaneously self-fertilised under a net;12956capsules on intercrossed and self-fertilised plants of the 3rd12957generation contained seeds in number: 125.1295812959Dianthus caryophyllus--plants left uncovered and cross-fertilised by12960insects: offspring from plants self-fertilised for three generations and12961then crossed by an intercrossed plant of the same stock, compared with12962plants of the 4th self-fertilised generation, produced seeds by weight:1296373.1296412965Dianthus caryophyllus--plants left uncovered and cross-fertilised by12966insects: offspring from plants self-fertilised for three generations and12967then crossed by a fresh stock, compared with plants of the 4th12968self-fertilised generation, produced seeds by weight: 33.1296912970Tropaeolum minus--crossed and self-fertilised plants, left uncovered in12971the greenhouse, produced seeds in number: 64.1297212973Limnanthes douglasii--crossed and self-fertilised plants, left uncovered12974in the greenhouse, produced capsules in number (about): 100.1297512976Lupinus luteus--crossed and self-fertilised plants of the 2nd12977generation, left uncovered in the greenhouse, produced seeds in number12978(judged from only a few pods): 88.1297912980Phaseolus multiflorus--crossed and self-fertilised plants, left12981uncovered in the greenhouse, produced seeds in number (about): 100.1298212983Lathyrus odoratus--crossed and self-fertilised plants of the 2nd12984generation, left uncovered in the greenhouse, but certainly12985self-fertilised, produced pods in number: 91.1298612987Clarkia elegans--crossed and self-fertilised plants, left uncovered in12988the greenhouse, produced capsules in number: 60.1298912990Nemophila insignis--crossed and self-fertilised plants, covered by a net12991and spontaneously self-fertilised in the greenhouse, produced capsules12992in number: 29.1299312994Petunia violacea--left uncovered and cross-fertilised by insects: plants12995of the 5th intercrossed and self-fertilised generations produced seeds,12996as judged by the weight of an equal number of capsules: 86.1299712998Petunia violacea--left uncovered as above: offspring of plants12999self-fertilised for four generations and then crossed by a fresh stock,13000compared with plants of the 5th self-fertilised generation, produced13001seeds, as judged by the weight of an equal number of capsules: 46.1300213003Cyclamen persicum--crossed and self-fertilised plants, left uncovered in13004the greenhouse, produced capsules in number: 12.1300513006Anagallis collina--crossed and self-fertilised plants, left uncovered in13007the greenhouse, produced capsules in number: 8.1300813009Primula veris--left uncovered in open ground and cross-fertilised by13010insects: offspring from plants of the 3rd illegitimate generation13011crossed by a fresh stock, compared with plants of the 4th illegitimate13012and self-fertilised generation, produced capsules in number: 5.1301313014Same plants in the following year: 3.5.1301513016Primula veris--(equal-styled variety): left uncovered in open ground and13017cross-fertilised by insects: offspring from plants self-fertilised for13018two generations and then crossed by another variety, compared with13019plants of the 3rd self-fertilised generation, produced capsules in13020number: 15.1302113022Primula veris--(equal-styled variety) same plants; average number of13023seeds per capsule: 71.1302413025Primula veris--(equal-styled variety) productiveness of the same plants,13026as judged by the number of capsules produced and the average number of13027seeds per capsule: 11.1302813029This table includes thirty-three cases relating to twenty-three species,13030and shows the degree of innate fertility of plants of crossed parentage13031in comparison with those of self-fertilised parentage; both lots being13032fertilised in the same manner. With several of the species, as with13033Eschscholtzia, Reseda, Viola, Dianthus, Petunia, and Primula, both lots13034were certainly cross-fertilised by insects, and so it probably was with13035several of the others; but in some of the species, as with Nemophila,13036and in some of the trials with Ipomoea and Dianthus, the plants were13037covered up, and both lots were spontaneously self-fertilised. This also13038was necessarily the case with the capsules produced by the cleistogene13039flowers of Vandellia.1304013041The fertility of the crossed plants is represented in Table 9/D by 100,13042and that of the self-fertilised by the other figures. There are five13043cases in which the fertility of the self-fertilised plants is13044approximately equal to that of the crossed; nevertheless, in four of13045these cases the crossed plants were plainly taller, and in the fifth13046somewhat taller than the self-fertilised. But I should state that in13047some of these five cases the fertility of the two lots was not strictly13048ascertained, as the capsules were not actually counted, from appearing13049equal in number and from all apparently containing a full complement of13050seeds. In only two instances in the table, namely, with Vandellia and in13051the third generation of Dianthus, the capsules on the self-fertilised13052plants contained more seed than those on the crossed plants. With13053Dianthus the ratio between the number of seeds contained in the13054self-fertilised and crossed capsules was as 125 to 100; both sets of13055plants were left to fertilise themselves under a net; and it is almost13056certain that the greater fertility of the self-fertilised plants was13057here due merely to their having varied and become less strictly13058dichogamous, so as to mature their anthers and stigmas more nearly at13059the same time than is proper to the species. Excluding the seven cases13060now referred to, there remain twenty-six in which the crossed plants13061were manifestly much more fertile, sometimes to an extraordinary degree,13062than the self-fertilised with which they grew in competition. The most13063striking instances are those in which plants derived from a cross with a13064fresh stock are compared with plants of one of the later self-fertilised13065generations; yet there are some striking cases, as that of Viola,13066between the intercrossed plants of the same stock and the13067self-fertilised, even in the first generation. The results most to be13068trusted are those in which the productiveness of the plants was13069ascertained by the number of capsules produced by an equal number of13070plants, together with the actual or average number of seeds in each13071capsule. Of such cases there are twelve in the table, and the mean of13072their mean fertility is as 100 for the crossed plants, to 59 for the13073self-fertilised plants. The Primulaceae seem eminently liable to suffer13074in fertility from self-fertilisation.1307513076The following short table, Table 9/E, includes four cases which have13077already been partly given in the last table.1307813079TABLE 9/E.--INNATE FERTILITY OF PLANTS FROM A CROSS WITH A FRESH STOCK,13080COMPARED WITH THAT OF INTERCROSSED PLANTS OF THE SAME STOCK, AND WITH13081THAT OF SELF-FERTILISED PLANTS, ALL OF THE CORRESPONDING GENERATION.13082FERTILITY JUDGED OF BY THE NUMBER OR WEIGHT OF SEEDS PRODUCED BY AN13083EQUAL NUMBER OF PLANTS.1308413085Column 1: Name of plant and feature observed.1308613087Column 2: Plants from a cross with a fresh stock.1308813089Column 3: Intercrossed plants of the same stock.1309013091Column 4: Self-fertilised plants.1309213093Mimulus luteus--the intercrossed plants are derived from a cross between13094two plants of the 8th self-fertilised generation. The self-fertilised13095plants belong to the 9th generation: 100 : 4 : 3.1309613097Eschscholtzia californica--the intercrossed and self-fertilised plants13098belong to the 2nd generation: 100 : 45 : 40.1309913100Dianthus caryophyllus--the intercrossed plants are derived from13101self-fertilised of the 3rd generation, crossed by intercrossed plants of13102the 3rd generation. The self-fertilised plants belong to the 4th13103generation: 100 : 45 : 33.1310413105Petunia violacea--the intercrossed and self-fertilised plants belong to13106the 5th generation: 100 : 54 : 46.1310713108NB.--In the above cases, excepting in that of Eschscholtzia, the plants13109derived from a cross with a fresh stock belong on the mother-side to the13110same stock with the intercrossed and self-fertilised plants, and to the13111corresponding generation.1311213113These cases show us how greatly superior in innate fertility the13114seedlings from plants self-fertilised or intercrossed for several13115generations and then crossed by a fresh stock are, in comparison with13116the seedlings from plants of the old stock, either intercrossed or13117self-fertilised for the same number of generations. The three lots of13118plants in each case were left freely exposed to the visits of insects,13119and their flowers without doubt were cross-fertilised by them.1312013121Table 9/E further shows us that in all four cases the intercrossed13122plants of the same stock still have a decided though small advantage in13123fertility over the self-fertilised plants.1312413125With respect to the state of the reproductive organs in the13126self-fertilised plants of Tables 9/D and 9/E, only a few observations13127were made. In the seventh and eighth generation of Ipomoea, the anthers13128in the flowers of the self-fertilised plants were plainly smaller than13129those in the flowers of the intercrossed plants. The tendency to13130sterility in these same plants was also shown by the first-formed13131flowers, after they had been carefully fertilised, often dropping off,13132in the same manner as frequently occurs with hybrids. The flowers13133likewise tended to be monstrous. In the fourth generation of Petunia,13134the pollen produced by the self-fertilised and intercrossed plants was13135compared, and they were far more empty and shrivelled grains in the13136former.1313713138RELATIVE FERTILITY OF FLOWERS CROSSED WITH POLLEN FROM A DISTINCT PLANT13139AND WITH THEIR OWN POLLEN. THIS HEADING INCLUDES FLOWERS ON THE13140PARENT-PLANTS, AND ON THE CROSSED AND SELF-FERTILISED SEEDLINGS OF THE13141FIRST OR A SUCCEEDING GENERATION.1314213143I will first treat of the parent-plants, which were raised from seeds13144purchased from nursery-gardens, or taken from plants growing in my13145garden, or growing wild, and surrounded in every case by many13146individuals of the same species. Plants thus circumstanced will commonly13147have been intercrossed by insects; so that the seedlings which were13148first experimented on will generally have been the product of a cross.13149Consequently any difference in the fertility of their flowers, when13150crossed and self-fertilised, will have been caused by the nature of the13151pollen employed; that is, whether it was taken from a distinct plant or13152from the same flower. The degrees of fertility shown in Table 9/F, were13153determined in each case by the average number of seeds per capsule,13154ascertained either by counting or weighing.1315513156Another element ought properly to have been taken into account, namely,13157the proportion of flowers which yielded capsules when they were crossed13158and self-fertilised; and as crossed flowers generally produce a larger13159proportion of capsules, their superiority in fertility, if this element13160had been taken into account, would have been much more strongly marked13161than appears in Table 9/F. But had I thus acted, there would have been13162greater liability to error, as pollen applied to the stigma at the wrong13163time fails to produce any effect, independently of its greater or less13164potency. A good illustration of the great difference in the results13165which sometimes follows, if the number of capsules produced relatively13166to the number of flowers fertilised be included in the calculation, was13167afforded by Nolana prostrata. Thirty flowers on some plants of this13168species were crossed and produced twenty-seven capsules, each containing13169five seeds; thirty-two flowers on the same plants were self-fertilised13170and produced only six capsules, each containing five seeds. As the13171number of seeds per capsule is here the same, the fertility of the13172crossed and self-fertilised flowers is given in Table 9/F as equal, or13173as 100 to 100. But if the flowers which failed to produce capsules be13174included, the crossed flowers yielded on an average 4.50 seeds, whilst13175the self-fertilised flowers yielded only 0.94 seeds, so that their13176relative fertility would have been as 100 to 21. I should here state13177that it has been found convenient to reserve for separate discussion the13178cases of flowers which are usually quite sterile with their own pollen.1317913180TABLE 9/f.--relative fertility of the flowers on the parent-plants used13181in my experiments, when fertilised with pollen from a distinct plant and13182with their own pollen. Fertility judged of by the average number of13183seeds per capsule. Fertility of crossed flowers taken as 100.1318413185Column 1: Name of plant and feature observed.1318613187Column 2: x, in the expression 100 to x.1318813189Ipomoea purpurea--crossed and self-fertilised flowers yielded seeds as13190(about): 100.1319113192Mimulus luteus--crossed and self-fertilised flowers yielded seeds as (by13193weight): 79.1319413195Linaria vulgaris--crossed and self-fertilised flowers yielded seeds as:1319614.1319713198Vandellia nummularifolia--crossed and self-fertilised flowers yielded13199seeds as: 67?1320013201Gesneria pendulina--crossed and self-fertilised flowers yielded seeds as13202(by weight): 100.1320313204Salvia coccinea--crossed and self-fertilised flowers yielded seeds as13205(about): 100.1320613207Brassica oleracea--crossed and self-fertilised flowers yielded seeds as:1320825.1320913210Eschscholtzia californica--(English stock) crossed and self-fertilised13211flowers yielded seeds as (by weight): 71.1321213213Eschscholtzia californica--(Brazilian stock grown in England) crossed13214and self-fertilised flowers yielded seeds (by weight) as (about): 15.1321513216Delphinium consolida--crossed and self-fertilised flowers13217(self-fertilised capsules spontaneously produced, but result supported13218by other evidence) yielded seeds as: 59.1321913220Viscaria oculata--crossed and self-fertilised flowers yielded seeds as13221(by weight): 38.1322213223Viscaria oculata--crossed and self-fertilised flowers (crossed capsules13224compared on following year with spontaneously self-fertilised capsules)13225yielded seeds as : 58.1322613227Dianthus caryophyllus--crossed and self-fertilised flowers yielded seeds13228as: 92.1322913230Tropaeolum minus--crossed and self-fertilised flowers yielded seeds as:1323192.1323213233Tropaeolum tricolorum--crossed and self-fertilised flowers yielded seeds13234as: 115. (9/1. Tropaeolum tricolorum and Cuphea purpurea have been13235introduced into this table, although seedlings were not raised from13236them; but of the Cuphea only six crossed and six self-fertilised13237capsules, and of the Tropaeolum only six crossed and eleven13238self-fertilised capsules, were compared. A larger proportion of the13239self-fertilised than of the crossed flowers of the Tropaeolum produced13240fruit.)1324113242Limnanthes douglasii--crossed and self-fertilised flowers yielded seeds13243as (about): 100.1324413245Sarothamnus scoparius--crossed and self-fertilised flowers yielded seeds13246as: 41.1324713248Ononis minutissima--crossed and self-fertilised flowers yielded seeds13249as: 65.1325013251Cuphea purpurea--crossed and self-fertilised flowers yielded seeds as:13252113.1325313254Passiflora gracilis--crossed and self-fertilised flowers yielded seeds13255as: 85.1325613257Specularia speculum--crossed and self-fertilised flowers yielded seeds13258as: 72.1325913260Lobelia fulgens--crossed and self-fertilised flowers yielded seeds as13261(about): 100.1326213263Nemophila insignis--crossed and self-fertilised flowers yielded seeds as13264(by weight): 69.1326513266Borago officinalis--crossed and self-fertilised flowers yielded seeds13267as: 60.1326813269Nolana prostrata--crossed and self-fertilised flowers yielded seeds as:13270100.1327113272Petunia violacea--crossed and self-fertilised flowers yielded seeds as13273(by weight): 67.1327413275Nicotiana tabacum--crossed and self-fertilised flowers yielded seeds as13276(by weight): 150.1327713278Cyclamen persicum--crossed and self-fertilised flowers yielded seeds as:1327938.1328013281Anagallis collina--crossed and self-fertilised flowers yielded seeds as:1328296.1328313284Canna warscewiczi--crossed and self-fertilised flowers (on three13285generations of crossed and self-fertilised plants taken all together)13286yielded seeds as: 85.1328713288Table 9/G gives the relative fertility of flowers on crossed plants13289again cross-fertilised, and of flowers on self-fertilised plants again13290self-fertilised, either in the first or in a later generation. Here two13291causes combine to diminish the fertility of the self-fertilised flowers;13292namely, the lesser efficacy of pollen from the same flower, and the13293innate lessened fertility of plants derived from self-fertilised seeds,13294which as we have seen in the previous Table 9/D is strongly marked. The13295fertility was determined in the same manner as in Table 9/F, that is, by13296the average number of seeds per capsule; and the same remarks as before,13297with respect to the different proportion of flowers which set capsules13298when they are cross-fertilised and self-fertilised, are here likewise13299applicable.1330013301TABLE 9/G.--RELATIVE FERTILITY OF FLOWERS ON CROSSED AND SELF-FERTILISED13302PLANTS OF THE FIRST OR SOME SUCCEEDING GENERATION; THE FORMER BEING13303AGAIN FERTILISED WITH POLLEN FROM A DISTINCT PLANT, AND THE LATTER AGAIN13304WITH THEIR OWN POLLEN. FERTILITY JUDGED OF BY THE AVERAGE NUMBER OF13305SEEDS PER CAPSULE. FERTILITY OF CROSSED FLOWERS TAKEN AS 100.1330613307Column 1: Name of plant and feature observed.1330813309Column 2: x, in the expression, 100 to x.1331013311Ipomoea purpurea--crossed and self-fertilised flowers on the crossed and13312self-fertilised plants of the first generation yielded seeds as: 93.1331313314Ipomoea purpurea--crossed and self-fertilised flowers on the crossed and13315self-fertilised plants of the 3rd generation yielded seeds as: 94.1331613317Ipomoea purpurea--crossed and self-fertilised flowers on the crossed and13318self-fertilised plants of the 4th generation yielded seeds as: 94.1331913320Ipomoea purpurea--crossed and self-fertilised flowers on the crossed and13321self-fertilised plants of the 5th generation yielded seeds as: 107.1332213323Mimulus luteus--crossed and self-fertilised flowers on the crossed and13324self-fertilised plants of the 3rd generation yielded seeds as (by13325weight): 65.1332613327Mimulus luteus--same plants of the 3rd generation treated in the same13328manner on the following year yielded seeds as (by weight): 34.1332913330Mimulus luteus--crossed and self-fertilised flowers on the crossed and13331self-fertilised plants of the 4th generation yielded seeds as (by13332weight): 40.1333313334Viola tricolor--crossed and self-fertilised flowers on the crossed and13335self-fertilised plants of the 1st generation yielded seeds as: 69.1333613337Dianthus caryophyllus--crossed and self-fertilised flowers on the13338crossed and self-fertilised plants of the 1st generation yielded seeds13339as: 65.1334013341Dianthus caryophyllus--flowers on self-fertilised plants of the 3rd13342generation crossed by intercrossed plants, and other flowers again13343self-fertilised yielded seeds as: 97.1334413345Dianthus caryophyllus--flowers on self-fertilised plants of the 3rd13346generation crossed by a fresh stock, and other flowers again13347self-fertilised yielded seeds as: 127.1334813349Lathytus odoratus--crossed and self-fertilised flowers on the crossed13350and self-fertilised plants of the 1st generation yielded seeds as: 65.1335113352Lobelia ramosa--crossed and self-fertilised flowers on the crossed and13353self-fertilised plants of the 1st generation yielded seeds as (by13354weight): 60.1335513356Petunia violacea--crossed and self-fertilised flowers on the crossed and13357self-fertilised plants of the 1st generation yielded seeds as (by13358weight): 68.1335913360Petunia violacea--crossed and self-fertilised flowers on the crossed and13361self-fertilised plants of the 4th generation yielded seeds as (by13362weight): 72.1336313364Petunia violacea--flowers on self-fertilised plants of the 4th13365generation crossed by a fresh stock, and other flowers again13366self-fertilised yielded seeds as (by weight): 48.1336713368Nicotiana tabacum--crossed and self-fertilised flowers on the crossed13369and self-fertilised plants of the 1st generation yielded seeds as (by13370weight): 97.1337113372Nicotiana tabacum--flowers on self-fertilised plants of the 2nd13373generation crossed by intercrossed plants, and other flowers again13374self-fertilised yielded seeds as (by estimation): 110.1337513376Nicotiana tabacum--flowers on self-fertilised plants of the 3rd13377generation crossed by a fresh stock, and other flowers again13378self-fertilised yielded seeds as (by estimation): 110.1337913380Anagallis collina--flowers on red variety crossed by a blue variety, and13381other flowers on the red variety self-fertilised yielded seeds as: 48.1338213383Canna warscewiczi--crossed and self-fertilised flowers on the crossed13384and self-fertilised plants of three generations taken together yielded13385seeds as: 85.1338613387As both these tables relate to the fertility of flowers fertilised by13388pollen from another plant and by their own pollen, they may be13389considered together. The difference between them consists in the13390self-fertilised flowers in Table 9/G, being produced by self-fertilised13391parents, and the crossed flowers by crossed parents, which in the later13392generations had become somewhat closely inter-related, and had been13393subjected all the time to nearly the same conditions. These two tables13394include fifty cases relating to thirty-two species. The flowers on many13395other species were crossed and self-fertilised, but as only a few were13396thus treated, the results cannot be trusted, as far as fertility is13397concerned, and are not here given. Some other cases have been rejected,13398as the plants were in an unhealthy condition. If we look to the figures13399in the two tables expressing the ratios between the mean relative13400fertility of the crossed and self-fertilised flowers, we see that in a13401majority of cases (i.e., in thirty-five out of fifty) flowers fertilised13402by pollen from a distinct plant yield more, sometimes many more, seeds13403than flowers fertilised with their own pollen; and they commonly set a13404larger proportion of capsules. The degree of infertility of the13405self-fertilised flowers differs extremely in the different species, and13406even, as we shall see in the section on self-sterile plants, in the13407individuals of the same species, as well as under slightly changed13408conditions of life. Their fertility ranges from zero to fertility13409equalling that of the crossed flowers; and of this fact no explanation13410can be offered. There are fifteen cases in the two tables in which the13411number of seeds per capsule produced by the self-fertilised flowers13412equals or even exceeds that yielded by the crossed flowers. Some few of13413these cases are, I believe, accidental; that is, would not recur on a13414second trial. This was apparently the case with the plants of the fifth13415generation of Ipomoea, and in one of the experiments with Dianthus.13416Nicotiana offers the most anomalous case of any, as the self-fertilised13417flowers on the parent-plants, and on their descendants of the second and13418third generations, produced more seeds than did the crossed flowers; but13419we shall recur to this case when we treat of highly self-fertile13420varieties.1342113422It might have been expected that the difference in fertility between the13423crossed and self-fertilised flowers would have been more strongly marked13424in Table 9/G, in which the plants of one set were derived from13425self-fertilised parents, than in Table 9/F, in which flowers on the13426parent-plants were self-fertilised for the first time. But this is not13427the case, as far as my scanty materials allow of any judgment. There is13428therefore no evidence at present, that the fertility of plants goes on13429diminishing in successive self-fertilised generations, although there is13430some rather weak evidence that this does occur with respect to their13431height or growth. But we should bear in mind that in the later13432generations the crossed plants had become more or less closely13433inter-related, and had been subjected all the time to nearly uniform13434conditions.1343513436It is remarkable that there is no close correspondence, either in the13437parent-plants or in the successive generations, between the relative13438number of seeds produced by the crossed and self-fertilised flowers, and13439the relative powers of growth of the seedlings raised from such seeds.13440Thus, the crossed and self-fertilised flowers on the parent-plants of13441Ipomoea, Gesneria, Salvia, Limnanthes, Lobelia fulgens, and Nolana13442produced a nearly equal number of seeds, yet the plants raised from the13443crossed seeds exceeded considerably in height those raised from the13444self-fertilised seeds. The crossed flowers of Linaria and Viscaria13445yielded far more seeds than the self-fertilised flowers; and although13446the plants raised from the former were taller than those from the13447latter, they were not so in any corresponding degree. With Nicotiana the13448flowers fertilised with their own pollen were more productive than those13449crossed with pollen from a slightly different variety; yet the plants13450raised from the latter seeds were much taller, heavier, and more hardy13451than those raised from the self-fertilised seeds. On the other hand, the13452crossed seedlings of Eschscholtzia were neither taller nor heavier than13453the self-fertilised, although the crossed flowers were far more13454productive than the self-fertilised. But the best evidence of a want of13455correspondence between the number of seeds produced by crossed and13456self-fertilised flowers, and the vigour of the offspring raised from13457them, is afforded by the plants of the Brazilian and European stocks of13458Eschscholtzia, and likewise by certain individual plants of Reseda13459odorata; for it might have been expected that the seedlings from plants,13460the flowers of which were excessively self-sterile, would have profited13461in a greater degree by a cross, than the seedlings from plants which13462were moderately or fully self-fertile, and therefore apparently had no13463need to be crossed. But no such result followed in either case: for13464instance, the crossed and self-fertilised offspring from a highly13465self-fertile plant of Reseda odorata were in average height to each13466other as 100 to 82; whereas the similar offspring from an excessively13467self-sterile plant were as 100 to 92 in average height.1346813469With respect to the innate fertility of the plants of crossed and13470self-fertilised parentage, given in the previous Table 9/D--that is, the13471number of seeds produced by both lots when their flowers were fertilised13472in the same manner,--nearly the same remarks are applicable, in13473reference to the absence of any close correspondence between their13474fertility and powers of growth, as in the case of the plants in the13475Tables 9/F and 9/G, just considered. Thus the crossed and13476self-fertilised plants of Ipomoea, Papaver, Reseda odorata, and13477Limnanthes were almost equally fertile, yet the former exceeded13478considerably in height the self-fertilised plants. On the other hand,13479the crossed and self-fertilised plants of Mimulus and Primula differed13480to an extreme degree in innate fertility, but by no means to a13481corresponding degree in height or vigour.1348213483In all the cases of self-fertilised flowers included in Tables 9/E, 9/F,13484and 9/G, these were fertilised with their own pollen; but there is13485another form of self-fertilisation, namely, by pollen from other flowers13486on the same plant; but this latter method made no difference in13487comparison with the former in the number of seeds produced, or only a13488slight difference. Neither with Digitalis nor Dianthus were more seeds13489produced by the one method than by the other, to any trustworthy degree.13490With Ipomoea rather more seeds, in the proportion of 100 to 91, were13491produced from a crossed between flowers on the same plant than from13492strictly self-fertilised flowers; but I have reason to suspect that the13493result was accidental. With Origanum vulgare, however, a cross between13494flowers on plants propagated by stolons from the same stock certainly13495increased slightly their fertility. This likewise occurred, as we shall13496see in the next section, with Eschscholtzia, perhaps with Corydalis cava13497and Oncidium; but not so with Bignonia, Abutilon, Tabernaemontana,13498Senecio, and apparently Reseda odorata.1349913500SELF-STERILE PLANTS.1350113502The cases here to be described might have been introduced in Table 9/F,13503which gives the relative fertility of flowers fertilised with their own13504pollen, and with that from a distinct plant, but it has been found more13505convenient to keep them for separate discussion. The present cases must13506not be confounded with those to be given in the next chapter relatively13507to flowers which are sterile when insects are excluded; for such13508sterility depends not merely on the flowers being incapable of13509fertilisation with their own pollen, but on mechanical causes, by which13510their pollen is prevented from reaching the stigma, or on the pollen and13511stigma of the same flower being matured at different periods.1351213513In the seventeenth chapter of my 'Variation of Animals and Plants under13514Domestication' I had occasion to enter fully on the present subject; and13515I will therefore here give only a brief abstract of the cases there13516described, but others must be added, as they have an important bearing13517on the present work. Kolreuter long ago described plants of Verbascum13518phoeniceum which during two years were sterile with their own pollen,13519but were easily fertilised by that of four other species; these plants13520however afterwards became more or less self-fertile in a strangely13521fluctuating manner. Mr. Scott also found that this species, as well as13522two of its varieties, were self-sterile, as did Gartner in the case of13523Verbascum nigrum. So it was, according to this latter author, with two13524plants of Lobelia fulgens, though the pollen and ovules of both were in13525an efficient state in relation to other species. Five species of13526Passiflora and certain individuals of a sixth species have been found13527sterile with their own pollen; but slight changes in their conditions,13528such as being grafted on another stock or a change of temperature,13529rendered them self-fertile. Flowers on a completely self-impotent plant13530of Passiflora alata fertilised with pollen from its own self-impotent13531seedlings were quite fertile. Mr. Scott, and afterwards Mr. Munro, found13532that some species of Oncidium and of Maxillaria cultivated in a hothouse13533in Edinburgh were quite sterile with their own pollen; and Fritz Muller13534found this to be the case with a large number of Orchidaceous genera13535growing in their native home of South Brazil. (9/2. 'Botanische Zeitung'135361868 page 114.) He also discovered that the pollen-masses of some13537orchids acted on their own stigmas like a poison; and it appears that13538Gartner formerly observed indications of this extraordinary fact in the13539case of some other plants.1354013541Fritz Muller also states that a species of Bignonia and Tabernaemontana13542echinata are both sterile with their own pollen in their native country13543of Brazil. (9/3. Ibid 1868 page 626 and 1870 page 274.) Several13544Amaryllidaceous and Liliaceous plants are in the same predicament.13545Hildebrand observed with care Corydalis cava, and found it completely13546self-sterile (9/4. 'Report of the International Horticultural Congress'135471866.); but according to Caspary a few self-fertilised seeds are13548occasionally produced: Corydalis halleri is only slightly self-sterile,13549and C. intermedia not at all so. (9/5. 'Botanische Zeitung' June 27,135501873.) In another Fumariaceous genus, Hypecoum, Hildebrand observed that13551H. grandiflorum was highly self-sterile, whilst H. procumbens was fairly13552self-fertile. (9/6. 'Jahrb. fur wiss. Botanik' B. 7 page 464.)13553Thunbergia alata kept by me in a warm greenhouse was self-sterile early13554in the season, but at a later period produced many spontaneously13555self-fertilised fruits. So it was with Papaver vagum: another species,13556P. alpinum, was found by Professor H. Hoffmann to be quite self-sterile13557excepting on one occasion (9/7. 'Zur Speciesfrage' 1875 page 47.);13558whilst P. somniferum has been with me always completely self-sterile.1355913560Eschscholtzia californica.1356113562This species deserves a fuller consideration. A plant cultivated by13563Fritz Muller in South Brazil happened to flower a month before any of13564the others, and it did not produce a single capsule. This led him to13565make further observations during the next six generations, and he found13566that all his plants were completely sterile, unless they were crossed by13567insects or were artificially fertilised with pollen from a distinct13568plant, in which case they were completely fertile. (9/8. 'Botanische13569Zeitung' 1868 page 115 and 1869 page 223.) I was much surprised at this13570fact, as I had found that English plants, when covered by a net, set a13571considerable number of capsules; and that these contained seeds by13572weight, compared with those on plants intercrossed by the bees, as 71 to13573100. Professor Hildebrand, however, found this species much more13574self-sterile in Germany than it was with me in England, for the capsules13575produced by self-fertilised flowers, compared with those from13576intercrossed flowers, contained seeds in the ratio of only 11 to 100. At13577my request Fritz Muller sent me from Brazil seeds of his self-sterile13578plants, from which I raised seedlings. Two of these were covered with a13579net, and one produced spontaneously only a single capsule containing no13580good seeds, but yet, when artificially fertilised with its own pollen,13581produced a few capsules. The other plant produced spontaneously under13582the net eight capsules, one of which contained no less than thirty13583seeds, and on an average about ten seeds per capsule. Eight flowers on13584these two plants were artificially self-fertilised, and produced seven13585capsules, containing on an average twelve seeds; eight other flowers13586were fertilised with pollen from a distinct plant of the Brazilian13587stock, and produced eight capsules, containing on an average about13588eighty seeds: this gives a ratio of 15 seeds for the self-fertilised13589capsules to 100 for the crossed capsules. Later in the season twelve13590other flowers on these two plants were artificially self-fertilised; but13591they yielded only two capsules, containing three and six seeds. It13592appears therefore that a lower temperature than that of Brazil favours13593the self-fertility of this plant, whilst a still lower temperature13594lessens it. As soon as the two plants which had been covered by the net13595were uncovered, they were visited by many bees,and it was interesting to13596observe how quickly they became, even the more sterile plant of the two,13597covered with young capsules. On the following year eight flowers on13598plants of the Brazilian stock of self-fertilised parentage (i.e.,13599grandchildren of the plants which grew in Brazil) were again13600self-fertilised, and produced five capsules, containing on an average1360127.4 seeds, with a maximum in one of forty-two seeds; so that their13602self-fertility had evidently increased greatly by being reared for two13603generations in England. On the whole we may conclude that plants of the13604Brazilian stock are much more self-fertile in this country than in13605Brazil, and less so than plants of the English stock in England; so that13606the plants of Brazilian parentage retained by inheritance some of their13607former sexual constitution. Conversely, seeds from English plants sent13608by me to Fritz Muller and grown in Brazil, were much more self-fertile13609than his plants which had been cultivated there for several generations;13610but he informs me that one of the plants of English parentage which did13611not flower the first year, and was thus exposed for two seasons to the13612climate of Brazil, proved quite self-sterile, like a Brazilian plant,13613showing how quickly the climate had acted on its sexual constitution.1361413615Abutilon darwinii.1361613617Seeds of this plant were sent me by Fritz Muller, who found it, as well13618as some other species of the same genus, quite sterile in its native13619home of South Brazil, unless fertilised with pollen from a distinct13620plant, either artificially or naturally by humming-birds. (9/9.13621'Jenaische Zeitschr. fur Naturwiss' B. 7 1872 page 22 and 1873 page13622441.) Several plants were raised from these seeds and kept in the13623hothouse. They produced flowers very early in the spring, and twenty of13624them were fertilised, some with pollen from the same flower, and some13625with pollen from other flowers on the same plants; but not a single13626capsule was thus produced, yet the stigmas twenty-seven hours after the13627application of the pollen were penetrated by the pollen-tubes. At the13628same time nineteen flowers were crossed with pollen from a distinct13629plant, and these produced thirteen capsules, all abounding with fine13630seeds. A greater number of capsules would have been produced by the13631cross, had not some of the nineteen flowers been on a plant which was13632afterwards proved to be from some unknown cause completely sterile with13633pollen of any kind. Thus far these plants behaved exactly like those in13634Brazil; but later in the season, in the latter part of May and in June,13635they began to produce under a net a few spontaneously self-fertilised13636capsules. As soon as this occurred, sixteen flowers were fertilised with13637their own pollen, and these produced five capsules, containing on an13638average 3.4 seeds. At the same time I selected by chance four capsules13639from the uncovered plants growing close by, the flowers of which I had13640seen visited by humble-bees, and these contained on an average 21.513641seeds; so that the seeds in the naturally intercrossed capsules to those13642in the self-fertilised capsules were as 100 to 16. The interesting point13643in this case is that these plants, which were unnaturally treated by13644being grown in pots in a hothouse, under another hemisphere, with a13645complete reversal of the seasons, were thus rendered slightly13646self-fertile, whereas they seem always to be completely self-sterile in13647their native home.1364813649Senecio cruentus (greenhouse varieties, commonly called Cinerarias,13650probably derived from several fruticose or herbaceous species much13651intercrossed (9/10. I am much obliged to Mr. Moore and to Mr. Thiselton13652Dyer for giving me information with respect to the varieties on which I13653experimented. Mr. Moore believes that Senecio cruentas, tussilaginis,13654and perhaps heritieri, maderensis and populifolius have all been more or13655less blended together in our Cinerarias.))1365613657Two purple-flowered varieties were placed under a net in the greenhouse,13658and four corymbs on each were repeatedly brushed with flowers from the13659other plant, so that their stigmas were well covered with each other's13660pollen. Two of the eight corymbs thus treated produced very few seeds,13661but the other six produced on an average 41.3 seeds per corymb, and13662these germinated well. The stigmas on four other corymbs on both plants13663were well smeared with pollen from the flowers on their own corymbs;13664these eight corymbs produced altogether ten extremely poor seeds, which13665proved incapable of germinating. I examined many flowers on both plants,13666and found the stigmas spontaneously covered with pollen; but they13667produced not a single seed. These plants were afterwards left uncovered13668in the same house where many other Cinerarias were in flower; and the13669flowers were frequently visited by bees. They then produced plenty of13670seed, but one of the two plants less than the other, as this species13671shows some tendency to be dioecious.1367213673The trial was repeated on another variety with white petals tipped with13674red. Many stigmas on two corymbs were covered with pollen from the13675foregoing purple variety, and these produced eleven and twenty-two13676seeds, which germinated well. A large number of the stigmas on several13677of the other corymbs were repeatedly smeared with pollen from their own13678corymb; but they yielded only five very poor seeds, which were incapable13679of germination. Therefore the above three plants belonging to two13680varieties, though growing vigorously and fertile with pollen from either13681of the other two plants, were utterly sterile with pollen from other13682flowers on the same plant.1368313684Reseda odorata.1368513686Having observed that certain individuals were self-sterile, I covered13687during the summer of 1868 seven plants under separate nets, and will13688call these plants A, B, C, D, E, F, G. They all appeared to be quite13689sterile with their own pollen, but fertile with that of any other plant.1369013691Fourteen flowers on A were crossed with pollen from B or C, and produced13692thirteen fine capsules. Sixteen flowers were fertilised with pollen from13693other flowers on the same plant, but yielded not a single capsule.1369413695Fourteen flowers on B were crossed with pollen