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GEOLOGICAL OBSERVATIONS ON SOUTH AMERICA
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by CHARLES DARWIN
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EDITORIAL NOTE.
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Although in some respects more technical in their subjects and style than
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Darwin's "Journal," the books here reprinted will never lose their value
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and interest for the originality of the observations they contain.  Many
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parts of them are admirably adapted for giving an insight into problems
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regarding the structure and changes of the earth's surface, and in fact
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they form a charming introduction to physical geology and physiography in
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their application to special domains.  The books themselves cannot be
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obtained for many times the price of the present volume, and both the
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general reader, who desires to know more of Darwin's work, and the student
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of geology, who naturally wishes to know how a master mind reasoned on most
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important geological subjects, will be glad of the opportunity of
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possessing them in a convenient and cheap form.
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The three introductions, which my friend Professor Judd has kindly
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furnished, give critical and historical information which makes this
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edition of special value.
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G.T.B.
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PLATE I. GEOLOGICAL SECTIONS THROUGH THE CORDILLERAS.
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SECTION 1/1. SECTION OF THE PEUQUENES OR PORTILLO PASS OF THE CORDILLERA.
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SECTION 1/2. SECTION OF THE CUMBRE OR USPALLATA PASS.
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SECTION 1/3. SECTION OF THE VALLEY OF COPIAPO TO THE BASE OF THE MAIN
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CORDILLERA.
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PLATE II. MAP OF SOUTHERN PORTION OF SOUTH AMERICA.
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TABLE OF CONTENTS.
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CRITICAL INTRODUCTION.
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CHAPTER I.--ON THE ELEVATION OF THE EASTERN COAST OF SOUTH AMERICA.
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Upraised shells of La Plata.--Bahia Blanca, Sand-dunes and Pumice-pebbles.-
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-Step-formed plains of Patagonia, with upraised shells.--Terrace-bounded
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valley of Santa Cruz, formerly a sea-strait.--Upraised shells of Tierra del
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Fuego.--Length and breadth of the elevated area.--Equability of the
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movements, as shown by the similar heights of the plains.--Slowness of the
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elevatory process.--Mode of formation of the step-formed plains.--Summary.-
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-Great shingle formation of Patagonia; its extent, origin, and
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distribution.--Formation of sea-cliffs.
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CHAPTER II.--ON THE ELEVATION OF THE WESTERN COAST OF SOUTH AMERICA.
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Chonos Archipelago.--Chiloe, recent and gradual elevation of, traditions of
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the inhabitants on this subject.--Concepcion, earthquake and elevation of.-
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-VALPARAISO, great elevation of, upraised shells, earth or marine origin,
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gradual rise of the land within the historical period.--COQUIMBO, elevation
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of, in recent times; terraces of marine origin, their inclination, their
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escarpments not horizontal.--Guasco, gravel terraces of.--Copiapo.--PERU.--
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Upraised shells of Cobija, Iquique, and Arica.--Lima, shell-beds and sea-
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beach on San Lorenzo.--Human remains, fossil earthenware, earthquake
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debacle, recent subsidence.--On the decay of upraised shells.--General
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summary.
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CHAPTER III.--ON THE PLAINS AND VALLEYS OF CHILE:--SALIFEROUS SUPERFICIAL
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DEPOSITS.
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Basin-like plains of Chile; their drainage, their marine origin.--Marks of
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sea-action on the eastern flanks of the Cordillera.--Sloping terrace-like
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fringes of stratified shingle within the valleys of the Cordillera; their
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marine origin.--Boulders in the valley of Cachapual.--Horizontal elevation
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of the Cordillera.--Formation of valleys.--Boulders moved by earthquake-
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waves.--Saline superficial deposits.--Bed of nitrate of soda at Iquique.--
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Saline incrustations.--Salt-lakes of La Plata and Patagonia; purity of the
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salt; its origin.
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CHAPTER IV.--ON THE FORMATIONS OF THE PAMPAS.
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Mineralogical constitution.--Microscopical structure.--Buenos Ayres, shells
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embedded in tosca-rock.--Buenos Ayres to the Colorado.--S. Ventana.--Bahia
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Blanca; M. Hermoso, bones and infusoria of; P. Alta, shells, bones, and
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infusoria of; co-existence of the recent shells and extinct mammifers.--
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Buenos Ayres to St. Fe.--Skeletons of Mastodon.--Infusoria.--Inferior
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marine tertiary strata, their age.--Horse's tooth. BANDA ORIENTAL.--
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Superficial Pampean formation.--Inferior tertiary strata, variation of,
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connected with volcanic action; Macrauchenia Patachonica at S. Julian in
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Patagonia, age of, subsequent to living mollusca and to the erratic block
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period. SUMMARY.--Area of Pampean formation.--Theories of origin.--Source
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of sediment.--Estuary origin.--Contemporaneous with existing mollusca.--
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Relations to underlying tertiary strata. Ancient deposit of estuary
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origin.--Elevation and successive deposition of the Pampean formation.--
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Number and state of the remains of mammifers; their habitation, food,
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extinction, and range.--Conclusion.--Supplement on the thickness of the
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Pampean formation.--Localities in Pampas at which mammiferous remains have
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been found.
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CHAPTER V.--ON THE OLDER TERTIARY FORMATIONS OF PATAGONIA AND CHILE.
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Rio Negro.--S. Josef.--Port Desire, white pumiceous mudstone with
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infusoria.--Port S. Julian.--Santa Cruz, basaltic lava of.--P. Gallegos.--
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Eastern Tierra del Fuego; leaves of extinct beech-trees.--Summary on the
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Patagonian tertiary formations.--Tertiary formations of the Western Coast.-
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-Chonos and Chiloe groups, volcanic rocks of.--Concepcion.--Navidad.--
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Coquimbo.--Summary.--Age of the tertiary formations.--Lines of elevation.--
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Silicified wood.--Comparative ranges of the extinct and living mollusca on
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the West Coast of S. America.--Climate of the tertiary period.--On the
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causes of the absence of recent conchiferous deposits on the coasts of
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South America.--On the contemporaneous deposition and preservation of
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sedimentary formations.
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CHAPTER VI.--PLUTONIC AND METAMORPHIC ROCKS:--CLEAVAGE AND FOLIATION.
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Brazil, Bahia, gneiss with disjointed metamorphosed dikes.--Strike of
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foliation.--Rio de Janeiro, gneiss-granite, embedded fragment in,
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decomposition of.--La Plata, metamorphic and old volcanic rocks of.--S.
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Ventana.--Claystone porphyry formation of Patagonia; singular metamorphic
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rocks; pseudo-dikes.--Falkland Islands, palaeozoic fossils of.--Tierra del
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Fuego, clay-slate formation, cretaceous fossils of; cleavage and foliation;
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form of land.--Chonos Archipelago, mica-schists, foliation disturbed by
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granitic axis; dikes.--Chiloe.--Concepcion, dikes, successive formation
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of.--Central and Northern Chile.--Concluding remarks on cleavage and
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foliation.--Their close analogy and similar origin.--Stratification of
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metamorphic schists.--Foliation of intrusive rocks.--Relation of cleavage
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and foliation to the lines of tension during metamorphosis.
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CHAPTER VII.--CENTRAL CHILE:--STRUCTURE OF THE CORDILLERA.
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Central Chile.--Basal formations of the Cordillera.--Origin of the
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porphyritic clay-stone conglomerate.--Andesite.--Volcanic rocks.--Section
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of the Cordillera by the Peuquenes or Portillo Pass.--Great gypseous
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formation.--Peuquenes line; thickness of strata, fossils of.--Portillo
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line.--Conglomerate, orthitic granite, mica-schist, volcanic rocks of.--
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Concluding remarks on the denudation and elevation of the Portillo line.--
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Section by the Cumbre, or Uspallata Pass.--Porphyries.--Gypseous strata.--
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Section near the Puente del Inca; fossils of.--Great subsidence.--Intrusive
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porphyries.--Plain of Uspallata.--Section of the Uspallata chain.--
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Structure and nature of the strata.--Silicified vertical trees.--Great
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subsidence.--Granitic rocks of axis.--Concluding remarks on the Uspallata
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range; origin subsequent to that of the main Cordillera; two periods of
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subsidence; comparison with the Portillo chain.
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CHAPTER VIII.--NORTHERN CHILE.--CONCLUSION.
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Section from Illapel to Combarbala; gypseous formation with silicified
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wood.--Panuncillo.--Coquimbo; mines of Arqueros; section up valley;
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fossils.--Guasco, fossils of.--Copiapo, section up valley; Las Amolanas,
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silicified wood.--Conglomerates, nature of former land, fossils, thickness
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of strata, great subsidence.--Valley of Despoblado, fossils, tufaceous
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deposit, complicated dislocations of.--Relations between ancient orifices
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of eruption and subsequent axes of injection.--Iquique, Peru, fossils of,
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salt-deposits.--Metalliferous veins.--Summary on the porphyritic
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conglomerate and gypseous formations.--Great subsidence with partial
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elevations during the cretaceo-oolitic period.--On the elevation and
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structure of the Cordillera.--Recapitulation on the tertiary series.--
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Relation between movements of subsidence and volcanic action.--Pampean
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formation.--Recent elevatory movements.--Long-continued volcanic action in
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the Cordillera.--Conclusion.
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INDEX.
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GEOLOGICAL OBSERVATIONS ON SOUTH AMERICA
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BY
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CHARLES DARWIN.
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CRITICAL INTRODUCTION.
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Of the remarkable "trilogy" constituted by Darwin's writings which deal
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with the geology of the "Beagle," the member which has perhaps attracted
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least attention, up to the present time is that which treats of the geology
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of South America. The actual writing of this book appears to have occupied
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Darwin a shorter period than either of the other volumes of the series; his
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diary records that the work was accomplished within ten months, namely,
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between July 1844 and April 1845; but the book was not actually issued till
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late in the year following, the preface bearing the date "September 1846."
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Altogether, as Darwin informs us in his "Autobiography," the geological
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books "consumed four and a half years' steady work," most of the remainder
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of the ten years that elapsed between the return of the "Beagle," and the
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completion of his geological books being, it is sad to relate, "lost
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through illness!"
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Concerning the "Geological Observations on South America," Darwin wrote to
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his friend Lyell, as follows:--"My volume will be about 240 pages,
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dreadfully dull, yet much condensed. I think whenever you have time to look
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through it, you will think the collection of facts on the elevation of the
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land and on the formation of terraces pretty good."
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"Much condensed" is the verdict that everyone must endorse, on rising from
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the perusal of this remarkable book; but by no means "dull." The three and
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a half years from April 1832 to September 1835, were spent by Darwin in
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South America, and were devoted to continuous scientific work; the problems
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he dealt with were either purely geological or those which constitute the
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borderland between the geological and biological sciences. It is impossible
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to read the journal which he kept during this time without being impressed
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by the conviction that it contains all the germs of thought which
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afterwards developed into the "Origin of Species." But it is equally
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evident that after his return to England, biological speculations gradually
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began to exercise a more exclusive sway over Darwin's mind, and tended to
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dispossess geology, which during the actual period of the voyage certainly
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engrossed most of his time and attention. The wonderful series of
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observations made during those three and a half years in South America
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could scarcely be done justice to, in the 240 pages devoted to their
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exposition. That he executed the work of preparing the book on South
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America in somewhat the manner of a task, is shown by many references in
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his letters. Writing to Sir Joseph Hooker in 1845, he says, "I hope this
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next summer to finish my South American Geology, then to get out a little
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Zoology, and HURRAH FOR MY SPECIES WORK!"
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It would seem that the feeling of disappointment, which Darwin so often
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experienced in comparing a book when completed, with the observations and
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speculations which had inspired it, was more keenly felt in the case of his
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volume on South America than any other. To one friend he writes, "I have of
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late been slaving extra hard, to the great discomfiture of wretched
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digestive organs, at South America, and thank all the fates, I have done
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three-fourths of it. Writing plain English grows with me more and more
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difficult, and never attainable. As for your pretending that you will read
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anything so dull as my pure geological descriptions, lay not such a
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flattering unction on my soul, for it is incredible." To another friend he
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writes, "You do not know what you threaten when you propose to read it--it
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is purely geological. I said to my brother, 'You will of course read it,'
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and his answer was, 'Upon my life, I would sooner even buy it.'"
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In spite of these disparaging remarks, however, we are strongly inclined to
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believe that this book, despised by its author, and neglected by his
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contemporaries, will in the end be admitted to be one of Darwin's chief
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titles to fame. It is, perhaps, an unfortunate circumstance that the great
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success which he attained in biology by the publication of the "Origin of
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Species" has, to some extent, overshadowed the fact that Darwin's claims as
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a geologist, are of the very highest order. It is not too much to say that,
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had Darwin not been a geologist, the "Origin of Species" could never have
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been written by him. But apart from those geological questions, which have
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an important bearing on biological thought and speculation, such as the
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proofs of imperfection in the geological record, the relations of the later
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tertiary faunas to the recent ones in the same areas, and the apparent
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intermingling of types belonging to distant geological epochs, when we
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study the palaeontology of remote districts,--there are other purely
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geological problems, upon which the contributions made by Darwin are of the
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very highest value. I believe that the verdict of the historians of science
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will be that if Darwin had not taken a foremost place among the biologists
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of this century, his position as a geologist would have been an almost
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equally commanding one.
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But in the case of Darwin's principal geological work--that relating to the
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origin of the crystalline schists,--geologists were not at the time
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prepared to receive his revolutionary teachings. The influence of powerful
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authority was long exercised, indeed, to stifle his teaching, and only now,
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when this unfortunate opposition has disappeared, is the true nature and
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importance of Darwin's purely geological work beginning to be recognised.
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The two first chapters of the "Geological Observations on South America,"
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deal with the proofs which exist of great, but frequently interrupted,
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movements of elevation during very recent geological times. In connection
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with this subject, Darwin's particular attention was directed to the
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relations between the great earthquakes of South America--of some of which
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he had impressive experience--and the permanent changes of elevation which
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were taking place. He was much struck by the rapidity with which the
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evidence of such great earth movements is frequently obliterated; and
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especially with the remarkable way in which the action of rain-water,
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percolating through deposits on the earth's surface, removes all traces of
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shells and other calcareous organisms. It was these considerations which
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were the parents of the generalisation that a palaeontological record can
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only be preserved during those periods in which long-continued slow
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subsidence is going on. This in turn, led to the still wider and more
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suggestive conclusion that the geological record as a whole is, and never
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can be more than, a series of more or less isolated fragments. The
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recognition of this important fact constitutes the keystone to any theory
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of evolution which seeks to find a basis in the actual study of the types
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of life that have formerly inhabited our globe.
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In his third chapter, Darwin gives a number of interesting facts, collected
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during his visits to the plains and valleys of Chili, which bear on the
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question of the origin of saliferous deposits--the accumulation of salt,
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gypsum, and nitrate of soda. This is a problem that has excited much
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discussion among geologists, and which, in spite of many valuable
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observations, still remains to a great extent very obscure. Among the
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important considerations insisted upon by Darwin is that relating to the
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absence of marine shells in beds associated with such deposits. He justly
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argues that if the strata were formed in shallow waters, and then exposed
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by upheaval to subaerial action, all shells and other calcareous organisms
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would be removed by solution.
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Following Lyell's method, Darwin proceeds from the study of deposits now
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being accumulated on the earth's surface, to those which have been formed
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during the more recent periods of the geological history.
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His account of the great Pampean formation, with its wonderful mammalian
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remains--Mastodon, Toxodon, Scelidotherium, Macrauchenia, Megatherium,
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Megalonyx, Mylodon, and Glyptodon--this full of interest. His discovery of
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the remains of a true Equus afforded a remarkable confirmation of the fact-
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-already made out in North America--that species of horse had existed and
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become extinct in the New World, before their introduction by the Spaniards
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in the sixteenth century. Fully perceiving the importance of the microscope
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in studying the nature and origin of such deposits as those of the Pampas,
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Darwin submitted many of his specimens both to Dr. Carpenter in this
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country, and to Professor Ehrenberg in Berlin. Many very important notes on
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the microscopic organisms contained in the formation will be found
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scattered through the chapter.
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Darwin's study of the older tertiary formations, with their abundant
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shells, and their relics of vegetable life buried under great sheets of
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basalt, led him to consider carefully the question of climate during these
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earlier periods. In opposition to prevalent views on this subject, Darwin
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points out that his observations are opposed to the conclusion that a
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higher temperature prevailed universally over the globe during early
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geological periods. He argues that "the causes which gave to the older
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tertiary productions of the quite temperate zones of Europe a tropical
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character, WERE OF A LOCAL CHARACTER AND DID NOT AFFECT THE WHOLE GLOBE."
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In this, as in many similar instances, we see the beneficial influence of
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extensive travel in freeing Darwin's mind from prevailing prejudices. It
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was this widening of experience which rendered him so especially qualified
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to deal with the great problem of the origin of species, and in doing so to
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emancipate himself from ideas which were received with unquestioning faith
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by geologists whose studies had been circumscribed within the limits of
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Western Europe.
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In the Cordilleras of Northern and Central Chili, Darwin, when studying
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still older formations, clearly recognised that they contain an admixture
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of the forms of life, which in Europe are distinctive of the Cretaceous and
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Jurassic periods respectively. He was thus led to conclude that the
349
classification of geological periods, which fairly well expresses the facts
350
that had been discovered in the areas where the science was first studied,
351
is no longer capable of being applied when we come to the study of widely
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distant regions. This important conclusion led up to the further
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generalisation that each great geological period has exhibited a
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geographical distribution of the forms of animal and vegetable life,
355
comparable to that which prevails in the existing fauna and flora. To those
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who are familiar with the extent to which the doctrine of universal
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formations has affected geological thought and speculation, both long
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before and since the time that Darwin wrote, the importance of this new
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standpoint to which he was able to attain will be sufficiently apparent.
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Like the idea of the extreme imperfection of the Geological Record, the
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doctrine of LOCAL geological formations is found permeating and moulding
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all the palaeontological reasonings of his great work.
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In one of Darwin's letters, written while he was in South America, there is
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a passage we have already quoted, in which he expresses his inability to
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decide between the rival claims upon his attention of "the old crystalline
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group of rocks," and "the softer fossiliferous beds" respectively. The
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sixth chapter of the work before us, entitled "Plutonic and Metamorphic
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Rocks--Cleavage and Foliation," contains a brief summary of a series of
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observations and reasonings upon these crystalline rocks, which are, we
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believe, calculated to effect a revolution in geological science, and--
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though their value and importance have long been overlooked--are likely to
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entitle Darwin in the future to a position among geologists, scarcely, if
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at all, inferior to that which he already occupies among biologists.
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Darwin's studies of the great rock-masses of the Andes convinced him of the
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close relations between the granitic or Plutonic rocks, and those which
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were undoubtedly poured forth as lavas. Upon his return, he set to work,
379
with the aid of Professor Miller, to make a careful study of the minerals
380
composing the granites and those which occur in the lavas, and he was able
381
to show that in all essential respects they are identical. He was further
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able to prove that there is a complete gradation between the highly
383
crystalline or granitic rock-masses, and those containing more or less
384
glassy matter between their crystals, which constitute ordinary lavas. The
385
importance of this conclusion will be realised when we remember that it was
386
then the common creed of geologists--and still continues to be so on the
387
Continent--that all highly crystalline rocks are of great geological
388
antiquity, and that the igneous ejections which have taken place since the
389
beginning of the tertiary periods differ essentially, in their composition,
390
their structure, and their mode of occurrence, from those which have made
391
their appearance at earlier periods of the world's history.
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393
Very completely have the conclusions of Darwin upon these subjects been
394
justified by recent researches. In England, the United States, and Italy,
395
examples of the gradual passage of rocks of truly granitic structure into
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ordinary lavas have been described, and the reality of the transition has
397
been demonstrated by the most careful studies with the microscope. Recent
398
researches carried on in South America by Professor Stelzner, have also
399
shown the existence of a class of highly crystalline rocks--the
400
"Andengranites"--which combine in themselves many of the characteristics
401
which were once thought to be distinctive of the so-called Plutonic and
402
volcanic rocks. No one familiar with recent geological literature--even in
403
Germany and France, where the old views concerning the distinction of
404
igneous products of different ages have been most stoutly maintained--can
405
fail to recognise the fact that the principles contended for by Darwin bid
406
fair at no distant period to win universal acceptance among geologists all
407
over the globe.
408

409
Still more important are the conclusions at which Darwin arrived with
410
respect to the origin of the schists and gneisses which cover so large an
411
area in South America.
412

413
Carefully noting, by the aid of his compass and clinometer, at every point
414
which he visited, the direction and amount of inclination of the parallel
415
divisions in these rocks, he was led to a very important generalisation--
416
namely, that over very wide areas the direction (strike) of the planes of
417
cleavage in slates, and of foliation in schists and gneisses, remained
418
constant, though the amount of their inclination (dip) often varied within
419
wide limits. Further than this it appeared that there was always a close
420
correspondence between the strike of the cleavage and foliation and the
421
direction of the great axes along which elevation had taken place in the
422
district.
423

424
In Tierra del Fuego, Darwin found striking evidence that the cleavage
425
intersecting great masses of slate-rocks was quite independent of their
426
original stratification, and could often, indeed, be seen cutting across it
427
at right angles. He was also able to verify Sedgwick's observation that, in
428
some slates, glossy surfaces on the planes of cleavage arise from the
429
development of new minerals, chlorite, epidote or mica, and that in this
430
way a complete graduation from slates to true schists may be traced.
431

432
Darwin further showed that in highly schistose rocks, the folia bend around
433
and encircle any foreign bodies in the mass, and that in some cases they
434
exhibit the most tortuous forms and complicated puckerings. He clearly saw
435
that in all cases the forces by which these striking phenomena must have
436
been produced were persistent over wide areas, and were connected with the
437
great movements by which the rocks had been upheaved and folded.
438

439
That the distinct folia of quartz, feldspar, mica, and other minerals
440
composing the metamorphic schists could not have been separately deposited
441
as sediment was strongly insisted upon by Darwin; and in doing so he
442
opposed the view generally prevalent among geologists at that time. He was
443
thus driven to the conclusion that foliation, like cleavage, is not an
444
original, but a superinduced structure in rock-masses, and that it is the
445
result of re-crystallisation, under the controlling influence of great
446
pressure, of the materials of which the rock was composed.
447

448
In studying the lavas of Ascension, as we have already seen, Darwin was led
449
to recognise the circumstance that, when igneous rocks are subjected to
450
great differential movements during the period of their consolidation, they
451
acquire a foliated structure, closely analogous to that of the crystalline
452
schists. Like his predecessor in this field of inquiry, Mr. Poulett Scrope,
453
Charles Darwin seems to have been greatly impressed by these facts, and he
454
argued from them that the rocks exhibiting the foliated structure must have
455
been in a state of plasticity, like that of a cooling mass of lava. At that
456
time the suggestive experiments of Tresca, Daubree, and others, showing
457
that solid masses under the influence of enormous pressure become actually
458
plastic, had not been published. Had Darwin been aware of these facts he
459
would have seen that it was not necessary to assume a state of imperfect
460
solidity in rock-masses in order to account for their having yielded to
461
pressure and tension, and, in doing so, acquiring the new characters which
462
distinguish the crystalline schists.
463

464
The views put forward by Darwin on the origin of the crystalline schists
465
found an able advocate in Mr. Daniel Sharpe, who in 1852 and 1854 published
466
two papers, dealing with the geology of the Scottish Highlands and of the
467
Alps respectively, in which he showed that the principles arrived at by
468
Darwin when studying the South American rocks afford a complete explanation
469
of the structure of the two districts in question.
470

471
But, on the other hand, the conclusions of Darwin and Sharpe were met with
472
the strongest opposition by Sir Roderick Murchison and Dr. A. Geikie, who
473
in 1861 read a paper before the Geological Society "On the Coincidence
474
between Stratification and Foliation in the Crystalline Rocks of the
475
Scottish Highlands," in which they insisted that their observations in
476
Scotland tended to entirely disprove the conclusions of Darwin that
477
foliation in rocks is a secondary structure, and entirely independent of
478
the original stratification of the rock-masses.
479

480
Now it is a most significant circumstance that, no sooner did the officers
481
of the Geological Survey commence the careful and detailed study of the
482
Scottish Highlands than they found themselves compelled to make a formal
483
retraction of the views which had been put forward by Murchison and Geikie
484
in opposition to the conclusions of Darwin. The officers of the Geological
485
Survey have completely abandoned the view that the foliation of the
486
Highland rocks has been determined by their original stratification, and
487
admit that the structure is the result of the profound movements to which
488
the rocks have been subjected. The same conclusions have recently been
489
supported by observations made in many different districts--among which we
490
may especially refer to those of Dr. H. Reusch in Norway, and those of Dr.
491
J. Lehmann in Saxony. At the present time the arguments so clearly stated
492
by Darwin in the work before us, have, after enduring opposition or neglect
493
for a whole generation, begun to "triumph all along the line," and we may
494
look forward confidently to the near future, when his claim to be regarded
495
as one of the greatest of geological discoverers shall be fully vindicated.
496

497
JOHN W. JUDD.
498

499

500
CHAPTER I. ON THE ELEVATION OF THE EASTERN COAST OF SOUTH AMERICA.
501

502
Upraised shells of La Plata.
503
Bahia Blanca, Sand-dunes and Pumice-pebbles.
504
Step-formed plains of Patagonia, with upraised Shells.
505
Terrace-bounded Valley of Santa Cruz, formerly a Sea-strait.
506
Upraised shells of Tierra del Fuego.
507
Length and breadth of the elevated area.
508
Equability of the movements, as shown by the similar heights of the plains.
509
Slowness of the elevatory process.
510
Mode of formation of the step-formed plains.
511
Summary.
512
Great Shingle Formation of Patagonia; its extent, origin, and distribution.
513
Formation of sea-cliffs.
514

515
In the following Volume, which treats of the geology of South America, and
516
almost exclusively of the parts southward of the Tropic of Capricorn, I
517
have arranged the chapters according to the age of the deposits,
518
occasionally departing from this order, for the sake of geographical
519
simplicity.
520

521
The elevation of the land within the recent period, and the modifications
522
of its surface through the action of the sea (to which subjects I paid
523
particular attention) will be first discussed; I will then pass on to the
524
tertiary deposits, and afterwards to the older rocks. Only those districts
525
and sections will be described in detail which appear to me to deserve some
526
particular attention; and I will, at the end of each chapter, give a
527
summary of the results. We will commence with the proofs of the upheaval of
528
the eastern coast of the continent, from the Rio Plata southward; and, in
529
the Second Chapter, follow up the same subject along the shores of Chile
530
and Peru.
531

532
On the northern bank of the great estuary of the Rio Plata, near Maldonado,
533
I found at the head of a lake, sometimes brackish but generally containing
534
fresh water, a bed of muddy clay, six feet in thickness, with numerous
535
shells of species still existing in the Plata, namely, the Azara labiata,
536
d'Orbigny, fragments of Mytilus eduliformis, d'Orbigny, Paludestrina
537
Isabellei, d'Orbigny, and the Solen Caribaeus, Lam., which last was
538
embedded vertically in the position in which it had lived. These shells lie
539
at the height of only two feet above the lake, nor would they have been
540
worth mentioning, except in connection with analogous facts.
541

542
At Monte Video, I noticed near the town, and along the base of the mount,
543
beds of a living Mytilus, raised some feet above the surface of the Plata:
544
in a similar bed, at a height from thirteen to sixteen feet, M. Isabelle
545
collected eight species, which, according to M. d'Orbigny, now live at the
546
mouth of the estuary.  ("Voyage dans l'Amerique Merid.: Part. Geolog." page
547
21.) At Colonia del Sacramiento, further westward, I observed at the height
548
of about fifteen feet above the river, there of quite fresh water, a small
549
bed of the same Mytilus, which lives in brackish water at Monte Video. Near
550
the mouth of Uruguay, and for at least thirty-five miles northward, there
551
are at intervals large sandy tracts, extending several miles from the banks
552
of the river, but not raised much above its level, abounding with small
553
bivalves, which occur in such numbers that at the Agraciado they are sifted
554
and burnt for lime. Those which I examined near the A. S. Juan were much
555
worn: they consisted of Mactra Isabellei, d'Orbigny, mingled with few of
556
Venus sinuosa, Lam., both inhabiting, as I am informed by M. d'Orbigny,
557
brackish water at the mouth of the Plata, nearly or quite as salt as the
558
open sea. The loose sand, in which these shells are packed, is heaped into
559
low, straight, long lines of dunes, like those left by the sea at the head
560
of many bays. M. d'Orbigny has described an analogous phenomenon on a
561
greater scale, near San Pedro on the river Parana, where he found widely
562
extended beds and hillocks of sand, with vast numbers of the Azara labiata,
563
at the height of nearly 100 feet (English) above the surface of that river.
564
(Ibid page 43.) The Azara inhabits brackish water, and is not known to be
565
found nearer to San Pedro than Buenos Ayres, distant above a hundred miles
566
in a straight line. Nearer Buenos Ayres, on the road from that place to San
567
Isidro, there are extensive beds, as I am informed by Sir Woodbine Parish,
568
of the Azara labiata, lying at about forty feet above the level of the
569
river, and distant between two and three miles from it. ("Buenos Ayres"
570
etc. by Sir Woodbine Parish page 168.) These shells are always found on the
571
highest banks in the district: they are embedded in a stratified earthy
572
mass, precisely like that of the great Pampean deposit hereafter to be
573
described. In one collection of these shells, there were some valves of the
574
Venus sinuosa, Lam., the same species found with the Mactra on the banks of
575
the Uruguay. South of Buenos Ayres, near Ensenada, there are other beds of
576
the Azara, some of which seem to have been embedded in yellowish,
577
calcareous, semi-crystalline matter; and Sir W. Parish has given me from
578
the banks of the Arroyo del Tristan, situated in this same neighbourhood,
579
at the distance of about a league from the Plata, a specimen of a pale-
580
reddish, calcereo-argillaceous stone (precisely like parts of the Pampean
581
deposit the importance of which fact will be referred to in a succeeding
582
chapter), abounding with shells of an Azara, much worn, but which in
583
general form and appearance closely resemble, and are probably identical
584
with, the A. labiata. Besides these shells, cellular, highly crystalline
585
rock, formed of the casts of small bivalves, is found near Ensenada; and
586
likewise beds of sea-shells, which from their appearance appear to have
587
lain on the surface. Sir W. Parish has given me some of these shells, and
588
M. d'Orbigny pronounces them to be:--
589

590
1. Buccinanops globulosum, d'Orbigny.
591

592
2. Olivancillaria auricularia, d'Orbigny.
593

594
3. Venus flexuosa, Lam.
595

596
4. Cytheraea (imperfect).
597

598
5. Mactra Isabellei, d'Orbigny.
599

600
6. Ostrea pulchella, d'Orbigny.
601

602
Besides these, Sir W. Parish procured ("Buenos Ayres" etc. by Sir W. Parish
603
page 168.) (as named by Mr. G.B. Sowerby) the following shells:--
604

605
7. Voluta colocynthis.
606

607
8. Voluta angulata.
608

609
9. Buccinum (not spec.?).
610

611
All these species (with, perhaps, the exception of the last) are recent,
612
and live on the South American coast. These shell-beds extend from one
613
league to six leagues from the Plata, and must lie many feet above its
614
level. I heard, also, of beds of shells on the Somborombon, and on the Rio
615
Salado, at which latter place, as M. d'Orbigny informs me, the Mactra
616
Isabellei and Venus sinuosa are found.
617

618
During the elevation of the Provinces of La Plata, the waters of the
619
ancient estuary have but little affected (with the exception of the sand-
620
hills on the banks of the Parana and Uruguay) the outline of the land. M.
621
Parchappe, however, has described groups of sand dunes scattered over the
622
wide extent of the Pampas southward of Buenos Ayres (D'Orbigny "Voyage
623
Geolog." page 44.), which M. d'Orbigny attributes with much probability to
624
the action of the sea, before the plains were raised above its level.
625
(Before proceeding to the districts southward of La Plata, it may be worth
626
while just to state, that there is some evidence that the coast of Brazil
627
has participated in a small amount of elevation. Mr. Burchell informs me,
628
that he collected at Santos (latitude 24 degrees S.) oyster-shells,
629
apparently recent, some miles from the shore, and quite above the tidal
630
action. Westward of Rio de Janeiro, Captain Elliot is asserted (see Harlan
631
"Med. and Phys. Res." page 35 and Dr. Meigs in "Transactions of the
632
American Philosophical Society"), to have found human bones, encrusted with
633
sea-shells, between fifteen and twenty feet above the level of the sea.
634
Between Rio de Janeiro and Cape Frio I crossed sandy tracts abounding with
635
sea-shells, at a distance of a league from the coast; but whether these
636
tracts have been formed by upheaval, or through the mere accumulation of
637
drift sand, I am not prepared to assert. At Bahia (latitude 13 degrees S.),
638
in some parts near the coast, there are traces of sea-action at the height
639
of about twenty feet above its present level; there are also, in many
640
parts, remnants of beds of sandstone and conglomerate with numerous recent
641
shells, raised a little above the sea-level. I may add, that at the head of
642
Bahia Bay there is a formation, about forty feet in thickness, containing
643
tertiary shells apparently of fresh-water origin, now washed by the sea and
644
encrusted with Balini; this appears to indicate a small amount of
645
subsidence subsequent to its deposition. At Pernambuco (latitude 8 degrees
646
S.), in the alluvial or tertiary cliffs, surrounding the low land on which
647
the city stands, I looked in vain for organic remains, or other evidence of
648
changes in level.)
649

650
SOUTHWARD OF THE PLATA.
651

652
The coast as far as Bahia Blanca (in latitude 39 degrees S.) is formed
653
either of a horizontal range of cliffs, or of immense accumulations of
654
sand-dunes. Within Bahia Blanca, a small piece of tableland, about twenty
655
feet above high-water mark, called Punta Alta, is formed of strata of
656
cemented gravel and of red earthy mud, abounding with shells (with others
657
lying loose on the surface), and the bones of extinct mammifers. These
658
shells, twenty in number, together with a Balanus and two corals, are all
659
recent species, still inhabiting the neighbouring seas. They will be
660
enumerated in the Fourth Chapter, when describing the Pampean formation;
661
five of them are identical with the upraised ones from near Buenos Ayres.
662
The northern shore of Bahia Blanca is, in main part, formed of immense
663
sand-dunes, resting on gravel with recent shells, and ranging in lines
664
parallel to the shore. These ranges are separated from each other by flat
665
spaces, composed of stiff impure red clay, in which, at the distance of
666
about two miles from the coast, I found by digging a few minute fragments
667
of sea-shells. The sand-dunes extend several miles inland, and stand on a
668
plain, which slopes up to a height of between one hundred and two hundred
669
feet. Numerous, small, well-rounded pebbles of pumice lie scattered both on
670
the plain and sand-hillocks: at Monte Hermoso, on the flat summit of a
671
cliff, I found many of them at a height of 120 feet (angular measurement)
672
above the level of the sea. These pumice pebbles, no doubt, were originally
673
brought down from the Cordillera by the rivers which cross the continent,
674
in the same way as the river Negro anciently brought down, and still brings
675
down, pumice, and as the river Chupat brings down scoriae: when once
676
delivered at the mouth of a river, they would naturally have travelled
677
along the coasts, and been cast up during the elevation of the land, at
678
different heights. The origin of the argillaceous flats, which separate the
679
parallel ranges of sand-dunes, seems due to the tides here having a
680
tendency (as I believe they have on most shoal, protected coasts) to throw
681
up a bar parallel to the shore, and at some distance from it; this bar
682
gradually becomes larger, affording a base for the accumulation of sand-
683
dunes, and the shallow space within then becomes silted up with mud. The
684
repetition of this process, without any elevation of the land, would form a
685
level plain traversed by parallel lines of sand-hillocks; during a slow
686
elevation of the land, the hillocks would rest on a gently inclined
687
surface, like that on the northern shore of Bahia Blanca. I did not observe
688
any shells in this neighbourhood at a greater height than twenty feet; and
689
therefore the age of the sea-drifted pebbles of pumice, now standing at the
690
height of 120 feet, must remain uncertain.
691

692
The main plain surrounding Bahia Blanca I estimated at from two hundred to
693
three hundred feet; it insensibly rises towards the distant Sierra Ventana.
694
There are in this neighbourhood some other and lower plains, but they do
695
not abut one at the foot of the other, in the manner hereafter to be
696
described, so characteristic of Patagonia. The plain on which the
697
settlement stands is crossed by many low sand-dunes, abounding with the
698
minute shells of the Paludestrina australis, d'Orbigny, which now lives in
699
the bay. This low plain is bounded to the south, at the Cabeza del Buey, by
700
the cliff-formed margin of a wide plain of the Pampean formation, which I
701
estimated at sixty feet in height. On the summit of this cliff there is a
702
range of high sand-dunes extending several miles in an east and west line.
703

704
Southward of Bahia Blanca, the river Colorado flows between two plains,
705
apparently from thirty to forty feet in height. Of these plains, the
706
southern one slopes up to the foot of the great sandstone plateau of the
707
Rio Negro; and the northern one against an escarpment of the Pampean
708
deposit; so that the Colorado flows in a valley fifty miles in width,
709
between the upper escarpments. I state this, because on the low plain at
710
the foot of the northern escarpment, I crossed an immense accumulation of
711
high sand-dunes, estimated by the Gauchos at no less than eight miles in
712
breadth. These dunes range westward from the coast, which is twenty miles
713
distant, to far inland, in lines parallel to the valley; they are separated
714
from each other by argillaceous flats, precisely like those on the northern
715
shore of Bahia Blanca. At present there is no source whence this immense
716
accumulation of sand could proceed; but if, as I believe, the upper
717
escarpments once formed the shores of an estuary, in that case the
718
sandstone formation of the river Negro would have afforded an inexhaustible
719
supply of sand, which would naturally have accumulated on the northern
720
shore, as on every part of the coast open to the south winds between Bahia
721
Blanca and Buenos Ayres.
722

723
At San Blas (40 degrees 40' S.) a little south of the mouth of the
724
Colorado, M. d'Orbigny found fourteen species of existing shells (six of
725
them identical with those from Bahia Blanca), embedded in their natural
726
positions. ("Voyage" etc. page 54.) From the zone of depth which these
727
shells are known to inhabit, they must have been uplifted thirty-two feet.
728
He also found, at from fifteen to twenty feet above this bed, the remains
729
of an ancient beach.
730

731
Ten miles southward, but 120 miles to the west, at Port S. Antonio, the
732
Officers employed on the Survey assured me that they saw many old sea-
733
shells strewed on the surface of the ground, similar to those found on
734
other parts of the coast of Patagonia. At San Josef, ninety miles south in
735
nearly the same longitude, I found, above the gravel, which caps an old
736
tertiary formation, an irregular bed and hillock of sand, several feet in
737
thickness, abounding with shells of Patella deaurita, Mytilus Magellanicus,
738
the latter retaining much of its colour; Fusus Magellanicus (and a variety
739
of the same), and a large Balanus (probably B. Tulipa), all now found on
740
this coast: I estimated this bed at from eighty to one hundred feet above
741
the level of the sea. To the westward of this bay, there is a plain
742
estimated at between two hundred and three hundred feet in height: this
743
plain seems, from many measurements, to be a continuation of the sandstone
744
platform of the river Negro. The next place southward, where I landed, was
745
at Port Desire, 340 miles distant; but from the intermediate districts I
746
received, through the kindness of the Officers of the Survey, especially
747
from Lieutenant Stokes and Mr. King, many specimens and sketches, quite
748
sufficient to show the general uniformity of the whole line of coast. I may
749
here state, that the whole of Patagonia consists of a tertiary formation,
750
resting on and sometimes surrounding hills of porphyry and quartz: the
751
surface is worn into many wide valleys and into level step-formed plains,
752
rising one above another, all capped by irregular beds of gravel, chiefly
753
composed of porphyritic rocks. This gravel formation will be separately
754
described at the end of the chapter.
755

756
My object in giving the following measurements of the plains, as taken by
757
the Officers of the Survey, is, as will hereafter be seen, to show the
758
remarkable equability of the recent elevatory movements. Round the southern
759
parts of Nuevo Gulf, as far as the River Chupat (seventy miles southward of
760
San Josef), there appear to be several plains, of which the best defined
761
are here represented.
762

763
(In the following Diagrams:
764
1. Baseline is Level of sea.
765
2. Scale is 1/20 of inch to 100 feet vertical.
766
3. Height is shown in feet thus:
767
An. M. always stands for angular or trigonometrical measurement.
768
Ba. M. always stands for barometrical measurement.
769
Est. always stands for estimation by the Officers of the Survey.
770

771
DIAGRAM 1. SECTION OF STEP-FORMED PLAINS SOUTH OF NUEVO GULF.
772

773
From East (sea level) to West (high):
774
Terrace 1. 80 Est.
775
Terrace 2. 200-220 An. M.
776
Terrace 3. 350 An. M.)
777

778
The upper plain is here well defined (called Table Hills); its edge forms a
779
cliff or line of escarpment many miles in length, projecting over a lower
780
plain. The lowest plain corresponds with that at San Josef with the recent
781
shells on its surface. Between this lowest and the uppermost plain, there
782
is probably more than one step-formed terrace: several measurements show
783
the existence of the intermediate one of the height given in Diagram 1.
784

785
(DIAGRAM 2. SECTION OF PLAINS IN THE BAY OF ST. GEORGE.
786

787
From East (sea level) to West (high):
788
Terrace 1. 250 An. M.
789
Terrace 2. 330 An. M.
790
Terrace 3. 580 An. M.
791
Terraces 4, 5 and 6 not measured.
792
Terrace 7. 1,200 Est.)
793

794
Near the north headland of the great Bay of St. George (100 miles south of
795
the Chupat), two well-marked plains of 250 and 330 feet were measured:
796
these are said to sweep round a great part of the Bay. At its south
797
headland, 120 miles distant from the north headland, the 250 feet plain was
798
again measured. In the middle of the bay, a higher plain was found at two
799
neighbouring places (Tilli Roads and C. Marques) to be 580 feet in height.
800
Above this plain, towards the interior, Mr. Stokes informs me that there
801
were several other step-formed plains, the highest of which was estimated
802
at 1,200 feet, and was seen ranging at apparently the same height for 150
803
miles northward. All these plains have been worn into great valleys and
804
much denuded. The section in  Diagram 3 is illustrative of the general
805
structure of the great Bay of St. George. At the south headland of the Bay
806
of St. George (near C. Three Points) the 250 plain is very extensive.
807

808
(DIAGRAM 3. SECTION OF PLAINS AT PORT DESIRE.
809

810
From East (sea level) to West (high):
811
Terrace 1. 100 Est.
812
Terrace 2. 245-255 Ba. M. Shells on surface.
813
Terrace 3. 330 Ba. M. Shells on surface.
814
Terrace 4. Not measured.)
815

816
At Port Desire (forty miles southward) I made several measurements with the
817
barometer of a plain, which extends along the north side of the port and
818
along the open coast, and which varies from 245 to 255 feet in height: this
819
plain abuts against the foot of a higher plain of 330 feet, which extends
820
also far northward along the coast, and likewise into the interior. In the
821
distance a higher inland platform was seen, of which I do not know the
822
height. In three separate places, I observed the cliff of the 245-255 feet
823
plain, fringed by a terrace or narrow plain estimated at about one hundred
824
feet in height. These plains are represented in the section Diagram 3.
825

826
In many places, even at the distance of three and four miles from the
827
coast, I found on the gravel-capped surface of the 245-255 feet, and of the
828
330 feet plain, shells of Mytilus Magellanicus, M. edulis, Patella
829
deaurita, and another Patella, too much worn to be identified, but
830
apparently similar to one found abundantly adhering to the leaves of the
831
kelp. These species are the commonest now living on this coast. The shells
832
all appeared very old; the blue of the mussels was much faded; and only
833
traces of colour could be perceived in the Patellas, of which the outer
834
surfaces were scaling off. They lay scattered on the smooth surface of the
835
gravel, but abounded most in certain patches, especially at the heads of
836
the smaller valleys: they generally contained sand in their insides; and I
837
presume that they have been washed by alluvial action out of thin sandy
838
layers, traces of which may sometimes be seen covering the gravel. The
839
several plains have very level surfaces; but all are scooped out by
840
numerous broad, winding, flat-bottomed valleys, in which, judging from the
841
bushes, streams never flow. These remarks on the state of the shells, and
842
on the nature of the plains, apply to the following cases, so need not be
843
repeated.
844

845
(DIAGRAM 4. SECTION OF PLAINS AT PORT S. JULIAN.
846

847
From East (sea level) to West (high):
848
Terrace 1. Shells on surface. 90 Est.
849
Terrace 2. 430 An. M.
850
Terrace 3. 560 An. M.
851
Terrace 4. 950 An. M.)
852

853
Southward of Port Desire, the plains have been greatly denuded, with only
854
small pieces of tableland marking their former extension. But opposite Bird
855
Island, two considerable step-formed plains were measured, and found
856
respectively to be 350 and 590 feet in height. This latter plain extends
857
along the coast close to Port St. Julian (110 miles south of Port Desire);
858
see Diagram 4.
859

860
The lowest plain was estimated at ninety feet: it is remarkable from the
861
usual gravel-bed being deeply worn into hollows, which are filled up with,
862
as well as the general surface covered by, sandy and reddish earthy matter:
863
in one of the hollows thus filled up, the skeleton of the Macrauchenia
864
Patachonica, as will hereafter be described, was embedded. On the surface
865
and in the upper parts of this earthy mass, there were numerous shells of
866
Mytilus Magellanicus and M. edulis, Patella deaurita, and fragments of
867
other species. This plain is tolerably level, but not extensive; it forms a
868
promontory seven or eight miles long, and three or four wide. The upper
869
plains in Diagram 4 were measured by the Officers of the Survey; they were
870
all capped by thick beds of gravel, and were all more or less denuded; the
871
950 plain consists merely of separate, truncated, gravel-capped hills, two
872
of which, by measurement, were found to differ only three feet. The 430
873
feet plain extends, apparently with hardly a break, to near the northern
874
entrance of the Rio Santa Cruz (fifty miles to the south); but it was there
875
found to be only 330 feet in height.
876

877
(DIAGRAM 5. SECTION OF PLAINS AT THE MOUTH OF THE RIO SANTA CRUZ.
878

879
From East (sea level) to West (high):
880
Terrace 1. (sloping) 355 Ba. M. Shells on surface. 463 Ba. M.
881
Terrace 2. 710 An. M.
882
Terrace 3. 840 An. M.)
883

884
On the southern side of the mouth of the Santa Cruz we have Diagram 5,
885
which I am able to give with more detail than in the foregoing cases.
886

887
The plain marked 355 feet (as ascertained by the barometer and by angular
888
measurement) is a continuation of the above-mentioned 330 feet plain: it
889
extends in a N.W. direction along the southern shores of the estuary. It is
890
capped by gravel, which in most parts is covered by a thin bed of sandy
891
earth, and is scooped out by many flat-bottomed valleys. It appears to the
892
eye quite level, but in proceeding in a S.S.W. course, towards an
893
escarpment distant about six miles, and likewise ranging across the country
894
in a N.W. line, it was found to rise at first insensibly, and then for the
895
last half-mile, sensibly, close up to the base of the escarpment: at this
896
point it was 463 feet in height, showing a rise of 108 feet in the six
897
miles. On this 355-463 feet plain, I found several shells of Mytilus
898
Magellanicus and of a Mytilus, which Mr. Sowerby informs me is yet unnamed,
899
though well-known as recent on this coast; Patella deaurita; Fusus, I
900
believe, Magellanicus, but the specimen has been lost; and at the distance
901
of four miles from the coast, at the height of about four hundred feet,
902
there were fragments of the same Patella and of a Voluta (apparently V.
903
ancilla) partially embedded in the superficial sandy earth. All these
904
shells had the same ancient appearance with those from the foregoing
905
localities. As the tides along this part of the coast rise at the Syzygal
906
period forty feet, and therefore form a well-marked beach-line, I
907
particularly looked out for ridges in crossing this plain, which, as we
908
have seen, rises 108 feet in about six miles, but I could not see any
909
traces of such. The next highest plain is 710 feet above the sea; it is
910
very narrow, but level, and is capped with gravel; it abuts to the foot of
911
the 840 feet plain. This summit-plain extends as far as the eye can range,
912
both inland along the southern side of the valley of the Santa Cruz, and
913
southward along the Atlantic.
914

915
THE VALLEY OF THE R. SANTA CRUZ.
916

917
This valley runs in an east and west direction to the Cordillera, a
918
distance of about one hundred and sixty miles. It cuts through the great
919
Patagonian tertiary formation, including, in the upper half of the valley,
920
immense streams of basaltic lava, which as well as the softer beds, are
921
capped by gravel; and this gravel, high up the river, is associated with a
922
vast boulder formation. (I have described this formation in a paper in the
923
"Geological Transactions" volume 6 page 415.) In ascending the valley, the
924
plain which at the mouth on the southern side is 355 feet high, is seen to
925
trend towards the corresponding plain on the northern side, so that their
926
escarpments appear like the shores of a former estuary, larger than the
927
existing one: the escarpments, also, of the 840 feet summit-plain (with a
928
corresponding northern one, which is met with some way up the valley),
929
appear like the shores of a still larger estuary. Farther up the valley,
930
the sides are bounded throughout its entire length by level, gravel-capped
931
terraces, rising above each other in steps. The width between the upper
932
escarpments is on an average between seven and ten miles; in one spot,
933
however, where cutting through the basaltic lava, it was only one mile and
934
a half. Between the escarpments of the second highest terrace the average
935
width is about four or five miles. The bottom of the valley, at the
936
distance of 110 miles from its mouth, begins sensibly to expand, and soon
937
forms a considerable plain, 440 feet above the level of the sea, through
938
which the river flows in a gut from twenty to forty feet in depth. I here
939
found, at a point 140 miles from the Atlantic, and seventy miles from the
940
nearest creek of the Pacific, at the height of 410 feet, a very old and
941
worn shell of Patella deaurita. Lower down the valley, 105 miles from the
942
Atlantic (longitude 71 degrees W.), and at an elevation of about 300 feet,
943
I also found, in the bed of the river, two much worn and broken shells of
944
the Voluta ancilla, still retaining traces of their colours; and one of the
945
Patella deaurita. It appeared that these shells had been washed from the
946
banks into the river; considering the distance from the sea, the desert and
947
absolutely unfrequented character of the country, and the very ancient
948
appearance of the shells (exactly like those found on the plains nearer the
949
coast), there is, I think, no cause to suspect that they could have been
950
brought here by Indians.
951

952
The plain at the head of the valley is tolerably level, but water-worn, and
953
with many sand-dunes on it like those on a sea-coast. At the highest point
954
to which we ascended, it was sixteen miles wide in a north and south line;
955
and forty-five miles in length in an east and west line. It is bordered by
956
the escarpments, one above the other, of two plains, which diverge as they
957
approach the Cordillera, and consequently resemble, at two levels, the
958
shores of great bays facing the mountains; and these mountains are breached
959
in front of the lower plain by a remarkable gap. The valley, therefore, of
960
the Santa Cruz consists of a straight broad cut, about ninety miles in
961
length, bordered by gravel-capped terraces and plains, the escarpments of
962
which at both ends diverge or expand, one over the other, after the manner
963
of the shores of great bays. Bearing in mind this peculiar form of the
964
land--the sand-dunes on the plain at the head of the valley--the gap in the
965
Cordillera, in front of it--the presence in two places of very ancient
966
shells of existing species--and lastly, the circumstance of the 355-453
967
feet plain, with the numerous marine remains on its surface, sweeping from
968
the Atlantic coast, far up the valley, I think we must admit, that within
969
the recent period, the course of the Santa Cruz formed a sea-strait
970
intersecting the continent. At this period, the southern part of South
971
America consisted of an archipelago of islands 360 miles in a north and
972
south line. We shall presently see, that two other straits also, since
973
closed, then cut through Tierra del Fuego; I may add, that one of them must
974
at that time have expanded at the foot of the Cordillera into a great bay
975
(now Otway Water) like that which formerly covered the 440 feet plain at
976
the head of the Santa Cruz.
977

978
(DIAGRAM 6. NORTH AND SOUTH SECTION ACROSS THE TERRACES BOUNDING THE VALLEY
979
OF THE RIVER SANTA CRUZ, HIGH UP ITS COURSE.
980

981
The height of each terrace, above the level of the river (furthest to
982
nearest to the river) in feet:
983

984
A, north and south: 1,122
985
B, north and south: 869
986
C, north and south: 639
987
D, north: not measured. D, north? (suggest south): 185
988
E: 20
989
Bed of River.
990

991
Vertical scale 1/20 of inch to 100 feet; but terrace E, being only twenty
992
feet above the river, has necessarily been raised. The horizontal distances
993
much contracted; the distance from the edge of A North to A South being on
994
an average from seven to ten miles.)
995
I have said that the valley in its whole course is bordered by gravel-
996
capped plains. The section (Diagram 6), supposed to be drawn in a north and
997
south line across the valley, can scarcely be considered as more than
998
illustrative; for during our hurried ascent it was impossible to measure
999
all the plains at any one place. At a point nearly midway between the
1000
Cordillera and the Atlantic, I found the plain (A north) 1,122 feet above
1001
the river; all the lower plains on this side were here united into one
1002
great broken cliff: at a point sixteen miles lower down the stream, I found
1003
by measurement and estimation that B (north) was 869 above the river: very
1004
near to where A (north) was measured, C (north) was 639 above the same
1005
level: the terrace D (north) was nowhere measured: the lowest E (north) was
1006
in many places about twenty feet above the river. These plains or terraces
1007
were best developed where the valley was widest; the whole five, like
1008
gigantic steps, occurred together only at a few points. The lower terraces
1009
are less continuous than the higher ones, and appear to be entirely lost in
1010
the upper third of the valley. Terrace C (south), however was traced
1011
continuously for a great distance. The terrace B (north), at a point fifty-
1012
five miles from the mouth of the river, was four miles in width; higher up
1013
the valley this terrace (or at least the second highest one, for I could
1014
not always trace it continuously) was about eight miles wide. This second
1015
plain was generally wider than the lower ones--as indeed follows from the
1016
valley from A (north) to A (south) being generally nearly double the width
1017
of from B (north) to B (south). Low down the valley, the summit-plain A
1018
(south) is continuous with the 840 feet plain on the coast, but it is soon
1019
lost or unites with the escarpment of B (south). The corresponding plain A
1020
(north), on the north side of the valley, appears to range continuously
1021
from the Cordillera to the head of the present estuary of the Santa Cruz,
1022
where it trends northward towards Port St. Julian. Near the Cordillera the
1023
summit-plain on both sides of the valley is between 3,200 and 3,300 feet in
1024
height; at 100 miles from the Atlantic, it is 1,416 feet, and on the coast
1025
840 feet, all above the sea-beach; so that in a distance of 100 miles the
1026
plain rises 576 feet, and much more rapidly near to the Cordillera. The
1027
lower terraces B and C also appear to rise as they run up the valley; thus
1028
D (north), measured at two points twenty-four miles apart, was found to
1029
have risen 185 feet. From several reasons I suspect, that this gradual
1030
inclination of the plains up the valley, has been chiefly caused by the
1031
elevation of the continent in mass, having been the greater the nearer to
1032
the Cordillera.
1033

1034
All the terraces are capped with well-rounded gravel, which rests either on
1035
the denuded and sometimes furrowed surface of the soft tertiary deposits,
1036
or on the basaltic lava. The difference in height between some of the lower
1037
steps or terraces seems to be entirely owing to a difference in the
1038
thickness of the capping gravel. Furrows and inequalities in the gravel,
1039
where such occur, are filled up and smoothed over with sandy earth. The
1040
pebbles, especially on the higher plains, are often whitewashed, and even
1041
cemented together by a white aluminous substance, and I occasionally found
1042
this to be the case with the gravel on the terrace D. I could not perceive
1043
any trace of a similar deposition on the pebbles now thrown up by the
1044
river, and therefore I do not think that terrace D was river-formed. As the
1045
terrace E generally stands about twenty feet above the bed of the river, my
1046
first impression was to doubt whether even this lowest one could have been
1047
so formed; but it should always be borne in mind, that the horizontal
1048
upheaval of a district, by increasing the total descent of the streams,
1049
will always tend to increase, first near the sea-coast and then further and
1050
further up the valley, their corroding and deepening powers: so that an
1051
alluvial plain, formed almost on a level with a stream, will, after an
1052
elevation of this kind, in time be cut through, and left standing at a
1053
height never again to be reached by the water. With respect to the three
1054
upper terraces of the Santa Cruz, I think there can be no doubt, that they
1055
were modelled by the sea, when the valley was occupied by a strait, in the
1056
same manner (hereafter to be discussed) as the greater step-formed, shell-
1057
strewed plains along the coast of Patagonia.
1058

1059
To return to the shores of the Atlantic: the 840 feet plain, at the mouth
1060
of the Santa Cruz, is seen extending horizontally far to the south; and I
1061
am informed by the Officers of the Survey, that bending round the head of
1062
Coy Inlet (sixty-five miles southward), it trends inland. Outliers of
1063
apparently the same height are seen forty miles farther south, inland of
1064
the river Gallegos; and a plain comes down to Cape Gregory (thirty-five
1065
miles southward), in the Strait of Magellan, which was estimated at between
1066
eight hundred and one thousand feet in height, and which, rising towards
1067
the interior, is capped by the boulder formation. South of the Strait of
1068
Magellan, there are large outlying masses of apparently the same great
1069
tableland, extending at intervals along the eastern coast of Tierra del
1070
Fuego: at two places here, 110 miles a part, this plain was found to be 950
1071
and 970 feet in height.
1072

1073
From Coy Inlet, where the high summit-plain trends inland, a plain
1074
estimated at 350 feet in height, extends for forty miles to the river
1075
Gallegos. From this point to the Strait of Magellan, and on each side of
1076
that Strait, the country has been much denuded and is less level. It
1077
consists chiefly of the boulder formation, which rises to a height of
1078
between one hundred and fifty and two hundred and fifty feet, and is often
1079
capped by beds of gravel. At N.S. Gracia, on the north side of the Inner
1080
Narrows of the Strait of Magellan, I found on the summit of a cliff, 160
1081
feet in height, shells of existing Patellae and Mytili, scattered on the
1082
surface and partially embedded in earth. On the eastern coast, also, of
1083
Tierra del Fuego, in latitude 53 degrees 20' south, I found many Mytili on
1084
some level land, estimated at 200 feet in height. Anterior to the elevation
1085
attested by these shells, it is evident by the present form of the land,
1086
and by the distribution of the great erratic boulders on the surface, that
1087
two sea-channels connected the Strait of Magellan both with Sebastian Bay
1088
and with Otway Water. ("Geological Transactions" volume 6 page 419.)
1089

1090
CONCLUDING REMARKS ON THE RECENT ELEVATION OF THE SOUTH-EASTERN COASTS OF
1091
AMERICA, AND ON THE ACTION OF THE SEA ON THE LAND.
1092

1093
Upraised shells of species, still existing as the commonest kinds in the
1094
adjoining sea, occur, as we have seen, at heights of between a few feet and
1095
410 feet, at intervals from latitude 33 degrees 40' to 53 degrees 20'
1096
south. This is a distance of 1,180 geographical miles--about equal from
1097
London to the North Cape of Sweden. As the boulder formation extends with
1098
nearly the same height 150 miles south of 53 degrees 20', the most southern
1099
point where I landed and found upraised shells; and as the level Pampas
1100
ranges many hundred miles northward of the point, where M. d'Orbigny found
1101
at the height of 100 feet beds of the Azara, the space in a north and south
1102
line, which has been uplifted within the recent period, must have been much
1103
above the 1,180 miles. By the term "recent," I refer only to that period
1104
within which the now living mollusca were called into existence; for it
1105
will be seen in the Fourth Chapter, that both at Bahia Blanca and P. S.
1106
Julian, the mammiferous quadrupeds which co-existed with these shells
1107
belong to extinct species. I have said that the upraised shells were found
1108
only at intervals on this line of coast, but this in all probability may be
1109
attributed to my not having landed at the intermediate points; for wherever
1110
I did land, with the exception of the river Negro, shells were found:
1111
moreover, the shells are strewed on plains or terraces, which, as we shall
1112
immediately see, extend for great distances with a uniform height. I
1113
ascended the higher plains only in a few places, owing to the distance at
1114
which their escarpments generally range from the coast, so that I am far
1115
from knowing that 410 feet is the maximum of elevation of these upraised
1116
remains. The shells are those now most abundant in a living state in the
1117
adjoining sea. (Captain King "Voyages of 'Adventure' and 'Beagle'" volume 1
1118
pages 6 and 133.) All of them have an ancient appearance; but some,
1119
especially the mussels, although lying fully exposed to the weather, retain
1120
to a considerable extent their colours: this circumstance appears at first
1121
surprising, but it is now known that the colouring principle of the Mytilus
1122
is so enduring, that it is preserved when the shell itself is completely
1123
disintegrated. (See Mr. Lyell "Proofs of a Gradual Rising in Sweden" in the
1124
"Philosophical Transactions" 1835 page 1. See also Mr. Smith of Jordan Hill
1125
in the "Edinburgh New Philosophical Journal" volume 25 page 393.) Most of
1126
the shells are broken; I nowhere found two valves united; the fragments are
1127
not rounded, at least in none of the specimens which I brought home.
1128

1129
With respect to the breadth of the upraised area in an east and west line,
1130
we know from the shells found at the Inner Narrows of the Strait of
1131
Magellan, that the entire width of the plain, although there very narrow,
1132
has been elevated. It is probable that in this southernmost part of the
1133
continent, the movement has extended under the sea far eastward; for at the
1134
Falkland Islands, though I could not find any shells, the bones of whales
1135
have been noticed by several competent observers, lying on the land at a
1136
considerable distance from the sea, and at the height of some hundred feet
1137
above it. ("Voyages of the 'Adventure' and 'Beagle'" volume 2 page 227. And
1138
Bougainville's "Voyage" tome 1 page 112.) Moreover, we know that in Tierra
1139
del Fuego the boulder formation has been uplifted within the recent period,
1140
and a similar formation occurs on the north-western shores (Byron Sound) of
1141
these islands. (I owe this fact to the kindness of Captain Sulivan, R.N., a
1142
highly competent observer. I mention it more especially, as in my Paper
1143
(page 427) on the Boulder Formation, I have, after having examined the
1144
northern and middle parts of the eastern island, said that the formation
1145
was here wholly absent.) The distance from this point to the Cordillera of
1146
Tierra del Fuego, is 360 miles, which we may take as the probable width of
1147
the recently upraised area. In the latitude of the R. Santa Cruz, we know
1148
from the shells found at the mouth and head, and in the middle of the
1149
valley, that the entire width (about 160 miles) of the surface eastward of
1150
the Cordillera has been upraised. From the slope of the plains, as shown by
1151
the course of the rivers, for several degrees northward of the Santa Cruz,
1152
it is probable that the elevation attested by the shells on the coast has
1153
likewise extended to the Cordillera. When, however, we look as far
1154
northward as the provinces of La Plata, this conclusion would be very
1155
hazardous; not only is the distance from Maldonado (where I found upraised
1156
shells) to the Cordillera great, namely, 760 miles, but at the head of the
1157
estuary of the Plata, a N.N.E. and S.S.W. range of tertiary volcanic rocks
1158
has been observed (This volcanic formation will be described in Chapter IV.
1159
It is not improbable that the height of the upraised shells at the head of
1160
the estuary of the Plata, being greater than at Bahia Blanca or at San
1161
Blas, may be owing to the upheaval of these latter places having been
1162
connected with the distant line of the Cordillera, whilst that of the
1163
provinces of La Plata was in connection with the adjoining tertiary
1164
volcanic axis.), which may well indicate an axis of elevation quite
1165
distinct from that of the Andes. Moreover, in the centre of the Pampas in
1166
the chain of Cordova, severe earthquakes have been felt (See Sir W.
1167
Parish's work on "La Plata" page 242. For a notice of an earthquake which
1168
drained a lake near Cordova, see also Temple's "Travels in Peru." Sir W.
1169
Parish informs me, that a town between Salta and Tucuman (north of Cordova)
1170
was formerly utterly overthrown by an earthquake.); whereas at Mendoza, at
1171
the eastern foot of the Cordillera, only gentle oscillations, transmitted
1172
from the shores of the Pacific, have ever been experienced. Hence the
1173
elevation of the Pampas may be due to several distinct axes of movement;
1174
and we cannot judge, from the upraised shells round the estuary of the
1175
Plata, of the breadth of the area uplifted within the recent period.
1176