from A, C or D, and all13696produced capsules; some of these were not very fine, yet they contained13697plenty of seeds. Eighteen flowers were fertilised with pollen from other13698flowers on the same plant, and produced not one capsule.1369913700Ten flowers on C were crossed with pollen from A, B, D or E, and13701produced nine fine capsules. Nineteen flowers were fertilised with13702pollen from other flowers on the same plant, and produced no capsules.1370313704Ten flowers on D were crossed with pollen from A, B, C or E, and13705produced nine fine capsules. Eighteen flowers were fertilised with13706pollen from other flowers on the same plant, and produced no capsules.1370713708Seven flowers on E were crossed with pollen from A, C, or D, and all13709produced fine capsules. Eight flowers were fertilised with pollen from13710other flowers on the same plant, and produced no capsules.1371113712On the plants F and G no flowers were crossed, but very many (number not13713recorded) were fertilised with pollen from other flowers on the same13714plants, and these did not produce a single capsule.1371513716We thus see that fifty-five flowers on five of the above plants were13717reciprocally crossed in various ways; several flowers on each of these13718plants being fertilised with pollen from several of the other plants.13719These fifty-five flowers produced fifty-two capsules, almost all of13720which were of full size and contained an abundance of seeds. On the13721other hand, seventy-nine flowers (besides many others not recorded) were13722fertilised with pollen from other flowers on the same plants, and these13723did not produce a single capsule. In one case in which I examined the13724stigmas of the flowers fertilised with their own pollen, these were13725penetrated by the pollen-tubes, although such penetration produced no13726effect. Pollen falls generally, and I believe always, from the anthers13727on the stigmas of the same flower; yet only three out of the above seven13728protected plants produced spontaneously any capsules, and these it might13729have been thought must have been self-fertilised. There were altogether13730seven such capsules; but as they were all seated close to the13731artificially crossed flowers, I can hardly doubt that a few grains of13732foreign pollen had accidentally fallen on their stigmas. Besides the13733above seven plants, four others were kept covered under the SAME large13734net; and some of these produced here and there in the most capricious13735manner little groups of capsules; and this makes me believe that a bee,13736many of which settled on the outside of the net, being attracted by the13737odour, had on some one occasion found an entrance, and had intercrossed13738a few of the flowers.1373913740In the spring of 1869 four plants raised from fresh seeds were carefully13741protected under separate nets; and now the result was widely different13742to what it was before. Three of these protected plants became actually13743loaded with capsules, especially during the early part of the summer;13744and this fact indicates that temperature produces some effect, but the13745experiment given in the following paragraph shows that the innate13746constitution of the plant is a far more important element. The fourth13747plant produced only a few capsules, many of them of small size; yet it13748was far more self-fertile than any of the seven plants tried during the13749previous year. The flowers on four small branches of this13750semi-self-sterile plant were smeared with pollen from one of the other13751plants, and they all produced fine capsules.1375213753As I was much surprised at the difference in the results of the trials13754made during the two previous years, six fresh plants were protected by13755separate nets in the year 1870. Two of these proved almost completely13756self-sterile, for on carefully searching them I found only three small13757capsules, each containing either one or two seeds of small size, which,13758however, germinated. A few flowers on both these plants were13759reciprocally fertilised with each other's pollen, and a few with pollen13760from one of the following self-fertile plants, and all these flowers13761produced fine capsules. The four other plants whilst still remaining13762protected beneath the nets presented a wonderful contrast (though one of13763them in a somewhat less degree than the others), for they became13764actually covered with spontaneously self-fertilised capsules, as13765numerous as, or very nearly so, and as fine as those on the unprotected13766plants growing near.1376713768The above three spontaneously self-fertilised capsules produced by the13769two almost completely self-sterile plants, contained altogether five13770seeds; and from these I raised in the following year (1871) five plants,13771which were kept under separate nets. They grew to an extraordinarily13772large size, and on August 29th were examined. At first sight they13773appeared entirely destitute of capsules; but on carefully searching13774their many branches, two or three capsules were found on three of the13775plants, half-a-dozen on the fourth, and about eighteen on the fifth13776plant. But all these capsules were small, some being empty; the greater13777number contained only a single seed, and very rarely more than one.13778After this examination the nets were taken off, and the bees immediately13779carried pollen from one of these almost self-sterile plants to the13780other, for no other plants grew near. After a few weeks the ends of the13781branches on all five plants became covered with capsules, presenting a13782curious contrast with the lower and naked parts of the same long13783branches. These five plants therefore inherited almost exactly the same13784sexual constitution as their parents; and without doubt a self-sterile13785race of Mignonette could have been easily established.1378613787Reseda lutea.1378813789Plants of this species were raised from seeds gathered from a group of13790wild plants growing at no great distance from my garden. After casually13791observing that some of these plants were self-sterile, two plants taken13792by hazard were protected under separate nets. One of these soon became13793covered with spontaneously self-fertilised capsules, as numerous as13794those on the surrounding unprotected plants; so that it was evidently13795quite self-fertile. The other plant was partially self-sterile,13796producing very few capsules, many of which were of small size. When,13797however, this plant had grown tall, the uppermost branches became13798pressed against the net and grew crooked, and in this position the bees13799were able to suck the flowers through the meshes, and brought pollen to13800them from the neighbouring plants. These branches then became loaded13801with capsules; the other and lower branches remaining almost bare. The13802sexual constitution of this species is therefore similar to that of13803Reseda odorata.1380413805CONCLUDING REMARKS ON SELF-STERILE PLANTS.1380613807In order to favour as far as possible the self-fertilisation of some of13808the foregoing plants, all the flowers on Reseda odorata and some of13809those on the Abutilon were fertilised with pollen from other flowers on13810the same plant, instead of with their own pollen, and in the case of the13811Senecio with pollen from other flowers on the same corymb; but this made13812no difference in the result. Fritz Muller tried both kinds of13813self-fertilisation in the case of Bignonia, Tabernaemontana and13814Abutilon, likewise with no difference in the result. With Eschscholtzia,13815however, he found that pollen from other flowers on the same plant was a13816little more effective than pollen from the same flower. So did13817Hildebrand in Germany; as thirteen out of fourteen flowers of13818Eschscholtzia thus fertilised set capsules, these containing on an13819average 9.5 seeds; whereas only fourteen flowers out of twenty-one13820fertilised with their own pollen set capsules, these containing on an13821average 9.0 seeds. (9/11. 'Pringsheim's Jahrbuch fur wiss. Botanik' 713822page 467.) Hildebrand found a trace of a similar difference with13823Corydalis cava, as did Fritz Muller with an Oncidium. (9/12. 'Variation13824under Domestication' chapter 17 2nd edition volume 2 pages 113-115.)1382513826In considering the several cases above given of complete or almost13827complete self-sterility, we are first struck with their wide13828distribution throughout the vegetable kingdom. Their number is not at13829present large, for they can be discovered only by protecting plants from13830insects and then fertilising them with pollen from another plant of the13831same species and with their own pollen; and the latter must be proved to13832be in an efficient state by other trials. Unless all this be done, it is13833impossible to know whether their self-sterility may not be due to the13834male or female reproductive organs, or to both, having been affected by13835changed conditions of life. As in the course of my experiments I have13836found three new cases, and as Fritz Muller has observed indications of13837several others, it is probable that they will hereafter be proved to be13838far from rare. (9/13. Mr. Wilder, the editor of a horticultural journal13839in the United States quoted in 'Gardeners' Chronicle' 1868 page 1286,13840states that Lilium auratum, Impatiens pallida and fulva, and Forsythia13841viridissima, cannot be fertilised with their own pollen.)1384213843As with plants of the same species and parentage, some individuals are13844self-sterile and others self-fertile, of which fact Reseda odorata13845offers the most striking instances, it is not at all surprising that13846species of the same genus differ in this same manner. Thus Verbascum13847phoeniceum and nigrum are self-sterile, whilst V. thapsus and lychnitis13848are quite self-fertile, as I know by trial. There is the same difference13849between some of the species of Papaver, Corydalis, and of other genera.13850Nevertheless, the tendency to self-sterility certainly runs to a certain13851extent in groups, as we see in the genus Passiflora, and with the13852Vandeae amongst Orchids.1385313854Self-sterility differs much in degree in different plants. In those13855extraordinary cases in which pollen from the same flower acts on the13856stigma like a poison, it is almost certain that the plants would never13857yield a single self-fertilised seed. Other plants, like Corydalis cava,13858occasionally, though very rarely, produce a few self-fertilised seeds. A13859large number of species, as may be seen in Table 9/F, are less fertile13860with their own pollen than with that from another plant; and lastly,13861some species are perfectly self-fertile. Even with the individuals of13862the same species, as just remarked, some are utterly self-sterile,13863others moderately so, and some perfectly self-fertile. The cause,13864whatever it may be, which renders many plants more or less sterile with13865their own pollen, that is, when they are self-fertilised, must be13866different, at least to a certain extent, from that which determines the13867difference in height, vigour, and fertility of the seedlings raised from13868self-fertilised and crossed seeds; for we have already seen that the two13869classes of cases do not by any means run parallel. This want of13870parallelism would be intelligible, if it could be shown that13871self-sterility depended solely on the incapacity of the pollen-tubes to13872penetrate the stigma of the same flower deeply enough to reach the13873ovules; whilst the greater or less vigorous growth of the seedlings no13874doubt depends on the nature of the contents of the pollen-grains and13875ovules. Now it is certain that with some plants the stigmatic secretion13876does not properly excite the pollen-grains, so that the tubes are not13877properly developed, if the pollen is taken from the same flower. This is13878the case according to Fritz Muller with Eschscholtzia, for he found that13879the pollen-tubes did not penetrate the stigma deeply; and with the13880Orchidaceous genus Notylia they failed altogether to penetrate it.13881(9/14. 'Botanische Zeitung' 1868 pages 114, 115.)1388213883With dimorphic and trimorphic species, an illegitimate union between13884plants of the same form presents the closest analogy with13885self-fertilisation, whilst a legitimate union closely resembles13886cross-fertilisation; and here again the lessened fertility or complete13887sterility of an illegitimate union depends, at least in part, on the13888incapacity for interaction between the pollen-grains and stigma. Thus13889with Linum grandiflorum, as I have elsewhere shown, not more than two or13890three out of hundreds of pollen-grains, either of the long-styled or13891short-styled form, when placed on the stigma of their own form, emit13892their tubes, and these do not penetrate deeply; nor does the stigma13893itself change colour, as occurs when it is legitimately fertilised.13894(9/15. 'Journal of the Linnean Society Botany' volume 7 1863 pages1389573-75.)1389613897On the other hand the difference in innate fertility, as well as in13898growth between plants raised from crossed and self-fertilised seeds, and13899the difference in fertility and growth between the legitimate and13900illegitimate offspring of dimorphic and trimorphic plants, must depend13901on some incompatibility between the sexual elements contained within the13902pollen-grains and ovules, as it is through their union that new13903organisms are developed.1390413905If we now turn to the more immediate cause of self-sterility, we clearly13906see that in most cases it is determined by the conditions to which the13907plants have been subjected. Thus Eschscholtzia is completely13908self-sterile in the hot climate of Brazil, but is perfectly fertile13909there with the pollen of any other individual. The offspring of13910Brazilian plants became in England in a single generation partially13911self-fertile, and still more so in the second generation. Conversely,13912the offspring of English plants, after growing for two seasons in13913Brazil, became in the first generation quite self-sterile. Again,13914Abutilon darwinii, which is self-sterile in its native home of Brazil,13915became moderately self-fertile in a single generation in an English13916hothouse. Some other plants are self-sterile during the early part of13917the year, and later in the season become self-fertile. Passiflora alata13918lost its self-sterility when grafted on another species. With Reseda,13919however, in which some individuals of the same parentage are13920self-sterile and others are self-fertile, we are forced in our ignorance13921to speak of the cause as due to spontaneous variability; but we should13922remember that the progenitors of these plants, either on the male or13923female side, may have been exposed to somewhat different conditions. The13924power of the environment thus to affect so readily and in so peculiar a13925manner the reproductive organs, is a fact which has many important13926bearings; and I have therefore thought the foregoing details worth13927giving. For instance, the sterility of many animals and plants under13928changed conditions of life, such as confinement, evidently comes within13929the same general principle of the sexual system being easily affected by13930the environment. It has already been proved, that a cross between plants13931which have been self-fertilised or intercrossed during several13932generations, having been kept all the time under closely similar13933conditions, does not benefit the offspring; and on the other hand, that13934a cross between plants that have been subjected to different conditions13935benefits the offspring to an extraordinary degree. We may therefore13936conclude that some degree of differentiation in the sexual system is13937necessary for the full fertility of the parent-plants and for the full13938vigour of their offspring. It seems also probable that with those plants13939which are capable of complete self-fertilisation, the male and female13940elements and organs already differ to an extent sufficient to excite13941their mutual interaction; but that when such plants are taken to another13942country, and become in consequence self-sterile, their sexual elements13943and organs are so acted on as to be rendered too uniform for such13944interaction, like those of a self-fertilised plant long cultivated under13945the same conditions. Conversely, we may further infer that plants which13946are self-sterile in their native country, but become self-fertile under13947changed conditions, have their sexual elements so acted on, that they13948become sufficiently differentiated for mutual interaction.1394913950We know that self-fertilised seedlings are inferior in many respects to13951those from a cross; and as with plants in a state of nature pollen from13952the same flower can hardly fail to be often left by insects or by the13953wind on the stigma, it seems at first sight highly probable that13954self-sterility has been gradually acquired through natural selection in13955order to prevent self-fertilisation. It is no valid objection to this13956belief that the structure of some flowers, and the dichogamous condition13957of many others, suffice to prevent the pollen reaching the stigma of the13958same flower; for we should remember that with most species many flowers13959expand at the same time, and that pollen from the same plant is equally13960injurious or nearly so as that from the same flower. Nevertheless, the13961belief that self-sterility is a quality which has been gradually13962acquired for the special purpose of preventing self-fertilisation must,13963I believe, be rejected. In the first place, there is no close13964correspondence in degree between the sterility of the parent-plants when13965self-fertilised, and the extent to which their offspring suffer in13966vigour by this process; and some such correspondence might have been13967expected if self-sterility had been acquired on account of the injury13968caused by self-fertilisation. The fact of individuals of the same13969parentage differing greatly in their degree of self-sterility is13970likewise opposed to such a belief; unless, indeed, we suppose that13971certain individuals have been rendered self-sterile to favour13972intercrossing, whilst other individuals have been rendered self-fertile13973to ensure the propagation of the species. The fact of self-sterile13974individuals appearing only occasionally, as in the case of Lobelia, does13975not countenance this latter view. But the strongest argument against the13976belief that self-sterility has been acquired to prevent13977self-fertilisation, is the immediate and powerful effect of changed13978conditions in either causing or in removing self-sterility. We are not13979therefore justified in admitting that this peculiar state of the13980reproductive system has been gradually acquired through natural13981selection; but we must look at it as an incidental result, dependent on13982the conditions to which the plants have been subjected, like the13983ordinary sterility caused in the case of animals by confinement, and in13984the case of plants by too much manure, heat, etc. I do not, however,13985wish to maintain that self-sterility may not sometimes be of service to13986a plant in preventing self-fertilisation; but there are so many other13987means by which this result might be prevented or rendered difficult,13988including as we shall see in the next chapter the prepotency of pollen13989from a distinct individual over a plant's own pollen, that13990self-sterility seems an almost superfluous acquirement for this purpose.1399113992Finally, the most interesting point in regard to self-sterile plants is13993the evidence which they afford of the advantage, or rather of the13994necessity, of some degree or kind of differentiation in the sexual13995elements, in order that they should unite and give birth to a new being.13996It was ascertained that the five plants of Reseda odorata which were13997selected by chance, could be perfectly fertilised by pollen taken from13998any one of them, but not by their own pollen; and a few additional13999trials were made with some other individuals, which I have not thought14000worth recording. So again, Hildebrand and Fritz Muller frequently speak14001of self-sterile plants being fertile with the pollen of any other14002individual; and if there had been any exceptions to the rule, these14003could hardly have escaped their observation and my own. We may therefore14004confidently assert that a self-sterile plant can be fertilised by the14005pollen of any one out of a thousand or ten thousand individuals of the14006same species, but not by its own. Now it is obviously impossible that14007the sexual organs and elements of every individual can have been14008specialised with respect to every other individual. But there is no14009difficulty in believing that the sexual elements of each differ slightly14010in the same diversified manner as do their external characters; and it14011has often been remarked that no two individuals are absolutely alike.14012Therefore we can hardly avoid the conclusion, that differences of an14013analogous and indefinite nature in the reproductive system are14014sufficient to excite the mutual action of the sexual elements, and that14015unless there be such differentiation fertility fails.1401614017THE APPEARANCE OF HIGHLY SELF-FERTILE VARIETIES.1401814019We have just seen that the degree to which flowers are capable of being14020fertilised with their own pollen differs much, both with the species of14021the same genus, and sometimes with the individuals of the same species.14022Some allied cases of the appearance of varieties which, when14023self-fertilised, yield more seed and produce offspring growing taller14024than their self-fertilised parents, or than the intercrossed plants of14025the corresponding generation, will now be considered.1402614027Firstly, in the third and fourth generations of Mimulus luteus, a tall14028variety, often alluded to, having large white flowers blotched with14029crimson, appeared amongst both the intercrossed and self-fertilised14030plants. It prevailed in all the later self-fertilised generations to the14031exclusion of every other variety, and transmitted its characters14032faithfully, but disappeared from the intercrossed plants, owing no doubt14033to their characters being repeatedly blended by crossing. The14034self-fertilised plants belonging to this variety were not only taller,14035but more fertile than the intercrossed plants; though these latter in14036the earlier generations were much taller and more fertile than the14037self-fertilised plants. Thus in the fifth generation the self-fertilised14038plants were to the intercrossed in height as 126 to 100. In the sixth14039generation they were likewise much taller and finer plants, but were not14040actually measured; they produced capsules compared with those on the14041intercrossed plants, in number, as 147 to 100; and the self-fertilised14042capsules contained a greater number of seeds. In the seventh generation14043the self-fertilised plants were to the crossed in height as 137 to 100;14044and twenty flowers on these self-fertilised plants fertilised with their14045own pollen yielded nineteen very fine capsules,--a degree of14046self-sterility which I have not seen equalled in any other case. This14047variety seems to have become specially adapted to profit in every way by14048self-fertilisation, although this process was so injurious to the14049parent-plants during the first four generations. It should however be14050remembered that seedlings raised from this variety, when crossed by a14051fresh stock, were wonderfully superior in height and fertility to the14052self-fertilised plants of the corresponding generation.1405314054Secondly, in the sixth self-fertilised generation of Ipomoea a single14055plant named the Hero appeared, which exceeded by a little in height its14056intercrossed opponent,--a case which had not occurred in any previous14057generation. Hero transmitted the peculiar colour of its flowers, as well14058as its increased tallness and a high degree of self-fertility, to its14059children, grandchildren, and great-grandchildren. The self-fertilised14060children of Hero were in height to other self-fertilised plants of the14061same stock as 100 to 85. Ten self-fertilised capsules produced by the14062grandchildren contained on an average 5.2 seeds; and this is a higher14063average than was yielded in any other generation by the capsules of14064self-fertilised flowers. The great-grandchildren of Hero derived from a14065cross with a fresh stock were so unhealthy, from having been grown at an14066unfavourable season, that their average height in comparison with that14067of the self-fertilised plants cannot be judged of with any safety; but14068it did not appear that they had profited even by a cross of this kind.1406914070Thirdly, the plants of Nicotiana on which I experimented appear to come14071under the present class of cases; for they varied in their sexual14072constitution and were more or less highly self-fertile. They were14073probably the offspring of plants which had been spontaneously14074self-fertilised under glass for several generations in this country. The14075flowers on the parent-plants which were first fertilised by me with14076their own pollen yielded half again as many seeds as did those which14077were crossed; and the seedlings raised from these self-fertilised seeds14078exceeded in height those raised from the crossed seeds to an14079extraordinary degree. In the second and third generations, although the14080self-fertilised plants did not exceed the crossed in height, yet their14081self-fertilised flowers yielded on two occasions considerably more seeds14082than the crossed flowers, even than those which were crossed with pollen14083from a distinct stock or variety.1408414085Lastly, as certain individual plants of Reseda odorata and lutea are14086incomparably more self-fertile than other individuals, the former might14087be included under the present heading of the appearance of new and14088highly self-fertile varieties. But in this case we should have to look14089at these two species as normally self-sterile; and this, judging by my14090experience, appears to be the correct view.1409114092We may therefore conclude from the facts now given, that varieties14093sometimes arise which when self-fertilised possess an increased power of14094producing seeds and of growing to a greater height, than the14095intercrossed or self-fertilised plants of the corresponding14096generation--all the plants being of course subjected to the same14097conditions. The appearance of such varieties is interesting, as it bears14098on the existence under nature of plants which regularly fertilise14099themselves, such as Ophrys apifera and a few other orchids, or as14100Leersia oryzoides, which produces an abundance of cleistogene flowers,14101but most rarely flowers capable of cross-fertilisation.1410214103Some observations made on other plants lead me to suspect that14104self-fertilisation is in some respects beneficial; although the benefit14105thus derived is as a rule very small compared with that from a cross14106with a distinct plant. Thus we have seen in the last chapter that14107seedlings of Ipomoea and Mimulus raised from flowers fertilised with14108their own pollen, which is the strictest possible form of14109self-fertilisation, were superior in height, weight, and in early14110flowering to the seedlings raised from flowers crossed with pollen from14111other flowers on the same plant; and this superiority apparently was too14112strongly marked to be accidental. Again, the cultivated varieties of the14113common pea are highly self-fertile, although they have been14114self-fertilised for many generations; and they exceeded in height14115seedlings from a cross between two plants belonging to the same variety14116in the ratio of 115 to 100; but then only four pairs of plants were14117measured and compared. The self-fertility of Primula veris increased14118after several generations of illegitimate fertilisation, which is a14119process closely analogous to self-fertilisation, but only as long as the14120plants were cultivated under the same favourable conditions. I have also14121elsewhere shown that with Primula veris and sinensis, equal-styled14122varieties occasionally appear which possess the sexual organs of the two14123forms combined in the same flower. (9/16. 'Journal of the Linnean14124Society Botany' volume 10 1867 pages 417, 419.) Consequently they14125fertilise themselves in a legitimate manner and are highly self-fertile;14126but the remarkable fact is that they are rather more fertile than14127ordinary plants of the same species legitimately fertilised by pollen14128from a distinct individual. Formerly it appeared to me probable, that14129the increased fertility of these dimorphic plants might be accounted for14130by the stigma lying so close to the anthers that it was impregnated at14131the most favourable age and time of the day; but this explanation is not14132applicable to the above given cases, in which the flowers were14133artificially fertilised with their own pollen.1413414135Considering the facts now adduced, including the appearance of those14136varieties which are more fertile and taller than their parents and than14137the intercrossed plants of the corresponding generation, it is difficult14138to avoid the suspicion that self-fertilisation is in some respects14139advantageous; though if this be really the case, any such advantage is14140as a rule quite insignificant compared with that from a cross with a14141distinct plant, and especially with one of a fresh stock. Should this14142suspicion be hereafter verified, it would throw light, as we shall see14143in the next chapter, on the existence of plants bearing small and14144inconspicuous flowers which are rarely visited by insects, and therefore14145are rarely intercrossed.1414614147RELATIVE WEIGHT AND PERIOD OF GERMINATION OF SEEDS FROM CROSSED AND14148SELF-FERTILISED FLOWERS.1414914150An equal number of seeds from flowers fertilised with pollen from14151another plant, and from flowers fertilised with their own pollen, were14152weighed, but only in sixteen cases. Their relative weights are given in14153the following list; that of the seeds from the crossed flowers being14154taken as 100.1415514156Column 1: Name of Plant.1415714158Column 2: x, in the expression, 100 to x.1415914160Ipomoea purpurea (parent plants): 127.14161Ipomoea purpurea (third generation): 87.14162Salvia coccinea: 100.14163Brassica oleracea: 103.14164Iberis umbellata (second generation): 136.14165Delphinium consolida: 45.14166Hibiscus africanus: 105.14167Tropaeolum minus: 115.14168Lathyrus odoratus (about): 100.14169Sarothamnus scoparius: 88.14170Specularia speculum: 86.14171Nemophila insignis: 105.14172Borago officinalis: 111.14173Cyclamen persicum (about): 50.14174Fagopyrum esculentum: 82.14175Canna warscewiczi (3 generations): 102.1417614177It is remarkable that in ten out of these sixteen cases the14178self-fertilised seeds were either superior or equal to the crossed in14179weight; nevertheless, in six out of the ten cases (namely, with Ipomoea,14180Salvia, Brassica, Tropaeolum, Lathyrus, and Nemophila) the plants raised14181from these self-fertilised seeds were very inferior in height and in14182other respects to those raised from the crossed seeds. The superiority14183in weight of the self-fertilised seeds in at least six out of the ten14184cases, namely, with Brassica, Hibiscus, Tropaeolum, Nemophila, Borago,14185and Canna, may be accounted for in part by the self-fertilised capsules14186containing fewer seeds; for when a capsule contains only a few seeds,14187these will be apt to be better nourished, so as to be heavier, than when14188many are contained in the same capsule. It should, however, be observed14189that in some of the above cases, in which the crossed seeds were the14190heaviest, as with Sarothamnus and Cyclamen, the crossed capsules14191contained a larger number of seeds. Whatever may be the explanation of14192the self-fertilised seeds being often the heaviest, it is remarkable in14193the case of Brassica, Tropaeolum, Nemophila, and of the first generation14194of Ipomoea, that the seedlings raised from them were inferior in height14195and in other respects to the seedlings raised from the crossed seeds.14196This fact shows how superior in constitutional vigour the crossed14197seedlings must have been, for it cannot be doubted that heavy and fine14198seeds tend to yield the finest plants. Mr. Galton has shown that this14199holds good with Lathyrus odoratus; as has Mr. A.J. Wilson with the14200Swedish turnip, Brassica campestris ruta baga. Mr. Wilson separated the14201largest and smallest seeds of this latter plant, the ratio between the14202weights of the two lots being as 100 to 59, and he found that the14203seedlings "from the larger seeds took the lead and maintained their14204superiority to the last, both in height and thickness of stem." (9/17.14205'Gardeners' Chronicle' 1867 page 107. Loiseleur-Deslongchamp 'Les14206Cereales' 1842 pages 208-219, was led by his observations to the14207extraordinary conclusion that the smaller grains of cereals produce as14208fine plants as the large. This conclusion is, however, contradicted by14209Major Hallet's great success in improving wheat by the selection of the14210finest grains. It is possible, however, that man, by long-continued14211selection, may have given to the grains of the cereals a greater amount14212of starch or other matter, than the seedlings can utilise for their14213growth. There can be little doubt, as Humboldt long ago remarked, that14214the grains of cereals have been rendered attractive to birds in a degree14215which is highly injurious to the species.) Nor can this difference in14216the growth of the seedling turnips be attributed to the heavier seeds14217having been of crossed, and the lighter of self-fertilised origin, for14218it is known that plants belonging to this genus are habitually14219intercrossed by insects.1422014221With respect to the relative period of germination of crossed and14222self-fertilised seeds, a record was kept in only twenty-one cases; and14223the results are very perplexing. Neglecting one case in which the two14224lots germinated simultaneously, in ten cases or exactly one-half many of14225the self-fertilised seeds germinated before the crossed, and in the14226other half many of the crossed before the self-fertilised. In four out14227of these twenty cases, seeds derived from a cross with a fresh stock14228were compared with self-fertilised seeds from one of the later14229self-fertilised generations; and here again in half the cases the14230crossed seeds, and in the other half the self-fertilised seeds,14231germinated first. Yet the seedlings of Mimulus raised from such14232self-fertilised seeds were inferior in all respects to the crossed14233seedlings, and in the case of Eschscholtzia they were inferior in14234fertility. Unfortunately the relative weight of the two lots of seeds14235was ascertained in only a few instances in which their germination was14236observed; but with Ipomoea and I believe with some of the other species,14237the relative lightness of the self-fertilised seeds apparently14238determined their early germination, probably owing to the smaller mass14239being favourable to the more rapid completion of the chemical and14240morphological changes necessary for germination. On the other hand, Mr.14241Galton gave me seeds (no doubt all self-fertilised) of Lathyrus14242odoratus, which were divided into two lots of heavier and lighter seeds;14243and several of the former germinated first. It is evident that many more14244observations are necessary before anything can be decided with respect14245to the relative period of germination of crossed and self-fertilised14246seeds.14247142481424914250CHAPTER X.1425114252MEANS OF FERTILISATION.1425314254Sterility and fertility of plants when insects are excluded.14255The means by which flowers are cross-fertilised.14256Structures favourable to self-fertilisation.14257Relation between the structure and conspicuousness of flowers, the14258visits of insects, and the advantages of cross-fertilisation.14259The means by which flowers are fertilised with pollen from a distinct14260plant.14261Greater fertilising power of such pollen.14262Anemophilous species.14263Conversion of anemophilous species into entomophilous.14264Origin of nectar.14265Anemophilous plants generally have their sexes separated.14266Conversion of diclinous into hermaphrodite flowers.14267Trees often have their sexes separated.1426814269In the introductory chapter I briefly specified the various means by14270which cross-fertilisation is favoured or ensured, namely, the separation14271of the sexes,--the maturity of the male and female sexual elements at14272different periods,--the heterostyled or dimorphic and trimorphic14273condition of certain plants,--many mechanical contrivances,--the more or14274less complete inefficiency of a flower's own pollen on the stigma,--and14275the prepotency of pollen from any other individual over that from the14276same plant. Some of these points require further consideration; but for14277full details I must refer the reader to the several excellent works14278mentioned in the introduction. I will in the first place give two lists:14279the first, of plants which are either quite sterile or produce less than14280about half the full complement of seeds, when insects are excluded; and14281a second list of plants which, when thus treated, are fully fertile or14282produce at least half the full complement of seeds. These lists have14283been compiled from the several previous tables, with some additional14284cases from my own observations and those of others. The species are14285arranged nearly in the order followed by Lindley in his 'Vegetable14286Kingdom.' The reader should observe that the sterility or fertility of14287the plants in these two lists depends on two wholly distinct causes;14288namely, the absence or presence of the proper means by which pollen is14289applied to the stigma, and its less or greater efficiency when thus14290applied. As it is obvious that with plants in which the sexes are14291separate, pollen must be carried by some means from flower to flower,14292such species are excluded from the lists; as are likewise dimorphic and14293trimorphic plants, in which the same necessity occurs to a limited14294extent. Experience has proved to me that, independently of the exclusion14295of insects, the seed-bearing power of a plant is not lessened by14296covering it while in flower under a thin net supported on a frame; and14297this might indeed have been inferred from the consideration of the two14298following lists, as they include a considerable number of species14299belonging to the same genera, some of which are quite sterile and others14300quite fertile when protected by a net from the access of insects.1430114302[LIST OF PLANTS WHICH, WHEN INSECTS ARE EXCLUDED, ARE EITHER QUITE14303STERILE, OR PRODUCE, AS FAR AS I COULD JUDGE, LESS THAN HALF THE NUMBER14304OF SEEDS PRODUCED BY UNPROTECTED PLANTS.1430514306Passiflora alata, racemosa, coerulea, edulis, laurifolia, and some14307individuals of P. quadrangularis (Passifloraceae), are quite sterile14308under these conditions: see 'Variation of Animals and Plants under14309Domestication' chapter 17 2nd edition volume 2 page 118.1431014311Viola canina (Violaceae).--Perfect flowers quite sterile unless14312fertilised by bees, or artificially fertilised.1431314314Viola tricolor.--Sets very few and poor capsules.1431514316Reseda odorata (Resedaceae).--Some individuals quite sterile.1431714318Reseda lutea.--Some individuals produce very few and poor capsules.1431914320Abutilon darwinii (Malvaceae).--Quite sterile in Brazil: see previous14321discussion on self-sterile plants.1432214323Nymphaea (Nymphaeaceae).--Professor Caspary informs me that some of the14324species are quite sterile if insects are excluded.1432514326Euryale amazonica (Nymphaeaceae).--Mr. J. Smith, of Kew, informs me that14327capsules from flowers left to themselves, and probably not visited by14328insects, contained from eight to fifteen seeds; those from flowers14329artificially fertilised with pollen from other flowers on the same plant14330contained from fifteen to thirty seeds; and that two flowers fertilised14331with pollen brought from another plant at Chatsworth contained14332respectively sixty and seventy-five seeds. I have given these statements14333because Professor Caspary advances this plant as a case opposed to the14334doctrine of the necessity or advantage of cross-fertilisation: see14335Sitzungsberichte der Phys.-okon. Gesell.zu Konigsberg, B.6 page 20.)1433614337Delphinium consolida (Ranunculaceae).--Produces many capsules, but these14338contain only about half the number of seeds compared with capsules from14339flowers naturally fertilised by bees.1434014341Eschscholtzia californica (Papaveraceae).--Brazilian plants quite14342sterile: English plants produce a few capsules.1434314344Papaver vagum (Papaveraceae).--In the early part of the summer produced14345very few capsules, and these contained very few seeds.1434614347Papaver alpinum.--H. Hoffmann ('Speciesfrage' 1875 page 47) states that14348this species produced seeds capable of germination only on one occasion.1434914350Corydalis cava (Fumariaceae).--Sterile: see the previous discussion on14351self-sterile plants.1435214353Corydalis solida.--I had a single plant in my garden (1863), and saw14354many hive-bees sucking the flowers, but not a single seed was produced.14355I was much surprised at this fact, as Professor Hildebrand's discovery14356that C. cava is sterile with its own pollen had not then been made. He14357likewise concludes from the few experiments which he made on the present14358species that it is self-sterile. The two foregoing cases are14359interesting, because botanists formerly thought (see, for instance,14360Lecoq, 'De la Fecondation et de l'Hybridation' 1845 page 61 and Lindley14361'Vegetable Kingdom' 1853 page 436) that all the species of the14362Fumariaceae were specially adapted for self-fertilisation.1436314364Corydalis lutea.--A covered-up plant produced (1861) exactly half as14365many capsules as an exposed plant of the same size growing close14366alongside. When humble-bees visit the flowers (and I repeatedly saw them14367thus acting) the lower petals suddenly spring downwards and the pistil14368upwards; this is due to the elasticity of the parts, which takes effect,14369as soon as the coherent edges of the hood are separated by the entrance14370of an insect. Unless insects visit the flowers the parts do not move.14371Nevertheless, many of the flowers on the plants which I had protected14372produced capsules, notwithstanding that their petals and pistils still14373retained their original position; and I found to my surprise that these14374capsules contained more seeds than those from flowers, the petals of14375which had been artificially separated and allowed to spring apart. Thus,14376nine capsules produced by undisturbed flowers contained fifty-three14377seeds; whilst nine capsules from flowers, the petals of which had been14378artificially separated, contained only thirty-two seeds. But we should14379remember that if bees had been permitted to visit these flowers, they14380would have visited them at the best time for fertilisation. The flowers,14381the petals of which had been artificially separated, set their capsules14382before those which were left undisturbed under the net. To show with14383what certainty the flowers are visited by bees, I may add that on one14384occasion all the flowers on some unprotected plants were examined, and14385every single one had its petals separated; and, on a second occasion,14386forty-one out of forty-three flowers were in this state. Hildebrand14387states (Pring. Jahr. f. wiss. Botanik, B. 7 page 450) that the mechanism14388of the parts in this species is nearly the same as in C. ochroleuca,14389which he has fully described.1439014391Hypecoum grandiflorum (Fumariaceae).--Highly self-sterile (Hildebrand,14392ibid.).1439314394Kalmia latifolia (Ericaceae).--Mr. W.J. Beal says ('American Naturalist'143951867) that flowers protected from insects wither and drop off, with14396"most of the anthers still remaining in the pockets."1439714398Pelargonium zonale (Geraniaceae).--Almost sterile; one plant produced14399two fruits. It is probable that different varieties would differ in this14400respect, as some are only feebly dichogamous.1440114402Dianthus caryophyllus (Caryophyllaceae).--Produces very few capsules14403which contain any good seeds.1440414405Phaseolus multiflorus (Leguminosae).--Plants protected from insects14406produced on two occasions about one-third and one-eighth of the full14407number of seeds: see my article in 'Gardeners' Chronicle' 1857 page 22514408and 1858 page 828; also 'Annals and Magazine of Natural History' 3rd14409series volume 2 1858 page 462. Dr. Ogle ('Popular Science Review' 187014410page 168) found that a plant was quite sterile when covered up. The14411flowers are not visited by insects in Nicaragua, and, according to Mr.14412Belt, the species is there quite sterile: 'The Naturalist in Nicaragua'14413page 70.1441414415Vicia faba (Leguminosae).--Seventeen covered-up plants yielded 40 beans,14416whilst seventeen plants left unprotected and growing close alongside14417produced 135 beans; these latter plants were, therefore, between three14418and four times more fertile than the protected plants: see 'Gardeners'14419Chronicle' for fuller details, 1858 page 828.1442014421Erythrina (sp.?) (Leguminosae).--Sir W. MacArthur informed me that in14422New South Wales the flowers do not set, unless the petals are moved in14423the same manner as is done by insects.1442414425Lathyrus grandiflorus (Leguminosae).--Is in this country more or less14426sterile. It never sets pods unless the flowers are visited by14427humble-bees (and this happens only rarely), or unless they are14428artificially fertilised: see my article in 'Gardeners' Chronicle' 185814429page 828.1443014431Sarothamnus scoparius (Leguminosae).--Extremely sterile when the flowers14432are neither visited by bees, nor disturbed by being beaten by the wind14433against the surrounding net.1443414435Melilotus officinalis (Leguminosae).--An unprotected plant visited by14436bees produced at least thirty times more seeds than a protected one. On14437this latter plant many scores of racemes did not produce a single pod;14438several racemes produced each one or two pods; five produced three; six14439produced four; and one produced six pods. On the unprotected plant each14440of several racemes produced fifteen pods; nine produced between sixteen14441and twenty-two pods, and one produced thirty pods.1444214443Lotus corniculatus (Leguminosae).--Several covered-up plants produced14444only two empty pods, and not a single good seed.1444514446Trifolium repens (Leguminosae).--Several plants were protected from14447insects, and the seeds from ten flowers-heads on these plants, and from14448ten heads on other plants growing outside the net (which I saw visited14449by bees), were counted; and the seeds from the latter plants were very14450nearly ten times as numerous as those from the protected plants. The14451experiment was repeated on the following year; and twenty protected14452heads now yielded only a single aborted seed, whilst twenty heads on the14453plants outside the net (which I saw visited by bees) yielded 2290 seeds,14454as calculated by weighing all the seed, and counting the number in a14455weight of two grains.1445614457Trifolium pratense.--One hundred flower-heads on plants protected by a14458net did not produce a single seed, whilst 100 heads on plants growing14459outside, which were visited by bees, yielded 68 grains weight of seeds;14460and as eighty seeds weighed two grains, the 100 heads must have yielded144612720 seeds. I have often watched this plant, and have never seen14462hive-bees sucking the flowers, except from the outside through holes14463bitten by humble-bees, or deep down between the flowers, as if in search14464of some secretion from the calyx, almost in the same manner as described14465by Mr. Farrer, in the case of Coronilla ('Nature' 1874 July 2 page 169).14466I must, however, except one occasion, when an adjoining field of14467sainfoin (Hedysarum onobrychis) had just been cut down, and when the14468bees seemed driven to desperation. On this occasion most of the flowers14469of the clover were somewhat withered, and contained an extraordinary14470quantity of nectar, which the bees were able to suck. An experienced14471apiarian, Mr. Miner, says that in the United States hive-bees never suck14472the red clover; and Mr. R. Colgate informs me that he has observed the14473same fact in New Zealand after the introduction of the hive-bee into14474that island. On the other hand, H. Muller ('Befruchtung' page 224) has14475often seen hive-bees visiting this plant in Germany, for the sake both14476of pollen and nectar, which latter they obtained by breaking apart the14477petals. It is at least certain that humble-bees are the chief14478fertilisers of the common red clover.1447914480Trifolium incarnatum.--The flower-heads containing ripe seeds, on some14481covered and uncovered plants, appeared equally fine, but this was a14482false appearance; 60 heads on the latter yielded 349 grains weight of14483seeds, whereas 60 on the covered-up plants yielded only 63 grains, and14484many of the seeds in the latter lot were poor and aborted. Therefore the14485flowers which were visited by bees produced between five and six times14486as many seeds as those which were protected. The covered-up plants not14487having been much exhausted by seed-bearing, bore a second considerable14488crop of flower-stems, whilst the exposed plants did not do so.1448914490Cytisus laburnum (Leguminosae).--Seven flower-racemes ready to expand14491were enclosed in a large bag made of net, and they did not seem in the14492least injured by this treatment. Only three of them produced any pods,14493each a single one; and these three pods contained one, four, and five14494seeds. So that only a single pod from the seven racemes included a fair14495complement of seeds.1449614497Cuphea purpurea (Lythraceae).--Produced no seeds. Other flowers on the14498same plant artificially fertilised under the net yielded seeds.1449914500Vinca major (Apocynaceae).--Is generally quite sterile, but sometimes14501sets seeds when artificially cross-fertilised: see my notice 'Gardeners'14502Chronicle' 1861 page 552.1450314504Vinca rosea.--Behaves in the same manner as the last species:14505'Gardeners' Chronicle' 1861 page 699, 736, 831.1450614507Tabernaemontana echinata (Apocynaceae).--Quite sterile.1450814509Petunia violacea (Solanaceae).--Quite sterile, as far as I have14510observed.1451114512Solanum tuberosum (Solanaceae).--Tinzmann says ('Gardeners' Chronicle'145131846 page 183) that some varieties are quite sterile unless fertilised14514by pollen from another variety.1451514516Primula scotica (Primulaceae).--A non-dimorphic species, which is14517fertile with its own pollen, but is extremely sterile if insects are14518excluded. J. Scott in 'Journal of the Linnean Society Botany' volume 8145191864 page 119.1452014521Cortusa matthioli (Primulaceae).--Protected plants completely sterile;14522artificially self-fertilised flowers perfectly fertile. J. Scott ibid.14523page 84.1452414525Cyclamen persicum (Primulaceae).--During one season several covered-up14526plants did not produce a single seed.1452714528Borago officinalis (Boraginaceae).--Protected plants produced about half14529as many seeds as the unprotected.1453014531Salvia tenori (Labiatae).--Quite sterile; but two or three flowers on14532the summits of three of the spikes, which touched the net when the wind14533blew, produced a few seeds. This sterility was not due to the injurious14534effects of the net, for I fertilised five flowers with pollen from an14535adjoining plant, and these all yielded fine seeds. I removed the net,14536whilst one little branch still bore a few not completely faded flowers,14537and these were visited by bees and yielded seeds.1453814539Salvia coccinea.--Some covered-up plants produced a good many fruits,14540but not, I think, half as many as did the uncovered plants; twenty-eight14541of the fruits spontaneously produced by the protected plant contained on14542an average only 1.45 seeds, whilst some artificially self-fertilised14543fruits on the same plant contained more than twice as many, namely 3.314544seeds.1454514546Bignonia (unnamed species) (Bignoniaceae).--Quite sterile: see my14547account of self-sterile plants.1454814549Digitalis purpurea (Scrophulariaceae).--Extremely sterile, only a few14550poor capsules being produced.1455114552Linaria vulgaris (Scrophulariaceae).--Extremely sterile.1455314554Antirrhinum majus, red var. (Scrophulariaceae).--Fifty pods gathered14555from a large plant under a net contained 9.8 grains weight of seeds; but14556many (unfortunately not counted) of the fifty pods contained no seeds.14557Fifty pods on a plant fully exposed to the visits of humble-bees14558contained 23.1 grains weight of seed, that is, more than twice the14559weight; but in this case again, several of the fifty pods contained no14560seeds.1456114562Antirrhinum majus (white var., with a pink mouth to the corolla).--Fifty14563pods, of which only a very few were empty, on a covered-up plant14564contained 20 grains weight of seed; so that this variety seems to be14565much more self-fertile than the previous one. With Dr. W. Ogle ('Popular14566Science Review' January 1870 page 52) a plant of this species was much14567more sterile when protected from insects than with me, for it produced14568only two small capsules. As showing the efficiency of bees, I may add14569that Mr. Crocker castrated some young flowers and left them uncovered;14570and these produced as many seeds as the unmutilated flowers.1457114572Antirrhinum majus (peloric var.).--This variety is quite fertile when14573artificially fertilised with its own pollen, but is utterly sterile when14574left to itself and uncovered, as humble-bees cannot crawl into the14575narrow tubular flowers.1457614577Verbascum phoeniceum (Scrophulariaceae).--Quite sterile. See my account14578of self-sterile plants.1457914580Verbascum nigrum.--Quite sterile. See my account of self-sterile plants.1458114582Campanula carpathica (Lobeliaceae).--Quite sterile.1458314584Lobelia ramosa (Lobeliaceae).--Quite sterile.1458514586Lobelia fulgens.--This plant is never visited in my garden by bees, and14587is quite sterile; but in a nursery-garden at a few miles' distance I saw14588humble-bees visiting the flowers, and they produced some capsules.1458914590Isotoma (a white-flowered var.) (Lobeliaceae).--Five plants left14591unprotected in my greenhouse produced twenty-four fine capsules,14592containing altogether 12.2 grains weight of seed, and thirteen other14593very poor capsules, which were rejected. Five plants protected from14594insects, but otherwise exposed to the same conditions as the above14595plants, produced sixteen fine capsules, and twenty other very poor and14596rejected ones. The sixteen fine capsules contained seeds by weight in14597such proportion that twenty-four would have yielded 4.66 grains. So that14598the unprotected plants produced nearly thrice as many seeds by weight as14599the protected plants.1460014601Leschenaultia formosa (Goodeniaceae).--Quite sterile. My experiments on14602this plant, showing the necessity of insect aid, are given in the14603'Gardeners' Chronicle' 1871 page 1166.1460414605Senecio cruentus (Compositae).--Quite sterile: see my account of14606self-sterile plants.1460714608Heterocentron mexicanum (Malastomaceae).--Quite sterile; but this14609species and the following members of the group produce plenty of seed14610when artificially self-fertilised.1461114612Rhexia glandulosa (Melastomaceae).--Set spontaneously only two or three14613capsules.1461414615Centradenia floribunda (Melastomaceae).--During some years produced14616spontaneously two or three capsules, sometimes none.1461714618Pleroma (unnamed species from Kew) (Melastomaceae).--During some years14619produced spontaneously two or three capsules, sometimes none.1462014621Monochaetum ensiferum (Melastomaceae).--During some years produced14622spontaneously two or three capsules, sometimes none.1462314624Hedychium (unnamed species) (Marantaceae).--Almost self-sterile without14625aid.1462614627Orchideae.--An immense proportion of the species sterile, if insects are14628excluded.1462914630LIST OF PLANTS, WHICH WHEN PROTECTED FROM INSECTS ARE EITHER QUITE14631FERTILE, OR YIELD MORE THAN HALF THE NUMBER OF SEEDS PRODUCED BY14632UNPROTECTED PLANTS.1463314634Passiflora gracilis (Passifloraceae).--Produces many fruits, but these14635contain fewer seeds than fruits from intercrossed flowers.1463614637Brassica oleracea (Cruciferae).--Produces many capsules, but these14638generally not so rich in seed as those on uncovered plants.1463914640Raphanus sativus (Cruciferae).--Half of a large branching plant was14641covered by a net, and was as thickly covered with capsules as the other14642and unprotected half; but twenty of the capsules on the latter contained14643on an average 3.5 seeds, whilst twenty of the protected capsules14644contained only 1.85 seeds, that is, only a little more than half the14645number. This plant might perhaps have been more properly included in the14646former list.1464714648Iberis umbellata (Cruciferae).--Highly fertile.1464914650Iberis amara.--Highly fertile.1465114652Reseda odorata and lutea (Resedaceae).--Certain individuals completely14653self-fertile.1465414655Euryale ferox (Nymphaeaceae).--Professor Caspary informs me that this14656plant is highly self-fertile when insects are excluded. He remarks in14657the paper before referred to, that his plants (as well as those of the14658Victoria regia) produce only one flower at a time; and that as this14659species is an annual, and was introduced in 1809, it must have been14660self-fertilised for the last fifty-six generations; but Dr. Hooker14661assures me that to his knowledge it has been repeatedly introduced, and14662that at Kew the same plant both of the Euryale and of the Victoria14663produce several flowers at the same time.1466414665Nymphaea (Nymphaeaceae).--Some species, as I am informed by Professor14666Caspary, are quite self-fertile when insects are excluded.1466714668Adonis aestivalis (Ranunculaceae).--Produces, according to Professor H.14669Hoffmann ('Speciesfrage' page 11), plenty of seeds when protected from14670insects.1467114672Ranunculus acris (Ranunculaceae).--Produces plenty of seeds under a net.1467314674Papaver somniferum (Papaveraceae).--Thirty capsules from uncovered14675plants yielded 15.6 grains weight of seed, and thirty capsules from14676covered-up plants, growing in the same bed, yielded 16.5 grains weight;14677so that the latter plants were more productive than the uncovered.14678Professor H. Hoffmann ('Speciesfrage' 1875 page 53) also found this14679species self-fertile when protected from insects.1468014681Papaver vagum.--Produced late in the summer plenty of seeds, which14682germinated well.1468314684Papaver argemonoides.--According to Hildebrand ('Jahrbuch fur w. Bot.'14685B.7 page 466), spontaneously self-fertilised flowers are by no means14686sterile.1468714688Glaucium luteum (Papaveraceae).--According to Hildebrand ('Jahrbuch fur14689w. Bot.' B.7 page 466), spontaneously self-fertilised flowers are by no14690means sterile.1469114692Argemone ochroleuca (Papaveraceae).--According to Hildebrand ('Jahrbuch14693fur w. Bot.' B.7 page 466), spontaneously self-fertilised flowers are by14694no means sterile.1469514696Adlumia cirrhosa (Fumariaceae).--Sets an abundance of capsules.1469714698Hypecoum procumbens (Fumariaceae).--Hildebrand says (idem), with respect14699to protected flowers, that "eine gute Fruchtbildung eintrete."1470014701Fumaria officinalis (Fumariaceae).--Covered-up and unprotected plants14702apparently produced an equal number of capsules, and the seeds of the14703former seemed to the eye equally good. I have often watched this plant,14704and so has Hildebrand, and we have never seen an insect visit the14705flowers. Hermann Muller has likewise been struck with the rarity of the14706visits of insects to it, though he has sometimes seen hive-bees at work.14707The flowers may perhaps be visited by small moths, as is probably the14708case with the following species.1470914710Fumaria capreolata.--Several large beds of this plant growing wild were14711watched by me during many days, but the flowers were never visited by14712any insects, though a humble-bee was once seen closely to inspect them.14713Nevertheless, as the nectary contains much nectar, especially in the14714evening, I felt convinced that they were visited, probably by moths. The14715petals do not naturally separate or open in the least; but they had been14716opened by some means in a certain proportion of the flowers, in the same14717manner as follows when a thick bristle is pushed into the nectary; so14718that in this respect they resemble the flowers of Corydalis lutea.14719Thirty-four heads, each including many flowers, were examined, and14720twenty of them had from one to four flowers, whilst fourteen had not a14721single flower thus opened. It is therefore clear that some of the14722flowers had been visited by insects, while the majority had not; yet14723almost all produced capsules.1472414725Linum usitatissimum (Linaceae).--Appears to be quite fertile. H.14726Hoffmann 'Botanische Zeitung' 1876 page 566.1472714728Impatiens barbigerum (Balsaminaceae).--The flowers, though excellently14729adapted for cross-fertilisation by the bees which freely visit them, set14730abundantly under a net.1473114732Impatiens noli-me-tangere (Balsaminaceae).--This species produces14733cleistogene and perfect flowers. A plant was covered with a net, and14734some perfect flowers, marked with threads, produced eleven spontaneously14735self-fertilised capsules, which contained on an average 3.45 seeds. I14736neglected to ascertain the number of seeds produced by perfect flowers14737exposed to the visits of insects, but I believe it is not greatly in14738excess of the above average. Mr. A.W. Bennett has carefully described14739the structure of the flowers of I. fulva in 'Journal of the Linnean14740Society' volume 13 Bot. 1872 page 147. This latter species is said to be14741sterile with its own pollen ('Gardeners' Chronicle' 1868 page 1286), and14742if so, it presents a remarkable contrast with I. barbigerum and14743noli-me-tangere.1474414745Limnanthes douglasii (Geraniaceae).--Highly fertile.1474614747Viscaria oculata (Caryophyllaceae).--Produces plenty of capsules with14748good seeds.1474914750Stellaria media (Caryophyllaceae).--Covered-up and uncovered plants14751produced an equal number of capsules, and the seeds in both appeared14752equally numerous and good.1475314754Beta vulgaris (Chenopodiaceae).--Highly self-fertile.1475514756Vicia sativa (Leguminosae).--Protected and unprotected plants produced14757an equal number of pods and equally fine seeds. If there was any14758difference between the two lots, the covered-up plants were the most14759productive.1476014761Vicia hirsuta.--This species bears the smallest flowers of any British14762leguminous plant. The result of covering up plants was exactly the same14763as in the last species.1476414765Pisum sativum (Leguminosae).--Fully fertile.1476614767Lathyrus odoratus (Leguminosae).--Fully fertile.1476814769Lathyrus nissolia.--Fully fertile.1477014771Lupinus luteus (Leguminosae).--Fairly productive.1477214773Lupinus pilosus.--Produced plenty of pods.1477414775Ononis minutissima (Leguminosae).--Twelve perfect flowers on a plant14776under a net were marked by threads, and produced eight pods, containing14777on an average 2.38 seeds. Pods produced by flowers visited by insects14778would probably have contained on an average 3.66 seeds, judging from the14779effects of artificial cross-fertilisation.1478014781Phaseolus vulgaris (Leguminosae).--Quite fertile.1478214783Trifolium arvense (Leguminosae).--The excessively small flowers are14784incessantly visited by hive and humble-bees. When insects were excluded14785the flower-heads seemed to produce as many and as fine seeds as the14786exposed heads.1478714788Trifolium procumbens.--On one occasion covered-up plants seemed to yield14789as many seeds as the uncovered. On a second occasion sixty uncovered14790flower-heads yielded 9.1 grains weight of seeds, whilst sixty heads on14791protected plants yielded no less than 17.7 grains; so that these latter14792plants were much more productive; but this result I suppose was14793accidental. I have often watched this plant, and have never seen the14794flowers visited by insects; but I suspect that the flowers of this14795species, and more especially of Trifolium minus, are frequented by small14796nocturnal moths which, as I hear from Mr. Bond, haunt the smaller14797clovers.1479814799Medicago lupulina (Leguminosae).--On account of the danger of losing the14800seeds, I was forced to gather the pods before they were quite ripe; 15014801flower-heads on plants visited by bees yielded pods weighing 101 grains;14802whilst 150 heads on protected plants yielded pods weighing 77 grains.14803The inequality would probably have been greater if the mature seeds14804could have been all safely collected and compared. Ig. Urban (Keimung,14805Bluthen, etc., bei Medicago 1873) has described the means of14806fertilisation in this genus, as has the Reverend G. Henslow in the14807'Journal of the Linnean Society Botany' volume 9 1866 pages 327 and 355.1480814809Nicotiana tabacum (Solanaceae).--Fully self-fertile.1481014811Ipomoea purpurea (Convolvulaceae).--Highly self-fertile.1481214813Leptosiphon androsaceus (Polemoniacae).--Plants under a net produced a14814good many capsules.1481514816Primula mollis (Primulaceae).--A non-dimorphic species, self-fertile: J.14817Scott, in 'Journal of the Linnean Society Botany' volume 8 1864 page14818120.1481914820Nolana prostrata (Nolanaceae).--Plants covered up in the greenhouse,14821yielded seeds by weight compared with uncovered plants, the flowers of14822which were visited by many bees, in the ratio of 100 to 61.1482314824Ajuga reptans (Labiatae).--Set a good many seeds; but none of the stems14825under a net produced so many as several uncovered stems growing closely14826by.1482714828Euphrasia officinalis (Scrophulariaceae).--Covered-up plants produced14829plenty of seed; whether less than the exposed plants I cannot say. I saw14830two small Dipterous insects (Dolichopos nigripennis and Empis chioptera)14831repeatedly sucking the flowers; as they crawled into them, they rubbed14832against the bristles which project from the anthers, and became dusted14833with pollen.1483414835Veronica agrestis (Scrophulariaceae).--Covered-up plants produced an14836abundance of seeds. I do not know whether any insects visit the flowers;14837but I have observed Syrphidae repeatedly covered with pollen visiting14838the flowers of V. hederaefolia and chamoedrys.1483914840Mimulus luteus (Scrophulariaceae).--Highly self-fertile.1484114842Calceolaria (greenhouse variety) (Scrophulariaceae).--Highly14843self-fertile.1484414845Verbascum thapsus (Scrophulariaceae).--Highly self-fertile.1484614847Verbascum lychnitis.--Highly self-fertile.1484814849Vandellia nummularifolia (Scrophulariaceae).--Perfect flowers produce a14850good many capsules.1485114852Bartsia odontites (Scrophulariaceae).--Covered-up plants produced a good14853many seeds; but several of these were shrivelled, nor were they so14854numerous as those produced by unprotected plants, which were incessantly14855visited by hive and humble-bees.1485614857Specularia speculum (Lobeliaceae).--Covered plants produced almost as14858many capsules as the uncovered.1485914860Lactuca sativa (Compositae).--Covered plants produced some seeds, but14861the summer was wet and unfavourable.1486214863Galium aparine (Rubiaceae).--Covered plants produced quite as many seeds14864as the uncovered.1486514866Apium petroselinum (Umbelliferae).--Covered plants apparently were as14867productive as the uncovered.1486814869Zea mays (Gramineae).--A single plant in the greenhouse produced a good14870many grains.1487114872Canna warscewiczi (Marantaceae).--Highly self-fertile.1487314874Orchidaceae.--In Europe Ophrys apifera is as regularly self-fertilised14875as is any cleistogene flower. In the United States, South Africa, and14876Australia there are a few species which are perfectly self-fertile.14877These several cases are given in the second edition of my work on the14878Fertilisation of Orchids.1487914880Allium cepa (blood red var.) (Liliaceae).--Four flower-heads were14881covered with a net, and they produced somewhat fewer and smaller14882capsules than those on the uncovered heads. The capsules were counted on14883one uncovered head, and were 289 in number; whilst those on a fine head14884from under the net were only 199.]1488514886Each of these lists contains by a mere accident the same number of14887genera, namely, forty-nine. The genera in the first list include14888sixty-five species, and those in the second sixty species; the Orchideae14889in both being excluded. If the genera in this latter order, as well as14890in the Asclepiadae and Apocynaceae, had been included, the number of14891species which are sterile if insects are excluded would have been14892greatly increased; but the lists are confined to species which were14893actually experimented on. The results can be considered as only14894approximately accurate, for fertility is so variable a character, that14895each species ought to have been tried many times. The above number of14896species, namely, 125, is as nothing to the host of living plants; but14897the mere fact of more than half of them being sterile within the14898specified degree, when insects are excluded, is a striking one; for14899whenever pollen has to be carried from the anthers to the stigma in14900order to ensure full fertility, there is at least a good chance of14901cross-fertilisation. I do not, however, believe that if all known plants14902were tried in the same manner, half would be found to be sterile within14903the specified limits; for many flowers were selected for experiment14904which presented some remarkable structure; and such flowers often14905require insect-aid. Thus out of the forty-nine genera in the first list,14906about thirty-two have flowers which are asymmetrical or present some14907remarkable peculiarity; whilst in the second list, including species14908which are fully or moderately fertile when insects were excluded, only14909about twenty-one out of the forty-nine are asymmetrical or present any14910remarkable peculiarity.1491114912MEANS OF CROSS-FERTILISATION.1491314914The most important of all the means by which pollen is carried from the14915anthers to the stigma of the same flower, or from flower to flower, are14916insects, belonging to the orders of Hymenoptera, Lepidoptera, and14917Diptera; and in some parts of the world, birds. (10/1. I will here give14918all the cases known to me of birds fertilising flowers. In South Brazil,14919humming-birds certainly fertilise the various species of Abutilon, which14920are sterile without their aid (Fritz Muller 'Jenaische Zeitschrift f.14921Naturwiss.' B. 7 1872 page 24.) Long-beaked humming-birds visit the14922flowers of Brugmansia, whilst some of the short-beaked species often14923penetrate its large corolla in order to obtain the nectar in an14924illegitimate manner, in the same manner as do bees in all parts of the14925world. It appears, indeed, that the beaks of humming-birds are specially14926adapted to the various kinds of flowers which they visit: on the14927Cordillera they suck the Salviae, and lacerate the flowers of the14928Tacsoniae; in Nicaragua, Mr. Belt saw them sucking the flowers of14929Marcgravia and Erythina, and thus they carried pollen from flower to14930flower. In North America they are said to frequent the flowers of14931Impatiens: (Gould 'Introduction to the Trochilidae' 1861 pages 15, 120;14932'Gardeners' Chronicle' 1869 page 389; 'The Naturalist in Nicaragua' page14933129; 'Journal of the Linnean Society Botany' volume 13 1872 page 151.) I14934may add that I often saw in Chile a Mimus with its head yellow with14935pollen from, as I believe, a Cassia. I have been assured that at the14936Cape of Good Hope, Strelitzia is fertilised by the Nectarinidae. There14937can hardly be a doubt that many Australian flowers are fertilised by the14938many honey-sucking birds of that country. Mr. Wallace remarks (address14939to the Biological Section, British Association 1876) that he has "often14940observed the beaks and faces of the brush-tongued lories of the Moluccas14941covered with pollen." In New Zealand, many specimens of the Anthornis14942melanura had their heads coloured with pollen from the flowers of an14943endemic species of Fuchsia (Potts 'Transactions of the New Zealand14944Institute' volume 3 1870 page 72.) Next in importance, but in a quite14945subordinate degree, is the wind; and with some aquatic plants, according14946to Delpino, currents of water. The simple fact of the necessity in many14947cases of extraneous aid for the transport of the pollen, and the many14948contrivances for this purpose, render it highly probable that some great14949benefit is thus gained; and this conclusion has now been firmly14950established by the proved superiority in growth, vigour, and fertility14951of plants of crossed parentage over those of self-fertilised parentage.14952But we should always keep in mind that two somewhat opposed ends have to14953be gained; the first and more important one being the production of14954seeds by any means, and the second, cross-fertilisation.1495514956The advantages derived from cross-fertilisation throw a flood of light14957on most of the chief characters of flowers. We can thus understand their14958large size and bright colours, and in some cases the bright tints of the14959adjoining parts, such as the peduncles, bracteae, etc. By this means14960they are rendered conspicuous to insects, on the same principle that14961almost every fruit which is devoured by birds presents a strong contrast14962in colour with the green foliage, in order that it may be seen, and its14963seeds freely disseminated. With some flowers conspicuousness is gained14964at the expense even of the reproductive organs, as with the ray-florets14965of many Compositae, the exterior flowers of Hydrangea, and the terminal14966flowers of the Feather-hyacinth or Muscari. There is also reason to14967believe, and this was the opinion of Sprengel, that flowers differ in14968colour in accordance with the kinds of insects which frequent them.1496914970Not only do the bright colours of flowers serve to attract insects, but14971dark-coloured streaks and marks are often present, which Sprengel long14972ago maintained served as guides to the nectary. These marks follow the14973veins in the petals, or lie between them. They may occur on only one, or14974on all excepting one or more of the upper or lower petals; or they may14975form a dark ring round the tubular part of the corolla, or be confined14976to the lips of an irregular flower. In the white varieties of many14977flowers, such as of Digitalis purpurea, Antirrhinum majus, several14978species of Dianthus, Phlox, Myosotis, Rhododendron, Pelargonium, Primula14979and Petunia, the marks generally persist, whilst the rest of the corolla14980has become of a pure white; but this may be due merely to their colour14981being more intense and thus less readily obliterated. Sprengel's notion14982of the use of these marks as guides appeared to me for a long time14983fanciful; for insects, without such aid, readily discover and bite holes14984through the nectary from the outside. They also discover the minute14985nectar-secreting glands on the stipules and leaves of certain plants.14986Moreover, some few plants, such as certain poppies, which are not14987nectariferous, have guiding marks; but we might perhaps expect that some14988few plants would retain traces of a former nectariferous condition. On14989the other hand, these marks are much more common on asymmetrical14990flowers, the entrance into which would be apt to puzzle insects, than on14991regular flowers. Sir J. Lubbock has also proved that bees readily14992distinguish colours, and that they lose much time if the position of14993honey which they have once visited be in the least changed. (10/2.14994'British Wild Flowers in relation to Insects' 1875 page 44.) The14995following case affords, I think, the best evidence that these marks have14996really been developed in correlation with the nectary. The two upper14997petals of the common Pelargonium are thus marked near their bases; and I14998have repeatedly observed that when the flowers vary so as to become14999peloric or regular, they lose their nectaries and at the same time the15000dark marks. When the nectary is only partially aborted, only one of the15001upper petals loses its mark. Therefore the nectary and these marks15002clearly stand in some sort of close relation to one another; and the15003simplest view is that they were developed together for a special15004purpose; the only conceivable one being that the marks serve as a guide15005to the nectary. It is, however, evident from what has been already said,15006that insects could discover the nectar without the aid of guiding marks.15007They are of service to the plant, only by aiding insects to visit and15008suck a greater number of flowers within a given time than would15009otherwise be possible; and thus there will be a better chance of15010fertilisation by pollen brought from a distinct plant, and this we know15011is of paramount importance.1501215013The odours emitted by flowers attract insects, as I have observed in the15014case of plants covered by a muslin net. Nageli affixed artificial15015flowers to branches, scenting some with essential oils and leaving15016others unscented; and insects were attracted to the former in an15017unmistakable manner. (10/3. 'Enstehung etc. der Naturhist. Art.' 186515018page 23.) Not a few flowers are both conspicuous and odoriferous. Of all15019colours, white is the prevailing one; and of white flowers a15020considerably larger proportion smell sweetly than of any other colour,15021namely, 14.6 per cent; of red, only 8.2 per cent are odoriferous. (10/4.15022The colours and odours of the flowers of 4200 species have been15023tabulated by Landgrabe and by Schubler and Kohler. I have not seen their15024original works, but a very full abstract is given in Loudon's15025'Gardeners' Magazine' volume 13 1837 page 367.) The fact of a larger15026proportion of white flowers smelling sweetly may depend in part on those15027which are fertilised by moths requiring the double aid of15028conspicuousness in the dusk and of odour. So great is the economy of15029nature, that most flowers which are fertilised by crepuscular or15030nocturnal insects emit their odour chiefly or exclusively in the15031evening. Some flowers, however, which are highly odoriferous depend15032solely on this quality for their fertilisation, such as the15033night-flowering stock (Hesperis) and some species of Daphne; and these15034present the rare case of flowers which are fertilised by insects being15035obscurely coloured.1503615037The storage of a supply of nectar in a protected place is manifestly15038connected with the visits of insects. So is the position which the15039stamens and pistils occupy, either permanently or at the proper period15040through their own movements; for when mature they invariably stand in15041the pathway leading to the nectary. The shape of the nectary and of the15042adjoining parts are likewise related to the particular kinds of insects15043which habitually visit the flowers; this has been well shown by Hermann15044Muller by his comparison of lowland species which are chiefly visited by15045bees, with alpine species belonging to the same genera which are visited15046by butterflies. (10/5. 'Nature' 1874 page 110, 1875 page 190, 1876 pages15047210, 289.) Flowers may also be adapted to certain kinds of insects, by15048secreting nectar particularly attractive to them, and unattractive to15049other kinds; of which fact Epipactis latifolia offers the most striking15050instance known to me, as it is visited exclusively by wasps. Structures15051also exist, such as the hairs within the corolla of the fox glove15052(Digitalis), which apparently serve to exclude insects that are not well15053fitted to bring pollen from one flower to another. (10/6. Belt 'The15054Naturalist in Nicaragua' 1874 page 132.) I need say nothing here of the15055endless contrivances, such as the viscid glands attached to the15056pollen-masses of the Orchideae and Asclepiadae, or the viscid or15057roughened state of the pollen-grains of many plants, or the irritability15058of their stamens which move when touched by insects etc.--as all these15059contrivances evidently favour or ensure cross-fertilisation.1506015061All ordinary flowers are so far open that insects can force an entrance15062into them, notwithstanding that some, like the Snapdragon (Antirrhinum),15063various Papilionaceous and Fumariaceous flowers, are in appearance15064closed. It cannot be maintained that their openness is necessary for15065fertility, as cleistogene flowers which are permanently closed yield a15066full complement of seeds. Pollen contains much nitrogen and15067phosphorus--the two most precious of all the elements for the growth of15068plants--but in the case of most open flowers, a large quantity of pollen15069is consumed by pollen-devouring insects, and a large quantity is15070destroyed during long-continued rain. With many plants this latter evil15071is guarded against, as far as is possible, by the anthers opening only15072during dry weather (10/7. Mr. Blackley observed that the ripe anthers of15073rye did not dehisce whilst kept under a bell-glass in a damp atmosphere,15074whilst other anthers exposed to the same temperature in the open air15075dehisced freely. He also found much more pollen adhering to the sticky15076slides, which were attached to kites and sent high up in the atmosphere,15077during the first fine and dry days after wet weather, than at other15078times: 'Experimental Researches on Hay Fever' 1873 page 127.)--by the15079position and form of some or all of the petals,--by the presence of15080hairs, etc., and as Kerner has shown in his interesting essay, by the15081movements of the petals or of the whole flower during cold and wet15082weather. (10/8. 'Die Schutzmittel des Pollens' 1873.) In order to15083compensate the loss of pollen in so many ways, the anthers produce a far15084larger amount than is necessary for the fertilisation of the same15085flower. I know this from my own experiments on Ipomoea, given in the15086Introduction; and it is still more plainly shown by the astonishingly15087small quantity produced by cleistogene flowers, which lose none of their15088pollen, in comparison with that produced by the open flowers borne by15089the same plants; and yet this small quantity suffices for the15090fertilisation of all their numerous seeds. Mr. Hassall took pains in15091estimating the number of pollen-grains produced by a flower of the15092Dandelion (Leontodon), and found the number to be 243,600, and in a15093Paeony 3,654,000 grains. (10/9. 