1177
Not only has the above specified long range of coast been elevated within
1178
the recent period, but I think it may be safely inferred from the
1179
similarity in height of the gravel-capped plains at distant points, that
1180
there has been a remarkable degree of equability in the elevatory process.
1181
I may premise, that when I measured the plains, it was simply to ascertain
1182
the heights at which shells occurred; afterwards, comparing these
1183
measurements with some of those made during the Survey, I was struck with
1184
their uniformity, and accordingly tabulated all those which represented the
1185
summit-edges of plains. The extension of the 330 to 355 feet plain is very
1186
striking, being found over a space of 500 geographical miles in a north and
1187
south line. A table (Table 1) of the measurements is given below. The
1188
angular measurements and all the estimations (in feet) are by the Officers
1189
of the Survey; the barometrical ones by myself:--
1190

1191
TABLE 1.
1192

1193
Gallegos River to Coy Inlet (partly angular partly estimation) 350
1194
South Side of Santa Cruz (angular and barometric)              355
1195
North Side of Santa Cruz (angular and barometric)              330
1196
Bird Island, plain opposite to (angular)                       350
1197
Port Desire, plain extending far along coast (barometric)      330
1198
St. George's Bay, north promontory (angular)                   330
1199
Table Land, south of New Bay (angular)                         350
1200

1201
A plain, varying from 245 to 255 feet, seems to extend with much uniformity
1202
from Port Desire to the north of St. George's Bay, a distance of 170 miles;
1203
and some approximate measurements (in feet), also given in Table 2 below,
1204
indicate the much greater extension of 780 miles:--
1205

1206
TABLE 2.
1207

1208
Coy Inlet, south of (partly angular and partly estimation) 200 to 300
1209
Port Desire (barometric)                                   245 to 255
1210
C. Blanco (angular)                                        250
1211
North Promontory of St. George's Bay (angular)             250
1212
South of New Bay (angular)                                 200 to 220
1213
North of S. Josef (estimation)                             200 to 300
1214
Plain of Rio Negro (angular)                               200 to 220
1215
Bahia Blanca (estimation)                                  200 to 300
1216

1217
The extension, moreover, of the 560 to 580, and of the 80 to 100 feet,
1218
plains is remarkable, though somewhat less obvious than in the former
1219
cases. Bearing in mind that I have not picked these measurements out of a
1220
series, but have used all those which represented the edges of plains, I
1221
think it scarcely possible that these coincidences in height should be
1222
accidental. We must therefore conclude that the action, whatever it may
1223
have been, by which these plains have been modelled into their present
1224
forms, has been singularly uniform.
1225

1226
These plains or great terraces, of which three and four often rise like
1227
steps one behind the other, are formed by the denudation of the old
1228
Patagonian tertiary beds, and by the deposition on their surfaces of a mass
1229
of well-rounded gravel, varying, near the coast, from ten to thirty-five
1230
feet in thickness, but increasing in thickness towards the interior. The
1231
gravel is often capped by a thin irregular bed of sandy earth. The plains
1232
slope up, though seldom sensibly to the eye, from the summit edge of one
1233
escarpment to the foot of the next highest one. Within a distance of 150
1234
miles, between Santa Cruz to Port Desire, where the plains are particularly
1235
well developed, there are at least seven stages or steps, one above the
1236
other. On the three lower ones, namely, those of 100 feet, 250 feet, and
1237
350 feet in height, existing littoral shells are abundantly strewed, either
1238
on the surface, or partially embedded in the superficial sandy earth. By
1239
whatever action these three lower plains have been modelled, so undoubtedly
1240
have all the higher ones, up to a height of 950 feet at S. Julian, and of
1241
1,200 feet (by estimation) along St. George's Bay. I think it will not be
1242
disputed, considering the presence of the upraised marine shells, that the
1243
sea has been the active power during stages of some kind in the elevatory
1244
process.
1245

1246
We will now briefly consider this subject: if we look at the existing
1247
coast-line, the evidence of the great denuding power of the sea is very
1248
distinct; for, from Cape St. Diego, in latitude 54 degrees 30' to the mouth
1249
of the Rio Negro, in latitude 31 degrees (a length of more than eight
1250
hundred miles), the shore is formed, with singularly few exceptions, of
1251
bold and naked cliffs: in many places the cliffs are high; thus, south of
1252
the Santa Cruz, they are between eight and nine hundred feet in height,
1253
with their horizontal strata abruptly cut off, showing the immense mass of
1254
matter which has been removed. Nearly this whole line of coast consists of
1255
a series of greater or lesser curves, the horns of which, and likewise
1256
certain straight projecting portions, are formed of hard rocks; hence the
1257
concave parts are evidently the effect and the measure of the denuding
1258
action on the softer strata. At the foot of all the cliffs, the sea shoals
1259
very gradually far outwards; and the bottom, for a space of some miles,
1260
everywhere consists of gravel. I carefully examined the bed of the sea off
1261
the Santa Cruz, and found that its inclination was exactly the same, both
1262
in amount and in its peculiar curvature, with that of the 355 feet plain at
1263
this same place. If, therefore, the coast, with the bed of the adjoining
1264
sea, were now suddenly elevated one or two hundred feet, an inland line of
1265
cliffs, that is an escarpment, would be formed, with a gravel-capped plain
1266
at its foot gently sloping to the sea, and having an inclination like that
1267
of the existing 355 feet plain. From the denuding tendency of the sea, this
1268
newly formed plain would in time be eaten back into a cliff: and
1269
repetitions of this elevatory and denuding process would produce a series
1270
of gravel-capped sloping terraces, rising one above another, like those
1271
fronting the shores of Patagonia.
1272

1273
The chief difficulty (for there are other inconsiderable ones) on this
1274
view, is the fact,--as far as I can trust two continuous lines of soundings
1275
carefully taken between Santa Cruz and the Falkland Islands, and several
1276
scattered observations on this and other coasts,--that the pebbles at the
1277
bottom of the sea QUICKLY and REGULARLY decrease in size with the
1278
increasing depth and distance from the shore, whereas in the gravel on the
1279
sloping plains, no such decrease in size was perceptible.
1280

1281
Table 3 below gives the average result of many soundings off the Santa
1282
Cruz:--
1283
TABLE 3.
1284

1285
Under two miles from the shore, many of the pebbles were of large size,
1286
mingled with some small ones.
1287

1288
Column 1. Distance in miles from the shore.
1289

1290
Column 2. Depth in fathoms.
1291

1292
Column 3. Size of Pebbles.
1293

1294
1.          2.         3.
1295

1296
3 to 4      11 to 12   As large as walnuts; mingled in every case with
1297
                       some smaller ones.
1298

1299
6 to 7      17 to 19   As large as hazel-nuts.
1300

1301
10 to 11    23 to 25   From three- to four-tenths of an inch in diameter.
1302

1303
12          30 to 40   Two-tenths of an inch.
1304

1305
22 to 150   45 to 65   One-tenth of an inch, to the finest sand.
1306

1307
I particularly attended to the size of the pebbles on the 355 feet Santa
1308
Cruz plain, and I noticed that on the summit-edge of the present sea cliffs
1309
many were as large as half a man's head; and in crossing from these cliffs
1310
to the foot of the next highest escarpment, a distance of six miles, I
1311
could not observe any increase in their size. We shall presently see that
1312
the theory of a slow and almost insensible rise of the land, will explain
1313
all the facts connected with the gravel-capped terraces, better than the
1314
theory of sudden elevations of from one to two hundred feet.
1315

1316
M. d'Orbigny has argued, from the upraised shells at San Blas being
1317
embedded in the positions in which they lived, and from the valves of the
1318
Azara labiata high on the banks of the Parana being united and unrolled,
1319
that the elevation of Northern Patagonia and of La Plata must have been
1320
sudden; for he thinks, if it had been gradual, these shells would all have
1321
been rolled on successive beach-lines. But in PROTECTED bays, such as in
1322
that of Bahia Blanca, wherever the sea is accumulating extensive mud-banks,
1323
or where the winds quietly heap up sand-dunes, beds of shells might
1324
assuredly be preserved buried in the positions in which they had lived,
1325
even whilst the land retained the same level; any, the smallest, amount of
1326
elevation would directly aid in their preservation. I saw a multitude of
1327
spots in Bahia Blanca where this might have been effected; and at Maldonado
1328
it almost certainly has been effected. In speaking of the elevation of the
1329
land having been slow, I do not wish to exclude the small starts which
1330
accompany earthquakes, as on the coast of Chile; and by such movements beds
1331
of shells might easily be uplifted, even in positions exposed to a heavy
1332
surf, without undergoing any attrition: for instance, in 1835, a rocky flat
1333
off the island of Santa Maria was at one blow upheaved above high-water
1334
mark, and was left covered with gaping and putrefying mussel-shells, still
1335
attached to the bed on which they had lived. If M. d'Orbigny had been aware
1336
of the many long parallel lines of sand-hillocks, with infinitely numerous
1337
shells of the Mactra and Venus, at a low level near the Uruguay; if he had
1338
seen at Bahia Blanca the immense sand-dunes, with water-worn pebbles of
1339
pumice, ranging in parallel lines, one behind the other, up a height of at
1340
least 120 feet; if he had seen the sand-dunes, with the countless
1341
Paludestrinas, on the low plain near the Fort at this place, and that long
1342
line on the edge of the cliff, sixty feet higher up; if he had crossed that
1343
long and great belt of parallel sand-dunes, eight miles in width, standing
1344
at the height of from forty to fifty feet above the Colorado, where sand
1345
could not now collect,--I cannot believe he would have thought that the
1346
elevation of this great district had been sudden. Certainly the sand-dunes
1347
(especially when abounding with shells), which stand in ranges at so many
1348
different levels, must all have required long time for their accumulation;
1349
and hence I do not doubt that the last 100 feet of elevation of La Plata
1350
and Northern Patagonia has been exceedingly slow.
1351

1352
If we extend this conclusion to Central and Southern Patagonia, the
1353
inclination of the successively rising gravel-capped plains can be
1354
explained quite as well, as by the more obvious view already given of a few
1355
comparatively great and sudden elevations; in either case we must admit
1356
long periods of rest, during which the sea ate deeply into the land. Let us
1357
suppose the present coast to rise at a nearly equable, slow rate, yet
1358
sufficiently quick to prevent the waves quite removing each part as soon as
1359
brought up; in this case every portion of the present bed of the sea will
1360
successively form a beach-line, and from being exposed to a like action
1361
will be similarly affected. It cannot matter to what height the tides rise,
1362
even if to forty feet as at Santa Cruz, for they will act with equal force
1363
and in like manner on each successive line. Hence there is no difficulty in
1364
the fact of the 355 feet plain at Santa Cruz sloping up 108 feet to the
1365
foot of the next highest escarpment, and yet having no marks of any one
1366
particular beach-line on it; for the whole surface on this view has been a
1367
beach. I cannot pretend to follow out the precise action of the tidal-waves
1368
during a rise of the land, slow, yet sufficiently quick to prevent or check
1369
denudation: but if it be analogous to what takes place on protected parts
1370
of the present coast, where gravel is now accumulating in large quantities,
1371
an inclined surface, thickly capped by well-rounded pebbles of about the
1372
same size, would be ultimately left. (On the eastern side of Chiloe, which
1373
island we shall see in the next chapter is now rising, I observed that all
1374
the beaches and extensive tidal-flats were formed of shingle.) On the
1375
gravel now accumulating, the waves, aided by the wind, sometimes throw up a
1376
thin covering of sand, together with the common coast-shells. Shells thus
1377
cast up by gales, would, during an elevatory period, never again be touched
1378
by the sea. Hence, on this view of a slow and gradual rising of the land,
1379
interrupted by periods of rest and denudation, we can understand the
1380
pebbles being of about the same size over the entire width of the step-like
1381
plains,--the occasional thin covering of sandy earth,--and the presence of
1382
broken, unrolled fragments of those shells, which now live exclusively near
1383
the coast.
1384

1385
SUMMARY OF RESULTS.
1386

1387
It may be concluded that the coast on this side of the continent, for a
1388
space of at least 1,180 miles, has been elevated to a height of 100 feet in
1389
La Plata, and of 400 feet in Southern Patagonia, within the period of
1390
existing shells, but not of existing mammifers. That in La Plata the
1391
elevation has been very slowly effected: that in Patagonia the movement may
1392
have been by considerable starts, but much more probably slow and quiet. In
1393
either case, there have been long intervening periods of comparative rest,
1394
during which the sea corroded deeply, as it is still corroding, into the
1395
land. (I say COMPARATIVE and not ABSOLUTE rest, because the sea acts, as we
1396
have seen, with great denuding power on this whole line of coast; and
1397
therefore, during an elevation of the land, if excessively slow (and of
1398
course during a subsidence of the land), it is quite possible that lines of
1399
cliff might be formed.) That the periods of denudation and elevation were
1400
contemporaneous and equable over great spaces of coast, as shown by the
1401
equable heights of the plains; that there have been at least eight periods
1402
of denudation, and that the land, up to a height of from 950 to 1,200 feet,
1403
has been similarly modelled and affected: that the area elevated, in the
1404
southernmost part of the continent, extended in breadth to the Cordillera,
1405
and probably seaward to the Falkland Islands; that northward, in La Plata,
1406
the breadth is unknown, there having been probably more than one axis of
1407
elevation; and finally, that, anterior to the elevation attested by these
1408
upraised shells, the land was divided by a Strait where the River Santa
1409
Cruz now flows, and that further southward there were other sea-straits,
1410
since closed. I may add, that at Santa Cruz, in latitude 50 degrees S., the
1411
plains have been uplifted at least 1,400 feet, since the period when
1412
gigantic boulders were transported between sixty and seventy miles from
1413
their parent rock, on floating icebergs.
1414

1415
Lastly, considering the great upward movements which this long line of
1416
coast has undergone, and the proximity of its southern half to the volcanic
1417
axis of the Cordillera, it is highly remarkable that in the many fine
1418
sections exposed in the Pampean, Patagonian tertiary, and Boulder
1419
formations, I nowhere observed the smallest fault or abrupt curvature in
1420
the strata.
1421

1422
GRAVEL FORMATION OF PATAGONIA.
1423

1424
I will here describe in more detail than has been as yet incidentally done,
1425
the nature, origin, and extent of the great shingle covering of Patagonia:
1426
but I do not mean to affirm that all of this shingle, especially that on
1427
the higher plains, belongs to the recent period. A thin bed of sandy earth,
1428
with small pebbles of various porphyries and of quartz, covering a low
1429
plain on the north side of the Rio Colorado, is the extreme northern limit
1430
of this formation. These little pebbles have probably been derived from the
1431
denudation of a more regular bed of gravel, capping the old tertiary
1432
sandstone plateau of the Rio Negro. The gravel-bed near the Rio Negro is,
1433
on an average, about ten or twelve feet in thickness; and the pebbles are
1434
larger than on the northern side of the Colorado, being from one or two
1435
inches in diameter, and composed chiefly of rather dark-tinted porphyries.
1436
Amongst them I here first noticed a variety often to be referred to,
1437
namely, a peculiar gallstone-yellow siliceous porphyry, frequently, but not
1438
invariably, containing grains of quartz. The pebbles are embedded in a
1439
white, gritty, calcareous matrix, very like mortar, sometimes merely
1440
coating with a whitewash the separate stones, and sometimes forming the
1441
greater part of the mass. In one place I saw in the gravel concretionary
1442
nodules (not rounded) of crystallised gypsum, some as large as a man's
1443
head. I traced this bed for forty-five miles inland, and was assured that
1444
it extended far into the interior. As the surface of the calcareo-
1445
argillaceous plain of Pampean formation, on the northern side of the wide
1446
valley of the Colorado, stands at about the same height with the mortar-
1447
like cemented gravel capping the sandstone on the southern side, it is
1448
probable, considering the apparent equability of the subterranean movements
1449
along this side of America, that this gravel of the Rio Negro and the upper
1450
beds of the Pampean formation northward of the Colorado, are of nearly
1451
contemporaneous origin, and that the calcareous matter has been derived
1452
from the same source.
1453

1454
Southward of the Rio Negro, the cliffs along the great bay of S. Antonio
1455
are capped with gravel: at San Josef, I found that the pebbles closely
1456
resembled those on the plain of the Rio Negro, but that they were not
1457
cemented by calcareous matter. Between San Josef and Port Desire, I was
1458
assured by the Officers of the Survey that the whole face of the country is
1459
coated with gravel. At Port Desire and over a space of twenty-five miles
1460
inland, on the three step-formed plains and in the valleys, I everywhere
1461
passed over gravel which, where thickest, was between thirty and forty
1462
feet. Here, as in other parts of Patagonia, the gravel, or its sandy
1463
covering, was, as we have seen, often strewed with recent marine shells.
1464
The sandy covering sometimes fills up furrows in the gravel, as does the
1465
gravel in the underlying tertiary formations. The pebbles are frequently
1466
whitewashed and even cemented together by a peculiar, white, friable,
1467
aluminous, fusible substance, which I believe is decomposed feldspar. At
1468
Port Desire, the gravel rested sometimes on the basal formation of
1469
porphyry, and sometimes on the upper or the lower denuded tertiary strata.
1470
It is remarkable that most of the porphyritic pebbles differ from those
1471
varieties of porphyry which occur here abundantly in situ. The peculiar
1472
gallstone-yellow variety was common, but less numerous than at Port S.
1473
Julian, where it formed nearly one-third of the mass of the gravel; the
1474
remaining part there consisting of pale grey and greenish porphyries with
1475
many crystals of feldspar. At Port S. Julian, I ascended one of the flat-
1476
topped hills, the denuded remnant of the highest plain, and found it, at
1477
the height of 950 feet, capped with the usual bed of gravel.
1478

1479
Near the mouth of the Santa Cruz, the bed of gravel on the 355 feet plain
1480
is from twenty to about thirty-five feet in thickness. The pebbles vary
1481
from minute ones to the size of a hen's egg, and even to that of half a
1482
man's head; they consist of paler varieties of porphyry than those found
1483
further northward, and there are fewer of the gallstone-yellow kind;
1484
pebbles of compact black clay-slate were here first observed. The gravel,
1485
as we have seen, covers the step-formed plains at the mouth, head, and on
1486
the sides of the great valley of the Santa Cruz. At a distance of 110 miles
1487
from the coast, the plain has risen to the height of 1,416 feet above the
1488
sea; and the gravel, with the associated great boulder formation, has
1489
attained a thickness of 212 feet. The plain, apparently with its usual
1490
gravel covering, slopes up to the foot of the Cordillera to the height of
1491
between 3,200 and 3,300 feet. In ascending the valley, the gravel gradually
1492
becomes entirely altered in character: high up, we have pebbles of
1493
crystalline feldspathic rocks, compact clay-slate, quartzose schists, and
1494
pale-coloured porphyries; these rocks, judging both from the gigantic
1495
boulders in the surface and from some small pebbles embedded beneath 700
1496
feet in thickness of the old tertiary strata, are the prevailing kinds in
1497
this part of the Cordillera; pebbles of basalt from the neighbouring
1498
streams of basaltic lava are also numerous; there are few or none of the
1499
reddish or of the gallstone-yellow porphyries so common near the coast.
1500
Hence the pebbles on the 350 feet plain at the mouth of the Santa Cruz
1501
cannot have been derived (with the exception of those of compact clay-
1502
slate, which, however, may equally well have come from the south) from the
1503
Cordillera in this latitude; but probably, in chief part, from farther
1504
north.
1505

1506
Southward of the Santa Cruz, the gravel may be seen continuously capping
1507
the great 840 feet plain: at the Rio Gallegos, where this plain is
1508
succeeded by a lower one, there is, as I am informed by Captain Sulivan, an
1509
irregular covering of gravel from ten to twelve feet in thickness over the
1510
whole country. The district on each side of the Strait of Magellan is
1511
covered up either with gravel or the boulder formation: it was interesting
1512
to observe the marked difference between the perfectly rounded state of the
1513
pebbles in the great shingle formation of Patagonia, and the more or less
1514
angular fragments in the boulder formation. The pebbles and fragments near
1515
the Strait of Magellan nearly all belong to rocks known to occur in Fuegia.
1516
I was therefore much surprised in dredging south of the Strait to find, in
1517
latitude 54 degrees 10' south, many pebbles of the gallstone-yellow
1518
siliceous porphyry; I procured others from a great depth off Staten Island,
1519
and others were brought me from the western extremity of the Falkland
1520
Islands. (At my request, Mr. Kent collected for me a bag of pebbles from
1521
the beach of White Rock harbour, in the northern part of the sound, between
1522
the two Falkland Islands. Out of these well-rounded pebbles, varying in
1523
size from a walnut to a hen's egg, with some larger, thirty-eight evidently
1524
belonged to the rocks of these islands; twenty-six were similar to the
1525
pebbles of porphyry found on the Patagonian plains, which rocks do not
1526
exist in situ in the Falklands; one pebble belonged to the peculiar yellow
1527
siliceous porphyry; thirty were of doubtful origin.) The distribution of
1528
the pebbles of this peculiar porphyry, which I venture to affirm is not
1529
found in situ either in Fuegia, the Falkland Islands, or on the coast of
1530
Patagonia, is very remarkable, for they are found over a space of 840 miles
1531
in a north and south line, and at the Falklands, 300 miles eastward of the
1532
coast of Patagonia. Their occurrence in Fuegia and the Falklands may,
1533
however, perhaps be due to the same ice-agency by which the boulders have
1534
been there transported.
1535

1536
We have seen that porphyritic pebbles of a small size are first met with on
1537
the northern side of the Rio Colorado, the bed becoming well developed near
1538
the Rio Negro: from this latter point I have every reason to believe that
1539
the gravel extends uninterruptedly over the plains and valleys of Patagonia
1540
for at least 630 nautical miles southward to the Rio Gallegos. From the
1541
slope of the plains, from the nature of the pebbles, from their extension
1542
at the Rio Negro far into the interior, and at the Santa Cruz close up to
1543
the Cordillera, I think it highly probable that the whole breadth of
1544
Patagonia is thus covered. If so, the average width of the bed must be
1545
about two hundred miles. Near the coast the gravel is generally from ten to
1546
thirty feet in thickness; and as in the valley of Santa Cruz it attains, at
1547
some distance from the Cordillera, a thickness of 214 feet, we may, I
1548
think, safely assume its average thickness over the whole area of 630 by
1549
200 miles, at fifty feet!
1550

1551
The transportal and origin of this vast bed of pebbles is an interesting
1552
problem. From the manner in which they cap the step-formed plains, worn by
1553
the sea within the period of existing shells, their deposition, at least on
1554
the plains up to a height of 400 feet, must have been a recent geological
1555
event. From the form of the continent, we may feel sure that they have come
1556
from the westward, probably, in chief part from the Cordillera, but,
1557
perhaps, partly from unknown rocky ridges in the central districts of
1558
Patagonia. That the pebbles have not been transported by rivers, from the
1559
interior towards the coast, we may conclude from the fewness and smallness
1560
of the streams of Patagonia: moreover, in the case of the one great and
1561
rapid river of Santa Cruz, we have good evidence that its transporting
1562
power is very trifling. This river is from two to three hundred yards in
1563
width, about seventeen feet deep in its middle, and runs with a singular
1564
degree of uniformity five knots an hour, with no lakes and scarcely any
1565
still reaches: nevertheless, to give one instance of its small transporting
1566
power, upon careful examination, pebbles of compact basalt could not be
1567
found in the bed of the river at a greater distance than ten miles below
1568
the point where the stream rushes over the debris of the great basaltic
1569
cliffs forming its shore: fragments of the CELLULAR varieties have been
1570
washed down twice or thrice as far. That the pebbles in Central and
1571
Northern Patagonia have not been transported by ice-agency, as seems to
1572
have been the case to a considerable extent farther south, and likewise in
1573
the northern hemisphere, we may conclude, from the absence of all angular
1574
fragments in the gravel, and from the complete contrast in many other
1575
respects between the shingle and neighbouring boulder formation.
1576

1577
Looking to the gravel on any one of the step-formed plains, I cannot doubt,
1578
from the several reasons assigned in this chapter, that it has been spread
1579
out and leveled by the long-continued action of the sea, probably during
1580
the slow rise of the land. The smooth and perfectly rounded condition of
1581
the innumerable pebbles alone would prove long-continued action. But how
1582
the whole mass of shingle on the coast-plains has been transported from the
1583
mountains of the interior, is another and more difficult question. The
1584
following considerations, however, show that the sea by its ordinary action
1585
has considerable power in distributing pebbles. Table 3 above shows how
1586
very uniformly and gradually the pebbles decrease in size with the
1587
gradually seaward increasing depth and distance. (I may mention, that at
1588
the distance of 150 miles from the Patagonian shore I carefully examined
1589
the minute rounded particles in the sand, and found them to be fusible like
1590
the porphyries of the great shingle bed. I could even distinguish particles
1591
of the gallstone-yellow porphyry. It was interesting to notice how
1592
gradually the particles of white quartz increased, as we approached the
1593
Falkland Islands, which are thus constituted. In the whole line of
1594
soundings between these islands and the coast of Patagonia dead or living
1595
organic remains were most rare. On the relations between the depth of water
1596
and the nature of the bottom, see Martin White on "Soundings in the
1597
Channel" pages 4, 6, 175; also Captain Beechey's "Voyage to the Pacific"
1598
chapter 18.) A series of this kind irresistibly leads to the conclusion,
1599
that the sea has the power of sifting and distributing the loose matter on
1600
its bottom. According to Martin White, the bed of the British Channel is
1601
disturbed during gales at depths of sixty-three and sixty-seven fathoms,
1602
and at thirty fathoms, shingle and fragments of shells are often deposited,
1603
afterwards to be carried away again. ("Soundings in the Channel" pages 4,
1604
166. M. Siau states ("Edinburgh New Philosophical Journal" volume 31 page
1605
246), that he found the sediment, at a depth of 188 metres, arranged in
1606
ripples of different degrees of fineness. There are some excellent
1607
discussions on this and allied subjects in Sir H. De la Beche's
1608
"Theoretical Researches.") Groundswells, which are believed to be caused by
1609
distant gales, seem especially to affect the bottom: at such times,
1610
according to Sir R. Schomburgk, the sea to a great distance round the West
1611
Indian Islands, at depths from five to fifteen fathoms, becomes
1612
discoloured, and even the anchors of vessels have been moved. ("Journal of
1613
Royal Geographical Society" volume 5 page 25. It appears from Mr. Scott
1614
Russell's investigations (see Mr. Murchison's "Anniversary Address
1615
Geological Society" 1843 page 40), that in waves of translation the motion
1616
of the particles of water is nearly as great at the bottom as at the top.)
1617
There are, however, some difficulties in understanding how the sea can
1618
transport pebbles lying at the bottom, for, from experiments instituted on
1619
the power of running water, it would appear that the currents of the sea
1620
have not sufficient velocity to move stones of even moderate size:
1621
moreover, I have repeatedly found in the most exposed situations that the
1622
pebbles which lie at the bottom are encrusted with full-grown living
1623
corallines, furnished with the most delicate, yet unbroken spines: for
1624
instance, in ten fathoms water off the mouth of the Santa Cruz, many
1625
pebbles, under half an inch in diameter, were thus coated with Flustracean
1626
zoophytes. (A pebble, one and a half inch square and half an inch thick,
1627
was given me, dredged up from twenty-seven fathoms depth off the western
1628
end of the Falkland Islands, where the sea is remarkably stormy, and
1629
subject to violent tides. This pebble was encrusted on all sides by a
1630
delicate living coralline. I have seen many pebbles from depths between
1631
forty and seventy fathoms thus encrusted; one from the latter depth off
1632
Cape Horn.) Hence we must conclude that these pebbles are not often
1633
violently disturbed: it should, however, be borne in mind that the growth
1634
of corallines is rapid. The view, propounded by Professor Playfair, will, I
1635
believe, explain this apparent difficulty,--namely, that from the
1636
undulations of the sea TENDING to lift up and down pebbles or other loose
1637
bodies at the bottom, such are liable, when thus quite or partially raised,
1638
to be moved even by a very small force, a little onwards. We can thus
1639
understand how oceanic or tidal currents of no great strength, or that
1640
recoil movement of the bottom-water near the land, called by sailors the
1641
"undertow" (which I presume must extend out seaward as far as the BREAKING
1642
waves impel the surface-water towards the beach), may gain the power during
1643
storms of sifting and distributing pebbles even of considerable size, and
1644
yet without so violently disturbing them as to injure the encrusting
1645
corallines. (I may take this opportunity of remarking on a singular, but
1646
very common character in the form of the bottom, in the creeks which deeply
1647
penetrate the western shores of Tierra del Fuego; namely, that they are
1648
almost invariably much shallower close to the open sea at their mouths than
1649
inland. Thus, Cook, in entering Christmas Sound, first had soundings in
1650
thirty-seven fathoms, then in fifty, then in sixty, and a little farther in
1651
no bottom with 170 fathoms. The sealers are so familiar with this fact,
1652
that they always look out for anchorage near the entrances of the creeks.
1653
See, also, on this subject, the "Voyages of the 'Adventure' and 'Beagle'"
1654
volume 1 page 375 and "Appendix" page 313. This Shoalness of the sea-
1655
channels near their entrances probably results from the quantity of
1656
sediment formed by the wear and tear of the outer rocks exposed to the full
1657
force of the open sea. I have no doubt that many lakes, for instance in
1658
Scotland, which are very deep within, and are separated from the sea
1659
apparently only by a tract of detritus, were originally sea-channels with
1660
banks of this nature near their mouths, which have since been upheaved.)
1661

1662
The sea acts in another and distinct manner in the distribution of pebbles,
1663
namely by the waves on the beach. Mr. Palmer, in his excellent memoir on
1664
this subject, has shown that vast masses of shingle travel with surprising
1665
quickness along lines of coast, according to the direction with which the
1666
waves break on the beach and that this is determined by the prevailing
1667
direction of the winds. ("Philosophical Transactions" 1834 page 576.) This
1668
agency must be powerful in mingling together and disseminating pebbles
1669
derived from different sources: we may, perhaps, thus understand the wide
1670
distribution of the gallstone-yellow porphyry; and likewise, perhaps, the
1671
great difference in the nature of the pebbles at the mouth of the Santa
1672
Cruz from those in the same latitude at the head of the valley.
1673

1674
I will not pretend to assign to these several and complicated agencies
1675
their shares in the distribution of the Patagonian shingle: but from the
1676
several considerations given in this chapter, and I may add, from the
1677
frequency of a capping of gravel on tertiary deposits in all parts of the
1678
world, as I have myself observed and seen stated in the works of various
1679
authors, I cannot doubt that the power of widely dispersing gravel is an
1680
ordinary contingent on the action of the sea; and that even in the case of
1681
the great Patagonian shingle-bed we have no occasion to call in the aid of
1682
debacles. I at one time imagined that perhaps an immense accumulation of
1683
shingle had originally been collected at the foot of the Cordillera; and
1684
that this accumulation, when upraised above the level of the sea, had been
1685
eaten into and partially spread out (as off the present line of coast); and
1686
that the newly-spread out bed had in its turn been upraised, eaten into,
1687
and re-spread out; and so onwards, until the shingle, which was first
1688
accumulated in great thickness at the foot of the Cordillera, had reached
1689
in thinner beds its present extension. By whatever means the gravel
1690
formation of Patagonia may have been distributed, the vastness of its area,
1691
its thickness, its superficial position, its recent origin, and the great
1692
degree of similarity in the nature of its pebbles, all appear to me well
1693
deserving the attention of geologists, in relation to the origin of the
1694
widely-spread beds of conglomerate belonging to past epochs.
1695

1696
FORMATION OF CLIFFS.
1697

1698
(DIAGRAM 7.--SECTION OF COAST-CLIFFS AND BOTTOM OF SEA, OFF THE ISLAND OF
1699
ST. HELENA.
1700

1701
Height in feet above sea level.
1702

1703
Depths in fathoms.
1704

1705
Vertical and horizontal scale, two inches to a nautical mile. The point
1706
marked 1,600 feet is at the foot of High Knoll; point marked 510 feet is on
1707
the edge of Ladder Hill. The strata consist of basaltic streams.
1708

1709
Section left to right:
1710

1711
Height at the foot of High Knoll: 1,600 at top of strata.
1712

1713
Height on the edge of Ladder Hill: 510 at top of strata.
1714

1715
Bottom at coast rocky only to a depth of five or six fathoms.
1716

1717
30 fathoms: bottom mud and sand.
1718

1719
100 fathoms sloping more sharply to 250 fathoms.)
1720

1721
When viewing the sea-worn cliffs of Patagonia, in some parts between eight
1722
hundred and nine hundred feet in height, and formed of horizontal tertiary
1723
strata, which must once have extended far seaward--or again, when viewing
1724
the lofty cliffs round many volcanic islands, in which the gentle
1725
inclination of the lava-streams indicates the former extension of the land,
1726
a difficulty often occurred to me, namely, how the strata could possibly
1727
have been removed by the action of the sea at a considerable depth beneath
1728
its surface. The section in Diagram 7, which represents the general form of
1729
the land on the northern and leeward side of St. Helena (taken from Mr.
1730
Seale's large model and various measurements), and of the bottom of the
1731
adjoining sea (taken chiefly from Captain Austin's survey and some old
1732
charts), will show the nature of this difficulty.
1733

1734
If, as seems probable, the basaltic streams were originally prolonged with
1735
nearly their present inclination, they must, as shown by the dotted line in
1736
the section, once have extended at least to a point, now covered by the sea
1737
to a depth of nearly thirty fathoms: but I have every reason to believe
1738
they extended considerably further, for the inclination of the streams is
1739
less near the coast than further inland. It should also be observed, that
1740
other sections on the coast of this island would have given far more
1741
striking results, but I had not the exact measurements; thus, on the
1742
windward side, the cliffs are about two thousand feet in height and the
1743
cut-off lava streams very gently inclined, and the bottom of the sea has
1744
nearly a similar slope all round the island. How, then, has all the hard
1745
basaltic rock, which once extended beneath the surface of the sea, been
1746
worn away? According to Captain Austin, the bottom is uneven and rocky only
1747
to that very small distance from the beach within which the depth is from
1748
five to six fathoms; outside this line, to a depth of about one hundred
1749
fathoms, the bottom is smooth, gently inclined, and formed of mud and sand;
1750
outside the one hundred fathoms, it plunges suddenly into unfathomable
1751
depths, as is so very commonly the case on all coasts where sediment is
1752
accumulating. At greater depths than the five or six fathoms, it seems
1753
impossible, under existing circumstances, that the sea can both have worn
1754
away hard rock, in parts to a thickness of at least 150 feet, and have
1755
deposited a smooth bed of fine sediment. Now, if we had any reason to
1756
suppose that St. Helena had, during a long period, gone on slowly
1757
subsiding, every difficulty would be removed: for looking at the diagram,
1758
and imagining a fresh amount of subsidence, we can see that the waves would
1759
then act on the coast-cliffs with fresh and unimpaired vigour, whilst the
1760
rocky ledge near the beach would be carried down to that depth, at which
1761
sand and mud would be deposited on its bare and uneven surface: after the
1762
formation near the shore of a new rocky shoal, fresh subsidence would carry
1763
it down and allow it to be smoothly covered up. But in the case of the many
1764
cliff-bounded islands, for instance in some of the Canary Islands and of
1765
Madeira, round which the inclination of the strata shows that the land once
1766
extended far into the depths of the sea, where there is no apparent means
1767
of hard rock being worn away--are we to suppose that all these islands have
1768
slowly subsided? Madeira, I may remark, has, according to Mr. Smith of
1769
Jordan Hill, subsided. Are we to extend this conclusion to the high, cliff-
1770
bound, horizontally stratified shores of Patagonia, off which, though the
1771
water is not deep even at the distance of several miles, yet the smooth
1772
bottom of pebbles gradually decreasing in size with the increasing depth,
1773
and derived from a foreign source, seem to declare that the sea is now a
1774
depositing and not a corroding agent? I am much inclined to suspect, that
1775
we shall hereafter find in all such cases, that the land with the adjoining
1776
bed of the sea has in truth subsided: the time will, I believe, come, when
1777
geologists will consider it as improbable, that the land should have
1778
retained the same level during a whole geological period, as that the
1779
atmosphere should have remained absolutely calm during an entire season.
1780

1781

1782
CHAPTER II. ON THE ELEVATION OF THE WESTERN COAST OF SOUTH AMERICA.
1783

1784
Chonos Archipelago.
1785
Chiloe, recent and gradual elevation of, traditions of the inhabitants on
1786
this subject.
1787
Concepcion, earthquake and elevation of.
1788
VALPARAISO, great elevation of, upraised shells, earth of marine origin,
1789
gradual rise of the land within the historical period.
1790
COQUIMBO, elevation of, in recent times; terraces of marine origin, their
1791
inclination, their escarpments not horizontal.
1792
Guasco, gravel terraces of.
1793
Copiapo.
1794
PERU.
1795
Upraised shells of Cobija, Iquique, and Arica.
1796
Lima, shell-beds and sea-beach on San Lorenzo, human remains, fossil
1797
earthenware, earthquake debacle, recent subsidence.
1798
On the decay of upraised shells.
1799
General summary.
1800

1801
Commencing at the south and proceeding northward, the first place at which
1802
I landed, was at Cape Tres Montes, in latitude 46 degrees 35'. Here, on the
1803
shores of Christmas Cove, I observed in several places a beach of pebbles
1804
with recent shells, about twenty feet above high-water mark. Southward of
1805
Tres Montes (between latitude 47 and 48 degrees), Byron remarks, "We
1806
thought it very strange, that upon the summits of the highest hills were
1807
found beds of shells, a foot or two thick." ("Narrative of the Loss of the
1808
'Wager'.") In the Chonos Archipelago, the island of Lemus (latitude 44
1809
degrees 30') was, according to M. Coste, suddenly elevated eight feet,
1810
during the earthquake of 1829: he adds, "Des roches jadis toujours
1811
couvertes par la mer, restant aujourd'hui constamment decouvertes."
1812
("Comptes Rendus" October 1838 page 706.) In other parts of this
1813
archipelago, I observed two terraces of gravel, abutting to the foot of
1814
each other: at Lowe's Harbour (43 degrees 48'), under a great mass of the
1815
boulder formation, about three hundred feet in thickness, I found a layer
1816
of sand, with numerous comminuted fragments of sea-shells, having a fresh
1817
aspect, but too small to be identified.
1818

1819
THE ISLAND OF CHILOE.
1820

1821
The evidence of recent elevation is here more satisfactory. The bay of San
1822
Carlos is in most parts bounded by precipitous cliffs from about ten to
1823
forty feet in height, their bases being separated from the present line of
1824
tidal action by a talus, a few feet in height, covered with vegetation. In
1825
one sheltered creek (west of P. Arena), instead of a loose talus, there was
1826
a bare sloping bank of tertiary mudstone, perforated, above the line of the
1827
highest tides, by numerous shells of a Pholas now common in the harbour.
1828
The upper extremities of these shells, standing upright in their holes with
1829
grass growing out of them, were abraded about a quarter of an inch, to the
1830
same level with the surrounding worn strata. In other parts, I observed (as
1831
at Pudeto) a great beach, formed of comminuted shells, twenty feet above
1832
the present shore. In other parts again, there were small caves worn into
1833
the foot of the low cliffs, and protected from the waves by the talus with
1834
its vegetation: one such cave, which I examined, had its mouth about twenty
1835
feet, and its bottom, which was filled with sand containing fragments of
1836
shells and legs of crabs, from eight to ten feet above high-water mark.
1837
From these several facts, and from the appearance of the upraised shells, I
1838
inferred that the elevation had been quite recent; and on inquiring from
1839
Mr. Williams, the Portmaster, he told me he was convinced that the land had
1840
risen, or the sea fallen, four feet within the last four years. During this
1841
period, there had been one severe earthquake, but no particular change of
1842
level was then observed; from the habits of the people who all keep boats
1843
in the protected creeks, it is absolutely impossible that a rise of four
1844
feet could have taken place suddenly and been unperceived. Mr. Williams
1845
believes that the change has been quite gradual. Without the elevatory
1846
movement continues at a quick rate, there can be no doubt that the sea will
1847
soon destroy the talus of earth at the foot of the cliffs round the bay,
1848
and will then reach its former lateral extension, but not of course its
1849
former level: some of the inhabitants assured me that one such talus, with
1850
a footpath on it, was even already sensibly decreasing in width.
1851

1852
I received several accounts of beds of shells, existing at considerable
1853
heights in the inland parts of Chiloe; and to one of these, near Catiman, I
1854
was guided by a countryman. Here, on the south side of the peninsula of
1855
Lacuy, there was an immense bed of the Venus costellata and of an oyster,
1856
lying on the summit-edge of a piece of tableland, 350 feet (by the
1857
barometer) above the level of the sea. The shells were closely packed
1858
together, embedded in and covered by a very black, damp, peaty mould, two
1859
or three feet in thickness, out of which a forest of great trees was
1860
growing. Considering the nature and dampness of this peaty soil, it is
1861
surprising that the fine ridges on the outside of the Venus are perfectly
1862
preserved, though all the shells have a blackened appearance. I did not
1863
doubt that the black soil, which when dry, cakes hard, was entirely of
1864
terrestrial origin, but on examining it under the microscope, I found many
1865
very minute rounded fragments of shells, amongst which I could distinguish
1866
bits of Serpulae and mussels. The Venus costellata, and the Ostrea (O.
1867
edulis, according to Captain King) are now the commonest shells in the
1868
adjoining bays. In a bed of shells, a few feet below the 350 feet bed, I
1869
found a horn of the little Cervus humilis, which now inhabits Chiloe.
1870

1871
The eastern or inland side of Chiloe, with its many adjacent islets,
1872
consists of tertiary and boulder deposits, worn into irregular plains
1873
capped by gravel. Near Castro, and for ten miles southward, and on the
1874
islet of Lemuy, I found the surface of the ground to a height of between
1875
twenty and thirty feet above high-water mark, and in several places
1876
apparently up to fifty feet, thickly coated by much comminuted shells,
1877
chiefly of the Venus costellata and Mytilus Chiloensis; the species now
1878
most abundant on this line of coast. As the inhabitants carry immense
1879
numbers of these shells inland, the continuity of the bed at the same
1880
height was often the only means of recognising its natural origin. Near
1881
Castro, on each side of the creek and rivulet of the Gamboa, three distinct
1882
terraces are seen: the lowest was estimated at about one hundred and fifty
1883
feet in height, and the highest at about five hundred feet, with the
1884
country irregularly rising behind it; obscure traces, also, of these same
1885
terraces could be seen along other parts of the coast. There can be no
1886
doubt that their three escarpments record pauses in the elevation of the
1887
island. I may remark that several promontories have the word Huapi, which
1888
signifies in the Indian tongue, island, appended to them, such as
1889
Huapilinao, Huapilacuy, Caucahuapi, etc.; and these, according to Indian
1890
traditions, once existed as islands. In the same manner the term Pulo in
1891
Sumatra is appended to the names of promontories, traditionally said to
1892
have been islands (Marsden's "Sumatra" page 31.); in Sumatra, as in Chiloe,
1893
there are upraised recent shells. The Bay of Carelmapu, on the mainland
1894
north of Chiloe, according to Aguerros, was in 1643 a good harbour
1895
("Descripcion Hist. de la Provincia de Chiloe" page 78. From the account
1896
given by the old Spanish writers, it would appear that several other
1897
harbours, between this point and Concepcion, were formerly much deeper than
1898
they now are.); it is now quite useless, except for boats.
1899

1900
VALDIVIA.
1901

1902
I did not observe here any distinct proofs of recent elevation; but in a
1903
bed of very soft sandstone, forming a fringe-like plain, about sixty feet
1904
in height, round the hills of mica-slate, there are shells of Mytilus,
1905
Crepidula, Solen, Novaculina, and Cytheraea, too imperfect to be
1906
specifically recognised. At Imperial, seventy miles north of Valdivia,
1907
Aguerros states that there are large beds of shells, at a considerable
1908
distance from the coast, which are burnt for lime. (Ibid page 25.) The
1909
island of Mocha, lying a little north of Imperial, was uplifted two feet,
1910
during the earthquake of 1835. ("Voyages of 'Adventure' and 'Beagle'"
1911
volume 2 page 415.)
1912

1913
CONCEPCION.
1914

1915
I cannot add anything to the excellent account by Captain Fitzroy of the
1916
elevation of the land at this place, which accompanied the earthquake of
1917
1835. (Ibid volume 2 page 412 et seq. In volume 5 page 601 of the
1918
"Geological Transactions" I have given an account of the remarkable
1919
volcanic phenomena, which accompanied this earthquake. These phenomena
1920
appear to me to prove that the action, by which large tracts of land are
1921
uplifted, and by which volcanic eruptions are produced, is in every respect
1922
identical.) I will only recall to the recollection of geologists, that the
1923
southern end of the island of St. Mary was uplifted eight feet, the central
1924
part nine, and the northern end ten feet; and the whole island more than
1925
the surrounding districts. Great beds of mussels, patellae, and chitons
1926
still adhering to the rocks were upraised above high-water mark; and some
1927
acres of a rocky flat, which was formerly always covered by the sea, was
1928
left standing dry, and exhaled an offensive smell, from the many attached
1929
and putrefying shells. It appears from the researches of Captain Fitzroy
1930
that both the island of St. Mary and Concepcion (which was uplifted only
1931
four or five feet) in the course of some weeks subsided, and lost part of
1932
their first elevation. I will only add as a lesson of caution, that round
1933
the sandy shores of the great Bay of Concepcion, it was most difficult,
1934
owing to the obliterating effects of the great accompanying wave, to
1935
recognise any distinct evidence of this considerable upheaval; one spot
1936
must be excepted, where there was a detached rock which before the
1937
earthquake had always been covered by the sea, but afterwards was left
1938
uncovered.
1939

1940
On the island of Quiriquina (in the Bay of Concepcion), I found, at an
1941
estimated height of four hundred feet, extensive layers of shells, mostly
1942
comminuted, but some perfectly preserved and closely packed in black
1943
vegetable mould; they consisted of Concholepas, Fissurella, Mytilus,
1944
Trochus, and Balanus. Some of these layers of shells rested on a thick bed
1945
of bright-red, dry, friable earth, capping the surface of the tertiary
1946
sandstone, and extending, as I observed whilst sailing along the coast, for
1947
150 miles southward: at Valparaiso, we shall presently see that a similar
1948
red earthy mass, though quite like terrestrial mould, is really in chief
1949
part of recent marine origin. On the flanks of this island of Quiriquina,
1950
at a less height than the 400 feet, there were spaces several feet square,
1951
thickly strewed with fragments of similar shells. During a subsequent visit
1952
of the "Beagle" to Concepcion, Mr. Kent, the assistant-surgeon, was so kind
1953
as to make for me some measurements with the barometer: he found many
1954
marine remains along the shores of the whole bay, at a height of about
1955
twenty feet; and from the hill of Sentinella behind Talcahuano, at the
1956
height of 160 feet, he collected numerous shells, packed together close
1957
beneath the surface in black earth, consisting of two species of Mytilus,
1958
two of Crepidula, one of Concholepas, of Fissurella, Venus, Mactra, Turbo,
1959
Monoceros, and the Balanus psittacus. These shells were bleached, and
1960
within some of the Balani other Balani were growing, showing that they must
1961
have long lain dead in the sea. The above species I compared with living
1962
ones from the bay, and found them identical; but having since lost the
1963
specimens, I cannot give their names: this is of little importance, as Mr.
1964
Broderip has examined a similar collection, made during Captain Beechey's
1965
expedition, and ascertained that they consisted of ten recent species,
1966
associated with fragments of Echini, crabs, and Flustrae; some of these
1967
remains were estimated by Lieutenant Belcher to lie at the height of nearly
1968
a thousand feet above the level of the sea. ("Zoology of Captain Beechey's
1969
Voyage" page 162.) In some places round the bay, Mr. Kent observed that
1970
there were beds formed exclusively of the Mytilus Chiloensis: this species
1971
now lives in parts never uncovered by the tides. At considerable heights,
1972
Mr. Kent found only a few shells; but from the summit of one hill, 625 feet
1973
high, he brought me specimens of the Concholepas, Mytilus Chiloensis, and a
1974
Turbo. These shells were softer and more brittle than those from the height
1975
of 164 feet; and these latter had obviously a much more ancient appearance
1976
than the same species from the height of only twenty feet.
1977

1978
COAST NORTH OF CONCEPCION.
1979

1980
The first point examined was at the mouth of the Rapel (160 miles north of
1981
Concepcion and sixty miles south of Valparaiso), where I observed a few
1982
shells at the height of 100 feet, and some barnacles adhering to the rocks
1983
three or four feet above the highest tides: M. Gay found here recent shells
1984
at the distance of two leagues from the shore. ("Annales des Scienc. Nat."
1985
Avril 1833.) Inland there are some wide, gravel-capped plains, intersected
1986
by many broad, flat-bottomed valleys (now carrying insignificant
1987
streamlets), with their sides cut into successive wall-like escarpments,
1988
rising one above another, and in many places, according to M. Gay, worn
1989
into caves. The one cave (C. del Obispo) which I examined, resembled those
1990
formed on many sea-coasts, with its bottom filled with shingle. These
1991
inland plains, instead of sloping towards the coast, are inclined in an
1992
opposite direction towards the Cordillera, like the successively rising
1993
terraces on the inland or eastern side of Chiloe: some points of granite,
1994
which project through the plains near the coast, no doubt once formed a
1995
chain of outlying islands, on the inland shores of which the plains were
1996
accumulated. At Bucalemu, a few miles northward of the Rapel, I observed at
1997
the foot, and on the summit-edge of a plain, ten miles from the coast, many
1998
recent shells, mostly comminuted, but some perfect. There were, also, many
1999
at the bottom of the great valley of the Maypu. At San Antonio, shells are
2000
said to be collected and burnt for lime. At the bottom of a great ravine
2001
(Quebrada Onda, on the road to Casa Blanca), at the distance of several
2002
miles from the coast, I noticed a considerable bed, composed exclusively of
2003
Mesodesma donaciforme, Desh., lying on a bed of muddy sand: this shell now
2004
lives associated together in great numbers, on tidal-flats on the coast of
2005
Chile.
2006

2007
VALPARAISO.
2008

2009
During two successive years I carefully examined, part of the time in
2010
company with Mr. Alison, into all the facts connected with the recent
2011
elevation of this neighbourhood. In very many parts a beach of broken
2012
shells, about fourteen or fifteen feet above high-water mark, may be
2013
observed; and at this level the coast-rocks, where precipitous, are
2014
corroded in a band. At one spot, Mr. Alison, by removing some birds' dung,
2015
found at this same level barnacles adhering to the rocks. For several miles
2016
southward of the bay, almost every flat little headland, between the
2017
heights of 60 and 230 feet (measured by the barometer), is smoothly coated
2018
by a thick mass of comminuted shells, of the same species, and apparently
2019
in the same proportional numbers with those existing in the adjoining sea.
2020
The Concholepas is much the most abundant, and the best preserved shell;
2021
but I extracted perfectly preserved specimens of the Fissurella biradiata,
2022
a Trochus and Balanus (both well-known, but according to Mr. Sowerby yet
2023
unnamed) and parts of the Mytilus Chiloensis. Most of these shells, as well
2024
as an encrusting Nullipora, partially retain their colour; but they are
2025
brittle, and often stained red from the underlying brecciated mass of
2026
primary rocks; some are packed together, either in black or reddish moulds;
2027
some lie loose on the bare rocky surfaces. The total number of these shells
2028
is immense; they are less numerous, though still far from rare, up a height
2029
of 1,000 feet above the sea. On the summit of a hill, measured 557 feet,
2030
there was a small horizontal band of comminuted shells, of which MANY
2031
consisted (and likewise from lesser heights) of very young and small
2032
specimens of the still living Concholepas, Trochus, Patellae, Crepidulae,
2033
and of Mytilus Magellanicus (?) (Mr. Cuming informs me that he does not
2034
think this species identical with, though closely resembling, the true M.
2035
Magellanicus of the southern and eastern coast of South America; it lives
2036
abundantly on the coast of Chile.): several of these shells were under a
2037
quarter of an inch in their greatest diameter. My attention was called to
2038
this circumstance by a native fisherman, whom I took to look at these
2039
shell-beds; and he ridiculed the notion of such small shells having been
2040
brought up for food; nor could some of the species have adhered when alive
2041
to other larger shells. On another hill, some miles distant, and 648 feet
2042
high, I found shells of the Concholepas and Trochus, perfect, though very
2043
old, with fragments of Mytilus Chiloensis, all embedded in reddish-brown
2044
mould: I also found these same species, with fragments of an Echinus and of
2045
Balanus psittacus, on a hill 1,000 feet high. Above this height, shells
2046
became very rare, though on a hill 1,300 feet high (Measured by the
2047
barometer: the highest point in the range behind Valparaiso I found to be
2048
1,626 feet above the level of the sea.), I collected the Concholepas,
2049
Trochus, Fissurella, and a Patella. At these greater heights the shells are
2050
almost invariably embedded in mould, and sometimes are exposed only by
2051
tearing up bushes. These shells obviously had a very much more ancient
2052
appearance than those from the lesser heights; the apices of the Trochi
2053
were often worn down; the little holes made by burrowing animals were
2054
greatly enlarged; and the Concholepas was often perforated quite through,
2055
owing to the inner plates of shell having scaled off.
2056

2057
Many of these shells, as I have said, were packed in, and were quite filled
2058
with, blackish or reddish-brown earth, resting on the granitic detritus. I
2059
did not doubt until lately that this mould was of purely terrestrial
2060
origin, when with a microscope examining some of it from the inside of a
2061
Concholepas from the height of about one hundred feet, I found that it was
2062
in considerable part composed of minute fragments of the spines, mouth-
2063
bones, and shells of Echini, and of minute fragments, of chiefly very young
2064
Patellae, Mytili, and other species. I found similar microscopical
2065
fragments in earth filling up the central orifices of some large
2066
Fissurellae. This earth when crushed emits a sickly smell, precisely like
2067
that from garden-mould mixed with guano. The earth accidentally preserved
2068
within the shells, from the greater heights, has the same general
2069
appearance, but it is a little redder; it emits the same smell when rubbed,
2070
but I was unable to detect with certainty any marine remains in it. This
2071
earth resembles in general appearance, as before remarked, that capping the
2072
rocks of Quiriquina in the Bay of Concepcion, on which beds of sea-shells
2073
lay. I have, also, shown that the black, peaty soil, in which the shells at
2074
the height of 350 feet at Chiloe were packed, contained many minute
2075
fragments of marine animals. These facts appear to me interesting, as they
2076
show that soils, which would naturally be considered of purely terrestrial
2077
nature, may owe their origin in chief part to the sea.
2078

2079
Being well aware from what I have seen at Chiloe and in Tierra del Fuego,
2080
that vast quantities of shells are carried, during successive ages, far
2081
inland, where the inhabitants chiefly subsist on these productions, I am
2082
bound to state that at greater heights than 557 feet, where the number of
2083
very young and small shells proved that they had not been carried up for
2084
food, the only evidence of the shells having been naturally left by the
2085
sea, consists in their invariable and uniform appearance of extreme
2086
antiquity--in the distance of some of the places from the coast, in others
2087
being inaccessible from the nearest part of the beach, and in the absence
2088
of fresh water for men to drink--in the shells NOT LYING IN HEAPS,--and,
2089
lastly, in the close similarity of the soil in which they are embedded, to
2090
that which lower down can be unequivocally shown to be in great part formed
2091
from the debris of the sea animals. (In the "Proceedings of the Geological
2092
Society" volume 2 page 446, I have given a brief account of the upraised
2093
shells on the coast of Chile, and have there stated that the proofs of
2094
elevation are not satisfactory above the height of 230 feet. I had at that
2095
time unfortunately overlooked a separate page written during my second
2096
visit to Valparaiso, describing the shells now in my possession from the
2097
557 feet hill; I had not then unpacked my collections, and had not
2098
reconsidered the obvious appearance of greater antiquity of the shells from
2099
the greater heights, nor had I at that time discovered the marine origin of
2100
the earth in which many of the shells are packed. Considering these facts,
2101
I do not now feel a shadow of doubt that the shells, at the height of 1,300
2102
feet, have been upraised by natural causes into their present position.)
2103

2104
With respect to the position in which the shells lie, I was repeatedly
2105
struck here, at Concepcion, and at other places, with the frequency of
2106
their occurrence on the summits and edges either of separate hills, or of
2107
little flat headlands often terminating precipitously over the sea. The
2108
several above-enumerated species of mollusca, which are found strewed on
2109
the surface of the land from a few feet above the level of the sea up to
2110
the height of 1,300 feet, all now live either on the beach, or at only a
2111
few fathoms' depth: Mr. Edmondston, in a letter to Professor E. Forbes,
2112
states that in dredging in the Bay of Valparaiso, he found the common
2113
species of Concholepas, Fissurella, Trochus, Monoceros, Chitons, etc.,
2114
living in abundance from the beach to a depth of seven fathoms; and dead
2115
shells occurred only a few fathoms deeper. The common Turritella cingulata
2116
was dredged up living at even from ten to fifteen fathoms; but this is a
2117
species which I did not find here amongst the upraised shells. Considering
2118
this fact of the species being all littoral or sub-littoral, considering
2119
their occurrence at various heights, their vast numbers, and their
2120
generally comminuted state, there can be little doubt that they were left
2121
on successive beach-lines during a gradual elevation of the land. The
2122
presence, however, of so many whole and perfectly preserved shells appears
2123
at first a difficulty on this view, considering that the coast is exposed
2124
to the full force of an open ocean: but we may suppose, either that these
2125
shells were thrown during gales on flat ledges of rock just above the level
2126
of high-water mark, and that during the elevation of the land they are
2127
never again touched by the waves, or, that during earthquakes, such as
2128
those of 1822, 1835, and 1837, rocky reefs covered with marine-animals were
2129
it one blow uplifted above the future reach of the sea. This latter
2130
explanation is, perhaps, the most probable one with respect to the beds at
2131
Concepcion entirely composed of the Mytilus Chiloensis, a species which
2132
lives below the lowest tides; and likewise with respect to the great beds
2133
occurring both north and south of Valparaiso, of the Mesodesma
2134
donaciforme,--a shell which, as I am informed by Mr. Cuming, inhabits
2135
sandbanks at the level of the lowest tides. But even in the case of shells
2136
having the habits of this Mytilus and Mesodesma, beds of them, wherever the
2137
sea gently throws up sand or mud, and thus protects its own accumulations,
2138
might be upraised by the slowest movement, and yet remain undisturbed by
2139
the waves of each new beach-line.
2140

2141
It is worthy of remark, that nowhere near Valparaiso above the height of
2142
twenty feet, or rarely of fifty feet, I saw any lines of erosion on the
2143
solid rocks, or any beds of pebbles; this, I believe, may be accounted for
2144
by the disintegrating tendency of most of the rocks in this neighbourhood.
2145
Nor is the land here modelled into terraces: Mr. Alison, however, informs
2146
me, that on both sides of one narrow ravine, at the height of 300 feet
2147
above the sea, he found a succession of rather indistinct step-formed
2148
beaches, composed of broken shells, which together covered a space of about
2149
eighty feet vertical.
2150

2151
I can add nothing to the accounts already published of the elevation of the
2152
land at Valparaiso, which accompanied the earthquake of 1822 (Dr. Meyen
2153
"Reise um Erde" Th. 1 s. 221, found in 1831 seaweed and other bodies still
2154
adhering to some rocks which during the shock of 1822 were lifted above the
2155
sea.): but I heard it confidently asserted, that a sentinel on duty,
2156
immediately after the shock, saw a part of a fort, which previously was not
2157
within the line of his vision, and this would indicate that the uplifting
2158
was not horizontal: it would even appear from some facts collected by Mr.
2159
Alison, that only the eastern half of the bay was then elevated. Through
2160
the kindness of this same gentleman, I am able to give an interesting
2161
account of the changes of level, which have supervened here within
2162
historical periods: about the year 1680 a long sea-wall (or Prefil) was
2163
built, of which only a few fragments now remain; up to the year 1817, the
2164
sea often broke over it, and washed the houses on the opposite side of the
2165
road (where the prison now stands); and even in 1819, Mr. J. Martin
2166
remembers walking at the foot of this wall, and being often obliged to
2167
climb over it to escape the waves. There now stands (1834) on the seaward
2168
side of this wall, and between it and the beach, in one part a single row
2169
of houses, and in another part two rows with a street between them. This
2170
great extension of the beach in so short a time cannot be attributed simply
2171
to the accumulation of detritus; for a resident engineer measured for me
2172
the height between the lowest part of the wall visible, and the present
2173
beach-line at spring-tides, and the difference was eleven feet six inches.
2174
The church of S. Augustin is believed to have been built in 1614, and there
2175
is a tradition that the sea formerly flowed very near it; by levelling, its
2176
foundations were found to stand nineteen feet six inches above the highest
2177
beach-line; so that we see in a period of 220 years, the elevation cannot
2178
have been as much as nineteen feet six inches. From the facts given with
2179
respect to the sea-wall, and from the testimony of the elder inhabitants,
2180
it appears certain that the change in level began to be manifest about the
2181
year 1817. The only sudden elevation of which there is any record occurred
2182
in 1822, and this seems to have been less than three feet. Since that year,
2183
I was assured by several competent observers, that part of an old wreck,
2184
which is firmly embedded near the beach, has sensibly emerged; hence here,
2185
as at Chiloe, a slow rise of the land appears to be now in progress. It
2186
seems highly probable that the rocks which are corroded in a band at the
2187
height of fourteen feet above the sea were acted on during the period, when
2188
by tradition the base of S. Augustin church, now nineteen feet six inches
2189
above the highest water-mark, was occasionally washed by the waves.
2190

2191
VALPARAISO TO COQUIMBO.
2192

2193
For the first seventy-five miles north of Valparaiso I followed the coast-
2194
road, and throughout this space I observed innumerable masses of upraised
2195
shells. About Quintero there are immense accumulations (worked for lime) of
2196
the Mesodesma donaciforme, packed in sandy earth; they abound chiefly about
2197
fifteen feet above high-water, but shells are here found, according to Mr.
2198
Miers, to a height of 500 feet, and at a distance of three leagues from the
2199
coast ("Travels in Chile" volume 1 pages 395, 458. I received several
2200
similar accounts from the inhabitants, and was assured that there are many
2201
shells on the plain of Casa Blanca, between Valparaiso and Santiago, at the
2202
height of 800 feet.): I here noticed barnacles adhering to the rocks three
2203
or four feet above the highest tides. In the neighbourhood of Plazilla and
2204
Catapilco, at heights of between two hundred and three hundred feet, the
2205
number of comminuted shells, with some perfect ones, especially of the
2206
Mesodesma, packed in layers, was truly immense: the land at Plazilla had
2207
evidently existed as a bay, with abrupt rocky masses rising out of it,
2208
precisely like the islets in the broken bays now indenting this coast. On
2209
both sides of the rivers Ligua, Longotomo, Guachen, and Quilimari, there
2210
are plains of gravel about two hundred feet in height, in many parts
2211
absolutely covered with shells. Close to Conchalee, a gravel-plain is
2212
fronted by a lower and similar plain about sixty feet in height, and this
2213
again is separated from the beach by a wide tract of low land: the surfaces
2214
of all three plains or terraces were strewed with vast numbers of the
2215
Concholepas, Mesodesma, an existing Venus, and other still existing
2216
littoral shells. The two upper terraces closely resemble in miniature the
2217
plains of Patagonia; and like them are furrowed by dry, flat-bottomed,
2218
winding valleys. Northward of this place I turned inward; and therefore
2219
found no more shells: but the valleys of Chuapa, Illapel, and Limari, are
2220
bounded by gravel-capped plains, often including a lower terrace within.
2221
These plains send bay-like arms between and into the surrounding hills; and
2222
they are continuously united with other extensive gravel-capped plains,
2223
separating the coast mountain-ranges from the Cordillera.
2224

2225
COQUIMBO.
2226

2227
A narrow fringe-like plain, gently inclined towards the sea, here extends
2228
for eleven miles along the coast, with arms stretching up between the
2229
coast-mountains, and likewise up the valley of Coquimbo: at its southern
2230
extremity it is directly connected with the plain of Limari, out of which
2231
hills abruptly rise like islets, and other hills project like headlands on
2232
a coast. The surface of the fringe-like plain appears level, but differs
2233
insensibly in height, and greatly in composition, in different parts.
2234