'Annals and Magazine of Natural History'15094volume 8 1842 page 108.) The editor of the 'Botanical Register' counted15095the ovules in the flowers of Wistaria sinensis, and carefully estimated15096the number of pollen-grains, and he found that for each ovule there were150977000 grains. (10/10. Quoted in 'Gardeners' Chronicle' 1846 page 771.)15098With Mirabilis, three or four of the very large pollen-grains are15099sufficient to fertilise an ovule; but I do not know how many grains a15100flower produces. With Hibiscus, Kolreuter found that sixty grains were15101necessary to fertilise all the ovules of a flower, and he calculated15102that 4863 grains were produced by a single flower, or eighty-one times15103too many. With Geum urbanum, however, according to Gartner, the pollen15104is only ten times too much. (10/11. Kolreuter 'Vorlaufige Nachricht'151051761 page 9. Gartner 'Beitrage zur Kenntniss' etc. page 346.) As we thus15106see that the open state of all ordinary flowers, and the consequent loss15107of much pollen, necessitate the development of so prodigious an excess15108of this precious substance, why, it may be asked, are flowers always15109left open? As many plants exist throughout the vegetable kingdom which15110bear cleistogene flowers, there can hardly be a doubt that all open15111flowers might easily have been converted into closed ones. The graduated15112steps by which this process could have been effected may be seen at the15113present time in Lathyrus nissolia, Biophytum sensitivum, and several15114other plants. The answer to the above question obviously is, that with15115permanently closed flowers there could be no cross-fertilisation.1511615117The frequency, almost regularity, with which pollen is transported by15118insects from flower to flower, often from a considerable distance, well15119deserves attention. (10/12. An experiment made by Kolreuter 'Forsetsung'15120etc. 1763 page 69, affords good evidence on this head. Hibiscus15121vesicarius is strongly dichogamous, its pollen being shed before the15122stigmas are mature. Kolreuter marked 310 flowers, and put pollen from15123other flowers on their stigmas every day, so that they were thoroughly15124fertilised; and he left the same number of other flowers to the agency15125of insects. Afterwards he counted the seeds of both lots: the flowers15126which he had fertilised with such astonishing care produced 11,23715127seeds, whilst those left to the insects produced 10,886; that is, a less15128number by only 351; and this small inferiority is fully accounted for by15129the insects not having worked during some days, when the weather was15130cold with continued rain.) This is best shown by the impossibility in15131many cases of raising two varieties of the same species pure, if they15132grow at all near together; but to this subject I shall presently return;15133also by the many cases of hybrids which have appeared spontaneously both15134in gardens and a state of nature. With respect to the distance from15135which pollen is often brought, no one who has had any experience would15136expect to obtain pure cabbage-seed, for instance, if a plant of another15137variety grew within two or three hundred yards. An accurate observer,15138the late Mr. Masters of Canterbury, assured me that he once had his15139whole stock of seeds "seriously affected with purple bastards," by some15140plants of purple kale which flowered in a cottager's garden at the15141distance of half a mile; no other plant of this variety growing any15142nearer. (10/13. Mr. W.C. Marshall caught no less than seven specimens of15143a moth (Cucullia umbratica) with the pollinia of the butterfly-orchis15144(Habenaria chlorantha) sticking to their eyes, and, therefore, in the15145proper position for fertilising the flowers of this species, on an15146island in Derwentwater, at the distance of half a mile from any place15147where this plant grew: 'Nature' 1872 page 393.) But the most striking15148case which has been recorded is that by M. Godron, who shows by the15149nature of the hybrids produced that Primula grandiflora must have been15150crossed with pollen brought by bees from P. officinalis, growing at the15151distance of above two kilometres, or of about one English mile and a15152quarter. (10/14. 'Revue des Sc. Nat.' 1875 page 331.)1515315154All those who have long attended to hybridisation, insist in the15155strongest terms on the liability of castrated flowers to be fertilised15156by pollen brought from distant plants of the same species. (10/15. See,15157for instance, the remarks by Herbert 'Amaryllidaceae' 1837 page 349.15158Also Gartner's strong expressions on this subject in his15159'Bastarderzeugung' 1849 page 670 and 'Kenntniss der Befruchtung' 184415160pages 510, 573. Also Lecoq 'De la Fecondation' etc. 1845 page 27. Some15161statements have been published during late years of the extraordinary15162tendency of hybrid plants to revert to their parent forms; but as it is15163not said how the flowers were protected from insects, it may be15164suspected that they were often fertilised with pollen brought from a15165distance from the parent-species.) The following case shows this in the15166clearest manner: Gartner, before he had gained much experience,15167castrated and fertilised 520 flowers on various species with pollen of15168other genera or other species, but left them unprotected; for, as he15169says, he thought it a laughable idea that pollen should be brought from15170flowers of the same species, none of which grew nearer than between 50015171and 600 yards. (10/16. 'Kenntniss der Befruchtung' pages 539, 550, 575,15172576.) The result was that 289 of these 520 flowers yielded no seed, or15173none that germinated; the seed of 29 flowers produced hybrids, such as15174might have been expected from the nature of the pollen employed; and15175lastly, the seed of the remaining 202 flowers produced perfectly pure15176plants, so that these flowers must have been fertilised by pollen15177brought by insects from a distance of between 500 and 600 yards. (10/17.15178Henschel's experiments quoted by Gartner 'Kenntniss' etc. page 574,15179which are worthless in all other respects, likewise show how largely15180flowers are intercrossed by insects. He castrated many flowers on15181thirty-seven species, belonging to twenty-two genera, and put on their15182stigmas either no pollen, or pollen from distinct genera, yet they all15183seeded, and all the seedlings raised from them were of course pure.) It15184is of course possible that some of these 202 flowers might have been15185fertilised by pollen left accidentally in them when they were castrated;15186but to show how improbable this is, I may add that Gartner, during the15187next eighteen years, castrated no less than 8042 flowers and hybridised15188them in a closed room; and the seeds from only seventy of these, that is15189considerably less than 1 per cent, produced pure or unhybridised15190offspring. (10/18. 'Kenntniss' etc. pages 555, 576.)1519115192From the various facts now given, it is evident that most flowers are15193adapted in an admirable manner for cross-fertilisation. Nevertheless,15194the greater number likewise present structures which are manifestly15195adapted, though not in so striking a manner, for self-fertilisation. The15196chief of these is their hermaphrodite condition; that is, their15197including within the same corolla both the male and female reproductive15198organs. These often stand close together and are mature at the same15199time; so that pollen from the same flower cannot fail to be deposited at15200the proper period on the stigma. There are also various details of15201structure adapted for self-fertilisation. (10/19. Hermann Muller 'Die15202Befruchtung' etc. page 448.) Such structures are best shown in those15203curious cases discovered by Hermann Muller, in which a species exists15204under two forms,--one bearing conspicuous flowers fitted for15205cross-fertilisation, and the other smaller flowers fitted for15206self-fertilisation, with many parts in the latter slightly modified for15207this special purpose. (10/20. 'Nature' 1873 pages 44, 433.)1520815209As two objects in most respects opposed, namely, cross-fertilisation and15210self-fertilisation, have in many cases to be gained, we can understand15211the co-existence in so many flowers of structures which appear at first15212sight unnecessarily complex and of an opposed nature. We can thus15213understand the great contrast in structure between cleistogene flowers,15214which are adapted exclusively for self-fertilisation, and ordinary15215flowers on the same plant, which are adapted so as to allow of at least15216occasional cross-fertilisation. (10/21. Fritz Muller has discovered in15217the animal kingdom 'Jenaische Zeitschr.' B. 4 page 451, a case curiously15218analogous to that of the plants which bear cleistogene and perfect15219flowers. He finds in the nests of termites in Brazil, males and females15220with imperfect wings, which do not leave the nests and propagate the15221species in a cleistogene manner, but only if a fully-developed queen15222after swarming does not enter the old nest. The fully-developed males15223and females are winged, and individuals from distinct nests can hardly15224fail often to intercross. In the act of swarming they are destroyed in15225almost infinite numbers by a host of enemies, so that a queen may often15226fail to enter an old nest; and then the imperfectly developed males and15227females propagate and keep up the stock.) The former are always minute,15228completely closed, with their petals more or less rudimentary and never15229brightly coloured; they never secrete nectar, never are odoriferous,15230have very small anthers which produce only a few grains of pollen, and15231their stigmas are but little developed. Bearing in mind that some15232flowers are cross-fertilised by the wind (called anemophilous by15233Delpino), and others by insects (called entomophilous), we can further15234understand, as was pointed out by me several years ago, the great15235contrast in appearance between these two classes of flowers. (10/22.15236'Journal of the Linnean Society' volume 7 Botany 1863 page 77.)15237Anemophilous flowers resemble in many respects cleistogene flowers, but15238differ widely in not being closed, in producing an extraordinary amount15239of pollen which is always incoherent, and in the stigma often being15240largely developed or plumose. We certainly owe the beauty and odour of15241our flowers and the storage of a large supply of honey to the existence15242of insects.1524315244ON THE RELATION BETWEEN THE STRUCTURE AND CONSPICUOUSNESS OF FLOWERS,15245THE VISITS OF INSECTS, AND THE ADVANTAGES OF CROSS-FERTILISATION.1524615247It has already been shown that there is no close relation between the15248number of seeds produced by flowers when crossed and self-fertilised,15249and the degree to which their offspring are aaffected by the two15250processes. I have also given reasons for believing that the inefficiency15251of a plant's own pollen is in most cases an incidental result, or has15252not been specially acquired for the sake of preventing15253self-fertilisation. On the other hand, there can hardly be a doubt that15254dichogamy, which prevails according to Hildebrand in the greater number15255of species (10/23. 'Die Geschlecter Vertheiling' etc. page 32.),--that15256the heterostyled condition of certain plants,--and that many mechanical15257structures--have all been acquired so as both to check15258self-fertilisation and to favour cross-fertilisation. The means for15259favouring cross-fertilisation must have been acquired before those which15260prevent self-fertilisation; as it would manifestly be injurious to a15261plant that its stigma should fail to receive its own pollen, unless it15262had already become well adapted for receiving pollen from another15263individual. It should be observed that many plants still possess a high15264power of self-fertilisation, although their flowers are excellently15265constructed for cross-fertilisation--for instance, those of many15266papilionaceous species.1526715268It may be admitted as almost certain that some structures, such as a15269narrow elongated nectary, or a long tubular corolla, have been developed15270in order that certain kinds of insects alone should obtain the nectar.15271These insects would thus find a store of nectar preserved from the15272attacks of other insects; and they would thus be led to visit frequently15273such flowers and to carry pollen from one to the other. (10/24. See the15274interesting discussion on this subject by Hermann Muller, 'Die15275Befruchtung' etc. page 431.) It might perhaps have been expected that15276plants having their flowers thus peculiarly constructed would profit in15277a greater degree by being crossed, than ordinary or simple flowers; but15278this does not seem to hold good. Thus Tropaeolum minus has a long15279nectary and an irregular corolla, whilst Limnanthes douglasii has a15280regular flower and no proper nectary, yet the crossed seedlings of both15281species are to the self-fertilised in height as 100 to 79. Salvia15282coccinea has an irregular corolla, with a curious apparatus by which15283insects depress the stamens, while the flowers of Ipomoea are regular;15284and the crossed seedlings of the former are in height to the15285self-fertilised as 100 to 76, whilst those of the Ipomoea are as 100 to1528677. Fagopyrum is dimorphic, and Anagallis collina is non-dimorphic, and15287the crossed seedlings of both are in height to the self-fertilised as15288100 to 69.1528915290With all European plants, excepting the comparatively rare anemophilous15291kinds, the possibility of distinct individuals intercrossing depends on15292the visits of insects; and Hermann Muller has proved by his valuable15293observations, that large conspicuous flowers are visited much more15294frequently and by many more kinds of insects, than are small15295inconspicuous flowers. He further remarks that the flowers which are15296rarely visited must be capable of self-fertilisation, otherwise they15297would quickly become extinct. (10/25. 'Die Befruchtung' etc. page 426.15298'Nature' 1873 page 433.) There is, however, some liability to error in15299forming a judgment on this head, from the extreme difficulty of15300ascertaining whether flowers which are rarely or never visited during15301the day (as in the above given case of Fumaria capreolata) are not15302visited by small nocturnal Lepidoptera, which are known to be strongly15303attracted by sugar. (10/26. In answer to a question by me, the editor of15304an entomological journal writes--"The Depressariae, as is notorious to15305every collector of Noctuae, come very freely to sugar, and no doubt15306naturally visit flowers:" the 'Entomologists' Weekly Intelligencer' 186015307page 103.) The two lists given in the early part of this chapter support15308Muller's conclusion that small and inconspicuous flowers are completely15309self-fertile: for only eight or nine out of the 125 species in the two15310lists come under this head, and all of these were proved to be highly15311fertile when insects were excluded. The singularly inconspicuous flowers15312of the Fly Ophrys (O. muscifera), as I have elsewhere shown, are rarely15313visited by insects; and it is a strange instance of imperfection, in15314contradiction to the above rule, that these flowers are not15315self-fertile, so that a large proportion of them do not produce seeds.15316The converse of the rule that plants bearing small and inconspicuous15317flowers are self-fertile, namely, that plants with large and conspicuous15318flowers are self-sterile, is far from true, as may be seen in our second15319list of spontaneously self-fertile species; for this list includes such15320species as Ipomoea purpurea, Adonis aestivalis, Verbascum thapsus, Pisum15321sativum, Lathyrus odoratus, some species of Papaver and of Nymphaea, and15322others.1532315324The rarity of the visits of insects to small flowers, does not depend15325altogether on their inconspicuousness, but likewise on the absence of15326some sufficient attraction; for the flowers of Trifolium arvense are15327extremely small, yet are incessantly visited by hive and humble-bees, as15328are the small and dingy flowers of the asparagus. The flowers of Linaria15329cymbalaria are small and not very conspicuous, yet at the proper time15330they are freely visited by hive-bees. I may add that, according to Mr.15331Bennett, there is another and quite distinct class of plants which15332cannot be much frequented by insects, as they flower either exclusively15333or often during the winter, and these seem adapted for15334self-fertilisation, as they shed their pollen before the flowers expand.15335(10/27. 'Nature' 1869 page 11.)1533615337That many flowers have been rendered conspicuous for the sake of guiding15338insects to them is highly probable or almost certain; but it may be15339asked, have other flowers been rendered inconspicuous so that they may15340not be frequently visited, or have they merely retained a former and15341primitive condition? If a plant were much reduced in size, so probably15342would be the flowers through correlated growth, and this may possibly15343account for some cases; but the size and colour of the corolla are both15344extremely variable characters, and it can hardly be doubted that if15345large and brightly-coloured flowers were advantageous to any species,15346these could be acquired through natural selection within a moderate15347lapse of time, as indeed we see with most alpine plants. Papilionaceous15348flowers are manifestly constructed in relation to the visits of insects,15349and it seems improbable, from the usual character of the group, that the15350progenitors of the genera Vicia and Trifolium produced such minute and15351unattractive flowers as those of V. hirsuta and T. procumbens. We are15352thus led to infer that some plants either have not had their flowers15353increased in size, or have actually had them reduced and purposely15354rendered inconspicuous, so that they are now but little visited by15355insects. In either case they must also have acquired or retained a high15356degree of self-fertility.1535715358If it became from any cause advantageous to a species to have its15359capacity for self-fertilisation increased, there is little difficulty in15360believing that this could readily be effected; for three cases of plants15361varying in such a manner as to be more fertile with their own pollen15362than they originally were, occurred in the course of my few experiments,15363namely, with Mimulus, Ipomoea, and Nicotiana. Nor is there any reason to15364doubt that many kinds of plants are capable under favourable15365circumstances of propagating themselves for very many generations by15366self-fertilisation. This is the case with the varieties of Pisum sativum15367and of Lathyrus odoratus which are cultivated in England, and with15368Ophrys apifera and some other plants in a state of nature. Nevertheless,15369most or all of these plants retain structures in an efficient state15370which cannot be of the least use excepting for cross-fertilisation. We15371have also seen reason to suspect that self-fertilisation is in some15372peculiar manner beneficial to certain plants; but if this be really the15373case, the benefit thus derived is far more than counter-balanced by a15374cross with a fresh stock or with a slightly different variety.1537515376Notwithstanding the several considerations just advanced, it seems to me15377highly improbable that plants bearing small and inconspicuous flowers15378have been or should continue to be subjected to self-fertilisation for a15379long series of generations. I think so, not from the evil which15380manifestly follows from self-fertilisation, in many cases even in the15381first generation, as with Viola tricolor, Sarothamnus, Nemophila,15382Cyclamen, etc.; nor from the probability of the evil increasing after15383several generations, for on this latter head I have not sufficient15384evidence, owing to the manner in which my experiments were conducted.15385But if plants bearing small and inconspicuous flowers were not15386occasionally intercrossed, and did not profit by the process, all their15387flowers would probably have been rendered cleistogene, as they would15388thus have largely benefited by having to produce only a small quantity15389of safely-protected pollen. In coming to this conclusion, I have been15390guided by the frequency with which plants belonging to distinct orders15391have been rendered cleistogene. But I can hear of no instance of a15392species with all its flowers rendered permanently cleistogene. Leersia15393makes the nearest approach to this state; but as already stated, it has15394been known to produce perfect flowers in one part of Germany. Some other15395plants of the cleistogene class, for instance Aspicarpa, have failed to15396produce perfect flowers during several years in a hothouse; but it does15397not follow that they would fail to do so in their native country, any15398more than with Vandellia, which with me produced only cleistogene15399flowers during certain years. Plants belonging to this class commonly15400bear both kinds of flowers every season, and the perfect flowers of15401Viola canina yield fine capsules, but only when visited by bees. We have15402also seen that the seedlings of Ononis minutissima, raised from the15403perfect flowers fertilised with pollen from another plant, were finer15404than those from self-fertilised flowers; and this was likewise the case15405to a certain extent with Vandellia. As therefore no species which at one15406time bore small and inconspicuous flowers has had all its flowers15407rendered cleistogene, I must believe that plants now bearing small and15408inconspicuous flowers profit by their still remaining open, so as to be15409occasionally intercrossed by insects. It has been one of the greatest15410oversights in my work that I did not experimentise on such flowers,15411owing to the difficulty of fertilising them, and to my not having seen15412the importance of the subject. (10/28. Some of the species of Solanum15413would be good ones for such experiments, for they are said by Hermann15414Muller 'Befruchtung' page 434, to be unattractive to insects from not15415secreting nectar, not producing much pollen, and not being very15416conspicuous. Hence probably it is that, according to Verlot 'Production15417des Varieties' 1865 page 72, the varieties of "les aubergines et les15418tomates" (species of Solanum) do not intercross when they are cultivated15419near together; but it should be remembered that these are not endemic15420species. On the other hand, the flowers of the common potato (S.15421tuberosum), though they do not secrete nectar Kurr 'Bedeutung der15422Nektarien' 1833 page 40, yet cannot be considered as inconspicuous, and15423they are sometimes visited by diptera (Muller), and, as I have seen, by15424humble-bees. Tinzmann (as quoted in 'Gardeners' Chronicle' 1846 page15425183, found that some of the varieties did not bear seed when fertilised15426with pollen from the same variety, but were fertile with that from15427another variety.)1542815429It should be remembered that in two of the cases in which highly15430self-fertile varieties appeared amongst my experimental plants, namely,15431with Mimulus and Nicotiana, such varieties were greatly benefited by a15432cross with a fresh stock or with a slightly different variety; and this15433likewise was the case with the cultivated varieties of Pisum sativum and15434Lathyrus odoratus, which have been long propagated by15435self-fertilisation. Therefore until the contrary is distinctly proved, I15436must believe that as a general rule small and inconspicuous flowers are15437occasionally intercrossed by insects; and that after long-continued15438self-fertilisation, if they are crossed with pollen brought from a plant15439growing under somewhat different conditions, or descended from one thus15440growing, their offspring would profit greatly. It cannot be admitted,15441under our present state of knowledge, that self-fertilisation continued15442during many successive generations is ever the most beneficial method of15443reproduction.1544415445THE MEANS WHICH FAVOUR OR ENSURE FLOWERS BEING FERTILISED WITH POLLEN15446FROM A DISTINCT PLANT.1544715448We have seen in four cases that seedlings raised from a cross between15449flowers on the same plant, even on plants appearing distinct from having15450been propagated by stolons or cuttings, were not superior to seedlings15451from self-fertilised flowers; and in a fifth case (Digitalis) superior15452only in a slight degree. Therefore we might expect that with plants15453growing in a state of nature a cross between the flowers on distinct15454individuals, and not merely between the flowers on the same plant, would15455generally or often be effected by some means. The fact of bees and of15456some Diptera visiting the flowers of the same species as long as they15457can, instead of promiscuously visiting various species, favours the15458intercrossing of distinct plants. On the other hand, insects usually15459search a large number of flowers on the same plant before they fly to15460another, and this is opposed to cross-fertilisation. The extraordinary15461number of flowers which bees are able to search within a very short15462space of time, as will be shown in a future chapter, increases the15463chance of cross-fertilisation; as does the fact that they are not able15464to perceive without entering a flower whether other bees have exhausted15465the nectar. For instance, Hermann Muller found that four-fifths of the15466flowers of Lamium album which a humble-bee visited had been already15467exhausted of their nectar. (10/29. 'Die Befruchtung' etc. page 311.) In15468order that distinct plants should be intercrossed, it is of course15469indispensable that two or more individuals should grow near one another;15470and this is generally the case. Thus A. de Candolle remarks that in15471ascending a mountain the individuals of the same species do not commonly15472disappear near its upper limit quite gradually, but rather abruptly.15473This fact can hardly be explained by the nature of the conditions, as15474these graduate away in an insensible manner, and it probably depends in15475large part on vigorous seedlings being produced only as high up the15476mountain as many individuals can subsist together.1547715478With respect to dioecious plants, distinct individuals must always15479fertilise each other. With monoecious plants, as pollen has to be15480carried from flower to flower, there will always be a good chance of its15481being carried from plant to plant. Delpino has also observed the curious15482fact that certain individuals of the monoecious walnut (Juglans regia)15483are proterandrous, and others proterogynous, and these will reciprocally15484fertilise each other. (10/30. 'Ult. Osservazioni' etc. part 2 fasc 215485page 337.) So it is with the common nut (Corylus avellana) (10/31.15486'Nature' 1875 page 26.), and, what is more surprising, with some few15487hermaphrodite plants, as observed by Hermann Muller. (10/32. 'Die15488Befruchtung' etc. pages 285, 339.) These latter plants cannot fail to15489act on each other like dimorphic or trimorphic species, in which the15490union of two individuals is necessary for full and normal fertility.15491With ordinary hermaphrodite species, the expansion of only a few flowers15492at the same time is one of the simplest means for favouring the15493intercrossing of distinct individuals; but this would render the plants15494less conspicuous to insects, unless the flowers were of large size, as15495in the case of several bulbous plants. Kerner thinks that it is for this15496object that the Australian Villarsia parnassifolia produces daily only a15497single flower. (10/33. 'Die Schutzmittel' etc page 23.) Mr. Cheeseman15498also remarks, that as certain Orchids in New Zealand which require15499insect-aid for their fertilisation bear only a single flower, distinct15500plants cannot fail to intercross. (10/34. 'Transactions of the New15501Zealand Institute' volume 5 1873 page 356.)1550215503Dichogamy, which prevails so extensively throughout the vegetable15504kingdom, much increases the chance of distinct individuals15505intercrossing. With proterandrous species, which are far more ccommon15506than proterogynous, the young flowers are exclusively male in function,15507and the older ones exclusively female; and as bees habitually alight low15508down on the spikes of flowers in order to crawl upwards, they get dusted15509with pollen from the uppermost flowers, which they carry to the stigmas15510of the lower and older flowers on the next spike which they visit. The15511degree to which distinct plants will thus be intercrossed depends on the15512number of spikes in full flower at the same time on the same plant. With15513proterogynous flowers and with depending racemes, the manner in which15514insects visit the flowers ought to be reversed in order that distinct15515plants should be intercrossed. But this whole subject requires further15516investigation, as the great importance of crosses between distinct15517individuals, instead of merely between distinct flowers, has hitherto15518been hardly recognised.1551915520In some few cases the special movements of certain organs almost ensure15521pollen being carried from plant to plant. Thus with many orchids, the15522pollen-masses after becoming attached to the head or proboscis of an15523insect do not move into the proper position for striking the stigma,15524until ample time has elapsed for the insect to fly to another plant.15525With Spiranthes autumnalis, the pollen-masses cannot be applied to the15526stigma until the labellum and rostellum have moved apart, and this15527movement is very slow. (10/35. 'The Various Contrivances by which15528British and Foreign Orchids are fertilised' first edition page 128.)15529With Posoqueria fragrans (one of the Rubiaceae) the same end is gained15530by the movement of a specially constructed stamen, as described by Fritz15531Muller.1553215533We now come to a far more general and therefore more important means by15534which the mutual fertilisation of distinct plants is effected, namely,15535the fertilising power of pollen from another variety or individual being15536greater than that of a plant's own pollen. The simplest and best known15537case of prepotent action in pollen, though it does not bear directly on15538our present subject, is that of a plant's own pollen over that from a15539distinct species. If pollen from a distinct species be placed on the15540stigma of a castrated flower, and then after the interval of several15541hours, pollen from the same species be placed on the stigma, the effects15542of the former are wholly obliterated, excepting in some rare cases. If15543two varieties are treated in the same manner, the result is analogous,15544though of directly opposite nature; for pollen from any other variety is15545often or generally prepotent over that from the same flower. I will give15546some instances: the pollen of Mimulus luteus regularly falls on the15547stigma of its own flower, for the plant is highly fertile when insects15548are excluded. Now several flowers on a remarkably constant whitish15549variety were fertilised without being castrated with pollen from a15550yellowish variety; and of the twenty-eight seedlings thus raised, every15551one bore yellowish flowers, so that the pollen of the yellow variety15552completely overwhelmed that of the mother-plant. Again, Iberis umbellata15553is spontaneously self-fertile, and I saw an abundance of pollen from15554their own flowers on the stigmas; nevertheless, of thirty seedlings15555raised from non-castrated fflowers of a crimson variety crossed with15556pollen from a pink variety, twenty-four bore pink flowers, like those of15557the male or pollen-bearing parent.1555815559In these two cases flowers were fertilised with pollen from a distinct15560variety, and this was shown to be prepotent by the character of the15561offspring. Nearly similar results often follow when two or more15562self-fertile varieties are allowed to grow near one another and are15563visited by insects. The common cabbage produces a large number of15564flowers on the same stalk, and when insects are excluded these set many15565capsules, moderately rich in seeds. I planted a white Kohl-rabi, a15566purple Kohl-rabi, a Portsmouth broccoli, a Brussels sprout, and a15567Sugar-loaf cabbage near together and left them uncovered. Seeds15568collected from each kind were sown in separate beds; and the majority of15569the seedlings in all five beds were mongrelised in the most complicated15570manner, some taking more after one variety, and some after another. The15571effects of the Kohl-rabi were particularly plain in the enlarged stems15572of many of the seedlings. Altogether 233 plants were raised, of which15573155 were mongrelised in the plainest manner, and of the remaining 78 not15574half were absolutely pure. I repeated the experiment by planting near15575together two varieties of cabbage with purple-green and white-green15576lacinated leaves; and of the 325 seedlings raised from the purple-green15577variety, 165 had white-green and 160 purple-green leaves. Of the 46615578seedlings raised from the white-green variety, 220 had purple-green and15579246 white-green leaves. These cases show how largely pollen from a15580neighbouring variety of the cabbage effaces the action of the plant's15581own pollen. We should bear in mind that pollen must be carried by the15582bees from flower to flower on the same large branching stem much more15583abundantly than from plant to plant; and in the case of plants the15584flowers of which are in some degree dichogamous, those on the same stem15585would be of different ages, and would thus be as ready for mutual15586fertilisation as the flowers on distinct plants, were it not for the15587prepotency of pollen from another variety. (10/36. A writer in the15588'Gardeners' Chronicle' 1855 page 730, says that he planted a bed of15589turnips (Brassica rapa) and of rape (B. napus) close together, and sowed15590the seeds of the former. The result was that scarcely one seedling was15591true to its kind, and several closely resembled rape.)1559215593Several varieties of the radish (Raphanus sativus), which is moderately15594self-fertile when insects are excluded, were in flower at the same time15595in my garden. Seed was collected from one of them, and out of twenty-two15596seedlings thus raised only twelve were true to their kind. (10/37.15597Duhamel as quoted by Godron 'De l'Espece' tome 2 page 50, makes an15598analogous statement with respect to this plant.)1559915600The onion produces a large number of flowers, all crowded together into15601a large globular head, each flower having six stamens; so that the15602stigmas receive plenty of pollen from their own and the adjoining15603anthers. Consequently the plant is fairly self-fertile when protected15604from insects. A blood-red, silver, globe and Spanish onion were planted15605near together; and seedlings were raised from each kind in four separate15606beds. In all the beds mongrels of various kinds were numerous, except15607amongst the ten seedlings from the blood-red onion, which included only15608two. Altogether forty-six seedlings were raised, of which thirty-one had15609been plainly crossed.1561015611A similar result is known to follow with the varieties of many other15612plants, if allowed to flower near together: I refer here only to species15613which are capable of fertilising themselves, for if this be not the15614case, they would of course be liable to be crossed by any other variety15615growing near. Horticulturists do not commonly distinguish between the15616effects of variability and intercrossing; but I have collected evidence15617on the natural crossing of varieties of the tulip, hyacinth, anemone,15618ranunculus, strawberry, Leptosiphon androsaceus, orange, rhododendron15619and rhubarb, all of which plants I believe to be self-fertile. (10/38.15620With respect to tulips and some other flowers, see Godron 'De l'Espece'15621tome 1 page 252. For anemones 'Gardeners' Chronicle' 1859 page 98. For15622strawberries see Herbert in 'Transactions of the Horticultural Society'15623volume 4 page 17. The same observer elsewhere speaks of the spontaneous15624crossing of rhododendrons. Gallesio makes the same statement with15625respect to oranges. I have myself known extensive crossing to occur with15626the common rhubarb. For Leptosiphon, Verlot 'Des Varieties' 1865 page1562720. I have not included in my list the Carnation, Nemophila, or15628Antirrhinum, the varieties of which are known to cross freely, because15629these plants are not always self-fertile. I know nothing about the15630self-fertility of Trollius Lecoq 'De la Fecondation' 1862 page 93,15631Mahonia, and Crinum, in which genera the species intercross largely.15632With respect to Mahonia it is now scarcely possible to procure in this15633country pure specimens of M. aquifolium or repens; and the various15634species of Crinum sent by Herbert 'Amaryllidaceae' page 32, to Calcutta,15635crossed there so freely that pure seed could not be saved.) Much other15636indirect evidence could be given with respect to the extent to which15637varieties of the same species spontaneously intercross.1563815639Gardeners who raise seed for sale are compelled by dearly bought15640experience to take extraordinary precautions against intercrossing. Thus15641Messrs. Sharp "have land engaged in the growth of seed in no less than15642eight parishes." The mere fact of a vast number of plants belonging to15643the same variety growing together is a considerable protection, as the15644chances are strong in favour of plants of the same variety15645intercrossing; and it is in chief part owing to this circumstance, that15646certain villages have become famous for pure seed of particular15647varieties. (10/39. With respect to Messrs. Sharp see 'Gardeners'15648Chronicle' 1856 page 823. Lindley's 'Theory of Horticulture' page 319.)15649Only two trials were made by me to ascertain after how long an interval15650of time, pollen from a distinct variety would obliterate more or less15651completely the action of a plant's own pollen. The stigmas in two lately15652expanded flowers on a variety of cabbage, called Ragged Jack, were well15653covered with pollen from the same plant. After an interval of15654twenty-three hours, pollen from the Early Barnes Cabbage growing at a15655distance was placed on both stigmas; and as the plant was left15656uncovered, pollen from other flowers on the Ragged Jack would certainly15657have been left by the bees during the next two or three days on the same15658two stigmas. Under these circumstances it seemed very unlikely that the15659pollen of the Barnes cabbage would produce any effect; but three out of15660the fifteen plants raised from the two capsules thus produced were15661plainly mongrelised: and I have no doubt that the twelve other plants15662were affected, for they grew much more vigorously than the15663self-fertilised seedlings from the Ragged Jack planted at the same time15664and under the same conditions. Secondly, I placed on several stigmas of15665a long-styled cowslip (Primula veris) plenty of pollen from the same15666plant, and after twenty-four hours added some from a short-styled15667dark-red Polyanthus, which is a variety of the cowslip. From the flowers15668thus treated thirty seedlings were raised, and all these without15669exception bore reddish flowers; so that the effect of the plant's own15670pollen, though placed on the stigmas twenty-four hours previously, was15671quite destroyed by that of the red variety. It should, however, be15672observed that these plants are dimorphic, and that the second union was15673a legitimate one, whilst the first was illegitimate; but flowers15674illegitimately fertilised with their own pollen yield a moderately fair15675supply of seeds.1567615677We have hitherto considered only the prepotent fertilising power of15678pollen from a distinct variety over a plants' own pollen,--both kinds of15679pollen being placed on the same stigma. It is a much more remarkable15680fact that pollen from another individual of the same variety is15681prepotent over a plant's own pollen, as shown by the superiority of the15682seedlings raised from a cross of this kind over seedlings from15683self-fertilised flowers. Thus in Tables 7/A, B, and C, there are at15684least fifteen species which are self-fertile when insects are excluded;15685and this implies that their stigmas must receive their own pollen;15686nevertheless, most of the seedlings which were raised by fertilising the15687non-castrated flowers of these fifteen species with pollen from another15688plant were greatly superior, in height, weight, and fertility, to the15689self-fertilised offspring. (10/40. These fifteen species consist of15690Brassica oleracea, Reseda odorata and lutea, Limnanthes douglasii,15691Papaver vagum, Viscaria oculata, Beta vulgaris, Lupinus luteus, Ipomoea15692purpurea, Mimulus luteus, Calceolaria, Verbascum thapsus, Vandellia15693nummularifolia, Lactuca sativa, and Zea mays.) For instance, with15694Ipomoea purpurea every single intercrossed plant exceeded in height its15695self-fertilised opponent until the sixth generation; and so it was with15696Mimulus luteus until the fourth generation. Out of six pairs of crossed15697and self-fertilised cabbages, every one of the former was much heavier15698than the latter. With Papaver vagum, out of fifteen pairs, all but two15699of the crossed plants were taller than their self-fertilised opponents.15700Of eight pairs of Lupinus luteus, all but two of the crossed were15701taller; of eight pairs of Beta vulgaris all but one; and of fifteen15702pairs of Zea mays all but two were taller. Of fifteen pairs of15703Limnanthes douglasii, and of seven pairs of Lactuca sativa, every single15704crossed plant was taller than its self-fertilised opponent. It should15705also be observed that in these experiments no particular care was taken15706to cross-fertilise the flowers immediately after their expansion; it is15707therefore almost certain that in many of these cases some pollen from15708the same flower will have already fallen on and acted on the stigma.1570915710There can hardly be a doubt that several other species of which the15711crossed seedlings are more vigorous than the self-fertilised, as shown15712in Tables 7/A, 7/B and 7/C, besides the above fifteen, must have15713received their own pollen and that from another plant at nearly the same15714time; and if so, the same remarks as those just given are applicable to15715them. Scarcely any result from my experiments has surprised me so much15716as this of the prepotency of pollen from a distinct individual over each15717plant's own pollen, as proved by the greater constitutional vigour of15718the crossed seedlings. The evidence of prepotency is here deduced from15719the comparative growth of the two lots of seedlings; but we have similar15720evidence in many cases from the much greater fertility of the15721non-castrated flowers on the mother-plant, when these received at the15722same time their own pollen and that from a distinct plant, in comparison15723with the flowers which received only their own pollen.1572415725From the various facts now given on the spontaneous intercrossing of15726varieties growing near together, and on the effects of cross-fertilising15727flowers which are self-fertile and have not been castrated, we may15728conclude that pollen brought by insects or by the wind from a distinct15729plant will generally prevent the action of pollen from the same flower,15730even though it may have been applied some time before; and thus the15731intercrossing of plants in a state of nature will be greatly favoured or15732ensured.1573315734The case of a great tree covered with innumerable hermaphrodite flowers15735seems at first sight strongly opposed to the belief in the frequency of15736intercrosses between distinct individuals. The flowers which grow on the15737opposite sides of such a tree will have been exposed to somewhat15738different conditions, and a cross between them may perhaps be in some15739degree beneficial; but it is not probable that it would be nearly so15740beneficial as a cross between flowers on distinct trees, as we may infer15741from the inefficiency of pollen taken from plants which have been15742propagated from the same stock, though growing on separate roots. The15743number of bees which frequent certain kinds of trees when in full flower15744is very great, and they may be seen flying from tree to tree more15745frequently than might have been expected. Nevertheless, if we consider15746how numerous are the flowers, for instance, on a horse-chestnut or15747lime-tree, an incomparably larger number of flowers must be fertilised15748by pollen brought from other flowers on the same tree, than from flowers15749on a distinct tree. But we should bear in mind that with the15750horse-chestnut, for instance, only one or two of the several flowers on15751the same peduncle produce a seed; and that this seed is the product of15752only one out of several ovules within the same ovarium. Now we know from15753the experiments of Herbert and others that if one flower is fertilised15754with pollen which is more efficient than that applied to the other15755flowers on the same peduncle, the latter often drop off (10/41.15756'Variation under Domestication' chapter 17 2nd edition volume 2 page15757120.); and it is probable that this would occur with many of the15758self-fertilised flowers on a large tree, if other and adjoining flowers15759were cross-fertilised. Of the flowers annually produced by a great tree,15760it is almost certain that a large number would be self-fertilised; and15761if we assume that the tree produced only 500 flowers, and that this15762number of seeds were requisite to keep up the stock, so that at least15763one seedling should hereafter struggle to maturity, then a large15764proportion of the seedlings would necessarily be derived from15765self-fertilised seeds. But if the tree annually produced 50,000 flowers,15766of which the self-fertilised dropped off without yielding seeds, then15767the cross-fertilised flowers might yield seeds in sufficient number to15768keep up the stock, and most of the seedlings would be vigorous from15769being the product of a cross between distinct individuals. In this15770manner the production of a vast number of flowers, besides serving to15771entice numerous insects and to compensate for the accidental destruction15772of many flowers by spring-frosts or otherwise, would be a very great15773advantage to the species; and when we behold our orchard-trees covered15774with a white sheet of bloom in the spring, we should not falsely accuse15775nature of wasteful expenditure, though comparatively little fruit is15776produced in the autumn.1577715778ANEMOPHILOUS PLANTS.1577915780The nature and relations of plants which are fertilised by the wind have15781been admirably discussed by Delpino and Hermann Muller; and I have15782already made some remarks on the structure of their flowers in contrast15783with those of entomophilous species. (10/42. Delpino 'Ult. Osservazioni15784sulla Dicogamia' part 2 fasc. 1 1870 and 'Studi sopra un Lignaggio15785anemofilo' etc. 1871. Hermann Muller 'Die Befruchtung' etc. pages 412,15786442. Both these authors remark that plants must have been anemophilous15787before they were entomophilous. Hermann Muller further discusses in a15788very interesting manner the steps by which entomophilous flowers became15789nectariferous and gradually acquired their present structure through15790successive beneficial changes.) There is good reason to believe that the15791first plants which appeared on this earth were cryptogamic; and judging15792from what now occurs, the male fertilising element must either have15793possessed the power of spontaneous movement through the water or over15794damp surfaces, or have been carried by currents of water to the female15795organs. That some of the most ancient plants, such as ferns, possessed15796true sexual organs there can hardly be a doubt; and this shows, as15797Hildebrand remarks, at how early a period the sexes were separated.15798(10/43. 'Die Geschlechter-Vertheilung' 1867 pages 84-90.) As soon as15799plants became phanerogamic and grew on the dry ground, if they were ever15800to intercross, it would be indispensable that the male fertilising15801element should be transported by some means through the air; and the15802wind is the simplest means of transport. There must also have been a15803period when winged insects did not exist, and plants would not then have15804been rendered entomophilous. Even at a somewhat later period the more15805specialised orders of the Hymenoptera, Lepidoptera, and Diptera, which15806are now chiefly concerned with the transport of pollen, did not exist.15807Therefore the earliest terrestrial plants known to us, namely, the15808Coniferae and Cycadiae, no doubt were anemophilous, like the existing15809species of these same groups. A vestige of this early state of things is15810likewise shown by some other groups of plants which are anemophilous, as15811these on the whole stand lower in the scale than entomophilous species.1581215813There is no great difficulty in understanding how an anemophilous plant15814might have been rendered entomophilous. Pollen is a nutritious15815substance, and would soon have been discovered and devoured by insects;15816and if any adhered to their bodies it would have been carried from the15817anthers to the stigma of the same flower, or from one flower to another.15818One of the chief characteristics of the pollen of anemophilous plants is15819its incoherence; but pollen in this state can adhere to the hairy bodies15820of insects, as we see with some Leguminosae, Ericaceae, and15821Melastomaceae. We have, however, better evidence of the possibility of a15822transition of the above kind in certain plants being now fertilised15823partly by the wind and partly by insects. The common rhubarb (Rheum15824rhaponticum) is so far in an intermediate condition, that I have seen15825many Diptera sucking the flowers, with much pollen adhering to their15826bodies; and yet the pollen is so incoherent, that clouds of it are15827emitted if the plant be gently shaken on a sunny day, some of which15828could hardly fail to fall on the large stigmas of the neighbouring15829flowers. According to Delpino and Hermann Muller, some species of15830Plantago are in a similar intermediate condition. (10/44. 'Die15831Befruchtung' etc. page 342.)1583215833Although it is probable that pollen was aboriginally the sole attraction15834to insects, and although many plants now exist whose flowers are15835frequented exclusively by pollen-devouring insects, yet the great15836majority secrete nectar as the chief attraction. Many years ago I15837suggested that primarily the saccharine matter in nectar was excreted as15838a waste product of chemical changes in the sap; and that when the15839excretion happened to occur within the envelopes of a flower, it was15840utilised for the important object of cross-fertilisation, being15841subsequently much increased in quantity and stored in various ways.15842(10/45. Nectar was regarded by De Candolle and Dunal as an excretion, as15843stated by Martinet in 'Annal des Sc. Nat.' 1872 tome 14 page 211.) This15844view is rendered probable by the leaves of some trees excreting, under15845certain climatic conditions, without the aid of special glands, a15846saccharine fluid, often called honey-dew. This is the case with the15847leaves of the lime; for although some authors have disputed the fact, a15848most capable judge, Dr. Maxwell Masters, informs me that, after having15849heard the discussions on this subject before the Horticultural Society,15850he feels no doubt on this head. The leaves, as well as the cut stems, of15851the manna ash (Fraxinus ornus) secrete in a like manner saccharine15852matter. (10/46. 'Gardeners' Chronicle' 1876 page 242.) According to15853Treviranus, so do the upper surfaces of the leaves of Carduus arctioides15854during hot weather. Many analogous facts could be given. (10/47. Kurr15855'Untersuchungen uber die Bedeutung der Nektarien' 1833 page 115.) There15856are, however, a considerable number of plants which bear small glands on15857their leaves, petioles, phyllodia, stipules, bracteae, or flower15858peduncles, or on the outside of their calyx, and these glands secrete15859minute drops of a sweet fluid, which is eagerly sought by sugar-loving15860insects, such as ants, hive-bees, and wasps. (10/48. A large number of15861cases are given by Delpino in the 'Bulletino Entomologico' Anno 6 1874.15862To these may be added those given in my text, as well as the excretion15863of saccharine matter from the calyx of two species of Iris, and from the15864bracteae of certain Orchideae: see Kurr 'Bedeutung der Nektarien' 183315865pages 25, 28. Belt 'Nicaragua' page 224, also refers to a similar15866excretion by many epiphytal orchids and passion-flowers. Mr. Rodgers has15867seen much nectar secreted from the bases of the flower-peduncles of15868Vanilla. Link says that the only example of a hypopetalous nectary known15869to him is externally at the base of the flowers of Chironia decussata:15870see 'Reports on Botany, Ray Society' 1846 page 355. An important memoir15871bearing on this subject has lately appeared by Reinke 'Gottingen15872Nachrichten' 1873 page 825, who shows that in many plants the tips of15873the serrations on the leaves in the bud bear glands which secrete only15874at a very early age, and which have the same morphological structure as15875true nectar-secreting glands. He further shows that the nectar-secreting15876glands on the petioles of Prunus avium are not developed at a very early15877age, yet wither away on the old leaves. They are homologous with those15878on the serrations of the blades of the same leaves, as shown by their15879structure and by transition-forms; for the lowest serrations on the15880blades of most of the leaves secrete nectar instead of resin (harz).) In15881the case of the glands on the stipules of Vicia sativa, the excretion15882manifestly depends on changes in the sap, consequent on the sun shining15883brightly; for I repeatedly observed that as soon as the sun was hidden15884behind clouds the secretion ceased, and the hive-bees left the field;15885but as soon as the sun broke out again, they returned to their feast.15886(10/49. I published a brief notice of this case in the 'Gardeners'15887Chronicle' 1855 July 21 page 487, and afterwards made further15888observations. Besides the hive-bee, another species of bee, a moth,15889ants, and two kinds of flies sucked the drops of fluid on the stipules.15890The larger drops tasted sweet. The hive-bees never even looked at the15891flowers which were open at the same time; whilst two species of15892humble-bees neglected the stipules and visited only the flowers.) I have15893observed an analogous fact with the secretion of true nectar in the15894flowers of Lobelia erinus.1589515896Delpino, however, maintains that the power of secreting a sweet fluid by15897any extra-floral organ has been in every case specially gained, for the15898sake of attracting ants and wasps as defenders of the plant against15899their enemies; but I have never seen any reason to believe that this is15900so with the three species observed by me, namely, Prunus laurocerasus,15901Vicia sativa, and V. faba. No plant is so little attacked by enemies of15902any kind as the common bracken-fern (Pteris aquilina); and yet, as my15903son Francis has discovered, the large glands at the bases of the fronds,15904but only whilst young, excrete much sweetish fluid, which is eagerly15905sought by innumerable ants, chiefly belonging to Myrmica; and these ants15906certainly do not serve as a protection against any enemy. Delpino argues15907that such glands ought not to be considered as excretory, because if15908they were so, they would be present in every species; but I cannot see15909much force in this argument, as the leaves of some plants excrete sugar15910only during certain states of the weather. That in some cases the15911secretion serves to attract insects as defenders of the plant, and may15912have been developed to a high degree for this special purpose, I have15913not the least doubt, from the observations of Delpino, and more15914especially from those of Mr. Belt on Acacia sphaerocephala, and on15915passion-flowers. This acacia likewise produces, as an additional15916attraction to ants, small bodies containing much oil and protoplasm, and15917analogous bodies are developed by a Cecropia for the same purpose, as15918described by Fritz Muller. (10/50. Mr. Belt 'The Naturalist in15919Nicaragua' 1874 page 218, has given a most interesting account of the15920paramount importance of ants as defenders of the above Acacia. With15921respect to the Cecropia see 'Nature' 1876 page 304. My son Francis has15922described the microscopical structure and development of these wonderful15923food-bodies in a paper read before the Linnean Society.)1592415925The excretion of a sweet fluid by glands seated outside of a flower is15926rarely utilised as a means for cross-fertilisation by the aid of15927insects; but this occurs with the bracteae of the Marcgraviaceae, as the15928late Dr. Cruger informed me from actual observation in the West Indies,15929and as Delpino infers with much acuteness from the relative position of15930the several parts of their flowers. (10/51. 'Ult. Osservaz. Dicogamia'159311868-69 page 188.) Mr. Farrer has also shown that the flowers of15932Coronilla are curiously modified, so that bees may fertilise them whilst15933sucking the fluid secreted from the outside of the calyx. (10/52.15934'Nature' 1874 page 169.) It further appears probable from the15935observations of the Reverend W.A. Leighton, that the fluid so abundantly15936secreted by glands on the phyllodia of the Australian Acacia magnifica,15937which stand near the flowers, is connected with their fertilisation.15938(10/53. 'Annals and Magazine of Natural History' volume 16 1865 page 14.15939In my work on the 'Fertilisation of Orchids' and in a paper subsequently15940published in the 'Annals and Magazine of Natural History' it has been15941shown that although certain kinds of orchids possess a nectary, no15942nectar is actually secreted by it; but that insects penetrate the inner15943walls and suck the fluid contained in the intercellular spaces. I15944further suggested, in the case of some other orchids which do not15945secrete nectar, that insects gnawed the labellum; and this suggestion15946has since been proved true. Hermann Muller and Delpino have now shown15947that some other plants have thickened petals which are sucked or gnawed15948by insects, their fertilisation being thus aided. All the known facts on15949this head have been collected by Delpino in his 'Ult. Osserv.' part 215950fasc. 2 1875 pages 59-63.)1595115952The amount of pollen produced by anemophilous plants, and the distance15953to which it is often transported by the wind, are both surprisingly15954great. Mr. Hassall found that the weight of pollen produced by a single15955plant of the Bulrush (Typha) was 144 grains. Bucketfuls of pollen,15956chiefly of Coniferae and Gramineae, have been swept off the decks of15957vessels near the North American shore; and Mr. Riley has seen the ground15958near St. Louis, in Missouri, covered with pollen, as if sprinkled with15959sulphur; and there was good reason to believe that this had been15960transported from the pine-forests at least 400 miles to the south.15961Kerner has seen the snow-fields on the higher Alps similarly dusted; and15962Mr. Blackley found numerous pollen-grains, in one instance 1200,15963adhering to sticky slides, which were sent up to a height of from 500 to159641000 feet by means of a kite, and then uncovered by a special mechanism.15965It is remarkable that in these experiments there were on an average15966nineteen times as many pollen-grains in the atmosphere at the higher15967than at the lower levels. (10/54. For Mr. Hassall's observations see15968'Annals and Magazine of Natural History' volume 8 1842 page 108. In the15969'North American Journal of Science' January 1842, there is an account of15970the pollen swept off the decks of a vessel. Riley 'Fifth Report on the15971Noxious Insects of Missouri' 1873 page 86. Kerner 'Die Schutzmittel des15972Pollens' 1873 page 6. This author has also seen a lake in the Tyrol so15973covered with pollen, that the water no longer appeared blue. Mr.15974Blackley 'Experimental Researches on Hay-fever' 1873 pages 132,15975141-152.) Considering these facts, it is not so surprising as it at15976first appears that all, or nearly all, the stigmas of anemophilous15977plants should receive pollen brought to them by mere chance by the wind.15978During the early part of summer every object is thus dusted with pollen;15979for instance, I examined for another purpose the labella of a large15980number of flowers of the Fly Ophrys (which is rarely visited by15981insects), and found on all very many pollen-grains of other plants,15982which had been caught by their velvety surfaces.1598315984The extraordinary quantity and lightness of the pollen of anemophilous15985plants are no doubt both necessary, as their pollen has generally to be15986carried to the stigmas of other and often distant flowers; for, as we15987shall soon see, most anemophilous plants have their sexes separated. The15988fertilisation of these plants is generally aided by the stigmas being of15989large size or plumose; and in the case of the Coniferae, by the naked15990ovules secreting a drop of fluid, as shown by Delpino. Although the15991number of anemophilous species is small, as the author just quoted15992remarks, the number of individuals is large in comparison with that of15993entomophilous species. This holds good especially in cold and temperate15994regions, where insects are not so numerous as under a warmer climate,15995and where consequently entomophilous plants are less favourably15996situated. We see this in our forests of Coniferae and other trees, such15997as oaks, beeches, birches, ashes, etc.; and in the Gramineae,15998Cyperaceae, and Juncaceae, which clothe our meadows and swamps; all15999these trees and plants being fertilised by the wind. As a large quantity16000of pollen is wasted by anemophilous plants, it is surprising that so16001many vigorous species of this kind abounding with individuals should16002still exist in any part of the world; for if they had been rendered16003entomophilous, their pollen would have been transported by the aid of16004the senses and appetites of insects with incomparably greater safety16005than by the wind. That such a conversion is possible can hardly be16006doubted, from the remarks lately made on the existence of intermediate16007forms; and apparently it has been effected in the group of willows, as16008we may infer from the nature of their nearest allies. (10/55. Hermann16009Muller 'Die Befruchtung' etc. page 149.)1601016011It seems at first sight a still more surprising fact that plants, after16012having been once rendered entomophilous, should ever again have become16013anemophilous; but this has occasionally though rarely occurred, for16014instance, with the common Poterium sanguisorba, as may be inferred from16015its belonging to the Rosaceae. Such cases are, however, intelligible, as16016almost all plants require to be occasionally intercrossed; and if any16017entomiphilous species ceased to be visited by insects, it would probably16018perish unless it were rendered anemophilous. A plant would be neglected16019by insects if nectar failed to be secreted, unless indeed a large supply16020of attractive pollen was present; and from what we have seen of the16021excretion of saccharine fluid from leaves and glands being largely16022governed in several cases by climatic influences, and from some few16023flowers which do not now secrete nectar still retaining coloured16024guiding-marks, the failure of the secretion cannot be considered as a16025very improbable event. The same result would follow to a certainty, if16026winged insects ceased to exist in any district, or became very rare. Now16027there is only a single plant in the great order of the Cruciferae,16028namely, Pringlea, which is anemophilous, and this plant is an inhabitant16029of Kerguelen Land, where there are hardly any winged insects, owing16030probably, as was suggested by me in the case of Madeira, to the risk16031which they run of being blown out to sea and destroyed. (10/56. The16032Reverend A.E. Eaton in 'Proceedings of the Royal Society' volume 23 187516033page 351.)1603416035A remarkable fact with respect to anemophilous plants is that they are16036often diclinous, that is, they are either monoecious with their sexes16037separated on the same plant, or dioecious with their sexes on distinct16038plants. In the class Monoecia of Linnaeus, Delpino shows that the16039species of twenty-eight genera are anemophilous, and of seventeen genera16040entomophilous. (10/57. 'Studi sopra un Lignaggio anemofilo delle16041Compositae' 1871.) The larger proportion of entomophilous genera in this16042latter class is probably the indirect result of insects having the power16043of carrying pollen to another and sometimes distant plant much more16044securely than the wind. In the above two classes taken together there16045are thirty-eight anemophilous and thirty-six entomophilous genera;16046whereas in the great mass of hermaphrodite plants the proportion of16047anemophilous to entomophilous genera is extremely small. The cause of16048this remarkable difference may be attributed to anemophilous plants16049having retained in a greater degree than the entomophilous a primordial16050condition, in which the sexes were separated and their mutual16051fertilisation effected by means of the wind. That the earliest and16052lowest members of the vegetable kingdom had their sexes separated, as is16053still the case to a large extent, is the opinion of a high authority,16054Nageli. (10/58. 'Entstehung und Begriff der Naturhist. Art' 1865 page1605522.) It is indeed difficult to avoid this conclusion, if we admit the16056view, which seems highly probable, that the conjugation of the Algae and16057of some of the simplest animals is the first step towards sexual16058reproduction; and if we further bear in mind that a greater and greater16059degree of differentiation between the cells which conjugate can be16060traced, thus leading apparently to the development of the two sexual16061forms. (10/59. See the interesting discussion on this whole subject by16062O. Butschli in his 'Studien uber die ersten Entwickelungsvorgange der16063Eizelle; etc. 1876 pages 207-219. Also Engelmann "Ueber Entwickelung von16064Infusorien" 'Morphol. Jahrbuch' B. 1 page 573. Also Dr. A. Dodel "Die16065Kraushaar-Algae" 'Pringsheims Jahrbuch f. Wiss. Bot.' B. 10.) We have16066also seen that as plants became more highly developed and affixed to the16067ground, they would be compelled to be anemophilous in order to16068intercross. Therefore all plants which have not since been greatly16069modified, would tend still to be both diclinous and anemophilous; and we16070can thus understand the connection between these two states, although16071they appear at first sight quite disconnected. If this view is correct,16072plants must have been rendered hermaphrodites at a later though still16073very early period, and entomophilous at a yet later period, namely,16074after the development of winged insects. So that the relationship16075between hermaphroditism and fertilisation by means of insects is16076likewise to a certain extent intelligible.1607716078Why the descendants of plants which were originally dioecious, and which16079therefore profited by always intercrossing with another individual,16080should have been converted into hermaphrodites, may perhaps be explained16081by the risk which they ran, especially as long as they were16082anemophilous, of not being always fertilised, and consequently of not16083leaving offspring. This latter evil, the greatest of all to any16084organism, would have been much lessened by their becoming16085hermaphrodites, though with the contingent disadvantage of frequent16086self-fertilisation. By what graduated steps an hermaphrodite condition16087was acquired we do not know. But we can see that if a lowly organised16088form, in which the two sexes were represented by somewhat different16089individuals, were to increase by budding either before or after16090conjugation, the two incipient sexes would be capable of appearing by16091buds on the same stock, as occasionally occurs with various characters16092at the present day. The organism would then be in a monoecious16093condition, and this is probably the first step towards hermaphroditism;16094for if very simple male and female flowers on the same stock, each16095consisting of a single stamen or pistil, were brought close together and16096surrounded by a common envelope, in nearly the same manner as with the16097florets of the Compositae, we should have an hermaphrodite flower.1609816099There seems to be no limit to the changes which organisms undergo under16100changing conditions of life; and some hermaphrodite plants, descended as16101we must believe from aboriginally diclinous plants, have had their sexes16102again separated. That this has occurred, we may infer from the presence16103of rudimentary stamens in the flowers of some individuals, and of16104rudimentary pistils in the flowers of other individuals, for example in16105Lychnis dioica. But a conversion of this kind will not have occurred16106unless cross-fertilisation was already assured, generally by the agency16107of insects; but why the production of male and female flowers on16108distinct plants should have been advantageous to the species,16109cross-fertilisation having been previously assured, is far from obvious.16110A plant might indeed produce twice as many seeds as were necessary to16111keep up its numbers under new or changed conditions of life; and if it16112did not vary by bearing fewer flowers, and did vary in the state of its16113reproductive organs (as often occurs under cultivation), a wasteful16114expenditure of seeds and pollen would be saved by the flowers becoming16115diclinous.1611616117A related point is worth notice. I remarked in my Origin of Species that16118in Britain a much larger proportion of trees and bushes than of16119herbaceous plants have their sexes separated; and so it is, according to16120Asa Gray and Hooker, in North America and New Zealand. (10/60. I find in16121the 'London Catalogue of British Plants' that there are thirty-two16122indigenous trees and bushes in Great Britain, classed under nine16123families; but to err on the safe side, I have counted only six species16124of willows. Of the thirty-two trees and bushes, nineteen, or more than16125half, have their sexes separated; and this is an enormous proportion16126compared with other British plants. New Zealand abounds with diclinous16127plants and trees; and Dr. Hooker calculates that out of about 75616128phanerogamic plants inhabiting the islands, no less than 108 are trees,16129belonging to thirty-five families. Of these 108 trees, fifty-two, or16130very nearly half, have their sexes more or less separated. Of bushes16131there are 149, of which sixty-one have their sexes in the same state;16132whilst of the remaining 500 herbaceous plants only 121, or less than a16133fourth, have their sexes separated. Lastly, Professor Asa Gray informs16134me that in the United States there are 132 native trees (belonging to16135twenty-five families) of which ninety-five (belonging to seventeen16136families) "have their sexes more or less separated, for the greater part16137decidedly separated.") It is, however, doubtful how far this rule holds16138good generally, and it certainly does not do so in Australia. But I have16139been assured that the flowers of the prevailing Australian trees,16140namely, the Myrtaceae, swarm with insects, and if they are dichogamous16141they would be practically diclinous. (10/61. With respect to the16142Proteaceae of Australia, Mr. Bentham 'Journal of the Linnean Society16143Botany' volume 13 1871 pages 58, 64, remarks on the various contrivances16144by which the stigma in the several genera is screened from the action of16145the pollen from the same flower. For instance, in Synaphea "the stigma16146is held by the eunuch (i.e., one of the stamens which is barren) safe16147from all pollution from her brother anthers, and is preserved intact for16148any pollen that may be inserted by insects and other agencies.") As far16149as anemophilous plants are concerned, we know that they are apt to have16150their sexes separated, and we can see that it would be an unfavourable16151circumstance for them to bear their flowers very close to the ground, as16152their pollen is liable to be blown high up in the air (10/62. Kerner16153'Schutzmittel des Pollens' 1873 page 4.); but as the culms of grasses16154give sufficient elevation, we cannot thus account for so many trees and16155bushes being diclinous. We may infer from our previous discussion that a16156tree bearing numerous hermaphrodite flowers would rarely intercross with16157another tree, except by means of the pollen of a distinct individual16158being prepotent over the plants' own pollen. Now the separation of the16159sexes, whether the plant were anemophilous are entomophilous, would most16160effectually bar self-fertilisation, and this may be the cause of so many16161trees and bushes being diclinous. Or to put the case in another way, a16162plant would be better fitted for development into a tree, if the sexes16163were separated, than if it were hermaphrodite; for in the former case16164its numerous flowers would be less liable to continued16165self-fertilisation. But it should also be observed that the long life of16166a tree or bush permits of the separation of the sexes, with much less16167risk of evil from impregnation occasionally failing and seeds not being16168produced, than in the case of short-lived plants. Hence it probably is,16169as Lecoq has remarked, that annual plants are rarely dioecious.1617016171Finally, we have seen reason to believe that the higher plants are16172descended from extremely low forms which conjugated, and that the16173conjugating individuals differed somewhat from one another,--the one16174representing the male and the other the female--so that plants were16175aboriginally dioecious. At a very early period such lowly organised16176dioecious plants probably gave rise by budding to monoecious plants with16177the two sexes borne by the same individual; and by a still closer union16178of the sexes to hermaphrodite plants, which are now much the commonest16179form. (10/63. There is a considerable amount of evidence that all the16180higher animals are the descendants of hermaphrodites; and it is a16181curious problem whether such hermaphroditism may not have been the16182result of the conjugation of two slightly different individuals, which16183represented the two incipient sexes. On this view, the higher animals16184may now owe their bilateral structure, with all their organs double at16185an early embryonic period, to the fusion or conjugation of two16186primordial individuals.) As soon as plants became affixed to the ground,16187their pollen must have been carried by some means from flower to flower,16188at first almost certainly by the wind, then by pollen-devouring, and16189afterwards by nectar-seeking insects. During subsequent ages some few16190entomophilous plants have been again rendered anemophilous, and some16191hermaphrodite plants have had their sexes again separated; and we can16192vaguely see the advantages of such recurrent changes under certain16193conditions.1619416195Dioecious plants, however fertilised, have a great advantage over other16196plants in their cross-fertilisation being assured. But this advantage is16197gained in the case of anemophilous species at the expense of the16198production of an enormous superfluity of pollen, with some risk to them16199and to entomophilous species of their fertilisation occasionally16200failing. Half the individuals, moreover, namely, the males, produce no16201seed, and this might possibly be a disadvantage. Delpino remarks that16202dioecious plants cannot spread so easily as monoecious and hermaphrodite16203species, for a single individual which happened to reach some new site16204could not propagate its kind; but it may be doubted whether this is a16205serious evil. Monoecious plants can hardly fail to be to a large extent16206dioecious in function, owing to the lightness of their pollen and to the16207wind blowing laterally, with the great additional advantage of16208occasionally or often producing some self-fertilised seeds. When they16209are also dichogamous, they are necessarily dioecious in function.16210Lastly, hermaphrodite plants can generally produce at least some16211self-fertilised seeds, and they are at the same time capable, through16212the various means specified in this chapter, of cross-fertilisation.16213When their structure absolutely prevents self-fertilisation, they are in16214the same relative position to one another as monoecious and dioecious16215plants, with what may be an advantage, namely, that every flower is16216capable of yielding seeds.16217162181621916220CHAPTER XI.1622116222THE HABITS OF INSECTS IN RELATION TO THE FERTILISATION OF FLOWERS.1622316224Insects visit the flowers of the same species as long as they can.16225Cause of this habit.16226Means by which bees recognise the flowers of the same species.16227Sudden secretion of nectar.16228Nectar of certain flowers unattractive to certain insects.16229Industry of bees, and the number of flowers visited within a short time.16230Perforation of the corolla by bees.16231Skill shown in the operation.16232Hive-bees profit by the holes made by humble-bees.16233Effects of habit.16234The motive for perforating flowers to save time.16235Flowers growing in crowded masses chiefly perforated.1623616237Bees and various other insects must be directed by instinct to search16238flowers for nectar and pollen, as they act in this manner without16239instruction as soon as they emerge from the pupa state. Their instincts,16240however, are not of a specialised nature, for they visit many exotic16241flowers as readily as the endemic kinds, and they often search for16242nectar in flowers which do not secrete any; and they may be seen16243attempting to suck it out of nectaries of such length that it cannot be16244reached by them. (11/1. See, on this subject Hermann Muller16245'Befruchtung' etc. page 427; and Sir J. Lubbock's 'British Wild Flowers'16246etc. page 20. Muller 'Bienen Zeitung' June 1876 page 119, assigns good16247reasons for his belief that bees and many other Hymenoptera have16248inherited from some early nectar-sucking progenitor greater skill in16249robbing flowers than that which is displayed by insects belonging to the16250other Orders.) All kinds of bees and certain other insects usually visit16251the flowers of the same species as long as they can, before going to16252another species. This fact was observed by Aristotle with respect to the16253hive-bee more than 2000 years ago, and was noticed by Dobbs in a paper16254published in 1736 in the Philosophical Transactions. It may be observed16255by any one, both with hive and humble-bees, in every flower-garden; not16256that the habit is invariably followed. Mr. Bennett watched for several16257hours many plants of Lamium album, L. purpureum, and another Labiate16258plant, Nepeta glechoma, all growing mingled together on a bank near some16259hives; and he found that each bee confined its visits to the same16260species. (11/2. 'Nature' 1874 June 4 page 92.) The pollen of these three16261plants differs in colour, so that he was able to test his observations16262by examining that which adhered to the bodies of the captured bees, and16263he found one kind on each bee.1626416265Humble and hive-bees are good botanists, for they know that varieties16266may differ widely in the colour of their flowers and yet belong to the16267same species. I have repeatedly seen humble-bees flying straight from a16268plant of the ordinary red Dictamnus fraxinella to a white variety; from16269one to another very differently coloured variety of Delphinium consolida16270and of Primula veris; from a dark purple to a bright yellow variety of16271Viola tricolor; and with two species of Papaver, from one variety to16272another which differed much in colour; but in this latter case some of16273the bees flew indifferently to either species, although passing by other16274genera, and thus acted as if the two species were merely varieties.16275Hermann Muller also has seen hive-bees flying from flower to flower of16276Ranunculus bulbosus and arvensis, and of Trifolium fragiferum and16277repens; and even from blue hyacinths to blue violets. (11/3. 