2235
At the mouth of the valley of Coquimbo, the surface consists wholly of
2236
gravel, and stands from 300 to 350 feet above the level of the sea, being
2237
about one hundred feet higher than in other parts. In these other and lower
2238
parts the superficial beds consist of calcareous matter, and rest on
2239
ancient tertiary deposits hereafter to be described. The uppermost
2240
calcareous layer is cream-coloured, compact, smooth-fractured, sub-
2241
stalactiform, and contains some sand, earthy matter, and recent shells. It
2242
lies on, and sends wedge-like veins into, a much more friable, calcareous,
2243
tuff-like variety; and both rest on a mass about twenty feet in thickness,
2244
formed of fragments of recent shells, with a few whole ones, and with small
2245
pebbles firmly cemented together. (In many respects this upper hard, and
2246
the underlying more friable, varieties, resemble the great superficial beds
2247
at King George's Sound in Australia, which I have described in my
2248
"Geological Observations on Volcanic Islands." There could be little doubt
2249
that the upper layers there have been hardened by the action of rain on the
2250
friable, calcareous matter, and that the whole mass has originated in the
2251
decay of minutely comminuted sea-shells and corals.) This latter rock is
2252
called by the inhabitants losa, and is used for building: in many parts it
2253
is divided into strata, which dip at an angle of ten degrees seaward, and
2254
appear as if they had originally been heaped in successive layers (as may
2255
be seen on coral-reefs) on a steep beach. This stone is remarkable from
2256
being in parts entirely formed of empty, pellucid capsules or cells of
2257
calcareous matter, of the size of small seeds: a series of specimens
2258
unequivocally showed that all these capsules once contained minute rounded
2259
fragments of shells which have since been gradually dissolved by water
2260
percolating through the mass. (I have incidentally described this rock in
2261
the above work on Volcanic Islands.)
2262

2263
The shells embedded in the calcareous beds forming the surface of this
2264
fringe-like plain, at the height of from 200 to 250 feet above the sea,
2265
consist of:--
2266

2267
1. Venus opaca.
2268
2. Mulinia Byronensis.
2269
3. Pecten purpuratus.
2270
4. Mesodesma donaciforme.
2271
5. Turritella cingulata.
2272
6. Monoceros costatum.
2273
7. Concholepas Peruviana.
2274
8. Trochus (common Valparaiso species).
2275
9. Calyptraea Byronensis.
2276

2277
Although these species are all recent, and are all found in the
2278
neighbouring sea, yet I was particularly struck with the difference in the
2279
proportional numbers of the several species, and of those now cast up on
2280
the present beach. I found only one specimen of the Concholepas, and the
2281
Pecten was very rare, though both these shells are now the commonest kinds,
2282
with the exception, perhaps, of the Calyptraea radians, of which I did not
2283
find one in the calcareous beds. I will not pretend to determine how far
2284
this difference in the proportional numbers depends on the age of the
2285
deposit, and how far on the difference in nature between the present sandy
2286
beaches and the calcareous bottom, on which the embedded shells must have
2287
lived.
2288

2289
(DIAGRAM 8.--SECTION OF PLAIN OF COQUIMBO.
2290

2291
Section through Plain B-B and Ravine A.
2292

2293
Surface of plain 252 feet above sea.
2294

2295
A. Stratified sand, with recent shells in same proportions as on the beach,
2296
half filling up a ravine.
2297

2298
B. Surface of plain, with scattered shells in nearly same proportions as on
2299
the beach.
2300

2301
C. Upper calcareous bed, and D. Lower calcareous sandy bed (Losa), both
2302
with recent shells, but not in same proportions as on the beach.
2303

2304
E. Upper ferrugino-sandy old tertiary stratum, and F. Lower old tertiary
2305
stratum, both with all, or nearly all, extinct shells.)
2306

2307
On the bare surface of the calcareous plain, or in a thin covering of sand,
2308
there were lying, at a height from 200 to 252 feet, many recent shells,
2309
which had a much fresher appearance than the embedded ones: fragments of
2310
the Concholepas, and of the common Mytilus, still retaining a tinge of its
2311
colour, were numerous, and altogether there was manifestly a closer
2312
approach in proportional numbers to those now lying on the beach. In a mass
2313
of stratified, slightly agglutinated sand, which in some places covers up
2314
the lower half of the seaward escarpment of the plain, the included shells
2315
appeared to be in exactly the same proportional numbers with those on the
2316
beach. On one side of a steep-sided ravine, cutting through the plain
2317
behind Herradura Bay, I observed a narrow strip of stratified sand,
2318
containing similar shells in similar proportional numbers; a section of the
2319
ravine is represented in Diagram 8, which serves also to show the general
2320
composition of the plain. I mention this case of the ravine chiefly because
2321
without the evidence of the marine shells in the sand, any one would have
2322
supposed that it had been hollowed out by simple alluvial action.
2323

2324
The escarpment of the fringe-like plain, which stretches for eleven miles
2325
along the coast, is in some parts fronted by two or three narrow, step-
2326
formed terraces, one of which at Herradura Bay expands into a small plain.
2327
Its surface was there formed of gravel, cemented together by calcareous
2328
matter; and out of it I extracted the following recent shells, which are in
2329
a more perfect condition than those from the upper plain:--
2330

2331
1. Calyptraea radians.
2332
2. Turritella cingulata.
2333
3. Oliva Peruviana.
2334
4. Murex labiosus, var.
2335
5. Nassa (identical with a living species).
2336
6. Solen Dombeiana.
2337
7. Pecten purpuratus.
2338
8. Venus Chilensis.
2339
9. Amphidesma rugulosum. The small irregular wrinkles of the posterior part
2340
of this shell are rather stronger than in the recent specimens of this
2341
species from Coquimbo. (G.B. Sowerby.)
2342
10. Balanus (identical with living species).
2343

2344
On the syenitic ridge, which forms the southern boundary of Herradura Bay
2345
and Plain, I found the Concholepas and Turritella cingulata (mostly in
2346
fragments), at the height of 242 feet above the sea. I could not have told
2347
that these shells had not formerly been brought up by man, if I had not
2348
found one very small mass of them cemented together in a friable calcareous
2349
tuff. I mention this fact more particularly, because I carefully looked, in
2350
many apparently favourable spots, at lesser heights on the side of this
2351
ridge, and could not find even the smallest fragment of a shell. This is
2352
only one instance out of many, proving that the absence of sea-shells on
2353
the surface, though in many respects inexplicable, is an argument of very
2354
little weight in opposition to other evidence on the recent elevation of
2355
the land. The highest point in this neighbourhood at which I found upraised
2356
shells of existing species was on an inland calcareous plain, at the height
2357
of 252 feet above the sea.
2358

2359
It would appear from Mr. Caldcleugh's researches, that a rise has taken
2360
place here within the last century and a half ("Proceedings of the
2361
Geological Society" volume 2 page 446.); and as no sudden change of level
2362
has been observed during the not very severe earthquakes, which have
2363
occasionally occurred here, the rising has probably been slow, like that
2364
now, or quite lately, in progress at Chiloe and at Valparaiso: there are
2365
three well-known rocks, called the Pelicans, which in 1710, according to
2366
Feuillee, were a fleur d'eau, but now are said to stand twelve feet above
2367
low-water mark: the spring-tides rise here only five feet. There is another
2368
rock, now nine feet above high-water mark, which in the time of Frezier and
2369
Feuillee rose only five or six feet out of water. Mr. Caldcleugh, I may
2370
add, also shows (and I received similar accounts) that there has been a
2371
considerable decrease in the soundings during the last twelve years in the
2372
Bays of Coquimbo, Concepcion, Valparaiso, and Guasco; but as in these cases
2373
it is nearly impossible to distinguish between the accumulation of sediment
2374
and the upheavement of the bottom, I have not entered into any details.
2375

2376
VALLEY OF COQUIMBO.
2377

2378
(FIGURE 9. EAST AND WEST SECTION THROUGH THE TERRACES AT COQUIMBO, WHERE
2379
THEY DEBOUCH FROM THE VALLEY, AND FRONT THE SEA.
2380

2381
Vertical scale 1/10 of inch to 100 feet: horizontal scale much contracted.
2382

2383
Height of terrace in feet from east (high) to west (low):
2384
Terrace F. 364
2385
Terrace E. 302
2386
Terrace D. shown dotted, height not given.
2387
Terrace C. 120
2388
Terrace B. 70
2389
Terrace A. 25 sloping down to level of sea at Town of Coquimbo.)
2390

2391
The narrow coast-plain sends, as before stated, an arm, or more correctly a
2392
fringe, on both sides, but chiefly on the southern side, several miles up
2393
the valley. These fringes are worn into steps or terraces, which present a
2394
most remarkable appearance, and have been compared (though not very
2395
correctly) by Captain Basil Hall, to the parallel roads of Glen Roy in
2396
Scotland: their origin has been ably discussed by Mr. Lyell. ("Principles
2397
of Geology" 1st edition volume 3 page 131.) The first section which I will
2398
give (Figure 9), is not drawn across the valley, but in an east and west
2399
line at its mouth, where the step-formed terraces debouch and present their
2400
very gently inclined surfaces towards the Pacific.
2401

2402
The bottom plain (A) is about a mile in width, and rises quite insensibly
2403
from the beach to a height of twenty-five feet at the foot of the next
2404
plain; it is sandy, and abundantly strewed with shells.
2405

2406
Plain or terrace B is of small extent, and is almost concealed by the
2407
houses of the town, as is likewise the escarpment of terrace C. On both
2408
sides of a ravine, two miles south of the town, there are two little
2409
terraces, one above the other, evidently corresponding with B and C; and on
2410
them marine remains of the species already enumerated were plentiful.
2411
Terrace E is very narrow, but quite distinct and level; a little southward
2412
of the town there were traces of a terrace D intermediate between E and C.
2413
Terrace F is part of the fringe-like plain, which stretches for the eleven
2414
miles along the coast; it is here composed of shingle, and is 100 feet
2415
higher than where composed of calcareous matter. This greater height is
2416
obviously due to the quantity of shingle, which at some former period has
2417
been brought down the great valley of Coquimbo.
2418

2419
Considering the many shells strewed over the terraces A, B, and C, and a
2420
few miles southward on the calcareous plain, which is continuously united
2421
with the upper step-like plain F, there cannot, I apprehend, be any doubt,
2422
that these six terraces have been formed by the action of the sea; and that
2423
their five escarpments mark so many periods of comparative rest in the
2424
elevatory movement, during which the sea wore into the land. The elevation
2425
between these periods may have been sudden and on AN AVERAGE not more than
2426
seventy-two feet each time, or it may have been gradual and insensibly
2427
slow. From the shells on the three lower terraces, and on the upper one,
2428
and I may add on the three gravel-capped terraces at Conchalee, being all
2429
littoral and sub-littoral species, and from the analogical facts given at
2430
Valparaiso, and lastly from the evidence of a slow rising lately or still
2431
in progress here, it appears to me far more probable that the movement has
2432
been slow. The existence of these successive escarpments, or old cliff-
2433
lines, is in another respect highly instructive, for they show periods of
2434
comparative rest in the elevatory movement, and of denudation, which would
2435
never even have been suspected from a close examination of many miles of
2436
coast southward of Coquimbo.
2437

2438
(FIGURE 10. NORTH AND SOUTH SECTION ACROSS THE VALLEY OF COQUIMBO.
2439

2440
From north F (high) through E?, D, C, B, A (low), B?, C, D?, E, F (high).
2441

2442
Vertical scale 1/10 of inch to 100 feet: horizontal scale much contracted.
2443

2444
Terraces marked with ? do not occur on that side of the valley, and are
2445
introduced only to make the diagram more intelligible. A river and bottom-
2446
plain of valley C, E, and F, on the south side of valley, are respectively,
2447
197, 377, and 420 feet above the level of the sea.
2448

2449
AA. The bottom of the valley, believed to be 100 feet above the sea: it is
2450
continuously united with the lowest plain A of Figure 9.
2451

2452
B. This terrace higher up the valley expands considerably; seaward it is
2453
soon lost, its escarpment being united with that of C: it is not developed
2454
at all on the south side of the valley.
2455

2456
C. This terrace, like the last, is considerably expanded higher up the
2457
valley. These two terraces apparently correspond with B and C of Figure 9.
2458

2459
D is not well developed in the line of this section; but seaward it expands
2460
into a plain: it is not present on the south side of the valley; but it is
2461
met with, as stated under the former section, a little south of the town.
2462

2463
E is well developed on the south side, but absent on the north side of the
2464
valley: though not continuously united with E of Figure 9, it apparently
2465
corresponds with it.
2466

2467
F. This is the surface-plain, and is continuously united with that which
2468
stretches like a fringe along the coast. In ascending the valley it
2469
gradually becomes narrower, and is at last, at the distance of about ten
2470
miles from the sea, reduced to a row of flat-topped patches on the sides of
2471
the mountains. None of the lower terraces extend so far up the valley.)
2472

2473
We come now to the terraces on the opposite sides of the east and west
2474
valley of Coquimbo: the section in Figure 10 is taken in a north and south
2475
line across the valley at a point about three miles from the sea. The
2476
valley measured from the edges of the escarpments of the upper plain FF is
2477
about a mile in width; but from the bases of the bounding mountains it is
2478
from three to four miles wide. The terraces marked with an interrogative do
2479
not exist on that side of the valley, but are introduced merely to render
2480
the diagram more intelligible.
2481

2482
These five terraces are formed of shingle and sand; three of them, as
2483
marked by Captain B. Hall (namely, B, C, and F), are much more conspicuous
2484
than the others. From the marine remains copiously strewed at the mouth of
2485
the valley on the lower terraces, and southward of the town on the upper
2486
one, they are, as before remarked, undoubtedly of marine origin; but within
2487
the valley, and this fact well deserves notice, at a distance of from only
2488
a mile and a half to three or four miles from the sea, I could not find
2489
even a fragment of a shell.
2490

2491
ON THE INCLINATION OF THE TERRACES OF COQUIMBO, AND ON THE UPPER AND BASAL
2492
EDGES OF THEIR ESCARPMENTS NOT BEING HORIZONTAL.
2493

2494
The surfaces of these terraces slope in a slight degree, as shown by the
2495
sections in Figures 9 and 10 taken conjointly, both towards the centre of
2496
the valley, and seawards towards its mouth. This double or diagonal
2497
inclination, which is not the same in the several terraces, is, as we shall
2498
immediately see, of simple explanation. There are, however, some other
2499
points which at first appear by no means obvious,--namely, first, that each
2500
terrace, taken in its whole breadth from the summit-edge of one escarpment
2501
to the base of that above it, and followed up the valley, is not
2502
horizontal; nor have the several terraces, when followed up the valley, all
2503
the same inclination; thus I found the terraces C, E, and F, measured at a
2504
point about two miles from the mouth of the valley, stood severally between
2505
fifty-six to seventy-seven feet higher than at the mouth. Again, if we look
2506
to any one line of cliff or escarpment, neither its summit-edge nor its
2507
base is horizontal. On the theory of the terraces having been formed during
2508
a slow and equable rise of the land, with as many intervals of rest as
2509
there are escarpments, it appears at first very surprising that horizontal
2510
lines of some kind should not have been left on the land.
2511

2512
The direction of the diagonal inclination in the different terraces being
2513
different,--in some being directed more towards the middle of the valley,
2514
in others more towards its mouth,--naturally follows on the view of each
2515
terrace, being an accumulation of successive beach-lines round bays, which
2516
must have been of different forms and sizes when the land stood at
2517
different levels: for if we look to the actual beach of a narrow creek, its
2518
slope is directed towards the middle; whereas, in an open bay, or slight
2519
concavity on a coast, the slope is towards the mouth, that is, almost
2520
directly seaward; hence as a bay alters in form and size, so will the
2521
direction of the inclination of its successive beaches become changed.
2522

2523
(FIGURE 11. DIAGRAM OF A BAY IN A DISTRICT WHICH HAS BEGUN SLOWLY RISING)
2524

2525
If it were possible to trace any one of the many beach-lines, composing
2526
each sloping terrace, it would of course be horizontal; but the only lines
2527
of demarcation are the summit and basal edges of the escarpments. Now the
2528
summit-edge of one of these escarpments marks the furthest line or point to
2529
which the sea has cut into a mass of gravel sloping seaward; and as the sea
2530
will generally have greater power at the mouth than at the protected head
2531
of the bay, so will the escarpment at the mouth be cut deeper into the
2532
land, and its summit-edge be higher; consequently it will not be
2533
horizontal. With respect to the basal or lower edges of the escarpments,
2534
from picturing in one's mind ancient bays ENTIRELY surrounded at successive
2535
periods by cliff-formed shores, one's first impression is that they at
2536
least necessarily must be horizontal, if the elevation has been horizontal.
2537
But here is a fallacy: for after the sea has, during a cessation of the
2538
elevation, worn cliffs all round the shores of a bay, when the movement
2539
recommences, and especially if it recommences slowly, it might well happen
2540
that, at the exposed mouth of the bay, the waves might continue for some
2541
time wearing into the land, whilst in the protected and upper parts
2542
successive beach-lines might be accumulating in a sloping surface or
2543
terrace at the foot of the cliffs which had been lately reached: hence,
2544
supposing the whole line of escarpment to be finally uplifted above the
2545
reach of the sea, its basal line or foot near the mouth will run at a lower
2546
level than in the upper and protected parts of the bay; consequently this
2547
basal line will not be horizontal. And it has already been shown that the
2548
summit-edges of each escarpment will generally be higher near the mouth
2549
(from the seaward sloping land being there most exposed and cut into) than
2550
near the head of the bay; therefore the total height of the escarpments
2551
will be greatest near the mouth; and further up the old bay or valley they
2552
will on both sides generally thin out and die away: I have observed this
2553
thinning out of the successive escarpment at other places besides Coquimbo;
2554
and for a long time I was quite unable to understand its meaning. The rude
2555
diagram in Figure 11 will perhaps render what I mean more intelligible; it
2556
represents a bay in a district which has begun slowly rising. Before the
2557
movement commenced, it is supposed that the waves had been enabled to eat
2558
into the land and form cliffs, as far up, but with gradually diminishing
2559
power, as the points AA: after the movement had commenced and gone on for a
2560
little time, the sea is supposed still to have retained the power, at the
2561
exposed mouth of the bay, of cutting down and into the land as it slowly
2562
emerged; but in the upper parts of the bay it is supposed soon to have lost
2563
this power, owing to the more protected situation and to the quantity of
2564
detritus brought down by the river; consequently low land was there
2565
accumulated. As this low land was formed during a slow elevatory movement,
2566
its surface will gently slope upwards from the beach on all sides. Now, let
2567
us imagine the bay, not to make the diagram more complicated, suddenly
2568
converted into a valley: the basal line of the cliffs will of course be
2569
horizontal, as far as the beach is now seen extending in the diagram; but
2570
in the upper part of the valley, this line will be higher, the level of the
2571
district having been raised whilst the low land was accumulating at the
2572
foot of the inland cliffs. If, instead of the bay in the diagram being
2573
suddenly converted into a valley, we suppose with much more probability it
2574
to be upraised slowly, then the waves in the upper parts of the bay will
2575
continue very gradually to fail to reach the cliffs, which are now in the
2576
diagram represented as washed by the sea, and which, consequently, will be
2577
left standing higher and higher above its level; whilst at the still
2578
exposed mouth, it might well happen that the waves might be enabled to cut
2579
deeper and deeper, both down and into the cliffs, as the land slowly rose.
2580

2581
The greater or lesser destroying power of the waves at the mouths of
2582
successive bays, comparatively with this same power in their upper and
2583
protected parts, will vary as the bays become changed in form and size, and
2584
therefore at different levels, at their mouths and heads, more or less of
2585
the surfaces between the escarpments (that is, the accumulated beach-lines
2586
or terraces) will be left undestroyed: from what has gone before we can see
2587
that, according as the elevatory movements after each cessation recommence
2588
more or less slowly, according to the amount of detritus delivered by the
2589
river at the heads of the successive bays, and according to the degree of
2590
protection afforded by their altered forms, so will a greater or less
2591
extent of terrace be accumulated in the upper part, to which there will be
2592
no surface at a corresponding level at the mouth: hence we can perceive why
2593
no one terrace, taken in its whole breadth and followed up the valley, is
2594
horizontal, though each separate beach-line must have been so; and why the
2595
inclination of the several terraces, both transversely, and longitudinally
2596
up the valley, is not alike.
2597

2598
I have entered into this case in some detail, for I was long perplexed (and
2599
others have felt the same difficulty) in understanding how, on the idea of
2600
an equable elevation with the sea at intervals eating into the land, it
2601
came that neither the terraces nor the upper nor lower edges of the
2602
escarpments were horizontal. Along lines of coast, even of great lengths,
2603
such as that of Patagonia, if they are nearly uniformly exposed, the
2604
corroding power of the waves will be checked and conquered by the elevatory
2605
movement, as often as it recommences, at about the same period; and hence
2606
the terraces, or accumulated beach-lines, will commence being formed at
2607
nearly the same levels: at each succeeding period of rest, they will, also,
2608
be eaten into at nearly the same rate, and consequently there will be a
2609
much closer coincidence in their levels and inclinations, than in the
2610
terraces and escarpments formed round bays with their different parts very
2611
differently exposed to the action of the sea. It is only where the waves
2612
are enabled, after a long lapse of time, slowly to corrode hard rocks, or
2613
to throw up, owing to the supply of sediment being small and to the surface
2614
being steeply inclined, a narrow beach or mound, that we can expect, as at
2615
Glen Roy in Scotland ("Philosophical Transactions" 1839 page 39.), a
2616
distinct line marking an old sea-level, and which will be strictly
2617
horizontal, if the subsequent elevatory movements have been so: for in
2618
these cases no discernible effects will be produced, except during the long
2619
intervening periods of rest; whereas in the case of step-formed coasts,
2620
such as those described in this and the preceding chapter, the terraces
2621
themselves are accumulated during the slow elevatory process, the
2622
accumulation commencing sooner in protected than in exposed situations, and
2623
sooner where there is copious supply of detritus than where there is
2624
little; on the other hand, the steps or escarpments are formed during the
2625
stationary periods, and are more deeply cut down and into the coast-land in
2626
exposed than in protected situations;--the cutting action, moreover, being
2627
prolonged in the most exposed parts, both during the beginning and ending,
2628
if slow, of the upward movement.
2629

2630
Although in the foregoing discussion I have assumed the elevation to have
2631
been horizontal, it may be suspected, from the considerable seaward slope
2632
of the terraces, both up the valley of S. Cruz and up that of Coquimbo,
2633
that the rising has been greater inland than nearer the coast. There is
2634
reason to believe (Mr. Place in the "Quarterly Journal of Science" 1824
2635
volume 17 page 42.), from the effects produced on the water-course of a
2636
mill during the earthquake of 1822 in Chile, that the upheaval one mile
2637
inland was nearly double, namely, between five and seven feet, to what it
2638
was on the Pacific. We know, also, from the admirable researches of M.
2639
Bravais, that in Scandinavia the ancient sea-beaches gently slope from the
2640
interior mountain-ranges towards the coast, and that they are not parallel
2641
one to the other ("Voyages de la Comm. du Nord" etc. also "Comptes Rendus"
2642
October 1842.), showing that the proportional difference in the amount of
2643
elevation on the coast and in the interior, varied at different periods.
2644

2645
COQUIMBO TO GUASCO.
2646

2647
In this distance of ninety miles, I found in almost every part marine
2648
shells up to a height of apparently from two hundred to three hundred feet.
2649
The desert plain near Choros is thus covered; it is bounded by the
2650
escarpment of a higher plain, consisting of pale-coloured, earthy,
2651
calcareous stone, like that of Coquimbo, with the same recent shells
2652
embedded in it. In the valley of Chaneral, a similar bed occurs in which,
2653
differently from that of Coquimbo, I observed many shells of the
2654
Concholepas: near Guasco the same calcareous bed is likewise met with.
2655

2656
In the valley of Guasco, the step-formed terraces of gravel are displaced
2657
in a more striking manner than at any other point. I followed the valley
2658
for thirty-seven miles (as reckoned by the inhabitants) from the coast to
2659
Ballenar; in nearly the whole of this distance, five grand terraces,
2660
running at corresponding heights on both sides of the broad valley, are
2661
more conspicuous than the three best-developed ones at Coquimbo. They give
2662
to the landscape the most singular and formal aspect; and when the clouds
2663
hung low, hiding the neighbouring mountains, the valley resembled in the
2664
most striking manner that of Santa Cruz. The whole thickness of these
2665
terraces or plains seems composed of gravel, rather firmly aggregated
2666
together, with occasional parting seams of clay: the pebbles on the upper
2667
plain are often whitewashed with an aluminous substance, as in Patagonia.
2668
Near the coast I observed many sea-shells on the lower plains. At Freyrina
2669
(twelve miles up the valley), there are six terraces beside the bottom-
2670
surface of the valley: the two lower ones are here only from two hundred to
2671
three hundred yards in width, but higher up the valley they expand into
2672
plains; the third terrace is generally narrow; the fourth I saw only in one
2673
place, but there it was distinct for the length of a mile; the fifth is
2674
very broad; the sixth is the summit-plain, which expands inland into a
2675
great basin. Not having a barometer with me, I did not ascertain the height
2676
of these plains, but they appeared considerably higher than those at
2677
Coquimbo. Their width varies much, sometimes being very broad, and
2678
sometimes contracting into mere fringes of separate flat-topped
2679
projections, and then quite disappearing: at the one spot, where the fourth
2680
terrace was visible, the whole six terraces were cut off for a short space
2681
by one single bold escarpment. Near Ballenar (thirty-seven miles from the
2682
mouth of the river), the valley between the summit-edges of the highest
2683
escarpments is several miles in width, and the five terraces on both sides
2684
are broadly developed: the highest cannot be less than six hundred feet
2685
above the bed of the river, which itself must, I conceive, be some hundred
2686
feet above the sea.
2687

2688
A north and south section across the valley in this part is represented in
2689
Figure 12.
2690

2691
(FIGURE 12. NORTH AND SOUTH SECTION ACROSS THE VALLEY OF GUASCO, AND OF A
2692
PLAIN NORTH OF IT.
2693

2694
From left (north, high) to right (south, high) through plains B and A and
2695
the River of Guasco at the Town of Ballenar.)
2696

2697
On the northern side of the valley the summit-plain of gravel, A, has two
2698
escarpments, one facing the valley, and the other a great basin-like plain,
2699
B, which stretches for several leagues northward. This narrow plain, A,
2700
with the double escarpment, evidently once formed a spit or promontory of
2701
gravel, projecting into and dividing two great bays, and subsequently was
2702
worn on both sides into steep cliffs. Whether the several escarpments in
2703
this valley were formed during the same stationary periods with those of
2704
Coquimbo, I will not pretend to conjecture; but if so the intervening and
2705
subsequent elevatory movements must have been here much more energetic, for
2706
these plains certainly stand at a much higher level than do those of
2707
Coquimbo.
2708

2709
COPIAPO.
2710

2711
From Guasco to Copiapo, I followed the road near the foot of the
2712
Cordillera, and therefore saw no upraised remains. At the mouth, however,
2713
of the valley of Copiapo there is a plain, estimated by Meyen ("Reise um
2714
die Erde" th. 1 s. 372 et seq.) between fifty and seventy feet in height,
2715
of which the upper part consists chiefly of gravel, abounding with recent
2716
shells, chiefly of the Concholepas, Venus Dombeyi, and Calyptraea
2717
trochiformis. A little inland, on a plain estimated by myself at nearly
2718
three hundred feet, the upper stratum was formed of broken shells and sand
2719
cemented by white calcareous matter, and abounding with embedded recent
2720
shells, of which the Mulinia Byronensis and Pecten purpuratus were the most
2721
numerous. The lower plain stretches for some miles southward, and for an
2722
unknown distance northward, but not far up the valley; its seaward face,
2723
according to Meyen, is worn into caves above the level of the present
2724
beach. The valley of Copiapo is much less steeply inclined and less direct
2725
in its course than any other valley which I saw in Chile; and its bottom
2726
does not generally consist of gravel: there are no step-formed terraces in
2727
it, except at one spot near the mouth of the great lateral valley of the
2728
Despoblado where there are only two, one above the other: lower down the
2729
valley, in one place I observed that the solid rock had been cut into the
2730
shape of a beach, and was smoothed over with shingle.
2731

2732
Northward of Copiapo, in latitude 26 degrees S., the old voyager Wafer
2733
found immense numbers of sea-shells some miles from the coast. (Burnett's
2734
"Collection of Voyages" volume 4 page 193.) At Cobija (latitude 22 degrees
2735
34') M. d'Orbigny observed beds of gravel and broken shells, containing ten
2736
species of recent shells; he also found, on projecting points of porphyry,
2737
at a height of 300 feet, shells of Concholepas, Chiton, Calyptraea,
2738
Fissurella, and Patella, still attached to the spots on which they had
2739
lived. M. d'Orbigny argues from this fact, that the elevation must have
2740
been great and sudden ("Voyage, Part Geolog." page 94. M. d'Orbigny (page
2741
98), in summing up, says: "S'il est certain (as he believes) que tous les
2742
terrains en pente, compris entre la mer et les montagnes sont l'ancien
2743
rivage de la mer, on doit supposer, pour l'ensemble, un exhaussement que ce
2744
ne serait pas moindre de deux cent metres; il faudrait supposer encore que
2745
ce soulevement n'a point ete graduel;...mais qu'il resulterait d'une seule
2746
et meme cause fortuite," etc. Now, on this view, when the sea was forming
2747
the beach at the foot of the mountains, many shells of Concholepas, Chiton,
2748
Calyptraea, Fissurella, and Patella (which are known to live close to the
2749
beach), were attached to rocks at a depth of 300 feet, and at a depth of
2750
600 feet several of these same shells were accumulating in great numbers in
2751
horizontal beds. From what I have myself seen in dredging, I believe this
2752
to be improbable in the highest degree, if not impossible; and I think
2753
everyone who has read Professor E. Forbes's excellent researches on the
2754
subject, will without hesitation agree in this conclusion.): to me it
2755
appears far more probable that the movement was gradual, with small starts
2756
as during the earthquakes of 1822 and 1835, by which whole beds of shells
2757
attached to the rocks were lifted above the subsequent reach of the waves.
2758
M. d'Orbigny also found rolled pebbles extending up the mountain to a
2759
height of at least six hundred feet. At Iquique (latitude 20 degrees 12'
2760
S.), in a great accumulation of sand, at a height estimated between one
2761
hundred and fifty and two hundred feet, I observed many large sea-shells
2762
which I thought could not have been blown up by the wind to that height.
2763
Mr. J.H. Blake has lately described these shells: he states that "inland
2764
toward the mountains they form a compact uniform bed, scarcely a trace of
2765
the original shells being discernible; but as we approach the shore, the
2766
forms become gradually more distinct till we meet with the living shells on
2767
the coast." ("Silliman's American Journal of Science" volume 44 page 2.)
2768
This interesting observation, showing by the gradual decay of the shells
2769
how slowly and gradually the coast must have been uplifted, we shall
2770
presently see fully confirmed at Lima. At Arica (latitude 18 degrees 28'),
2771
M. d'Orbigny found a great range of sand-dunes, fourteen leagues in length,
2772
stretching towards Tacna, including recent shells and bones of Cetacea, and
2773
reaching up to a height of 300 feet above the sea. ("Voyage" etc. page
2774
101.) Lieutenant Freyer has given some more precise facts: he states (In a
2775
letter to Mr. Lyell "Geological Proceedings" volume 2 page 179.) that the
2776
Morro of Arica is about four hundred feet high; it is worn into obscure
2777
terraces, on the bare rock of which he found Balini and Milleporae
2778
adhering. At the height of between twenty and thirty feet the shells and
2779
corals were in a quite fresh state, but at fifty feet they were much
2780
abraded; there were, however, traces of organic remains at greater heights.
2781
On the road from Tacna to Arequipa, between Loquimbo and Moquegua, Mr. M.
2782
Hamilton found numerous recent sea shells in sand, at a considerable
2783
distance from the sea. ("Edinburgh New Philosophical Journal" volume 30
2784
page 155.)
2785

2786
LIMA.
2787

2788
Northward of Arica, I know nothing of the coast for about a space of five
2789
degrees of latitude; but near Callao, the port of Lima, there is abundant
2790
and very curious evidence of the elevation of the land. The island of San
2791
Lorenzo is upwards of one thousand feet high; the basset edges of the
2792
strata composing the lower part are worn into three obscure, narrow,
2793
sloping steps or ledges, which can be seen only when standing on them: they
2794
probably resemble those described by Lieutenant Freyer at Arica. The
2795
surface of the lower ledge, which extends from a low cliff overhanging the
2796
sea to the foot of the next upper escarpment, is covered by an enormous
2797
accumulation of recent shells. (M. Chevalier, in the "Voyage of the
2798
'Bonite'" observed these shells; but his specimens were lost.--"L'Institut"
2799
1838 page 151.) The bed is level, and in some parts more than two feet in
2800
thickness; I traced it over a space of one mile in length, and heard of it
2801
in other places: the uppermost part is eighty-five feet by the barometer
2802
above high-water mark. The shells are packed together, but not stratified:
2803
they are mingled with earth and stones, and are generally covered by a few
2804
inches of detritus; they rest on a mass of nearly angular fragments of the
2805
underlying sandstone, sometimes cemented together by common salt. I
2806
collected eighteen species of shells of all ages and sizes. Several of the
2807
univalves had evidently long lain dead at the bottom of the sea, for their
2808
INSIDES were incrusted with Balani and Serpulae. All, according to Mr. G.B.
2809
Sowerby, are recent species: they consist of:--
2810

2811
1. Mytilus Magellanicus: same as that found at Valparaiso, and there stated
2812
to be probably distinct from the true M. Magellanicus of the east coast.
2813

2814
2. Venus costellata, Sowerby "Zoological Proceedings."
2815

2816
3. Pecten purpuratus, Lam.
2817

2818
4. Chama, probably echinulata, Brod.
2819

2820
5. Calyptraea Byronensis, Gray.
2821

2822
6. Calyptraea radians (Trochus, Lam.)
2823

2824
7. Fissurella affinis, Gray.
2825

2826
8. Fissurella biradiata, Trembly.
2827

2828
9. Purpura chocolatta, Duclos.
2829

2830
10. Purpura Peruviana, Gray.
2831

2832
11. Purpura labiata, Gray.
2833

2834
12. Purpura buxea (Murex, Brod.).
2835

2836
13. Concholepas Peruviana.
2837

2838
14. Nassa, related to reticulata.
2839

2840
15. Triton rudis, Brod.
2841

2842
16. Trochus, not yet described, but well-known and very common.
2843

2844
17 and 18. Balanus, two species, both common on the coast.
2845

2846
These upraised shells appear to be nearly in the same proportional numbers-
2847
-with the exception of the Crepidulae being more numerous--with those on
2848
the existing beach. The state of preservation of the different species
2849
differed much; but most of them were much corroded, brittle, and bleached:
2850
the upper and lower surfaces of the Concholepas had generally quite scaled
2851
off: some of the Trochi and Fissurellae still partially retain their
2852
colours. It is remarkable that these shells, taken all together, have fully
2853
as ancient an appearance, although the extremely arid climate appears
2854
highly favourable for their preservation, as those from 1,300 feet at
2855
Valparaiso, and certainly a more ancient appearance than those from five to
2856
six hundred feet from Valparaiso and Concepcion; at which places I have
2857
seen grass and other vegetables actually growing out of the shells. Many of
2858
the univalves here at San Lorenzo were filled with, and united together by,
2859
pure salt, probably left by the evaporation of the sea-spray, as the land
2860
slowly emerged. (The underlying sandstone contains true layers of salt; so
2861
that the salt may possibly have come from the beds in the higher parts of
2862
the island; but I think more probably from the sea-spray. It is generally
2863
asserted that rain never falls on the coast of Peru; but this is not quite
2864
accurate; for, on several days, during our visit, the so-called Peruvian
2865
dew fell in sufficient quantity to make the streets muddy, and it would
2866
certainly have washed so deliquescent a substance as salt into the soil. I
2867
state this because M. d'Orbigny, in discussing an analogous subject,
2868
supposes that I had forgotten that it never rains on this whole line of
2869
coast. See Ulloa's "Voyage" volume 2 English Translation page 67 for an
2870
account of the muddy streets of Lima, and on the continuance of the mists
2871
during the whole winter. Rain, also, falls at rare intervals even in the
2872
driest districts, as, for instance, during forty days, in 1726, at Chocope
2873
(7 degrees 46'); this rain entirely ruined ("Ulloa" etc. page 18) the mud
2874
houses of the inhabitants.) On the highest parts of the ledge, small
2875
fragments of the shells were mingled with, and evidently in process of
2876
reduction into, a yellowish-white, soft, calcareous powder, tasting
2877
strongly of salt, and in some places as fine as prepared medicinal chalk.
2878

2879
FOSSIL-REMAINS OF HUMAN ART.
2880

2881
In the midst of these shells on San Lorenzo, I found light corallines, the
2882
horny ovule-cases of Mollusca, roots of seaweed (Mr. Smith of Jordan Hill
2883
found pieces of seaweed in an upraised pleistocene deposit in Scotland. See
2884
his admirable Paper in the "Edinburgh New Philosophical Journal" volume 25
2885
page 384.), bones of birds, the heads of Indian corn and other vegetable
2886
matter, a piece of woven rushes, and another of nearly decayed COTTON
2887
string. I extracted these remains by digging a hole, on a level spot; and
2888
they had all indisputably been embedded with the shells. I compared the
2889
plaited rush, the COTTON string, and Indian corn, at the house of an
2890
antiquary, with similar objects, taken from the Huacas or burial-grounds of
2891
the ancient Peruvians, and they were undistinguishable; it should be
2892
observed that the Peruvians used string only of cotton. The small quantity
2893
of sand or gravel with the shells, the absence of large stones, the width
2894
and thickness of the bed, and the time requisite for a ledge to be cut into
2895
the sandstone, all show that these remains were not thrown high up by an
2896
earthquake-wave: on the other hand, these facts, together with the number
2897
of dead shells, and of floating objects, both marine and terrestrial, both
2898
natural and human, render it almost certain that they were accumulated on a
2899
true beach, since upraised eighty-five feet, and upraised this much since
2900
INDIAN MAN INHABITED PERU. The elevation may have been, either by several
2901
small sudden starts, or quite gradual; in this latter case the unrolled
2902
shells having been thrown up during gales beyond the reach of the waves
2903
which afterwards broke on the slowly emerging land. I have made these
2904
remarks, chiefly because I was at first surprised at the complete
2905
difference in nature, between this broad, smooth, upraised bed of shells,
2906
and the present shingle-beach at the foot of the low sandstone-cliffs; but
2907
a beach formed, when the sea is cutting into the land, as is shown now to
2908
be the case by the low bare sandstone-cliffs, ought not to be compared with
2909
a beach accumulated on a gently inclined rocky surface, at a period when
2910
the sea (probably owing to the elevatory movement in process) was not able
2911
to eat into the land. With respect to the mass of nearly angular, salt-
2912
cemented fragments of sandstone, which lie under the shells, and which are
2913
so unlike the materials of an ordinary sea-beach; I think it probable after
2914
having seen the remarkable effects of the earthquake of 1835 (I have
2915
described this in my "Journal of Researches" page 303 2nd edition.), in
2916
absolutely shattering as if by gunpowder the SURFACE of the primary rocks
2917
near Concepcion, that a smooth bare surface of stone was left by the sea
2918
covered by the shelly mass, and that afterwards when upraised, it was
2919
superficially shattered by the severe shocks so often experienced here.
2920

2921
The very low land surrounding the town of Callao, is to the south joined by
2922
an obscure escarpment to a higher plain (south of Bella Vista), which
2923
stretches along the coast for a length of about eight miles. This plain
2924
appears to the eye quite level; but the sea-cliffs show that its height
2925
varies (as far as I could estimate) from seventy to one hundred and twenty
2926
feet. It is composed of thin, sometimes waving, beds of clay, often of
2927
bright red and yellow colours, of layers of impure sand, and in one part
2928
with a great stratified mass of granitic pebbles. These beds are capped by
2929
a remarkable mass, varying from two to six feet in thickness, of reddish
2930
loam or mud, containing many scattered and broken fragments of recent
2931
marine shells, sometimes though rarely single large round pebble, more
2932
frequently short irregular layers of fine gravel, and very many pieces of
2933
red coarse earthenware, which from their curvatures must once have formed
2934
parts of large vessels. The earthenware is of Indian manufacture; and I
2935
found exactly similar pieces accidentally included within the bricks, of
2936
which the neighbouring ancient Peruvian burial-mounds are built. These
2937
fragments abounded in such numbers in certain spots, that it appeared as if
2938
waggon-loads of earthenware had been smashed to pieces. The broken sea-
2939
shells and pottery are strewed both on the surface, and throughout the
2940
whole thickness of this upper loamy mass. I found them wherever I examined
2941
the cliffs, for a space of between two and three miles, and for half a mile
2942
inland; and there can be little doubt that this same bed extends with a
2943
smooth surface several miles further over the entire plain. Besides the
2944
little included irregular layers of small pebbles, there are occasionally
2945
very obscure traces of stratification.
2946

2947
At one of the highest parts of the cliff, estimated 120 feet above the sea,
2948
where a little ravine came down, there were two sections, at right angles
2949
to each other, of the floor of a shed or building. In both sections or
2950
faces, two rows, one over the other, of large round stones could be
2951
distinctly seen; they were packed close together on an artificial layer of
2952
sand two inches thick, which had been placed on the natural clay-beds; the
2953
round stones were covered by three feet in thickness of the loam with
2954
broken sea-shells and pottery. Hence, before this widely spread-out bed of
2955
loam was deposited, it is certain that the plain was inhabited; and it is
2956
probable, from the broken vessels being so much more abundant in certain
2957
spots than in others, and from the underlying clay being fitted for their
2958
manufacture, that the kilns stood here.
2959

2960
The smoothness and wide extent of the plain, the bulk of matter deposited,
2961
and the obscure traces of stratification seem to indicate that the loam was
2962
deposited under water; on the other hand, the presence of sea-shells, their
2963
broken state, the pebbles of various sizes, and the artificial floor of
2964
round stones, almost prove that it must have originated in a rush of water
2965
from the sea over the land. The height of the plain, namely, 120 feet,
2966
renders it improbable that an earthquake-wave, vast as some have here been,
2967
could have broken over the surface at its present level; but when the land
2968
stood eighty-five feet lower, at the period when the shells were thrown up
2969
on the ledge at S. Lorenzo, and when as we know man inhabited this
2970
district, such an event might well have occurred; and if we may further
2971
suppose, that the plain was at that time converted into a temporary lake,
2972
as actually occurred, during the earthquakes of 1713 and 1746, in the case
2973
of the low land round Callao owing to its being encircled by a high
2974
shingle-beach, all the appearances above described will be perfectly
2975
explained. I must add, that at a lower level near the point where the
2976
present low land round Callao joins the higher plain, there are appearances
2977
of two distinct deposits both apparently formed by debacles: in the upper
2978
one, a horse's tooth and a dog's jaw were embedded; so that both must have
2979
been formed after the settlement of the Spaniards: according to Acosta, the
2980
earthquake-wave of 1586 rose eighty-four feet.
2981

2982
The inhabitants of Callao do not believe, as far as I could ascertain, that
2983
any change in level is now in progress. The great fragments of brickwork,
2984
which it is asserted can be seen at the bottom of the sea, and which have
2985
been adduced as a proof of a late subsidence, are, as I am informed by Mr.
2986
Gill, a resident engineer, loose fragments; this is probable, for I found
2987
on the beach, and not near the remains of any building, masses of
2988
brickwork, three and four feet square, which had been washed into their
2989
present places, and smoothed over with shingle during the earthquake of
2990
1746. The spit of land, on which the ruins of OLD Callao stand, is so
2991
extremely low and narrow, that it is improbable in the highest degree that
2992
a town should have been founded on it in its present state; and I have
2993
lately heard that M. Tschudi has come to the conclusion, from a comparison
2994
of old with modern charts, that the coast both south and north of Callao
2995
has subsided. (I am indebted for this fact to Dr. E. Dieffenbach. I may add
2996
that there is a tradition, that the islands of San Lorenzo and Fronton were
2997
once joined, and that the channel between San Lorenzo and the mainland, now
2998
above two miles in width, was so narrow that cattle used to swim over.) I
2999
have shown that the island of San Lorenzo has been upraised eighty-five
3000
feet since the Peruvians inhabited this country; and whatever may have been
3001
the amount of recent subsidence, by so much more must the elevation have
3002
exceeded the eighty-five feet. In several places in this neighbourhood,
3003
marks of sea-action have been observed: Ulloa gives a detailed account of
3004
such appearances at a point five leagues northward of Callao: Mr.
3005
Cruikshank found near Lima successive lines of sea-cliffs, with rounded
3006
blocks at their bases, at a height of 700 feet above the present level of
3007
the sea. ("Observaciones sobre el Clima del Lima" par Dr. H. Unanue page
3008
4.--Ulloa's "Voyage" volume 2 English Translation page 97.--For Mr.
3009
Cruikshank's observations, see Mr. Lyell's "Principles of Geology" 1st
3010
edition volume 3 page 130.)
3011
ON THE DECAY OF UPRAISED SEA-SHELLS.
3012

3013
I have stated that many of the shells on the lower inclined ledge or
3014
terrace of San Lorenzo are corroded in a peculiar manner, and that they
3015
have a much more ancient appearance than the same species at considerably
3016
greater heights on the coast of Chile. I have, also, stated that these
3017
shells in the upper part of the ledge, at the height of eighty-five feet
3018
above the sea, are falling, and in some parts are quite changed into a
3019
fine, soft, saline, calcareous powder. The finest part of this powder has
3020
been analysed for me, at the request of Sir H. De la Beche, by the kindness
3021
of Mr. Trenham Reeks of the Museum of Economic Geology; it consists of
3022
carbonate of lime in abundance, of sulphate and muriate of lime, and of
3023
muriate and sulphate of soda. The carbonate of lime is obviously derived
3024
from the shells; and common salt is so abundant in parts of the bed, that,
3025
as before remarked, the univalves are often filled with it. The sulphate of
3026
lime may have been derived, as has probably the common salt, from the
3027
evaporation of the sea-spray, during the emergence of the land; for
3028
sulphate of lime is now copiously deposited from the spray on the shores of
3029
Ascension. (See "Volcanic Islands" etc. by the Author.) The other saline
3030
bodies may perhaps have been partially thus derived, but chiefly, as I
3031
conclude from the following facts, through a different means.
3032

3033
On most parts of the second ledge or old sea-beach, at a height of 170
3034
feet, there is a layer of white powder of variable thickness, as much in
3035
some parts as two inches, lying on the angular, salt-cemented fragments of
3036
sandstone and under about four inches of earth, which powder, from its
3037
close resemblance in nature to the upper and most decayed parts of the
3038
shelly mass, I can hardly doubt originally existed as a bed of shells, now
3039
much collapsed and quite disintegrated. I could not discover with the
3040
microscope a trace of organic structure in it; but its chemical
3041
constituents, according to Mr. Reeks, are the same as in the powder
3042
extracted from amongst the decaying shells on the lower ledge, with the
3043
marked exception that the carbonate of lime is present in only very small
3044
quantity. On the third and highest ledge, I observed some of this powder in
3045
a similar position, and likewise occasionally in small patches at
3046
considerably greater heights near the summit of the island. At Iquique,
3047
where the whole face of the country is covered by a highly saliferous
3048
alluvium, and where the climate is extremely dry, we have seen that,
3049
according to Mr. Blake, the shells which are perfect near the beach become,
3050
in ascending, gradually less and less perfect, until scarcely a trace of
3051
their original structure can be discovered. It is known that carbonate of
3052
lime and common salt left in a mass together, and slightly moistened,
3053
partially decompose each other (I am informed by Dr. Kane, through Mr.
3054
Reeks, that a manufactory was established on this principle in France, but
3055
failed from the small quantity of carbonate of soda produced. Sprengel
3056
"Gardeners' Chronicle" 1845 page 157, states, that salt and carbonate of
3057
lime are liable to mutual decomposition in the soil. Sir H. De la Beche
3058
informs me, that calcareous rocks washed by the spray of the sea, are often
3059
corroded in a peculiar manner; see also on this latter subject "Gardeners'
3060
Chronicle" page 675 1844.): now we have at San Lorenzo and at Iquique, in
3061
the shells and salt packed together, and occasionally moistened by the so-
3062
called Peruvian dew, the proper elements for this action. We can thus
3063
understand the peculiar corroded appearance of the shells on San Lorenzo,
3064
and the great decrease of quantity in the carbonate of lime in the powder
3065
on the upper ledge. There is, however, a great difficulty on this view, for
3066
the resultant salts should be carbonate of soda and muriate of lime; the
3067
latter is present, but not the carbonate of soda. Hence I am led to the
3068
perhaps unauthorised conjecture (which I shall hereafter have to refer to)
3069
that the carbonate of soda, by some unexplained means, becomes converted
3070
into a sulphate.
3071

3072
If the above remarks be just, we are led to the very unexpected conclusion,
3073
that a dry climate, by leaving the salt from the sea-spray undissolved, is
3074
much less favourable to the preservation of upraised shells than a humid
3075
climate. However this may be, it is interesting to know the manner in which
3076
masses of shells, gradually upraised above the sea-level, decay and finally
3077
disappear.
3078

3079
SUMMARY ON THE RECENT ELEVATION OF THE WEST COAST OF SOUTH AMERICA.
3080

3081
We have seen that upraised marine remains occur at intervals, and in some
3082
parts almost continuously, from latitude 45 degrees 35' to 12 degrees S.,
3083
along the shores of the Pacific. This is a distance, in a north and south
3084
line, of 2,075 geographical miles. From Byron's observations, the elevation
3085
has no doubt extended sixty miles further south; and from the similarity in
3086
the form of the country near Lima, it has probably extended many leagues
3087
further north. (I may take this opportunity of stating that in a MS. in the
3088
Geological Society by Mr. Weaver, it is stated that beds of oysters and
3089
other recent shells are found thirty feet above the level of the sea, in
3090
many parts of Tampico, in the Gulf of Mexico.) Along this great line of
3091
coast, besides the organic remains, there are in very many parts, marks of
3092
erosion, caves, ancient beaches, sand-dunes, and successive terraces of
3093
gravel, all above the present level of the sea. From the steepness of the
3094
land on this side of the continent, shells have rarely been found at
3095
greater distances inland than from two to three leagues; but the marks of
3096
sea-action are evident farther from the coast; for instance, in the valley
3097
of Guasco, at a distance of between thirty and forty miles. Judging from
3098
the upraised shells alone, the elevation in Chiloe has been 350 feet, at
3099
Concepcion certainly 625 feet; and by estimation 1,000 feet; at Valparaiso
3100
1,300 feet; at Coquimbo 252 feet; northward of this place, sea-shells have
3101
not, I believe, been found above 300 feet; and at Lima they were falling
3102
into decay (hastened probably by the salt) at 85 feet. Not only has this
3103
amount of elevation taken place within the period of existing Mollusca and
3104
Cirripedes; but their proportional numbers in the neighbouring sea have in
3105
most cases remained the same. Near Lima, however, a small change in this
3106
respect between the living and the upraised was observed: at Coquimbo this
3107
was more evident, all the shells being existing species, but with those
3108
embedded in the uppermost calcareous plain not approximating so closely in
3109
proportional numbers, as do those that lie loose on its surface at the
3110
height of 252 feet, and still less closely than those which are strewed on
3111
the lower plains, which latter are identical in proportional numbers with
3112
those now cast up on the beach. From this circumstance, and from not
3113
finding, upon careful examination, near Coquimbo any shells at a greater
3114
height than 252 feet, I believe that the recent elevation there has been
3115
much less than at Valparaiso, where it has been 1,300 feet, and I may add,
3116
than at Concepcion. This considerable inequality in the amount of elevation
3117
at Coquimbo and Valparaiso, places only 200 miles apart, is not improbable,
3118
considering, first, the difference in the force and number of the shocks
3119
now yearly affecting different parts of this coast; and, secondly, the fact
3120
of single areas, such as that of the province of Concepcion, having been
3121
uplifted very unequally during the same earthquake. It would, in most
3122
cases, be very hazardous to infer an inequality of elevation, from shells
3123
being found on the surface or in superficial beds at different heights; for
3124
we do not know on what their rate of decay depends; and at Coquimbo one
3125
instance out of many has been given, of a promontory, which, from the
3126
occurrence of one very small collection of lime-cemented shells, has
3127
indisputably been elevated 242 feet, and yet on which, not even a fragment
3128
of shell could be found on careful examination between this height and the
3129
beach, although many sites appeared very favourable for the preservation of
3130
organic remains: the absence, also, of shells on the gravel-terraces a
3131
short distance up the valley of Coquimbo, though abundant on the
3132
corresponding terraces at its mouth, should be borne in mind.
3133

3134
There are other epochs, besides that of the existence of recent Mollusca,
3135
by which to judge of the changes of level on this coast. At Lima, as we
3136
have just seen, the elevation has been at least eighty-five feet, within
3137
the Indo-human period; and since the arrival of the Spaniards in 1530,
3138
there has apparently been a sinking of the surface. At Valparaiso, in the
3139
course of 220 years, the rise must have been less than nineteen feet; but
3140
it has been as much as from ten to eleven feet in the seventeen years
3141
subsequently to 1817, and of this rise only a part can be attributed to the
3142
earthquake of 1822, the remainder having been insensible and apparently
3143
still, in 1834, in progress. At Chiloe the elevation has been gradual, and
3144
about four feet during four years. At Coquimbo, also, it has been gradual,
3145
and in the course of 150 years has amounted to several feet. The sudden
3146
small upheavals, accompanied by earthquakes, as in 1822 at Valparaiso, in
3147
1835 at Concepcion, and in 1837 in the Chonos Archipelago, are familiar to
3148
most geologists, but the gradual rising of the coast of Chile has been
3149
hardly noticed; it is, however, very important, as connecting together
3150
these two orders of events.
3151

3152
The rise of Lima, having been eighty-five feet within the period of man, is
3153
the more surprising if we refer to the eastern coast of the continent, for
3154
at Port S. Julian, in Patagonia, there is good evidence (as we shall
3155
hereafter see) that when the land stood ninety feet lower, the
3156
Macrauchenia, a mammiferous beast, was alive; and at Bahia Blanca, when it
3157
stood only a few feet lower than it now does, many gigantic quadrupeds
3158
ranged over the adjoining country. But the coast of Patagonia is some way
3159
distant from the Cordillera, and the movement at Bahia Blanca is perhaps
3160
noways connected with this great range, but rather with the tertiary
3161
volcanic rocks of Banda Oriental, and therefore the elevation at these
3162
places may have been infinitely slower than on the coast of Peru. All such
3163
speculations, however, must be vague, for as we know with certainty that
3164
the elevation of the whole coast of Patagonia has been interrupted by many
3165
and long pauses, who will pretend to say that, in such cases, many and long
3166
periods of subsidence may not also have been intercalated?
3167

3168
In many parts of the coast of Chile and Peru there are marks of the action
3169
of the sea at successive heights on the land, showing that the elevation
3170
has been interrupted by periods of comparative rest in the upward movement,
3171
and of denudation in the action of the sea. These are plainest at Chiloe,
3172
where, in a height of about five hundred feet, there are three
3173
escarpments,--at Coquimbo, where in a height of 364 feet, there are five,--
3174
at Guasco, where there are six, of which five may perhaps correspond with
3175
those at Coquimbo, but if so, the subsequent and intervening elevatory
3176
movements have been here much more energetic,--at Lima, where, in a height
3177
of about 250 feet there are three terraces, and others, as it is asserted,
3178
at considerably greater heights. The almost entire absence of ancient marks
3179
of sea-action at defined levels along considerable spaces of coast, as near
3180
Valparaiso and Concepcion, is highly instructive, for as it is improbable
3181
that the elevation at these places alone should have been continuous, we
3182
must attribute the absence of such marks to the nature and form of the
3183
coast-rocks. Seeing over how many hundred miles of the coast of Patagonia,
3184
and on how many places on the shores of the Pacific, the elevatory process
3185
has been interrupted by periods of comparative rest, we may conclude,
3186
conjointly with the evidence drawn from other quarters of the world, that
3187
the elevation of the land is generally an intermittent action. From the
3188
quantity of matter removed in the formation of the escarpments, especially
3189
of those of Patagonia, it appears that the periods of rest in the movement,
3190
and of denudation of the land, have generally been very long. In Patagonia,
3191
we have seen that the elevation has been equable, and the periods of
3192
denudation synchronous over very wide spaces of coast; on the shores of the
3193
Pacific, owing to the terraces chiefly occurring in the valleys, we have
3194
not equal means of judging on this point; and the very different heights of
3195
the upraised shells at Coquimbo, Valparaiso, and Concepcion seem directly
3196
opposed to such a conclusion.
3197

3198
Whether on this side of the continent the elevation, between the periods of
3199
comparative rest when the escarpments were formed, has been by small sudden
3200
starts, such as those accompanying recent earthquakes, or, as is most
3201
probable, by such starts conjointly with a gradual upward movement, or by
3202
great and sudden upheavals, I have no direct evidence. But as on the
3203
eastern coast, I was led to think, from the analogy of the last hundred
3204
feet of elevation in La Plata, and from the nearly equal size of the
3205
pebbles over the entire width of the terraces, and from the upraised shells
3206
being all littoral species, that the elevation had been gradual; so do I on
3207
this western coast, from the analogy of the movements now in progress, and
3208
from the vast numbers of shells now living exclusively on or close to the
3209
beach, which are strewed over the whole surface of the land up to very
3210
considerable heights, conclude, that the movement here also has been slow
3211
and gradual, aided probably by small occasional starts. We know at least
3212
that at Coquimbo, where five escarpments occur in a height of 364 feet, the
3213
successive elevations, if they have been sudden, cannot have been very
3214
great. It has, I think, been shown that the occasional preservation of
3215
shells, unrolled and unbroken, is not improbable even during a quite
3216
gradual rising of the land; and their preservation, if the movement has
3217
been aided by small starts, is quite conformable with what actually takes
3218
place during recent earthquakes.
3219

3220
Judging from the present action of the sea, along the shores of the
3221
Pacific, on the deposits of its own accumulation, the present time seems in
3222
most places to be one of comparative rest in the elevatory movement, and of
3223
denudation of the land. Undoubtedly this is the case along the whole great
3224
length of Patagonia. At Chiloe, however, we have seen that a narrow sloping
3225
fringe, covered with vegetation, separates the present sea-beach from a
3226
line of low cliffs, which the waves lately reached; here, then, the land is
3227
gaining in breadth and height, and the present period is not one of rest in
3228
the elevation and of contingent denudation; but if the rising be not
3229
prolonged at a quick rate, there is every probability that the sea will
3230
soon regain its former horizontal limits. I observed similar low sloping
3231
fringes on several parts of the coast, both northward of Valparaiso and
3232
near Coquimbo; but at this latter place, from the change in form which the
3233
coast has undergone since the old escarpments were worn, it may be doubted
3234
whether the sea, acting for any length of time at its present level, would
3235
eat into the land; for it now rather tends to throw up great masses of
3236
sand. It is from facts such as these that I have generally used the term
3237
COMPARATIVE rest, as applied to the elevation of the land; the rest or
3238
cessation in the movement being comparative both with what has preceded it
3239
and followed it, and with the sea's power of corrosion at each spot and at
3240
each level. Near Lima, the cliff-formed shores of San Lorenzo, and on the
3241
mainland south of Callao, show that the sea is gaining on the land; and as
3242
we have here some evidence that its surface has lately subsided or is still
3243
sinking, the periods of comparative rest in the elevation and of contingent
3244
denudation, may probably in many cases include periods of subsidence. It is
3245
only, as was shown in detail when discussing the terraces of Coquimbo, when
3246
the sea with difficulty and after a long lapse of time has either corroded
3247
a narrow ledge into solid rock, or has heaped up on a steep surface a
3248
NARROW mound of detritus, that we can confidently assert that the land at
3249
that level and at that period long remained absolutely stationary. In the
3250
case of terraces formed of gravel or sand, although the elevation may have
3251
been strictly horizontal, it may well happen that no one level beach-line
3252
may be traceable, and that neither the terraces themselves nor the summit
3253
nor basal edges of their escarpments may be horizontal.
3254

3255
Finally, comparing the extent of the elevated area, as deduced from the
3256
upraised recent organic remains, on the two sides of the continent, we have
3257
seen that on the Atlantic, shells have been found at intervals from Eastern
3258
Tierra del Fuego for 1,180 miles northward, and on the Pacific for a space
3259
of 2,075 miles. For a length of 775 miles, they occur in the same latitudes
3260
on both sides of the continent. Without taking this circumstance into
3261
consideration, it is probable from the reasons assigned in the last
3262
chapter, that the entire breadth of the continent in Central Patagonia has
3263
been uplifted in mass; but from other reasons there given, it would be
3264
hazardous to extend this conclusion to La Plata. From the continent being
3265
narrow in the southern-most parts of Patagonia, and from the shells found
3266
at the Inner Narrows of the Strait of Magellan, and likewise far up the
3267
valley of the Santa Cruz, it is probable that the southern part of the
3268
western coast, which was not visited by me, has been elevated within the
3269
period of recent Mollusca: if so, the shores of the Pacific have been
3270
continuously, recently, and in a geological sense synchronously upraised,
3271
from Lima for a length of 2,480 nautical miles southward,--a distance equal
3272
to that from the Red Sea to the North Cape of Scandinavia!
3273

3274

3275
CHAPTER III. ON THE PLAINS AND VALLEYS OF CHILE:--SALIFEROUS SUPERFICIAL
3276
DEPOSITS.
3277

3278
Basin-like plains of Chile; their drainage, their marine origin.
3279
Marks of sea-action on the eastern flanks of the Cordillera.
3280
Sloping terrace-like fringes of stratified shingle within the valleys of
3281
the Cordillera; their marine origin.
3282
Boulders in the valley of Cachapual.
3283
Horizontal elevation of the Cordillera.
3284
Formation of valleys.
3285
Boulders moved by earthquake-waves.
3286
Saline superficial deposits.
3287
Bed of nitrate of soda at Iquique.
3288
Saline incrustations.
3289
Salt-lakes of La Plata and Patagonia; purity of the salt; its origin.
3290

3291
The space between the Cordillera and the coast of Chile is on a rude
3292
average from eighty to above one hundred miles in width; it is formed,
3293
either of an almost continuous mass of mountains, or more commonly of
3294
several nearly parallel ranges, separated by plains; in the more southern
3295
parts of this province the mountains are quite subordinate to the plains;
3296
in the northern part the mountains predominate.
3297

3298
The basin-like plains at the foot of the Cordillera are in several respects
3299
remarkable; that on which the capital of Chile stands is fifteen miles in
3300
width, in an east and west line, and of much greater length in a north and
3301
south line; it stands 1,750 feet above the sea; its surface appears smooth,
3302
but really falls and rises in wide gentle undulations, the hollows
3303
corresponding with the main valleys of the Cordillera: the striking manner
3304
in which it abruptly comes up to the foot of this great range has been
3305
remarked by every author since the time of Molina. (This plain is partially
3306
separated into two basins by a range of hills; the southern half, according
3307
to Meyen ("Reise um Erde" Th. 1 s. 274), falls in height, by an abrupt
3308
step, of between fifteen and twenty feet.) Near the Cordillera it is
3309
composed of a stratified mass of pebbles of all sizes, occasionally
3310
including rounded boulders: near its western boundary, it consists of
3311
reddish sandy clay, containing some pebbles and numerous fragments of
3312
pumice, and sometimes passes into pure sand or into volcanic ashes. At
3313
Podaguel, on this western side of the plain, beds of sand are capped by a
3314
calcareous tuff, the uppermost layers being generally hard and
3315
substalagmitic, and the lower ones white and friable, both together
3316
precisely resembling the beds at Coquimbo, which contain recent marine
3317
shells. Abrupt, but rounded, hummocks of rock rise out of this plain: those
3318
of Sta. Lucia and S. Cristoval are formed of greenstone-porphyry almost
3319
entirely denuded of its original covering of porphyritic claystone breccia;
3320
on their summits, many fragments of rock (some of them kinds not found in
3321
situ) are coated and united together by a white, friable, calcareous tuff,
3322
like that found at Podaguel. When this matter was deposited on the summit
3323
of S. Cristoval, the water must have stood 946 feet above the surface of
3324
the surrounding plain. (Or 2,690 feet above the sea, as measured
3325
barometrically by Mr. Eck. This tuff appears to the eye nearly pure; but
3326
when placed in acid it leaves a considerable residue of sand and broken
3327
crystals, apparently of feldspar. Dr. Meyen ("Reise" Th. 1 s. 269) says he
3328
found a similar substance on the neighbouring hill of Dominico (and I found
3329
it also on the Cerro Blanco), and he attributes it to the weathering of the
3330
stone. In some places which I examined, its bulk put this view of its
3331
origin quite out of the question; and I should much doubt whether the
3332
decomposition of a porphyry would, in any case, leave a crust chiefly
3333
composed of carbonate of lime. The white crust, which is commonly seen on
3334
weathered feldspathic rocks, does not appear to contain any free carbonate
3335
of lime.)
3336