'Bienen16278Zeitung' July 1876 page 183.)1627916280Some species of Diptera or flies keep to the flowers of the same species16281with almost as much regularity as do bees; and when captured they are16282found covered with pollen. I have seen Rhingia rostrata acting in this16283manner with the flowers of Lychnis dioica, Ajuga reptans, and Vici16284sepium. Volucella plumosa and Empis cheiroptera flew straight from16285flower to flower of Myosotis sylvatica. Dolichopus nigripennis behaved16286in the same manner with Potentilla tormentilla; and other Diptera with16287Stellaria holostea, Helianthemum vulgare, Bellis perennis, Veronica16288hederaefolia and chamoedrys; but some flies visited indifferently the16289flowers of these two latter species. I have seen more than once a minute16290Thrips, with pollen adhering to its body, fly from one flower to another16291of the same kind; and one was observed by me crawling about within a16292convolvulus with four grains of pollen adhering to its head, which were16293deposited on the stigma.1629416295Fabricius and Sprengel state that when flies have once entered the16296flowers of Aristolochia they never escape,--a statement which I could16297not believe, as in this case the insects would not aid in the16298cross-fertilisation of the plant; and this statement has now been shown16299by Hildebrand to be erroneous. As the spathes of Arum maculatum are16300furnished with filaments apparently adapted to prevent the exit of16301insects, they resemble in this respect the flowers of Aristolochia; and16302on examining several spathes, from thirty to sixty minute Diptera16303belonging to three species were found in some of them; and many of these16304insects were lying dead at the bottom, as if they had been permanently16305entrapped. In order to discover whether the living ones could escape and16306carry pollen to another plant, I tied in the spring of 1842 a fine16307muslin bag tightly round a spathe; and on returning in an hour's time16308several little flies were crawling about on the inner surface of the16309bag. I then gathered a spathe and breathed hard into it; several flies16310soon crawled out, and all without exception were dusted with arum16311pollen. These flies quickly flew away, and I distinctly saw three of16312them fly to another plant about a yard off; they alighted on the inner16313or concave surface of the spathe, and suddenly flew down into the16314flower. I then opened this flower, and although not a single anther had16315burst, several grains of pollen were lying at the bottom, which must16316have been brought from another plant by one of these flies or by some16317other insect. In another flower little flies were crawling about, and I16318saw them leave pollen on the stigmas.1631916320I do not know whether Lepidoptera generally keep to the flowers of the16321same species; but I once observed many minute moths (I believe Lampronia16322(Tinea) calthella) apparently eating the pollen of Mercurialis annua,16323and they had the whole front of their bodies covered with pollen. I then16324went to a female plant some yards off, and saw in the course of fifteen16325minutes three of these moths alight on the stigmas. Lepidoptera are16326probably often induced to frequent the flowers of the same species,16327whenever these are provided with a long and narrow nectary, as in this16328case other insects cannot suck the nectar, which will thus be preserved16329for those having an elongated proboscis. No doubt the Yucca moth visits16330only the flowers whence its name is derived, for a most wonderful16331instinct guides this moth to place pollen on the stigma, so that the16332ovules may be developed on which the larvae feed. (11/4. Described by16333Mr. Riley in the 'American Naturalist' volume 7 October 1873.)With16334respect to Coleoptera, I have seen Meligethes covered with pollen flying16335from flower to flower of the same species; and this must often occur,16336as, according to M. Brisout, 'many of the species affect only one kind16337of plant." (11/5. As quoted in 'American Nat.' May 1873 page 270.)1633816339It must not be supposed from these several statements that insects16340strictly confine their visits to the same species. They often visit16341other species when only a few plants of the same kind grow near16342together. In a flower-garden containing some plants of Oenothera, the16343pollen of which can easily be recognised, I found not only single grains16344but masses of it within many flowers of Mimulus, Digitalis, Antirrhinum,16345and Linaria. Other kinds of pollen were likewise detected in these same16346flowers. A large number of the stigmas of a plant of Thyme, in which the16347anthers were completely aborted, were examined; and these stigmas,16348though scarcely larger than a split needle, were covered not only with16349pollen of Thyme brought from other plants by the bees, but with several16350other kinds of pollen.1635116352That insects should visit the flowers of the same species as long as16353they can, is of great importance to the plant, as it favours the16354cross-fertilisation of distinct individuals of the same species; but no16355one will suppose that insects act in this manner for the good of the16356plant. The cause probably lies in insects being thus enabled to work16357quicker; they have just learnt how to stand in the best position on the16358flower, and how far and in what direction to insert their proboscides.16359(11/6. Since these remarks were written, I find that Hermann Muller has16360come to almost exactly the same conclusion with respect to the cause of16361insects frequenting as long as they can the flowers of the same species:16362'Bienen Zeitung' July 1876 page 182.) They act on the same principle as16363does an artificer who has to make half-a-dozen engines, and who saves16364time by making consecutively each wheel and part for all of them.16365Insects, or at least bees, seem much influenced by habit in all their16366manifold operations; and we shall presently see that this holds good in16367their felonious practice of biting holes through the corolla.1636816369It is a curious question how bees recognise the flowers of the same16370species. That the coloured corolla is the chief guide cannot be doubted.16371On a fine day, when hive-bees were incessantly visiting the little blue16372flowers of Lobelia erinus, I cut off all the petals of some, and only16373the lower striped petals of others, and these flowers were not once16374again sucked by the bees, although some actually crawled over them. The16375removal of the two little upper petals alone made no difference in their16376visits. Mr. J. Anderson likewise states that when he removed the16377corollas of the Calceolaria, bees never visited the flowers. (11/7.16378'Gardeners' Chronicle' 1853 page 534. Kurr cut off the nectaries from a16379large number of flowers of several species, and found that the greater16380number yielded seeds; but insects probably would not perceive the loss16381of the nectary until they had inserted their proboscides into the holes16382thus formed, and in doing so would fertilise the flowers. He also16383removed the whole corolla from a considerable number of flowers, and16384these likewise yielded seeds. Flowers which are self-fertile would16385naturally produce seeds under these circumstances; but I am greatly16386surprised that Delphinium consolida, as well as another species of16387Delphinium, and Viola tricolor, should have produced a fair supply of16388seeds when thus treated; but it does not appear that he compared the16389number of the seeds thus produced with those yielded by unmutilated16390flowers left to the free access of insects: 'Bedeutung der Nektarien'163911833 pages 123-135.) On the other hand, in some large masses of Geranium16392phaeum which had escaped out of a garden, I observed the unusual fact of16393the flowers continuing to secrete an abundance of nectar after all the16394petals had fallen off; and the flowers in this state were still visited16395by humble-bees. But the bees might have learnt that these flowers with16396all their petals lost were still worth visiting, by finding nectar in16397those with only one or two lost. The colour alone of the corolla serves16398as an approximate guide: thus I watched for some time humble-bees which16399were visiting exclusively plants of the white-flowered Spiranthes16400autumnalis, growing on short turf at a considerable distance apart; and16401these bees often flew within a few inches of several other plants with16402white flowers, and then without further examination passed onwards in16403search of the Spiranthes. Again, many hive-bees which confined their16404visits to the common ling (Calluna vulgaris), repeatedly flew towards16405Erica tetralix, evidently attracted by the nearly similar tint of their16406flowers, and then instantly passed on in search of the Calluna.1640716408That the colour of the flower is not the sole guide, is clearly shown by16409the six cases above given of bees which repeatedly passed in a direct16410line from one variety to another of the same species, although they bore16411very differently coloured flowers. I observed also bees flying in a16412straight line from one clump of a yellow-flowered Oenothera to every16413other clump of the same plant in the garden, without turning an inch16414from their course to plants of Eschscholtzia and others with yellow16415flowers which lay only a foot or two on either side. In these cases the16416bees knew the position of each plant in the garden perfectly well, as we16417may infer by the directness of their flight; so that they were guided by16418experience and memory. But how did they discover at first that the above16419varieties with differently coloured flowers belonged to the same16420species? Improbable as it may appear, they seem, at least sometimes, to16421recognise plants even from a distance by their general aspect, in the16422same manner as we should do. On three occasions I observed humble-bees16423flying in a perfectly straight line from a tall larkspur (Delphinium)16424which was in full flower to another plant of the same species at the16425distance of fifteen yards which had not as yet a single flower open, and16426on which the buds showed only a faint tinge of blue. Here neither odour16427nor the memory of former visits could have come into play, and the tinge16428of blue was so faint that it could hardly have served as a guide. (11/8.16429A fact mentioned by Hermann Muller 'Die Befruchtung' etc. page 347,16430shows that bees possess acute powers of vision and discrimination; for16431those engaged in collecting pollen from Primula elatior invariably16432passed by the flowers of the long-styled form, in which the anthers are16433seated low down in the tubular corolla. Yet the difference in aspect16434between the long-styled and short-styled forms is extremely slight.)1643516436The conspicuousness of the corolla does not suffice to induce repeated16437visits from insects, unless nectar is at the same time secreted,16438together perhaps with some odour emitted. I watched for a fortnight many16439times daily a wall covered with Linaria cymbalaria in full flower, and16440never saw a bee even looking at one. There was then a very hot day, and16441suddenly many bees were industriously at work on the flowers. It appears16442that a certain degree of heat is necessary for the secretion of nectar;16443for I observed with Lobelia erinus that if the sun ceased to shine for16444only half an hour, the visits of the bees slackened and soon ceased. An16445analogous fact with respect to the sweet excretion from the stipules of16446Vicia sativa has been already given. As in the case of the Linaria, so16447with Pedicularis sylvatica, Polygala vulgaris, Viola tricolor, and some16448species of Trifolium, I have watched the flowers day after day without16449seeing a bee at work, and then suddenly all the flowers were visited by16450many bees. Now how did so many bees discover at once that the flowers16451were secreting nectar? I presume that it must have been by their odour;16452and that as soon as a few bees began to suck the flowers, others of the16453same and of different kinds observed the fact and profited by it. We16454shall presently see, when we treat of the perforation of the corolla,16455that bees are fully capable of profiting by the labour of other species.16456Memory also comes into play, for, as already remarked, bees know the16457position of each clump of flowers in a garden. I have repeatedly seen16458them passing round a corner, but otherwise in as straight a line as16459possible, from one plant of Fraxinella and of Linaria to another and16460distant one of the same species; although, owing to the intervention of16461other plants, the two were not in sight of each other.1646216463It would appear that either the taste or the odour of the nectar of16464certain flowers is unattractive to hive or to humble-bees, or to both;16465for there seems no other reason why certain open flowers which secrete16466nectar are not visited by them. The small quantity of nectar secreted by16467some of these flowers can hardly be the cause of their neglect, as16468hive-bees search eagerly for the minute drops on the glands on the16469leaves of the Prunus laurocerasus. Even the bees from different hives16470sometimes visit different kinds of flowers, as is said to be the case by16471Mr. Grant with respect to the Polyanthus and Viola tricolor. (11/9.16472'Gardeners' Chronicle' 1844 page 374.) I have known humble-bees to visit16473the flowers of Lobelia fulgens in one garden and not in another at the16474distance of only a few miles. The cupful of nectar in the labellum of16475Epipactis latifolia is never touched by hive- or humble-bees, although I16476have seen them flying close by; and yet the nectar has a pleasant taste16477to us, and is habitually consumed by the common wasp. As far as I have16478seen, wasps seek for nectar in this country only from the flowers of16479this Epipactis, Scrophularia aquatica, Symphoricarpus racemosa (11/10.16480The same fact apparently holds good in Italy, for Delpino says that the16481flowers of these three plants are alone visited by wasps: 'Nettarii16482Estranuziali, Bulletino Entomologico' anno 6.), and Tritoma; the two16483former plants being endemic, and the two latter exotic. As wasps are so16484fond of sugar and of any sweet fluid, and as they do not disdain the16485minute drops on the glands of Prunus laurocerasus, it is a strange fact16486that they do not suck the nectar of many open flowers, which they could16487do without the aid of a proboscis. Hive-bees visit the flowers of the16488Symphoricarpus and Tritoma, and this makes it all the stranger that they16489do not visit the flowers of the Epipactis, or, as far as I have seen,16490those of the Scrophularia aquatica; although they do visit the flowers16491of Scrophularia nodosa, at least in North America. (11/11. 'Silliman's16492American Journal of Science' August 1871.)1649316494The extraordinary industry of bees and the number of flowers which they16495visit within a short time, so that each flower is visited repeatedly,16496must greatly increase the chance of each receiving pollen from a16497distinct plant. When the nectar is in any way hidden, bees cannot tell16498without inserting their proboscides whether it has lately been exhausted16499by other bees, and this, as remarked in a former chapter, forces them to16500visit many more flowers than they otherwise would. But they endeavour to16501lose as little time as they can; thus in flowers having several16502nectaries, if they find one dry they do not try the others, but as I16503have often observed, pass on to another flower. They work so16504industriously and effectually, that even in the case of social plants,16505of which hundreds of thousands grow together, as with the several kinds16506of heath, every single flower is visited, of which evidence will16507presently be given. They lose no time and fly very quickly from plant to16508plant, but I do not know the rate at which hive-bees fly. Humble-bees16509fly at the rate of ten miles an hour, as I was able to ascertain in the16510case of the males from their curious habit of calling at certain fixed16511points, which made it easy to measure the time taken in passing from one16512place to another.1651316514With respect to the number of flowers which bees visit in a given time,16515I observed that in exactly one minute a humble-bee visited twenty-four16516of the closed flowers of the Linaria cymbalaria; another bee visited in16517the same time twenty-two flowers of the Symphoricarpus racemosa; and16518another seventeen flowers on two plants of a Delphinium. In the course16519of fifteen minutes a single flower on the summit of a plant of Oenothera16520was visited eight times by several humble-bees, and I followed the last16521of these bees, whilst it visited in the course of a few additional16522minutes every plant of the same species in a large flower-garden. In16523nineteen minutes every flower on a small plant of Nemophila insignis was16524visited twice. In one minute six flowers of a Campanula were entered by16525a pollen-collecting hive-bee; and bees when thus employed work slower16526than when sucking nectar. Lastly, seven flower-stalks on a plant of16527Dictamnus fraxinella were observed on the 15th of June 1841 during ten16528minutes; they were visited by thirteen humble-bees each of which entered16529many flowers. On the 22nd the same flower-stalks were visited within the16530same time by eleven humble-bees. This plant bore altogether 280 flowers,16531and from the above data, taking into consideration how late in the16532evening humble-bees work, each flower must have been visited at least16533thirty times daily, and the same flower keeps open during several days.16534The frequency of the visits of bees is also sometimes shown by the16535manner in which the petals are scratched by their hooked tarsi; I have16536seen large beds of Mimulus, Stachys, and Lathyrus with the beauty of16537their flowers thus sadly defaced.1653816539PERFORATION OF THE COROLLA BY BEES.1654016541I have already alluded to bees biting holes in flowers for the sake of16542obtaining the nectar. They often act in this manner, both with endemic16543and exotic species, in many parts of Europe, in the United States, and16544in the Himalaya; and therefore probably in all parts of the world. The16545plants, the fertilisation of which actually depends on insects entering16546the flowers, will fail to produce seed when their nectar is stolen from16547the outside; and even with those species which are capable of16548fertilising themselves without any aid, there can be no16549cross-fertilisation, and this, as we know, is a serious evil in most16550cases. The extent to which humble-bees carry on the practice of biting16551holes is surprising: a remarkable case was observed by me near16552Bournemouth, where there were formerly extensive heaths. I took a long16553walk, and every now and then gathered a twig of Erica tetralix, and when16554I had got a handful all the flowers were examined through a lens. This16555process was repeated many times; but though many hundreds were examined,16556I did not succeed in finding a single flower which had not been16557perforated. Humble-bees were at the time sucking the flowers through16558these perforations. On the following day a large number of flowers were16559examined on another heath with the same result, but here hive-bees were16560sucking through the holes. This case is all the more remarkable, as the16561innumerable holes had been made within a fortnight, for before that time16562I saw the bees everywhere sucking in the proper manner at the mouths of16563the corolla. In an extensive flower-garden some large beds of Salvia16564grahami, Stachys coccinea, and Pentstemon argutus (?) had every flower16565perforated, and many scores were examined. I have seen whole fields of16566red clover (Trifolium pratense) in the same state. Dr. Ogle found that1656790 per cent of the flowers of Salvia glutinosa had been bitten. In the16568United States Mr. Bailey says it is difficult to find a blossom of the16569native Gerardia pedicularia without a hole in it; and Mr. Gentry, in16570speaking of the introduced Wistaria sinensis, says "that nearly every16571flower had been perforated." (11/12. Dr. Ogle 'Pop. Science Review' July165721869 page 267. Bailey 'American Naturalist' November 1873 page 690.16573Gentry ibid May 1875 page 264.)1657416575As far as I have seen, it is always humble-bees which first bite the16576holes, and they are well fitted for the work by possessing powerful16577mandibles; but hive-bees afterwards profit by the holes thus made. Dr.16578Hermann Muller, however, writes to me that hive-bees sometimes bite16579holes through the flowers of Erica tetralix. No insects except bees,16580with the single exception of wasps in the case of Tritoma, have sense16581enough, as far as I have observed, to profit by the holes already made.16582Even humble-bees do not always discover that it would be advantageous to16583them to perforate certain flowers. There is an abundant supply of nectar16584in the nectary of Tropaeolum tricolor, yet I have found this plant16585untouched in more than one garden, while the flowers of other plants had16586been extensively perforated; but a few years ago Sir J. Lubbock's16587gardener assured me that he had seen humble-bees boring through the16588nectary of this Tropaeolum. Muller has observed humble-bees trying to16589suck at the mouths of the flowers of Primula elatior and of an16590Aquilegia, and, failing in their attempts, they made holes through the16591corolla; but they often bite holes, although they could with very little16592more trouble obtain the nectar in a legitimate manner by the mouth of16593the corolla.1659416595Dr. W. Ogle has communicated to me a curious case. He gathered in16596Switzerland 100 flower-stems of the common blue variety of the monkshood16597(Aconitum napellus), and not a single flower was perforated; he then16598gathered 100 stems of a white variety growing close by, and every one of16599the open flowers had been perforated. (11/13. Dr. Ogle 'Popular Science16600Review' July 1869 page 267. Bailey 'American Naturalist' November 187316601page 690. Gentry ibid May 1875 page 264.) This surprising difference in16602the state of the flowers may be attributed with much probability to the16603blue variety being distasteful to bees, from the presence of the acrid16604matter which is so general in the Ranunculaceae, and to its absence in16605the white variety in correlation with the loss of the blue tint.16606According to Sprengel, this plant is strongly proterandrous (11/14. 'Das16607Entdeckte' etc. page 278.); it would therefore be more or less sterile16608unless bees carried pollen from the younger to the older flowers.16609Consequently the white variety, the flowers of which were always bitten16610instead of being properly entered by the bees, would fail to yield the16611full number of seeds and would be a comparatively rare plant, as Dr.16612Ogle informs me was the case.1661316614Bees show much skill in their manner of working, for they always make16615their holes from the outside close to the spot where the nectar lies16616hidden within the corolla. All the flowers in a large bed of Stachys16617coccinea had either one or two slits made on the upper side of the16618corolla near the base. The flowers of a Mirabilis and of Salvia coccinea16619were perforated in the same manner; whilst those of Salvia grahami, in16620which the calyx is much elongated, had both the calyx and the corolla16621invariably perforated. The flowers of Pentstemon argutus are broader16622than those of the plants just named, and two holes alongside each other16623had here always been made just above the calyx. In these several cases16624the perforations were on the upper side, but in Antirrhinum majus one or16625two holes had been made on the lower side, close to the little16626protuberance which represents the nectary, and therefore directly in16627front of and close to the spot where the nectar is secreted.1662816629But the most remarkable case of skill and judgment known to me, is that16630of the perforation of the flowers of Lathyrus sylvestris, as described16631by my son Francis. (11/15. 'Nature' January 8, 1874 page 189.) The16632nectar in this plant is enclosed within a tube, formed by the united16633stamens, which surround the pistil so closely that a bee is forced to16634insert its proboscis outside the tube; but two natural rounded passages16635or orifices are left in the tube near the base, in order that the nectar16636may be reached by the bees. Now my son found in sixteen out of16637twenty-four flowers on this plant, and in eleven out of sixteen of those16638on the cultivated everlasting pea, which is either a variety of the same16639species or a closely allied one, that the left passage was larger than16640the right one. And here comes the remarkable point,--the humble-bees16641bite holes through the standard-petal, and they always operated on the16642left side over the passage, which is generally the larger of the two. My16643son remarks: "It is difficult to say how the bees could have acquired16644this habit. Whether they discovered the inequality in the size of the16645nectar-holes in sucking the flowers in the proper way, and then utilised16646this knowledge in determining where to gnaw the hole; or whether they16647found out the best situation by biting through the standard at various16648points, and afterwards remembered its situation in visiting other16649flowers. But in either case they show a remarkable power of making use16650of what they have learnt by experience." It seems probable that bees owe16651their skill in biting holes through flowers of all kinds to their having16652long practised the instinct of moulding cells and pots of wax, or of16653enlarging their old cocoons with tubes of wax; for they are thus16654compelled to work on the inside and outside of the same object.1665516656In the early part of the summer of 1857 I was led to observe during some16657weeks several rows of the scarlet kidney-bean (Phaseolus multiflorus),16658whilst attending to the fertilisation of this plant, and daily saw16659humble- and hive-bees sucking at the mouths of the flowers. But one day16660I found several humble-bees employed in cutting holes in flower after16661flower; and on the next day every single hive-bee, without exception,16662instead of alighting on the left wing-petal and sucking the flower in16663the proper manner, flew straight without the least hesitation to the16664calyx, and sucked through the holes which had been made only the day16665before by the humble-bees; and they continued this habit for many16666following days. (11/16. 'Gardeners' Chronicle' 1857 page 725.) Mr. Belt16667has communicated to me (July 28th, 1874) a similar case, with the sole16668difference that less than half of the flowers had been perforated by the16669humble-bees; nevertheless, all the hive-bees gave up sucking at the16670mouths of the flowers and visited exclusively the bitten ones. Now how16671did the hive-bees find out so quickly that holes had been made? Instinct16672seems to be out of the question, as the plant is an exotic. The holes16673cannot be seen by bees whilst standing on the wing-petals, where they16674had always previously alighted. From the ease with which bees were16675deceived when the petals of Lobelia erinus were cut off, it was clear16676that in this case they were not guided to the nectar by its smell; and16677it may be doubted whether they were attracted to the holes in the16678flowers of the Phaseolus by the odour emitted from them. Did they16679perceive the holes by the sense of touch in their proboscides, whilst16680sucking the flowers in the proper manner, and then reason that it would16681save them time to alight on the outside of the flowers and use the16682holes? This seems almost too abstruse an act of reason for bees; and it16683is more probable that they saw the humble-bees at work, and16684understanding what they were about, imitated them and took advantage of16685the shorter path to the nectar. Even with animals high in the scale,16686such as monkeys, we should be surprised at hearing that all the16687individuals of one species within the space of twenty-four hours16688understood an act performed by a distinct species, and profited by it.1668916690I have repeatedly observed with various kinds of flowers that all the16691hive and humble-bees which were sucking through the perforations, flew16692to them, whether on the upper or under side of the corolla, without the16693least hesitation; and this shows how quickly all the individuals within16694the district had acquired the same knowledge. Yet habit comes into play16695to a certain extent, as in so many of the other operations of bees. Dr.16696Ogle, Messrs. Farrer and Belt have observed in the case of Phaseolus16697multiflorus that certain individuals went exclusively to the16698perforations, while others of the same species visited only the mouths16699of the flowers. (11/17. Dr. Ogle 'Pop. Science Review' April 1870 page16700167. Mr. Farrer 'Annals and Magazine of Natural History' 4th series16701volume 2 1868 page 258. Mr. Belt in a letter to me.) I noticed in 186116702exactly the same fact with Trifolium pratense. So persistent is the16703force of habit, that when a bee which is visiting perforated flowers16704comes to one which has not been bitten, it does not go to the mouth, but16705instantly flies away in search of another bitten flower. Nevertheless, I16706once saw a humble-bee visiting the hybrid Rhododendron azaloides, and it16707entered the mouths of some flowers and cut holes into the others. Dr.16708Hermann Muller informs me that in the same district he has seen some16709individuals of Bombus mastrucatus boring through the calyx and corolla16710of Rhinanthus alecterolophus, and others through the corolla alone.16711Different species of bees may, however, sometimes be observed acting16712differently at the same time on the same plant. I have seen hive-bees16713sucking at the mouths of the flowers of the common bean; humble-bees of16714one kind sucking through holes bitten in the calyx, and humble-bees of16715another kind sucking the little drops of fluid excreted by the stipules.16716Mr. Beal of Michigan informs me that the flowers of the Missouri currant16717(Ribes aureum) abound with nectar, so that children often suck them; and16718he saw hive-bees sucking through holes made by a bird, the oriole, and16719at the same time humble-bees sucking in the proper manner at the mouths16720of the flowers. (11/18. The flowers of the Ribes are however sometimes16721perforated by humble-bees, and Mr. Bundy says that they were able to16722bite through and rob seven flowers of their honey in a minute: 'American16723Naturalist' 1876 page 238.) This statement about the oriole calls to16724mind what I have before said of certain species of humming-birds boring16725holes through the flowers of the Brugmansia, whilst other species16726entered by the mouth.1672716728The motive which impels bees to gnaw holes through the corolla seems to16729be the saving of time, for they lose much time in climbing into and out16730of large flowers, and in forcing their heads into closed ones. They were16731able to visit nearly twice as many flowers, as far as I could judge, of16732a Stachys and Pentstemon by alighting on the upper surface of the16733corolla and sucking through the cut holes, than by entering in the16734proper way. Nevertheless each bee before it has had much practice, must16735lose some time in making each new perforation, especially when the16736perforation has to be made through both calyx and corolla. This action16737therefore implies foresight, of which faculty we have abundant evidence16738in their building operations; and may we not further believe that some16739trace of their social instinct, that is, of working for the good of16740other members of the community, may here likewise play a part?1674116742Many years ago I was struck with the fact that humble-bees as a general16743rule perforate flowers only when these grow in large numbers near16744together. In a garden where there were some very large beds of Stachys16745coccinea and of Pentstemon argutus, every single flower was perforated,16746but I found two plants of the former species growing quite separate with16747their petals much scratched, showing that they had been frequently16748visited by bees, and yet not a single flower was perforated. I found16749also a separate plant of the Pentstemon, and saw bees entering the mouth16750of the corolla, and not a single flower had been perforated. In the16751following year (1842) I visited the same garden several times: on the1675219th of July humble-bees were sucking the flowers of Stachys coccinea16753and Salvia grahami in the proper manner, and none of the corollas were16754perforated. On the 7th of August all the flowers were perforated, even16755those on some few plants of the Salvia which grew at a little distance16756from the great bed. On the 21st of August only a few flowers on the16757summits of the spikes of both species remained fresh, and not one of16758these was now bored. Again, in my own garden every plant in several rows16759of the common bean had many flowers perforated; but I found three plants16760in separate parts of the garden which had sprung up accidentally, and16761these had not a single flower perforated. General Strachey formerly saw16762many perforated flowers in a garden in the Himalaya, and he wrote to the16763owner to inquire whether this relation between the plants growing16764crowded and their perforation by the bees there held good, and was16765answered in the affirmative. Hence it follows that the red clover16766(Trifolium pratense) and the common bean when cultivated in great masses16767in fields,--that Erica tetralix growing in large numbers on16768heaths,--rows of the scarlet kidney-bean in the kitchen-garden,--and16769masses of any species in the flower-garden,--are all eminently liable to16770be perforated.1677116772The explanation of this fact is not difficult. Flowers growing in large16773numbers afford a rich booty to the bees, and are conspicuous from a16774distance. They are consequently visited by crowds of these insects, and16775I once counted between twenty and thirty bees flying about a bed of16776Pentstemon. They are thus stimulated to work quickly by rivalry, and,16777what is much more important, they find a large proportion of the16778flowers, as suggested by my son, with their nectaries sucked dry.16779(11/19. 'Nature' January 8, 1874 page 189.) They thus waste much time in16780searching many empty flowers, and are led to bite the holes, so as to16781find out as quickly as possible whether there is any nectar present, and16782if so, to obtain it.1678316784Flowers which are partially or wholly sterile unless visited by insects16785in the proper manner, such as those of most species of Salvia, of16786Trifolium pratense, Phaseolus multiflorus, etc., will fail more or less16787completely to produce seeds if the bees confine their visits to the16788perforations. The perforated flowers of those species, which are capable16789of fertilising themselves, will yield only self-fertilised seeds, and16790the seedlings will in consequence be less vigorous. Therefore all plants16791must suffer in some degree when bees obtain their nectar in a felonious16792manner by biting holes through the corolla; and many species, it might16793be thought, would thus be exterminated. But here, as is so general16794throughout nature, there is a tendency towards a restored equilibrium.16795If a plant suffers from being perforated, fewer individuals will be16796reared, and if its nectar is highly important to the bees, these in16797their turn will suffer and decrease in number; but, what is much more16798effective, as soon as the plant becomes somewhat rare so as not to grow16799in crowded masses, the bees will no longer be stimulated to gnaw holes16800in the flowers, but will enter them in a legitimate manner. More seed16801will then be produced, and the seedlings being the product of16802cross-fertilisation will be vigorous, so that the species will tend to16803increase in number, to be again checked, as soon as the plant again16804grows in crowded masses.16805168061680716808CHAPTER XII.1680916810GENERAL RESULTS.1681116812Cross-fertilisation proved to be beneficial, and self-fertilisation16813injurious.16814Allied species differ greatly in the means by which cross-fertilisation16815is favoured and self-fertilisation avoided.16816The benefits and evils of the two processes depend on the degree of16817differentiation in the sexual elements.16818The evil effects not due to the combination of morbid tendencies in the16819parents.16820Nature of the conditions to which plants are subjected when growing near16821together in a state of nature or under culture, and the effects of such16822conditions.16823Theoretical considerations with respect to the interaction of16824differentiated sexual elements.16825Practical lessons.16826Genesis of the two sexes.16827Close correspondence between the effects of cross-fertilisation and16828self-fertilisation, and of the legitimate and illegitimate unions of16829heterostyled plants, in comparison with hybrid unions.1683016831The first and most important of the conclusions which may be drawn from16832the observations given in this volume, is that cross-fertilisation is16833generally beneficial, and self-fertilisation injurious. This is shown by16834the difference in height, weight, constitutional vigour, and fertility16835of the offspring from crossed and self-fertilised flowers, and in the16836number of seeds produced by the parent-plants. With respect to the16837second of these two propositions, namely, that self-fertilisation is16838generally injurious, we have abundant evidence. The structure of the16839flowers in such plants as Lobelia ramosa, Digitalis purpurea, etc.,16840renders the aid of insects almost indispensable for their fertilisation;16841and bearing in mind the prepotency of pollen from a distinct individual16842over that from the same individual, such plants will almost certainly16843have been crossed during many or all previous generations. So it must16844be, owing merely to the prepotency of foreign pollen, with cabbages and16845various other plants, the varieties of which almost invariably16846intercross when grown together. The same inference may be drawn still16847more surely with respect to those plants, such as Reseda and16848Eschscholtzia, which are sterile with their own pollen, but fertile with16849that from any other individual. These several plants must therefore have16850been crossed during a long series of previous generations, and the16851artificial crosses in my experiments cannot have increased the vigour of16852the offspring beyond that of their progenitors. Therefore the difference16853between the self-fertilised and crossed plants raised by me cannot be16854attributed to the superiority of the crossed, but to the inferiority of16855the self-fertilised seedlings, due to the injurious effects of16856self-fertilisation.1685716858With respect to the first proposition, namely, that cross-fertilisation16859is generally beneficial, we likewise have excellent evidence. Plants of16860Ipomoea were intercrossed for nine successive generations; they were16861then again intercrossed, and at the same time crossed with a plant of a16862fresh stock, that is, one brought from another garden; and the offspring16863of this latter cross were to the intercrossed plants in height as 100 to1686478, and in fertility as 100 to 51. An analogous experiment with16865Eschscholtzia gave a similar result, as far as fertility was concerned.16866In neither of these cases were any of the plants the product of16867self-fertilisation. Plants of Dianthus were self-fertilised for three16868generations, and this no doubt was injurious; but when these plants were16869fertilised by a fresh stock and by intercrossed plants of the same16870stock, there was a great difference in fertility between the two sets of16871seedlings, and some difference in their height. Petunia offers a nearly16872parallel case. With various other plants, the wonderful effects of a16873cross with a fresh stock may be seen in Table 7/C. Several accounts have16874also been published of the extraordinary growth of seedlings from a16875cross between two varieties of the same species, some of which are known16876never to fertilise themselves; so that here neither self-fertilisation16877nor relationship even in a remote degree can have come into play. (12/1.16878See 'Variation under Domestication' chapter 19 2nd edition volume 2 page16879159.) We may therefore conclude that the above two propositions are16880true,--that cross-fertilisation is generally beneficial and16881self-fertilisation injurious to the offspring.1688216883That certain plants, for instance, Viola tricolor, Digitalis purpurea,16884Sarothamnus scoparius, Cyclamen persicum, etc., which have been16885naturally cross-fertilised for many or all previous generations, should16886suffer to an extreme degree from a single act of self-fertilisation is a16887most surprising fact. Nothing of the kkind has been observed in our16888domestic animals; but then we must remember that the closest possible16889interbreeding with such animals, that is, between brothers and sisters,16890cannot be considered as nearly so close a union as that between the16891pollen and ovules of the same flower. Whether the evil from16892self-fertilisation goes on increasing during successive generations is16893not as yet known; but we may infer from my experiments that the increase16894if any is far from rapid. After plants have been propagated by16895self-fertilisation for several generations, a single cross with a fresh16896stock restores their pristine vigour; and we have a strictly analogous16897result with our domestic animals. (12/2. Ibid chapter 19 2nd edition16898volume 2 page 159.) The good effects of cross-fertilisation are16899transmitted by plants to the next generation; and judging from the16900varieties of the common pea, to many succeeding generations. But this16901may merely be that crossed plants of the first generation are extremely16902vigorous, and transmit their vigour, like any other character, to their16903successors.1690416905Notwithstanding the evil which many plants suffer from16906self-fertilisation, they can be thus propagated under favourable16907conditions for many generations, as shown by some of my experiments, and16908more especially by the survival during at least half a century of the16909same varieties of the common pea and sweet-pea. The same conclusion16910probably holds good with several other exotic plants, which are never or16911most rarely cross-fertilised in this country. But all these plants, as16912far as they have been tried, profit greatly by a cross with a fresh16913stock. Some few plants, for instance, Ophrys apifera, have almost16914certainly been propagated in a state of nature for thousands of16915generations without having been once intercrossed; and whether they16916would profit by a cross with a fresh stock is not known. But such cases16917ought not to make us doubt that as a general rule crossing is16918beneficial, any more than the existence of plants which, in a state of16919nature, are propagated exclusively by rhizomes, stolons, etc. (their16920flowers never producing seeds), (12/3. I have given several cases in my16921'Variation under Domestication' chapter 18 2nd edition volume 2 page16922152.) (their flowers never producing seeds), should make us doubt that16923seminal generation must have some great advantage, as it is the common16924plan followed by nature. Whether any species has been reproduced16925asexually from a very remote period cannot, of course, be ascertained.16926Our sole means for forming any judgment on this head is the duration of16927the varieties of our fruit trees which have been long propagated by16928grafts or buds. Andrew Knight formerly maintained that under these16929circumstances they always become weakly, but this conclusion has been16930warmly disputed by others. A recent and competent judge, Professor Asa16931Gray, leans to the side of Andrew Knight, which seems to me, from such16932evidence as I have been able to collect, the more probable view,16933notwithstanding many opposed facts. (12/4. 'Darwiniana: Essays and16934Reviews pertaining to Darwinism' 1876 page 338.)1693516936The means for favouring cross-fertilisation and preventing16937self-fertilisation, or conversely for favouring self-fertilisation and16938preventing to a certain extent cross-fertilisation, are wonderfully16939diversified; and it is remarkable that these differ widely in closely16940allied plants,--in the species of the same genus, and sometimes in the16941individuals of the same species. (12/5. Hildebrand has insisted strongly16942to this effect in his valuable observations on the fertilisation of the16943Gramineae: 'Monatsbericht K. Akad. Berlin' October 1872 page 763.) It is16944not rare to find hermaphrodite plants and others with separated sexes16945within the same genus; and it is common to find some of the species16946dichogamous and others maturing their sexual elements simultaneously.16947The dichogamous genus Saxifraga contains proterandrous and proterogynous16948species. (12/6. Dr. Engler 'Botanische Zeitung' 1868 page 833.) Several16949genera include both heterostyled (dimorphic or trimorphic forms) and16950homostyled species. Ophrys offers a remarkable instance of one species16951having its structure manifestly adapted for self-fertilisation, and16952other species as manifestly adapted for cross-fertilisation. Some16953con-generic species are quite sterile and others quite fertile with16954their own pollen. From these several causes we often find within the16955same genus species which do not produce seeds, while others produce an16956abundance, when insects are excluded. Some species bear cleistogene16957flowers which cannot be crossed, as well as perfect flowers, whilst16958others in the same genus never produce cleistogene flowers. Some species16959exist under two forms, the one bearing conspicuous flowers adapted for16960cross-fertilisation, the other bearing inconspicuous flowers adapted for16961self-fertilisation, whilst other species in the same genus present only16962a single form. Even with the individuals of the same species, the degree16963of self-sterility varies greatly, as in Reseda. With polygamous plants,16964the distribution of the sexes differs in the individuals of the same16965species. The relative period at which the sexual elements in the same16966flower are mature, differs in the varieties of Pelargonium; and Carriere16967gives several cases, showing that the period varies according to the16968temperature to which the plants are exposed. (12/7. 