3337
To the south this basin-like plain contracts, and rising scarcely
3338
perceptibly with a smooth surface, passes through a remarkable level gap in
3339
the mountains, forming a true land-strait, and called the Angostura. It
3340
then immediately expands into a second basin-formed plain: this again to
3341
the south contracts into another land-strait, and expands into a third
3342
basin, which, however, falls suddenly in level about forty feet. This third
3343
basin, to the south, likewise contracts into a strait, and then again opens
3344
into the great plain of San Fernando, stretching so far south that the
3345
snowy peaks of the distant Cordillera are seen rising above its horizon as
3346
above the sea. These plains, near the Cordillera, are generally formed of a
3347
thick stratified mass of shingle (The plain of San Fernando has, according
3348
to MM. Meyen and Gay "Reise" etc. Th. 1 ss. 295 and 298, near the
3349
Cordillera, an upper step-formed plain of clay, on the surface of which
3350
they found numerous blocks of rocks, from two to three feet long, either
3351
lying single or piled in heaps, but all arranged in nearly straight
3352
lines.); in other parts, of a red sandy clay, often with an admixture of
3353
pumiceous matter. Although these basins are connected together like a
3354
necklace, in a north and south line, by smooth land-straits, the streams
3355
which drain them do not all flow north and south, but mostly westward,
3356
through breaches worn in the bounding mountains; and in the case of the
3357
second basin, or that of Rancagua, there are two distinct breaches. Each
3358
basin, moreover, is not drained singly; thus, to give the most striking
3359
instance, but not the only one, in proceeding southward over the plain of
3360
Rancagua, we first find the water flowing northward to and through the
3361
northern land-strait; then, without crossing any marked ridge or watershed,
3362
we see it flowing south-westward towards the northern one of the two
3363
breaches in the western mountainous boundary; and lastly, again without any
3364
ridge, it flows towards the southern breach in these same mountains. Hence
3365
the surface of this one basin-like plain, appearing to the eye so level,
3366
has been modelled with great nicety, so that the drainage, without any
3367
conspicuous watersheds, is directed towards three openings in the
3368
encircling mountains. ((It appears from Captain Herbert's account of the
3369
Diluvium of the Himalaya, "Gleanings of Science" Calcutta volume 2 page
3370
164, that precisely similar remarks apply to the drainage of the plains or
3371
valleys between those great mountains.) The streams flowing from the
3372
southern basin-like plains, after passing through the breaches to the west,
3373
unite and form the river Rapel, which enters the Pacific near Navidad. I
3374
followed the southernmost branch of this river, and found that the basin or
3375
plain of San Fernando is continuously and smoothly united with those
3376
plains, which were described in the Second Chapter, as being worn near the
3377
coast into successive cave-eaten escarpments, and still nearer to the
3378
coast, as being strewed with upraised recent marine remains.
3379

3380
I might have given descriptions of numerous other plains of the same
3381
general form, some at the foot of the Cordillera, some near the coast, and
3382
some halfway between these points. I will allude only to one other, namely,
3383
the plain of Uspallata, lying on the eastern or opposite side of the
3384
Cordillera, between that great range and the parallel lower range of
3385
Uspallata. According to Miers, its surface is 6,000 feet above the level of
3386
the sea: it is from ten to fifteen miles in width, and is said to extend
3387
with an unbroken surface for 180 miles northwards: it is drained by two
3388
rivers passing through breaches in the mountains to the east. On the banks
3389
of the River Mendoza it is seen to be composed of a great accumulation of
3390
stratified shingle, estimated at 400 feet in thickness. In general
3391
appearance, and in numerous points of structure, this plain closely
3392
resembles those of Chile.
3393

3394
The origin and manner of formation of the thick beds of gravel, sandy clay,
3395
volcanic detritus, and calcareous tuff, composing these basin-like plains,
3396
is very important; because, as we shall presently show, they send arms or
3397
fringes far up the main valleys of the Cordillera. Many of the inhabitants
3398
believe that these plains were once occupied by lakes, suddenly drained;
3399
but I conceive that the number of the separate breaches at nearly the same
3400
level in the mountains surrounding them quite precludes this idea. Had not
3401
such distinguished naturalists as MM. Meyen and Gay stated their belief
3402
that these deposits were left by great debacles rushing down from the
3403
Cordillera, I should not have noticed a view, which appears to me from many
3404
reasons improbable in the highest degree--namely, from the vast
3405
accumulation of WELL-ROUNDED PEBBLES--their frequent stratification with
3406
layers of sand--the overlying beds of calcareous tuff--this same substance
3407
coating and uniting the fragments of rock on the hummocks in the plain of
3408
Santiago--and lastly even from the worn, rounded, and much denuded state of
3409
these hummocks, and of the headlands which project from the surrounding
3410
mountains. On the other hand, these several circumstances, as well as the
3411
continuous union of the basins at the foot of the Cordillera, with the
3412
great plain of the Rio Rapel which still retains the marks of sea-action at
3413
various levels, and their general similarity in form and composition with
3414
the many plains near the coast, which are either similarly marked or are
3415
strewed with upraised marine remains, fully convince me that the mountains
3416
bounding these basin-plains were breached, their islet-like projecting
3417
rocks worn, and the loose stratified detritus forming their now level
3418
surfaces deposited, by the sea, as the land slowly emerged. It is hardly
3419
possible to state too strongly the perfect resemblance in outline between
3420
these basin-like, long, and narrow plains of Chile (especially when in the
3421
early morning the mists hanging low represented water), and the creeks and
3422
fiords now intersecting the southern and western shores of the continent.
3423
We can on this view of the sea, when the land stood lower, having long and
3424
tranquilly occupied the spaces between the mountain-ranges, understand how
3425
the boundaries of the separate basins were breached in more than one place;
3426
for we see that this is the general character of the inland bays and
3427
channels of Tierra del Fuego; we there, also, see in the sawing action of
3428
the tides, which flow with great force in the cross channels, a power
3429
sufficient to keep the breaches open as the land emerged. We can further
3430
see that the waves would naturally leave the smooth bottom of each great
3431
bay or channel, as it became slowly converted into land, gently inclined to
3432
as many points as there were mouths, through which the sea finally
3433
retreated, thus forming so many watersheds, without any marked ridges, on a
3434
nearly level surface. The absence of marine remains in these high inland
3435
plains cannot be properly adduced as an objection to their marine origin:
3436
for we may conclude, from shells not being found in the great shingle beds
3437
of Patagonia, though copiously strewed on their surfaces, and from many
3438
other analogous facts, that such deposits are eminently unfavourable for
3439
the embedment of such remains; and with respect to shells not being found
3440
strewed on the surface of these basin-like plains, it was shown in the last
3441
chapter that remains thus exposed in time decay and disappear.
3442

3443
(FIGURE 13. SECTION OF THE PLAIN AT THE EASTERN FOOT OF THE CHILEAN
3444
CORDILLERA.
3445

3446
From Cordillera (left) through Talus-plain and Level surface, 2,700 feet
3447
above sea, to Gravel terraces (right).)
3448

3449
I observed some appearances on the plains at the eastern and opposite foot
3450
of the Cordillera which are worth notice, as showing that the sea there
3451
long acted at nearly the same level as on the basin-plains of Chile. The
3452
mountains on this eastern side are exceedingly abrupt; they rise out of a
3453
smooth, talus-like, very gentle, slope, from five to ten miles in width (as
3454
represented in Figure 13), entirely composed of perfectly rounded pebbles,
3455
often white-washed with an aluminous substance like decomposed feldspar.
3456
This sloping plain or talus blends into a perfectly flat space a few miles
3457
in width, composed of reddish impure clay, with small calcareous
3458
concretions as in the Pampean deposit,--of fine white sand with small
3459
pebbles in layers,--and of the above-mentioned white aluminous earth, all
3460
interstratified together. This flat space runs as far as Mendoza, thirty
3461
miles northward, and stands probably at about the same height, namely,
3462
2,700 feet (Pentland and Miers) above the sea. To the east it is bounded by
3463
an escarpment, eighty feet in height, running for many miles north and
3464
south, and composed of perfectly round pebbles, and loose, white-washed, or
3465
embedded in the aluminous earth: behind this escarpment there is a second
3466
and similar one of gravel. Northward of Mendoza, these escarpments become
3467
broken and quite obliterated; and it does not appear that they ever
3468
enclosed a lake-like area: I conclude, therefore, that they were formed by
3469
the sea, when it reached the foot of the Cordillera, like the similar
3470
escarpments occurring at so many points on the coasts of Chile and
3471
Patagonia.
3472

3473
The talus-like plain slopes up with a smooth surface into the great dry
3474
valleys of the Cordillera. On each hand of the Portillo valley, the
3475
mountains are formed of red granite, mica-slate, and basalt, which all have
3476
suffered a truly astonishing amount of denudation; the gravel in the
3477
valley, as well as on the talus-like plain in front of it, is composed of
3478
these rocks; but at the mouth of the valley, in the middle (height probably
3479
about three thousand five hundred feet above the sea), a few small isolated
3480
hillocks of several varieties of porphyry project, round which, on all
3481
sides, smooth and often white-washed pebbles of these same porphyries, to
3482
the exclusion of all others, extend to a circumscribed distance. Now, it is
3483
difficult to conceive any other agency, except the quiet and long-continued
3484
action of the sea on these hillocks, which could have rounded and
3485
whitewashed the fragments of porphyry, and caused them to radiate from such
3486
small and quite insignificant centres, in the midst of that vast stream of
3487
stones which has descended from the main Cordillera.
3488

3489
SLOPING TERRACES OF GRAVEL IN THE VALLEYS OF THE CORDILLERA.
3490

3491
(FIGURE 14. GROUND-PLAN OF A BIFURCATING VALLEY IN THE CORDILLERA, bordered
3492
by smooth, sloping gravel-fringes (AA), worn along the course of the river
3493
into cliffs.)
3494

3495
All the main valleys on both flanks of the Chilean Cordillera have formerly
3496
had, or still have, their bottoms filled up to a considerable thickness by
3497
a mass of rudely stratified shingle. In Central Chile the greater part of
3498
this mass has been removed by the torrents; cliff-bounded fringes, more or
3499
less continuous, being left at corresponding heights on both sides of the
3500
valleys. These fringes, or as they may be called terraces, have a smooth
3501
surface, and as the valleys rise, they gently rise with them: hence they
3502
are easily irrigated, and afford great facilities for the construction of
3503
the roads. From their uniformity, they give a remarkable character to the
3504
scenery of these grand, wild, broken valleys. In width, the fringes vary
3505
much, sometimes being only broad enough for the roads, and sometimes
3506
expanding into narrow plains. Their surfaces, besides gently rising up the
3507
valley, are slightly inclined towards its centre in such a manner as to
3508
show that the whole bottom must once have been filled up with a smooth and
3509
slightly concave mass, as still are the dry unfurrowed valleys of Northern
3510
Chile. Where two valleys unite into one, these terraces are particularly
3511
well exhibited, as is represented in Figure 14. The thickness of the gravel
3512
forming these fringes, on a rude average, may be said to vary from thirty
3513
to sixty or eighty feet; but near the mouths of the valleys it was in
3514
several places from two to three hundred feet. The amount of matter removed
3515
by the torrents has been immense; yet in the lower parts of the valleys the
3516
terraces have seldom been entirely worn away on either side, nor has the
3517
solid underlying rock been reached: higher up the valleys, the terraces
3518
have frequently been removed on one or the other side, and sometimes on
3519
both sides; but in this latter case they reappear after a short interval on
3520
the line, which they would have held had they been unbroken. Where the
3521
solid rock has been reached, it has been cut into deep and narrow gorges.
3522
Still higher up the valleys, the terraces gradually become more and more
3523
broken, narrower, and less thick, until, at a height of from seven to nine
3524
thousand feet, they become lost, and blended with the piles of fallen
3525
detritus.
3526

3527
I carefully examined in many places the state of the gravel, and almost
3528
everywhere found the pebbles equally and perfectly rounded, occasionally
3529
with great blocks of rock, and generally distinctly stratified, often with
3530
parting seams of sand. The pebbles were sometimes coated with a white
3531
aluminous, and less frequently with a calcareous, crust. At great heights
3532
up the valleys the pebbles become less rounded; and as the terraces become
3533
obliterated, the whole mass passes into the nature of ordinary detritus. I
3534
was repeatedly struck with the great difference between this detritus high
3535
up the valleys, and the gravel of the terraces low down, namely, in the
3536
greater number of the quite angular fragments in the detritus,--in the
3537
unequal degree to which the other fragments have been rounded,--in the
3538
quantity of associated earth,--in the absence of stratification,--and in
3539
the irregularity of the upper surfaces. This difference was likewise well
3540
shown at points low down the valleys, where precipitous ravines, cutting
3541
through mountains of highly coloured rock, have thrown down wide, fan-
3542
shaped accumulations of detritus on the terraces: in such cases, the line
3543
of separation between the detritus and the terrace could be pointed out to
3544
within an inch or two; the detritus consisting entirely of angular and only
3545
partially rounded fragments of the adjoining coloured rocks; the stratified
3546
shingle (as I ascertained by close inspection, especially in one case, in
3547
the valley of the River Mendoza) containing only a small proportion of
3548
these fragments, and those few well rounded.
3549

3550
I particularly attended to the appearance of the terraces where the valleys
3551
made abrupt and considerable bends, but I could perceive no difference in
3552
their structure: they followed the bends with their usual nearly equable
3553
inclination. I observed, also, in several valleys, that wherever large
3554
blocks of any rock became numerous, either on the surface of the terrace or
3555
embedded in it, this rock soon appeared higher up in situ: thus I have
3556
noticed blocks of porphyry, of andesitic syenite, of porphyry and of
3557
syenite, alternately becoming numerous, and in each case succeeded by
3558
mountains thus constituted. There is, however, one remarkable exception to
3559
this rule; for along the valley of the Cachapual, M. Gay found numerous
3560
large blocks of white granite, which does not occur in the neighbourhood. I
3561
observed these blocks, as well as others of andesitic syenite (not
3562
occurring here in situ), near the baths of Cauquenes at a height of between
3563
two and three hundred feet above the river, and therefore quite above the
3564
terrace or fringe which borders that river; some miles up the valleys there
3565
were other blocks at about the same height. I also noticed, at a less
3566
height, just above the terrace, blocks of porphyries (apparently not found
3567
in the immediately impending mountains), arranged in rude lines, as on a
3568
sea-beach. All these blocks were rounded, and though large, not gigantic,
3569
like the true erratic boulders of Patagonia and Fuegia. M. Gay states that
3570
the granite does not occur in situ within a distance of twenty leagues
3571
("Annales des Science Nat. " 1 series tome 28. M. Gay, as I was informed,
3572
penetrated the Cordillera by the great oblique valley of Los Cupressos, and
3573
not by the most direct line.); I suspect, for several reasons, that it will
3574
ultimately be found at a much less distance, though certainly not in the
3575
immediate neighbourhood. The boulders found by MM. Meyen and Gay on the
3576
upper plain of San Fernando (mentioned in a previous note) probably belong
3577
to this same class of phenomena.
3578

3579
These fringes of stratified gravel occur along all the great valleys of the
3580
Cordillera, as well as along their main branches; they are strikingly
3581
developed in the valleys of the Maypu, Mendoza, Aconcagua, Cachapual, and
3582
according to Meyen, in the Tinguirica. ("Reise" etc. Th. 1 s. 302.) In the
3583
valleys, however, of Northern Chile, and in some on the eastern flank of
3584
the Cordillera, as in the Portillo Valley, where streams have never flowed,
3585
or are quite insignificant in volume, the presence of a mass of stratified
3586
gravel can be inferred only from the smooth slightly concave form of the
3587
bottom. One naturally seeks for some explanation of so general and striking
3588
a phenomenon; that the matter forming the fringes along the valleys, or
3589
still filling up their entire beds, has not fallen from the adjoining
3590
mountains like common detritus, is evident from the complete contrast in
3591
every respect between the gravel and the piles of detritus, whether seen
3592
high up the valleys on their sides, or low down in front of the more
3593
precipitous ravines; that the matter has not been deposited by debacles,
3594
even if we could believe in debacles having rushed down EVERY valley, and
3595
all their branches, eastward and westward from the central pinnacles of the
3596
Cordillera, we must admit from the following reasons,--from the distinct
3597
stratification of the mass,--its smooth upper surface,--the well-rounded
3598
and sometimes encrusted state of the pebbles, so different from the loose
3599
debris on the mountains,--and especially from the terraces preserving their
3600
uniform inclination round the most abrupt bends. To suppose that as the
3601
land now stands, the rivers deposited the shingle along the course of every
3602
valley, and all their main branches, appears to me preposterous, seeing
3603
that these same rivers not only are now removing and have removed much of
3604
this deposit, but are everywhere tending to cut deep and narrow gorges in
3605
the hard underlying rocks.
3606

3607
I have stated that these fringes of gravel, the origin of which are
3608
inexplicable on the notion of debacles or of ordinary alluvial action, are
3609
directly continuous with the similarly-composed basin-like plains at the
3610
foot of the Cordillera, which, from the several reasons before assigned, I
3611
cannot doubt were modelled by the agency of the sea. Now if we suppose that
3612
the sea formerly occupied the valleys of the Chilean Cordillera, in
3613
precisely the same manner as it now does in the more southern parts of the
3614
continent, where deep winding creeks penetrate into the very heart of, and
3615
in the case of Obstruction Sound quite through, this great range; and if we
3616
suppose that the mountains were upraised in the same slow manner as the
3617
eastern and western coasts have been upraised within the recent period,
3618
then the origin and formation of these sloping, terrace-like fringes of
3619
gravel can be simply explained. For every part of the bottom of each valley
3620
will, on this view, have long stood at the head of a sea creek, into which
3621
the then existing torrents will have delivered fragments of rocks, where,
3622
by the action of the tides, they will have been rolled, sometimes
3623
encrusted, rudely stratified, and the whole surface levelled by the
3624
blending together of the successive beach lines. (Sloping terraces of
3625
precisely similar structure have been described by me "Philosophical
3626
Transactions" 1839 page 58, in the valleys of Lochaber in Scotland, where,
3627
at higher levels, the parallel roads of Glen Roy show the marks of the long
3628
and quiet residence of the sea. I have no doubt that these sloping terraces
3629
would have been present in the valleys of most of the European ranges, had
3630
not every trace of them, and all wrecks of sea-action, been swept away by
3631
the glaciers which have since occupied them. I have shown that this is the
3632
case with the mountains ("London and Edinburgh Philosophical Journal"
3633
volume 21 page 187) of North Wales.) As the land rose, the torrents in
3634
every valley will have tended to have removed the matter which just before
3635
had been arrested on, or near, the beach-lines; the torrents, also, having
3636
continued to gain in force by the continued elevation increasing their
3637
total descent from their sources to the sea. This slow rising of the
3638
Cordillera, which explains so well the otherwise inexplicable origin and
3639
structure of the terraces, judging from all known analogies, will probably
3640
have been interrupted by many periods of rest; but we ought not to expect
3641
to find any evidence of these periods in the structure of the gravel-
3642
terraces: for, as the waves at the heads of deep creeks have little erosive
3643
power, so the only effect of the sea having long remained at the same level
3644
will be that the upper parts of the creeks will have become filled up at
3645
such periods to the level of the water with gravel and sand; and that
3646
afterwards the rivers will have thrown down on the filled-up parts a talus
3647
of similar matter, of which the inclination (as at the head of a partially
3648
filled-up lake) will have been determined by the supply of detritus, and
3649
the force of the stream. (I have attempted to explain this process in a
3650
more detailed manner, in a letter to Mr. Maclaren, published in the
3651
"Edinburgh New Philosophical Journal" volume 35 page 288.) Hence, after the
3652
final conversion of the creeks into valleys, almost the only difference in
3653
the terraces at those points at which the sea stood long, will be a
3654
somewhat more gentle inclination, with river-worn instead of sea-worn
3655
detritus on the surface.
3656

3657
I know of only one difficulty on the foregoing view, namely, the far-
3658
transported blocks of rock high on the sides of the valley of the
3659
Cachapual: I will not attempt any explanation of this phenomenon, but I may
3660
state my belief that a mountain-ridge near the Baths of Cauquenes has been
3661
upraised long subsequently to all the other ranges in the neighbourhood,
3662
and that when this was effected the whole face of the country must have
3663
been greatly altered. In the course of ages, moreover, in this and other
3664
valleys, events may have occurred like, but even on a grander scale than,
3665
that described by Molina, when a slip during the earthquake of 1762 banked
3666
up for ten days the great River Lontue, which then bursting its barrier
3667
"inundated the whole country," and doubtless transported many great
3668
fragments of rock. ("Compendio de la Hist." etc. etc. tome 1 page 30. M.
3669
Brongniart, in his report on M. Gay's labours "Annales des Sciences" 1833,
3670
considers that the boulders in the Cachapual belong to the same class with
3671
the erratic boulders of Europe. As the blocks which I saw are not gigantic,
3672
and especially as they are not angular, and as they have not been
3673
transported fairly across low spaces or wide valleys, I am unwilling to
3674
class them with those which, both in the northern and southern hemisphere
3675
"Geological Transactions" volume 6 page 415, have been transported by ice.
3676
It is to be hoped that when M. Gay's long-continued and admirable labours
3677
in Chile are published, more light will be thrown on this subject. However,
3678
the boulders may have been primarily transported; the final position of
3679
those of porphyry, which have been described as arranged at the foot of the
3680
mountain in rude lines, I cannot doubt, has been due to the action of waves
3681
on a beach. The valley of the Cachapual, in the part where the boulders
3682
occur, bursts through the high ridge of Cauquenes, which runs parallel to,
3683
but at some distance from, the Cordillera. This ridge has been subjected to
3684
excessive violence; trachytic lava has burst from it, and hot springs yet
3685
flow at its base. Seeing the enormous amount of denudation of solid rock in
3686
the upper and much broader parts of this valley where it enters the
3687
Cordillera, and seeing to what extent the ridge of Cauquenes now protects
3688
the great range, I could not help believing (as alluded to in the text)
3689
that this ridge with its trachytic eruptions had been thrown up at a much
3690
later period than the Cordillera. If this has been the case, the boulders,
3691
after having been transported to a low level by the torrents (which exhibit
3692
in every valley proofs of their power of moving great fragments), may have
3693
been raised up to their present height, with the land on which they
3694
rested.) Finally, notwithstanding this one case of difficulty, I cannot
3695
entertain any doubt, that these terrace-like fringes, which are
3696
continuously united with the basin-shaped plains at the foot of the
3697
Cordillera, have been formed by the arrestment of river-borne detritus at
3698
successive levels, in the same manner as we see now taking place at the
3699
heads of all those many, deep, winding fiords intersecting the southern
3700
coasts. To my mind, this has been one of the most important conclusions to
3701
which my observations on the geology of South America have led me; for we
3702
thus learn that one of the grandest and most symmetrical mountain-chains in
3703
the world, with its several parallel lines, has been together uplifted in
3704
mass between seven and nine thousand feet, in the same gradual manner as
3705
have the eastern and western coasts within the recent period. (I do not
3706
wish to affirm that all the lines have been uplifted quite equally; slight
3707
differences in the elevation would leave no perceptible effect on the
3708
terraces. It may, however, be inferred, perhaps with one exception, that
3709
since the period when the sea occupied these valleys, the several ranges
3710
have not been dislocated by GREAT and ABRUPT faults or upheavals; for if
3711
such had occurred, the terraces of gravel at these points would not have
3712
been continuous. The one exception is at the lower end of a plain in the
3713
Valle del Yeso (a branch of the Maypu), where, at a great height, the
3714
terraces and valley appear to have been broken through by a line of
3715
upheaval, of which the evidence is plain in the adjoining mountains; this
3716
dislocation, perhaps, occurred AFTER THE ELEVATION of this part of the
3717
valley above the level of the sea. The valley here is almost blocked up by
3718
a pile about one thousand feet in thickness, formed, as far as I could
3719
judge, from three sides, entirely, or at least in chief part, of gravel and
3720
detritus. On the south side, the river has cut quite through this mass; on
3721
the northern side, and on the very summit, deep ravines, parallel to the
3722
line of the valley, are worn, as if the drainage from the valley above had
3723
passed by these two lines before following its present course.)
3724

3725
FORMATION OF VALLEYS.
3726

3727
The bulk of solid rock which has been removed in the lower parts of the
3728
valleys of the Cordillera has been enormous. It is only by reflecting on
3729
such cases as that of the gravel beds of Patagonia, covering so many
3730
thousand square leagues of surface, and which, if heaped into a ridge,
3731
would form a mountain-range almost equal to the Cordillera, that the amount
3732
of denudation becomes credible. The valleys within this range often follow
3733
anticlinal but rarely synclinal lines; that is, the strata on the two sides
3734
more often dip from the line of valley than towards it. On the flanks of
3735
the range, the valleys most frequently run neither along anticlinal nor
3736
synclinal axes, but along lines of flexure or faults: that is, the strata
3737
on both sides dip in the same direction, but with different, though often
3738
only slightly different, inclinations. As most of the nearly parallel
3739
ridges which together form the Cordillera run approximately north and
3740
south, the east and west valleys cross them in zig-zag lines, bursting
3741
through the points where the strata have been least inclined. No doubt the
3742
greater part of the denudation was affected at the periods when tidal-
3743
creeks occupied the valleys, and when the outer flanks of the mountains
3744
were exposed to the full force of an open ocean. I have already alluded to
3745
the power of the tidal action in the channels connecting great bays; and I
3746
may here mention that one of the surveying vessels in a channel of this
3747
kind, though under sail, was whirled round and round by the force of the
3748
current. We shall hereafter see, that of the two main ridges forming the
3749
Chilean Cordillera, the eastern and loftiest one owes the greater part of
3750
its ANGULAR upheaval to a period subsequent to the elevation of the western
3751
ridge; and it is likewise probable that many of the other parallel ridges
3752
have been angularly upheaved at different periods; consequently many parts
3753
of the surfaces of these mountains must formerly have been exposed to the
3754
full force of the waves, which, if the Cordillera were now sunk into the
3755
sea, would be protected by parallel chains of islands. The torrents in the
3756
valleys certainly have great power in wearing the rocks; as could be told
3757
by the dull rattling sound of the many fragments night and day hurrying
3758
downwards; and as was attested by the vast size of certain fragments, which
3759
I was assured had been carried onwards during floods; yet we have seen in
3760
the lower parts of the valleys, that the torrents have seldom removed all
3761
the sea-checked shingle forming the terraces, and have had time since the
3762
last elevation in mass only to cut in the underlying rocks, gorges, deep
3763
and narrow, but quite insignificant in dimensions compared with the entire
3764
width and depth of the valleys.
3765

3766
Along the shores of the Pacific, I never ceased during my many and long
3767
excursions to feel astonished at seeing every valley, ravine, and even
3768
little inequality of surface, both in the hard granitic and soft tertiary
3769
districts, retaining the exact outline, which they had when the sea left
3770
their surfaces coated with organic remains. When these remains shall have
3771
decayed, there will be scarcely any difference in appearance between this
3772
line of coast-land and most other countries, which we are accustomed to
3773
believe have assumed their present features chiefly through the agency of
3774
the weather and fresh-water streams. In the old granitic districts, no
3775
doubt it would be rash to attribute all the modifications of outline
3776
exclusively to the sea-action; for who can say how often this lately
3777
submerged coast may not previously have existed as land, worn by running
3778
streams and washed by rain? This source of doubt, however, does not apply
3779
to the districts superficially formed of the modern tertiary deposits. The
3780
valleys worn by the sea, through the softer formations, both on the
3781
Atlantic and Pacific sides of the continent, are generally broad, winding,
3782
and flat-bottomed: the only district of this nature now penetrated by arms
3783
of the sea, is the island of Chiloe.
3784

3785
Finally, the conclusion at which I have arrived, with respect to the
3786
relative powers of rain and sea water on the land, is, that the latter is
3787
far the most efficient agent, and that its chief tendency is to widen the
3788
valleys; whilst torrents and rivers tend to deepen them, and to remove the
3789
wreck of the sea's destroying action. As the waves have more power, the
3790
more open and exposed the space may be, so will they always tend to widen
3791
more and more the mouths of valleys compared with their upper parts: hence,
3792
doubtless, it is, that most valleys expand at their mouths,--that part, at
3793
which the rivers flowing in them, generally have the least wearing power.
3794

3795
When reflecting on the action of the sea on the land at former levels, the
3796
effect of the great waves, which generally accompany earthquakes, must not
3797
be overlooked: few years pass without a severe earthquake occurring on some
3798
part of the west coast of South America; and the waves thus caused have
3799
great power. At Concepcion, after the shock of 1835, I saw large slabs of
3800
sandstone, one of which was six feet long, three in breadth, and two in
3801
thickness, thrown high up on the beach; and from the nature of the marine
3802
animals still adhering to it, it must have been torn up from a considerable
3803
depth. On the other hand, at Callao, the recoil-wave of the earthquake of
3804
1746 carried great masses of brickwork, between three and four feet square,
3805
some way out seaward. During the course of ages, the effect thus produced
3806
at each successive level, cannot have been small; and in some of the
3807
tertiary deposits on this line of coast, I observed great boulders of
3808
granite and other neighbouring rocks, embedded in fine sedimentary layers,
3809
the transportal of which, except by the means of earthquake-waves, always
3810
appeared to me inexplicable.
3811

3812
SUPERFICIAL SALINE DEPOSITS.
3813

3814
This subject may be here conveniently treated of: I will begin with the
3815
most interesting case, namely, the superficial saline beds near Iquique in
3816
Peru. The porphyritic mountains on the coast rise abruptly to a height of
3817
between one thousand nine hundred and three thousand feet: between their
3818
summits and an inland plain, on which the celebrated deposit of nitrate of
3819
soda lies, there is a high undulatory district, covered by a remarkable
3820
superficial saliferous crust, chiefly composed of common salt, either in
3821
white, hard, opaque nodules, or mingled with sand, in this latter case
3822
forming a compact sandstone. This saliferous superficial crust extends from
3823
the edge of the coast-escarpment, over the whole face of the country; but
3824
never attains, as I am assured by Mr. Bollaert (long resident here) any
3825
great thickness. Although a very slight shower falls only at intervals of
3826
many years, yet small funnel-shaped cavities show that the salt has been in
3827
some parts dissolved. (It is singular how slowly, according to the
3828
observations of M. Cordier on the salt-mountain of Cardona in Spain "Ann.
3829
des Mines, Translation of Geolog. Mem." by De la Beche page 60, salt is
3830
dissolved, where the amount of rain is supposed to be as much as 31.4 of an
3831
inch in the year. It is calculated that only five feet in thickness is
3832
dissolved in the course of a century.) In several places I saw large
3833
patches of sand, quite moist, owing to the quantity of muriate of lime (as
3834
ascertained by Mr. T. Reeks) contained in them. From the compact salt-
3835
cemented sand being either red, purplish, or yellow, according to the
3836
colour of the rocky strata on which it rested, I imagined that this
3837
substance had probably been derived through common alluvial action from the
3838
layers of salt which occur interstratified in the surrounding mountains
3839
("Journal of Researches" page 444 first edition.): but from the interesting
3840
details given by M. d'Orbigny, and from finding on a fresh examination of
3841
this agglomerated sand, that it is not irregularly cemented, but consists
3842
of thin layers of sand of different tints of colour, alternating with
3843
excessively fine parallel layers of salt, I conclude that it is not of
3844
alluvial origin. M. d'Orbigny observed analogous saline beds extending from
3845
Cobija for five degrees of latitude northward, and at heights varying from
3846
six hundred to nine hundred feet ("Voyage" etc. page 102. M. d'Orbigny
3847
found this deposit intersected, in many places, by deep ravines, in which
3848
there was no salt. Streams must once, though historically unknown, have
3849
flowed in them; and M. d'Orbigny argues from the presence of undissolved
3850
salt over the whole surrounding country, that the streams must have arisen
3851
from rain or snow having fallen, not in the adjoining country, but on the
3852
now arid Cordillera. I may remark, that from having observed ruins of
3853
Indian buildings in absolutely sterile parts of the Chilian Cordillera
3854
("Journal" 2nd edition page 357), I am led to believe that the climate, at
3855
a time when Indian man inhabited this part of the continent, was in some
3856
slight degree more humid than it is at present.): from finding recent sea-
3857
shells strewed on these saliferous beds, and under them, great well-rounded
3858
blocks, exactly like those on the existing beach, he believes that the
3859
salt, which is invariably superficial, has been left by the evaporation of
3860
the sea-water. This same conclusion must, I now believe, be extended to the
3861
superficial saliferous beds of Iquique, though they stand about three
3862
thousand feet above the level of the sea.
3863

3864
Associated with the salt in the superficial beds, there are numerous, thin,
3865
horizontal layers of impure, dirty-white, friable, gypseous and calcareous
3866
tuffs. The gypseous beds are very remarkable, from abounding with, so as
3867
sometimes to be almost composed of, irregular concretions, from the size of
3868
an egg to that of a man's head, of very hard, compact, heavy gypsum, in the
3869
form of anhydrite. This gypsum contains some foreign particles of stone; it
3870
is stained, judging from its action with borax, with iron, and it exhales a
3871
strong aluminous odour. The surfaces of the concretions are marked by
3872
sharp, radiating, or bifurcating ridges, as if they had been (but not
3873
really) corroded: internally they are penetrated by branching veins (like
3874
those of calcareous spar in the septaria of the London clay) of pure white
3875
anhydrite. These veins might naturally have been thought to have been
3876
formed by subsequent infiltration, had not each little embedded fragment of
3877
rock been likewise edged in a very remarkable manner by a narrow border of
3878
the same white anhydrite: this shows that the veins must have been formed
3879
by a process of segregation, and not of infiltration. Some of the little
3880
included and CRACKED fragments of foreign rock are penetrated by the
3881
anhydrite, and portions have evidently been thus mechanically displaced: at
3882
St. Helena, I observed that calcareous matter, deposited by rain water,
3883
also had the power to separate small fragments of rock from the larger
3884
masses. ("Volcanic Islands" etc. page 87.) I believe the superficial
3885
gypseous deposit is widely extended: I received specimens of it from
3886
Pisagua, forty miles north of Iquique, and likewise from Arica, where it
3887
coats a layer of pure salt. M. d'Orbigny found at Cobija a bed of clay,
3888
lying above a mass of upraised recent shells, which was saturated with
3889
sulphate of soda, and included thin layers of fibrous gypsum. ("Voyage
3890
Geolog." etc. page 95.) These widely extended, superficial, beds of salt
3891
and gypsum, appear to me an interesting geological phenomenon, which could
3892
be presented only under a very dry climate.
3893

3894
The plain or basin, on the borders of which the famous bed of nitrate of
3895
soda lies, is situated at the distance of about thirty miles from the sea,
3896
being separated from it by the saliferous district just described. It
3897
stands at a height of 3,300 feet; its surface is level, and some leagues in
3898
width; it extends forty miles northward, and has a total length (as I was
3899
informed by Mr. Belford Wilson, the Consul-General at Lima) of 420 miles.
3900
In a well near the works, thirty-six yards in depth, sand, earth, and a
3901
little gravel were found: in another well, near Almonte, fifty yards deep,
3902
the whole consisted, according to Mr. Blake, of clay, including a layer of
3903
sand two feet thick, which rested on fine gravel, and this on coarse
3904
gravel, with large rounded fragments of rock. (See an admirable paper
3905
"Geological and Miscellaneous Notices of Tarapaca" in "Silliman's American
3906
Journal" volume 44 page 1.) In many parts of this now utterly desert plain,
3907
rushes and large prostrate trees in a hardened state, apparently Mimosas,
3908
are found buried, at a depth from three to six feet; according to Mr.
3909
Blake, they have all fallen to the south-west. The bed of nitrate of soda
3910
is said to extend for forty to fifty leagues along the western margin of
3911
the plain, but is not found in its central parts: it is from two to three
3912
feet in thickness, and is so hard that it is generally blasted with
3913
gunpowder; it slopes gently upwards from the edge of the plain to between
3914
ten and thirty feet above its level. It rests on sand in which, it is said,
3915
vegetable remains and broken shells have been found; shells have also been
3916
found, according to Mr. Blake, both on and in the nitrate of soda. It is
3917
covered by a superficial mass of sand, containing nodules of common salt,
3918
and, as I was assured by a miner, much soft gypseous matter, precisely like
3919
that in the superficial crust already described: certainly this crust, with
3920
its characteristic concretions of anhydrite, comes close down to the edge
3921
of the plain.
3922

3923
The nitrate of soda varies in purity in different parts, and often contains
3924
nodules of common salt. According to Mr. Blake, the proportion of nitrate
3925
of soda varies from 20 to 75 per cent. An analysis by Mr. A. Hayes, of an
3926
average specimen, gave:--
3927

3928
Nitrate of Soda.... 64.98
3929
Sulphate of Soda.... 3.00
3930
Chloride of Soda... 28.69
3931
Iodic Salts......... 0.63
3932
Shells and Marl..... 2.60
3933
                    99.90
3934

3935
The "mother-water" at some of the refineries is very rich in iodic salts,
3936
and is supposed to contain much muriate of lime. ("Literary Gazette" 1841
3937
page 475.) In an unrefined specimen brought home by myself, Mr. T. Reeks
3938
has ascertained that the muriate of lime is very abundant. With respect to
3939
the origin of this saline mass, from the manner in which the gently
3940
inclined, compact bed follows for so many miles the sinuous margin of the
3941
plain, there can be no doubt that it was deposited from a sheet of water:
3942
from the fragments of embedded shells, from the abundant iodic salts, from
3943
the superficial saliferous crust occurring at a higher level and being
3944
probably of marine origin, and from the plain resembling in form those of
3945
Chile and that of Uspallata, there can be little doubt that this sheet of
3946
water was, at least originally, connected with the sea. (From an official
3947
document, shown me by Mr. Belford Wilson, it appears that the first export
3948
of nitrate of soda to Europe was in July 1830, on French account, in a
3949
British ship:--
3950

3951
In year, the entire export was in Quintals.
3952
 1830............................ 17,300
3953
 1831............................ 40,885
3954
 1832............................ 51,400
3955
 1833............................ 91,335
3956
 1834........................... 149,538
3957
The Spanish quintal nearly equals 100 English pounds.)
3958

3959
THIN, SUPERFICIAL, SALINE INCRUSTATIONS.
3960

3961
These saline incrustations are common in many parts of America: Humboldt
3962
met with them on the tableland of Mexico, and the Jesuit Falkner and other
3963
authors state that they occur at intervals over the vast plains extending
3964
from the mouth of the Plata to Rioja and Catamarca. (Azara "Travels" volume
3965
1 page 55, considers that the Parana is the eastern boundary of the
3966
saliferous region; but I heard of "salitrales" in the Province of Entre
3967
Rios.) Hence it is that during droughts, most of the streams in the Pampas
3968
are saline. I nowhere met with these incrustations so abundantly as near
3969
Bahia Blanca: square miles of the mud-flats, which near that place are
3970
raised only a few feet above the sea, just enough to protect them from
3971
being overflowed, appear, after dry weather, whiter than the ground after
3972
the thickest hoar-frost. After rain the salts disappear, and every puddle
3973
of water becomes highly saline; as the surface dries, the capillary action
3974
draws the moisture up pieces of broken earth, dead sticks, and tufts of
3975
grass, where the salt effloresces. The incrustation, where thickest, does
3976
not exceed a quarter of an inch. M. Parchappe has analysed it (M. d'Orbigny
3977
"Voyage" etc. Part. Hist. tome 1 page 664.); and finds that the specimens
3978
collected at the extreme head of the low plain, near the River Manuello,
3979
consist of 93 per cent of sulphate of soda, and 7 of common salt; whilst
3980
the specimens taken close to the coast contain only 63 per cent of the
3981
sulphate, and 37 of the muriate of soda. This remarkable fact, together
3982
with our knowledge that the whole of this low muddy plain has been covered
3983
by the sea within the recent period, must lead to the suspicion that the
3984
common salt, by some unknown process, becomes in time changed into the
3985
sulphate. Friable, calcareous matter is here abundant, and the case of the
3986
apparent double decomposition of the shells and salt on San Lorenzo, should
3987
not be forgotten.
3988

3989
The saline incrustations, near Bahia Blanca, are not confined to, though
3990
most abundant on, the low muddy flats; for I noticed some on a calcareous
3991
plain between thirty and forty feet above the sea, and even a little occurs
3992
in still higher valleys. Low alluvial tracts in the valleys of the Rivers
3993
Negro and Colorado are also encrusted, and in the latter valley such spaces
3994
appeared to be occasionally overflowed by the river. I observed saline
3995
incrustations in some of the valleys of Southern Patagonia. At Port Desire
3996
a low, flat, muddy valley was thickly incrusted by salts, which on analysis
3997
by Mr. T. Reeks, are found to consist of a mixture of sulphate and muriate
3998
of soda, with carbonate of lime and earthy matter. On the western side of
3999
the continent, the southern coasts are much too humid for this phenomenon;
4000
but in Northern Chile I again met with similar incrustations. On the
4001
hardened mud, in parts of the broad, flat-bottomed valley of Copiapo, the
4002
saline matter encrusts the ground to the thickness of some inches:
4003
specimens, sent by Mr. Bingley to Apothecaries' Hall for analysis, were
4004
said to consist of carbonate and sulphate of soda. Much sulphate of soda is
4005
found in the desert of Atacama. In all parts of South America, the saline
4006
incrustations occur most frequently on low damp surfaces of mud, where the
4007
climate is rather dry; and these low surfaces have, in almost every case,
4008
been upraised above the level of the sea, within the recent period.
4009

4010
SALT-LAKES OF PATAGONIA AND LA PLATA.
4011

4012
Salinas, or natural salt-lakes, occur in various formations on the eastern
4013
side of the continent,--in the argillaceo-calcareous deposit of the Pampas,
4014
in the sandstone of the Rio Negro, where they are very numerous, in the
4015
pumiceous and other beds of the Patagonian tertiary formation, and in small
4016
primary districts in the midst of this latter formation. Port S. Julian is
4017
the most southerly point (latitude 49 degrees to 50 degrees) at which
4018
salinas are known to occur. (According to Azara "Travels" volume 1 page 56,
4019
there are salt-lakes as far north as Chaco (latitude 25 degrees), on the
4020
banks of the Vermejo. The salt-lakes of Siberia appear (Pallas "Travels"
4021
English Translation volume 1 page 284) to occur in very similar depressions
4022
to those of Patagonia.) The depressions, in which these salt-lakes lie, are
4023
from a few feet to sixty metres, as asserted by M. d'Orbigny, below the
4024
surface of the surrounding plains ("Voyage Geolog." page 63.); and,
4025
according to this same author, near the Rio Negro they all trend, either in
4026
the N.E. and S.W. or in E. and W. lines, coincident with the general slope
4027
of the plain. These depressions in the plain generally have one side lower
4028
than the others, but there are no outlets for drainage. Under a less dry
4029
climate, an outlet would soon have been formed, and the salt washed away.
4030
The salinas occur at different elevations above the sea; they are often
4031
several leagues in diameter; they are generally very shallow, but there is
4032
a deep one in a quartz-rock formation near C. Blanco. In the wet season,
4033
the whole, or a part, of the salt is dissolved, being redeposited during
4034
the succeeding dry season. At this period the appearance of the snow-white
4035
expanse of salt crystallised in great cubes, is very striking. In a large
4036
salina, northward of the Rio Negro, the salt at the bottom, during the
4037
whole year, is between two and three feet in thickness.
4038

4039
The salt rests almost always on a thick bed of black muddy sand, which is
4040
fetid, probably from the decay of the burrowing worms inhabiting it.
4041
(Professor Ehrenberg examined some of this muddy sand, but was unable to
4042
find in it any infusoria.) In a salina, situated about fifteen miles above
4043
the town of El Carmen on the Rio Negro, and three or four miles from the
4044
banks of that river, I observed that this black mud rested on gravel with a
4045
calcareous matrix, similar to that spread over the whole surrounding
4046
plains: at Port S. Julian the mud, also, rested on the gravel: hence the
4047
depressions must have been formed anteriorly to, or contemporaneously with,
4048
the spreading out of the gravel. I was informed that one small salina
4049
occurs in an alluvial plain within the valley of the Rio Negro, and
4050
therefore its origin must be subsequent to the excavation of that valley.
4051
When I visited the salina, fifteen miles above the town, the salt was
4052
beginning to crystallise, and on the muddy bottom there were lying many
4053
crystals, generally placed crossways of sulphate of soda (as ascertained by
4054
Mr. Reeks), and embedded in the mud, numerous crystals of sulphate of lime,
4055
from one to three inches in length: M. d'Orbigny states that some of these
4056
crystals are acicular and more than even nine inches in length ("Voyage
4057
Geolog." page 64.); others are macled and of great purity: those I found
4058
all contained some sand in their centres. As the black and fetid sand
4059
overlies the gravel, and that overlies the regular tertiary strata, I think
4060
there can be no doubt that these remarkable crystals of sulphate of lime
4061
have been deposited from the waters of the lake. The inhabitants call the
4062
crystals of selenite, the padre del sal, and those of the sulphate of soda,
4063
the madre del sal; they assured me that both are found under the same
4064
circumstances in several of the neighbouring salinas; and that the sulphate
4065
of soda is annually dissolved, and is always crystallised before the common
4066
salt on the muddy bottom. (This is what might have been expected; for M.
4067
Ballard asserts "Acad. des Sciences" October 7, 1844, that sulphate of soda
4068
is precipitated from solution more readily from water containing muriate of
4069
soda in excess, than from pure water.) The association of gypsum and salt
4070
in this case, as well as in the superficial deposits of Iquique, appears to
4071
me interesting, considering how generally these substances are associated
4072
in the older stratified formations.
4073

4074
Mr. Reeks has analysed for me some of the salt from the salina near the Rio
4075
Negro; he finds it composed entirely of chloride of sodium, with the
4076
exception of 0.26 of sulphate of lime and of 0.22 of earthy matter: there
4077
are no traces of iodic salts. Some salt from the salina Chiquitos, in the
4078
Pampean formation, is equally pure. It is a singular fact, that the salt
4079
from these salinas does not serve so well for preserving meat, as sea-salt
4080
from the Cape de Verde Islands; and a merchant at Buenos Ayres told me that
4081
he considered it as 50 per cent less valuable. The purity of the Patagonian
4082
salt, or absence from it of those other saline bodies found in all sea-
4083
water, is the only assignable cause for this inferiority; a conclusion
4084
which is supported by the fact lately ascertained, that those salts answer
4085
best for preserving cheese which contain most of the deliquescent
4086
chlorides. ("Horticultural and Agricultural Gazette" 1845 page 93.) (It
4087
would probably well answer for the merchants of Buenos Ayres (considering
4088
the great consumption there of salt for preserving meat) to import the
4089
deliquescent chlorides to mix with the salt from the salinas: I may call
4090
attention to the fact, that at Iquique, a large quantity of muriate of
4091
lime, left in the MOTHER-WATER during the refinement of the nitrate of
4092
soda, is annually thrown away.)
4093

4094
With respect to the origin of the salt in the salinas, the foregoing
4095
analysis seems opposed to the view entertained by M. d'Orbigny and others,
4096
and which seems so probable considering the recent elevation of this line
4097
of coast, namely, that it is due to the evaporation of sea-water and to the
4098
drainage from the surrounding strata impregnated with sea-salt. I was
4099
informed (I know not whether accurately) that on the northern side of the
4100
salina on the Rio Negro, there is a small brine spring which flows at all
4101
times of the year: if this be so, the salt in this case at least, probably
4102
is of subterranean origin. It at first appears very singular that fresh
4103
water can often be procured in wells, and is sometimes found in small
4104
lakes, quite close to these salinas. (Sir W. Parish states "Buenos Ayres"
4105
etc. pages 122 and 170, that this is the case near the great salinas
4106
westward of the S. Ventana. I have seen similar statements in an ancient
4107
MS. Journal lately published by S. Angelis. At Iquique, where the surface
4108
is so thickly encrusted with saline matter, I tasted water only slightly
4109
brackish, procured in a well thirty-six yards deep; but here one feels less
4110
surprise at its presence, as pure water might percolate under ground from
4111
the not very distant Cordillera.) I am not aware that this fact bears
4112
particularly on the origin of the salt; but perhaps it is rather opposed to
4113
the view of the salt having been washed out of the surrounding superficial
4114
strata, but not to its having been the residue of sea-water, left in
4115
depressions as the land was slowly elevated.
4116

4117

4118
CHAPTER IV. ON THE FORMATIONS OF THE PAMPAS.
4119

4120
Mineralogical constitution.
4121
Microscopical structure.
4122
Buenos Ayres, shells embedded in tosca-rock.
4123
Buenos Ayres to the Colorado.
4124
San Ventana.
4125
Bahia Blanca; M. Hermoso, bones and infusoria of; P. Alta, shells, bones,
4126
and infusoria of; co-existence of the recent shells and extinct mammifers.
4127
Buenos Ayres to Santa Fe.
4128
Skeletons of Mastodon.
4129
Infusoria.
4130
Inferior marine tertiary strata, their age.
4131
Horse's tooth.
4132
BANDA ORIENTAL.
4133
Superficial Pampean formation.
4134
Inferior tertiary strata, variation of, connected with volcanic action;
4135
Macrauchenia Patachonica at San Julian in Patagonia, age of, subsequent to
4136
living mollusca and to the erratic block period.
4137
SUMMARY.
4138
Area of Pampean formation.
4139
Theories of origin.
4140
Source of sediment.
4141
Estuary origin.
4142
Contemporaneous with existing mollusca.
4143
Relations to underlying tertiary strata.
4144
Ancient deposit of estuary origin.
4145
Elevation and successive deposition of the Pampean formation.
4146
Number and state of the remains of mammifers; their habitation, food,
4147
extinction, and range.
4148
Conclusion.
4149
Localities in Pampas at which mammiferous remains have been found.
4150

4151
The Pampean formation is highly interesting from its vast extent, its
4152
disputed origin, and from the number of extinct gigantic mammifers embedded
4153
in it. It has upon the whole a very uniform character: consisting of a more
4154
or less dull reddish, slightly indurated, argillaceous earth or mud, often,
4155
but not always, including in horizontal lines concretions of marl, and
4156
frequently passing into a compact marly rock. The mud, wherever I examined
4157
it, even close to the concretions, did not contain any carbonate of lime.
4158
The concretions are generally nodular, sometimes rough externally,
4159
sometimes stalactiformed; they are of a compact structure, but often
4160
penetrated (as well as the mud) by hair-like serpentine cavities, and
4161
occasionally with irregular fissures in their centres, lined with minute
4162
crystals of carbonate of lime; they are of white, brown, or pale pinkish
4163
tints, often marked by black dendritic manganese or iron; they are either
4164
darker or lighter tinted than the surrounding mass; they contain much
4165
carbonate of lime, but exhale a strong aluminous odour, and leave, when
4166
dissolved in acids, a large but varying residue, of which the greater part
4167
consists of sand. These concretions often unite into irregular strata; and
4168
over very large tracts of country, the entire mass consists of a hard, but
4169
generally cavernous marly rock: some of the varieties might be called
4170
calcareous tuffs.
4171

4172
Dr. Carpenter has kindly examined under the microscope, sliced and polished
4173
specimens of these concretions, and of the solid marl-rock, collected in
4174
various places between the Colorado and Santa Fe Bajada. In the greater
4175
number, Dr. Carpenter finds that the whole substance presents a tolerably
4176
uniform amorphous character, but with traces of incipient crystalline
4177
metamorphosis; in other specimens he finds microscopically minute rounded
4178
concretions of an amorphous substance (resembling in size those in oolitic
4179
rocks, but not having a concentric structure), united by a cement which is
4180
often crystalline. In some, Dr. Carpenter can perceive distinct traces of
4181
shells, corals, Polythalamia, and rarely of spongoid bodies. For the sake
4182
of comparison, I sent Dr. Carpenter specimens of the calcareous rock,
4183
formed chiefly of fragments of recent shells, from Coquimbo in Chile: in
4184
one of these specimens, Dr. Carpenter finds, besides the larger fragments,
4185
microscopical particles of shells, and a varying quantity of opaque
4186
amorphous matter; in another specimen from the same bed, he finds the whole
4187
composed of the amorphous matter, with layers showing indications of an
4188
incipient crystalline metamorphosis: hence these latter specimens, both in
4189
external appearance and in microscopical structure, closely resemble those
4190
of the Pampas. Dr. Carpenter informs me that it is well known that chemical
4191
precipitation throws down carbonate of lime in the opaque amorphous state;
4192
and he is inclined to believe that the long-continued attrition of a
4193
calcareous body in a state of crystalline or semi-crystalline aggregation
4194
(as, for instance, in the ordinary shells of Mollusca, which, when sliced,
4195
are transparent) may yield the same result. From the intimate relations
4196
between all the Coquimbo specimens, I can hardly doubt that the amorphous
4197
carbonate of lime in them has resulted from the attrition and decay of the
4198
larger fragments of shell: whether the amorphous matter in the marly rocks
4199
of the Pampas has likewise thus originated, it would be hazardous to
4200
conjecture.
4201

4202
For convenience' sake, I will call the marly rock by the name given to it
4203
by the inhabitants, namely, Tosca-rock; and the reddish argillaceous earth,
4204
Pampean mud. This latter substance, I may mention, has been examined for me
4205
by Professor Ehrenberg, and the result of his examination will be given
4206
under the proper localities.
4207

4208
I will commence my descriptions at a central spot, namely, at Buenos Ayres,
4209
and thence proceed first southward to the extreme limit of the deposit, and
4210
afterwards northward. The plain on which Buenos Ayres stands is from thirty
4211
to forty feet in height. The Pampean mud is here of a rather pale colour,
4212
and includes small nearly white nodules, and other irregular strata of an
4213
unusually arenaceous variety of tosca-rock. In a well at the depth of
4214
seventy feet, according to Ignatio Nunez, much tosca-rock was met with, and
4215
at several points, at one hundred feet deep, beds of sand have been found.
4216
I have already given a list of the recent marine and estuary shells found
4217
in many parts on the surface near Buenos Ayres, as far as three or four
4218
leagues from the Plata. Specimens from near Ensenada, given me by Sir W.
4219
Parish, where the rock is quarried just beneath the surface of the plain,
4220
consist of broken bivalves, cemented by and converted into white
4221
crystalline carbonate of lime. I have already alluded, in the first
4222
chapter, to a specimen (also given me by Sir W. Parish) from the A. del
4223
Tristan, in which shells, resembling in every respect the Azara labiata,
4224
d'Orbigny, as far as their worn condition permits of comparison, are
4225
embedded in a reddish, softish, somewhat arenaceous marly rock: after
4226
careful comparison, with the aid of a microscope and acids, I can perceive
4227
no difference between the basis of this rock and the specimens collected by
4228
me in many parts of the Pampas. I have also stated, on the authority of Sir
4229
W. Parish, that northward of Buenos Ayres, on the highest parts of the
4230
plain, about forty feet above the Plata, and two or three miles from it,
4231
numerous shells of the Azara labiata (and I believe of Venus sinuosa) occur
4232
embedded in a stratified earthy mass, including small marly concretions,
4233
and said to be precisely like the great Pampean deposit. Hence we may
4234
conclude that the mud of the Pampas continued to be deposited to within the
4235
period of this existing estuary shell. Although this formation is of such
4236
immense extent, I know of no other instance of the presence of shells in
4237
it.
4238

4239
BUENOS AYRES TO THE RIO COLORADO.
4240

4241
With the exception of a few metamorphic ridges, the country between these
4242
two points, a distance of 400 geographical miles, belongs to the Pampean
4243
formation, and in the southern part is generally formed of the harder and
4244
more calcareous varieties. I will briefly describe my route: about twenty-
4245
five miles S.S.W. of the capital, in a well forty yards in depth, the upper
4246
part, and, as I was assured, the entire thickness, was formed of dark red
4247
Pampean mud without concretions. North of the River Salado, there are many
4248
lakes; and on the banks of one (near the Guardia) there was a little cliff
4249
similarly composed, but including many nodular and stalactiform
4250
concretions: I found here a large piece of tessellated armour, like that of
4251
the Glyptodon, and many fragments of bones. The cliffs on the Salado
4252
consist of pale-coloured Pampean mud, including and passing into great
4253
masses of tosca-rock: here a skeleton of the Megatherium and the bones of
4254
other extinct quadrupeds (see the list at the end of this chapter) were
4255
found. Large quantities of crystallised gypsum (of which specimens were
4256
given me) occur in the cliffs of this river; and likewise (as I was assured
4257
by Mr. Lumb) in the Pampean mud on the River Chuelo, seven leagues from
4258
Buenos Ayres: I mention this because M. d'Orbigny lays some stress on the
4259
supposed absence of this mineral in the Pampean formation.
4260

4261
Southward of the Salado the country is low and swampy, with tosca-rock
4262
appearing at long intervals at the surface. On the banks, however, of the
4263
Tapalguen (sixty miles south of the Salado) there is a large extent of
4264
tosca-rock, some highly compact and even semi-crystalline, overlying pale
4265
Pampean mud with the usual concretions. Thirty miles further south, the
4266
small quartz-ridge of Tapalguen is fringed on its northern and southern
4267
flank, by little, narrow, flat-topped hills of tosca-rock, which stand
4268
higher than the surrounding plain. Between this ridge and the Sierra of
4269
Guitru-gueyu, a distance of sixty miles, the country is swampy, with the
4270
tosca-rock appearing only in four or five spots: this sierra, precisely
4271
like that of Tapalguen, is bordered by horizontal, often cliff-bounded,
4272
little hills of tosca-rock, higher than the surrounding plain. Here, also,
4273
a new appearance was presented in some extensive and level banks of
4274
alluvium or detritus of the neighbouring metamorphic rocks; but I neglected
4275
to observe whether it was stratified or not. Between Guitru-gueyu and the
4276
Sierra Ventana, I crossed a dry plain of tosca-rock higher than the country
4277
hitherto passed over, and with small pieces of denuded tableland of the
4278
same formation, standing still higher.
4279

4280
The marly or calcareous beds not only come up nearly horizontally to the
4281
northern and southern foot of the great quartzose mountains of the Sierra
4282
Ventana, but interfold between the parallel ranges. The superficial beds
4283
(for I nowhere obtained sections more than twenty feet deep) retain, even
4284
close to the mountains, their usual character: the uppermost layer,
4285
however, in one place included pebbles of quartz, and rested on a mass of
4286
detritus of the same rock. At the very foot of the mountains, there were
4287
some few piles of quartz and tosca-rock detritus, including land-shells;
4288
but at the distance of only half a mile from these lofty, jagged, and
4289
battered mountains, I could not, to my great surprise, find on the
4290
boundless surface of the calcareous plain even a single pebble. Quartz-
4291
pebbles, however, of considerable size have at some period been transported
4292
to a distance of between forty and fifty miles to the shores of Bahia
4293
Blanca. (Schmidtmeyer "Travels in Chile" page 150, states that he first
4294
noticed on the Pampas, very small bits of red granite, when fifty miles
4295
distant from the southern extremity of the mountains of Cordova, which
4296
project on the plain, like a reef into the sea.)
4297

4298
The highest peak of the St. Ventana is, by Captain Fitzroy's measurement,
4299
3,340 feet, and the calcareous plain at its foot (from observations taken
4300
by some Spanish officers) 840 feet above the sea-level. ("La Plata" etc. by
4301
Sir W. Parish page 146.) On the flanks of the mountains, at a height of
4302
three hundred or four hundred feet above the plain, there were a few small
4303
patches of conglomerate and breccia, firmly cemented by ferruginous matter
4304
to the abrupt and battered face of the quartz--traces being thus exhibited
4305
of ancient sea-action. The high plain round this range sinks quite
4306
insensibly to the eye on all sides, except to the north, where its surface
4307
is broken into low cliffs. Round the Sierras Tapalguen, Guitru-gueyu, and
4308
between the latter and the Ventana we have seen (and shall hereafter see
4309
round some hills in Banda Oriental), that the tosca-rock forms low, flat-
4310
topped, cliff-bounded hills, higher than the surrounding plains of similar
4311
composition. From the horizontal stratification and from the appearance of
4312
the broken cliffs, the greater height of the Pampean formation round these
4313
primary hills ought not to be altogether or in chief part attributed to
4314
these several points having been uplifted more energetically than the
4315
surrounding country, but to the argillaceo-calcareous mud having collected
4316
round them, when they existed as islets or submarine rocks, at a greater
4317
height, than at the bottom of the adjoining open sea;--the cliffs having
4318
been subsequently worn during the elevation of the whole country in mass.
4319

4320
Southward of the Ventana, the plain extends farther than the eye can range;
4321
its surface is not very level, having slight depressions with no drainage
4322
exits; it is generally covered by a few feet in thickness of sandy earth;
4323
and in some places, according to M. Parchappe, by beds of clay two yards
4324
thick. (M. d'Orbigny "Voyage" Part Geolog. pages 47, 48.) On the banks of
4325
the Sauce, four leagues S.E. of the Ventana, there is an imperfect section
4326
about two hundred feet in height, displaying in the upper part tosca-rock
4327
and in the lower part red Pampean mud. At the settlement of Bahia Blanca,
4328
the uppermost plain is composed of very compact, stratified tosca-rock,
4329
containing rounded grains of quartz distinguishable by the naked eye: the
4330
lower plain, on which the fortress stands, is described by M. Parchappe as
4331
composed of solid tosca-rock (Ibid.); but the sections which I examined
4332
appeared more like a redeposited mass of this rock, with small pebbles and
4333
fragments of quartz. I shall immediately return to the important sections
4334
on the shores of Bahia Blanca. Twenty miles southward of this place, there
4335
is a remarkable ridge extending W. by N. and E. by S., formed of small,
4336
separate, flat-topped, steep-sided hills, rising between one hundred and
4337
two hundred feet above the Pampean plain at its southern base, which plain
4338
is a little lower than that to the north. The uppermost stratum in this
4339
ridge consists of pale, highly calcareous, compact tosca-rock, resting (as
4340
seen in one place) on reddish Pampean mud, and this again on a paler kind:
4341
at the foot of the ridge, there is a well in reddish clay or mud. I have
4342
seen no other instance of a chain of hills belonging to the Pampean
4343
formation; and as the strata show no signs of disturbance, and as the
4344
direction of the ridge is the same with that common to all the metamorphic
4345
lines in this whole area, I suspect that the Pampean sediment has in this
4346
instance been accumulated on and over a ridge of hard rocks, instead of, as
4347
in the case of the above-mentioned Sierras, round their submarine flanks.
4348
South of this little chain of tosca-rock, a plain of Pampean mud declines
4349
towards the banks of the Colorado: in the middle a well has been dug in red
4350
Pampean mud, covered by two feet of white, softish, highly calcareous
4351
tosca-rock, over which lies sand with small pebbles three feet in
4352
thickness--the first appearance of that vast shingle formation described in
4353
the First Chapter. In the first section after crossing the Colorado, an old
4354
tertiary formation, namely, the Rio Negro sandstone (to be described in the
4355
next chapter), is met with: but from the accounts given me by the Gauchos,
4356
I believe that at the mouth of the Colorado the Pampean formation extends a
4357
little further southwards.
4358

4359
BAHIA BLANCA.
4360

4361
To return to the shores of this bay. At Monte Hermoso there is a good
4362
section, about one hundred feet in height, of four distinct strata,
4363
appearing to the eye horizontal, but thickening a little towards the N.W.
4364
The uppermost bed, about twenty feet in thickness, consists of obliquely
4365
laminated, soft sandstone, including many pebbles of quartz, and falling at
4366
the surface into loose sand. The second bed, only six inches thick, is a
4367
hard, dark-coloured sandstone. The third bed is pale-coloured Pampean mud;
4368
and the fourth is of the same nature, but darker coloured, including in its
4369
lower part horizontal layers and lines of concretions of not very compact
4370
pinkish tosca-rock. The bottom of the sea, I may remark, to a distance of
4371
several miles from the shore, and to a depth of between sixty and one
4372
hundred feet, was found by the anchors to be composed of tosca-rock and
4373
reddish Pampean mud. Professor Ehrenberg has examined for me specimens of
4374
the two lower beds, and finds in them three Polygastrica and six
4375
Phytolitharia.
4376

4377
(The following list is given in the "Monatsberichten der konig. Akad. zu
4378
Berlin" April 1845:--
4379
POLYGASTRICA.
4380
Fragilaria rhabdosoma.
4381
Gallionella distans.
4382
Pinnularia?
4383

4384
PHYTOLITHARIA.
4385
Lithodontium Bursa.
4386
Lithodontium furcatum.
4387
Lithostylidium exesum.
4388
Lithostylidium rude.
4389
Lithostylidium Serra.
4390
Spongolithis Fustis?)
4391

4392
Of these, only one (Spongolithis Fustis?) is a marine form; five of them
4393
are identical with microscopical structures of brackish-water origin,
4394
hereafter to be mentioned, which form a central point in the Pampean
4395
formation. In these two beds, especially in the lower one, bones of extinct
4396
mammifers, some embedded in their proper relative positions and others
4397
single, are very numerous in a small extent of the cliffs. These remains
4398
consist of, first, the head of Ctenomys antiquus, allied to the living
4399
Ctenomys Braziliensis; secondly, a fragment of the remains of a rodent;
4400
thirdly, molar teeth and other bones of a large rodent, closely allied to,
4401
but distinct from, the existing species of Hydrochoerus, and therefore
4402
probably an inhabitant of fresh water; fourth and fifthly, portions of
4403
vertebrae, limbs, ribs, and other bones of two rodents; sixthly, bones of
4404
the extremities of some great megatheroid quadruped. (See "Fossil Mammalia"
4405
page 109 by Professor Owen, in the "Zoology of the Voyage of the 'Beagle';"
4406
and Catalogue page 36 of Fossil Remains in Museum of Royal College of
4407
Surgeons.) The number of the remains of rodents gives to this collection a
4408
peculiar character, compared with those found in any other locality. All
4409
these bones are compact and heavy; many of them are stained red, with their
4410
surfaces polished; some of the smaller ones are as black as jet.
4411

4412
Monte Hermoso is between fifty and sixty miles distant in a S.E. line from
4413
the Ventana, with the intermediate country gently rising towards it, and
4414
all consisting of the Pampean formation. What relation, then, do these
4415
beds, at the level of the sea and under it, bear to those on the flanks of
4416
the Ventana, at the height of 840 feet, and on the flanks of the other
4417
neighbouring sierras, which, from the reasons already assigned, do not
4418
appear to owe their greater height to unequal elevation? When the tosca-
4419
rock was accumulating round the Ventana, and when, with the exception of a
4420
few small rugged primary islands, the whole wide surrounding plains must
4421
have been under water, were the strata at Monte Hermoso depositing at the
4422
bottom of a great open sea, between eight hundred and one thousand feet in
4423
depth? I much doubt this; for if so, the almost perfect carcasses of the
4424
several small rodents, the remains of which are so very numerous in so
4425
limited a space, must have been drifted to this spot from the distance of
4426
many hundred miles. It appears to me far more probable, that during the
4427
Pampean period this whole area had commenced slowly rising (and in the
4428
cliffs, at several different heights we have proofs of the land having been
4429
exposed to sea-action at several levels), and that tracts of land had thus
4430
been formed of Pampean sediment round the Ventana and the other primary
4431
ranges, on which the several rodents and other quadrupeds lived, and that a
4432
stream (in which perhaps the extinct aquatic Hydrochoerus lived) drifted
4433
their bodies into the adjoining sea, into which the Pampean mud continued
4434
to be poured from the north. As the land continued to rise, it appears that
4435
this source of sediment was cut off; and in its place sand and pebbles were
4436
borne down by stronger currents, and conformably deposited over the Pampean
4437
strata.
4438

4439
(FIGURE 15. SECTION OF BEDS WITH RECENT SHELLS AND EXTINCT MAMMIFERS, AT
4440
PUNTA ALTA IN BAHIA BLANCA. (Showing beds from bottom to top: A, B, C, D.))
4441

4442
Punta Alta is situated about thirty miles higher up on the northern side of
4443
this same bay: it consists of a small plain, between twenty and thirty feet
4444
in height, cut off on the shore by a line of low cliffs about a mile in
4445
length, represented in Figure 15 with its vertical scale necessarily
4446
exaggerated. The lower bed (A) is more extensive than the upper ones; it
4447
consists of stratified gravel or conglomerate, cemented by calcareo-
4448
arenaceous matter, and is divided by curvilinear layers of pinkish marl, of
4449
which some are precisely like tosca-rock, and some more sandy. The beds are
4450
curvilinear, owing to the action of currents, and dip in different
4451
directions; they include an extraordinary number of bones of gigantic
4452
mammifers and many shells. The pebbles are of considerable size, and are of
4453
hard sandstone, and of quartz, like that of the Ventana: there are also a
4454
few well-rounded masses of tosca-rock.
4455

4456
The second bed B is about fifteen feet in thickness, but towards both
4457
extremities of the cliff (not included in the diagram) it either thins out
4458
and dies away, or passes insensibly into an overlying bed of gravel. It
4459
consists of red, tough clayey mud, with minute linear cavities; it is
4460
marked with faint horizontal shades of colour; it includes a few pebbles,
4461
and rarely a minute particle of shell: in one spot, the dermal armour and a
4462
few bones of a Dasypoid quadruped were embedded in it: it fills up furrows
4463
in the underlying gravel. With the exception of the few pebbles and
4464
particles of shells, this bed resembles the true Pampean mud; but it still
4465
more closely resembles the clayey flats (mentioned in the First Chapter)
4466
separating the successively rising parallel ranges of sand-dunes.
4467

4468
The bed C is of stratified gravel, like the lowest one; it fills up furrows
4469
in the underlying red mud, and is sometimes interstratified with it, and
4470
sometimes insensibly passes into it; as the red mud thins out, this upper
4471
gravel thickens. Shells are more numerous in it than in the lower gravel;
4472
but the bones, though some are still present, are less numerous. In one
4473
part, however, where this gravel and the red mud passed into each other, I
4474
found several bones and a tolerably perfect head of the Megatherium. Some
4475
of the large Volutas, though embedded in the gravel-bed C, were filled with
4476
the red mud, including great numbers of the little recent Paludestrina
4477
australis. These three lower beds are covered by an unconformable mantle D
4478
of stratified sandy earth, including many pebbles of quartz, pumice and
4479
phonolite, land and sea-shells.
4480

4481
M. d'Orbigny has been so obliging as to name for me the twenty species of
4482
Mollusca embedded in the two gravel beds: they consist of:--
4483

4484
1. Volutella angulata, d'Orbigny, "Voyage" Mollusq. and Pal.
4485
2. Voluta Braziliana, Sol
4486
3. Olicancilleria Braziliensis d'Orbigny.
4487
4. Olicancilleria auricularia, d'Orbigny.
4488
5. Olivina puelchana, d'Orbigny.
4489
6. Buccinanops cochlidium, d'Orbigny.
4490
7. Buccinanops globulosum, d'Orbigny.
4491
8. Colombella sertulariarum, d'Orbigny.
4492
9. Trochus Patagonicus, and var. of ditto, d'Orbigny.
4493
10. Paludestrina Australis, d'Orbigny.
4494
11. Fissurella Patagonica, d'Orbigny.
4495
12. Crepidula muricata, Lam.
4496
13. Venus purpurata, Lam.
4497
14. Venus rostrata, Phillippi.
4498
15. Mytilus Darwinianus, d'Orbigny.
4499
16. Nucula semiornata, d'Orbigny.
4500
17. Cardita Patagonica, d'Orbigny.
4501
18. Corbula Patagonica (?), d'Orbigny.
4502
19. Pecten tethuelchus, d'Orbigny.
4503
20. Ostrea puelchana, d'Orbigny.
4504
21. A living species of Balanus.
4505
22 and 23. An Astrae and encrusting Flustra, apparently identical with
4506
species now living in the bay.
4507

4508
All these shells now live on this coast, and most of them in this same bay.
4509
I was also struck with the fact, that the proportional numbers of the
4510
different kinds appeared to be the same with those now cast up on the
4511
beach: in both cases specimens of Voluta, Crepidula, Venus, and Trochus are
4512
the most abundant. Four or five of the species are the same with the
4513
upraised shells on the Pampas near Buenos Ayres. All the specimens have a
4514
very ancient and bleached appearance, and do not emit, when heated, an
4515
animal odour: some of them are changed throughout into a white, soft,
4516
fibrous substance; others have the space between the external walls, either
4517
hollow, or filled up with crystalline carbonate of lime. (A Bulinus,
4518
mentioned in the Introduction to the "Fossil Mammalia" in the "Zoology of
4519
the Voyage of the 'Beagle'" has so much fresher an appearance, than the
4520
marine species, that I suspect it must have fallen amongst the others, and
4521
been collected by mistake.)
4522

4523
The remains of the extinct mammiferous animals, from the two gravel beds
4524
have been described by Professor Owen in the "Zoology of the Voyage of the
4525
'Beagle':" they consist of, 1st, one nearly perfect head and three
4526
fragments of heads of the Megatherium Cuvierii; 2nd, a lower jaw of
4527
Megalonyx Jeffersonii; 3rd, lower jaw of Mylodon Darwinii; 4th, fragments
4528
of a head of some gigantic Edental quadruped; 5th, an almost entire
4529
skeleton of the great Scelidotherium leptocephalum, with most of the bones,
4530
including the head, vertebrae, ribs, some of the extremities to the claw-
4531
bone, and even, as remarked by Professor Owen, the knee-cap, all nearly in
4532
their proper relative positions; 6th, fragments of the jaw and a separate
4533
tooth of a Toxodon, belonging either to T. Platensis, or to a second
4534
species lately discovered near Buenos Ayres; 7th, a tooth of Equus
4535
curvidens; 8th, tooth of a Pachyderm, closely allied to Palaeotherium, of
4536
which parts of the head have been lately sent from Buenos Ayres to the
4537
British Museum; in all probability this pachyderm is identical with the
4538
Macrauchenia Patagonica from Port S. Julian, hereafter to be referred to.
4539
Lastly, and 9thly, in a cliff of the red clayey bed B, there was a double
4540
piece, about three feet long and two wide, of the bony armour of a large
4541
Dasypoid quadruped, with the two sides pressed nearly close together: as
4542
the cliff is now rapidly washing away, this fossil probably was lately much
4543
more perfect; from between its doubled-up sides, I extracted the middle and
4544
ungual phalanges, united together, of one of the feet, and likewise a
4545
separate phalanx: hence one or more of the limbs must have been attached to
4546
the dermal case, when it was embedded. Besides these several remains in a
4547
distinguishable condition, there were very many single bones: the greater
4548
number were embedded in a space 200 yards square. The preponderance of the
4549
Edental quadrupeds is remarkable; as is, in contrast with the beds of Monte
4550
Hermoso, the absence of Rodents. Most of the bones are now in a soft and
4551
friable condition, and, like the shells, do not emit when burnt an animal
4552
odour. The decayed state of the bones may be partly owing to their late
4553
exposure to the air and tidal-waves. Barnacles, Serpulae, and corallines
4554
are attached to many of the bones, but I neglected to observe whether these
4555
might not have grown on them since being exposed to the present tidal
4556
action (After having packed up my specimens at Bahia Blanca, this point
4557
occurred to me, and I noted it; but forgot it on my return, until the
4558
remains had been cleaned and oiled: my attention has been lately called to
4559
the subject by some remarks by M. d'Orbigny.); but I believe that some of
4560
the barnacles must have grown on the Scelidotherium, soon after being
4561
deposited, and before being WHOLLY covered up by the gravel. Besides the
4562
remains in the condition here described, I found one single fragment of
4563
bone very much rolled, and as black as jet, so as perfectly to resemble
4564
some of the remains from Monte Hermoso.
4565

4566
Very many of the bones had been broken, abraded, and rolled, before being
4567
embedded. Others, even some of those included in the coarsest parts of the
4568
the now hard conglomerate, still retain all their minutest prominences
4569
perfectly preserved; so that I conclude that they probably were protected
4570
by skin, flesh, or ligaments, whilst being covered up. In the case of the
4571
Scelidotherium, it is quite certain that the whole skeleton was held
4572
together by its ligaments, when deposited in the gravel in which I found
4573
it. Some cervical vertebrae and a humerus of corresponding size lay so
4574
close together, as did some ribs and the bones of a leg, that I thought
4575
that they must originally have belonged to two skeletons, and not have been
4576
washed in single; but as remains were here very numerous, I will not lay
4577
much stress on these two cases. We have just seen that the armour of the
4578
Dasypoid quadruped was certainly embedded together with some of the bones
4579
of the feet.
4580

4581
Professor Ehrenberg has examined for me specimens of the finer matter from
4582
in contact with these mammiferous remains: he finds in them two
4583
Polygastrica, decidedly marine forms; and six Phytolitharia, of which one
4584
is probably marine, and the others either of fresh-water or terrestrial
4585
origin. ("Monatsberichten der Akad. zu Berlin" April 1845. The list
4586
consists of:--
4587

4588
POLYGASTRICA.
4589
Gallionella sulcata.
4590
Stauroptera aspera? fragm.
4591

4592
PHYTOLITHARIA.
4593
Lithasteriscus tuberculatus.
4594
Lithostylidium Clepsammidium.
4595
Lithostylidium quadratum.
4596
Lithostylidium rude.
4597
Lithostylidium unidentatum.
4598
Spongolithis acicularis.)
4599

4600
Only one of these eight microscopical bodies is common to the nine from
4601
Monte Hermoso: but five of them are in common with those from the Pampean
4602
mud on the banks of the Parana. The presence of any fresh-water infusoria,
4603
considering the aridity of the surrounding country, is here remarkable: the
4604
most probable explanation appears to be, that these microscopical organisms
4605
were washed out of the adjoining great Pampean formation during its
4606
denudation, and afterwards redeposited.
4607

4608
We will now see what conclusions may be drawn from the facts above
4609
detailed. It is certain that the gravel-beds and intermediate red mud were
4610
deposited within the period, when existing species of Mollusca held to each
4611
other nearly the same relative proportions as they do on the present coast.
4612
These beds, from the number of littoral species, must have been accumulated
4613
in shallow water; but not, judging from the stratification of the gravel
4614
and the layers of marl, on a beach. From the manner in which the red clay
4615
fills up furrows in the underlying gravel, and is in some parts itself
4616
furrowed by the overlying gravel, whilst in other parts it either
4617
insensibly passes into, or alternates with, this upper gravel, we may infer
4618
several local changes in the currents, perhaps caused by slight changes, up
4619
or down, in the level of the land. By the elevation of these beds, to which
4620
period the alluvial mantle with pumice-pebbles, land and sea-shells
4621
belongs, the plain of Punta Alta, from twenty to thirty feet in height, was
4622
formed. In this neighbourhood there are other and higher sea-formed plains
4623
and lines of cliffs in the Pampean formation worn by the denuding action of
4624
the waves at different levels. Hence we can easily understand the presence
4625
of rounded masses of tosca-rock in this lowest plain; and likewise, as the
4626
cliffs at Monte Hermoso with their mammiferous remains stand at a higher
4627
level, the presence of the one much-rolled fragment of bone which was as
4628
black as jet: possibly some few of the other much-rolled bones may have
4629
been similarly derived, though I saw only the one fragment, in the same
4630
condition with those from Monte Hermoso. M. d'Orbigny has suggested that
4631
all these mammiferous remains may have been washed out of the Pampean
4632
formation, and afterwards redeposited together with the recent shells.
4633
("Voyage" Part. Geolog. page 49.) Undoubtedly it is a marvellous fact that
4634
these numerous gigantic quadrupeds, belonging, with the exception of the
4635
Equus curvidens, to seven extinct genera, and one, namely, the Toxodon, not
4636
falling into any existing family, should have co-existed with Mollusca, all
4637
of which are still living species; but analogous facts have been observed
4638
in North America and in Europe. In the first place, it should not be
4639
overlooked, that most of the co-embedded shells have a more ancient and
4640
altered appearance than the bones. In the second place, is it probable that
4641
numerous bones not hardened by silex or any other mineral, could have
4642
retained their delicate prominences and surfaces perfect if they had been
4643
washed out of one deposit, and re-embedded in another:--this later deposit
4644
being formed of large, hard pebbles, arranged by the action of currents or
4645
breakers in shallow water into variously curved and inclined layers? The
4646
bones which are now in so perfect a state of preservation, must, I
4647
conceive, have been fresh and sound when embedded, and probably were
4648
protected by skin, flesh, or ligaments. The skeleton of the Scelidotherium
4649
indisputably was deposited entire: shall we say that when held together by
4650
its matrix it was washed out of an old gravel-bed (totally unlike in
4651
character to the Pampean formation), and re-embedded in another gravel-bed,
4652
composed (I speak after careful comparison) of exactly the same kind of
4653
pebbles, in the same kind of cement? I will lay no stress on the two cases
4654
of several ribs and bones of the extremities having APPARENTLY been
4655
embedded in their proper relative position: but will any one be so bold as
4656
to affirm that it is possible, that a piece of the thin tessellated armour
4657
of a Dasypoid quadruped, at least three feet long and two in width, and now
4658
so tender that I was unable with the utmost care to extract a fragment more
4659
than two or three inches square, could have been washed out of one bed, and
4660
re-embedded in another, together with some of the small bones of the feet,
4661
without having been dashed into atoms? We must then wholly reject M.
4662
d'Orbigny's supposition, and admit as certain, that the Scelidotherium and
4663
the large Dasypoid quadruped, and as highly probable, that the Toxodon,
4664
Megatherium, etc., some of the bones of which are perfectly preserved, were
4665
embedded for the first time, and in a fresh condition, in the strata in
4666
which they were found entombed. These gigantic quadrupeds, therefore,
4667
though belonging to extinct genera and families, coexisted with the twenty
4668
above-enumerated Mollusca, the barnacle and two corals, still living on
4669
this coast. From the rolled fragment of black bone, and from the plain of
4670
Punta Alta being lower than that of Monte Hermoso, I conclude that the
4671
coarse sub-littoral deposits of Punta Alta, are of subsequent origin to the
4672
Pampean mud of Monte Hermoso; and the beds at this latter place, as we have
4673
seen, are probably of subsequent origin to the high tosca-plain round the
4674
Sierra Ventana: we shall, however, return, at the end of this chapter, to
4675
the consideration of these several stages in the great Pampean formation.
4676

4677
BUENOS AYRES TO ST. FE BAJADA, IN ENTRE RIOS.
4678

4679
For some distance northward of Buenos Ayres, the escarpment of the Pampean
4680
formation does not approach very near to the Plata, and it is concealed by
4681
vegetation: but in sections on the banks of the Rios Luxan, Areco, and
4682
Arrecifes, I observed both pale and dark reddish Pampean mud, with small,
4683
whitish concretions of tosca; at all these places mammiferous remains have
4684
been found. In the cliffs on the Parana, at San Nicolas, the Pampean mud
4685
contains but little tosca; here M. d'Orbigny found the remains of two
4686
rodents (Ctenomys Bonariensis and Kerodon antiquus) and the jaw of a Canis:
4687
when on the river I could clearly distinguish in this fine line of cliffs,
4688
"horizontal lines of variation both in tint and compactness." (I quote
4689
these words from my note-book, as written down on the spot, on account of
4690
the general absence of stratification in the Pampean formation having been
4691
insisted on by M. d'Orbigny as a proof of the diluvial origin of this great
4692
deposit.) The plain northward of this point is very level, but with some
4693
depressions and lakes; I estimated its height at from forty to sixty feet
4694
above the Parana. At the A. Medio the bright red Pampean mud contains
4695
scarcely any tosca-rock; whilst at a short distance the stream of the
4696
Pabon, forms a cascade, about twenty feet in height, over a cavernous mass
4697
of two varieties of tosca-rock; of which one is very compact and semi-
4698
crystalline, with seams of crystallised carbonate of lime: similar compact
4699
varieties are met with on the Salidillo and Seco. The absolute identity (I
4700
speak after a comparison of my specimens) between some of these varieties,
4701
and those from Tapalguen, and from the ridge south of Bahia Blanca, a
4702
distance of 400 miles of latitude, is very striking.
4703

4704
At Rosario there is but little tosca-rock: near this place I first noticed
4705
at the edge of the river traces of an underlying formation, which, twenty-
4706
five miles higher up in the estancia of Gorodona, consists of a pale
4707
yellowish clay, abounding with concretionary cylinders of a ferruginous
4708
sandstone. This bed, which is probably the equivalent of the older tertiary
4709
marine strata, immediately to be described in Entre Rios, only just rises
4710
above the level of the Parana when low. The rest of the cliff at Gorodona,
4711
is formed of red Pampean mud, with, in the lower part, many concretions of
4712
tosca, some stalacti-formed, and with only a few in the upper part: at the
4713
height of six feet above the river, two gigantic skeletons of the Mastodon
4714
Andium were here embedded; their bones were scattered a few feet apart, but
4715
many of them still held their proper relative positions: they were much
4716
decayed and as soft as cheese, so that even one of the great molar teeth
4717
fell into pieces in my hand. We here see that the Pampean deposit contains
4718
mammiferous remains close to its base. On the banks of the Carcarana, a few
4719
miles distant, the lowest bed visible was pale Pampean mud, with masses of
4720
tosca-rock, in one of which I found a much decayed tooth of the Mastodon:
4721
above this bed, there was a thin layer almost composed of small concretions
4722
of white tosca, out of which I extracted a well preserved, but slightly
4723
broken tooth of Toxodon Platensis: above this there was an unusual bed of
4724
very soft impure sandstone. In this neighbourhood I noticed many single
4725
embedded bones, and I heard of others having been found in so perfect a
4726
state that they were long used as gate-posts: the Jesuit Falkner found here
4727
the dermal armour of some gigantic Edental quadruped.
4728

4729
In some of the red mud scraped from a tooth of one of the Mastodons at
4730
Gorodona, Professor Ehrenberg finds seven Polygastrica and thirteen
4731
Phytolitharia, all of them, I believe, with two exceptions, already known
4732
species. ("Monatsberichten der konig. Akad. zu Berlin" April 1845. The list
4733
consists of:--
4734

4735
POLYGASTRICA.
4736
Campylodiscus clypeus.
4737
Coscinodiscus subtilis.
4738
Coscinodiscus al. sp.
4739
Eunotia.
4740
Gallionella granulata.
4741
Himantidium gracile.
4742
Pinnularia borealis.)
4743

4744
Of these twenty, the preponderating number are of fresh-water origin; only
4745
two species of Coscinodiscus and a Spongolithis show the direct influence
4746
of the sea; therefore Professor Ehrenberg arrives at the important
4747
conclusion that the deposit must have been of brackish-water origin. Of the
4748
thirteen Phytolitharia, nine are met with in the two deposits in Bahia
4749
Blanca, where there is evidence from two other species of Polygastrica that
4750
the beds were accumulated in brackish water. The traces of coral, sponges,
4751
and Polythalamia, found by Dr. Carpenter in the tosca-rock (of which I must
4752
observe the greater number of specimens were from the upper beds in the
4753
southern parts of the formation), apparently show a more purely marine
4754
origin.
4755

4756
At ST. FE BAJADA, in Entre Rios, the cliffs, estimated at between sixty and
4757
seventy feet in height, expose an interesting section: the lower half
4758
consists of tertiary strata with marine shells, and the upper half of the
4759
Pampean formation. The lowest bed is an obliquely laminated, blackish,
4760
indurated mud, with distinct traces of vegetable remains. (M. d'Orbigny
4761
"Voyage" Part. Geolog. page 37, has given a detailed description of this
4762
section, but as he does not mention this lowest bed, it may have been
4763
concealed when he was there by the river. There is a considerable
4764
discrepancy between his description and mine, which I can only account for
4765
by the beds themselves varying considerably in short distances.) Above this
4766
there is a thick bed of yellowish sandy clay, with much crystallised gypsum
4767
and many shells of Ostreae, Pectens, and Arcae: above this there generally
4768
comes an arenaceous crystalline limestone, but there is sometimes
4769
interposed a bed, about twelve feet thick, of dark green, soapy clay,
4770
weathering into small angular fragments. The limestone, where purest, is
4771
white, highly crystalline, and full of cavities: it includes small pebbles
4772
of quartz, broken shells, teeth of sharks, and sometimes, as I was
4773
informed, large bones: it often contains so much sand as to pass into a
4774
calcareous sandstone, and in such parts the great Ostrea Patagonica chiefly
4775
abounds. (Captain Sulivan, R.N., has given me a specimen of this shell,
4776
which he found in the cliffs at Point Cerrito, between twenty and thirty
4777
miles above the Bajada.) In the upper part, the limestone alternates with
4778
layers of fine white sand. The shells included in these beds have been
4779
named for me by M. d'Orbigny: they consist of:--
4780

4781
1. Ostrea Patagonica, d'Orbigny, "Voyage" Part. Pal.
4782
2. Ostrea Alvarezii, d'Orbigny, "Voyage" Part. Pal.
4783
3. Pecten Paranensis, d'Orbigny, "Voyage" Part. Pal.
4784
4. Pecten Darwinianus, d'Orbigny, "Voyage" Part. Pal.
4785
5. Venus Munsterii, d'Orbigny, "Voyage" Pal.
4786
6. Arca Bonplandiana, d'Orbigny, "Voyage" Pal.
4787
7. Cardium Platense, d'Orbigny, "Voyage" Pal.
4788
8. Tellina, probably nov. species, but too imperfect for description.
4789

4790
PHYTOLITHARIA.
4791

4792
Lithasteriscus tuberculatus.
4793
Lithodontium bursa.
4794
Lithodontium furcatum.
4795
Lithodontium rostratum.
4796
Lithostylidium Amphiodon.
4797
Lithostylidium Clepsammidium.
4798
Lithostylidium Hamus.
4799
Lithostylidium polyedrum.
4800
Lithostylidium quadratum.
4801
Lithostylidium rude.
4802
Lithostylidium Serra.
4803
Lithostylidium unidentatum.
4804
Spongolithis Fustis.
4805

4806
These species are all extinct: the six first were found by M. d'Orbigny and
4807
myself in the formations of the Rio Negro, S. Josef, and other parts of
4808
Patagonia; and therefore, as first observed by M. d'Orbigny, these beds
4809
certainly belong to the great Patagonian formation, which will be described
4810
in the ensuing chapter, and which we shall see must be considered as a very
4811
ancient tertiary one. North of the Bajada, M. d'Orbigny found, in beds
4812
which he considers as lying beneath the strata here described, remains of a
4813
Toxodon, which he has named as a distinct species from the T. Platensis of
4814
the Pampean formation. Much silicified wood is found on the banks of the
4815
Parana (and likewise on the Uruguay), and I was informed that they come out
4816
of these lower beds; four specimens collected by myself are dicotyledonous.
4817

4818
The upper half of the cliff, to a thickness of about thirty feet, consists
4819
of Pampean mud, of which the lower part is pale-coloured, and the upper
4820
part of a brighter red, with some irregular layers of an arenaceous variety
4821
of tosca, and a few small concretions of the ordinary kind. Close above the
4822
marine limestone, there is a thin stratum with a concretionary outline of
4823
white hard tosca-rock or marl, which may be considered either as the
4824
uppermost bed of the inferior deposits, or the lowest of the Pampean
4825
formation; at one time I considered this bed as marking a passage between
4826
the two formations: but I have since become convinced that I was deceived
4827
on this point. In the section on the Parana, I did not find any mammiferous
4828
remains; but at two miles distance on the A. Tapas (a tributary of the
4829
Conchitas), they were extremely numerous in a low cliff of red Pampean mud
4830
with small concretions, precisely like the upper bed on the Parana. Most of
4831
the bones were solitary and much decayed; but I saw the dermal armour of a
4832
gigantic Edental quadruped, forming a caldron-like hollow, four or five
4833
feet in diameter, out of which, as I was informed, the almost entire
4834
skeleton had been lately removed. I found single teeth of the Mastodon
4835
Andium, Toxodon Platensis, and Equus curvidens, near to each other. As this
4836
latter tooth approaches closely to that of the common horse, I paid
4837
particular attention to its true embedment, for I did not at that time know
4838
that there was a similar tooth hidden in the matrix with the other
4839
mammiferous remains from Punta Alta. It is an interesting circumstance,
4840
that Professor Owen finds that the teeth of this horse approach more
4841
closely in their peculiar curvature to a fossil specimen brought by Mr.
4842
Lyell from North America, than to those of any other species of Equus.
4843
(Lyell "Travels in North America" volume 1 page 164 and "Proceedings of
4844
Geological Society" volume 4 page 39.)
4845

4846
The underlying marine tertiary strata extend over a wide area: I was
4847
assured that they can be traced in ravines in an east and west line across
4848
Entre Rios to the Uruguay, a distance of about 135 miles. In a S.E.
4849
direction I heard of their existence at the head of the R. Nankay; and at
4850
P. Gorda in Banda Oriental, a distance of 170 miles, I found the same
4851
limestone, containing the same fossil shells, lying at about the same level
4852
above the river as at St. Fe. In a southerly direction, these beds sink in
4853
height, for at another P. Gorda in Entre Rios, the limestone is seen at a
4854
much less height; and there can be little doubt that the yellowish sandy
4855
clay, on a level with the river, between the Carcarana and S. Nicholas,
4856
belongs to this same formation; as perhaps do the beds of sand at Buenos
4857
Ayres, which lie at the bottom of the Pampean formation, about sixty feet
4858
beneath the surface of the Plata. The southerly declination of these beds
4859
may perhaps be due, not to unequal elevation, but to the original form of
4860
the bottom of the sea, sloping from land situated to the north; for that
4861
land existed at no great distance, we have evidence in the vegetable
4862
remains in the lowest bed at St. Fe; and in the silicified wood and in the
4863
bones of Toxodon Paranensis, found (according to M. d'Orbigny) in still
4864
lower strata.
4865

4866
BANDA ORIENTAL.
4867

4868
This province lies on the northern side of the Plata, and eastward of the
4869
Uruguay: it has a gentle undulatory surface, with a basis of primary rocks;
4870
and is in most parts covered up with an unstratified mass, of no great
4871
thickness, of reddish Pampean mud. In the eastern half, near Maldonado,
4872
this deposit is more arenaceous than in the Pampas, it contains many though
4873
small concretions of marl or tosca-rock, and others of highly ferruginous
4874
sandstone; in one section, only a few yards in depth, it rested on
4875
stratified sand. Near Monte Video this deposit in some spots appears to be
4876
of greater thickness; and the remains of the Glyptodon and other extinct
4877
mammifers have been found in it. In the long line of cliffs, between fifty
4878
and sixty feet in height, called the Barrancas de S. Gregorio, which extend
4879
westward of the Rio S. Lucia, the lower half is formed of coarse sand of
4880
quartz and feldspar without mica, like that now cast up on the beach near
4881
Maldonado; and the upper half of Pampean mud, varying in colour and
4882
containing honeycombed veins of soft calcareous matter and small
4883
concretions of tosca-rock arranged in lines, and likewise a few pebbles of
4884
quartz. This deposit fills up hollows and furrows in the underlying sand;
4885
appearing as if water charged with mud had invaded a sandy beach. These
4886
cliffs extend far westward, and at a distance of sixty miles, near Colonia
4887
del Sacramiento, I found the Pampean deposit resting in some places on this
4888
sand, and in others on the primary rocks: between the sand and the reddish
4889
mud, there appeared to be interposed, but the section was not a very good
4890
one, a thin bed of shells of an existing Mytilus, still partially retaining
4891
their colour. The Pampean formation in Banda Oriental might readily be
4892
mistaken for an alluvial deposit: compared with that of the Pampas, it is
4893
often more sandy, and contains small fragments of quartz; the concretions
4894
are much smaller, and there are no extensive masses of tosca-rock.
4895

4896
In the extreme western parts of this province, between the Uruguay and a
4897
line drawn from Colonia to the R. Perdido (a tributary of the R. Negro),
4898
the formations are far more complicated. Besides primary rocks, we meet
4899
with extensive tracts and many flat-topped, horizontally stratified, cliff-
4900
bounded, isolated hills of tertiary strata, varying extraordinarily in
4901
mineralogical nature, some identical with the old marine beds of St. Fe
4902
Bajada, and some with those of the much more recent Pampean formation.
4903
There are, also, extensive LOW tracts of country covered with a deposit
4904
containing mammiferous remains, precisely like that just described in the
4905
more eastern parts of the province. Although from the smooth and unbroken
4906
state of the country, I never obtained a section of this latter deposit
4907
close to the foot of the higher tertiary hills, yet I have not the least
4908
doubt that it is of quite subsequent origin; having been deposited after
4909
the sea had worn the tertiary strata into the cliff-bounded hills. This
4910
later formation, which is certainly the equivalent of that of the Pampas,
4911
is well seen in the valleys in the estancia of Berquelo, near Mercedes; it
4912
here consists of reddish earth, full of rounded grains of quartz, and with
4913
some small concretions of tosca-rock arranged in horizontal lines, so as
4914
perfectly to resemble, except in containing a little calcareous matter, the
4915
formation in the eastern parts of Banda Oriental, in Entre Rios, and at
4916
other places: in this estancia the skeleton of a great Edental quadruped
4917
was found. In the valley of the Sarandis, at the distance of only a few
4918
miles, this deposit has a somewhat different character, being whiter,
4919
softer, finer-grained, and full of little cavities, and consequently of
4920
little specific gravity; nor does it contain any concretions or calcareous
4921
matter: I here procured a head, which when first discovered must have been
4922
quite perfect, of the Toxodon Platensis, another of a Mylodon (This head
4923
was at first considered by Professor Owen (in the "Zoology of the
4924
'Beagle's' Voyage") as belonging to a distinct genus, namely,
4925
Glossotherium.), perhaps M. Darwinii, and a large piece of dermal armour,
4926
differing from that of the Glyptodon clavipes. These bones are remarkable
4927
from their extraordinarily fresh appearance; when held over a lamp of
4928
spirits of wine, they give out a strong odour and burn with a small flame;
4929
Mr. T. Reeks has been so kind as to analyse some of the fragments, and he
4930
finds that they contain about 7 per cent of animal matter, and 8 per cent
4931
of water. (Liebig "Chemistry of Agriculture" page 194 states that fresh dry
4932
bones contain from 32 to 33 per cent of dry gelatine. See also Dr. Daubeny,
4933
in "Edinburgh New Philosophical Journal" volume 37 page 293.)
4934

4935
The older tertiary strata, forming the higher isolated hills and extensive
4936
tracts of country, vary, as I have said, extraordinarily in composition:
4937
within the distance of a few miles, I sometimes passed over crystalline
4938
limestone with agate, calcareous tuffs, and marly rocks, all passing into
4939
each other,--red and pale mud with concretions of tosca-rock, quite like
4940
the Pampean formation,--calcareous conglomerates and sandstones,--bright
4941
red sandstones passing either into red conglomerate, or into white
4942
sandstone,--hard siliceous sandstones, jaspery and chalcedonic rocks, and
4943
numerous other subordinate varieties. I was unable to mark out the
4944
relations of all these strata, and will describe only a few distinct
4945
sections:--in the cliffs between P. Gorda on the Uruguay and the A. de
4946
Vivoras, the upper bed is crystalline cellular limestone often passing into
4947
calcareous sandstone, with impressions of some of the same shells as at St.
4948
Fe Bajada; at P. Gorda, this limestone is interstratified with and rests
4949
on, white sand, which covers a bed about thirty feet thick of pale-coloured
4950
clay, with many shells of the great Ostrea Patagonica (In my "Journal" page
4951
171 1st edition, I have hastily and inaccurately stated that the Pampean
4952
mud, which is found over the eastern part of B. Oriental, lies OVER the
4953
limestone at P. Gorda; I should have said that there was reason to infer
4954
that it was a subsequent or superior deposit.): beneath this, in the
4955
vertical cliff, nearly on a level with the river, there is a bed of red mud
4956
absolutely like the Pampean deposit, with numerous often large concretions
4957
of perfectly characterised white, compact tosca-rock. At the mouth of the
4958
Vivoras, the river flows over a pale cavernous tosca-rock, quite like that
4959
in the Pampas, and this APPEARED to underlie the crystalline limestone; but
4960
the section was not unequivocal like that at P. Gorda. These beds now form
4961
only a narrow and much denuded strip of land; but they must once have
4962
extended much further; for on the next stream, south of the S. Juan,
4963
Captain Sulivan, R.N., found a little cliff, only just above the surface of
4964
the river, with numerous shells of the Venus Munsterii, D'Orbigny,--one of
4965
the species occurring at St. Fe, and of which there are casts at P. Gorda:
4966
the line of cliffs of the subsequently deposited true Pampean mud, extend
4967
from Colonia to within half a mile of this spot, and no doubt once covered
4968
up this denuded marine stratum. Again at Colonia, a Frenchman found, in
4969
digging the foundations of a house, a great mass of the Ostrea Patagonica
4970
(of which I saw many fragments), packed together just beneath the surface,
4971
and directly superimposed on the gneiss. These sections are important: M.
4972
d'Orbigny is unwilling to believe that beds of the same nature with the
4973
Pampean formation ever underlie the ancient marine tertiary strata; and I
4974
was as much surprised at it as he could have been; but the vertical cliff
4975
at P. Gorda allowed of no mistake, and I must be permitted to affirm, that
4976
after having examined the country from the Colorado to St. Fe Bajada, I
4977
could not be deceived in the mineralogical character of the Pampean
4978
deposit.
4979

4980
Moreover, in a precipitous part of the ravine of Las Bocas, a red sandstone
4981
is distinctly seen to overlie a thick bed of pale mud, also quite like the
4982
Pampean formation, abounding with concretions of true tosca-rock. This
4983
sandstone extends over many miles of country: it is as red as the brightest
4984
volcanic scoriae; it sometimes passes into a coarse red conglomerate
4985
composed of the underlying primary rocks; and often passes into a soft
4986
white sandstone with red streaks. At the Calera de los Huerfanos, only a
4987
quarter of a mile south of where I first met with the red sandstone, the
4988
crystalline white limestone is quarried: as this bed is the uppermost, and
4989
as it often passes into calcareous sandstone, interstratified with pure
4990
sand; and as the red sandstone likewise passes into soft white sandstone,
4991
and is also the uppermost bed, I believe that these two beds, though so
4992
different, are equivalents. A few leagues southward of these two places, on
4993
each side of the low primary range of S. Juan, there are some flat-topped,
4994
cliff-bounded, separate little hills, very similar to those fringing the
4995
primary ranges in the great plain south of Buenos Ayres: they are composed-
4996
-1st, of calcareous tuff with many particles of quartz, sometimes passing
4997
into a coarse conglomerate; 2nd, of a stone undistinguishable on the
4998
closest inspection from the compacter varieties of tosca-rock; and 3rd, of
4999
semi-crystalline limestone, including nodules of agate: these three
5000
varieties pass insensibly into each other, and as they form the uppermost
5001
stratum in this district, I believe that they, also, are the equivalents of
5002
the pure crystalline limestone, and of the red and white sandstones and
5003
conglomerates.
5004

5005
Between these points and Mercedes on the Rio Negro, there are scarcely any
5006
good sections, the road passing over limestone, tosca-rock, calcareous and
5007
bright red sandstones, and near the source of the San Salvador over a wide
5008
extent of jaspery rocks, with much milky agate, like that in the limestone
5009
near San Juan. In the estancia of Berquelo, the separate, flat-topped,
5010
cliff-bounded hills are rather higher than in the other parts of the
5011
country; they range in a N.E. and S.W. direction; their uppermost beds
5012
consist of the same bright red sandstone, passing sometimes into a
5013
conglomerate, and in the lower part into soft white sandstone, and even
5014
into loose sand: beneath this sandstone, I saw in two places layers of
5015
calcareous and marly rocks, and in one place red Pampean-like earth; at the
5016
base of these sections, there was a hard, stratified, white sandstone, with
5017
chalcedonic layers. Near Mercedes, beds of the same nature and apparently
5018
of the same age, are associated with compact, white, crystalline limestone,
5019
including much botryoidal agate, and singular masses, like porcelain, but
5020
really composed of a calcareo-siliceous paste. In sinking wells in this
5021
district the chalcedonic strata seem to be the lowest. Beds, such as there
5022
described, occur over the whole of this neighbourhood; but twenty miles
5023
further up the R. Negro, in the cliffs of Perika, which are about fifty
5024
feet in height, the upper bed is a prettily variegated chalcedony, mingled
5025
with a pure white tallowy limestone; beneath this there is a conglomerate
5026
of quartz and granite; beneath this many sandstones, some highly
5027
calcareous; and the whole lower two-thirds of the cliff consists of earthy
5028
calcareous beds of various degrees of purity, with one layer of reddish
5029
Pampean-like mud.
5030

5031
When examining the agates, the chalcedonic and jaspery rocks, some of the
5032
limestones, and even the bright red sandstones, I was forcibly struck with
5033
their resemblance to deposits formed in the neighbourhood of volcanic
5034
action. I now find that M. Isabelle, in his "Voyage a Buenos Ayres," has
5035
described closely similar beds on Itaquy and Ibicuy (which enter the
5036
Uruguay some way north of the R. Negro) and these beds include fragments of
5037
red decomposed true scoriae hardened by zeolite, and of black retinite: we
5038
have then here good evidence of volcanic action during our tertiary period.
5039
Still further north, near S. Anna, where the Parana makes a remarkable
5040
bend, M. Bonpland found some singular amygdaloidal rocks, which perhaps may
5041
belong to this same epoch. (M. d'Orbigny "Voyage" Part. Geolog. page 29) I
5042
may remark that, judging from the size and well-rounded condition of the
5043
blocks of rock in the above-described conglomerates, masses of primary
5044
formation probably existed at this tertiary period above water: there is,
5045
also, according to M. Isabelle, much conglomerate further north, at Salto.
5046

5047
From whatever source and through whatever means the great Pampean formation
5048
originated, we here have, I must repeat, unequivocal evidence of a similar
5049
action at a period before that of the deposition of the marine tertiary
5050
strata with extinct shells, at Santa Fe and P. Gorda. During also the
5051
deposition of these strata, we have in the intercalated layers of red
5052
Pampean-like mud and tosca-rock, and in the passage near S. Juan of the
5053
semi-crystalline limestones with agate into tosca undistinguishable from
5054
that of the Pampas, evidence of the same action, though continued only at
5055
intervals and in a feeble manner. We have further seen that in this
5056
district, at a period not only subsequent to the deposition of the tertiary
5057
strata, but to their upheavement and most extensive denudation, true
5058
Pampean mud with its usual characters and including mammiferous remains,
5059
was deposited round and between the hills or islets formed of these
5060
tertiary strata, and over the whole eastern and low primary districts of
5061
Banda Oriental.
5062

5063
EARTHY MASS, WITH EXTINCT MAMMIFEROUS REMAINS, OVER THE PORPHYRITIC GRAVEL
5064
AT S. JULIAN, LATITUDE 49 DEGREES 14' S., IN PATAGONIA.
5065

5066
(FIGURE 16. SECTION OF THE LOWEST PLAIN AT PORT S. JULIAN.
5067

5068
(Section through beds from top to bottom: A, B, C, D, E, F.)
5069

5070
AA. Superficial bed of reddish earth, with the remains of the Macrauchenia,
5071
and with recent sea-shells on the surface.
5072

5073
B. Gravel of porphyritic rocks.
5074

5075
C. and D. Pumiceous mudstone.--Ancient tertiary formation.
5076

5077
E. and F. Sandstone and argillaceous beds.--Ancient tertiary formation.)
5078

5079
This case, though not coming strictly under the Pampean formation, may be
5080
conveniently given here. On the south side of the harbour, there is a
5081
nearly level plain (mentioned in the First Chapter) about seven miles long,
5082
and three or four miles wide, estimated at ninety feet in height, and
5083
bordered by perpendicular cliffs, of which a section is represented in
5084
Figure 16.
5085

5086
The lower old tertiary strata (to be described in the next chapter) are
5087
covered by the usual gravel bed; and this by an irregular earthy, sometimes
5088
sandy mass, seldom more than two or three feet in thickness, except where
5089
it fills up furrows or gullies worn not only through the underlying gravel,
5090
but even through the upper tertiary beds. This earthy mass is of a pale
5091
reddish colour, like the less pure varieties of Pampean mud in Banda
5092
Oriental; it includes small calcareous concretions, like those of tosca-
5093
rock but more arenaceous, and other concretions of a greenish, indurated
5094
argillaceous substance: a few pebbles, also, from the underlying gravel-bed
5095
are also included in it, and these being occasionally arranged in
5096
horizontal lines, show that the mass is of sub-aqueous origin. On the
5097
surface and embedded in the superficial parts, there are numerous shells,
5098
partially retaining their colours, of three or four of the now commonest
5099
littoral species. Near the bottom of one deep furrow (represented in Figure
5100
16), filled up with this earthy deposit, I found a large part of the
5101
skeleton of the Macrauchenia Patachonica--a gigantic and most extraordinary
5102
pachyderm, allied, according to Professor Owen, to the Palaeotherium, but
5103
with affinities to the Ruminants, especially to the American division of
5104
the Camelidae. Several of the vertebrae in a chain, and nearly all the
5105
bones of one of the limbs, even to the smallest bones of the foot, were
5106
embedded in their proper relative positions: hence the skeleton was
5107
certainly united by its flesh or ligaments, when enveloped in the mud. This
5108
earthy mass, with its concretions and mammiferous remains, filling up
5109
furrows in the underlying gravel, certainly presents a very striking
5110
resemblance to some of the sections (for instance, at P. Alta in B. Blanca,
5111
or at the Barrancas de S. Gregorio) in the Pampean formation; but I must
5112
believe that this resemblance is only accidental. I suspect that the mud
5113
which at the present day is accumulating in deep and narrow gullies at the
5114
head of the harbour, would, after elevation, present a very similar
5115
appearance. The southernmost part of the true Pampean formation, namely, on
5116
the Colorado, lies 560 miles of latitude north of this point. (In the
5117
succeeding chapter I shall have to refer to a great deposit of extinct
5118
mammiferous remains, lately discovered by Captain Sulivan, R.N., at a point
5119
still further south, namely, at the R. Gallegos; their age must at present
5120
remain doubtful.)
5121

5122
With respect to the age of the Macrauchenia, the shells on the surface
5123
prove that the mass in which the skeleton was enveloped has been elevated
5124
above the sea within the recent period: I did not see any of the shells
5125
embedded at a sufficient depth to assure me (though it be highly probable)
5126
that the whole thickness of the mass was contemporaneous with these
5127
INDIVIDUAL SPECIMENS. That the Macrauchenia lived subsequently to the
5128
spreading out of the gravel on this plain is certain; and that this gravel,
5129
at the height of ninety feet, was spread out long after the existence of
5130
recent shells, is scarcely less certain. For, it was shown in the First
5131
Chapter, that this line of coast has been upheaved with remarkable
5132
equability, and that over a vast space both north and south of S. Julian,
5133
recent species of shells are strewed on (or embedded in) the surface of the
5134
250 feet plain, and of the 350 feet plain up to a height of 400 feet. These
5135
wide step-formed plains have been formed by the denuding action of the
5136
coast-waves on the old tertiary strata; and therefore, when the surface of
5137
the 350 feet plain, with the shells on it, first rose above the level of
5138
the sea, the 250 feet plain did not exist, and its formation, as well as
5139
the spreading out of the gravel on its summit, must have taken place
5140
subsequently. So also the denudation and the gravel-covering of the 90 feet
5141
plain must have taken place subsequently to the elevation of the 250 feet
5142
plain, on which recent shells are also strewed. Hence there cannot be any
5143
doubt that the Macrauchenia, which certainly was entombed in a fresh state,
5144
and which must have been alive after the spreading out of the gravel on the
5145
90 feet plain, existed, not only subsequently to the upraised shells on the
5146
surface of the 250 feet plain, but also to those on the 350 to 400 feet
5147
plain: these shells, eight in number (namely, three species of Mytilus, two
5148
of Patella, one Fusus, Voluta, and Balanus), are undoubtedly recent
5149
species, and are the commonest kinds now living on this coast. At Punta
5150
Alta in B. Blanca, I remarked how marvellous it was, that the Toxodon, a
5151
mammifer so unlike to all known genera, should have co-existed with twenty-
5152
three still living marine animals; and now we find that the Macrauchenia, a
5153
quadruped only a little less anomalous than the Toxodon, also co-existed
5154
with eight other still existing Mollusca: it should, moreover, be borne in
5155
mind, that a tooth of a pachydermatous animal was found with the other
5156
remains at Punta Alta, which Professor Owen thinks almost certainly
5157
belonged to the Macrauchenia.
5158

5159
Mr. Lyell has arrived at a highly important conclusion with respect to the
5160
age of the North American extinct mammifers (many of which are closely
5161
allied to, and even identical with, those of the Pampean formation),
5162
namely, that they lived subsequently to the period when erratic boulders
5163
were transported by the agency of floating ice in temperate latitudes.
5164
("Geological Proceedings" volume 4 page 36.) Now in the valley of the Santa
5165
Cruz, only fifty miles of latitude south of the spot where the Macrauchenia
5166
was entombed, vast numbers of gigantic, angular boulders, which must have
5167
been transported from the Cordillera on icebergs, lie strewed on the plain,
5168
at the height of 1,400 feet above the level of the sea. In ascending to
5169
this level, several step-formed plains must be crossed, all of which have
5170
necessarily required long time for their formation; hence the lowest or
5171
ninety feet plain, with its superficial bed containing the remains of the
5172
Macrauchenia, must have been formed very long subsequently to the period
5173
when the 1,400 feet plain was beneath the sea, and boulders were dropped on
5174
it from floating masses of ice. (It must not be inferred from these
5175
remarks, that the ice-action ceased in South America at this comparatively
5176
ancient period; for in Tierra del Fuego boulders were probably transported
5177
contemporaneously with, if not subsequently to, the formation of the ninety
5178
feet plain at S. Julian, and at other parts of the coast of Patagonia.) Mr.
5179
Lyell's conclusion, therefore, is thus far confirmed in the southern
5180
hemisphere; and it is the more important, as one is naturally tempted to
5181
admit so simple an explanation, that it was the ice-period that caused the
5182
extinction of the numerous great mammifers which so lately swarmed over the
5183
two Americas.
5184

5185
SUMMARY AND CONCLUDING REMARKS ON THE PAMPEAN FORMATION.
5186

5187
One of its most striking features is its great extent; I passed
5188
continuously over it from the Colorado to St. Fe Bajada, a distance of 500
5189
geographical miles; and M. d'Orbigny traced it for 250 miles further north.
5190
In the latitude of the Plata, I examined this formation at intervals over
5191
an east and west line of 300 miles from Maldonado to the R. Carcarana; and
5192
M. d'Orbigny believes it extends 100 miles further inland: from Mr.
5193
Caldcleugh's travels, however, I should have thought that it had extended,
5194
south of the Cordovese range, to near Mendoza, and I may add that I heard
5195
of great bones having been found high up the R. Quinto. Hence the area of
5196
the Pampean formation, as remarked by M. d'Orbigny, is probably at least
5197
equal to that of France, and perhaps twice or thrice as great. In a basin,
5198
surrounded by gravel-cliff (at a height of nearly three thousand feet),
5199
south of Mendoza, there is, as described in the Third Chapter, a deposit
5200
very like the Pampean, interstratified with other matter; and again at S.
5201
Julian's, in Patagonia, 560 miles south of the Colorado, a small irregular
5202
bed of a nearly similar nature contains, as we have just seen, mammiferous
5203
remains. In the provinces of Moxos and Chiquitos (1,000 miles northward of
5204
the Pampas), and in Bolivia, at a height of 4,000 metres, M. d'Orbigny has
5205
described similar deposits, which he believes to have been formed by the
5206
same agency contemporaneously with the Pampean formation. Considering the
5207
immense distances between these several points, and their different
5208
heights, it appears to me infinitely more probable, that this similarity
5209
has resulted not from contemporaneousness of origin, but from the
5210
similarity of the rocky framework of the continent: it is known that in
5211
Brazil an immense area consists of gneissic rocks, and we shall hereafter
5212
see, over how great a length the plutonic rocks of the Cordillera, the
5213
overlying purple porphyries, and the trachytic ejections, are almost
5214
identical in nature.
5215

5216
Three theories on the origin of the Pampean formation have been
5217
propounded:--First, that of a great debacle by M. d'Orbigny; this seems
5218
founded chiefly on the absence of stratification, and on the number of
5219
embedded remains of terrestrial quadrupeds. Although the Pampean formation
5220
(like so many argillaceous deposits) is not divided into distinct and
5221
separate strata, yet we have seen that in one good section it was striped
5222
with horizontal zones of colour, and that in several specified places the
5223
upper and lower parts differed, not only considerably in colour, but
5224
greatly in constitution. In the southern part of the Pampas the upper mass
5225
(to a certain extent stratified) generally consists of hard tosca-rock, and
5226
the lower part of red Pampean mud, often itself divided into two or more
5227
masses, varying in colour and in the quantity of included calcareous
5228
matter. In Western Banda Oriental, beds of a similar nature, but of a
5229
greater age, conformably underlie and are intercalated with the regularly
5230
stratified tertiary formation. As a general rule, the marly concretions are
5231
arranged in horizontal lines, sometimes united into irregular strata:
5232
surely, if the mud had been tumultuously deposited in mass, the included
5233
calcareous matter would have segregated itself irregularly, and not into
5234
nodules arranged in horizontal lines, one above the other and often far
5235
apart: this arrangement appears to me to prove that mud, differing slightly
5236
in composition, was successively and quietly deposited. On the theory of a
5237
debacle, a prodigious amount of mud, without a single pebble, is supposed
5238
to have been borne over the wide surface of the Pampas, when under water:
5239
on the other hand, over the whole of Patagonia, the same or another debacle
5240
is supposed to have borne nothing but gravel,--the gravel and the fine mud
5241
in the neighbourhood of the Rios Negro and Colorado having been borne to an
5242
equal distance from the Cordillera, or imagined line of disturbance:
5243
assuredly directly opposite effects ought not to be attributed to the same
5244
agency. Where, again, could a mass of fine sediment, charged with
5245
calcareous matter in a fit state for chemical segregation, and in quantity
5246
sufficient to cover an area at least 750 miles long, and 400 miles broad,
5247
to a depth of from twenty to thirty feet to a hundred feet, have been
5248
accumulated, ready to be transported by the supposed debacle? To my mind it
5249
is little short of demonstration, that a great lapse of time was necessary
5250
for the production and deposition of the enormous amount of mudlike matter
5251
forming the Pampas; nor should I have noticed the theory of a debacle, had
5252
it not been adduced by a naturalist so eminent as M. d'Orbigny.
5253

5254
A second theory, first suggested, I believe, by Sir W. Parish, is that the
5255
Pampean formation was thrown down on low and marshy plains by the rivers of
5256
this country before they assumed their present courses. The appearance and
5257
composition of the deposit, the manner in which it slopes up and round the
5258
primary ranges, the nature of the underlying marine beds, the estuary and
5259
sea-shells on the surface, the overlying sandstone beds at M. Hermoso, are
5260
all quite opposed to this view. Nor do I believe that there is a single
5261
instance of a skeleton of one of the extinct mammifers having been found in
5262
an upright position, as if it had been mired.
5263

5264
The third theory, of the truth of which I cannot entertain the smallest
5265
doubt, is that the Pampean formation was slowly accumulated at the mouth of
5266
the former estuary of the Plata and in the sea adjoining it. I have come to
5267
this conclusion from the reasons assigned against the two foregoing
5268
theories, and from simple geographical considerations. From the numerous
5269
shells of the Azara labiata lying loose on the surface of the plains, and
5270
near Buenos Ayres embedded in the tosca-rock, we know that this formation
5271
not only was formerly covered by, but that the uppermost parts were
5272
deposited in, the brackish water of the ancient La Plata. Southward and
5273
seaward of Buenos Ayres, the plains were upheaved from under water
5274
inhabited by true marine shells. We further know from Professor Ehrenberg's
5275
examination of the twenty microscopical organisms in the mud round the
5276
tooth of the Mastodon high up the course of the Parana, that the bottom-
5277
most part of this formation was of brackish-water origin. A similar
5278
conclusion must be extended to the beds of like composition, at the level
5279
of the sea and under it, at M. Hermoso in Bahia Blanca. Dr. Carpenter finds
5280
that the harder varieties of tosca-rock, collected chiefly to the south,
5281
contain marine spongoid bodies, minute fragments of shells, corals, and
5282
Polythalamia; these perhaps may have been drifted inwards by the tides,
5283
from the more open parts of the sea. The absence of shells, throughout this
5284
deposit, with the exception of the uppermost layers near Buenos Ayres, is a
5285
remarkable fact: can it be explained by the brackish condition of the
5286
water, or by the deep mud at the bottom? I have stated that both the
5287
reddish mud and the concretions of tosca-rock are often penetrated by
5288
minute, linear cavities, such as frequently may be observed in fresh-water
5289
calcareous deposits:--were they produced by the burrowing of small worms?
5290
Only on this view of the Pampean formation having been of estuary origin,
5291
can the extraordinary numbers (presently to be alluded to) of the embedded
5292
mammiferous remains be explained. (It is almost superfluous to give the
5293
numerous cases (for instance, in Sumatra; Lyell "Principles" volume 3 page
5294
325 sixth edition, of the carcasses of animals having been washed out to
5295
sea by swollen rivers; but I may refer to a recent account by Mr.
5296
Bettington "Asiatic Society" 1845 June 21st, of oxen, deer, and bears being
5297
carried into the Gulf of Cambray; see also the account in my "Journal" 2nd
5298
edition page 133, of the numbers of animals drowned in the Plata during the
5299
great, often recurrent, droughts.)
5300

5301
With respect to the first origin of the reddish mud, I will only remark,
5302
that the enormous area of Brazil consists in chief part of gneissic and
5303
other granitic rocks, which have suffered decomposition, and been converted
5304
into a red, gritty, argillaceous mass, to a greater depth than in any other
5305
country which I have seen. The mixture of rounded grains, and even of small
5306
fragments and pebbles of quartz, in the Pampean mud of Banda Oriental, is
5307
evidently due to the neighbouring and underlying primary rocks. The estuary
5308
mud was drifted during the Pampean period in a much more southerly course,
5309
owing probably to the east and west primary ridges south of the Plata not
5310
having been then elevated, than the mud of the Plata at present is; for it
5311
was formerly deposited as far south as the Colorado. The quantity of
5312
calcareous matter in this formation, especially in those large districts
5313
where the whole mass passes into tosca-rock, is very great: I have already
5314
remarked on the close resemblance in external and microscopical appearance,
5315
between this tosca-rock and the strata at Coquimbo, which have certainly
5316
resulted from the decay and attrition of recent shells: I dare not,
5317
however, extend this conclusion to the calcareous rocks of the Pampas, more
5318
especially as the underlying tertiary strata in western Banda Oriental show
5319
that at that period there was a copious emission of carbonate of lime, in
5320
connection with volcanic action. (I may add, that there are nearly similar
5321
superficial calcareous beds at King George's Sound in Australia; and these
5322
undoubtedly have been formed by the disintegration of marine remains see
5323
"Volcanic Islands" etc. page 144. There is, however, something very
5324
remarkable in the frequency of superficial, thin beds of earthy calcareous
5325
matter, in districts where the surrounding rocks are not calcareous. Major
5326
Charters, in a Paper read before the Geographical Society April 13, 1840
5327
and abstracted in the "Athenaeum" page 317, states that this is the case in
5328
parts of Mexico, and that he has observed similar appearances in many parts
5329
of South Africa. The circumstance of the uppermost stratum round the ragged
5330
Sierra Ventana, consisting of calcareous or marly matter, without any
5331
covering of alluvial matter, strikes me as very singular, in whatever
5332
manner we view the deposition and elevation of the Pampean formation.)
5333

5334
The Pampean formation, judging from its similar composition, and from the
5335
apparent absolute specific identity of some of its mammiferous remains, and
5336
from the generic resemblance of others, belongs over its vast area--
5337
throughout Banda Oriental, Entre Rios, and the wide extent of the Pampas as
5338
far south as the Colorado,--to the same geological epoch. The mammiferous
5339
remains occur at all depths from the top to the bottom of the deposit; and
5340
I may add that nowhere in the Pampas is there any appearance of much
5341
superficial denudation: some bones which I found near the Guardia del Monte
5342
were embedded close to the surface; and this appears to have been the case
5343
with many of those discovered in Banda Oriental: on the Matanzas, twenty
5344
miles south of Buenos Ayres, a Glyptodon was embedded five feet beneath the
5345
surface; numerous remains were found by S. Muniz, near Luxan, at an average
5346
depth of eighteen feet; in Buenos Ayres a skeleton was disinterred at sixty
5347
feet depth, and on the Parana I have described two skeletons of the
5348
Mastodon only five or six feet above the very base of the deposit. With
5349
respect to the age of this formation, as judged of by the ordinary standard
5350
of the existence of Mollusca, the only evidence within the limits of the
5351
true Pampas which is at all trustworthy, is afforded by the still living
5352
Azara labiata being embedded in tosca-rock near Buenos Ayres. At Punta
5353
Alta, however, we have seen that several of the extinct mammifers, most
5354
characteristic of the Pampean formation, co-existed with twenty species of
5355
Mollusca, a barnacle and two corals, all still living on this same coast;--
5356
for when we remember that the shells have a more ancient appearance than
5357
the bones; that many of the bones, though embedded in a coarse
5358
conglomerate, are perfectly preserved; that almost all the parts of the
5359
skeleton of the Scelidotherium, even to the knee-cap, were lying in their
5360
proper relative positions; and that a large piece of the fragile dermal
5361
armour of a Dasypoid quadruped, connected with some of the bones of the
5362
foot, had been entombed in a condition allowing the two sides to be doubled
5363
together, it must assuredly be admitted that these mammiferous remains were
5364
embedded in a fresh state, and therefore that the living animals co-existed
5365
with the co-embedded shells. Moreover, the Macrauchenia Patachonica (of
5366
which, according to Professor Owen, remains also occur in the Pampas of
5367
Buenos Ayres, and at Punta Alta) has been shown by satisfactory evidence of
5368
another kind, to have lived on the plains of Patagonia long after the
5369
period when the adjoining sea was first tenanted by its present commonest
5370
molluscous animals. We must, therefore, conclude that the Pampean formation
5371
belongs, in the ordinary geological sense of the word, to the Recent
5372
Period. (M. d'Orbigny believes "Voyage" Part. Geolog. page 81, that this
5373
formation, though "tres voisine de la notre, est neanmoins de beaucoup
5374
anterieure a notre creation.")
5375

5376
At St. Fe Bajada, the Pampean estuary formation, with its mammiferous
5377
remains, conformably overlies the marine tertiary strata, which (as first
5378
shown by M. d'Orbigny) are contemporaneous with those of Patagonia, and
5379
which, as we shall hereafter see, belong to a very ancient tertiary stage.
5380
When examining the junction between these two formations, I thought that
5381
the concretionary layer of marl marked a passage between the marine and
5382
estuary stages. M. d'Orbigny disputes this view (as given in my "Journal"),
5383
and I admit that it is erroneous, though in some degree excusable, from
5384
their conformability and from both abounding with calcareous matter. It
5385
would, indeed, have been a great anomaly if there had been a true passage
5386
between a deposit contemporaneous with existing species of mollusca, and
5387
one in which all the mollusca appear to be extinct. Northward of Santa Fe,
5388
M. d'Orbigny met with ferruginous sandstones, marly rocks, and other beds,
5389
which he considers as a distinct and lower formation; but the evidence that
5390
they are not parts of the same with an altered mineralogical character,
5391
does not appear to me quite satisfactory.
5392

5393
In Western Banda Oriental, while the marine tertiary strata were
5394
accumulating, there were volcanic eruptions, much silex and lime were
5395
precipitated from solution, coarse conglomerates were formed, being derived
5396
probably from adjoining land, and layers of red mud and marly rocks, like
5397
those of the Pampean formation, were occasionally deposited. The true
5398
Pampean deposit, with mammiferous remains, instead of as at Santa Fe
5399
overlying conformably the tertiary strata, is here seen at a lower level
5400
folding round and between the flat-topped, cliff-bounded hills, formed by a
5401
upheaval and denudation of these same tertiary strata. The upheaval, having
5402
occurred here earlier than at Santa Fe, may be naturally accounted for by
5403
the contemporaneous volcanic action. At the Barrancas de S. Gregorio, the
5404
Pampean deposit, as we have seen, overlies and fills up furrows in coarse
5405
sand, precisely like that now accumulating on the shores near the mouth of
5406
the Plata. I can hardly believe that this loose and coarse sand is
5407
contemporaneous with the old tertiary and often crystalline strata of the
5408
more western parts of the province; and am induced to suspect that it is of
5409
subsequent origin. If that section near Colonia could be implicitly
5410
trusted, in which, at a height of only fifteen feet above the Plata, a bed
5411
of fresh-looking mussels, of an existing littoral species, appeared to lie
5412
between the sand and the Pampean mud, I should conclude that Banda Oriental
5413
must have stood, when the coarse sand was accumulating, at only a little
5414
below its present level, and had then subsided, allowing the estuary
5415
Pampean mud to cover far and wide its surface up to a height of some
5416
hundred feet; and that after this subsidence the province had been uplifted
5417
to its present level.
5418