'Des Varieties' 186516969page 30.)1697016971This extraordinary diversity in the means for favouring or preventing16972cross- and self-fertilisation in closely allied forms, probably depends16973on the results of both processes being highly beneficial to the species,16974but directly opposed in many ways to one another and dependent on16975variable conditions. Self-fertilisation assures the production of a16976large supply of seeds; and the necessity or advantage of this will be16977determined by the average length of life of the plant, which largely16978depends on the amount of destruction suffered by the seeds and16979seedlings. This destruction follows from the most various and variable16980causes, such as the presence of animals of several kinds, and the growth16981of surrounding plants. The possibility of cross-fertilisation depends16982mainly on the presence and number of certain insects, often of insects16983belonging to special groups, and on the degree to which they are16984attracted to the flowers of any particular species in preference to16985other flowers,--all circumstances likely to change. Moreover, the16986advantages which follow from cross-fertilisation differ much in16987different plants, so that it is probable that allied plants would often16988profit in different degrees by cross-fertilisation. Under these16989extremely complex and fluctuating conditions, with two somewhat opposed16990ends to be gained, namely, the safe propagation of the species and the16991production of cross-fertilised, vigorous offspring, it is not surprising16992that allied forms should exhibit an extreme diversity in the means which16993favour either end. If, as there is reason to suspect, self-fertilisation16994is in some respects beneficial, although more than counterbalanced by16995the advantages derived from a cross with a fresh stock, the problem16996becomes still more complicated.1699716998As I only twice experimented on more than a single species in a genus, I16999cannot say whether the crossed offspring of the several species within17000the same genus differ in their degree of superiority over their17001self-fertilised brethren; but I should expect that this would often17002prove to be the case from what was observed with the two species of17003Lobelia and with the individuals of the same species of Nicotiana. The17004species belonging to distinct genera in the same family certainly differ17005in this respect. The effects of cross- and self-fertilisation may be17006confined either to the growth or to the fertility of the offspring, but17007generally extends to both qualities. There does not seem to exist any17008close correspondence between the degree to which their offspring profit17009by this process; but we may easily err on this head, as there are two17010means for ensuring cross-fertilisation which are not externally17011perceptible, namely, self-sterility and the prepotent fertilising17012influence of pollen from another individual. Lastly, it has been shown17013in a former chapter that the effect produced by cross and17014self-fertilisation on the fertility of the parent-plants does not always17015correspond with that produced on the height, vigour, and fertility of17016their offspring. The same remark applies to crossed and self-fertilised17017seedlings when these are used as the parent-plants. This want of17018correspondence probably depends, at least in part, on the number of17019seeds produced being chiefly determined by the number of the17020pollen-tubes which reach the ovules, and this will be governed by the17021reaction between the pollen and the stigmatic secretion or tissues;17022whereas the growth and constitutional vigour of the offspring will be17023chiefly determined, not only by the number of pollen-tubes reaching the17024ovules, but by the nature of the reaction between the contents of the17025pollen-grains and ovules.1702617027There are two other important conclusions which may be deduced from my17028observations: firstly, that the advantages of cross-fertilisation do not17029follow from some mysterious virtue in the mere union of two distinct17030individuals, but from such individuals having been subjected during17031previous generations to different conditions, or to their having varied17032in a manner commonly called spontaneous, so that in either case their17033sexual elements have been in some degree differentiated. And secondly,17034that the injury from self-fertilisation follows from the want of such17035differentiation in the sexual elements. These two propositions are fully17036established by my experiments. Thus, when plants of the Ipomoea and of17037the Mimulus, which had been self-fertilised for the seven previous17038generations and had been kept all the time under the same conditions,17039were intercrossed one with another, the offspring did not profit in the17040least by the cross. Mimulus offers another instructive case, showing17041that the benefit of a cross depends on the previous treatment of the17042progenitors: plants which had been self-fertilised for the eight17043previous generations were crossed with plants which had been17044intercrossed for the same number of generations, all having been kept17045under the same conditions as far as possible; seedlings from this cross17046were grown in competition with others derived from the same17047self-fertilised mother-plant crossed by a fresh stock; and the latter17048seedlings were to the former in height as 100 to 52, and in fertility as17049100 to 4. An exactly parallel experiment was tried on Dianthus, with17050this difference, that the plants had been self-fertilised only for the17051three previous generations, and the result was similar though not so17052strongly marked. The foregoing two cases of the offspring of Ipomoea and17053Eschscholtzia, derived from a cross with a fresh stock, being as much17054superior to the intercrossed plants of the old stock, as these latter17055were to the self-fertilised offspring, strongly supports the same17056conclusion. A cross with a fresh stock or with another variety seems to17057be always highly beneficial, whether or not the mother-plants have been17058intercrossed or self-fertilised for several previous generations. The17059fact that a cross between two flowers on the same plant does no good or17060very little good, is likewise a strong corroboration of our conclusion;17061for the sexual elements in the flowers on the same plant can rarely have17062been differentiated, though this is possible, as flower-buds are in one17063sense distinct individuals, sometimes varying and differing from one17064another in structure or constitution. Thus the proposition that the17065benefit from cross-fertilisation depends on the plants which are crossed17066having been subjected during previous generations to somewhat different17067conditions, or to their having varied from some unknown cause as if they17068had been thus subjected, is securely fortified on all sides.1706917070Before proceeding any further, the view which has been maintained by17071several physiologists must be noticed, namely, that all the evils from17072breeding animals too closely, and no doubt, as they would say, from the17073self-fertilisation of plants, is the result of the increase of some17074morbid tendency or weakness of constitution common to the closely17075related parents, or to the two sexes of hermaphrodite plants.17076Undoubtedly injury has often thus resulted; but it is a vain attempt to17077extend this view to the numerous cases given in my Tables. It should be17078remembered that the same mother-plant was both self-fertilised and17079crossed, so that if she had been unhealthy she would have transmitted17080half her morbid tendencies to her crossed offspring. But plants17081appearing perfectly healthy, some of them growing wild, or the immediate17082offspring of wild plants, or vigorous common garden-plants, were17083selected for experiment. Considering the number of species which were17084tried, it is nothing less than absurd to suppose that in all these cases17085the mother-plants, though not appearing in any way diseased, were weak17086or unhealthy in so peculiar a manner that their self-fertilised17087seedlings, many hundreds in number, were rendered inferior in height,17088weight, constitutional vigour and fertility to their crossed offspring.17089Moreover, this belief cannot be extended to the strongly marked17090advantages which invariably follow, as far as my experience serves, from17091intercrossing the individuals of the same variety or of distinct17092varieties, if these have been subjected during some generations to17093different conditions.1709417095It is obvious that the exposure of two sets of plants during several17096generations to different conditions can lead to no beneficial results,17097as far as crossing is concerned, unless their sexual elements are thus17098affected. That every organism is acted on to a certain extent by a17099change in its environment, will not, I presume, be disputed. It is17100hardly necessary to advance evidence on this head; we can perceive the17101difference between individual plants of the same species which have17102grown in somewhat more shady or sunny, dry or damp places. Plants which17103have been propagated for some generations under different climates or at17104different seasons of the year transmit different constitutions to their17105seedlings. Under such circumstances, the chemical constitution of their17106fluids and the nature of their tissues are often modified. (12/8.17107Numerous cases together with references are given in my 'Variation under17108Domestication' chapter 23 2nd edition volume 2 page 264. With respect to17109animals, Mr. Brackenridge 'A Contribution to the Theory of Diathesis'17110Edinburgh 1869, has well shown that the different organs of animals are17111excited into different degrees of activity by differences of temperature17112and food, and become to a certain extent adapted to them.) Many other17113such facts could be adduced. In short, every alteration in the function17114of a part is probably connected with some corresponding, though often17115quite imperceptible change in structure or composition.1711617117Whatever affects an organism in any way, likewise tends to act on its17118sexual elements. We see this in the inheritance of newly acquired17119modifications, such as those from the increased use or disuse of a part,17120and even from mutilations if followed by disease. (12/9. 'Variation17121under Domestication' chapter 12 2nd edition volume 1 page 466.) We have17122abundant evidence how susceptible the reproductive system is to changed17123conditions, in the many instances of animals rendered sterile by17124confinement; so that they will not unite, or if they unite do not17125produce offspring, though the confinement may be far from close; and of17126plants rendered sterile by cultivation. But hardly any cases afford more17127striking evidence how powerfully a change in the conditions of life acts17128on the sexual elements, than those already given, of plants which are17129completely self-sterile in one country, and when brought to another,17130yield, even in the first generation, a fair supply of self-fertilised17131seeds.1713217133But it may be said, granting that changed conditions act on the sexual17134elements, how can two or more plants growing close together, either in17135their native country or in a garden, be differently acted on, inasmuch17136as they appear to be exposed to exactly the same conditions? Although17137this question has been already considered, it deserves further17138consideration under several points of view. In my experiments with17139Digitalis purpurea, some flowers on a wild plant were self-fertilised,17140and others were crossed with pollen from another plant growing within17141two or three feet's distance. The crossed and self-fertilised plants17142raised from the seeds thus obtained, produced flower-stems in number as17143100 to 47, and in average height as 100 to 70. Therefore the cross17144between these two plants was highly beneficial; but how could their17145sexual elements have been differentiated by exposure to different17146conditions? If the progenitors of the two plants had lived on the same17147spot during the last score of generations, and had never been crossed17148with any plant beyond the distance of a few feet, in all probability17149their offspring would have been reduced to the same state as some of the17150plants in my experiments,--such as the intercrossed plants of the ninth17151generation of Ipomoea,--or the self-fertilised plants of the eighth17152generation of Mimulus,--or the offspring from flowers on the same17153plant,--and in this case a cross between the two plants of Digitalis17154would have done no good. But seeds are often widely dispersed by natural17155means, and one of the above two plants or one of their ancestors may17156have come from a distance, from a more shady or sunny, dry or moist17157place, or from a different kind of soil containing other organic or17158inorganic matter. We know from the admirable researches of Messrs. Lawes17159and Gilbert that different plants require and consume very different17160amounts of inorganic matter. (12/10. 'Journal of the Royal Agricultural17161Society of England' volume 24 part 1.) But the amount in the soil would17162probably not make so great a difference to the several individuals of17163any particular species as might at first be expected; for the17164surrounding species with different requirements would tend, from17165existing in greater or lesser numbers, to keep each species in a sort of17166equilibrium, with respect to what it could obtain from the soil. So it17167would be even with respect to moisture during dry seasons; and how17168powerful is the influence of a little more or less moisture in the soil17169on the presence and distribution of plants, is often well shown in old17170pasture fields which still retain traces of former ridges and furrows.17171Nevertheless, as the proportional numbers of the surrounding plants in17172two neighbouring places is rarely exactly the same, the individuals of17173the same species will be subjected to somewhat different conditions with17174respect to what they can absorb from the soil. It is surprising how the17175free growth of one set of plants affects others growing mingled with17176them; I allowed the plants on rather more than a square yard of turf17177which had been closely mown for several years, to grow up; and nine17178species out of twenty were thus exterminated; but whether this was17179altogether due to the kinds which grew up robbing the others of17180nutriment, I do not know.1718117182Seeds often lie dormant for several years in the ground, and germinate17183when brought near the surface by any means, as by burrowing animals.17184They would probably be affected by the mere circumstance of having long17185lain dormant; for gardeners believe that the production of double17186flowers and of fruit is thus influenced. Seeds, moreover, which were17187matured during different seasons, will have been subjected during the17188whole course of their development to different degrees of heat and17189moisture.1719017191It was shown in the last chapter that pollen is often carried by insects17192to a considerable distance from plant to plant. Therefore one of the17193parents or ancestors of our two plants of Digitalis may have been17194crossed by a distant plant growing under somewhat different conditions.17195Plants thus crossed often produce an unusually large number of seeds; a17196striking instance of this fact is afforded by the Bignonia, previously17197mentioned, which was fertilised by Fritz Muller with pollen from some17198adjoining plants and set hardly any seed, but when fertilised with17199pollen from a distant plant, was highly fertile. Seedlings from a cross17200of this kind grow with great vigour, and transmit their vigour to their17201descendants. These, therefore, in the struggle for life, will generally17202beat and exterminate the seedlings from plants which have long grown17203near together under the same conditions, and will thus tend to spread.1720417205When two varieties which present well-marked differences are crossed,17206their descendants in the later generations differ greatly from one17207another in external characters; and this is due to the augmentation or17208obliteration of some of these characters, and to the reappearance of17209former ones through reversion; and so it will be, as we may feel almost17210sure, with any slight differences in the constitution of their sexual17211elements. Anyhow, my experiments indicate that crossing plants which17212have been long subjected to almost though not quite the same conditions,17213is the most powerful of all the means for retaining some degree of17214differentiation in the sexual elements, as shown by the superiority in17215the later generations of the intercrossed over the self-fertilised17216seedlings. Nevertheless, the continued intercrossing of plants thus17217treated does tend to obliterate such differentiation, as may be inferred17218from the lessened benefit derived from intercrossing such plants, in17219comparison with that from a cross with a fresh stock. It seems probable,17220as I may add, that seeds have acquired their endless curious adaptations17221for wide dissemination, not only that the seedlings would thus be17222enabled to find new and fitting homes, but that the individuals which17223have been long subjected to the same conditions should occasionally17224intercross with a fresh stock. (12/11. See Professor Hildebrand's17225excellent treatise 'Verbreitungsmittel der Pflanzen' 1873.)1722617227From the foregoing several considerations we may, I think, conclude that17228in the above case of the Digitalis, and even in that of plants which17229have grown for thousands of generations in the same district, as must17230often have occurred with species having a much restricted range, we are17231apt to over-estimate the degree to which the individuals have been17232subjected to absolutely the same conditions. There is at least no17233difficulty in believing that such plants have been subjected to17234sufficiently distinct conditions to differentiate their sexual elements;17235for we know that a plant propagated for some generations in another17236garden in the same district serves as a fresh stock and has high17237fertilising powers. The curious cases of plants which can fertilise and17238be fertilised by any other individual of the same species, but are17239altogether sterile with their own pollen, become intelligible, if the17240view here propounded is correct, namely, that the individuals of the17241same species growing in a state of nature near together, have not really17242been subjected during several previous generations to quite the same17243conditions.1724417245Some naturalists assume that there is an innate tendency in all beings17246to vary and to advance in organisation, independently of external17247agencies; and they would, I presume, thus explain the slight differences17248which distinguish all the individuals of the same species both in17249external characters and in constitution, as well as the greater17250differences in both respects between nearly allied varieties. No two17251individuals can be found quite alike; thus if we sow a number of seeds17252from the same capsule under as nearly as possible the same conditions,17253they germinate at different rates and grow more or less vigorously. They17254resist cold and other unfavourable conditions differently. They would in17255all probability, as we know to be the case with animals of the same17256species, be somewhat differently acted on by the same poison, or by the17257same disease. They have different powers of transmitting their17258characters to their offspring; and many analogous facts could be given.17259(12/12. Vilmorin as quoted by Verlot 'Des Varieties' pages 32, 38, 39.)17260Now, if it were true that plants growing near together in a state of17261nature had been subjected during many previous generations to absolutely17262the same conditions, such differences as those just specified would be17263quite inexplicable; but they are to a certain extent intelligible in17264accordance with the views just advanced.1726517266As most of the plants on which I experimented were grown in my garden or17267in pots under glass, a few words must be added on the conditions to17268which they were exposed, as well as on the effects of cultivation. When17269a species is first brought under culture, it may or may not be subjected17270to a change of climate, but it is always grown in ground broken up, and17271more or less manured; it is also saved from competition with other17272plants. The paramount importance of this latter circumstance is proved17273by the multitude of species which flourish and multiply in a garden, but17274cannot exist unless they are protected from other plants. When thus17275saved from competition they are able to get whatever they require from17276the soil, probably often in excess; and they are thus subjected to a17277great change of conditions. It is probably in chief part owing to this17278cause that all plants with rare exceptions vary after being cultivated17279for some generations. The individuals which have already begun to vary17280will intercross one with another by the aid of insects; and this17281accounts for the extreme diversity of character which many of our long17282cultivated plants exhibit. But it should be observed that the result17283will be largely determined by the degree of their variability and by the17284frequency of the intercrosses; for if a plant varies very little, like17285most species in a state of nature, frequent intercrosses tend to give17286uniformity of character to it.1728717288I have attempted to show that with plants growing naturally in the same17289district, except in the unusual case of each individual being surrounded17290by exactly the same proportional numbers of other species having certain17291powers of absorption, each will be subjected to slightly different17292conditions. This does not apply to the individuals of the same species17293when cultivated in cleared ground in the same garden. But if their17294flowers are visited by insects, they will intercross; and this will give17295to their sexual elements during a considerable number of generations a17296sufficient amount of differentiation for a cross to be beneficial.17297Moreover, seeds are frequently exchanged or procured from other gardens17298having a different kind of soil; and the individuals of the same17299cultivated species will thus be subjected to a change of conditions. If17300the flowers are not visited by our native insects, or very rarely so, as17301in the case of the common and sweet pea, and apparently in that of the17302tobacco when kept in a hothouse, any differentiation in the sexual17303elements caused by intercrosses will tend to disappear. This appears to17304have occurred with the plants just mentioned, for they were not17305benefited by being crossed one with another, though they were greatly17306benefited by a cross with a fresh stock.1730717308I have been led to the views just advanced with respect to the causes of17309the differentiation of the sexual elements and of the variability of our17310garden plants, by the results of my various experiments, and more17311especially by the four cases in which extremely inconstant species,17312after having been self-fertilised and grown under closely similar17313conditions for several generations, produced flowers of a uniform and17314constant tint. These conditions were nearly the same as those to which17315plants, growing in a garden clear of weeds, are subjected, if they are17316propagated by self-fertilised seeds on the same spot. The plants in pots17317were, however, exposed to less severe fluctuations of climate than those17318out of doors; but their conditions, though closely uniform for all the17319individuals of the same generation, differed somewhat in the successive17320generations. Now, under these circumstances, the sexual elements of the17321plants which were intercrossed in each generation retained sufficient17322differentiation during several years for their offspring to be superior17323to the self-fertilised, but this superiority gradually and manifestly17324decreased, as was shown by the difference in the result between a cross17325with one of the intercrossed plants and with a fresh stock. These17326intercrossed plants tended also in a few cases to become somewhat more17327uniform in some of their external characters than they were at first.17328With respect to the plants which were self-fertilised in each17329generation, their sexual elements apparently lost, after some years, all17330differentiation, for a cross between them did no more good than a cross17331between the flowers on the same plant. But it is a still more remarkable17332fact, that although the seedlings of Mimulus, Ipomoea, Dianthus, and17333Petunia which were first raised, varied excessively in the colour of17334their flowers, their offspring, after being self-fertilised and grown17335under uniform conditions for some generations, bore flowers almost as17336uniform in tint as those on a natural species. In one case also the17337plants themselves became remarkably uniform in height.1733817339The conclusion that the advantages of a cross depend altogether on the17340differentiation of the sexual elements, harmonises perfectly with the17341fact that an occasional and slight change in the conditions of life is17342beneficial to all plants and animals. (12/13. I have given sufficient17343evidence on this head in my 'Variation under Domestication' chapter 1817344volume 2 2nd edition page 127.) But the offspring from a cross between17345organisms which have been exposed to different conditions, profit in an17346incomparably higher degree than do young or old beings from a mere17347change in the conditions. In this latter case we never see anything like17348the effect which generally follows from a cross with another individual,17349especially from a cross with a fresh stock. This might, perhaps, have17350been expected, for the blending together of the sexual elements of two17351differentiated beings will affect the whole constitution at a very early17352period of life, whilst the organisation is highly flexible. We have,17353moreover, reason to believe that changed conditions generally act17354differently on the several parts or organs of the same individual17355(12/14. See, for instance, Brackenridge 'Theory of Diathesis' Edinburgh173561869.); and if we may further believe that these now slightly17357differentiated parts react on one another, the harmony between the17358beneficial effects on the individual due to changed conditions, and17359those due to the interaction of differentiated sexual elements, becomes17360still closer.1736117362That wonderfully accurate observer, Sprengel, who first showed how17363important a part insects play in the fertilisation of flowers, called17364his book 'The Secret of Nature Displayed;' yet he only occasionally saw17365that the object for which so many curious and beautiful adaptations have17366been acquired, was the cross-fertilisation of distinct plants; and he17367knew nothing of the benefits which the offspring thus receive in growth,17368vigour, and fertility. But the veil of secrecy is as yet far from17369lifted; nor will it be, until we can say why it is beneficial that the17370sexual elements should be differentiated to a certain extent, and why,17371if the differentiation be carried still further, injury follows. It is17372an extraordinary fact that with many species, flowers fertilised with17373their own pollen are either absolutely or in some degree sterile; if17374fertilised with pollen from another flower on the same plant, they are17375sometimes, though rarely, a little more fertile; if fertilised with17376pollen from another individual or variety of the same species, they are17377fully fertile; but if with pollen from a distinct species, they are17378sterile in all possible degrees, until utter sterility is reached. We17379thus have a long series with absolute sterility at the two ends;--at one17380end due to the sexual elements not having been sufficiently17381differentiated, and at the other end to their having been differentiated17382in too great a degree, or in some peculiar manner.1738317384The fertilisation of one of the higher plants depends, in the first17385place, on the mutual action of the pollen-grains and the stigmatic17386secretion or tissues, and afterwards on the mutual action of the17387contents of the pollen-grains and ovules. Both actions, judging from the17388increased fertility of the parent-plants and from the increased powers17389of growth in the offspring, are favoured by some degree of17390differentiation in the elements which interact and unite so as to form a17391new being. Here we have some analogy with chemical affinity or17392attraction, which comes into play only between atoms or molecules of a17393different nature. As Professor Miller remarks: "Generally speaking, the17394greater the difference in the properties of two bodies, the more intense17395is their tendency to mutual chemical action...But between bodies of a17396similar character the tendency to unite is feeble." (12/15. 'Elements of17397Chemistry' 4th edition 1867 part 1 page 11. Dr. Frankland informs me17398that similar views with respect to chemical affinity are generally17399accepted by chemists.) This latter proposition accords well with the17400feeble effects of a plant's own pollen on the fertility of the17401mother-plant and on the growth of the offspring; and the former17402proposition accords well with the powerful influence in both ways of17403pollen from an individual which has been differentiated by exposure to17404changed conditions, or by so-called spontaneous variation. But the17405analogy fails when we turn to the negative or weak effects of pollen17406from one species on a distinct species; for although some substances17407which are extremely dissimilar, for instance, carbon and chlorine, have17408a very feeble affinity for each other, yet it cannot be said that the17409weakness of the affinity depends in such cases on the extent to which17410the substances differ. It is not known why a certain amount of17411differentiation is necessary or favourable for the chemical affinity or17412union of two substances, any more than for the fertilisation or union of17413two organisms.1741417415Mr. Herbert Spencer has discussed this whole subject at great length,17416and after stating that all the forces throughout nature tend towards an17417equilibrium, remarks, "that the need of this union of sperm-cell and17418germ-ccell is the need for overthrowing this equilibrium and17419re-establishing active molecular change in the detached germ--a result17420which is probably effected by mixing the slightly-different17421physiological units of slightly-different individuals." (12/16.17422'Principles of Biology' volume 1 page 274 1864. In my 'Origin of17423Species' published in 1859, I spoke of the good effects from slight17424changes in the condition of life and from cross-fertilisation, and of17425the evil effects from great changes in the conditions and from crossing17426widely distinct forms (i.e., species), as a series of facts "connected17427together by some common but unknown bond, which is essentially related17428to the principle of life.") But we must not allow this highly17429generalised view, or the analogy of chemical affinity, to conceal from17430us our ignorance. We do not know what is the nature or degree of the17431differentiation in the sexual elements which is favourable for union,17432and what is injurious for union, as in the case of distinct species. We17433cannot say why the individuals of certain species profit greatly, and17434others very little by being crossed. There are some few species which17435have been self-fertilised for a vast number of generations, and yet are17436vigorous enough to compete successfully with a host of surrounding17437plants. We can form no conception why the advantage from a cross is17438sometimes directed exclusively to the vegetative system, and sometimes17439to the reproductive system, but commonly to both. It is equally17440inconceivable why some individuals of the same species should be17441sterile, whilst others are fully fertile with their own pollen; why a17442change of climate should either lessen or increase the sterility of17443self-sterile species; and why the individuals of some species should be17444even more fertile with pollen from a distinct species than with their17445own pollen. And so it is with many other facts, which are so obscure17446that we stand in awe before the mystery of life.1744717448Under a practical point of view, agriculturists and horticulturists may17449learn something from the conclusions at which we have arrived. Firstly,17450we see that the injury from the close breeding of animals and from the17451self-fertilisation of plants, does not necessarily depend on any17452tendency to disease or weakness of constitution common to the related17453parents, and only indirectly on their relationship, in so far as they17454are apt to resemble each other in all respects, including their sexual17455nature. And, secondly, that the advantages of cross-fertilisation depend17456on the sexual elements of the parents having become in some degree17457differentiated by the exposure of their progenitors to different17458conditions, or from their having intercrossed with individuals thus17459exposed, or, lastly, from what we call in our ignorance spontaneous17460variation. He therefore who wishes to pair closely related animals ought17461to keep them under conditions as different as possible. Some few17462breeders, guided by their keen powers of observation, have acted on this17463principle, and have kept stocks of the same animals at two or more17464distant and differently situated farms. They have then coupled the17465individuals from these farms with excellent results. (12/17. 'Variation17466of Animals and Plants under Domestication' chapter 17 2nd edition volume174672 pages 98, 105.) This same plan is also unconsciously followed whenever17468the males, reared in one place, are let out for propagation to breeders17469in other places. As some kinds of plants suffer much more from17470self-fertilisation than do others, so it probably is with animals from17471too close interbreeding. The effects of close interbreeding on animals,17472judging again from plants, would be deterioration in general vigour,17473including fertility, with no necessary loss of excellence of form; and17474this seems to be the usual result.1747517476It is a common practice with horticulturists to obtain seeds from17477another place having a very different soil, so as to avoid raising17478plants for a long succession of generations under the same conditions;17479but with all the species which freely intercross by aid of insects or17480the wind, it would be an incomparably better plan to obtain seeds of the17481required variety, which had been raised for some generations under as17482different conditions as possible, and sow them in alternate rows with17483seeds matured in the old garden. The two stocks would then intercross,17484with a thorough blending of their whole organisations, and with no loss17485of purity to the variety; and this would yield far more favourable17486results than a mere exchange of seeds. We have seen in my experiments17487how wonderfully the offspring profited in height, weight, hardiness, and17488fertility, by crosses of this kind. For instance, plants of Ipomoea thus17489crossed were to the intercrossed plants of the same stock, with which17490they grew in competition, as 100 to 78 in height, and as 100 to 51 in17491fertility; and plants of Eschscholtzia similarly compared were as 100 to1749245 in fertility. In comparison with self-fertilised plants the results17493are still more striking; thus cabbages derived from a cross with a fresh17494stock were to the self-fertilised as 100 to 22 in weight.1749517496Florists may learn from the four cases which have been fully described,17497that they have the power of fixing each fleeting variety of colour, if17498they will fertilise the flowers of the desired kind with their own17499pollen for half-a-dozen generations, and grow the seedlings under the17500same conditions. But a cross with any other individual of the same17501variety must be carefully prevented, as each has its own peculiar17502constitution. After a dozen generations of self-fertilisation, it is17503probable that the new variety would remain constant even if grown under17504somewhat different conditions; and there would no longer be any17505necessity to guard against intercrosses between the individuals of the17506same variety.1750717508With respect to mankind, my son George has endeavoured to discover by a17509statistical investigation whether the marriages of first cousins are at17510all injurious, although this is a degree of relationship which would not17511be objected to in our domestic animals; and he has come to the17512conclusion from his own researches and those of Dr. Mitchell that the17513evidence as to any evil thus caused is conflicting, but on the whole17514points to its being very small. From the facts given in this volume we17515may infer that with mankind the marriages of nearly related persons,17516some of whose parents and ancestors had lived under very different17517conditions, would be much less injurious than that of persons who had17518always lived in the same place and followed the same habits of life. Nor17519can I see reason to doubt that the widely different habits of life of17520men and women in civilised nations, especially amongst the upper17521classes, would tend to counterbalance any evil from marriages between17522healthy and somewhat closely related persons.1752317524Under a theoretical point of view it is some gain to science to know17525that numberless structures in hermaphrodite plants, and probably in17526hermaphrodite animals, are special adaptations for securing an17527occasional cross between two individuals; and that the advantages from17528such a cross depend altogether on the beings which are united, or their17529progenitors, having had their sexual elements somewhat differentiated,17530so that the embryo is benefited in the same manner as is a mature plant17531or animal by a slight change in its conditions of life, although in a17532much higher degree.1753317534Another and more important result may be deduced from my observations.17535Eggs and seeds are highly serviceable as a means of dissemination, but17536we now know that fertile eggs can be produced without the aid of the17537male. There are also many other methods by which organisms can be17538propagated asexually. Why then have the two sexes been developed, and17539why do males exist which cannot themselves produce offspring? The answer17540lies, as I can hardly doubt, in the great good which is derived from the17541fusion of two somewhat differentiated individuals; and with the17542exception of the lowest organisms this is possible only by means of the17543sexual elements, these consisting of cells separated from the body,17544containing the germs of every part, and capable of being fused17545completely together.1754617547It has been shown in the present volume that the offspring from the17548union of two distinct individuals, especially if their progenitors have17549been subjected to very different conditions, have an immense advantage17550in height, weight, constitutional vigour and fertility over the17551self-fertilised offspring from one of the same parents. And this fact is17552amply sufficient to account for the development of the sexual elements,17553that is, for the genesis of the two sexes.1755417555It is a different question why the two sexes are sometimes combined in17556the same individual and are sometimes separated. As with many of the17557lowest plants and animals the conjugation of two individuals which are17558either quite similar or in some degree different, is a common17559phenomenon, it seems probable, as remarked in the last chapter, that the17560sexes were primordially separate. The individual which receives the17561contents of the other, may be called the female; and the other, which is17562often smaller and more locomotive, may be called the male; though these17563sexual names ought hardly to be applied as long as the whole contents of17564the two forms are blended into one. The object gained by the two sexes17565becoming united in the same hermaphrodite form probably is to allow of17566occasional or frequent self-fertilisation, so as to ensure the17567propagation of the species, more especially in the case of organisms17568affixed for life to the same spot. There does not seem to be any great17569difficulty in understanding how an organism, formed by the conjugation17570of two individuals which represented the two incipient sexes, might have17571given rise by budding first to a monoecious and then to an hermaphrodite17572form; and in the case of animals even without budding to an17573hermaphrodite form, for the bilateral structure of animals perhaps17574indicates that they were aboriginally formed by the fusion of two17575individuals.1757617577It is a more difficult problem why some plants and apparently all the17578higher animals, after becoming hermaphrodites, have since had their17579sexes re-separated. This separation has been attributed by some17580naturalists to the advantages which follow from a division of17581physiological labour. The principle is intelligible when the same organ17582has to perform at the same time diverse functions; but it is not obvious17583why the male and female glands when placed in different parts of the17584same compound or simple individual, should not perform their functions17585equally well as when placed in two distinct individuals. In some17586instances the sexes may have been re-separated for the sake of17587preventing too frequent self-fertilisation; but this explanation does17588not seem probable, as the same end might have been gained by other and17589simpler means, for instance dichogamy. It may be that the production of17590the male and female reproductive elements and the maturation of the17591ovules was too great a strain and expenditure of vital force for a17592single individual to withstand, if endowed with a highly complex17593organisation; and that at the same time there was no need for all the17594individuals to produce young, and consequently that no injury, on the17595contrary, good resulted from half of them, or the males, failing to17596produce offspring.1759717598There is another subject on which some light is thrown by the facts17599given in this volume, namely, hybridisation. It is notorious that when17600distinct species of plants are crossed, they produce with the rarest17601exceptions fewer seeds than the normal number. This unproductiveness17602varies in different species up to sterility so complete that not even an17603empty capsule is formed; and all experimentalists have found that it is17604much influenced by the conditions to which the crossed species are17605subjected. The pollen of each species is strongly prepotent over that of17606any other species, so that if a plant's own pollen is placed on the17607stigma some time after foreign pollen has been applied to it, any effect17608from the latter is quite obliterated. It is also notorious that not only17609the parent species, but the hybrids raised from them are more or less17610sterile; and that their pollen is often in a more or less aborted17611condition. The degree of sterility of various hybrids does not always17612strictly correspond with the degree of difficulty in uniting the parent17613forms. When hybrids are capable of breeding inter se, their descendants17614are more or less sterile, and they often become still more sterile in17615the later generations; but then close interbreeding has hitherto been17616practised in all such cases. The more sterile hybrids are sometimes much17617dwarfed in stature, and have a feeble constitution. Other facts could be17618given, but these will suffice for us. Naturalists formerly attributed17619all these results to the difference between species being fundamentally17620distinct from that between the varieties of the same species; and this17621is still the verdict of some naturalists.1762217623The results of my experiments in self-fertilising and cross-fertilising17624the individuals or the varieties of the same species, are strikingly17625analogous with those just given, though in a reversed manner. With the17626majority of species flowers fertilised with their own pollen yield17627fewer, sometimes much fewer seeds, than those fertilised with pollen17628from another individual or variety. Some self-fertilised flowers are17629absolutely sterile; but the degree of their sterility is largely17630determined by the conditions to which the parent plants have been17631exposed, as was well exemplified in the case of Eschscholtzia and17632Abutilon. The effects of pollen from the same plant are obliterated by17633the prepotent influence of pollen from another individual or variety,17634although the latter may have been placed on the stigma some hours17635afterwards. The offspring from self-fertilised flowers are themselves17636more or less sterile, sometimes highly sterile, and their pollen is17637sometimes in an imperfect condition; but I have not met with any case of17638complete sterility in self-fertilised seedlings, as is so common with17639hybrids. The degree of their sterility does not correspond with that of17640the parent-plants when first self-fertilised. The offspring of17641self-fertilised plants suffer in stature, weight, and constitutional17642vigour more frequently and in a greater degree than do the hybrid17643offspring of the greater number of crossed species. Decreased height is17644transmitted to the next generation, but I did not ascertain whether this17645applies to decreased fertility.1764617647I have elsewhere shown that by uniting in various ways dimorphic or17648trimorphic heterostyled plants, which belong to the same undoubted17649species, we get another series of results exactly parallel with those17650from crossing distinct species. (12/18. 