5419
In Western Banda Oriental, we know, from two unequivocal sections that
5420
there is a mass, absolutely undistinguishable from the true Pampean
5421
deposit, beneath the old tertiary strata. This inferior mass must be very
5422
much more ancient than the upper deposit with its mammiferous remains, for
5423
it lies beneath the tertiary strata in which all the shells are extinct.
5424
Nevertheless, the lower and upper masses, as well as some intermediate
5425
layers, are so similar in mineralogical character, that I cannot doubt that
5426
they are all of estuary origin, and have been derived from the same great
5427
source. At first it appeared to me extremely improbable, that mud of the
5428
same nature should have been deposited on nearly the same spot, during an
5429
immense lapse of time, namely, from a period equivalent perhaps to the
5430
Eocene of Europe to that of the Pampean formation. But as, at the very
5431
commencement of the Pampean period, if not at a still earlier period, the
5432
Sierra Ventana formed a boundary to the south,--the Cordillera or the
5433
plains in front of them to the west,--the whole province of Corrientes
5434
probably to the north, for, according to M. d'Orbigny, it is not covered by
5435
the Pampean deposit,--and Brazil, as known by the remains in the caves, to
5436
the north-east; and as again, during the older tertiary period, land
5437
already existed in Western Banda Oriental and near St. Fe Bajada, as may be
5438
inferred from the vegetable debris, from the quantities of silicified wood,
5439
and from the remains of a Toxodon found, according to M. d'Orbigny, in
5440
still lower strata, we may conclude, that at this ancient period a great
5441
expanse of water was surrounded by the same rocky framework which now
5442
bounds the plains of Pampean formation. This having been the case, the
5443
circumstance of sediment of the same nature having been deposited in the
5444
same area during an immense lapse of time, though highly remarkable, does
5445
not appear incredible.
5446

5447
The elevation of the Pampas, at least of the southern parts, has been slow
5448
and interrupted by several periods of rest, as may be inferred from the
5449
plains, cliffs, and lines of sand-dunes (with shells and pumice-pebbles)
5450
standing at different heights. I believe, also, that the Pampean mud
5451
continued to be deposited, after parts of this formation had already been
5452
elevated, in the same manner as mud would continue to be deposited in the
5453
estuary of the Plata, if the mud-banks on its shores were now uplifted and
5454
changed into plains: I believe in this from the improbability of so many
5455
skeletons and bones having been accumulated at one spot, where M. Hermoso
5456
now stands, at a depth of between eight hundred and one thousand feet, and
5457
at a vast distance from any land except small rocky islets,--as must have
5458
been the case, if the high tosca-plain round the Ventana and adjoining
5459
Sierras, had not been already uplifted and converted into land, supporting
5460
mammiferous animals. At Punta Alta we have good evidence that the gravel-
5461
strata, which certainly belong to the true Pampean period, were accumulated
5462
after the elevation in that neighbourhood of the main part of the Pampean
5463
deposit, whence the rounded masses of tosca-rock were derived, and that
5464
rolled fragment of black bone in the same peculiar condition with the
5465
remains at Monte Hermoso.
5466

5467
The number of the mammiferous remains embedded in the Pampas is, as I have
5468
remarked, wonderful: it should be borne in mind that they have almost
5469
exclusively been found in the cliffs and steep banks of rivers, and that,
5470
until lately, they excited no attention amongst the inhabitants: I am
5471
firmly convinced that a deep trench could not be cut in any line across the
5472
Pampas, without intersecting the remains of some quadruped. It is difficult
5473
to form an opinion in what part of the Pampas they are most numerous; in a
5474
limited spot they could not well have been more numerous than they were at
5475
P. Alta; the number, however, lately found by Senor F. Muniz, near Luxan,
5476
in a central spot in the Pampas, is extraordinarily great: at the end of
5477
this chapter I will give a list of all the localities at which I have heard
5478
of remains having been discovered. Very frequently the remains consist of
5479
almost perfect skeletons; but there are, also, numerous single bones, as
5480
for instance at St. Fe. Their state of preservation varies much, even when
5481
embedded near each other: I saw none others so perfectly preserved as the
5482
heads of the Toxodon and Mylodon from the white soft earthy bed on the
5483
Sarandis in Banda Oriental. It is remarkable that in two limited sections I
5484
found no less than five teeth separately embedded, and I heard of teeth
5485
having been similarly found in other parts: may we suppose that the
5486
skeletons or heads were for a long time gently drifted by currents over the
5487
soft muddy bottom, and that the teeth occasionally, here and there, dropped
5488
out?
5489

5490
It may be naturally asked, where did these numerous animals live? From the
5491
remarkable discoveries of MM. Lund and Clausen, it appears that some of the
5492
species found in the Pampas inhabited the highlands of Brazil: the Mastodon
5493
Andium is embedded at great heights in the Cordillera from north of the
5494
equator to at least as far south as Tarija (Humboldt states that the
5495
Mastodon has been discovered in New Granada: it has been found in Quito.
5496
When at Lima, I saw a tooth of a Mastodon in the possession of Don M.
5497
Rivero, found at Playa Chica on the Maranon, near the Guallaga. Every one
5498
has heard of the numerous remains of Mastodon in Bolivia.); and as there is
5499
no higher land, there can be little doubt that this Mastodon must have
5500
lived on the plains and valleys of that great range. These countries,
5501
however, appear too far distant for the habitation of the individuals
5502
entombed in the Pampas: we must probably look to nearer points, for
5503
instance to the province of Corrientes, which, as already remarked, is said
5504
not to be covered by the Pampean formation, and may therefore, at the
5505
period of its deposition, have existed as dry land. I have already given my
5506
reasons for believing that the animals embedded at M. Hermoso and at P.
5507
Alta in Bahia Blanca, lived on adjoining land, formed of parts of the
5508
already elevated Pampean deposit. With respect to the food of these many
5509
great extinct quadrupeds, I will not repeat the facts given in my "Journal"
5510
(second edition page 85), showing that there is no correlation between the
5511
luxuriance of the vegetation of a country and the size of its mammiferous
5512
inhabitants. I do not doubt that large animals could now exist, as far as
5513
the amount, not kind, of vegetation is concerned, on the sterile plains of
5514
Bahia Blanca and of the R. Negro, as well as on the equally, if not more
5515
sterile plains of Southern Africa. The climate, however, may perhaps have
5516
somewhat deteriorated since the mammifers embedded at Bahia Blanca lived
5517
there; for we must not infer, from the continued existence of the same
5518
shells on the present coasts, that there has been no change in climate; for
5519
several of these shells now range northward along the shores of Brazil,
5520
where the most luxuriant vegetation flourishes under a tropical
5521
temperature. With respect to the extinction, which at first fills the mind
5522
with astonishment, of the many great and small mammifers of this period, I
5523
may also refer to the work above cited (second edition page 173), in which
5524
I have endeavoured to show, that however unable we may be to explain the
5525
precise cause, we ought not properly to feel more surprised at a species
5526
becoming extinct than at one being rare; and yet we are accustomed to view
5527
the rarity of any particular species as an ordinary event, not requiring
5528
any extraordinary agency.
5529

5530
The several mammifers embedded in the Pampean formation, which mostly
5531
belong to extinct genera, and some even to extinct families or orders, and
5532
which differ nearly, if not quite, as much as do the Eocene mammifers of
5533
Europe from living quadrupeds having existed contemporaneously with
5534
mollusca, all still inhabiting the adjoining sea, is certainly a most
5535
striking fact. It is, however, far from being an isolated one; for, during
5536
the late tertiary deposits of Britain, an elephant, rhinoceros, and
5537
hippopotamus co-existed with many recent land and fresh-water shells; and
5538
in North America, we have the best evidence that a mastodon, elephant,
5539
megatherium, megalonyx, mylodon, an extinct horse and ox, likewise co-
5540
existed with numerous land, fresh-water, and marine recent shells. (Many
5541
original observations, and a summary on this subject, are given in Mr.
5542
Lyell's paper in the "Geological Proceedings" volume 4 page 3 and in his
5543
"Travels in North America" volume 1 page 164 and volume 2 page 60. For the
5544
European analogous cases see Mr. Lyell's "Principles of Geology" 6th
5545
edition volume 1 page 37.) The enumeration of these extinct North American
5546
animals naturally leads me to refer to the former closer relation of the
5547
mammiferous inhabitants of the two Americas, which I have discussed in my
5548
"Journal," and likewise to the vast extent of country over which some of
5549
them ranged: thus the same species of the Megatherium, Megalonyx, Equus (as
5550
far as the state of their remains permits of identification), extended from
5551
the Southern United States of North America to Bahia Blanca, in latitude 39
5552
degrees S., on the coast of Patagonia. The fact of these animals having
5553
inhabited tropical and temperate regions, does not appear to me any great
5554
difficulty, seeing that at the Cape of Good Hope several quadrupeds, such
5555
as the elephant and hippopotamus, range from the equator to latitude 35
5556
degrees south. The case of the Mastodon Andium is one of more difficulty,
5557
for it is found from latitude 36 degrees S., over, as I have reason to
5558
believe, nearly the whole of Brazil, and up the Cordillera to regions
5559
which, according to M. d'Orbigny, border on perpetual snow, and which are
5560
almost destitute of vegetation: undoubtedly the climate of the Cordillera
5561
must have been different when the mastodon inhabited it; but we should not
5562
forget the case of the Siberian mammoth and rhinoceros, as showing how
5563
severe a climate the larger pachydermata can endure; nor overlook the fact
5564
of the guanaco ranging at the present day over the hot low deserts of Peru,
5565
the lofty pinnacles of the Cordillera, and the damp forest-clad land of
5566
Southern Tierra del Fuego; the puma, also, is found from the equator to the
5567
Strait of Magellan, and I have seen its footsteps only a little below the
5568
limits of perpetual snow in the Cordillera of Chile.
5569

5570
At the period, so recent in a geological sense, when these extinct
5571
mammifers existed, the two Americas must have swarmed with quadrupeds, many
5572
of them of gigantic size; for, besides those more particularly referred to
5573
in this chapter, we must include in this same period those wonderfully
5574
numerous remains, some few of them specifically, and others generically
5575
related to those of the Pampas, discovered by MM. Lund and Clausen in the
5576
caves of Brazil. Finally, the facts here given show how cautious we ought
5577
to be in judging of the antiquity of a formation from even a great amount
5578
of difference between the extinct and living species in any one class of
5579
animals;--we ought even to be cautious in accepting the general
5580
proposition, that change in organic forms and lapse of time are at all,
5581
necessarily, correlatives.
5582

5583
...
5584

5585
LOCALITIES WITHIN THE REGION OF THE PAMPAS WHERE GREAT BONES HAVE BEEN
5586
FOUND.
5587

5588
The following list, which includes every account which I have hitherto met
5589
with of the discovery of fossil mammiferous remains in the Pampas, may be
5590
hereafter useful to a geologist investigating this region, and it tends to
5591
show their extraordinary abundance. I heard of and saw many fossils, the
5592
original position of which I could not ascertain; and I received many
5593
statements too vague to be here inserted. Beginning to the south:--we have
5594
the two stations in Bahia Blanca, described in this chapter, where at P.
5595
Alta, the Megatherium, Megalonyx, Scelidotherium, Mylodon, Holophractus (or
5596
an allied genus), Toxodon, Macrauchenia, and an Equus were collected; and
5597
at M. Hermoso a Ctenomys, Hydrochaerus, some other rodents and the bones of
5598
a great megatheroid quadruped. Close north-east of the S. Tapalguen, we
5599
have the Rios 'Huesos' (i.e. "bones"), which probably takes its name from
5600
large fossil bones. Near Villa Nuevo, and at Las Averias, not far from the
5601
Salado, three nearly perfect skeletons, one of the Megatherium, one of the
5602
Glyptodon clavipes, and one of some great Dasypoid quadruped, were found by
5603
the agent of Sir W. Parish (see his work "Buenos Ayres" etc. page 171). I
5604
have seen the tooth of a Mastodon from the Salado; a little northward of
5605
this river, on the borders of a lake near the G. del Monte, I saw many
5606
bones, and one large piece of dermal armour; higher up the Salado, there is
5607
a place called Monte "Huesos." On the Matanzas, about twenty miles south of
5608
Buenos Ayres, the skeleton (vide page 178 of "Buenos Ayres" etc. by Sir W.
5609
Parish) of a Glyptodon was found about five feet beneath the surface; here
5610
also (see Catalogue of Royal College of Surgeons) remains of Glyptodon
5611
clavipes, G. ornatus, and G. reticulatus were found. Signor Angelis, in a
5612
letter which I have seen, refers to some great remains found in Buenos
5613
Ayres, at a depth of twenty varas from the surface. Seven leagues north of
5614
this city the same author found the skeletons of Mylodon robustus and
5615
Glyptodon ornatus. From this neighbourhood he has lately sent to the
5616
British Museum the following fossils:--Remains of three or four individuals
5617
of Megatherium; of three species of Glyptodon; of three individuals of the
5618
Mastodon Andium; of Macrauchenia; of a second species of Toxodon, different
5619
from T. Platensis; and lastly, of the Machairodus, a wonderful large
5620
carnivorous animal. M. d'Orbigny has lately received from the Recolate
5621
"Voyage" Pal. page 144), near Buenos Ayres, a tooth of Toxodon Platensis.
5622

5623
Proceeding northward, along the west bank of the Parana, we come to the Rio
5624
Luxan, where two skeletons of the Megatherium have been found; and lately,
5625
within eight leagues of the town of Luxan, Dr. F. X. Muniz has collected
5626
("British Packet" Buenos Ayres September 25, 1841), from an average depth
5627
of eighteen feet, very numerous remains, of no less than, as he believes,
5628
nine distinct species of mammifers. At Areco, large bones have been found,
5629
which are believed, by the inhabitants, to have been changed from small
5630
bones, by the water of the river! At Arrecifes, the Glyptodon, sent to the
5631
College of Surgeons, was found; and I have seen two teeth of a Mastodon
5632
from this quarter. At S. Nicolas, M. d'Orbigny found remains of a Canis,
5633
Ctenomys, and Kerodon; and M. Isabelle ("Voyage" page 332) refers to a
5634
gigantic Armadillo found there. At S. Carlos, I heard of great bones. A
5635
little below the mouth of the Carcarana, the two skeletons of Mastodon were
5636
found; on the banks of this river, near S. Miguel, I found teeth of the
5637
Mastodon and Toxodon; and "Falkner" (page 55) describes the osseous armour
5638
of some great animal; I heard of many other bones in this neighbourhood. I
5639
have seen, I may add, in the possession of Mr. Caldcleugh, the tooth of a
5640
Mastodon Andium, said to have been found in Paraguay; I may here also refer
5641
to a statement in this gentleman's travels (volume 1 page 48), of a great
5642
skeleton having been found in the province of Bolivia in Brazil, on the R.
5643
de las Contas. The furthest point westward in the Pampas, at which I have
5644
HEARD of fossil bones, was high up on the banks of R. Quinto.
5645

5646
In Entre Rios, besides the remains of the Mastodon, Toxodon, Equus, and a
5647
great Dasypoid quadruped near St. Fe Bajada, I received an account of bones
5648
having been found a little S.E. of P. Gorda (on the Parana), and of an
5649
entire skeleton at Matanzas, on the Arroyo del Animal.
5650

5651
In Banda Oriental, besides the remains of the Toxodon, Mylodon, and two
5652
skeletons of great animals with osseous armour (distinct from that of the
5653
Glyptodon), found on the Arroyos Sarandis and Berquelo, M. Isabelle
5654
("Voyage" page 322) says, many bones have been found near the R. Negro, and
5655
on the R. Arapey, an affluent of the Paraguay, in latitude 30 degrees 40
5656
minutes south. I heard of bones near the source of the A. Vivoras. I saw
5657
the remains of a Dasypoid quadruped from the Arroyo Seco, close to M.
5658
Video; and M. d'Orbigny refers ("Voyage" Geolog. page 24), to another found
5659
on the Pedernal, an affluent of the St. Lucia; and Signor Angelis, in a
5660
letter, states that a third skeleton of this family has been found, near
5661
Canelones. I saw a tooth of the Mastodon from Talas, another affluent of
5662
the St. Lucia. The most eastern point at which I heard of great bones
5663
having been found, was at Solis Grande, between M. Video and Maldonado.
5664

5665

5666
CHAPTER V. ON THE OLDER TERTIARY FORMATIONS OF PATAGONIA AND CHILE.
5667

5668
Rio Negro.
5669
S. Josef.
5670
Port Desire, white pumiceous mudstone with Infusoria.
5671
Port S. Julian.
5672
Santa Cruz, basaltic lava of.
5673
P. Gallegos.
5674
Eastern Tierra del Fuego; leaves of extinct beech-trees.
5675
Summary on the Patagonian tertiary formations.
5676
Tertiary formations of the Western Coast.
5677
Chonos and Chiloe groups, volcanic rocks of.
5678
Concepcion.
5679
Navidad.
5680
Coquimbo.
5681
Summary.
5682
Age of the tertiary formations.
5683
Lines of elevation.
5684
Silicified wood.
5685
Comparative ranges of the extinct and living mollusca on the West Coast of
5686
S. America.
5687
Climate of the tertiary period.
5688
On the causes of the absence of recent conchiferous deposits on the coast
5689
of S. America.
5690
On the contemporaneous deposition and preservation of sedimentary
5691
formations.
5692

5693
RIO NEGRO.
5694

5695
I can add little to the details given by M. d'Orbigny on the sandstone
5696
formation of this district. ("Voyage" Part Geolog. pages 57-65.) The cliffs
5697
to the south of the river are about two hundred feet in height, and are
5698
composed of sandstone of various tints and degrees of hardness. One layer,
5699
which thinned out at both ends, consisted of earthy matter, of a pale
5700
reddish colour, with some gypsum, and very like (I speak after comparison
5701
of the specimens brought home) Pampean mud: above this was a layer of
5702
compact marly rock with dendritic manganese. Many blocks of a conglomerate
5703
of pumice-pebbles embedded in hard sandstone were strewed at the foot of
5704
the cliff, and had evidently fallen from above. A few miles N.E. of the
5705
town, I found, low down in the sandstone, a bed, a few inches in thickness,
5706
of a white, friable, harsh-feeling sediment, which adheres to the tongue,
5707
is of easy fusibility, and of little specific gravity; examined under the
5708
microscope, it is seen to be pumiceous tuff, formed of broken transparent
5709
crystals. In the cliffs south of the river, there is, also, a thin layer of
5710
nearly similar nature, but finer grained, and not so white; it might easily
5711
have been mistaken for a calcareous tuff, but it contains no lime: this
5712
substance precisely resembles a most widely extended and thick formation in
5713
Southern Patagonia, hereafter to be described, and which is remarkable for
5714
being partially formed of infusoria. These beds, conjointly with the
5715
conglomerate of pumice, are interesting, as showing the nature of the
5716
volcanic action in the Cordillera during this old tertiary period.
5717

5718
In a bed at the base of the southern cliffs, M. d'Orbigny found two extinct
5719
fresh-water shells, namely, a Unio and Chilina. This bed rested on one with
5720
bones of an extinct rodent, namely, the Megamys Patagoniensis; and this
5721
again on another with extinct marine shells. The species found by M.
5722
d'Orbigny in different parts of this formation consist of:--
5723

5724
1. Ostrea Patagonica, d'Orbigny, "Voyage, Pal." (also at St. Fe, and whole
5725
coast of Patagonia).
5726
2. Ostrea Ferrarisi, d'Orbigny, "Voyage, Pal."
5727
3. Ostrea Alvarezii, d'Orbigny, "Voyage, Pal." (also at St. Fe, and S.
5728
Josef).
5729
4. Pecten Patagoniensis, d'Orbigny, "Voyage, Pal."
5730
5. Venus Munsterii, d'Orbigny, "Voyage, Pal." (also at St. Fe).
5731
6. Arca Bonplandiana, d'Orbigny, "Voyage, Pal." (also at St. Fe).
5732

5733
According to M. d'Orbigny, the sandstone extends westward along the coast
5734
as far as Port S. Antonio, and up the R. Negro far into the interior:
5735
northward I traced it to the southern side of the Rio Colorado, where it
5736
forms a low denuded plain. This formation, though contemporaneous with that
5737
of the rest of Patagonia, is quite different in mineralogical composition,
5738
being connected with it only by the one thin white layer: this difference
5739
may be reasonably attributed to the sediment brought down in ancient times
5740
by the Rio Negro; by which agency, also, we can understand the presence of
5741
the fresh-water shells, and of the bones of land animals. Judging from the
5742
identity of four of the above shells, this formation is contemporaneous (as
5743
remarked by M. d'Orbigny) with that under the Pampean deposit in Entre Rios
5744
and in Banda Oriental. The gravel capping the sandstone plain, with its
5745
calcareous cement and nodules of gypsum, is probably, from the reasons
5746
given in the First Chapter, contemporaneous with the uppermost beds of the
5747
Pampean formation on the upper plain north of the Colorado.
5748

5749
SAN JOSEF.
5750

5751
My examination here was very short: the cliffs are about a hundred feet
5752
high; the lower third consists of yellowish-brown, soft, slightly
5753
calcareous, muddy sandstone, parts of which when struck emit a fetid smell.
5754
In this bed the great Ostraea Patagonica, often marked with dendritic
5755
manganese and small coral-lines, were extraordinarily numerous. I found
5756
here the following shells:--
5757

5758
1. Ostrea Patagonica, d'Orbigny, "Voyage, Pal." (also at St. Fe and whole
5759
coast of Patagonia).
5760
2. Ostrea Alvarezii, d'Orbigny, "Voyage, Pal." (also at St. Fe and R.
5761
Negro).
5762
3. Pecten Paranensis, d'Orbigny, "Voyage, Pal." (also at St. Fe, S. Julian,
5763
and Port Desire).
5764
4. Pecten Darwinianus, d'Orbigny, "Voyage, Pal." (also at St. Fe).
5765
5. Pecten actinodes, G.B. Sowerby.
5766
6. Terebratula Patagonica, G.B. Sowerby (also S. Julian).
5767
7. Casts of a Turritella.
5768

5769
The four first of these species occur at St. Fe in Entre Rios, and the two
5770
first in the sandstone of the Rio Negro. Above this fossiliferous mass,
5771
there is a stratum of very fine-grained, pale brown mudstone, including
5772
numerous laminae of selenite. All the strata appear horizontal, but when
5773
followed by the eye for a long distance, they are seen to have a small
5774
easterly dip. On the surface we have the porphyritic gravel, and on it sand
5775
with recent shells.
5776

5777
NUEVO GULF.
5778

5779
From specimens and notes given me by Lieutenant Stokes, it appears that the
5780
lower bed consists of soft muddy sandstone, like that of S. Josef, with
5781
many imperfect shells, including the Pecten Paranensis, d'Orbigny, casts of
5782
a Turritella and Scutella. On this there are two strata of the pale brown
5783
mudstone, also like that of S. Josef, separated by a darker-coloured, more
5784
argillaceous variety, including the Ostrea Patagonica. Professor Ehrenberg
5785
has examined this mudstone for me: he finds in it three already known
5786
microscopic organisms, enveloped in a fine-grained pumiceous tuff, which I
5787
shall have immediately to describe in detail. Specimens brought to me from
5788
the uppermost bed, north of the Rio Chupat, consist of this same substance,
5789
but of a whiter colour.
5790

5791
Tertiary strata, such as here described, appear to extend along the whole
5792
coast between Rio Chupat and Port Desire, except where interrupted by the
5793
underlying claystone porphyry, and by some metamorphic rocks; these hard
5794
rocks, I may add, are found at intervals over a space of about five degrees
5795
of latitude, from Point Union to a point between Port S. Julian and S.
5796
Cruz, and will be described in the ensuing chapter. Many gigantic specimens
5797
of the Ostraea Patagonica were collected in the Gulf of St. George.
5798

5799
PORT DESIRE.
5800

5801
A good section of the lowest fossiliferous mass, about forty feet in
5802
thickness, resting on claystone porphyry, is exhibited a few miles south of
5803
the harbour. The shells sufficiently perfect to be recognised consist of:--
5804

5805
1. Ostrea Patagonica, d'Orbigny, (also at St. Fe, and whole coast of
5806
Patagonia).
5807
2. Pecten Paranensis, d'Orbigny, "Voyage, Pal." (also at St. Fe, S. Josef,
5808
S. Julian).
5809
3. Pecten centralis, G.B. Sowerby (also at S. Julian and S. Cruz).
5810
4. Cucullaea alta, G.B. Sowerby (also at S. Cruz).
5811
5. Nucula ornata, G.B. Sowerby.
5812
6. Turritella Patagonica, G.B. Sowerby.
5813

5814
The fossiliferous strata, when not denuded, are conformably covered by a
5815
considerable thickness of the fine-grained pumiceous mudstone, divided into
5816
two masses: the lower half is very fine-grained, slightly unctuous, and so
5817
compact as to break with a semi-conchoidal fracture, though yielding to the
5818
nail; it includes laminae of selenite: the upper half precisely resembles
5819
the one layer at the Rio Negro, and with the exception of being whiter, the
5820
upper beds at San Josef and Nuevo Gulf. In neither mass is there any trace
5821
to the naked eye of organic forms. Taking the entire deposit, it is
5822
generally quite white, or yellowish, or feebly tinted with green; it is
5823
either almost friable under the finger, or as hard as chalk; it is of easy
5824
fusibility, of little specific gravity, is not harsh to the touch, adheres
5825
to the tongue, and when breathed on exhales a strong aluminous odour; it
5826
sometimes contains a very little calcareous matter, and traces (besides the
5827
included laminae) of gypsum. Under the microscope, according to Professor
5828
Ehrenberg, it consists of minute, triturated, cellular, glassy fragments of
5829
pumice, with some broken crystals. ("Monatsberichten de konig. Akad. zu
5830
Berlin" vom April 1845.) In the minute glassy fragments, Professor
5831
Ehrenberg recognises organic structures, which have been affected by
5832
volcanic heat: in the specimens from this place, and from Port S. Julian,
5833
he finds sixteen Polygastrica and twelve Phytolitharia. Of these organisms,
5834
seven are new forms, the others being previously known: all are of marine,
5835
and chiefly of oceanic, origin. This deposit to the naked eye resembles the
5836
crust which often appears on weathered surfaces of feldspathic rocks; it
5837
likewise resembles those beds of earthy feldspathic matter, sometimes
5838
interstratified with porphyritic rocks, as is the case in this very
5839
district with the underlying purple claystone porphyry. From examining
5840
specimens under a common microscope, and comparing them with other
5841
specimens undoubtedly of volcanic origin, I had come to the same conclusion
5842
with Professor Ehrenberg, namely, that this great deposit, in its first
5843
origin, is of volcanic nature.
5844

5845
PORT S. JULIAN.
5846

5847
(FIGURE 17. SECTION OF THE STRATA EXHIBITED IN THE CLIFFS OF THE NINETY
5848
FEET PLAIN AT PORT S. JULIAN.
5849

5850
(Section through beds from top to bottom: A, B, C, D, E, F.))
5851

5852
On the south side of the harbour, Figure 17 gives the nature of the beds
5853
seen in the cliffs of the ninety feet plain. Beginning at the top:--
5854

5855
1st, the earthy mass (AA), including the remains of the Macrauchenia, with
5856
recent shells on the surface.
5857

5858
Second, the porphyritic shingle (B), which in its lower part is
5859
interstratified (owing, I believe, to redisposition during denudation) with
5860
the white pumiceous mudstone.
5861

5862
Third, this white mudstone, about twenty feet in thickness, and divided
5863
into two varieties (C and D), both closely resembling the lower, fine-
5864
grained, more unctuous and compact kind at Port Desire; and, as at that
5865
place, including much selenite.
5866

5867
Fourth, a fossiliferous mass, divided into three main beds, of which the
5868
uppermost is thin, and consists of ferruginous sandstone, with many shells
5869
of the great oyster and Pecten Paranensis; the middle bed (E) is a
5870
yellowish earthy sandstone abounding with Scutellae; and the lowest bed (F)
5871
is an indurated, greenish, sandy clay, including large concretions of
5872
calcareous sandstone, many shells of the great oyster, and in parts almost
5873
made up of fragments of Balanidae. Out of these three beds, I procured the
5874
following twelve species, of which the two first were exceedingly numerous
5875
in individuals, as were the Terebratulae and Turritellae in certain
5876
layers:--
5877

5878
1. Ostrea Patagonica, d'Orbigny, "Voyage, Pal." (also at St. Fe, and whole
5879
coast of Patagonia).
5880
2. Pecten Paranensis, d'Orbigny, "Voyage, Pal." (St. Fe, S. Josef, Port
5881
Desire).
5882
3. Pecten centralis, G.B. Sowerby (also at Port Desire and S. Cruz).
5883
4. Pecten geminatus, G.B. Sowerby.
5884
5. Terebratula Patagonica, G.B. Sowerby (also S. Josef).
5885
6. Struthiolaria ornata, G.B. Sowerby (also S. Cruz).
5886
7. Fusus Patagonicus, G.B. Sowerby.
5887
8. Fusus Noachinus, G.B. Sowerby.
5888
9. Scalaria rugulosa, G.B. Sowerby.
5889
10. Turritella ambulacrum, G.B. Sowerby (also S. Cruz).
5890
11. Pyrula, cast of, like P. ventricosa of Sowerby, Tank Cat.
5891
12. Balanus varians, G.B. Sowerby.
5892
13. Scutella, differing from the species from Nuevo Gulf.
5893

5894
At the head of the inner harbour of Port S. Julian, the fossiliferous mass
5895
is not displayed, and the sea-cliffs from the water's edge to a height of
5896
between one and two hundred feet are formed of the white pumiceous
5897
mudstone, which here includes innumerable, far-extended, sometimes
5898
horizontal, sometimes inclined or vertical laminae of transparent gypsum,
5899
often about an inch in thickness. Further inland, with the exception of the
5900
superficial gravel, the whole thickness of the truncated hills, which
5901
represent a formerly continuous plain 950 feet in height, appears to be
5902
formed of this white mudstone: here and there, however, at various heights,
5903
thin earthy layers, containing the great oyster, Pecten Paranensis and
5904
Turritella ambulacrum, are interstratified; thus showing that the whole
5905
mass belongs to the same epoch. I nowhere found even a fragment of a shell
5906
actually in the white deposit, and only a single cast of a Turritella. Out
5907
of the eighteen microscopic organisms discovered by Ehrenberg in the
5908
specimens from this place, ten are common to the same deposit at Port
5909
Desire. I may add that specimens of this white mudstone, with the same
5910
identical characters were brought me from two points,--one twenty miles
5911
north of S. Julian, where a wide gravel-capped plain, 350 feet in height,
5912
is thus composed; and the other forty miles south of S. Julian, where, on
5913
the old charts, the cliffs are marked as "Chalk Hills."
5914

5915
SANTA CRUZ.
5916

5917
The gravel-capped cliffs at the mouth of the river are 355 feet in height:
5918
the lower part, to a thickness of fifty or sixty feet, consists of a more
5919
or less hardened, darkish, muddy, or argillaceous sandstone (like the
5920
lowest bed of Port Desire), containing very many shells, some silicified
5921
and some converted into yellow calcareous spar. The great oyster is here
5922
numerous in layers; the Trigonocelia and Turritella are also very numerous:
5923
it is remarkable that the Pecten Paranensis, so common in all other parts
5924
of the coast, is here absent: the shells consist of:--
5925

5926
1. Ostrea Patagonica, d'Orbigny; "Voyage Pal." (also at St. Fe and whole
5927
coast of Patagonia).
5928
2. Pecten centralis, G.B. Sowerby (also P. Desire and S. Julian).
5929
3. Venus meridionalis of G.B. Sowerby.
5930
4. Crassatella Lyellii, G.B. Sowerby.
5931
5. Cardium puelchum, G.B. Sowerby.
5932
6. Cardita Patagonica, G.B. Sowerby.
5933
7. Mactra rugata, G.B. Sowerby.
5934
8. Mactra Darwinii, G.B. Sowerby.
5935
9. Cucullaea alta, G.B. Sowerby (also P. Desire).
5936
10. Trigonocelia insolita, G.B. Sowerby.
5937
11. Nucula (?) glabra, G.B. Sowerby.
5938
12. Crepidula gregaria, G.B. Sowerby.
5939
13. Voluta alta, G.B. Sowerby.
5940
14. Trochus collaris, G.B. Sowerby.
5941
15. Natica solida (?), G.B. Sowerby
5942
16. Struthiolaria ornata, G.B. Sowerby (also P. Desire).
5943
17. Turritella ambulacrum, G.B. Sowerby (also P. S. Julian).
5944
    Imperfect fragments of the genera Byssoarca, Artemis, and Fusus.
5945

5946
The upper part of the cliff is generally divided into three great strata,
5947
differing slightly in composition, but essentially resembling the pumiceous
5948
mudstone of the places farther north; the deposit, however, here is more
5949
arenaceous, of greater specific gravity, and not so white: it is interlaced
5950
with numerous thin veins, partially or quite filled with transverse fibres
5951
of gypsum; these fibres were too short to reach across the vein, have their
5952
extremities curved or bent: in the same veins with the gypsum, and likewise
5953
in separate veins as well as in little nests, there is much powdery
5954
sulphate of magnesia (as ascertained by Mr. Reeks) in an uncompressed form:
5955
I believe that this salt has not heretofore been found in veins. Of the
5956
three beds, the central one is the most compact, and more like ordinary
5957
sandstone: it includes numerous flattened spherical concretions, often
5958
united like a necklace, composed of hard calcareous sandstone, containing a
5959
few shells: some of these concretions were four feet in diameter, and in a
5960
horizontal line nine feet apart, showing that the calcareous matter must
5961
have been drawn to the centres of attraction, from a distance of four feet
5962
and a half on both sides. In the upper and lower finer-grained strata,
5963
there were other concretions of a grey colour, containing calcareous
5964
matter, and so fine-grained and compact, as almost to resemble porcelain-
5965
rock: I have seen exactly similar concretions in a volcanic tufaceous bed
5966
in Chiloe. Although in this upper fine-grained strata, organic remains were
5967
very rare, yet I noticed a few of the great oyster; and in one included
5968
soft ferruginous layer, there were some specimens of the Cucullaea alta
5969
(found at Port Desire in the lower fossiliferous mass) and of the Mactra
5970
rugata, which latter shell has been partially converted into gypsum.
5971

5972
(FIGURE 18. SECTION OF THE PLAINS OF PATAGONIA, ON THE BANKS OF THE S.
5973
CRUZ.
5974

5975
(Section through strata (from top to bottom)):
5976
Surface of plain with erratic boulders; 1,146 feet above the sea.
5977
a. Gravel and boulders, 212 feet thick.
5978
b. Basaltic lava, 322 feet thick.
5979
c, d and e. Sedimentary layers, bed of small pebbles and talus
5980
respectively, total 592 feet thick.
5981
River of S. Cruz; here 280 feet above sea.)
5982

5983
In ascending the valley of the S. Cruz, the upper strata of the coast-
5984
cliffs are prolonged, with nearly the same characters, for fifty miles: at
5985
about this point, they begin in the most gradual and scarcely perceptible
5986
manner, to be banded with white lines; and after ascending ten miles
5987
farther, we meet with distinct thin layers of whitish, greenish, and
5988
yellowish fine-grained, fusible sediments. At eighty miles from the coast,
5989
in a cliff thus composed, there were a few layers of ferruginous sandstone,
5990
and of an argillaceous sandstone with concretions of marl like those in the
5991
Pampas. (At this spot, for a space of three-quarters of a mile along the
5992
north side of the river, and for a width of half a mile, there has been a
5993
great slip, which has formed hills between sixty and seventy feet in
5994
height, and has tilted the strata into highly inclined and even vertical
5995
positions. The strata generally dipped at an angle of 45 degrees towards
5996
the cliff from which they had slided. I have observed in slips, both on a
5997
small and large scale, that this inward dip is very general. Is it due to
5998
the hydrostatic pressure of water percolating with difficulty through the
5999
strata acting with greater force at the base of the mass than against the
6000
upper part?) At one hundred miles from the coast, that is at a central
6001
point between the Atlantic and the Cordillera, we have the section in
6002
Figure 18.
6003

6004
The upper half of the sedimentary mass, under the basaltic lava, consists
6005
of innumerable zones of perfectly white bright green, yellowish and
6006
brownish, fine-grained, sometimes incoherent, sedimentary matter. The
6007
white, pumiceous, trachytic tuff-like varieties are of rather greater
6008
specific gravity than the pumiceous mudstone on the coast to the north;
6009
some of the layers, especially the browner ones, are coarser, so that the
6010
broken crystals are distinguishable with a weak lens. The layers vary in
6011
character in short distances. With the exception of a few of the Ostrea
6012
Patagonica, which appeared to have rolled down from the cliff above, no
6013
organic remains were found. The chief difference between these layers taken
6014
as a whole, and the upper beds both at the mouth of the river and on the
6015
coast northward, seems to lie in the occasional presence of more colouring
6016
matter, and in the supply having been intermittent; these characters, as we
6017
have seen, very gradually disappear in descending the valley, and this fact
6018
may perhaps be accounted for by the currents of a more open sea having
6019
blended together the sediment from a distant and intermittent source.
6020

6021
The coloured layers in the foregoing section rest on a mass, apparently of
6022
great thickness (but much hidden by the talus), of soft sandstone, almost
6023
composed of minute pebbles, from one-tenth to two-tenths of an inch in
6024
diameter, of the rocks (with the entire exception of the basaltic lava)
6025
composing the great boulders on the surface of the plain, and probably
6026
composing the neighbouring Cordillera. Five miles higher up the valley, and
6027
again thirty miles higher up (that is twenty miles from the nearest range
6028
of the Cordillera), the lower plain included within the upper escarpments,
6029
is formed, as seen on the banks of the river, of a nearly similar but
6030
finer-grained, more earthy, laminated sandstone, alternating with
6031
argillaceous beds, and containing numerous moderately sized pebbles of the
6032
same rocks, and some shells of the great Ostrea Patagonica. (I found at
6033
both places, but not in situ, quantities of coniferous and ordinary
6034
dicotyledonous silicified wood, which was examined for me by Mr. R. Brown.)
6035
As most of these shells had been rolled before being here embedded, their
6036
presence does not prove that the sandstone belongs to the great Patagonian
6037
tertiary formation, for they might have been redeposited in it, when the
6038
valley existed as a sea-strait; but as amongst the pebbles there were none
6039
of basalt, although the cliffs on both sides of the valley are composed of
6040
this rock, I believe that the sandstone does belong to this formation. At
6041
the highest point to which we ascended, twenty miles distant from the
6042
nearest slope of the Cordillera, I could see the horizontally zoned white
6043
beds, stretching under the black basaltic lava, close up to the mountains;
6044
so that the valley of the S. Cruz gives a fair idea of the constitution of
6045
the whole width of Patagonia.
6046

6047
BASALTIC LAVA OF THE S. CRUZ.
6048

6049
This formation is first met with sixty-seven miles from the mouth of the
6050
river; thence it extends uninterruptedly, generally but not exclusively on
6051
the northern side of the valley, close up to the Cordillera. The basalt is
6052
generally black and fine-grained, but sometimes grey and laminated; it
6053
contains some olivine, and high up the valley much glassy feldspar, where,
6054
also, it is often amygdaloidal; it is never highly vesicular, except on the
6055
sides of rents and on the upper and lower, spherically laminated surfaces.
6056
It is often columnar; and in one place I saw magnificent columns, each face
6057
twelve feet in width, with their interstices filled up with calcareous
6058
tuff. The streams rest conformably on the white sedimentary beds, but I
6059
nowhere saw the actual junction; nor did I anywhere see the white beds
6060
actually superimposed on the lava; but some way up the valley at the foot
6061
of the uppermost escarpments, they must be thus superimposed. Moreover, at
6062
the lowest point down the valley, where the streams thin out and terminate
6063
in irregular projections, the spaces or intervals between these projections
6064
are filled up to the level of the now denuded and gravel-capped surfaces of
6065
the plains, with the white-zoned sedimentary beds; proving that this matter
6066
continued to be deposited after the streams had flowed. Hence we may
6067
conclude that the basalt is contemporaneous with the upper parts of the
6068
great tertiary formation.
6069

6070
The lava where first met with is 130 feet in thickness: it there consists
6071
of two, three, or perhaps more streams, divided from each other by
6072
vesicular spheroids like those on the surface. From the streams having, as
6073
it appears, extended to different distances, the terminal points are of
6074
unequal heights. Generally the surface of the basalt is smooth them in one
6075
part high up the valley, it was so uneven and hummocky, that until I
6076
afterwards saw the streams extending continuously on both sides of the
6077
valley up to a height of about three thousand feet close to the Cordillera,
6078
I thought that the craters of eruption were probably close at hand. This
6079
hummocky surface I believe to have been caused by the crossing and heaping
6080
up of different streams. In one place, there were several rounded ridges
6081
about twenty feet in height, some of them as broad as high, and some
6082
broader, which certainly had been formed whilst the lava was fluid, for in
6083
transverse sections each ridge was seen to be concentrically laminated, and
6084
to be composed of imperfect columns radiating from common centres, like the
6085
spokes of wheels.
6086

6087
The basaltic mass where first met with is, as I have said, 130 feet in
6088
thickness, and, thirty-five miles higher up the valley, it increases to 322
6089
feet. In the first fourteen and a half miles of this distance, the upper
6090
surface of the lava, judging from three measurements taken above the level
6091
of the river (of which the apparently very uniform inclination has been
6092
calculated from its total height at a point 135 miles from the mouth),
6093
slopes towards the Atlantic at an angle of only 0 degrees 7 minutes twenty
6094
seconds: this must be considered only as an approximate measurement, but it
6095
cannot be far wrong. Taking the whole thirty-five miles, the upper surface
6096
slopes at an angle of 0 degrees 10 minutes 53 seconds; but this result is
6097
of no value in showing the inclination of any one stream, for halfway
6098
between the two points of measurement, the surface suddenly rises between
6099
one hundred and two hundred feet, apparently caused by some of the
6100
uppermost streams having extended thus far and no farther. From the
6101
measurement made at these two points, thirty-five miles apart, the mean
6102
inclination of the sedimentary beds, over which the lava has flowed, is NOW
6103
(after elevation from under the sea) only 0 degrees 7 minutes 52 seconds:
6104
for the sake of comparison, it may be mentioned that the bottom of the
6105
present sea in a line from the mouth of the S. Cruz to the Falkland
6106
Islands, from a depth of seventeen fathoms to a depth of eighty-five
6107
fathoms, declines at an angle of 0 degrees 1 minute 22 seconds; between the
6108
beach and the depth of seventeen fathoms, the slope is greater. From a
6109
point about half-way up the valley, the basaltic mass rises more abruptly
6110
towards the foot of the Cordillera, namely, from a height of 1,204 feet, to
6111
about 3,000 feet above the sea.
6112

6113
This great deluge of lava is worthy, in its dimensions, of the great
6114
continent to which it belongs. The aggregate streams have flowed from the
6115
Cordillera to a distance (unparalleled, I believe, in any case yet known)
6116
of about one hundred geographical miles. Near their furthest extremity
6117
their total thickness is 130 feet, which increase thirty-five miles farther
6118
inland, as we have just seen, to 322 feet. The least inclination given by
6119
M. E. de Beaumont of the upper surface of a lava-stream, namely 0 degrees
6120
30 minutes, is that of the great subaerial eruption in 1783 from Skaptar
6121
Jukul in Iceland; and M. E. de Beaumont shows that it must have flowed down
6122
a mean inclination of less than 0 degrees 20 minutes. ("Memoires pour
6123
servir" etc. pages 178 and 217.) But we now see that under the pressure of
6124
the sea, successive streams have flowed over a smooth bottom with a mean
6125
inclination of not more than 0 degrees 7 minutes 52 seconds; and that the
6126
upper surface of the terminal portion (over a space of fourteen and a half
6127
miles) has an inclination of not more than 0 degrees 7 minutes 20 seconds.
6128
If the elevation of Patagonia has been greater nearer the Cordillera than
6129
near the Atlantic (as is probable), then these angles are now all too
6130
large. I must repeat, that although the foregoing measurements, which were
6131
all carefully taken with the barometer, may not be absolutely correct, they
6132
cannot be widely erroneous.
6133

6134
Southward of the S. Cruz, the cliffs of the 840 feet plain extend to Coy
6135
Inlet, and owing to the naked patches of the white sediment, they are said
6136
on the charts to be "like the coast of Kent." At Coy Inlet the high plain
6137
trends inland, leaving flat-topped outliers. At Port Gallegos (latitude 51
6138
degrees 35 minutes, and ninety miles south of S. Cruz), I am informed by
6139
Captain Sulivan, R.N., that there is a gravel-capped plain from two to
6140
three hundred feet in height, formed of numerous strata, some fine-grained
6141
and pale-coloured, like the upper beds at the mouth of the S. Cruz, others
6142
rather dark and coarser, so as to resemble gritstones or tuffs; these
6143
latter include rather large fragments of apparently decomposed volcanic
6144
rocks; there are, also, included layers of gravel. This formation is highly
6145
remarkable, from abounding with mammiferous remains, which have not as yet
6146
been examined by Professor Owen, but which include some large, but mostly
6147
small, species of Pachydermata, Edentata, and Rodentia. From the appearance
6148
of the pale-coloured, fine-grained beds, I was inclined to believe that
6149
they corresponded with the upper beds of the S. Cruz; but Professor
6150
Ehrenberg, who has examined some of the specimens, informs me that the
6151
included microscopical organisms are wholly different, being fresh and
6152
brackish-water forms. Hence the two to three hundred feet plain at Port
6153
Gallegos is of unknown age, but probably of subsequent origin to the great
6154
Patagonian tertiary formation.
6155

6156
EASTERN TIERRA DEL FUEGO.
6157

6158
Judging from the height, the general appearance, and the white colour of
6159
the patches visible on the hill sides, the uppermost plain, both on the
6160
north and western side of the Strait of Magellan, and along the eastern
6161
coast of Tierra del Fuego as far south as near Port St. Polycarp, probably
6162
belongs to the great Patagonian tertiary formation, These higher table-
6163
ranges are fringed by low, irregular, extensive plains, belonging to the
6164
boulder formation (Described in the "Geological Transactions" volume 6 page
6165
415.), and composed of coarse unstratified masses, sometimes associated (as
6166
north of C. Virgin's) with fine, laminated, muddy sandstones. The cliffs in
6167
Sebastian Bay are 200 feet in height, and are composed of fine sandstones,
6168
often in curvilinear layers, including hard concretions of calcareous
6169
sandstone, and layers of gravel. In these beds there are fragments of wood,
6170
legs of crabs, barnacles encrusted with corallines still partially
6171
retaining their colour, imperfect fragments of a Pholas distinct from any
6172
known species, and of a Venus, approaching very closely to, but slightly
6173
different in form from, the V. lenticularis, a species living on the coast
6174
of Chile. Leaves of trees are numerous between the laminae of the muddy
6175
sandstone; they belong, as I am informed by Dr. J.D. Hooker, to three
6176
species of deciduous beech, different from the two species which compose
6177
the great proportion of trees in this forest-clad land. ("Botany of the
6178
Antarctic Voyage" page 212.) From these facts it is difficult to
6179
conjecture, whether we here see the basal part of the great Patagonian
6180
formation, or some later deposit.
6181

6182
SUMMARY ON THE PATAGONIAN TERTIARY FORMATION.
6183

6184
Four out of the seven fossil shells, from St. Fe in Entre Rios, were found
6185
by M. d'Orbigny in the sandstone of the Rio Negro, and by me at San Josef.
6186
Three out of the six from San Josef are identical with those from Port
6187
Desire and S. Julian, which two places have together fifteen species, out
6188
of which three are common to both. Santa Cruz has seventeen species, out of
6189
which five are common to Port Desire and S. Julian. Considering the
6190
difference in latitude between these several places, and the small number
6191
of species altogether collected, namely thirty-six, I conceive the above
6192
proportional number of species in common, is sufficient to show that the
6193
lower fossiliferous mass belongs nearly, I do not say absolutely, to the
6194
same epoch. What this epoch may be, compared with the European tertiary
6195
stages, M. d'Orbigny will not pretend to determine. The thirty-six species
6196
(including those collected by myself and by M. d'Orbigny) are all extinct,
6197
or at least unknown; but it should be borne in mind, that the present coast
6198
consists of shingle, and that no one, I believe, has dredged here for
6199
shells; hence it is not improbable that some of the species may hereafter
6200
be found living. Some few of the species are closely related with existing
6201
ones; this is especially the case, according to M. d'Orbigny and Mr.
6202
Sowerby, with the Fusus Patagonicus; and, according to Mr. Sowerby, with
6203
the Pyrula, the Venus meridionalis, the Crepidula gregaria, and the
6204
Turritella ambulacrum, and T. Patagonica. At least three of the genera,
6205
namely, Cucullaea, Crassatella, and (as determined by Mr. Sowerby)
6206
Struthiolaria, are not found in this quarter of the world; and Trigonocelia
6207
is extinct. The evidence taken altogether indicates that this great
6208
tertiary formation is of considerable antiquity; but when treating of the
6209
Chilean beds, I shall have to refer again to this subject.
6210

6211
The white pumiceous mudstone, with its abundant gypsum, belongs to the same
6212
general epoch with the underlying fossiliferous mass, as may be inferred
6213
from the shells included in the intercalated layers at Nuevo Gulf, S.
6214
Julian, and S. Cruz. Out of the twenty-seven marine microscopic structures
6215
found by Professor Ehrenberg in the specimens from S. Julian and Port
6216
Desire, ten are common to these two places: the three found at Nuevo Gulf
6217
are distinct. I have minutely described this deposit, from its remarkable
6218
characters and its wide extension. From Coy Inlet to Port Desire, a
6219
distance of 230 miles, it is certainly continuous; and I have reason to
6220
believe that it likewise extends to the Rio Chupat, Nuevo Gulf, and San
6221
Josef, a distance of 570 miles: we have, also, seen that a single layer
6222
occurs at the Rio Negro. At Port S. Julian it is from eight to nine hundred
6223
feet in thickness; and at S. Cruz it extends, with a slightly altered
6224
character, up to the Cordillera. From its microscopic structure, and from
6225
its analogy with other formations in volcanic districts, it must be
6226
considered as originally of volcanic origin: it may have been formed by the
6227
long-continued attrition of vast quantities of pumice, or judging from the
6228
manner in which the mass becomes, in ascending the valley of S. Cruz,
6229
divided into variously coloured layers, from the long-continued eruption of
6230
clouds of fine ashes. In either case, we must conclude, that the southern
6231
volcanic orifices of the Cordillera, now in a dormant state, were at about
6232
this period over a wide space, and for a great length of time, in action.
6233
We have evidence of this fact, in the latitude of the Rio Negro, in the
6234
sandstone-conglomerate with pumice, and demonstrative proof of it, at S.
6235
Cruz, in the vast deluges of basaltic lava: at this same tertiary period,
6236
also, there is distinct evidence of volcanic action in Western Banda
6237
Oriental.
6238

6239
The Patagonian tertiary formation extends continuously, judging from
6240
fossils alone, from S. Cruz to near the Rio Colorado, a distance of above
6241
six hundred miles, and reappears over a wide area in Entre Rios and Banda
6242
Oriental, making a total distance of 1,100 miles; but this formation
6243
undoubtedly extends (though no fossils were collected) far south of the S.
6244
Cruz, and, according to M. d'Orbigny, 120 miles north of St. Fe. At S. Cruz
6245
we have seen that it extends across the continent; being on the coast about
6246
eight hundred feet in thickness (and rather more at S. Julian), and rising
6247
with the contemporaneous lava-streams to a height of about three thousand
6248
feet at the base of the Cordillera. It rests, wherever any underlying
6249
formation can be seen, on plutonic and metamorphic rocks. Including the
6250
newer Pampean deposit, and those strata in Eastern Tierra del Fuego of
6251
doubtful age, as well as the boulder formation, we have a line of more than
6252
twenty-seven degrees of latitude, equal to that from the Straits of
6253
Gibraltar to the south of Iceland, continuously composed of tertiary
6254
formations. Throughout this great space the land has been upraised, without
6255
the strata having been in a single instance, as far as my means of
6256
observation went, unequally tilted or dislocated by a fault.
6257

6258
TERTIARY FORMATIONS ON THE WEST COAST.
6259

6260
CHONOS ARCHIPELAGO.
6261

6262
The numerous islands of this group, with the exception of Lemus, Ypun,
6263
consist of metamorphic schists; these two islands are formed of softish
6264
grey and brown, fusible, often laminated sandstones, containing a few
6265
pebbles, fragments of black lignite, and numerous mammillated concretions
6266
of hard calcareous sandstone. Out of these concretions at Ypun (latitude 40
6267
degrees 30 minutes S.), I extracted the four following extinct species of
6268
shells:--
6269

6270
1. Turritella suturalis, G.B. Sowerby (also Navidad).
6271
2. Sigaretus subglobosus, G.B. Sowerby (also Navidad).
6272
3. Cytheraea (?) sulculosa (?), G.B. Sowerby (also Chiloe and Huafo?).
6273
4. Voluta, fragments of.
6274

6275
In the northern parts of this group there are some cliffs of gravel and of
6276
the boulder formation. In the southern part (at P. Andres in Tres Montes),
6277
there is a volcanic formation, probably of tertiary origin. The lavas
6278
attain a thickness of from two to three hundred feet; they are extremely
6279
variable in colour and nature, being compact, or brecciated, or cellular,
6280
or amygdaloidal with zeolite, agate and bole, or porphyritic with glassy
6281
albitic feldspar. There is also much imperfect rubbly pitchstone, with the
6282
interstices charged with powdery carbonate of lime apparently of
6283
contemporaneous origin. These lavas are conformably associated with strata
6284
of breccia and of brown tuff containing lignite. The whole mass has been
6285
broken up and tilted at an angle of 45 degrees, by a series of great
6286
volcanic dikes, one of which was thirty yards in breadth. This volcanic
6287
formation resembles one, presently to be described, in Chiloe.
6288

6289
HUAFO.
6290

6291
This island lies between the Chonos and Chiloe groups: it is about eight
6292
hundred feet high, and perhaps has a nucleus of metamorphic rocks. The
6293
strata which I examined consisted of fine-grained muddy sandstones, with
6294
fragments of lignite and concretions of calcareous sandstone. I collected
6295
the following extinct shells, of which the Turritella was in great
6296
numbers:--
6297

6298
1. Bulla cosmophila, G.B. Sowerby.
6299
2. Pleurotoma subaequalis, G.B. Sowerby.
6300
3. Fusus cleryanus, d'Orbigny, "Voyage Pal." (also at Coquimbo).
6301
4. Triton leucostomoides, G.B. Sowerby.
6302
5. Turritella Chilensis, G.B. Sowerby (also Mocha).
6303
6. Venus, probably a distinct species, but very imperfect.
6304
7. Cytheraea (?) sulculosa (?), probably a distinct species, but very
6305
imperfect.
6306
8. Dentalium majus, G.B. Sowerby.
6307

6308
CHILOE.
6309

6310
This fine island is about one hundred miles in length. The entire southern
6311
part, and the whole western coast, consists of mica-schist, which likewise
6312
is seen in the ravines of the interior. The central mountains rise to a
6313
height of 3,000 feet, and are said to be partly formed of granite and
6314
greenstone: there are two small volcanic districts. The eastern coast, and
6315
large parts of the northern extremity of the island are composed of gravel,
6316
the boulder formation, and underlying horizontal strata. The latter are
6317
well displayed for twenty miles north and south of Castro; they vary in
6318
character from common sandstone to fine-grained, laminated mudstones: all
6319
the specimens which I examined are easily fusible, and some of the beds
6320
might be called volcanic grit-stones. These latter strata are perhaps
6321
related to a mass of columnar trachyte which occurs behind Castro. The
6322
sandstone occasionally includes pebbles, and many fragments and layers of
6323
lignite; of the latter, some are apparently formed of wood and others of
6324
leaves: one layer on the N.W. side of Lemuy is nearly two feet in
6325
thickness. There is also much silicified wood, both common dicotyledonous
6326
and coniferous: a section of one specimen in the direction of the medullary
6327
rays has, as I am informed by Mr. R. Brown, the discs in a double row
6328
placed alternately, and not opposite as in the true Araucaria. I found
6329
marine remains only in one spot, in some concretions of hard calcareous
6330
sandstone: in several other districts I have observed that organic remains
6331
were exclusively confined to such concretions; are we to account for this
6332
fact, by the supposition that the shells lived only at these points, or is
6333
it not more probable that their remains were preserved only where
6334
concretions were formed? The shells here are in a bad state, they consist
6335
of:--
6336

6337
1. Tellinides (?) oblonga, G.B. Sowerby (a solenella in M. d'Orbigny's
6338
opinion).
6339
2. Natica striolata, G.B. Sowerby.
6340
3. Natica (?) pumila, G.B. Sowerby.
6341
4. Cytheraea (?) sulculosa, G.B. Sowerby (also Ypun and Huafo?).
6342

6343
At the northern extremity of the island, near S. Carlos, there is a large
6344
volcanic formation, between five and seven hundred feet in thickness. The
6345
commonest lava is blackish-grey or brown, either vesicular, or amygdaloidal
6346
with calcareous spar and bole: most even of the darkest varieties fuse into
6347
a pale-coloured glass. The next commonest variety is a rubbly, rarely well
6348
characterised pitchstone (fusing into a white glass) which passes in the
6349
most irregular manner into stony grey lavas. This pitchstone, as well as
6350
some purple claystone porphyry, certainly flowed in the form of streams.
6351
These various lavas often pass, at a considerable depth from the surface,
6352
in the most abrupt and singular manner into wacke. Great masses of the
6353
solid rock are brecciated, and it was generally impossible to discover
6354
whether the recementing process had been an igneous or aqueous action. (In
6355
a cliff of the hardest fragmentary mass, I found several tortuous, vertical
6356
veins, varying in thickness from a few tenths of an inch to one inch and a
6357
half, of a substance which I have not seen described. It is glossy, and of
6358
a brown colour; it is thinly laminated, with the laminae transparent and
6359
elastic; it is a little harder than calcareous spar; it is infusible under
6360
the blowpipe, sometimes decrepitates, gives out water, curls up, blackens,
6361
and becomes magnetic. Borax easily dissolves a considerable quantity of it,
6362
and gives a glass tinged with green. I have no idea what its true nature
6363
is. On first seeing it, I mistook it for lignite!) The beds are obscurely
6364
separated from each other; they are sometimes parted by seams of tuff and
6365
layers of pebbles. In one place they rested on, and in another place were
6366
capped by, tuffs and girt-stones, apparently of submarine origin.
6367

6368
The neighbouring peninsula of Lacuy is almost wholly formed of tufaceous
6369
deposits, connected probably in their origin with the volcanic hills just
6370
described. The tuffs are pale-coloured, alternating with laminated
6371
mudstones and sandstones (all easily fusible), and passing sometimes into
6372
fine-grained white beds strikingly resembling the great upper infusorial
6373
deposit of Patagonia, and sometimes into brecciolas with pieces of pumice
6374
in the last stage of decay; these again pass into ordinary coarse breccias
6375
and conglomerates of hard rocks. Within very short distances, some of the
6376
finer tuffs often passed into each other in a peculiar manner, namely, by
6377
irregular polygonal concretions of one variety increasing so much and so
6378
suddenly in size, that the second variety, instead of any longer forming
6379
the entire mass, was left merely in thin veins between the concretions. In
6380
a straight line of cliffs, at Point Tenuy, I examined the following
6381
remarkable section (Figure 19):--
6382

6383
(FIGURE 19.)
6384

6385
On the left hand, the lower part (AA) consists of regular, alternating
6386
strata of brown tuffs and greenish laminated mudstone, gently inclined to
6387
the right, and conformably covered by a mass (B left) of a white, tufaceous
6388
and brecciolated deposit. On the right hand, the whole cliff (BB right)
6389
consists of the same white tufaceous matter, which on this side presents
6390
scarcely a trace of stratification, but to the left becomes very gradually
6391
and rather indistinctly divided into strata quite conformable with the
6392
underlying beds (AA): moreover, a few hundred yards further to the left,
6393
where the surface has been less denuded, the tufaceous strata (B left) are
6394
conformably covered by another set of strata, like the underlying ones (AA)
6395
of this section. In the middle of the diagram, the beds (AA) are seen to be
6396
abruptly cut off, and to abut against the tufaceous non-stratified mass;
6397
but the line of junction has been accidentally not represented steep
6398
enough, for I particularly noticed that before the beds had been tilted to
6399
the right, this line must have been nearly vertical. It appears that a
6400
current of water cut for itself a deep and steep submarine channel, and at
6401
the same time or afterwards filled it up with the tufaceous and
6402
brecciolated matter, and spread the same over the surrounding submarine
6403
beds; the matter becoming stratified in these more distant and less
6404
troubled parts, and being moreover subsequently covered up by other strata
6405
(like AA) not shown in the diagram. It is singular that three of the beds
6406
(of AA) are prolonged in their proper direction, as represented, beyond the
6407
line of junction into the white tufaceous matter: the prolonged portions of
6408
two of the beds are rounded; in the third, the terminal fragment has been
6409
pushed upwards: how these beds could have been left thus prolonged, I will
6410
not pretend to explain. In another section on the opposite side of a
6411
promontory, there was at the foot of this same line of junction, that is at
6412
the bottom of the old submarine channel, a pile of fragments of the strata
6413
(AA), with their interstices filled up with white tufaceous matter: this is
6414
exactly what might have been anticipated under such circumstances.
6415

6416
(FIGURE 20. GROUND PLAN SHOWING THE RELATION BETWEEN VEINS AND
6417
CONCRETIONARY ZONES IN A MASS OF TUFF.)
6418

6419
The various tufaceous and other beds at this northern end of Chiloe
6420
probably belong to about the same age with those near Castro, and they
6421
contain, as there, many fragments of black lignite and of silicified and
6422
pyritous wood, often embedded close together. They also contain many and
6423
singular concretions: some are of hard calcareous sandstone, in which it
6424
would appear that broken volcanic crystals and scales of mica have been
6425
better preserved (as in the case of the organic remains near Castro) than
6426
in the surrounding mass. Other concretions in the white brecciola are of a
6427
hard, ferruginous, yet fusible, nature; they are as round as cannon-balls,
6428
and vary from two or three inches to two feet in diameter; their insides
6429
generally consist either of fine, scarcely coherent volcanic sand (The
6430
frequent tendency in iron to form hollow concretions or shell containing
6431
incoherent matter is singular; D'Aubuisson ("Traite de Geogn." tome 1 page
6432
318) remarks on this circumstance.), or of an argillaceous tuff; in this
6433
latter case, the external crust was quite thin and hard. Some of these
6434
spherical balls were encircled in the line of their equators, by a
6435
necklace-like row of smaller concretions. Again there were other
6436
concretions, irregularly formed, and composed of a hard, compact, ash-
6437
coloured stone, with an almost porcelainous fracture, adhesive to the
6438
tongue, and without any calcareous matter. These beds are, also, interlaced
6439
by many veins, containing gypsum, ferruginous matter, calcareous spar, and
6440
agate. It was here seen with remarkable distinctness, how intimately
6441
concretionary action and the production of fissures and veins are related
6442
together. Figure 20 is an accurate representation of a horizontal space of
6443
tuff, about four feet long by two and a half in width: the double lines
6444
represent the fissures partially filled with oxide of iron and agate: the
6445
curvilinear lines show the course of the innumerable, concentric,
6446
concretionary zones of different shades of colour and of coarseness in the
6447
particles of tuff. The symmetry and complexity of the arrangement gave the
6448
surface an elegant appearance. It may be seen how obviously the fissures
6449
determine (or have been determined by) the shape, sometimes of the whole
6450
concretion, and sometimes only of its central parts. The fissures also
6451
determine the curvatures of the long undulating zones of concretionary
6452
action. From the varying composition of the veins and concretions, the
6453
amount of chemical action which the mass has undergone is surprisingly
6454
great; and it would likewise appear from the difference in size in the
6455
particles of the concretionary zones, that the mass, also, has been
6456
subjected to internal mechanical movements.
6457

6458
In the peninsula of Lacuy, the strata over a width of four miles have been
6459
upheaved by three distinct, and some other indistinct, lines of elevation,
6460
ranging within a point of north and south. One line, about two hundred feet
6461
in height, is regularly anticlinal, with the strata dipping away on both
6462
sides, at an angle of 15 degrees, from a central "valley of elevation,"
6463
about three hundred yards in width. A second narrow steep ridge, only sixty
6464
feet high, is uniclinal, the strata throughout dipping westward; those on
6465
both flanks being inclined at an angle of from ten to fifteen degrees;
6466
whilst those on the ridge dip in the same direction at an angle of between
6467
thirty and forty degrees. This ridge, traced northwards, dies away; and the
6468
beds at its terminal point, instead of dipping westward, are inclined 12
6469
degrees to the north. This case interested me, as being the first in which
6470
I found in South America, formations perhaps of tertiary origin, broken by
6471
lines of elevation.
6472

6473
VALDIVIA: ISLAND OF MOCHA.
6474

6475
The formations of Chiloe seem to extend with nearly the same character to
6476
Valdivia, and for some leagues northward of it: the underlying rocks are
6477
micaceous schists, and are covered up with sandstone and other sedimentary
6478
beds, including, as I was assured, in many places layers of lignite. I did
6479
not land on Mocha (latitude 38 degrees 20 minutes), but Mr. Stokes brought
6480
me specimens of the grey, fine-grained, slightly calcareous sandstone,
6481
precisely like that of Huafo, containing lignite and numerous Turritellae.
6482
The island is flat topped, 1,240 feet in height, and appears like an
6483
outlier of the sedimentary beds on the mainland. The few shells collected
6484
consist of:--
6485

6486
1. Turritella Chilensis, G.B. Sowerby (also at Huafo).
6487
2. Fusus, very imperfect, somewhat resembling F. subreflexus of Navidad,
6488
but probably different.
6489
3. Venus, fragments of.
6490

6491
CONCEPCION.
6492

6493
Sailing northward from Valdivia, the coast-cliffs are seen, first to assume
6494
near the R. Tolten, and thence for 150 miles northward, to be continued
6495
with the same mineralogical characters, immediately to be described at
6496
Concepcion. I heard in many places of beds of lignite, some of it fine and
6497
glossy, and likewise of silicified wood; near the Tolten the cliffs are
6498
low, but they soon rise in height; and the horizontal strata are prolonged,
6499
with a nearly level surface, until coming to a more lofty tract between
6500
points Rumena and Lavapie. Here the beds have been broken up by at least
6501
eight or nine parallel lines of elevation, ranging E. or E.N.E. and W. or
6502
W.S.W. These lines can be followed with the eye many miles into the
6503
interior; they are all uniclinal, the strata in each dipping to a point
6504
between S. and S.S.E. with an inclination in the central lines of about
6505
forty degrees, and in the outer ones of under twenty degrees. This band of
6506
symmetrically troubled country is about eight miles in width.
6507

6508
The island of Quiriquina, in the Bay of Concepcion, is formed of various
6509
soft and often ferruginous sandstones, with bands of pebbles, and with the
6510
lower strata sometimes passing into a conglomerate resting on the
6511
underlying metamorphic schists. These beds include subordinate layers of
6512
greenish impure clay, soft micaceous and calcareous sandstones, and reddish
6513
friable earthy matter with white specks like decomposed crystals of
6514
feldspar; they include, also, hard concretions, fragments of shells,
6515
lignite, and silicified wood. In the upper part they pass into white, soft
6516
sediments and brecciolas, very like those described at Chiloe; as indeed is
6517
the whole formation. At Lirguen and other places on the eastern side of the
6518
bay, there are good sections of the lower sandstones, which are generally
6519
ferruginous, but which vary in character, and even pass into an
6520
argillaceous nature; they contain hard concretions, fragments of lignite,
6521
silicified wood, and pebbles (of the same rocks with the pebbles in the
6522
sandstones of Quiriquina), and they alternate with numerous, often very
6523
thin layers of imperfect coal, generally of little specific gravity. The
6524
main bed here is three feet thick; and only the coal of this one bed has a
6525
glossy fracture. Another irregular, curvilinear bed of brown, compact
6526
lignite, is remarkable for being included in a mass of coarse gravel. These
6527
imperfect coals, when placed in a heap, ignite spontaneously. The cliffs on
6528
this side of the bay, as well as on the island of Quiriquina, are capped
6529
with red friable earth, which, as stated in the Second Chapter, is of
6530
recent formation. The stratification in this neighbourhood is generally
6531
horizontal; but near Lirguen the beds dip N.W. at an angle of 23 degrees;
6532
near Concepcion they are also inclined: at the northern end of Quiriquina
6533
they have been tilted at an angle of 30 degrees, and at the southern end at
6534
angles varying from 15 degrees to 40 degrees: these dislocations must have
6535
taken place under the sea.
6536

6537
A collection of shells, from the island of Quiriquina, has been described
6538
by M. d'Orbigny: they are all extinct, and from their generic character, M.
6539
d'Orbigny inferred that they were of tertiary origin: they consist of:--
6540

6541
1. Scalaria Chilensis, d'Orbigny, "Voyage, Part Pal."
6542
2. Natica Araucana, d'Orbigny, "Voyage, Part Pal."
6543
3. Natica australis, d'Orbigny, "Voyage, Part Pal."
6544
4. Fusus difficilis, d'Orbigny, "Voyage, Part Pal."
6545
5. Pyrula longirostra, d'Orbigny, "Voyage, Part Pal."
6546
6. Pleurotoma Araucana, d'Orbigny, "Voyage, Part Pal."
6547
7. Cardium auca, d'Orbigny, "Voyage, Part Pal."
6548
8. Cardium acuticostatum, d'Orbigny, "Voyage, Part Pal."
6549
9. Venus auca, d'Orbigny, "Voyage, Part Pal."
6550
10. Mactra cecileana, d'Orbigny, "Voyage, Part Pal."
6551
11. Mactra Araucana, d'Orbigny, "Voyage, Part Pal."
6552
12. Arca Araucana, d'Orbigny, "Voyage, Part Pal."
6553
13. Nucula Largillierti, d'Orbigny, "Voyage, Part Pal."
6554
14. Trigonia Hanetiana, d'Orbigny, "Voyage, Part Pal."
6555

6556
During a second visit of the "Beagle" to Concepcion, Mr. Kent collected for
6557
me some silicified wood and shells out of the concretions in the sandstone
6558
from Tome, situated a short distance north of Lirguen. They consist of:--
6559

6560
1. Natica australis, d'Orbigny, "Voyage, Part Pal."
6561
2. Mactra Araucana, d'Orbigny, "Voyage, Part Pal."
6562
3. Trigonia Hanetiana, d'Orbigny, "Voyage, Part Pal."
6563
4. Pecten, fragments of, probably two species, but too imperfect for
6564
description.
6565
5. Baculites vagina, E. Forbes.
6566
6. Nautilus d'Orbignyanus, E. Forbes.
6567

6568
Besides these shells, Captain Belcher found here an Ammonite, nearly three
6569
feet in diameter, and so heavy that he could not bring it away; fragments
6570
are deposited at Haslar Hospital: he also found the silicified vertebrae of
6571
some very large animal. ("Zoology of Captain Beechey's Voyage" page 163.)
6572
From the identity in mineralogical nature of the rocks, and from Captain
6573
Belcher's minute description of the coast between Lirguen and Tome, the
6574
fossiliferous concretions at this latter place certainly belong to the same
6575
formation with the beds examined by myself at Lirguen; and these again are
6576
undoubtedly the same with the strata of Quiriquina; moreover; the three
6577
first of the shells from Tome, though associated in the same concretions
6578
with the Baculite, are identical with the species from Quiriquina. Hence
6579
all the sandstone and lignitiferous beds in this neighbourhood certainly
6580
belong to the same formation. Although the generic character of the
6581
Quiriquina fossils naturally led M. d'Orbigny to conceive that they were of
6582
tertiary origin, yet as we now find them associated with the Baculites
6583
vagina and with an Ammonite, we must, in the opinion of M. d'Orbigny, and
6584
if we are guided by the analogy of the northern hemisphere, rank them in
6585
the Cretaceous system. Moreover, the Baculites vagina, which is in a
6586
tolerable state of preservation, appears to Professor E. Forbes certainly
6587
to be identical with a species, so named by him, from Pondicherry in India;
6588
where it is associated with numerous decidedly cretaceous species, which
6589
approach most nearly to Lower Greensand or Neocomian forms: this fact,
6590
considering the vast distance between Chile and India, is truly surprising.
6591
Again, the Nautilus d'Orbignyanus, as far as its imperfect state allows of
6592
comparison, resembles, as I am informed by Professor Forbes, both in its
6593
general form and in that of its chambers, two species from the Upper
6594
Greensand. It may be added that every one of the above-named genera from
6595
Quiriquina, which have an apparently tertiary character, are found in the
6596
Pondicherry strata. There are, however, some difficulties on this view of
6597
the formations at Concepcion being cretaceous, which I shall afterwards
6598
allude to; and I will here only state that the Cardium auca is found also
6599
at Coquimbo, the beds at which place, there can be no doubt, are tertiary.
6600

6601
NAVIDAD. (I was guided to this locality by the Report on M. Gay's
6602
"Geological Researches" in the "Annales des Scienc. Nat." 1st series tome
6603
28.)
6604

6605
The Concepcion formation extends some distance northward, but how far I
6606
know not; for the next point at which I landed was at Navidad, 160 miles
6607
north of Concepcion, and 60 miles south of Valparaiso. The cliffs here are
6608
about eight hundred feet in height: they consist, wherever I could examine
6609
them, of fine-grained, yellowish, earthy sandstones, with ferruginous
6610
veins, and with concretions of hard calcareous sandstone. In one part,
6611
there were many pebbles of the common metamorphic porphyries of the
6612
Cordillera: and near the base of the cliff, I observed a single rounded
6613
boulder of greenstone, nearly a yard in diameter. I traced this sandstone
6614
formation beneath the superficial covering of gravel, for some distance
6615
inland: the strata are slightly inclined from the sea towards the
6616
Cordillera, which apparently has been caused by their having been
6617
accumulated against or round outlying masses of granite, of which some
6618
points project near the coast. The sandstone contains fragments of wood,
6619
either in the state of lignite or partially silicified, sharks' teeth, and
6620
shells in great abundance, both high up and low down the sea-cliffs.
6621
Pectunculus and Oliva were most numerous in individuals, and next to them
6622
Turritella and Fusus. I collected in a short time, though suffering from
6623
illness, the following thirty-one species, all of which are extinct, and
6624
several of the genera do not now range (as we shall hereafter show) nearly
6625
so far south:--
6626

6627
1. Gastridium cepa, G.B. Sowerby.
6628
2. Monoceros, fragments of, considered by M. d'Orbigny as a new species.
6629
3. Voluta alta, G.B. Sowerby (considered by M. d'Orbigny as distinct from
6630
the V. alta of Santa Cruz).
6631
4. Voluta triplicata, G.B. Sowerby.
6632
5. Oliva dimidiata, G.B. Sowerby.
6633
6. Pleurotoma discors, G.B. Sowerby.
6634
7. Pleurotoma turbinelloides, G.B. Sowerby.
6635
8. Fusus subreflexus, G.B. Sowerby.
6636
9. Fusus pyruliformis, G.B. Sowerby.
6637
10. Fusus, allied to F. regularis (considered by M. d'Orbigny as a distinct
6638
species).
6639
11. Turritella suturalis, G.B. Sowerby.
6640
12. Turritella Patagonica, G.B. Sowerby (fragments of).
6641
13. Trochus laevis, G.B. Sowerby.
6642
14. Trochus collaris, G.B. Sowerby (considered by M. d'Orbigny as the young
6643
of the T. laevis).
6644
15. Cassis monilifer, G.B. Sowerby.
6645
16. Pyrula distans, G.B. Sowerby.
6646
17. Triton verruculosus, G.B. Sowerby.
6647
18. Sigaretus subglobosus, G.B. Sowerby.
6648
19. Natica solida, G.B. Sowerby. (It is doubtful whether the Natica solida
6649
of S. Cruz is the same species with this.)
6650
20. Terebra undulifera, G.B. Sowerby.
6651
21. Terebra costellata, G.B. Sowerby.
6652
22. Bulla (fragments of).
6653
23. Dentalium giganteum, do.
6654
24. Dentalium sulcosum, do.
6655
25. Corbis (?) laevigata, do.
6656
26. Cardium multiradiatum, do.
6657
27. Venus meridionalis, do.
6658
28. Pectunculus dispar, (?) Desh. (considered by M. d'Orbigny as a distinct
6659
species).
6660
29, 30. Cytheraea and Mactra, fragments of (considered by M. d'Orbigny as
6661
new species).
6662
31. Pecten, fragments of.
6663

6664
COQUIMBO.
6665

6666
(FIGURE 21. SECTION OF THE TERTIARY FORMATION AT COQUIMBO.
6667

6668
From Level of Sea to Surface of plain, 252 feet above sea, through levels
6669
F, E, D and C:
6670

6671
F.--Lower sandstone, with concretions and silicified bones, with fossil
6672
shells, all, or nearly all, extinct.
6673

6674
E.--Upper ferruginous sandstone, with numerous Balani, with fossil shells,
6675
all, or nearly all, extinct.
6676

6677
C and D.--Calcareous beds with recent shells.
6678

6679
A.--Stratified sand in a ravine, also with recent shells.)
6680

6681
For more than two hundred miles northward of Navidad, the coast consists of
6682
plutonic and metamorphic rocks, with the exception of some quite
6683
insignificant superficial beds of recent origin. At Tonguay, twenty-five
6684
miles south of Coquimbo, tertiary beds recommence. I have already minutely
6685
described in the Second Chapter, the step-formed plains of Coquimbo, and
6686
the upper calcareous beds (from twenty to thirty feet in thickness)
6687
containing shells of recent species, but in different proportions from
6688
those on the beach. There remains to be described only the underlying
6689
ancient tertiary beds, represented in Figure 21 by the letters F and E:--
6690

6691
I obtained good sections of bed F only in Herradura Bay: it consists of
6692
soft whitish sandstone, with ferruginous veins, some pebbles of granite,
6693
and concretionary layers of hard calcareous sandstone. These concretions
6694
are remarkable from the great number of large silicified bones, apparently
6695
of cetaceous animals, which they contain; and likewise of a shark's teeth,
6696
closely resembling those of the Carcharias megalodon. Shells of the
6697
following species, of which the gigantic Oyster and Perna are the most
6698
conspicuous, are numerously embedded in the concretions:--
6699

6700
1. Bulla ambigua, d'Orbigny "Voyage" Pal.
6701
2. Monoceros Blainvillii, d'Orbigny "Voyage" Pal.
6702
3. Cardium auca, d'Orbigny "Voyage" Pal.
6703
4. Panopaea Coquimbensis, d'Orbigny "Voyage" Pal.
6704
5. Perna Gaudichaudi, d'Orbigny "Voyage" Pal.
6705
6. Artemis ponderosa; Mr. Sowerby can find no distinguishing character
6706
between this fossil and the recent A. ponderosa; it is certainly an
6707
Artemis, as shown by the pallial impression.
6708
7. Ostrea Patagonica (?); Mr. Sowerby can point out no distinguishing
6709
character between this species and that so eminently characteristic of the
6710
great Patagonian formation; but he will not pretend to affirm that they are
6711
identical.
6712
8. Fragments of a Venus and Natica.
6713

6714
The cliffs on one side of Herradura Bay are capped by a mass of stratified
6715
shingle, containing a little calcareous matter, and I did not doubt that it
6716
belonged to the same recent formation with the gravel on the surrounding
6717
plains, also cemented by calcareous matter, until to my surprise, I found
6718
in the midst of it, a single thin layer almost entirely composed of the
6719
above gigantic oyster.
6720

6721
At a little distance inland, I obtained several sections of the bed E,
6722
which, though different in appearance from the lower bed F, belongs to the
6723
same formation: it consists of a highly ferruginous sandy mass, almost
6724
composed, like the lowest bed at Port S. Julian, of fragments of Balanidae;
6725
it includes some pebbles, and layers of yellowish-brown mudstone. The
6726
embedded shells consist of:--
6727

6728
1. Monoceros Blainvillii, d'Orbigny "Voyage" Pal.
6729
2. Monoceros ambiguus, G.B. Sowerby.
6730
3. Anomia alternans, G.B. Sowerby.
6731
4. Pecten rudis, G.B. Sowerby.
6732
5. Perna Gaudichaudi, d'Orbigny "Voyage" Pal.
6733
6. Ostrea Patagonica (?), d'Orbigny "Voyage" Pal.
6734
7. Ostrea, small species, in imperfect state; it appeared to me like a
6735
small kind now living in, but very rare in the bay.
6736
8. Mytilus Chiloensis; Mr. Sowerby can find no distinguishing character
6737
between this fossil, as far as its not very perfect condition allows of
6738
comparison, and the recent species.
6739
9. Balanus Coquimbensis, G.B. Sowerby.
6740
10. Balanus psittacus? King. This appears to Mr. Sowerby and myself
6741
identical with a very large and common species now living on the coast.
6742

6743
The uppermost layers of this ferrugino-sandy mass are conformably covered
6744
by, and impregnated to the depth of several inches with, the calcareous
6745
matter of the bed D called losa: hence I at one time imagined that there
6746
was a gradual passage between them; but as all the species are recent in
6747
the bed D, whilst the most characteristic shells of the uppermost layers of
6748
E are the extinct Perna, Pecten, and Monoceros, I agree with M. d'Orbigny,
6749
that this view is erroneous, and that there is only a mineralogical passage
6750
between them, and no gradual transition in the nature of their organic
6751
remains. Besides the fourteen species enumerated from these two lower beds,
6752
M. d'Orbigny has described ten other species given to him from this
6753
locality; namely:--
6754

6755
1. Fusus Cleryanus, d'Orbigny "Voyage" Pal.
6756
2. Fusus petitianus, d'Orbigny "Voyage" Pal.
6757
3. Venus hanetiana, d'Orbigny "Voyage" Pal.
6758
4. Venus incerta (?) d'Orbigny "Voyage" Pal.
6759
5. Venus Cleryana, d'Orbigny "Voyage" Pal.
6760
6. Venus petitiana, d'Orbigny "Voyage" Pal.
6761
7. Venus Chilensis, d'Orbigny "Voyage" Pal.
6762
8. Solecurtus hanetianus, d'Orbigny "Voyage" Pal.
6763
9. Mactra auca, d'Orbigny "Voyage" Pal.
6764
10. Oliva serena, d'Orbigny "Voyage" Pal.
6765

6766
Of these twenty-four shells, all are extinct, except, according to Mr.
6767
Sowerby, the Artemis ponderosa, Mytilus Chiloensis, and probably the great
6768
Balanus.
6769

6770
COQUIMBO TO COPIAPO.
6771

6772
A few miles north of Coquimbo, I met with the ferruginous, balaniferous
6773
mass E with many silicified bones; I was informed that these silicified
6774
bones occur also at Tonguay, south of Coquimbo: their number is certainly
6775
remarkable, and they seem to take the place of the silicified wood, so
6776
common on the coast-formations of Southern Chile. In the valley of
6777
Chaneral, I again saw this same formation, capped with the recent
6778
calcareous beds. I here left the coast, and did not see any more of the
6779
tertiary formations, until descending to the sea at Copiapo: here in one
6780
place I found variously coloured layers of sand and soft sandstone, with
6781
seams of gypsum, and in another place, a comminuted shelly mass, with
6782
layers of rotten-stone and seams of gypsum, including many of the extinct
6783
gigantic oyster: beds with these oysters are said to occur at English
6784
Harbour, a few miles north of Copiapo.
6785

6786
COAST OF PERU.
6787

6788
With the exception of deposits containing recent shells and of quite
6789
insignificant dimensions, no tertiary formations have been observed on this
6790
coast, for a space of twenty-two degrees of latitude north of Copiapo,
6791
until coming to Payta, where there is said to be a considerable calcareous
6792
deposit: a few fossils have been described by M. d'Orbigny from this place,
6793
namely:--
6794

6795
1. Rostellaria Gaudichaudi, d'Orbigny "Voyage" Pal.
6796
2. Pectunculus Paytensis, d'Orbigny "Voyage" Pal.
6797
3. Venus petitiana, d'Orbigny "Voyage" Pal.
6798
4. Ostrea Patagonica? This great oyster (of which specimens have been given
6799
me) cannot be distinguished by Mr. Sowerby from some of the varieties from
6800
Patagonia; though it would be hazardous to assert it is the same with that
6801
species, or with that from Coquimbo.
6802

6803
CONCLUDING REMARKS.
6804

6805
The formations described in this chapter, have, in the case of Chiloe and
6806
probably in that of Concepcion and Navidad, apparently been accumulated in
6807
troughs formed by submarine ridges extending parallel to the ancient shores
6808
of the continent; in the case of the islands of Mocha and Huafo it is
6809
highly probable, and in that of Ypun and Lemus almost certain, that they
6810
were accumulated round isolated rocky centres or nuclei, in the same manner
6811
as mud and sand are now collecting round the outlying islets and reefs in
6812
the West Indian Archipelago. Hence, I may remark, it does not follow that
6813
the outlying tertiary masses of Mocha and Huafo were ever continuously
6814
united at the same level with the formations on the mainland, though they
6815
may have been of contemporaneous origin, and been subsequently upraised to
6816
the same height. In the more northern parts of Chile, the tertiary strata
6817
seem to have been separately accumulated in bays, now forming the mouths of
6818
valleys.
6819

6820
The relation between these several deposits on the shores of the Pacific,
6821
is not nearly so clear as in the case of the tertiary formations on the
6822
Atlantic. Judging from the form and height of the land (evidence which I
6823
feel sure is here much more trustworthy than it can ever be in such broken
6824
continents as that of Europe), from the identity of mineralogical
6825
composition, from the presence of fragments of lignite and of silicified
6826
wood, and from the intercalated layers of imperfect coal, I must believe
6827
that the coast-formations from Central Chiloe to Concepcion, a distance of
6828
400 miles, are of the same age: from nearly similar reasons, I suspect that
6829
the beds of Mocha, Huafo, and Ypun, belong also to the same period. The
6830
commonest shell in Mocha and Huafo is the same species of Turritella; and I
6831
believe the same Cytheraea is found on the islands of Huafo, Chiloe, and
6832
Ypun; but with these trifling exceptions, the few organic remains found at
6833
these places are distinct. The numerous shells from Navidad, with the
6834
exception of two, namely, the Sigaretus and Turritella found at Ypun, are
6835
likewise distinct from those found in any other part of this coast.
6836
Coquimbo has Cardium auca in common with Concepcion, and Fusus Cleryanus
6837
with Huafo; I may add, that Coquimbo has Venus petitiana, and a gigantic
6838
oyster (said by M. d'Orbigny also to be found a little south of Concepcion)
6839
in common with Payta, though this latter place is situated twenty-two
6840
degrees northward of latitude 27 degrees, to which point the Coquimbo
6841
formation extends.
6842

6843
From these facts, and from the generic resemblance of the fossils from the
6844
different localities, I cannot avoid the suspicion that they all belong to
6845
nearly the same epoch, which epoch, as we shall immediately see, must be a
6846
very ancient tertiary one. But as the Baculite, especially considering its
6847
apparent identity with the Cretaceous Pondicherry species, and the presence
6848
of an Ammonite, and the resemblance of the Nautilus to two upper greensand
6849
species, together afford very strong evidence that the formation of
6850
Concepcion is a Secondary one; I will, in my remarks on the fossils from
6851
the other localities, put on one side those from Concepcion and from
6852
Eastern Chiloe, which, whatever their age may be, appear to me to belong to
6853
one group. I must, however, again call attention to the fact that the
6854
Cardium auca is found both at Concepcion and in the undoubtedly tertiary
6855
strata of Coquimbo: nor should the possibility be overlooked, that as
6856
Trigonia, though known in the northern hemisphere only as a Secondary
6857
genus, has living representatives in the Australian seas, so a Baculite,
6858
Ammonite, and Trigonia may have survived in this remote part of the
6859
southern ocean to a somewhat later period than to the north of the equator.
6860

6861
Before passing in review the fossils from the other localities, there are
6862
two points, with respect to the formations between Concepcion and Chiloe,
6863
which deserve some notice. First, that though the strata are generally
6864
horizontal, they have been upheaved in Chiloe in a set of parallel
6865
anticlinal and uniclinal lines ranging north and south,--in the district
6866
near P. Rumena by eight or nine far-extended, most symmetrical, uniclinal
6867
lines ranging nearly east and west,--and in the neighbourhood of Concepcion
6868
by less regular single lines, directed both N.E. and S.W., and N.W. and
6869
S.E. This fact is of some interest, as showing that within a period which
6870
cannot be considered as very ancient in relation to the history of the
6871
continent, the strata between the Cordillera and the Pacific have been
6872
broken up in the same variously directed manner as have the old plutonic
6873
and metamorphic rocks in this same district. The second point is, that the
6874
sandstone between Concepcion and Southern Chiloe is everywhere
6875
lignitiferous, and includes much silicified wood; whereas the formations in
6876
Northern Chile do not include beds of lignite or coal, and in place of the
6877
fragments of silicified wood there are silicified bones. Now, at the
6878
present day, from Cape Horn to near Concepcion, the land is entirely
6879
concealed by forests, which thin out at Concepcion, and in Central and
6880
Northern Chile entirely disappear. This coincidence in the distribution of
6881
the fossil wood and the living forests may be quite accidental; but I
6882
incline to take a different view of it; for, as the difference in climate,
6883
on which the presence of forests depends, is here obviously in chief part
6884
due to the form of the land, and as the Cordillera undoubtedly existed when
6885
the lignitiferous beds were accumulating, I conceive it is not improbable
6886
that the climate, during the lignitiferous period, varied on different
6887
parts of the coast in a somewhat similar manner as it now does. Looking to
6888
an earlier epoch, when the strata of the Cordillera were depositing, there
6889
were islands which even in the latitude of Northern Chile, where now all is
6890
irreclaimably desert, supported large coniferous forests.
6891

6892
TABLE 4.
6893

6894
Column 1. Genera, with living and tertiary species on the west coast of
6895
South America. (M. d'Orbigny states that the genus Natica is not found on
6896
the coast of Chile; but Mr. Cuming found it at Valparaiso. Scalaria was
6897
found at Valparaiso; Arca, at Iquique, in latitude 20, by Mr. Cuming; Arca,
6898
also, was found by Captain King, at Juan Fernandez, in latitude 33 degrees
6899
30'S.)
6900

6901
Column 2. Latitudes, in which found fossil on the coasts of Chile and Peru.
6902
(In degrees and minutes.)
6903

6904
Column 3. Southernmost latitude, in which found living on the west coast of
6905
South America. (In degrees and minutes.)
6906

6907
Bulla : 30 to 43 30 : 12 near Lima.
6908

6909
Cassis : 34 : 1 37.
6910

6911
Pyrula : 34 (and 36 30 at Concepcion) : 5 Payta.
6912

6913
Fusus : 30 and 43 30 : 23 Mexillones; reappears at the St. of Magellan.
6914

6915
Pleurotoma : 34 to 43 30 : 2 18 St. Elena.
6916

6917
Terebra : 34 : 5 Payta.
6918

6919
Sigaretus : 34 to 44 30 : 12 Lima.
6920

6921
Anomia : 30 : 7 48.
6922

6923
Perna : 30 : 1 23 Xixappa.
6924

6925
Cardium : 30 to 34 (and 36 30 at Concepcion) : 5 Payta.
6926

6927
Artemis : 30 : 5 Payta.
6928

6929
Voluta : 34 to 44 30 : Mr. Cuming does not know of any species living on
6930
the west coast, between the equator and latitude 43 south; from this
6931
latitude a species is found as far south as Tierra del Fuego.
6932

6933
Seventy-nine species of fossil shells, in a tolerably recognisable
6934
condition, from the coast of Chile and Peru, are described in this volume,
6935
and in the Palaeontological part of M. d'Orbigny's "Voyage": if we put on
6936
one side the twenty species exclusively found at Concepcion and Chiloe,
6937
fifty-nine species from Navidad and the other specified localities remain.
6938
Of these fifty-nine species only an Artemis, a Mytilus and Balanus, all
6939
from Coquimbo, are (in the opinion of Mr. Sowerby, but not in that of M.
6940
d'Orbigny) identical with living shells; and it would certainly require a
6941
better series of specimens to render this conclusion certain. Only the
6942
Turritella Chilensis from Huafo and Mocha, the T. Patagonica and Venus
6943
meridionalis from Navidad, come very near to recent South American shells,
6944
namely, the two Turritellas to T. cingulata, and the Venus to V. exalbida:
6945
some few other species come rather less near; and some few resemble forms
6946
in the older European tertiary deposits: none of the species resemble
6947
secondary forms. Hence I conceive there can be no doubt that these
6948
formations are tertiary,--a point necessary to consider, after the case of
6949
Concepcion. The fifty-nine species belong to thirty-two genera; of these,
6950
Gastridium is extinct, and three or four of the genera (viz. Panopaea,
6951
Rostellaria, Corbis (?), and I believe Solecurtus) are not now found on the
6952
west coast of South America. Fifteen of the genera have on this coast
6953
living representatives in about the same latitudes with the fossil species;
6954
but twelve genera now range very differently to what they formerly did. The
6955
idea of Table 4, in which the difference between the extension in latitude
6956
of the fossil and existing species is shown, is taken from M. d'Orbigny's
6957
work; but the range of the living shells is given on the authority of Mr.
6958
Cuming, whose long-continued researches on the conchology of South America
6959
are well-known.
6960

6961
When we consider that very few, if any, of the fifty-nine fossil shells are
6962
identical with, or make any close approach to, living species; when we
6963
consider that some of the genera do not now exist on the west coast of
6964
South America, and that no less than twelve genera out of the thirty-two
6965
formerly ranged very differently from the existing species of the same
6966
genera, we must admit that these deposits are of considerable antiquity,
6967
and that they probably verge on the commencement of the tertiary era. May
6968
we not venture to believe, that they are of nearly contemporaneous origin
6969
with the Eocene formations of the northern hemisphere?
6970

6971
Comparing the fossil remains from the coast of Chile (leaving out, as
6972
before, Concepcion and Chiloe) with those from Patagonia, we may conclude,
6973
from their generic resemblance, and from the small number of the species
6974
which from either coast approach closely to living forms, that the
6975
formations of both belong to nearly the same epoch; and this is the opinion
6976
of M. D'Orbigny. Had not a single fossil shell been common to the two
6977
coasts, it could not have been argued that the formations belonged to
6978
different ages; for Messrs. Cuming and Hinds have found, on the comparison
6979
of nearly two thousand living species from the opposite sides of South
6980
America, only one in common, namely, the Purpura lapillus from both sides
6981
of the Isthmus of Panama: even the shells collected by myself amongst the
6982
Chonos Islands and on the coast of Patagonia, are dissimilar, and we must
6983
descend to the apex of the continent, to Tierra del Fuego, to find these
6984
two great conchological provinces united into one. Hence it is remarkable
6985
that four or five of the fossil shells from Navidad, namely, Voluta alta,
6986
Turritella Patagonica, Trochus collaris, Venus meridionalis, perhaps Natica
6987
solida, and perhaps the large oyster from Coquimbo, are considered by Mr.
6988
Sowerby as identical with species from Santa Cruz and P. Desire. M.
6989
d'Orbigny, however, admits the perfect identity only of the Trochus.
6990

6991
ON THE TEMPERATURE OF THE TERTIARY PERIOD.
6992

6993
As the number of the fossil species and genera from the western and eastern
6994
coasts is considerable, it will be interesting to consider the probable
6995
nature of the climate under which they lived. We will first take the case
6996
of Navidad, in latitude 34 degrees, where thirty-one species were
6997
collected, and which, as we shall presently see, must have inhabited
6998
shallow water, and therefore will necessarily well exhibit the effects of
6999
temperature. Referring to Table 4 we find that the existing species of the
7000
genera Cassis, Pyrula, Pleurotoma, Terebra, and Sigaretus, which are
7001
generally (though by no means invariably) characteristic of warmer
7002
latitudes, do not at the present day range nearly so far south on this line
7003
of coast as the fossil species formerly did. Including Coquimbo, we have
7004
Perna in the same predicament. The first impression from this fact is, that
7005
the climate must formerly have been warmer than it now is; but we must be
7006
very cautious in admitting this, for Cardium, Bulla, and Fusus (and, if we
7007
include Coquimbo, Anomia and Artemis) likewise formerly ranged farther
7008
south than they now do; and as these genera are far from being
7009
characteristic of hot climates, their former greater southern range may
7010
well have been owing to causes quite distinct from climate: Voluta, again,
7011
though generally so tropical a genus, is at present confined on the west
7012
coast to colder or more southern latitudes than it was during the tertiary
7013
period. The Trochus collaris, moreover, and, as we have just seen according
7014
to Mr. Sowerby, two or three other species, formerly ranged from Navidad as
7015
far south as Santa Cruz in latitude 50 degrees. If, instead of comparing
7016
the fossils of Navidad, as we have hitherto done, with the shells now
7017
living on the west coast of South America, we compare them with those found
7018
in other parts of the world, under nearly similar latitudes; for instance,
7019
in the southern parts of the Mediterranean or of Australia, there is no
7020
evidence that the sea off Navidad was formerly hotter than what might have
7021
been expected from its latitude, even if it was somewhat warmer than it now
7022
is when cooled by the great southern polar current. Several of the most
7023
tropical genera have no representative fossils at Navidad; and there are
7024
only single species of Cassis, Pyrula, and Sigaretus, two of Pleurotoma and
7025
two of Terebra, but none of these species are of conspicuous size. In
7026
Patagonia, there is even still less evidence in the character of the
7027
fossils, of the climate having been formerly warmer. (It may be worth while
7028
to mention that the shells living at the present day on this eastern side
7029
of South America, in latitude 40 degrees, have perhaps a more tropical
7030
character than those in corresponding latitudes on the shores of Europe:
7031
for at Bahia Blanca and S. Blas, there are two fine species of Voluta and
7032
four of Oliva.) As from the various reasons already assigned, there can be
7033
little doubt that the formations of Patagonia and at least of Navidad and
7034
Coquimbo in Chile, are the equivalents of an ancient stage in the tertiary
7035
formations of the northern hemisphere, the conclusion that the climate of
7036
the southern seas at this period was not hotter than what might have been
7037
expected from the latitude of each place, appears to me highly important;
7038
for we must believe, in accordance with the views of Mr. Lyell, that the
7039
causes which gave to the older tertiary productions of the quite temperate
7040
zones of Europe a tropical character, WERE OF A LOCAL CHARACTER AND DID NOT
7041
AFFECT THE ENTIRE GLOBE. On the other hand, I have endeavoured to show, in
7042
the "Geological Transactions," that, at a much later period, Europe and
7043
North and South America were nearly contemporaneously subjected to ice-
7044
action, and consequently to a colder, or at least more equable, climate
7045
than that now characteristic of the same latitudes.
7046

7047
ON THE ABSENCE OF EXTENSIVE MODERN CONCHIFEROUS DEPOSITS IN SOUTH AMERICA;
7048
AND ON THE CONTEMPORANEOUSNESS OF THE OLDER TERTIARY DEPOSITS AT DISTANT
7049
POINTS BEING DUE TO CONTEMPORANEOUS MOVEMENTS OF SUBSIDENCE.
7050

7051
Knowing from the researches of Professor E. Forbes, that molluscous animals
7052
chiefly abound within a depth of 100 fathoms and under, and bearing in mind
7053
how many thousand miles of both coasts of South America have been upraised
7054
within the recent period by a slow, long-continued, intermittent movement,-
7055
-seeing the diversity in nature of the shores and the number of shells now
7056
living on them,--seeing also that the sea off Patagonia and off many parts
7057
of Chile, was during the tertiary period highly favourable to the
7058
accumulation of sediment,--the absence of extensive deposits including
7059
recent shells over these vast spaces of coast is highly remarkable. The
7060
conchiferous calcareous beds at Coquimbo, and at a few isolated points
7061
northward, offer the most marked exception to this statement; for these
7062
beds are from twenty to thirty feet in thickness, and they stretch for some
7063
miles along shore, attaining, however, only a very trifling breadth. At
7064
Valdivia there is some sandstone with imperfect casts of shells, which
7065
POSSIBLY may belong to the recent period: parts of the boulder formation
7066
and the shingle-beds on the lower plains of Patagonia probably belong to
7067
this same period, but neither are fossiliferous: it also so happens that
7068
the great Pampean formation does not include, with the exception of the
7069
Azara, any mollusca. There cannot be the smallest doubt that the upraised
7070
shells along the shores of the Atlantic and Pacific, whether lying on the
7071
bare surface, or embedded in mould or in sand-hillocks, will in the course
7072
of ages be destroyed by alluvial action: this probably will be the case
7073
even with the calcareous beds of Coquimbo, so liable to dissolution by
7074
rain-water. If we take into consideration the probability of oscillations
7075
of level and the consequent action of the tidal-waves at different heights,
7076
their destruction will appear almost certain. Looking to an epoch as far
7077
distant in futurity as we now are from the past Miocene period, there seems
7078
to me scarcely a chance, under existing conditions, of the numerous shells
7079
now living in those zones of depths most fertile in life, and found
7080
exclusively on the western and south-eastern coasts of South America, being
7081
preserved to this imaginary distant epoch. A whole conchological series
7082
will in time be swept away, with no memorials of their existence preserved
7083
in the earth's crust.
7084

7085
Can any light be thrown on this remarkable absence of recent conchiferous
7086
deposits on these coasts, on which, at an ancient tertiary epoch, strata
7087
abounding with organic remains were extensively accumulated? I think there
7088
can, namely, by considering the conditions necessary for the preservation
7089
of a formation to a distant age. Looking to the enormous amount of
7090
denudation which on all sides of us has been effected,--as evidenced by the
7091
lofty cliffs cutting off on so many coasts horizontal and once far-extended
7092
strata of no great antiquity (as in the case of Patagonia),--as evidenced
7093
by the level surface of the ground on both sides of great faults and
7094
dislocations,--by inland lines of escarpments, by outliers, and numberless
7095
other facts, and by that argument of high generality advanced by Mr. Lyell,
7096
namely, that every SEDIMENTARY formation, whatever its thickness may be,
7097
and over however many hundred square miles it may extend, is the result and
7098
the measure of an equal amount of wear and tear of pre-existing formations;
7099
considering these facts, we must conclude that, as an ordinary rule, a
7100
formation to resist such vast destroying powers, and to last to a distant
7101
epoch, must be of wide extent, and either in itself, or together with
7102
superincumbent strata, be of great thickness. In this discussion, we are
7103
considering only formations containing the remains of marine animals,
7104
which, as before mentioned, live, with some exceptions within (most of them
7105
much within) depths of 100 fathoms. How, then, can a thick and widely
7106
extended formation be accumulated, which shall include such organic
7107
remains? First, let us take the case of the bed of the sea long remaining
7108
at a stationary level: under these circumstances it is evident that
7109
CONCHIFEROUS strata can accumulate only to the same thickness with the
7110
depth at which the shells can live; on gently inclined coasts alone can
7111
they accumulate to any considerable width; and from the want of
7112
superincumbent pressure, it is probable that the sedimentary matter will
7113
seldom be much consolidated: such formations have no very good chance, when
7114
in the course of time they are upraised, of long resisting the powers of
7115
denudation. The chance will be less if the submarine surface, instead of
7116
having remained stationary, shall have gone on slowly rising during the
7117
deposition of the strata, for in this case their total thickness must be
7118
less, and each part, before being consolidated or thickly covered up by
7119
superincumbent matter, will have had successively to pass through the
7120
ordeal of the beach; and on most coasts, the waves on the beach tend to
7121
wear down and disperse every object exposed to their action. Now, both on
7122
the south-eastern and western shores of South America, we have had clear
7123
proofs that the land has been slowly rising, and in the long lines of lofty
7124
cliffs, we have seen that the tendency of the sea is almost everywhere to
7125
eat into the land. Considering these facts, it ceases, I think, to be
7126
surprising, that extensive recent conchiferous deposits are entirely absent
7127
on the southern and western shores of America.
7128

7129
Let us take the one remaining case, of the bed of the sea slowly subsiding
7130
during a length of time, whilst sediment has gone on being deposited. It is
7131
evident that strata might thus accumulate to any thickness, each stratum
7132
being deposited in shallow water, and consequently abounding with those
7133
shells which cannot live at great depths: the pressure, also, I may
7134
observe, of each fresh bed would aid in consolidating all the lower ones.
7135
Even on a rather steep coast, though such must ever be unfavourable to
7136
widely extended deposits, the formations would always tend to increase in
7137
breadth from the water encroaching on the land. Hence we may admit that
7138
periods of slow subsidence will commonly be most favourable to the
7139
accumulation of CONCHIFEROUS deposits, of sufficient thickness, extension,
7140
and hardness, to resist the average powers of denudation.
7141

7142
We have seen that at an ancient tertiary epoch, fossiliferous deposits were
7143
extensively deposited on the coasts of South America; and it is a very
7144
interesting fact, that there is evidence that these ancient tertiary beds
7145
were deposited during a period of subsidence. Thus, at Navidad, the strata
7146
are about eight hundred feet in thickness, and the fossil shells are
7147
abundant both at the level of the sea and some way up the cliffs; having
7148
sent a list of these fossils to Professor E. Forbes, he thinks they must
7149
have lived in water between one and ten fathoms in depth: hence the bottom
7150
of the sea on which these shells once lived must have subsided at least 700
7151
feet to allow of the superincumbent matter being deposited. I must here
7152
remark, that, as all these and the following fossil shells are extinct
7153
species, Professor Forbes necessarily judges of the depths at which they
7154
lived only from their generic character, and from the analogical
7155
distribution of shells in the northern hemisphere; but there is no just
7156
cause from this to doubt the general results. At Huafo the strata are about
7157
the same thickness, namely, 800 feet, and Professor Forbes thinks the
7158
fossils found there cannot have lived at a greater depth than fifty
7159
fathoms, or 300 feet. These two points, namely, Navidad and Huafo, are 570
7160
miles apart, but nearly halfway between them lies Mocha, an island 1,200
7161
feet in height, apparently formed of tertiary strata up to its level
7162
summit, and with many shells, including the same Turritella with that found
7163
at Huafo, embedded close to the level of the sea. In Patagonia, shells are
7164
numerous at Santa Cruz, at the foot of the 350 feet plain, which has
7165
certainly been formed by the denudation of the 840 feet plain, and
7166
therefore was originally covered by strata that number of feet in
7167
thickness, and these shells, according to Professor Forbes, probably lived
7168
at a depth of between seven and fifteen fathoms: at Port S. Julian, sixty
7169
miles to the north, shells are numerous at the foot of the ninety feet
7170
plain (formed by the denudation of the 950 feet plain), and likewise
7171
occasionally at the height of several hundred feet in the upper strata;
7172
these shells must have lived in water somewhere between five and fifty
7173
fathoms in depth. Although in other parts of Patagonia I have no direct
7174
evidence of shoal-water shells having been buried under a great thickness
7175
of superincumbent submarine strata, yet it should be borne in mind that the
7176
lower fossiliferous strata with several of the same species of Mollusca,
7177
the upper tufaceous beds, and the high summit-plain, stretch for a
7178
considerable distance southward, and for hundreds of miles northward;
7179
seeing this uniformity of structure, I conceive it may be fairly concluded
7180
that the subsidence by which the shells at Santa Cruz and S. Julian were
7181
carried down and covered up, was not confined to these two points, but was
7182
co-extensive with a considerable portion of the Patagonian tertiary
7183
formation. In a succeeding chapter it will be seen, that we are led to a
7184
similar conclusion with respect to the secondary fossiliferous strata of
7185
the Cordillera, namely, that they also were deposited during a long-
7186
continued and great period of subsidence.
7187
From the foregoing reasoning, and from the facts just given, I think we
7188
must admit the probability of the following proposition: namely, that when
7189
the bed of the sea is either stationary or rising, circumstances are far
7190
less favourable, than when the level is sinking, to the accumulation of
7191
CONCHIFEROUS deposits of sufficient thickness and extension to resist, when
7192
upheaved, the average vast amount of denudation. This result appears to me,
7193
in several respects, very interesting: every one is at first inclined to
7194
believe that at innumerable points, wherever there is a supply of sediment,
7195
fossiliferous strata are now forming, which at some future distant epoch
7196
will be upheaved and preserved; but on the views above given, we must
7197
conclude that this is far from being the case; on the contrary, we require
7198
(1st), a long-continued supply of sediment; (2nd), an extensive shallow
7199
area; and (3rd), that this area shall slowly subside to a great depth, so
7200
as to admit the accumulation of a widely extended thick mass of
7201
superincumbent strata. In how few parts of the world, probably, do these
7202
conditions at the present day concur! We can thus, also, understand the
7203
general want of that close sequence in fossiliferous formations which we
7204
might theoretically have anticipated; for, without we suppose a subsiding
7205
movement to go on at the same spot during an enormous period, from one
7206
geological era to another, and during the whole of this period sediment to
7207
accumulate at the proper rate, so that the depth should not become too
7208
great for the continued existence of molluscous animals, it is scarcely
7209
possible that there should be a perfect sequence at the same spot in the
7210
fossil shells of the two geological formations. (Professor H.D. Rogers, in
7211
his excellent address to the Association of American Geologists
7212
("Silliman's Journal" volume 47 page 277) makes the following remark: "I
7213
question if we are at all aware how COMPLETELY the whole history of all
7214
departed time lies indelibly recorded with the amplest minuteness of detail
7215
in the successive sediments of the globe, how effectually, in other words,
7216
every period of time HAS WRITTEN ITS OWN HISTORY, carefully preserving
7217
every created form and every trace of action." I think the correctness of
7218
such remarks is more than doubtful, even if we except (as I suppose he
7219
would) all those numerous organic forms which contain no hard parts.) So
7220
far from a very long-continued subsidence being probable, many facts lead
7221
to the belief that the earth's surface oscillates up and down; and we have
7222
seen that during the elevatory movements there is but a small chance of
7223
DURABLE fossiliferous deposits accumulating.
7224

7225
Lastly, these same considerations appear to throw some light on the fact
7226
that certain periods appear to have been favourable to the deposition, or
7227
at least to the preservation, of contemporaneous formations at very distant
7228
points. We have seen that in South America an enormous area has been rising
7229
within the recent period; and in other quarters of the globe immense spaces
7230
appear to have risen contemporaneously. From my examination of the coral-
7231
reefs of the great oceans, I have been led to conclude that the bed of the
7232
sea has gone on slowly sinking within the present era, over truly vast
7233
areas: this, indeed, is in itself probable, from the simple fact of the
7234
rising areas having been so large. In South America we have distinct
7235
evidence that at nearly the same tertiary period, the bed of the sea off
7236
parts of the coast of Chile and off Patagonia was sinking, though these
7237
regions are very remote from each other. If, then, it holds good, as a
7238
general rule, that in the same quarter of the globe the earth's crust tends
7239
to sink and rise contemporaneously over vast spaces, we can at once see,
7240
that we have at distant points, at the same period, those very conditions
7241
which appear to be requisite for the accumulation of fossiliferous masses
7242
of sufficient extension, thickness, and hardness, to resist denudation, and
7243
consequently to last unto an epoch distant in futurity. (Professor Forbes
7244
has some admirable remarks on this subject, in his "Report on the Shells of
7245
the Aegean Sea." In a letter to Mr. Maclaren ("Edinburgh New Philosophical
7246
Journal" January 1843), I partially entered into this discussion, and
7247
endeavoured to show that it was highly improbable, that upraised atolls or
7248
barrier-reefs, though of great thickness, should, owing to their small
7249
extension or breadth, be preserved to a distant future period.)
7250

7251

7252
CHAPTER VI. PLUTONIC AND METAMORPHIC ROCKS:--CLEAVAGE AND FOLIATION.
7253

7254
Brazil, Bahia, gneiss with disjointed metamorphosed dikes.
7255
Strike of foliation.
7256
Rio de Janeiro, gneiss-granite, embedded fragment in, decomposition of.
7257
La Plata, metamorphic and old volcanic rocks of.
7258
S. Ventana.
7259
Claystone porphyry formation of Patagonia; singular metamorphic rocks;
7260
pseudo-dikes.
7261
Falkland Islands, Palaeozoic fossils of.
7262
Tierra del Fuego, clay-slate formation, cretaceous fossils of; cleavage and
7263
foliation; form of land.
7264
Chonos Archipelago, mica-schists, foliation disturbed by granitic axis;
7265
dikes.
7266
Chiloe.
7267
Concepcion, dikes, successive formation of.
7268
Central and Northern Chile.
7269
Concluding remarks on cleavage and foliation.
7270
Their close analogy and similar origin.
7271
Stratification of metamorphic schists.
7272
Foliation of intrusive rocks.
7273
Relation of cleavage and foliation to the lines of tension during
7274
metamorphosis.
7275

7276
The metamorphic and plutonic formations of the several districts visited by
7277
the "Beagle" will be here chiefly treated of, but only such cases as appear
7278
to me new, or of some special interest, will be described in detail; at the
7279
end of the chapter I will sum up all the facts on cleavage and foliation,--
7280
to which I particularly attended.
7281

7282
BAHIA, BRAZIL: latitude 13 degrees south.
7283

7284
The prevailing rock is gneiss, often passing, by the disappearance of the
7285
quartz and mica, and by the feldspar losing its red colour, into a
7286
brilliantly grey primitive greenstone. Not unfrequently quartz and
7287
hornblende are arranged in layers in almost amorphous feldspar. There is
7288
some fine-grained syenitic granite, orbicularly marked by ferruginous
7289
lines, and weathering into vertical, cylindrical holes, almost touching
7290
each other. In the gneiss, concretions of granular feldspar and others of
7291
garnets with mica occur. The gneiss is traversed by numerous dikes composed
7292
of black, finely crystallised, hornblendic rock, containing a little glassy
7293
feldspar and sometimes mica, and varying in thickness from mere threads to
7294
ten feet: these threads, which are often curvilinear, could sometimes be
7295
traced running into the larger dikes. One of these dikes was remarkable
7296
from having been in two or three places laterally disjointed, with unbroken
7297
gneiss interposed between the broken ends, and in one part with a portion
7298
of the gneiss driven, apparently whilst in a softened state, into its side
7299
or wall. In several neighbouring places, the gneiss included angular, well-
7300
defined, sometimes bent, masses of hornblende rock, quite like, except in
7301
being more perfectly crystallised, that forming the dikes, and, at least in
7302
one instance, containing (as determined by Professor Miller) augite as well
7303
as hornblende. In one or two cases these angular masses, though now quite
7304
separate from each other by the solid gneiss, had, from their exact
7305
correspondence in size and shape, evidently once been united; hence I
7306
cannot doubt that most or all of the fragments have been derived from the
7307
breaking up of the dikes, of which we see the first stage in the above-
7308
mentioned laterally disjointed one. The gneiss close to the fragments
7309
generally contained many large crystals of hornblende, which are entirely
7310
absent or rare in other parts: its folia or laminae were gently bent round
7311
the fragments, in the same manner as they sometimes are round concretions.
7312
Hence the gneiss has certainly been softened, its composition modified, and
7313
its folia arranged, subsequently to the breaking up of the dikes, these
7314
latter also having been at the same time bent and softened. (Professor
7315
Hitchcock "Geology of Massachusetts" volume 2 page 673, gives a closely
7316
similar case of a greenstone dike in syenite.)
7317

7318
I must here take the opportunity of premising, that by the term CLEAVAGE I
7319
imply those planes of division which render a rock, appearing to the eye
7320
quite or nearly homogeneous, fissile. By the term FOLIATION, I refer to the
7321
layers or plates of different mineralogical nature of which most
7322
metamorphic schists are composed; there are, also, often included in such
7323
masses, alternating, homogeneous, fissile layers or folia, and in this case
7324
the rock is both foliated and has a cleavage. By STRATIFICATION, as applied
7325
to these formations, I mean those alternate, parallel, large masses of
7326
different composition, which are themselves frequently either foliated or
7327
fissile,--such as the alternating so-called strata of mica-slate, gneiss,
7328
glossy clay-slate, and marble.
7329

7330
The folia of the gneiss within a few miles round Bahia generally strike
7331
irregularly, and are often curvilinear, dipping in all directions at
7332
various angles: but where best defined, they extended most frequently in a
7333
N.E. by N. (or East 50 degrees N.) and S.W. by S. line, corresponding
7334
nearly with the coast-line northwards of the bay. I may add that Mr.
7335
Gardner found in several parts of the province of Ceara, which lies between
7336
four and five hundred miles north of Bahia, gneiss with the folia extending
7337
E. 45 degrees N.; and in Guyana according to Sir R. Schomburgk, the same
7338
rock strikes E. 57 degrees N. Again, Humboldt describes the gneiss-granite
7339
over an immense area in Venezuela and even in Colombia, as striking E. 50
7340
degrees N., and dipping to the N.W. at an angle of fifty degrees. (Gardner
7341
"Geological Section of the British Association" 1840. For Sir R.
7342
Schomburgk's observations see "Geographical Journal" 1842 page 190. See
7343
also Humboldt's discussion on Loxodrism in the "Personal Narrative.") Hence
7344
all the observations hitherto made tend to show that the gneissic rocks
7345
over the whole of this part of the continent have their folia extending
7346
generally within almost a point of the compass of the same direction. (I
7347
landed at only one place north of Bahia, namely, at Pernambuco. I found
7348
there only soft, horizontally stratified matter, formed from disintegrated
7349
granitic rocks, and some yellowish impure limestone, probably of a tertiary
7350
epoch. I have described a most singular natural bar of hard sandstone,
7351
which protects the harbour, in the 19th volume 1841 page 258 of the "London
7352
and Edinburgh Philosophical Magazine."
7353

7354
ABROLHOS ISLETS, Latitude 18 degrees S. off the coast of Brazil.
7355

7356
Although not strictly in place, I do not know where I can more conveniently
7357
describe this little group of small islands. The lowest bed is a sandstone
7358
with ferruginous veins; it weathers into an extraordinary honeycombed mass;
7359
above it there is a dark-coloured argillaceous shale; above this a coarser
7360
sandstone--making a total thickness of about sixty feet; and lastly, above
7361
these sedimentary beds, there is a fine conformable mass of greenstone, in
7362
some parts having a columnar structure. All the strata, as well as the
7363
surface of the land, dip at an angle of about 12 degrees to N. by W. Some
7364
of the islets are composed entirely of the sedimentary, others of the
7365
trappean rocks, generally, however, with the sandstone, cropping out on the
7366
southern shores.)
7367

7368
RIO DE JANEIRO.
7369

7370
This whole district is almost exclusively formed of gneiss, abounding with
7371
garnets, and porphyritic with large crystals, even three and four inches in
7372
length, of orthoclase feldspar: in these crystals mica and garnets are
7373
often enclosed. At the western base of the Corcovado, there is some
7374
ferruginous carious quartz-rock; and in the Tijeuka range, much fine-
7375
grained granite. I observed boulders of greenstone in several places; and
7376
on the islet of Villegagnon, and likewise on the coast some miles
7377
northward, two large trappean dikes. The porphyritic gneiss, or gneiss-
7378
granite as it has been called by Humboldt, is only so far foliated that the
7379
constituent minerals are arranged with a certain degree of regularity, and
7380
may be said to have a "GRAIN," but they are not separated into distinct
7381
folia or laminae. There are, however, several other varieties of gneiss
7382
regularly foliated, and alternating with each other in so-called strata.
7383
The stratification and foliation of the ordinary gneisses, and the
7384
foliation or "grain" of the gneiss-granite, are parallel to each other, and
7385
generally strike within a point of N.E. and S.W. dipping at a high angle
7386
(between 50 and 60 degrees) generally to S.E.: so that here again we meet
7387
with the strike so prevalent over the more northern parts of this
7388
continent. The mountains of gneiss-granite are to a remarkable degree
7389
abruptly conical, which seems caused by the rock tending to exfoliate in
7390
thick, conically concentric layers: these peaks resemble in shape those of
7391
phonolite and other injected rocks on volcanic islands; nor is the grain or
7392
foliation (as we shall afterwards see) any difficulty on the idea of the
7393
gneiss-granite having been an intrusive rather than a metamorphic
7394
formation. The lines of mountains, but not always each separate hill, range
7395
nearly in the same direction with the foliation and so-called
7396
stratification, but rather more easterly.
7397

7398
(FIGURE 22. FRAGMENT OF GNEISS EMBEDDED IN ANOTHER VARIETY OF THE SAME
7399
ROCK.)
7400

7401
On a bare gently inclined surface of the porphyritic gneiss in Botofogo
7402
Bay, I observed the appearance represented in Figure 22.
7403
A fragment seven yards long and two in width, with angular and distinctly
7404
defined edges, composed of a peculiar variety of gneiss with dark layers of
7405
mica and garnets, is surrounded on all sides by the ordinary gneiss-
7406
granite; both having been dislocated by a granitic vein. The folia in the
7407
fragment and in the surrounding rock strike in the same N.N.E. and S.S.W.
7408
line; but in the fragment they are vertical, whereas in the gneiss-granite
7409
they dip at a small angle, as shown by the arrows, to S.S.E. This fragment,
7410
considering its great size, its solitary position, and its foliated
7411
structure parallel to that of the surrounding rock, is, as far as I know, a
7412
unique case: and I will not attempt any explanation of its origin.
7413

7414
The numerous travellers in this country, have all been greatly surprised at
7415
the depth to which the gneiss and other granitic rocks, as well as the
7416
talcose slates of the interior, have been decomposed. (Spix and Martius
7417
have collected in an Appendix to their "Travels," the largest body of facts
7418
on this subject. See also some remarks by M. Lund in his communications to
7419
the Academy at Copenhagen; and others by M. Gaudichaud in Freycinet
7420
"Voyage.") Near Rio, every mineral except the quartz has been completely
7421
softened, in some places to a depth little less than one hundred feet. (Dr.
7422
Benza describes granitic rock, "Madras Journal of Literature" etc. October
7423
183? page 246), in the Neelgherries, decomposed to a depth of forty feet.)
7424
The minerals retain their positions in folia ranging in the usual
7425
direction; and fractured quartz veins may be traced from the solid rock,
7426
running for some distance into the softened, mottled, highly coloured,
7427
argillaceous mass. It is said that these decomposed rocks abound with gems
7428
of various kinds, often in a fractured state, owing, as some have supposed,
7429
to the collapse of geodes, and that they contain gold and diamonds. At Rio,
7430
it appeared to me that the gneiss had been softened before the excavation
7431
(no doubt by the sea) of the existing, broad, flat-bottomed valleys; for
7432
the depth of decomposition did not appear at all conformable with the
7433
present undulations of the surface. The porphyritic gneiss, where now
7434
exposed to the air, seems to withstand decomposition remarkably well; and I
7435
could see no signs of any tendency to the production of argillaceous masses
7436
like those here described. I was also struck with the fact, that where a
7437
bare surface of this rock sloped into one of the quiet bays, there were no
7438
marks of erosion at the level of the water, and the parts both beneath and
7439
above it preserved a uniform curve. At Bahia, the gneiss rocks are
7440
similarly decomposed, with the upper parts insensibly losing their
7441
foliation, and passing, without any distinct line of separation, into a
7442
bright red argillaceous earth, including partially rounded fragments of
7443
quartz and granite. From this circumstance, and from the rocks appearing to
7444
have suffered decomposition before the excavation of the valleys, I suspect
7445
that here, as at Rio, the decomposition took place under the sea. The
7446
subject appeared to me a curious one, and would probably well repay careful
7447
examination by an able mineralogist.
7448

7449
THE NORTHERN PROVINCES OF LA PLATA.
7450

7451
According to some observations communicated to me by Mr. Fox, the coast
7452
from Rio de Janeiro to the mouth of the Plata seems everywhere to be
7453
granitic, with a few trappean dikes. At Port Alegre, near the boundary of
7454
Brazil, there are porphyries and diorites. (M. Isabelle "Voyage a Buenos
7455
Ayres" page 479.) At the mouth of the Plata, I examined the country for
7456
twenty-five miles west, and for about seventy miles north of Maldonado:
7457
near this town, there is some common gneiss, and much, in all parts of the
7458
country, of a coarse-grained mixture of quartz and reddish feldspar, often,
7459
however, assuming a little dark-green imperfect hornblende, and then
7460
immediately becoming foliated. The abrupt hillocks thus composed, as well
7461
as the highly inclined folia of the common varieties of gneiss, strike
7462
N.N.E. or a little more easterly, and S.S.W. Clay-slate is occasionally met
7463
with, and near the L. del Potrero, there is white marble, rendered fissile
7464
from the presence of hornblende, mica, and asbestus; the cleavage of these
7465
rocks and their stratification, that is the alternating masses thus
7466
composed, strike N.N.E. and S.S.W. like the foliated gneisses, and have an
7467
almost vertical dip. The Sierra Larga, a low range five miles west of
7468
Maldonado, consists of quartzite, often ferruginous, having an arenaceous
7469
feel, and divided into excessively thin, almost vertical laminae or folia
7470
by microscopically minute scales, apparently of mica, and striking in the
7471
usual N.N.E. and S.S.W. direction. The range itself is formed of one
7472
principal line with some subordinate ones; and it extends with remarkable
7473
uniformity far northward (it is said even to the confines of Brazil), in
7474
the same line with the vertically ribboned quartz rock of which it is
7475
composed. The S. de Las Animas is the highest range in the country; I
7476
estimated it at 1,000 feet; it runs north and south, and is formed of
7477
feldspathic porphyry; near its base there is a N.N.W. and S.S.E. ridge of a
7478
conglomerate in a highly porphyritic basis.
7479

7480
Northward of Maldonado, and south of Las Minas, there is an E. and W. hilly
7481
band of country, some miles in width, formed of siliceous clay-slate, with
7482
some quartz, rock, and limestone, having a tortuous irregular cleavage,
7483
generally ranging east and west. E. and S.E. of Las Minas there is a
7484
confused district of imperfect gneiss and laminated quartz, with the hills
7485
ranging in various directions, but with each separate hill generally
7486
running in the same line with the folia of the rocks of which it is
7487
composed: this confusion appears to have been caused by the intersection of
7488
the [E. and W.] and [N.N.E. and S.S.W.] strikes. Northward of Las Minas,
7489
the more regular northerly ranges predominate: from this place to near
7490
Polanco, we meet with the coarse-grained mixture of quartz and feldspar,
7491
often with the imperfect hornblende, and then becoming foliated in a N. and
7492
S. line--with imperfect clay-slate, including laminae of red crystallised
7493
feldspar--with white or black marble, sometimes containing asbestus and
7494
crystals of gypsum--with quartz-rock--with syenite--and lastly, with much
7495
granite. The marble and granite alternate repeatedly in apparently vertical
7496
masses: some miles northward of the Polanco, a wide district is said to be
7497
entirely composed of marble. It is remarkable, how rare mica is in the
7498
whole range of country north and westward of Maldonado. Throughout this
7499
district, the cleavage of the clay-slate and marble--the foliation of the
7500
gneiss and the quartz--the stratification or alternating masses of these
7501
several rocks--and the range of the hills, all coincide in direction; and
7502
although the country is only hilly, the planes of division are almost
7503
everywhere very highly inclined or vertical.
7504

7505
Some ancient submarine volcanic rocks are worth mentioning, from their
7506
rarity on this eastern side of the continent. In the valley of the Tapas
7507
(fifty or sixty miles N. of Maldonado) there is a tract three or four miles
7508
in length, composed of various trappean rocks with glassy feldspar--of
7509
apparently metamorphosed grit-stones--of purplish amygdaloids with large
7510
kernels of carbonate of lime (Near the Pan de Azucar there is some greenish
7511
porphyry, in one place amygdaloidal with agate.)--and much of a harshish
7512
rock with glassy feldspar intermediate in character between claystone
7513
porphyry and trachyte. This latter rock was in one spot remarkable from
7514
being full of drusy cavities, lined with quartz crystals, and arranged in
7515
planes, dipping at an angle of 50 degrees to the east, and striking
7516
parallel to the foliation of an adjoining hill composed of the common
7517
mixture of quartz, feldspar, and imperfect hornblende: this fact perhaps
7518
indicates that these volcanic rocks have been metamorphosed, and their
7519
constituent parts rearranged, at the same time and according to the same
7520
laws, with the granitic and metamorphic formations of this whole region. In
7521
the valley of the Marmaraya, a few miles south of the Tapas, a band of
7522
trappean and amygdaloidal rock is interposed between a hill of granite and
7523
an extensive surrounding formation of red conglomerate, which (like that at
7524
the foot of the S. Animas) has its basis porphyritic with crystals of
7525
feldspar, and which hence has certainly suffered metamorphosis.
7526

7527
MONTE VIDEO.
7528

7529
The rocks here consist of several varieties of gneiss, with the feldspar
7530
often yellowish, granular and imperfectly crystallised, alternating with,
7531
and passing insensibly into, beds, from a few yards to nearly a mile in
7532
thickness, of fine or coarse grained, dark-green hornblendic slate; this
7533
again often passing into chloritic schist. These passages seem chiefly due
7534
to changes in the mica, and its replacement by other minerals. At Rat
7535
Island I examined a mass of chloritic schist, only a few yards square,
7536
irregularly surrounded on all sides by the gneiss, and intricately
7537
penetrated by many curvilinear veins of quartz, which gradually BLEND into
7538
the gneiss: the cleavage of the chloritic schist and the foliation of the
7539
gneiss were exactly parallel. Eastward of the city there is much fine-
7540
grained, dark-coloured gneiss, almost assuming the character of hornblende-
7541
slate, which alternates in thin laminae with laminae of quartz, the whole
7542
mass being transversely intersected by numerous large veins of quartz: I
7543
particularly observed that these veins were absolutely continuous with the
7544
alternating laminae of quartz. In this case and at Rat Island, the passage
7545
of the gneiss into imperfect hornblendic or into chloritic slate, seemed to
7546
be connected with the segregation of the veins of quartz. (Mr. Greenough
7547
page 78 "Critical Examination" etc., observes that quartz in mica-slate
7548
sometimes appears in beds and sometimes in veins. Von Buch also in his
7549
"Travels in Norway" page 236, remarks on alternating laminae of quartz and
7550
hornblende-slate replacing mica-schist.)
7551