'Journal of the Linnean Society17651Botany' volume 10 1867 page 393.) Plants illegitimately fertilised with17652pollen from a distinct plant belonging to the same form, yield fewer,17653often much fewer seeds, than they do when legitimately fertilised with17654pollen from a plant belonging to a distinct form. They sometimes yield17655no seed, not even an empty capsule, like a species fertilised with17656pollen from a distinct genus. The degree of sterility is much affected17657by the conditions to which the plants have been subjected. (12/19.17658'Journal of the Linnean Society Botany' volume 8 1864 page 180.) The17659pollen from a distinct form is strongly prepotent over that from the17660same form, although the former may have been placed on the stigma many17661hours afterwards. The offspring from a union between plants of the same17662form are more or less sterile, like hybrids, and have their pollen in a17663more or less aborted condition; and some of the seedlings are as barren17664and as dwarfed as the most barren hybrid. They also resemble hybrids in17665several other respects, which need not here be specified in17666detail,--such as their sterility not corresponding in degree with that17667of the parent plants,--the unequal sterility of the latter, when17668reciprocally united,--and the varying sterility of the seedlings raised17669from the same seed-capsule.1767017671We thus have two grand classes of cases giving results which correspond17672in the most striking manner with those which follow from the crossing of17673so-called true and distinct species. With respect to the difference17674between seedlings raised from cross and self-fertilised flowers, there17675is good evidence that this depends altogether on whether the sexual17676elements of the parents have been sufficiently differentiated, by17677exposure to different conditions or by spontaneous variation. It is17678probable that nearly the same conclusion may be extended to heterostyled17679plants; but this is not the proper place for discussing the origin of17680the long-styled, short-styled and mid-styled forms, which all belong to17681the same species as certainly as do the two sexes of the same species.17682We have therefore no right to maintain that the sterility of species17683when first crossed and of their hybrid offspring, is determined by some17684cause fundamentally different from that which determines the sterility17685of the individuals both of ordinary and of heterostyled plants when17686united in various ways. Nevertheless, I am aware that it will take many17687years to remove this prejudice.1768817689There is hardly anything more wonderful in nature than the sensitiveness17690of the sexual elements to external influences, and the delicacy of their17691affinities. We see this in slight changes in the conditions of life17692being favourable to the fertility and vigour of the parents, while17693certain other and not great changes cause them to be quite sterile17694without any apparent injury to their health. We see how sensitive the17695sexual elements of those plants must be, which are completely sterile17696with their own pollen, but are fertile with that of any other individual17697of the same species. Such plants become either more or less self-sterile17698if subjected to changed conditions, although the change may be far from17699great. The ovules of a heterostyled trimorphic plant are affected very17700differently by pollen from the three sets of stamens belonging to the17701same species. With ordinary plants the pollen of another variety or17702merely of another individual of the same variety is often strongly17703prepotent over its own pollen, when both are placed at the same time on17704the same stigma. In those great families of plants containing many17705thousand allied species, the stigma of each distinguishes with unerring17706certainty its own pollen from that of every other species.1770717708There can be no doubt that the sterility of distinct species when first17709crossed, and of their hybrid offspring, depends exclusively on the17710nature or affinities of their sexual elements. We see this in the want17711of any close correspondence between the degree of sterility and the17712amount of external difference in the species which are crossed; and17713still more clearly in the wide difference in the results of crossing17714reciprocally the same two species;--that is, when species A is crossed17715with pollen from B, and then B is crossed with pollen from A. Bearing in17716mind what has just been said on the extreme sensitiveness and delicate17717affinities of the reproductive system, why should we feel any surprise17718at the sexual elements of those forms, which we call species, having17719been differentiated in such a manner that they are incapable or only17720feebly capable of acting on one another? We know that species have17721generally lived under the same conditions, and have retained their own17722proper characters, for a much longer period than varieties.17723Long-continued domestication eliminates, as I have shown in my17724'Variation under Domestication,' the mutual sterility which distinct17725species lately taken from a state of nature almost always exhibit when17726intercrossed; and we can thus understand the fact that the most17727different domestic races of animals are not mutually sterile. But17728whether this holds good with cultivated varieties of plants is not17729known, though some facts indicate that it does. The elimination of17730sterility through long-continued domestication may probably be17731attributed to the varying conditions to which our domestic animals have17732been subjected; and no doubt it is owing to this same cause that they17733withstand great and sudden changes in their conditions of life with far17734less loss of fertility than do natural species. From these several17735considerations it appears probable that the difference in the affinities17736of the sexual elements of distinct species, on which their mutual17737incapacity for breeding together depends, is caused by their having been17738habituated for a very long period each to its own conditions, and to the17739sexual elements having thus acquired firmly fixed affinities. However17740this may be, with the two great classes of cases before us, namely,17741those relating to the self-fertilisation and cross-fertilisation of the17742individuals of the same species, and those relating to the illegitimate17743and legitimate unions of heterostyled plants, it is quite unjustifiable17744to assume that the sterility of species when first crossed and of their17745hybrid offspring, indicates that they differ in some fundamental manner17746from the varieties or individuals of the same species.17747177481774917750INDEX.1775117752Abutilon darwinii, self-sterile in Brazil.17753moderately self-fertile in England.17754fertilised by birds.1775517756Acacia sphaerocephala.1775717758Acanthaceae.1775917760Aconitum napellus.1776117762Adlumia cirrhosa.1776317764Adonis aestivalis.17765measurements.17766relative heights of crossed and self-fertilised plants.17767self-fertile.1776817769Ajuga reptans.1777017771Allium cepa (blood-red var.)1777217773Anagallis collina (var. grandiflora).17774measurements.17775seeds.1777617777Anderson, J., on the Calceolaria.17778removing the corollas.1777917780Anemone.1778117782Anemophilous plants.17783often diclinous.1778417785Antirrhinum majus (red var.)17786perforated corolla.17787--(white var.).17788--(peloric var.).1778917790Apium petroselinum.17791result of experiments.1779217793Argemone ochroleuca.1779417795Aristolochia.1779617797Aristotle on bees frequenting flowers of the same species.1779817799Arum maculatum.1780017801Bailey, Mr., perforation of corolla.1780217803Bartonia aurea.17804measurements.17805result of experiments.1780617807Bartsia odontites.1780817809Beal, W.J., sterility of Kalmia latifolia.17810on nectar in Ribes aureum.1781117812Bean, the common.1781317814Bees distinguish colours.17815frequent the flowers of the same species.17816guided by coloured corolla.17817powers of vision and discrimination.17818memory.17819unattracted by odour of certain flowers.17820industry.17821profit by the corolla perforated by humble-bees.17822skill in working.17823habit.17824foresight.1782517826Bees, humble, recognise varieties as of one species.17827colour not the sole guide.17828rate of flying.17829number of flowers visited.17830corolla perforated by.17831skill and judgment.1783217833Belt, Mr., the hairs of Digitalis purpurea.17834Phaseolus multiflorus.17835not visited by bees in Nicaragua.17836humming-birds carrying pollen.17837secretion of nectar.17838in Acacia sphaerocephalus and passion-flower.17839perforation of corolla.1784017841Bennett, A.W., on Viola tricolor.17842structure of Impatiens fulva.17843plants flowering in winter.17844bees frequenting flowers of same species.1784517846Bentham, on protection of the stigma in Synaphea.1784717848Beta vulgaris.17849measurements.17850crossed not exceeded by self-fertilised.17851prepotency of other pollen.1785217853Bignonia.1785417855Birds, means of fertilisation.1785617857Blackley, Mr., on anthers of rye.17858pollen carried by wind, experiments with a kite.1785917860Boraginaceae.1786117862Borago officinalis.17863measurements.17864early flowering of crossed.17865seeds.17866partially self-sterile.1786717868Brackenridge, Mr., organism of animals affected by temperature and food.17869different effect of changed conditions.1787017871Brassica oleracea.17872measurements.17873weight.17874remarks on experiments.17875superiority of crossed.17876period of flowering.17877seeds.17878self-fertile.17879--napus.17880--rapa.1788117882Brisout, M., insects frequenting flowers of same species.1788317884Broom.1788517886Brugmansia.17887humming-birds boring the flower.1788817889Bulrush, weight of pollen produced by one plant.1789017891Bundy, Mr., Ribes perforated by bees.1789217893Butschli, O., sexual relations.1789417895Cabbage.17896affected by pollen of purple bastard.17897prepotency of other pollen.17898--, Ragged Jack.1789917900Calceolaria.1790117902Calluna vulgaris.1790317904Campanula carpathica.1790517906Campanulaceae.1790717908Candolle, A. de, on ascending a mountain the flowers of the same species17909disappear abruptly.1791017911Canna warscewiczi.17912result of crossed and self-fertilised.17913period of flowering.17914seeds.17915highly self-fertile.1791617917Cannaceae.1791817919Carduus arctioides.1792017921Carnation.1792217923Carriere, relative period of the maturity of the sexual elements on same17924flower.1792517926Caryophyllaceae.1792717928Caspary, Professor, on Corydalis cava.17929Nymphaeaceae.17930Euryale ferox.1793117932Cecropia, food-bodies of.1793317934Centradenia floribunda.1793517936Cereals, grains of.1793717938Cheeseman, Mr., on Orchids in New Zealand.1793917940Chenopodiaceae.1794117942Cineraria.1794317944Clarkia elegans.17945measurements.17946early flowering of self-fertilised.17947seeds.1794817949Cleistogene flowers.1795017951Coe, Mr., crossing Phaseolus vulgaris.1795217953Colgate, R., red clover never sucked by hive-bees in New Zealand.1795417955Colour, uniform, of flowers on plants self-fertilised and grown under17956similar conditions for several generations.1795717958Colours of flowers attractive to insects.17959not the sole guide to bees.1796017961Compositae.1796217963Coniferae.1796417965Convolvulus major.17966-- tricolor.1796717968Corolla, removal of.17969perforation by bees.1797017971Coronilla.1797217973Corydalis cava.17974-- halleri.17975-- intermedia.17976-- lutea.17977-- ochroleuca.17978-- solida.1797917980Corylus avellana.1798117982Cowslip.1798317984Crinum.1798517986Crossed plants, greater constitutional vigour of.1798717988Cross-fertilisation.17989see Fertilisation.1799017991Crossing flowers on same plant, effects of.1799217993Cruciferae.1799417995Cruger, Dr., secretion of sweet fluid in Marcgraviaceae.1799617997Cuphea purpurea.1799817999Cycadiae.1800018001Cyclamen persicum.18002measurements.18003early flowering of crossed.18004seeds.18005self-sterile.18006-- repandum.1800718008Cytisus laburnum.1800918010Dandelion, number of pollen grains.1801118012Darwin, C., self-fertilisation in Pisum sativum.18013sexual affinities.18014on Primula.18015bud variation.18016constitutional vigour from cross parentage in common pea.18017hybrids of Gladiolus and Cistus.18018Phaseolus multiflorus.18019nectar in Orchids.18020on cross-fertilisation.18021inheritance of acquired modifications.18022change in the conditions of life beneficial to plants and animals.1802318024Darwin, F., structure of Phaseolus multiflorus.18025Pteris aquilina.18026perforation of Lathyrus sylvestris.1802718028Darwin, G., on marriages with first cousins.1802918030Decaisne on Delphinium consolida.1803118032De Candolle, nectar as an excretion.1803318034Delphinium consolida.18035measurements.18036seeds.18037partially sterile.18038corolla removed.1803918040Delpino, Professor, Viola tricolor.18041Phaseolus multiflorus.18042intercrossing of sweet-pea.18043Lobelia ramosa.18044structure of the Cannaceae.18045wind and water carrying pollen.18046Juglans regia.18047anemophilous plants.18048fertilisation of Plantago.18049excretion of nectar.18050secretion of nectar to defend the plant.18051anemophilous and entomophilous plants.18052dioecious plants.1805318054Denny, Pelargonium zonale.1805518056Diagram showing mean height of Ipomoea purpurea.1805718058Dianthus caryophyllus.18059crossed and self-fertilised.18060measurements.18061cross with fresh stock.18062weight of seed.18063colour of flowers.18064remarks on experiments.18065early flowering of crossed.18066uniform colour of self-fertilised.18067seeds.18068few capsules.1806918070Dickie, Dr., self-fertilisation in Cannaceae.1807118072Dictamnus fraxinella.1807318074Digitalis purpurea.18075measurements.18076effects of intercrossing.18077superiority of crossed.18078self-sterile.1807918080Dipsaceae.1808118082Dobbs, bees frequenting flowers of same species.1808318084Dodel, Dr. A., sexual reproduction.1808518086Duhamel on Raphanus sativus.1808718088Dunal, nectar as an excretion.1808918090Dyer, Mr., on Lobelia ramosa.18091on Cineraria.1809218093Earley, W., self-fertilisation of Lathyrus odoratus.1809418095Eaton, Reverend A.E., on Pringlea.1809618097Engelmann, development of sexual forms.1809818099Engler, Dr., on dichogamous Saxifraga.1810018101Entomophilous plants.1810218103Epipactis latifolia, attractive only to wasps.1810418105Erica tetralix.18106perforated corolla.1810718108Erythrina.1810918110Eschscholtzia californica.18111measurements.18112plants raised from Brazilian seed.18113weight.18114seeds.18115experiments on.18116superiority of self-fertilised over crossed.18117early flowering.18118artificially self-fertilised.18119pollen from other flowers more effective.18120self-sterile in Brazil.1812118122Euphrasia officinalis.1812318124Euryale amazonica.18125-- ferox.1812618127Fabricius on Aristolochia.1812818129Fagopyrum esculentum.18130early flowering of crossed plant.1813118132Faivre, Professor, self-fertilisation of Cannaceae.1813318134Farrer, T.H., papilionaceous flowers.18135Lupinus luteus.18136Phaseolus multiflorus.18137Pisum sativum.18138cross-fertilisation of Lobelia ramosa.18139on Coronilla.1814018141Fermond, M., Phaseolus multiflorus.18142Phaseolus coccineus hybridus.1814318144Fertilisation, means of.18145plants sterile, or partially so without insect-aid.18146plants fertile without insect-aid.18147means of cross-fertilisation.18148humming-birds.18149Australian flowers fertilised by honey-sucking birds.18150in New Zealand by the Anthornis melanura.18151attraction of bright colours.18152of odours.18153flowers adapted to certain kinds of insects.18154large amount of pollen-grains.18155transport of pollen by insects.18156structure and conspicuousness of flowers.18157pollen from a distinct plant.18158prepotent pollen.1815918160Fertility, heights and weights, relative, of plants crossed by a fresh18161stock, self-fertilised, or intercrossed (Table 7/C).1816218163Fertility of plants as influenced by cross and self-fertilisation (Table181649/D).18165relative, of crossed and self-fertilised parents (Table 9/E).18166innate, from a cross with fresh stock (Table 9/F).18167relative, of flowers crossed with pollen from a distinct plant and their18168own pollen (Table 9/G).18169of crossed and self-fertilised flowers.1817018171Flowering, period of, superiority of crossed over self-fertilised.1817218173Flowers, white, larger proportion smelling sweetly.18174structure and conspicuousness of.18175conspicuous and inconspicuous.18176papilionaceous.18177fertilised with pollen from a distinct plant.1817818179Forsythia viridissima.1818018181Foxglove.18182Frankland, Dr., chemical affinity.1818318184Fraxinus ornus.1818518186Fumaria capreolata.18187-- officinalis.1818818189Galium aparine.1819018191Gallesio, spontaneous crossing of oranges.1819218193Galton, Mr., Limnanthes douglasii.18194report on the tables of measurements.18195self-fertilised plants.18196superior vigour of crossed seedlings in Lathyrus odoratus.1819718198Gartner, excess of pollen injurious.18199plants fertilising one another at a considerable distance.18200Lobelia fulgens.18201sterility of Verbascum nigrum.18202number of pollen-grains to fertilise Geum urbanum.18203experiments with pollen.1820418205Gentry, Mr., perforation of corolla.1820618207Geraniaceae.1820818209Geranium phaeum.1821018211Gerardia pedicularia.1821218213Germination, period of, and relative weight of seeds from crossed and18214self-fertilised flowers.1821518216Gesneria pendulina.18217measurements.18218seeds.1821918220Gesneriaceae.1822118222Geum urbanum, number of pollen-grains for fertilisation.1822318224Glaucium luteum.1822518226Godron, intercrossing of carrot.18227Primula grandiflora affected by pollen of Primula officinalis.18228tulips.1822918230Gould, humming-birds frequenting Impatiens.1823118232Graminaceae.1823318234Grant, Mr., bees of different hives visiting different kinds of flowers.1823518236Gray, Asa, sexual relations of trees in United States.18237on sexual reproduction.1823818239Hallet, Major, on selection of grains of cereals.1824018241Hassall, Mr., number of pollen-grains in Paeony and Dandelion.18242weight of pollen produced by one plant of Bulrush.1824318244Heartsease.1824518246Hedychium.1824718248Hedysarum onobrychis.1824918250Heights, relative, of crossed and self-fertilised plants (Table 7/A).1825118252Heights, weights, and fertility, summary.1825318254Henschel's experiments with pollen.1825518256Henslow, Reverend G., cross-fertilisation in Sarothamnus scoparius.1825718258Herbert on cross-fertilisation.18259pollen brought from distant plants.18260spontaneous crossing of rhododendrons.1826118262Hero, descendants of the plant.18263its self-fertilisation.1826418265Heterocentron mexicanum.1826618267Hibiscus africanus.18268measurements.18269result of experiments.18270early flowering of crossed plant.18271number of pollen-grains for fertilisation.1827218273Hildebrand on pollen of Digitalis purpurea.18274Thunbergia alata.18275experiments on Eschscholtzia californica.18276Viola tricolor.18277Lobelia ramosa.18278Fagopyrum esculentum.18279self-fertilisation of Zea mays.18280Corydalis cava.18281Hypecoum grandiflorum.18282and Hypecoum procumbens.18283sterility of Eschscholtzia.18284experiments on self-fertilisation.18285Corydalis lutea.18286spontaneously self-fertilised flowers.18287various mechanical structure to check self-fertilisation.18288early separation of the sexes.18289on Aristolochia.18290fertilisation of the Gramineae.18291wide dissemination of seeds.1829218293Hoffmann, Professor H., self-fertilised capsules of Papaver somniferum.18294Adonis aestivalis.18295spontaneous variability of Phaseolus multiflorus.18296self-fertilisation of kidney-bean.18297Papaver alpinum.18298sterility of Corydalis solida.18299Linum usitatissimum.1830018301Honey-dew.1830218303Hooker, Dr., Euryale ferox and Victoria regia, each producing several18304flowers at once.18305on sexual relation of trees in New Zealand.1830618307Horse-chestnut.1830818309Humble-bees, see Bees.1831018311Humboldt, on the grains of cereals.1831218313Humming-Birds a means of cross-fertilisation.1831418315Hyacinth.1831618317Hybrid plants, tendency to revert to their parent forms.1831818319Hypecoum grandiflorum.18320-- procumbens.1832118322Iberis umbellata (var. kermesiana).18323measurement.18324cross by fresh stocks.18325remarks on experiments.18326superiority of crossed over self-fertilised seedlings.18327early flowering.18328number of seeds.18329highly self-fertile.18330prepotency of other pollen.18331-- amara.1833218333Impatiens frequented by humming-birds.18334-- barbigera.18335-- fulva.18336-- noli-me-tangere.18337-- pallida.1833818339Inheritance, force of, in plants.1834018341Insects, means of cross-fertilisation.18342attracted by bright colours.18343by odours.18344by conspicuous flowers.18345dark streaks and marks as guides for.18346flowers adapted to certain kinds.1834718348Ipomoea purpurea.18349measurements.18350flowers on same plant crossed.18351cross with fresh stock.18352descendants of Hero.18353summary of measurements.18354diagram showing mean heights.18355summary of observations.18356of experiments.18357superiority of crossed.18358early flowering.18359effects of intercrossing.18360uniform colour of self-fertilised.18361seeds.18362highly self-fertile.18363prepotency of other pollen.1836418365Iris, secretion of saccharine matter from calyx.1836618367Isotoma.1836818369Juglans regia.1837018371Kalmia latifolia.1837218373Kerner, on protection of the pollen.18374on the single daily flower of Villarsia parnassifolia.18375pollen carried by wind.1837618377Kidney-bean.1837818379Kitchener, Mr., on the action of the stigma.18380on Viola tricolor.1838118382Knight, A., on the sexual intercourse of plants.18383crossing varieties of peas.18384sexual reproduction.1838518386Kohl-rabi, prepotency of pollen.1838718388Kolreuter on cross-fertilisation.18389number of pollen-grains necessary for fertilisation.18390sexual affinities of Nicotiana.18391Verbascum phoeniceum.18392experiments with pollen of Hibiscus vesicarius.1839318394Kuhn adopts the term cleistogene.1839518396Kurr, on excretion of nectar.18397removal of corolla.1839818399Labiatae.1840018401Lactuca sativa.18402measurement.18403prepotency of other pollen.1840418405Lamium album.18406-- purpureum.1840718408Lathyrus odoratus.18409measurements.18410remarks on experiments.18411period of flowering.18412cross-fertilisation.18413seeds.18414self-fertile.18415-- grandiflorus.18416-- nissolia.18417-- sylvestris, perforation of corolla.1841818419Lawes and Gilbert, Messrs., consumption of inorganic matter by plants.1842018421Laxton, Mr., crossing varieties of peas.1842218423Lecoq, Cyclamen repandum.18424on Fumariaceae.18425annual plants rarely dioecious.1842618427Leersia oryzoides.1842818429Leguminosae.18430summary on the.1843118432Leighton, Reverend W.A., on Phaseolus multiflorus.18433Acacia magnifica.1843418435Leptosiphon androsaceus.1843618437Leschenaultia formosa.1843818439Lettuce.1844018441Lilium auratum.1844218443Limnanthes douglasii.18444measurements.18445early flowering of crossed.18446seeds.18447highly self-fertile.18448prepotency of other pollen.1844918450Linaria vulgaris.18451seeds.18452self-sterile.18453-- cymbalaria.1845418455Lindley on Fumariaceae.1845618457Link, hypopetalous nectary in Chironia decussata.1845818459Linum grandiflorum.18460-- usitatissimum.1846118462Loasaceae.1846318464Lobelia erinus.18465secretion of nectar in sunshine.18466experiments with bees.1846718468Lobelia fulgens.18469measurements.18470summary of experiments.18471early flowering of self-fertilised.18472seeds.18473sterile unless visited by humble-bees.18474-- ramosa.18475measurements.18476early flowering of crossed.18477seeds.18478self-sterile.18479-- tenuior.1848018481Loiseleur-Deslongchamp, on the grains of cereals.1848218483Lotus corniculatus.1848418485Lubbock, Sir J., cross-fertilisation of flowers.18486on Viola tricolor.18487bees distinguishing colours.18488instinct of bees and insects sucking nectar.1848918490Lupinus luteus.18491measurements.18492early flowering of self-fertilised.18493self-fertile.18494prepotency of other pollen.18495-- pilosus.18496self-fertile.1849718498Lychnis dioica.1849918500MacNab, Mr., on the shorter or longer stamens of rhododendrons.1850118502Mahonia aquifolium.18503-- repens.1850418505Malvaceae.1850618507Marcgraviaceae.1850818509Masters, Mr., cross-fertilisation in Pisum sativum.18510cabbages affected by pollen at a distance.1851118512Masters, Dr. Maxwell, on honey-dew.1851318514Measurements, summary of.18515Table 7/A.18516Table 7/B.18517Table 7/C.1851818519Medicago lupulina.1852018521Meehan, Mr., fertilising Petunia violacea by night moth.1852218523Melastomaceae.1852418525Melilotus officinalis.1852618527Mercurialis annua.1852818529Miller, Professor, on chemical affinity.1853018531Mimulus luteus, effects of crossing.18532crossed and self-fertilised plants.18533measurements.18534cross with a distinct stock.18535intercrossed on same plant.18536summary of observations.18537of experiments.18538superiority of crossed plants.18539simultaneous flowering.18540effects of intercrossing.18541uniform colour of self-fertilised.18542seeds.18543highly self-fertile.18544prepotency of other pollen.18545-- roseus.1854618547Miner, Mr., red clover never sucked by hive-bees in the United States.1854818549Mirabilis, dwarfed plants raised by using too few pollen-grains.18550number of grains necessary for fertilisation.1855118552Mitchell, Dr., on first cousins inter-marrying.1855318554Monochaetum ensiferum.1855518556Moore, Mr., on Cinerarias.1855718558Muller, Fritz, on Posoqueria fragrans.18559experiments on hybrid Abutilons and Bignonias.18560large number of Orchidaceous genera sterile in their native home, also18561Bignonia and Tabernaemontana echinata.18562sterility of Eschscholtzia californica.18563Abutilon darwinii.18564experiments in self-fertilisation.18565self-sterile plants.18566incapacity of pollen-tubes to penetrate the stigma.18567cross-fertilisation by means of birds.18568imperfectly developed male and female Termites.18569food-bodies in Cecropia.1857018571Muller, Hermann, fertilisation of flowers by insects.18572on Digitalis purpurea.18573Calceolaria.18574Linaria vulgaris.18575Verbascum nigrum.18576the common cabbage.18577Papaver dubium.18578Viola tricolor.18579structure of Delphinium consolida.18580of Lupinus lutea.18581flowers of Pisum sativum.18582on Sarothamnus scoparius not secreting nectar.18583Apium petroselinum.18584Borago officinalis.18585red clover visited by hive-bees in Germany.18586insects rarely visiting Fumaria officinalis.18587comparison of lowland and alpine species.18588structure of plants adapted to cross and self-fertilisation.18589large conspicuous flowers more frequently visited by insects than small18590inconspicuous ones.18591Solanum generally unattractive to insects.18592Lamium album.18593on anemophilous plants.18594fertilisation of Plantago.18595secretion of nectar.18596instinct of bees sucking nectar.18597bees frequenting flowers of the same species.18598cause of it.18599powers of vision and discrimination of bees.1860018601Muller, Dr. H., hive-bees occasionally perforate the flower of Erica18602tetralix.18603calyx and corolla of Rhinanthus alecterolophus bored by Bombus18604mastrucatus.1860518606Munro, Mr., some species of Oncidium and Maxillaria sterile with own18607pollen.1860818609Myrtaceae.1861018611Nageli on odours attracting insects.18612sexual relations.1861318614Natural selection, effect upon self-sterility and self-fertilisation.1861518616Naudin on number of pollen-grains necessary for fertilisation.18617Petunia violacea.1861818619Nectar regarded as an excretion.1862018621Nemophila insignis.18622measurements.18623early flowering of crossed plant.18624effects of cross and self-fertilisation.18625seeds.1862618627Nepeta glechoma.1862818629Nicotiana glutinosa.18630-- tabacum.18631measurements.18632cross with fresh stock.18633measurements.18634summary of experiments.18635superiority of crossed plants.18636early flowering.18637seeds.18638experiments on.18639self-fertile.1864018641Nolana prostrata.18642measurements.18643crossed and self-fertilised plants.18644number of capsules and seeds.18645self-fertile.1864618647Nolanaceae.1864818649Nymphaea.1865018651Odours emitted by flowers attractive to insects.1865218653Ogle, Dr., on Digitalis purpurea.18654Gesneria.18655Phaseolus multiflorus.18656perforation of corolla.18657case of the Monkshood.1865818659Onagraceae.1866018661Onion, prepotency of other pollen.1866218663Ononis minutissima.18664measurements.18665seeds.18666self-fertile.1866718668Ophrys apifera.18669-- muscifera.1867018671Oranges, spontaneous crossing.1867218673Orchideae.18674excretion of saccharine matter.1867518676Orchis, fly.1867718678Origanum vulgare.18679measurements.18680early flowering of crossed plant.18681effects of intercrossing.1868218683Paeony, number of pollen-grains.1868418685Papaveraceae.1868618687Papaver alpinum.18688-- argemonoides.18689-- bracteatum.18690-- dubium.18691-- orientale.18692-- rhoeas.18693-- somniferum.18694-- vagum.18695measurements.18696number of capsules.18697seeds.18698prepotency of other pollen.1869918700Papillae of the Viola tricolor attractive to insects.1870118702Parsley.1870318704Passiflora alata.18705-- gracilis.18706measurements.18707crossed and self-fertilised.18708seeds.18709self-fertile.1871018711Passifloraceae.1871218713Pea, common.1871418715Pelargonium zonale.18716measurements.18717effects of intercrossing.18718almost self-sterile.1871918720Pentstemon argutus, perforated corolla.1872118722Petunia violacea.18723measurements.18724weight of seed.18725cross with fresh stock.18726relative fertility.18727colour.18728summary of experiments.18729superiority of crossed over self-fertilised.18730early flowering.18731uniform colour of self-fertilised.18732seeds.18733self-sterile.1873418735Phalaris canariensis.18736measurements.18737early flowering of crossed.1873818739Phaseolus coccineus.18740-- multiflorus.18741measurement.18742partially sterile.18743crossed and self-fertilised.18744early flowering of crossed.18745seeds.18746perforated by humble-bees.18747-- vulgaris.18748self-fertile.1874918750Pisum sativum.18751measurements.18752seldom intercross.18753summary of experiments.18754self-fertile.1875518756Plants, crossed, greater constitutional vigour.1875718758Pleroma.1875918760Polemoniaceae.1876118762Pollen, relative fertility of flowers crossed from a distinct plant, or18763with their own.18764difference of results in Nolana prostrata.18765crossed and self-fertilised plants, again crossed from a distinct plant18766and their own pollen.18767sterile with their own.18768semi-self-sterile.18769loss of.18770number of grains in Dandelion, Paeony, and Wistaria sinensis.18771number necessary for fertilisation.18772transported from flower to flower.18773prepotency.18774aboriginally the sole attraction to insects.18775quantity produced by anemophilous plants.1877618777Polyanthus, prepotency over cowslip.1877818779Polygoneae.1878018781Posoqueria fragrans.1878218783Potato.1878418785Poterium sanguisorba.1878618787Potts, heads of Anthornis melanura covered with pollen.1878818789Primrose, Chinese.1879018791Primula elatior.18792-- grandiflora.18793-- mollis.18794-- officinalis.18795-- scotica.18796-- sinensis.18797measurements.18798early flowering of crossed.18799-- veris (var. officinalis).18800measurements.18801result of experiments.18802early flowering of crossed.18803seeds.18804self-fertility.18805prepotency of dark red polyanthus.1880618807Primulaceae.1880818809Pringlea.1881018811Proteaceae of Australia.1881218813Prunus avium.18814-- laurocerasus.1881518816Pteris aquilina.1881718818Radish.1881918820Ranunculaceae.1882118822Ranunculus acris.1882318824Raphanus sativus.1882518826Reinke, nectar-secreting glands of Prunus avium.1882718828Reseda lutea.18829measurements.18830result of experiments.18831self-fertile.18832-- odorata.18833measurements.18834self-fertilised scarcely exceeded by crossed.18835seeds.18836want of correspondence between seeds and vigour of offspring.18837result of experiments.18838sterile and self-fertile.1883918840Resedaceae.1884118842Rheum rhaponticum.1884318844Rhexia glandulosa.1884518846Rhododendron, spontaneous crossing.1884718848Rhododendron azaloides.1884918850Rhubarb.1885118852Ribes aureum.1885318854Riley, Mr., pollen carried by wind.18855Yucca moth.1885618857Rodgers, Mr., secretion of nectar in Vanilla.1885818859Rye, experiment on pollen of.1886018861Salvia coccinea.18862measurements.18863early flowering of crossed.18864seeds.18865partially self-sterile.18866-- glutinosa.18867-- grahami.18868-- tenori.1886918870Sarothamnus scoparius.18871measurements.18872superiority of crossed seedlings.18873seeds.18874self-sterile.1887518876Scabiosa atro-purpurea.18877measurements.1887818879Scarlet-runner.1888018881Scott, J., Papaver somniferum.18882sterility of Verbascum.18883Oncidium and Maxillaria.18884on Primula scotica and Cortusa matthioli.1888518886Scrophulariaceae.1888718888Self-sterile varieties, appearance of.1888918890Self-fertilisation, mechanical structure to check.1889118892Self-sterile plants.18893wide distribution throughout the vegetable kingdom.18894difference in plants.18895cause of self-sterility.18896affected by changed conditions.18897necessity of differentiation in the sexual elements.1889818899Senecio cruentus.18900-- heritieri.18901-- maderensis18902-- populifolius.18903-- tussilaginis.1890418905Sharpe, Messrs., precautions against intercrossing.1890618907Snow-flake.1890818909Solanaceae.1891018911Solanum tuberosum.1891218913Specularia perfoliata.18914-- speculum.18915measurements.18916crossed and self-fertilised.18917early flowering of crossed.18918seeds.18919self-fertile.1892018921Spencer, Herbert, chemical affinity.1892218923Spiranthes autumnalis.1892418925Sprengel, C.K., fertilisation of flowers by insects.18926Viola tricolor.18927colours in flowers attract and guide insects.18928on Aristolochia.18929Aconitum napellus.18930importance of insects in fertilising flowers.1893118932Stachys coccinea.1893318934Stellaria media.1893518936Strachey, General, perforated flowers in the Himalaya.1893718938Strawberry.1893918940Strelitzia fertilised by the Nectarinideae.1894118942Structure of plants adapted to cross and self-fertilisation.1894318944Swale, Mr., garden lupine not visited by bees in New Zealand.1894518946Sweet-pea.1894718948Tabernaemontana echinata.1894918950Tables of measurements of heights, weights, and fertility of plants.1895118952Termites, imperfectly developed males and females.1895318954Thunbergia alata.1895518956Thyme.1895718958Tinzmann, on Solanum tuberosum.1895918960Tobacco.1896118962Transmission of the good effects of a cross to later generations.1896318964Trees, separated sexes.1896518966Trifolium arvense.18967-- incarnatum.18968-- minus.18969-- pratense.18970-- procumbens.18971-- repens.1897218973Tropaeolum minus.18974measurements.18975early flowering of crossed.18976seeds.18977-- tricolor.18978seeds.1897918980Tulips.1898118982Typha.1898318984Umbelliferae.1898518986Urban, Ig., fertilisation of Medicago lupulina.1898718988Vandellia nummularifolia.18989seeds.18990self-fertile.1899118992Vanilla, secretion of nectar.1899318994Verbascum lychnitis.18995-- nigrum.18996-- phoeniceum.18997-- thapsus.18998measurements.18999self-fertile.1900019001Verlot on Convolvulus tricolor.19002intercrossing of Nemophila.19003of Leptosiphon.1900419005Veronica agrestis.19006-- chamaedrys.19007-- hederaefolia.1900819009Vicia faba.19010-- hirsuta.19011-- sativa.1901219013Victoria regia.1901419015Villarsia parnassifolia.1901619017Vilmorin on transmitting character to offspring.1901819019Vinca major.19020-- rosea.1902119022Viola canina.19023-- tricolor.19024measurements.19025superiority of crossed plants.19026period of flowering.19027effects of cross-fertilisation.19028seeds.19029partially sterile.19030corolla removed.1903119032Violaceae.1903319034Viscaria oculata.19035measurement.19036average height of crossed and self-fertilised.19037simultaneous flowering.19038seeds.19039self-fertile.1904019041Wallace, Mr., the beaks and faces of brush-tongued lories covered with19042pollen.1904319044Wasps attracted by Epipactis latifolia.1904519046Weights, relative, of crossed and self-fertilised plants.19047and period of germination of seeds.1904819049Wilder, Mr., fertilisation of flowers with their own pollen.1905019051Wilson, A.J., superior vigour of crossed seedlings in Brassica19052campestris ruta baga.1905319054Wistaria sinensis.1905519056Yucca moth.1905719058Zea mays.19059measurements.19060difference of height between crossed and self-fertilised.19061early flowering of crossed.19062self-fertile.19063prepotency of other pollen.1906419065190661906719068