7552
The Mount, a hill believed to be 450 feet in height, from which the place
7553
takes its name, is much the highest land in this neighbourhood: it consists
7554
of hornblendic slate, which (except on the eastern and disturbed base) has
7555
an east and west nearly vertical cleavage; the longer axis of the hill also
7556
ranges in this same line. Near the summit the hornblende-slate gradually
7557
becomes more and more coarsely crystallised, and less plainly laminated,
7558
until it passes into a heavy, sonorous greenstone, with a slaty conchoidal
7559
fracture; the laminae on the north and south sides near the summit dip
7560
inwards, as if this upper part had expanded or bulged outwards. This
7561
greenstone must, I conceive, be considered as metamorphosed hornblende-
7562
slate. The Cerrito, the next highest, but much less elevated point, is
7563
almost similarly composed. In the more western parts of the province,
7564
besides gneiss, there is quartz-rock, syenite, and granite; and at Colla, I
7565
heard of marble.
7566

7567
Near M. Video, the space which I more accurately examined was about fifteen
7568
miles in an east and west line, and here I found the foliation of the
7569
gneiss and the cleavage of the slates generally well developed, and
7570
extending parallel to the alternating strata composed of the gneiss,
7571
hornblendic and chloritic schists. These planes of division all range
7572
within one point of east and west, frequently east by south and west by
7573
north; their dip is generally almost vertical, and scarcely anywhere under
7574
45 degrees: this fact, considering how slightly undulatory the surface of
7575
the country is, deserves attention. Westward of M. Video, towards the
7576
Uruguay, wherever the gneiss is exposed, the highly inclined folia are seen
7577
striking in the same direction; I must except one spot where the strike was
7578
N.W. by W. The little Sierra de S. Juan, formed of gneiss and laminated
7579
quartz, must also be excepted, for it ranges between [N. to N.E.] and [S.
7580
to S.W.] and seems to belong to the same system with the hills in the
7581
Maldonado district. Finally, we have seen that, for many miles northward of
7582
Maldonado and for twenty-five miles westward of it, as far as the S. de las
7583
Animas, the foliation, cleavage, so-called stratification and lines of
7584
hills, all range N.N.E. and S.S.W., which is nearly coincident with the
7585
adjoining coast of the Atlantic. Westward of the S. de las Animas, as far
7586
as even the Uruguay, the foliation, cleavage, and stratification (but not
7587
lines of hills, for there are no defined ones) all range about E. by S. and
7588
W. by N., which is nearly coincident with the direction of the northern
7589
shore of the Plata; in the confused country near Las Minas, where these two
7590
great systems appear to intersect each other, the cleavage, foliation, and
7591
stratification run in various directions, but generally coincide with the
7592
line of each separate hill.
7593

7594
SOUTHERN LA PLATA.
7595

7596
The first ridge, south of the Plata, which projects through the Pampean
7597
formation, is the Sierra Tapalguen and Vulcan, situated 200 miles southward
7598
of the district just described. This ridge is only a few hundred feet in
7599
height, and runs from C. Corrientes in a W.N.W. line for at least 150 miles
7600
into the interior: at Tapalguen, it is composed of unstratified granular
7601
quartz, remarkable from forming tabular masses and small plains, surrounded
7602
by precipitous cliffs: other parts of the range are said to consist of
7603
granite: and marble is found at the S. Tinta. It appears from M.
7604
Parchappe's observations, that at Tandil there is a range of quartzose
7605
gneiss, very like the rocks of the S. Larga near Maldonado, running in the
7606
same N.N.E. and S.S.W. direction; so that the framework of the country here
7607
is very similar to that on the northern shore of the Plata. (M. d'Orbigny's
7608
"Voyage" Part. Geolog. page 46. I have given a short account of the
7609
peculiar forms of the quartz hills of Tapalguen, so unusual in a
7610
metamorphic formation, in my "Journal of Researches" 2nd edition page 116.)
7611

7612
The Sierra Guitru-gueyu is situated sixty miles south of the S. Tapalguen:
7613
it consists of numerous parallel, sometimes blended together ridges, about
7614
twenty-three miles in width, and five hundred feet in height above the
7615
plain, and extending in a N.W. and S.E. direction. Skirting round the
7616
extreme S.E. termination, I ascended only a few points, which were composed
7617
of a fine-grained gneiss, almost composed of feldspar with a little mica,
7618
and passing in the upper parts of the hills into a rather compact purplish
7619
clay-slate. The cleavage was nearly vertical, striking in a N.W. by W. and
7620
S.E. by E. line, nearly, though not quite, coincident with the direction of
7621
the parallel ridges.
7622

7623
The Sierra Ventana lies close south of that of Guitru-gueyu; it is
7624
remarkable from attaining a height, very unusual on this side of the
7625
continent, of 3,340 feet. It consists up to its summit, of quartz,
7626
generally pure and white, but sometimes reddish, and divided into thick
7627
laminae or strata: in one part there is a little glossy clay-slate with a
7628
tortuous cleavage. The thick layers of quartz strike in a W. 30 degrees N.
7629
line, dipping southerly at an angle of 45 degrees and upwards. The
7630
principal line of mountains, with some quite subordinate parallel ridges,
7631
range about W. 45 degrees N.: but at their S.E. termination, only W. 25
7632
degrees N. This Sierra is said to extend between twenty and thirty leagues
7633
into the interior.
7634

7635
PATAGONIA.
7636

7637
With the exception perhaps of the hill of S. Antonio (600 feet high) in the
7638
Gulf of S. Matias, which has never been visited by a geologist, crystalline
7639
rocks are not met with on the coast of Patagonia for a space of 380 miles
7640
south of the S. Ventana. At this point (latitude 43 degrees 50 minutes), at
7641
Points Union and Tombo, plutonic rocks are said to appear, and are found,
7642
at rather wide intervals, beneath the Patagonian tertiary formation for a
7643
space of about three hundred miles southward, to near Bird Island, in
7644
latitude 48 degrees 56 minutes. Judging from specimens kindly collected for
7645
me by Mr. Stokes, the prevailing rock at Ports St. Elena, Camerones,
7646
Malaspina, and as far south as the Paps of Pineda, is a purplish-pink or
7647
brownish claystone porphyry, sometimes laminated, sometimes slightly
7648
vesicular, with crystals of opaque feldspar and with a few grains of
7649
quartz; hence these porphyries resemble those immediately to be described
7650
at Port Desire, and likewise a series which I have seen from P. Alegre on
7651
the southern confines of Brazil. This porphyritic formation further
7652
resembles in a singularly close manner the lowest stratified formation of
7653
the Cordillera of Chile, which, as we shall hereafter see, has a vast
7654
range, and attains a great thickness. At the bottom of the Gulf of St.
7655
George, only tertiary deposits appear to be present. At Cape Blanco, there
7656
is quartz rock, very like that of the Falkland Islands, and some hard, blue
7657
siliceous clay-slate.
7658

7659
At Port Desire there is an extensive formation of the claystone porphyry,
7660
stretching at least twenty-five miles into the interior: it has been
7661
denuded and deeply worn into gullies before being covered up by the
7662
tertiary deposits, through which it here and there projects in hills; those
7663
north of the bay being 440 feet in height. The strata have in several
7664
places been tilted at small angles, generally either to N.N.W. or S.S.E. By
7665
gradual passages and alternations, the porphyries change incessantly in
7666
nature. I will describe only some of the principal mineralogical changes,
7667
which are highly instructive, and which I carefully examined. The
7668
prevailing rock has a compact purplish base, with crystals of earthy or
7669
opaque feldspar, and often with grains of quartz. There are other
7670
varieties, with an almost truly trachytic base, full of little angular
7671
vesicles and crystals of glassy feldspar; and there are beds of black
7672
perfect pitchstone, as well as of a concretionary imperfect variety. On a
7673
casual inspection, the whole series would be thought to be of the same
7674
plutonic or volcanic nature with the trachytic varieties and pitchstone;
7675
but this is far from being the case, as much of the porphyry is certainly
7676
of metamorphic origin. Besides the true porphyries, there are many beds of
7677
earthy, quite white or yellowish, friable, easily fusible matter,
7678
resembling chalk, which under the microscope is seen to consist of minute
7679
broken crystals, and which, as remarked in a former chapter, singularly
7680
resembles the upper tufaceous beds of the Patagonian tertiary formation.
7681
This earthy substance often becomes coarser, and contains minute rounded
7682
fragments of porphyries and rounded grains of quartz, and in one case so
7683
many of the latter as to resemble a common sandstone. These beds are
7684
sometimes marked with true lines of aqueous deposition, separating
7685
particles of different degrees of coarseness; in other cases there are
7686
parallel ferruginous lines not of true deposition, as shown by the
7687
arrangement of the particles, though singularly resembling them. The more
7688
indurated varieties often include many small and some larger angular
7689
cavities, which appear due to the removal of earthy matter: some varieties
7690
contain mica. All these earthy and generally white stones insensibly pass
7691
into more indurated sonorous varieties, breaking with a conchoidal
7692
fracture, yet of small specific gravity; many of these latter varieties
7693
assume a pale purple tint, being singularly banded and veined with
7694
different shades, and often become plainly porphyritic with crystals of
7695
feldspar. The formation of these crystals could be most clearly traced by
7696
minute angular and often partially hollow patches of earthy matter, first
7697
assuming a FIBROUS STRUCTURE, then passing into opaque imperfectly shaped
7698
crystals, and lastly, into perfect glassy crystals. When these crystals
7699
have appeared, and when the basis has become compact, the rock in many
7700
places could not be distinguished from a true claystone porphyry without a
7701
trace of mechanical structure.
7702

7703
In some parts, these earthy or tufaceous beds pass into jaspery and into
7704
beautifully mottled and banded porcelain rocks, which break into splinters,
7705
translucent at their edges, hard enough to scratch glass, and fusible into
7706
white transparent beads: grains of quartz included in the porcelainous
7707
varieties can be seen melting into the surrounding paste. In other parts,
7708
the earthy or tufaceous beds either insensibly pass into, or alternate
7709
with, breccias composed of large and small fragments of various purplish
7710
porphyries, with the matrix generally porphyritic: these breccias, though
7711
their subaqueous origin is in many places shown both by the arrangement of
7712
their smaller particles and by an oblique or current lamination, also pass
7713
into porphyries, in which every trace of mechanical origin and
7714
stratification has been obliterated.
7715

7716
Some highly porphyritic though coarse-grained masses, evidently of
7717
sedimentary origin, and divided into thin layers, differing from each other
7718
chiefly in the number of embedded grains of quartz, interested me much from
7719
the peculiar manner in which here and there some of the layers terminated
7720
in abrupt points, quite unlike those produced by a layer of sediment
7721
naturally thinning out, and apparently the result of a subsequent process
7722
of metamorphic aggregation. In another common variety of a finer texture,
7723
the aggregating process had gone further, for the whole mass consisted of
7724
quite short, parallel, often slightly curved layers or patches, of whitish
7725
or reddish finely granulo-crystalline feldspathic matter, generally
7726
terminating at both ends in blunt points; these layers or patches further
7727
tended to pass into wedge or almond-shaped little masses, and these finally
7728
into true crystals of feldspar, with their centres often slightly drusy.
7729
The series was so perfect that I could not doubt that these large crystals,
7730
which had their longer axes placed parallel to each other, had primarily
7731
originated in the metamorphosis and aggregation of alternating layers of
7732
tuff; and hence their parallel position must be attributed (unexpected
7733
though the conclusion may be), not to laws of chemical action, but to the
7734
original planes of deposition. I am tempted briefly to describe three other
7735
singular allied varieties of rock; the first without examination would have
7736
passed for a stratified porphyritic breccia, but all the included angular
7737
fragments consisted of a border of pinkish crystalline feldspathic matter,
7738
surrounding a dark translucent siliceous centre, in which grains of quartz
7739
not quite blended into the paste could be distinguished: this uniformity in
7740
the nature of the fragments shows that they are not of mechanical, but of
7741
concretionary origin, having resulted perhaps from the self-breaking up and
7742
aggregation of layers of indurated tuff containing numerous grains of
7743
quartz,--into which, indeed, the whole mass in one part passed. The second
7744
variety is a reddish non-porphyritic claystone, quite full of spherical
7745
cavities, about half an inch in diameter, each lined with a collapsed crust
7746
formed of crystals of quartz. The third variety also consists of a pale
7747
purple non-porphyritic claystone, almost wholly formed of concretionary
7748
balls, obscurely arranged in layers, of a less compact and paler coloured
7749
claystone; each ball being on one side partly hollow and lined with
7750
crystals of quartz.
7751

7752
PSEUDO-DIKES.
7753

7754
Some miles up the harbour, in a line of cliffs formed of slightly
7755
metamorphosed tufaceous and porphyritic claystone beds, I observed three
7756
vertical dikes, so closely resembling in general appearance ordinary
7757
volcanic dikes, that I did not doubt, until closely examining their
7758
composition, that they had been injected from below. The first is straight,
7759
with parallel sides, and about four feet wide; it consists of whitish,
7760
indurated tufaceous matter, precisely like some of the beds intersected by
7761
it. The second dike is more remarkable; it is slightly tortuous, about
7762
eighteen inches thick, and can be traced for a considerable distance along
7763
the beach; it is of a purplish-red or brown colour, and is formed chiefly
7764
of ROUNDED grains of quartz, with broken crystals of earthy feldspar,
7765
scales of black mica, and minute fragments of claystone porphyry, all
7766
firmly united together in a hard sparing base. The structure of this dike
7767
shows obviously that it is of mechanical and sedimentary origin; yet it
7768
thinned out upwards, and did not cut through the uppermost strata in the
7769
cliffs. This fact at first appears to indicate that the matter could not
7770
have been washed in from above (Upfilled fissures are known to occur both
7771
in volcanic and in ordinary sedimentary formations. At the Galapagos
7772
Archipelago "Volcanic Islands" etc., there are some striking examples of
7773
pseudo-dikes composed of hard tuff.); but if we reflect on the suction
7774
which would result from a deep-seated fissure being formed, we may admit
7775
that if the fissure were in any part open to the surface, mud and water
7776
might well be drawn into it along its whole course. The third dike
7777
consisted of a hard, rough, white rock, almost composed of broken crystals
7778
of glassy feldspar, with numerous scales of black mica, cemented in a
7779
scanty base; there was little in the appearance of this rock, to preclude
7780
the idea of its having been a true injected feldspathic dike. The matter
7781
composing these three pseudo-dikes, especially the second one, appears to
7782
have suffered, like the surrounding strata, a certain degree of metamorphic
7783
action; and this has much aided the deceptive appearance. At Bahia, in
7784
Brazil, we have seen that a true injected hornblendic dike, not only has
7785
suffered metamorphosis, but has been dislocated and even diffused in the
7786
surrounding gneiss, under the form of separate crystals and of fragments.
7787

7788
FALKLAND ISLANDS.
7789

7790
I have described these islands in a paper published in the third volume of
7791
the "Geological Journal." The mountain-ridges consist of quartz, and the
7792
lower country of clay-slate and sandstone, the latter containing Palaeozoic
7793
fossils. These fossils have been separately described by Messrs. Morris and
7794
Sharpe: some of them resemble Silurian, and others Devonian forms. In the
7795
eastern part of the group the several parallel ridges of quartz extend in a
7796
west and east line; but further westward the line becomes W.N.W. and
7797
E.S.E., and even still more northerly. The cleavage-planes of the clay-
7798
slate are highly inclined, generally at an angle of above 50 degrees, and
7799
often vertical; they strike almost invariably in the same direction with
7800
the quartz ranges. The outline of the indented shores of the two main
7801
islands, and the relative positions of the smaller islets, accord with the
7802
strike both of the main axes of elevation and of the cleavage of the clay-
7803
slate.
7804

7805
TIERRA DEL FUEGO.
7806

7807
My notes on the geology of this country are copious, but as they are
7808
unimportant, and as fossils were found only in one district, a brief sketch
7809
will be here sufficient. The east coast from the S. of Magellan (where the
7810
boulder formation is largely developed) to St. Polycarp's Bay is formed of
7811
horizontal tertiary strata, bounded some way towards the interior by a
7812
broad mountainous band of clay-slate. This great clay-slate formation
7813
extends from St. Le Maire westward for 140 miles, along both sides of the
7814
Beagle Channel to near its bifurcation. South of this channel, it forms all
7815
Navarin Island, and the eastern half of Hoste Island and of Hardy
7816
Peninsula; north of the Beagle Channel it extends in a north-west line on
7817
both sides of Admiralty Sound to Brunswick Peninsula in the St. of
7818
Magellan, and I have reason to believe, stretches far up the eastern side
7819
of the Cordillera. The western and broken side of Tierra del Fuego towards
7820
the Pacific is formed of metamorphic schists, granite and various trappean
7821
rocks: the line of separation between the crystalline and clay-slate
7822
formations can generally be distinguished, as remarked by Captain King, by
7823
the parallelism in the clay-slate districts of the shores and channels,
7824
ranging in a line between [W. 20 degrees to 40 degrees N.] and [E. 20
7825
degrees to 40 degrees S.]. ("Geographical Journal" volume 1 page 155.)
7826

7827
The clay-slate is generally fissile, sometimes siliceous or ferruginous,
7828
with veins of quartz and calcareous spar; it often assumes, especially on
7829
the loftier mountains, an altered feldspathic character, passing into
7830
feldspathic porphyry: occasionally it is associated with breccia and
7831
grauwacke. At Good Success Bay, there is a little intercalated black
7832
crystalline limestone. At Port Famine much of the clay-slate is calcareous,
7833
and passes either into a mudstone or into grauwacke, including odd-shaped
7834
concretions of dark argillaceous limestone. Here alone, on the shore a few
7835
miles north of Port Famine, and on the summit of Mount Tarn (2,600 feet
7836
high), I found organic remains; they consist of:--
7837

7838
1. Ancyloceras simplex, d'Orbigny "Pal Franc" Mount Tarn.
7839
2. Fusus (in imperfect state), d'Orbigny "Pal Franc" Mount Tarn.
7840
3. Natica, d'Orbigny "Pal Franc" Mount Tarn.
7841
4. Pentacrimus, d'Orbigny "Pal Franc" Mount Tarn.
7842
5. Lucina excentrica, G.B. Sowerby, Port Famine.
7843
6. Venus (in imperfect state), G.B. Sowerby, Port Famine.
7844
7. Turbinolia (?), G.B. Sowerby, Port Famine.
7845
8. Hamites elatior, G.B. Sowerby, Port Famine.
7846

7847
M. d'Orbigny states that MM. Hombron and Grange found in this neighbourhood
7848
an Ancyloceras, perhaps A. simplex, an Ammonite, a Plicatula and Modiola.
7849
("Voyage" Part Geolog. page 242.) M. d'Orbigny believes from the general
7850
character of these fossils, and from the Ancyloceras being identical (as
7851
far as its imperfect condition allows of comparison) with the A. simplex of
7852
Europe, that the formation belongs to an early stage of the Cretaceous
7853
system. Professor E. Forbes, judging only from my specimens, concurs in the
7854
probability of this conclusion. The Hamites elatior of the above list, of
7855
which a description has been given by Mr. Sowerby, and which is remarkable
7856
from its large size, has not been seen either by M. d'Orbigny or Professor
7857
E. Forbes, as, since my return to England, the specimens have been lost.
7858
The great clay-slate formation of Tierra del Fuego being cretaceous, is
7859
certainly a very interesting fact,--whether we consider the appearance of
7860
the country, which, without the evidence afforded by the fossils, would
7861
form the analogy of most known districts, probably have been considered as
7862
belonging to the Palaeozoic series,--or whether we view it as showing that
7863
the age of this terminal portion of the great axis of South America, is the
7864
same (as will hereafter be seen) with the Cordillera of Chile and Peru.
7865

7866
The clay-slate in many parts of Tierra del Fuego, is broken by dikes and by
7867
great masses of greenstone, often highly hornblendic (In a greenstone-dike
7868
in the Magdalen Channel, the feldspar cleaved with the angle of albite.
7869
This dike was crossed, as well as the surrounding slate, by a large vein of
7870
quartz, a circumstance of unusual occurrence.): almost all the small islets
7871
within the clay-slate districts are thus composed. The slate near the dikes
7872
generally becomes paler-coloured, harder, less fissile, of a feldspathic
7873
nature, and passes into a porphyry or greenstone: in one case, however, it
7874
became more fissile, of a red colour, and contained minute scales of mica,
7875
which were absent in the unaltered rock. On the east side of Ponsonby Sound
7876
some dikes composed of a pale sonorous feldspathic rock, porphyritic with a
7877
little feldspar, were remarkable from their number,--there being within the
7878
space of a mile at least one hundred,--from their nearly equalling in bulk
7879
the intermediate slate,--and more especially from the excessive fineness
7880
(like the finest inlaid carpentry) and perfect parallelism of their
7881
junctions with the almost vertical laminae of clay-slate. I was unable to
7882
persuade myself that these great parallel masses had been injected, until I
7883
found one dike which abruptly thinned out to half its thickness, and had
7884
one of its walls jagged, with fragments of the slate embedded in it.
7885

7886
In Southern Tierra del Fuego, the clay-slate towards its S.W. boundary,
7887
becomes much altered and feldspathic. Thus on Wollaston Island slate and
7888
grauwacke can be distinctly traced passing into feldspathic rocks and
7889
greenstones, including iron pyrites and epidote, but still retaining traces
7890
of cleavage with the usual strike and dip. One such metamorphosed mass was
7891
traversed by large vein-like masses of a beautiful mixture (as ascertained
7892
by Professor Miller) of green epidote, garnets, and white calcareous spar.
7893
On the northern point of this same island, there were various ancient
7894
submarine volcanic rocks, consisting of amygdaloids with dark bole and
7895
agate,--of basalt with decomposed olivine--of compact lava with glassy
7896
feldspar,--and of a coarse conglomerate of red scoriae, parts being
7897
amygdaloidal with carbonate of lime. The southern part of Wollaston Island
7898
and the whole of Hermite and Horn Islands, seem formed of cones of
7899
greenstone; the outlying islets of Il Defenso and D. Raminez are said to
7900
consist of porphyritic lava. (Determined by Professor Jameson. Weddell's
7901
"Voyage" page 169.) In crossing Hardy Peninsula, the slate still retaining
7902
traces of its usual cleavage, passes into columnar feldspathic rocks, which
7903
are succeeded by an irregular tract of trappean and basaltic rocks,
7904
containing glassy feldspar and much iron pyrites: there is, also, some
7905
harsh red claystone porphyry, and an almost true trachyte, with needles of
7906
hornblende, and in one spot a curious slaty rock divided into quadrangular
7907
columns, having a base almost like trachyte, with drusy cavities lined by
7908
crystals, too imperfect, according to Professor Miller, to be measured, but
7909
resembling Zeagonite. (See Mr. Brooke's Paper in the "London Philosophical
7910
Magazine" volume 10. This mineral occurs in an ancient volcanic rock near
7911
Rome.) In the midst of these singular rocks, no doubt of ancient submarine
7912
volcanic origin, a high hill of feldspathic clay-slate projected, retaining
7913
its usual cleavage. Near this point, there was a small hillock, having the
7914
aspect of granite, but formed of white albite, brilliant crystals of
7915
hornblende (both ascertained by the reflecting goniometer) and mica; but
7916
with no quartz. No recent volcanic district has been observed in any part
7917
of Tierra del Fuego.
7918

7919
Five miles west of the bifurcation of the Beagle Channel, the slate-
7920
formation, instead of becoming, as in the more southern parts of Tierra del
7921
Fuego, feldspathic, and associated with trappean or old volcanic rocks,
7922
passes by alternations into a great underlying mass of fine gneiss and
7923
glossy clay-slate, which at no great distance is succeeded by a grand
7924
formation of mica-slate containing garnets. The folia of these metamorphic
7925
schists strike parallel to the cleavage-planes of the clay-slate, which
7926
have a very uniform direction over the whole of this part of the country:
7927
the folia, however, are undulatory and tortuous, whilst the cleavage-
7928
laminae of the slate are straight. These schists compose the chief
7929
mountain-chain of Southern Tierra del Fuego, ranging along the north side
7930
of the northern arm of the Beagle Channel, in a short W.N.W. and E.S.E.
7931
line, with two points (Mounts Sarmiento and Darwin) rising to heights of
7932
6,800 and 6,900 feet. On the south-western side of this northern arm of the
7933
Beagle Channel, the clay-slate is seen with its STRATA dipping from the
7934
great chain, so that the metamorphic schists here form a ridge bordered on
7935
each side by clay-slate. Further north, however, to the west of this great
7936
range, there is no clay-slate, but only gneiss, mica, and hornblendic
7937
slates, resting on great barren hills of true granite, and forming a tract
7938
about sixty miles in width. Again, westward of these rocks, the outermost
7939
islands are of trappean formation, which, from information obtained during
7940
the voyages of the "Adventure" and "Beagle," seem, together with granite,
7941
chiefly to prevail along the western coast as far north as the entrance of
7942
the St. of Magellan (See the Paper by Captain King in the "Geographical
7943
Journal"; also a Letter to Dr. Fitton in "Geological Proceedings" volume 1
7944
page 29; also some observations by Captain Fitzroy "Voyages" volume 1 page
7945
375. I am indebted also to Mr. Lyell for a series of specimens collected by
7946
Lieutenant Graves.): a little more inland, on the eastern side of Clarence
7947
Island and S. Desolation, granite, greenstone, mica-slate, and gneiss
7948
appear to predominate. I am tempted to believe, that where the clay-slate
7949
has been metamorphosed at great depths beneath the surface, gneiss, mica-
7950
slate, and other allied rocks have been formed, but where the action has
7951
taken place nearer the surface, feldspathic porphyries, greenstones, etc.,
7952
have resulted, often accompanied by submarine volcanic eruptions.
7953

7954
Only one other rock, met with in both arms of the Beagle Channel, deserves
7955
any notice, namely a granulo-crystalline mixture of white albite, black
7956
hornblende (ascertained by measurement of the crystals, and confirmed by
7957
Professor Miller), and more or less of brown mica, but without any quartz.
7958
This rock occurs in large masses, closely resembling in external form
7959
granite or syenite: in the southern arm of the Channel, one such mass
7960
underlies the mica-slate, on which clay-slate was superimposed: this
7961
peculiar plutonic rock which, as we have seen, occurs also in Hardy
7962
Peninsula, is interesting, from its perfect similarity with that (hereafter
7963
often to be referred to under the name of andesite) forming the great
7964
injected axes of the Cordillera of Chile.
7965

7966
The stratification of the clay-slate is generally very obscure, whereas the
7967
cleavage is remarkably well defined: to begin with the extreme eastern
7968
parts of Tierra del Fuego; the cleavage-planes near the St. of Le Maire
7969
strike either W. and E. or W.S.W. and E.N.E., and are highly inclined; the
7970
form of the land, including Staten Island, indicates that the axes of
7971
elevation have run in this same line, though I was unable to distinguish
7972
the planes of stratification. Proceeding westward, I accurately examined
7973
the cleavage of the clay-slate on the northern, eastern, and western sides
7974
(thirty-five miles apart) of Navarin Island, and everywhere found the
7975
laminae ranging with extreme regularity, W.N.W. and E.S.E., seldom varying
7976
more than one point of the compass from this direction. (The clay-slate in
7977
this island was in many places crossed by parallel smooth joints. Out of
7978
five cases, the angle of intersection between the strike of these joints
7979
and that of the cleavage-laminae was in two cases 45 degrees and in two
7980
others 79 degrees.) Both on the east and west coasts, I crossed at right
7981
angles the cleavage-planes for a space of about eight miles, and found them
7982
dipping at an angle of between 45 degrees and 90 degrees, generally to
7983
S.S.W., sometimes to N.N.E., and often quite vertically. The S.S.W. dip was
7984
occasionally succeeded abruptly by a N.N.E. dip, and this by a vertical
7985
cleavage, or again by the S.S.W. dip; as in a lofty cliff on the eastern
7986
end of the island the laminae of slate were seen to be folded into very
7987
large steep curves, ranging in the usual W.N.W. line, I suspect that the
7988
varying and opposite dips may possibly be accounted for by the cleavage-
7989
laminae, though to the eye appearing straight, being parts of large abrupt
7990
curves, with their summits cut off and worn down.
7991

7992
In several places I was particularly struck with the fact, that the fine
7993
laminae of the clay-slate, where cutting straight through the bands of
7994
stratification, and therefore indisputably true cleavage-planes, differed
7995
slightly in their greyish and greenish tints of colour, in compactness, and
7996
in some of the laminae having a rather more jaspery appearance than others.
7997
I have not seen this fact recorded, and it appears to me important, for it
7998
shows that the same cause which has produced the highly fissile structure,
7999
has altered in a slight degree the mineralogical character of the rock in
8000
the same planes. The bands of stratification, just alluded to, can be
8001
distinguished in many places, especially in Navarin Island, but only on the
8002
weathered surfaces of the slate; they consist of slightly undulatory zones
8003
of different shades of colour and of thicknesses, and resemble the marks
8004
(more closely than anything else to which I can compare them) left on the
8005
inside of a vessel by the draining away of some dirty slightly agitated
8006
liquid: no difference in composition, corresponding with these zones, could
8007
be seen in freshly fractured surfaces. In the more level parts of Navarin
8008
Island, these bands of stratification were nearly horizontal; but on the
8009
flanks of the mountains they were inclined from them, but in no instance
8010
that I saw at a very high angle. There can, I think, be no doubt that these
8011
zones, which appear only on the weathered surfaces, are the last vestiges
8012
of the original planes of stratification, now almost obliterated by the
8013
highly fissile and altered structure which the mass has assumed.
8014

8015
The clay-slate cleaves in the same W.N.W. and E.S.E. direction, as on
8016
Navarin Island, on both sides of the Beagle Channel, on the eastern side of
8017
Hoste Island, on the N.E. side of Hardy Peninsula, and on the northern
8018
point of Wollaston Island; although in these two latter localities the
8019
cleavage has been much obscured by the metamorphosed and feldspathic
8020
condition of the slate. Within the area of these several islands, including
8021
Navarin Island, the direction of the stratification and of the mountain-
8022
chains is very obscure; though the mountains in several places appeared to
8023
range in the same W.N.W. line with the cleavage: the outline of the coast,
8024
however, does not correspond with this line. Near the bifurcation of the
8025
Beagle Channel, where the underlying metamorphic schists are first seen,
8026
they are foliated (with some irregularities), in this same W.N.W. line, and
8027
parallel, as before stated, to the main mountain-axis of this part of the
8028
country. Westward of this main range, the metamorphic schists are foliated,
8029
though less plainly, in the same direction, which is likewise common to the
8030
zone of old erupted trappean rocks, forming the outermost islets. Hence the
8031
area, over which the cleavage of the slate and the foliation of the
8032
metamorphic schists extends with an average W.N.W. and E.S.E. strike, is
8033
about forty miles in a north and south line, and ninety miles in an east
8034
and west line.
8035

8036
Further northward, near Port Famine, the stratification of the clay-slate
8037
and of the associated rocks, is well defined, and there alone the cleavage
8038
and strata-planes are parallel. A little north of this port there is an
8039
anticlinal axis ranging N.W. (or a little more westerly) and S.E.: south of
8040
the port, as far as Admiralty Sound and Gabriel Channel, the outline of the
8041
land clearly indicates the existence of several lines of elevation in this
8042
same N.W. direction, which, I may add, is so uniform in the western half of
8043
the St. of Magellan, that, as Captain King has remarked, "a parallel ruler
8044
placed on the map upon the projecting points of the south shore, and
8045
extended across the strait, will also touch the headlands on the opposite
8046
coast." ("Geographical Journal" volume 1 page 170.) It would appear, from
8047
Captain King's observations, that over all this area the cleavage extends
8048
in the same line. Deep-water channels, however, in all parts of Tierra del
8049
Fuego have burst through the trammels both of stratification and cleavage;
8050
most of them may have been formed during the elevation of the land by long-
8051
continued erosion, but others, for instance the Beagle Channel, which
8052
stretches like a narrow canal for 120 miles obliquely through the
8053
mountains, can hardly have thus originated.
8054

8055
Finally, we have seen that in the extreme eastern point of Tierra del
8056
Fuego, the cleavage and coast-lines extend W. and E. and even W.S.W. and
8057
E.N.E.: over a large area westward, the cleavage, the main range of
8058
mountains, and some subordinate ranges, but not the outlines of the coast,
8059
strike W.N.W., and E.S.E.: in the central and western parts of the St. of
8060
Magellan, the stratification, the mountain-ranges, the outlines of the
8061
coast, and the cleavage all strike nearly N.W. and S.E. North of the
8062
strait, the outline of the coast, and the mountains on the mainland, run
8063
nearly north and south. Hence we see, at this southern point of the
8064
continent, how gradually the Cordillera bend, from their north and south
8065
course of so many thousand miles in length, into an E. and even E.N.E.
8066
direction.
8067

8068
WEST COAST, FROM THE SOUTHERN CHONOS ISLANDS TO NORTHERN CHILE.
8069

8070
The first place at which we landed north of the St. of Magellan was near
8071
Cape Tres Montes, in latitude 47 degrees S. Between this point and the
8072
Northern Chonos Islands, a distance of 200 miles, the "Beagle" visited
8073
several points, and specimens were collected for me from the intermediate
8074
spaces by Lieutenant Stokes. The predominant rock is mica-slate, with thick
8075
folia of quartz, very frequently alternating with and passing into a
8076
chloritic, or into a black, glossy, often striated, slightly anthracitic
8077
schist, which soils paper, and becomes white under a great heat, and then
8078
fuses. Thin layers of feldspar, swelling at intervals into well
8079
crystallised kernels, are sometimes included in these black schists; and I
8080
observed one mass of the ordinary black variety insensibly lose its fissile
8081
structure, and pass into a singular mixture of chlorite, epidote, feldspar,
8082
and mica. Great veins of quartz are numerous in the mica-schists; wherever
8083
these occur the folia are much convoluted. In the southern part of the
8084
Peninsula of Tres Montes, a compact altered feldspathic rock with crystals
8085
of feldspar and grains of quartz is the commonest variety; this rock
8086
exhibits occasionally traces of an original brecciated structure, and often
8087
presents (like the altered state of Tierra del Fuego) traces of cleavage-
8088
planes, which strike in the same direction with the folia of mica-schist
8089
further northward. (The peculiar, abruptly conical form of the hills in
8090
this neighbourhood, would have led any one at first to have supposed that
8091
they had been formed of injected or intrusive rocks. At Inchemo Island, a
8092
similar rock gradually becomes granulo-crystalline and acquires scales of
8093
mica; and this variety at S. Estevan becomes highly laminated, and though
8094
still exhibiting some rounded grains of quartz, passes into the black,
8095
glossy, slightly anthracitic schist, which, as we have seen, repeatedly
8096
alternates with and passes into the micaceous and chloritic schists. Hence
8097
all the rocks on this line of coast belong to one series, and insensibly
8098
vary from an altered feldspathic clay-slate into largely foliated, true
8099
mica-schist.
8100

8101
The cleavage of the homogeneous schists, the foliation of those composed of
8102
more or less distinct minerals in layers, and the planes of alternation of
8103
the different varieties or so-called stratification, are all parallel, and
8104
preserve over this 200 miles of coast a remarkable degree of uniformity in
8105
direction. At the northern end of the group, at Low's Harbour, the well-
8106
defined folia of mica-schist everywhere ranged within eight degrees (or
8107
less than one point of the compass) of N. 19 degrees W. and S. 19 degrees
8108
E.; and even the point of dip varied very little, being always directed to
8109
the west and generally at an angle of forty degrees; I should mention that
8110
I had here good opportunities of observation, for I followed the naked rock
8111
on the beach, transversely to the strike, for a distance of four miles and
8112
a half, and all the way attended to the dip. Along the outer islands for
8113
100 miles south of Low's Harbour, Lieutenant Stokes, during his boat-
8114
survey, kindly observed for me the strike of the foliation, and he assures
8115
me that it was invariably northerly, and the dip with one single exception
8116
to the west. Further south at Vallenar Bay, the strike was almost
8117
universally N. 25 degrees W. and the dip, generally at an angle of about 40
8118
degrees to W. 25 degrees S., but in some places almost vertical. Still
8119
farther south, in the neighbourhood of the harbours of Anna Pink, S.
8120
Estevan and S. Andres, and (judging from a distance) along the southern
8121
part of Tres Montes, the foliation and cleavage extended in a line between
8122
[N. 11 degrees to 22 degrees W.] and [S. 11 degrees to 22 degrees E.]; and
8123
the planes dipped generally westerly, but often easterly, at angles varying
8124
from a gentle inclination to vertical. At A. Pink's Harbour, where the
8125
schists generally dipped easterly, wherever the angle became very high, the
8126
strike changed from N. 11 degrees W. to even as much as N. 45 degrees W.:
8127
in an analogous manner at Vallenar Bay, where the dip was westerly (viz. on
8128
an average directed to W. 25 degrees S.), as soon as the angle became very
8129
high, the planes struck in a line more than 25 degrees west of north. The
8130
average result from all the observations on this 200 miles of coast, is a
8131
strike of N. 19 degrees W. and S. 19 degrees E.: considering that in each
8132
specified place my examination extended over an area of several miles, and
8133
that Lieutenant Stokes' observations apply to a length of 100 miles, I
8134
think this remarkable uniformity is pretty well established. The
8135
prevalence, throughout the northern half of this line of coast, of a dip in
8136
one direction, that is to the west, instead of being sometimes west and
8137
sometimes east, is, judging from what I have elsewhere seen, an unusual
8138
circumstance. In Brazil, La Plata, the Falkland Islands, and Tierra del
8139
Fuego, there is generally an obvious relation between the axis of
8140
elevation, the outline of the coast, and the strike of the cleavage or
8141
foliation: in the Chonos Archipelago, however, neither the minor details of
8142
the coast-line, nor the chain of the Cordillera, nor the subordinate
8143
transverse mountain-axes, accord with the strike of the foliation and
8144
cleavage: the seaward face of the numerous islands composing this
8145
Archipelago, and apparently the line of the Cordillera, range N. 11 degrees
8146
E., whereas, as we have just seen, the average strike of the foliation is
8147
N. 19 degrees W.
8148

8149
There is one interesting exception to the uniformity in the strike of the
8150
foliation. At the northern point of Tres Montes (latitude 45 degrees 52
8151
minutes) a bold chain of granite, between two and three thousand feet in
8152
height, runs from the coast far into the interior, in an E.S.E. line, or
8153
more strictly E. 28 degrees S. and W. 28 degrees N. (In the distance, other
8154
mountains could be seen apparently ranging N.N.E. and S.S.W. at right
8155
angles to this one. I may add, that not far from Vallenar Bay there is a
8156
fine range, apparently of granite, which has burst through the mica-slate
8157
in a N.E. by E. and S.W. by S. line.) In a bay, at the northern foot of
8158
this range, there are a few islets of mica-slate, with the folia in some
8159
parts horizontal, but mostly inclined at an average angle of 20 degrees to
8160
the north. On the northern steep flank of the range, there are a few
8161
patches (some quite isolated, and not larger than half a-crown!) of the
8162
mica-schist, foliated with the same northerly dip. On the broad summit, as
8163
far as the southern crest, there is much mica-slate, in some places even
8164
400 feet in thickness, with the folia all dipping north, at angles varying
8165
from 5 degrees to 20 degrees, but sometimes mounting up to 30 degrees. The
8166
southern flank consists of bare granite. The mica-slate is penetrated by
8167
small veins of granite, branching from the main body. (The granite within
8168
these veins, as well as generally at the junction with the mica-slate, is
8169
more quartzose than elsewhere. The granite, I may add, is traversed by
8170
dikes running for a very great length in the line of the mountains; they
8171
are composed of a somewhat laminated eurite, containing crystals of
8172
feldspar, hornblende, and octagons of quartz.) Leaving out of view the
8173
prevalent strike of the folia in other parts of this Archipelago, it might
8174
have been expected that they would have dipped N. 28 degrees E., that is
8175
directly from the ridge, and, considering its abruptness, at a high
8176
inclination; but the real dip, as we have just seen, both at the foot and
8177
on the northern flank, and over the entire summit, is at a small angle, and
8178
directed nearly due north. From these considerations it occurred to me,
8179
that perhaps we here had the novel and curious case of already inclined
8180
laminae obliquely tilted at a subsequent period by the granitic axis. Mr.
8181
Hopkins, so well known from his mathematical investigations, has most
8182
kindly calculated the problem: the proposition sent was,--Take a district
8183
composed of laminae, dipping at an angle of 40 degrees to W. 19 degrees S.,
8184
and let an axis of elevation traverse it in an E. 28 degrees S. line, what
8185
will the position of the laminae be on the northern flank after a tilt, we
8186
will first suppose, of 45 degrees? Mr. Hopkins informs me, that the angle
8187
of the dip will be 28 degrees 31 minutes, and its direction to north 30
8188
degrees 33 minutes west. (On the south side of the axis (where, however, I
8189
did not see any mica-slate) the dip of the folia would be at an angle of 77
8190
degrees 55 minutes, directed to west 35 degrees 33 minutes south. Hence the
8191
two points of dip on the opposite sides of the range, instead of being as
8192
in ordinary cases directly opposed to each other at an angle of 180
8193
degrees, would here be only 86 degrees 50 minutes apart.) By varying the
8194
supposed angle of the tilt, our previously inclined folia can be thrown
8195
into any angle between 26 degrees, which is the least possible angle, and
8196
90 degrees; but if a small inclination be thus given to them, their point
8197
of dip will depart far from the north, and therefore not accord with the
8198
actual position of the folia of mica-schist on our granitic range. Hence it
8199
appears very difficult, without varying considerably the elements of the
8200
problem, thus to explain the anomalous strike and dip of the foliated mica-
8201
schist, especially in those parts, namely, at the base of the range, where
8202
the folia are almost horizontal. Mr. Hopkins, however, adds, that great
8203
irregularities and lateral thrusts might be expected in every great line of
8204
elevation, and that these would account for considerable deviations from
8205
the calculated results: considering that the granitic axis, as shown by the
8206
veins, has indisputably been injected after the perfect formation of the
8207
mica-slate, and considering the uniformity of the strike of the folia
8208
throughout the rest of the Archipelago, I cannot but still think that their
8209
anomalous position at this one point is someway directly and mechanically
8210
related to the intrusion of this W.N.W. and E.S.E. mountain-chain of
8211
granite.
8212

8213
Dikes are frequent in the metamorphic schists of the Chonos Islands, and
8214
seem feebly to represent that great band of trappean and ancient volcanic
8215
rocks on the south-western coast of Tierra del Fuego. At S. Andres I
8216
observed in the space of half-a-mile, seven broad, parallel dikes, composed
8217
of three varieties of trap, running in a N.W. and S.E. line, parallel to
8218
the neighbouring mountain-ranges of altered clay-slate; but they must be of
8219
long subsequent origin to these mountains; for they intersected the
8220
volcanic formation described in the last chapter. North of Tres Montes, I
8221
noticed three dikes differing from each other in composition, one of them
8222
having a euritic base including large octagons of quartz; these dikes, as
8223
well as several of porphyritic greenstone at Vallenar Bay, extended N.E.
8224
and S.W., nearly at right angles to the foliation of the schists, but in
8225
the line of their joints. At Low's Harbour, however, a set of great
8226
parallel dikes, one ninety yards and another sixty yards in width, have
8227
been guided by the foliation of the mica-schist, and hence are inclined
8228
westward at an angle of 45 degrees: these dikes are formed of various
8229
porphyritic traps, some of which are remarkable from containing numerous
8230
rounded grains of quartz. A porphyritic trap of this latter kind, passed in
8231
one of the dikes into a most curious hornstone, perfectly white, with a
8232
waxy fracture and pellucid edges, fusible, and containing many grains of
8233
quartz and specks of iron pyrites. In the ninety-yard dike several large,
8234
apparently now quite isolated, fragments of mica-slate were embedded: but
8235
as their foliation was exactly parallel to that of the surrounding solid
8236
rock, no doubt these new separate fragments originally formed wedge-shaped
8237
depending portions of a continuous vault or crust, once extending over the
8238
dike, but since worn down and denuded.
8239

8240
CHILOE, VALDIVIA, CONCEPCION.
8241

8242
In Chiloe, a great formation of mica-schist strikingly resembles that of
8243
the Chonos Islands. For a space of eleven miles on the S.E. coast, the
8244
folia were very distinct, though slightly convoluted, and ranged within a
8245
point of N.N.W. and S.S.E., dipping either E.N.E. or more commonly W.S.W.,
8246
at an average angle of 22 degrees (in one spot, however, at 60 degrees),
8247
and therefore decidedly at a lesser inclination than amongst the Chonos
8248
Islands. On the west and north-western shores, the foliation was often
8249
obscure, though, where best defined, it ranged within a point of N. by W.
8250
and S. by E., dipping either easterly or westerly, at varying and generally
8251
very small angles. Hence, from the southern part of Tres Montes to the
8252
northern end of Chiloe, a distance of 300 miles, we have closely allied
8253
rocks with their folia striking on an average in the same direction, namely
8254
between N. 11 degrees and 22 degrees W. Again, at Valdivia, we meet with
8255
the same mica-schist, exhibiting nearly the same mineralogical passages as
8256
in the Chonos Archipelago, often, however, becoming more ferruginous, and
8257
containing so much feldspar as to pass into gneiss. The folia were
8258
generally well defined; but nowhere else in South America did I see them
8259
varying so much in direction: this seemed chiefly caused by their forming
8260
parts, as I could sometimes distinctly trace, of large flat curves:
8261
nevertheless, both near the settlement and towards the interior, a N.W. and
8262
S.E. strike seemed more frequent than any other direction; the angle of the
8263
dip was generally small. At Concepcion, a highly glossy clay-slate had its
8264
cleavage often slightly curvilinear, and inclined, seldom at a high angle,
8265
towards various points of the compass: but here, as at Valdivia, a N.W. and
8266
S.E. strike seemed to be the most frequent one.
8267
((FIGURE 23.) I observed in some parts that the tops of the laminae of the
8268
clay-slate (b in Figure 23) under the superficial detritus and soil (a)
8269
were bent, sometimes without being broken, as represented in Figure 23,
8270
which is copied from one given by Sir H. De la Beche (page 42 "Geological
8271
Manual") of an exactly similar phenomenon in Devonshire. Mr. R.A.C. Austen,
8272
also, in his excellent paper on S.E. Devon ("Geological Transactions"
8273
volume 6 page 437), has described this phenomenon; he attributes it to the
8274
action of frosts, but at the same time doubts whether the frosts of the
8275
present day penetrate to a sufficient depth. As it is known that
8276
earthquakes particularly affect the surface of the ground, it occurred to
8277
me that this appearance might perhaps be due, at least at Concepcion, to
8278
their frequent occurrence; the superficial layers of detritus being either
8279
jerked in one direction, or, where the surface was inclined, pushed a
8280
little downwards during each strong vibration. In North Wales I have seen a
8281
somewhat analogous but less regular appearance, though on a greater scale
8282
("London Philosophical Magazine" volume 21 page 184), and produced by a
8283
quite different cause, namely, by the stranding of great icebergs; this
8284
latter appearance has also been observed in N. America.)
8285

8286
In certain spots large quartz veins were numerous, and near them, the
8287
cleavage, as was the case with the foliation of the schists in the Chonos
8288
Archipelago, became extremely tortuous.
8289

8290
At the northern end of Quiriquina Island, in the Bay of Concepcion, at
8291
least eight rudely parallel dikes, which have been guided to a certain
8292
extent by the cleavage of the slate, occur within the space of a quarter of
8293
a mile. They vary much in composition, resembling in many respects the
8294
dikes at Low's Harbour: the greater number consist of feldspathic
8295
porphyries, sometimes containing grains of quartz: one, however, was black
8296
and brilliant, like an augitic rock, but really formed of feldspar; others
8297
of a feldspathic nature were perfectly white, with either an earthy or
8298
crystalline fracture, and including grains and regular octagons of quartz;
8299
these white varieties passed into ordinary greenstones. Although, both here
8300
and at Low's Harbour, the nature of the rock varied considerably in the
8301
same dike, yet I cannot but think that at these two places and in other
8302
parts of the Chonos group, where the dikes, though close to each other and
8303
running parallel, are of different composition, that they must have been
8304
formed at different periods. In the case of Quiriquina this is a rather
8305
interesting conclusion, for these eight parallel dikes cut through the
8306
metamorphic schists in a N.W. and S.E. line, and since their injection the
8307
overlying cretaceous or tertiary strata have been tilted (whilst still
8308
under the sea) from a N.W. by N. and S.E. by S. line; and again, during the
8309
great earthquake of February 1835, the ground in this neighbourhood was
8310
fissured in N.W. and S.E. lines; and from the manner in which buildings
8311
were thrown down, it was evident that the surface undulated in this same
8312
direction. ("Geological Transactions" volume 6 pages 602 and 617. "Journal
8313
of Researches" 2nd edition page 307.)
8314

8315
CENTRAL AND NORTHERN CHILE.
8316

8317
Northward of Concepcion, as far as Copiapo, the shores of the Pacific
8318
consist, with the exception of some small tertiary basins, of gneiss, mica-
8319
schist, altered clay-slate, granite, greenstone and syenite: hence the
8320
coast from Tres Montes to Copiapo, a distance of 1,200 miles, and I have
8321
reason to believe for a much greater space, is almost similarly
8322
constituted.
8323

8324
Near Valparaiso the prevailing rock is gneiss, generally including much
8325
hornblende: concretionary balls formed of feldspar, hornblende and mica,
8326
from two or three feet in diameter, are in very many places conformably
8327
enfolded by the foliated gneiss: veins of quartz and feldspar, including
8328
black schorl and well-crystallised epidote, are numerous. Epidote likewise
8329
occurs in the gneiss in thin layers, parallel to the foliation of the mass.
8330
One large vein of a coarse granitic character was remarkable from in one
8331
part quite changing its character, and insensibly passing into a blackish
8332
porphyry, including acicular crystals of glassy feldspar and of hornblende:
8333
I have never seen any other such case. (Humboldt "Personal Narrative"
8334
volume 4 page 60, has described with much surprise, concretionary balls,
8335
with concentric divisions, composed of partially vitreous feldspar,
8336
hornblende, and garnets, included within great veins of gneiss, which cut
8337
across the mica-slate near Venezuela.)
8338

8339
I shall in the few following remarks on the rocks of Chile allude
8340
exclusively to their foliation and cleavage. In the gneiss round Valparaiso
8341
the strike of the foliation is very variable, but I think about N. by W.
8342
and S. by E. is the commonest direction; this likewise holds good with the
8343
cleavage of the altered feldspathic clay-slates, occasionally met with on
8344
the coast for ninety miles north of Valparaiso. Some feldspathic slate,
8345
alternating with strata of claystone porphyry in the Bell of Quillota and
8346
at Jajuel, and therefore, perhaps, belonging to a later period than the
8347
metamorphic schists on the coast, cleaved in this same direction. In the
8348
Eastern Cordillera, in the Portillo Pass, there is a grand mass of mica-
8349
slate, foliated in a north and south line, and with a high westerly dip: in
8350
the Uspallata range, clay-slate and grauwacke have a highly inclined,
8351
nearly north and south cleavage, though in some parts the strike is
8352
irregular: in the main or Cumbre range, the direction of the cleavage in
8353
the feldspathic clay-slate is N.W. and S.E.
8354

8355
Between Coquimbo and Guasco there are two considerable formations of mica-
8356
slate, in one of which the rock passed sometimes into common clay-slate and
8357
sometimes into a glossy black variety, very like that in the Chonos
8358
Archipelago. The folia and cleavage of these rocks ranged between [N. and
8359
N.W. by N.] and [S. and S.W. by S.]. Near the Port of Guasco several
8360
varieties of altered clay-slate have a quite irregular cleavage. Between
8361
Guasco and Copiapo, there are some siliceous and talcaceous slates cleaving
8362
in a north and south line, with an easterly dip of between 60 and 70
8363
degrees: high up, also, the main valley of Copiapo, there is mica-slate
8364
with a high easterly dip. In the whole space between Valparaiso and Copiapo
8365
an easterly dip is much more common than an opposite or westerly one.
8366

8367
CONCLUDING REMARKS ON CLEAVAGE AND FOLIATION.
8368

8369
In this southern part of the southern hemisphere, we have seen that the
8370
cleavage-laminae range over wide areas with remarkable uniformity, cutting
8371
straight through the planes of stratification, but yet being parallel in
8372
strike to the main axes of elevation, and generally to the outlines of the
8373
coast. (In my paper on the Falkland Islands "Geological Journal" volume 3
8374
page 267, I have given a curious case on the authority of Captain Sulivan,
8375
R.N., of much folded beds of clay-slate, in some of which the cleavage is
8376
perpendicular to the horizon, and in others it is perpendicular to each
8377
curvature or fold of the bed: this appears a new case.) The dip, however,
8378
is as variable, both in angle and in direction (that is, sometimes being
8379
inclined to the one side and sometimes to the directly opposite side), as
8380
the strike is uniform. In all these respects there is a close agreement
8381
with the facts given by Professor Sedgwick in his celebrated memoir in the
8382
"Geological Transactions," and by Sir R.I. Murchison in his various
8383
excellent discussions on this subject. The Falkland Islands, and more
8384
especially Tierra del Fuego, offer striking instances of the lines of
8385
cleavage, the principle axes of elevation, and the outlines of the coast,
8386
gradually changing together their courses. The direction which prevails
8387
throughout Tierra del Fuego and the Falkland Islands, namely, from west
8388
with some northing to east with some southing, is also common to the
8389
several ridges in Northern Patagonia and in the western parts of Banda
8390
Oriental: in this latter province, in the Sierra Tapalguen, and in the
8391
Western Falkland Island, the W. by N., or W.N.W. and E.S.E., ridges, are
8392
crossed at right angles by others ranging N.N.E. and S.S.W.
8393

8394
The fact of the cleavage-laminae in the clay-slate of Tierra del Fuego,
8395
where seen cutting straight through the planes of stratification, and where
8396
consequently there could be no doubt about their nature, differing slightly
8397
in colour, texture, and hardness, appears to me very interesting. In a
8398
thick mass of laminated, feldspathic and altered clay-slate, interposed
8399
between two great strata of porphyritic conglomerate in Central Chile, and
8400
where there could be but little doubt about the bedding, I observed similar
8401
slight differences in composition, and likewise some distinct thin layers
8402
of epidote, parallel to the highly inclined cleavage of the mass. Again, I
8403
incidentally noticed in North Wales, where glaciers had passed over the
8404
truncated edges of the highly inclined laminae of clay-slate, that the
8405
surface, though smooth, was worn into small parallel undulations, caused by
8406
the competent laminae being of slightly different degrees of hardness.
8407
("London Philosophical Magazine" volume 21 page 182.) With reference to the
8408
slates of North Wales, Professor Sedgwick describes the planes of cleavage,
8409
as "coated over with chlorite and semi-crystalline matter, which not only
8410
merely define the planes in question, but strike in parallel flakes through
8411
the whole mass of the rock." ("Geological Transactions" volume 3 page 471.)
8412
In some of those glossy and hard varieties of clay-slate, which may often
8413
be seen passing into mica-schist, it has appeared to me that the cleavage-
8414
planes were formed of excessively thin, generally slighted convoluted,
8415
folia, composed of microscopically minute scales of mica. From these
8416
several facts, and more especially from the case of the clay-slate in
8417
Tierra del Fuego, it must, I think, be concluded, that the same power which
8418
has impressed on the slate its fissile structure or cleavage has tended to
8419
modify its mineralogical character in parallel planes.
8420

8421
Let us now turn to the foliation of the metamorphic schists, a subject
8422
which has been much less attended to. As in the case of cleavage-laminae,
8423
the folia preserve over very large areas a uniform strike: thus Humboldt
8424
found for a distance of 300 miles in Venezuela, and indeed over a much
8425
larger space, gneiss, granite, mica, and clay-slate, striking very
8426
uniformly N.E. and S.W., and dipping at an angle of between 60 and 70
8427
degrees to N.W. ("Personal Narrative" volume 6 page 59 et seq.); it would
8428
even appear from the facts given in this chapter, that the metamorphic
8429
rocks throughout the north-eastern part of South America are generally
8430
foliated within two points of N.E. and S.W. Over the eastern parts of Banda
8431
Oriental, the foliation strikes with a high inclination, very uniformly
8432
N.N.E. to S.S.W., and over the western parts, in a W. by N. and E. by S.
8433
line. For a space of 300 miles on the shores of the Chonos and Chiloe
8434
Islands, we have seen that the foliation seldom deviates more than a point
8435
of the compass from a N. 19 degrees W. and S. 19 degrees E. strike. As in
8436
the case of cleavage, the angle of the dip in foliated rocks is generally
8437
high but variable, and alternates from one side of the line of strike to
8438
the other side, sometimes being vertical: in the Northern Chonos Islands,
8439
however, the folia are inclined almost always to the west; in nearly the
8440
same manner, the cleavage-laminae in Southern Tierra del Fuego certainly
8441
dip much more frequently to S.S.W. than to the opposite point. In Eastern
8442
Banda Oriental, in parts of Brazil, and in some other districts, the
8443
foliation runs in the same direction with the mountain-ranges and adjoining
8444
coast-lines: amongst the Chonos Islands, however, this coincidence fails,
8445
and I have given my reasons for suspecting that one granitic axis has burst
8446
through and tilted the already inclined folia of mica-schist: in the case
8447
of cleavage, the coincidence between its strike and that of the main
8448
stratification seems sometimes to fail. (Cases are given by Mr. Jukes in
8449
his "Geology of Newfoundland" page 130.) Foliation and cleavage resemble
8450
each other in the planes winding round concretions, and in becoming
8451
tortuous where veins of quartz abound. (I have seen in Brazil and Chile
8452
concretions thus enfolded by foliated gneiss; and Macculloch "Highlands"
8453
volume 1 page 64, has described a similar case. For analogous cases in
8454
clay-slate, see Professor Henslow's Memoir in "Cambridge Philosophical
8455
Transactions" volume 1 page 379, and Macculloch's "Classification of Rocks"
8456
page 351. With respect to both foliation and cleavage becoming tortuous
8457
where quartz-veins abound, I have seen instances near Monte Video, at
8458
Concepcion, and in the Chonos Islands. See also Mr. Greenough's "Critical
8459
Examination" page 78.) On the flanks of the mountains both in Tierra del
8460
Fuego and in other countries, I have observed that the cleavage-planes
8461
frequently dip at a high angle inwards; and this was long ago observed by
8462
Von Buch to be the case in Norway: this fact is perhaps analogous to the
8463
folded, fan-like or radiating structure in the metamorphic schists of the
8464
Alps, in which the folia in the central crests are vertical and on the two
8465
flanks inclined inwards. (Studer in "Edinburgh New Philosophical Journal"
8466
volume 23 page 144.) Where masses of fissile and foliated rocks alternate
8467
together, the cleavage and foliation, in all cases which I have seen, are
8468
parallel. Where in one district the rocks are fissile, and in another
8469
adjoining district they are foliated, the planes of cleavage and foliation
8470
are likewise generally parallel: this is the case with the feldspathic
8471
homogeneous slates in the southern part of the Chonos group, compared with
8472
the fine foliated mica-schists of the northern part; so again the clay-
8473
slate of the whole eastern side of Tierra del Fuego cleaves in exactly the
8474
same line with the foliated gneiss and mica-slate of the western coast;
8475
other analogous instances might have been adduced. (I have given a case in
8476
Australia. See my "Volcanic Islands.")
8477

8478
With respect to the origin of the folia of quartz, mica, feldspar, and
8479
other minerals composing the metamorphic schists, Professor Sedgwick, Mr.
8480
Lyell, and most authors believe, that the constituent parts of each layer
8481
were separately deposited as sediment, and then metamorphosed. This view,
8482
in the majority of cases, I believe to be quite untenable. In those not
8483
uncommon instances, where a mass of clay-slate, in approaching granite,
8484
gradually passes into gneiss, we clearly see that folia of distinct
8485
minerals can originate through the metamorphosis of a homogeneous fissile
8486
rock. (I have described in "Volcanic Islands" a good instance of such a
8487
passage at the Cape of Good Hope.) The deposition, it may be remarked, of
8488
numberless alternations of pure quartz, and of the elements of mica or
8489
feldspar does not appear a probable event. (See some excellent remarks on
8490
this subject, in D'Aubuisson's "Traite de Geog." tome 1 page 297. Also some
8491
remarks by Mr. Dana in "Silliman's American Journal" volume 45 page 108.)
8492
In those districts in which the metamorphic schists are foliated in planes
8493
parallel to the cleavage of the rocks in an adjoining district, are we to
8494
believe that the folia are due to sedimentary layers, whilst the cleavage-
8495
laminae, though parallel, have no relation whatever to such planes of
8496
deposition? On this view, how can we reconcile the vastness of the areas
8497
over which the strike of the foliation is uniform, with what we see in
8498
disturbed districts composed of true strata: and especially, how can we
8499
understand the high and even vertical dip throughout many wide districts,
8500
which are not mountainous, and throughout some, as in Western Banda
8501
Oriental, which are not even hilly? Are we to admit that in the northern
8502
part of the Chonos Archipelago, mica-slate was first accumulated in
8503
parallel horizontal folia to a thickness of about four geographical miles,
8504
and then upturned at an angle of forty degrees; whilst, in the southern
8505
part of this same Archipelago, the cleavage-laminae of closely allied
8506
rocks, which none would imagine had ever been horizontal, dip at nearly the
8507
same angle, to nearly the same point?
8508

8509
Seeing, then, that foliated schists indisputably are sometimes produced by
8510
the metamorphosis of homogeneous fissile rocks; seeing that foliation and
8511
cleavage are so closely analogous in the several above-enumerated respects;
8512
seeing that some fissile and almost homogeneous rocks show incipient
8513
mineralogical changes along the planes of their cleavage, and that other
8514
rocks with a fissile structure alternate with, and pass into varieties with
8515
a foliated structure, I cannot doubt that in most cases foliation and
8516
cleavage are parts of the same process: in cleavage there being only an
8517
incipient separation of the constituent minerals; in foliation a much more
8518
complete separation and crystallisation.
8519

8520
The fact often referred to in this chapter, of the foliation and the so-
8521
called strata in the metamorphic series,--that is, the alternating masses
8522
of different varieties of gneiss, mica-schist, and hornblende-slate, etc.,-
8523
-being parallel to each other, at first appears quite opposed to the view,
8524
that the folia have no relation to the planes of original deposition. Where
8525
the so-called beds are not very thick and of widely different mineralogical
8526
composition from each other, I do not think that there is any difficulty in
8527
supposing that they have originated in an analogous manner with the
8528
separate folia. We should bear in mind what thick strata, in ordinary
8529
sedimentary masses, have obviously been formed by a concretionary process.
8530
In a pile of volcanic rocks on the Island of Ascension, there are strata,
8531
differing quite as much in appearance as the ordinary varieties of the
8532
metamorphic schists, which undoubtedly have been produced, not by
8533
successive flowings of lava, but by internal molecular changes. Near Monte
8534
Video, where the stratification, as it would be called, of the metamorphic
8535
series is, in most parts, particularly well developed, being as usual,
8536
parallel to the foliation, we have seen that a mass of chloritic schist,
8537
netted with quartz-veins, is entangled in gneiss, in such a manner as to
8538
show that it had certainly originated in some process of segregation:
8539
again, in another spot, the gneiss tended to pass into hornblendic schist
8540
by alternating with layers of quartz; but these layers of quartz almost
8541
certainly had never been separately deposited, for they were absolutely
8542
continuous with the numerous intersecting veins of quartz. I have never had
8543
an opportunity of tracing for any distance, along the line both of strike
8544
and of dip, the so-called beds in the metamorphic schists, but I strongly
8545
suspect that they would not be found to extend with the same character,
8546
very far in the line either of their dip or strike. Hence I am led to
8547
believe, that most of the so-called beds are of the nature of complex
8548
folia, and have not been separately deposited. Of course, this view cannot
8549
be extended to THICK masses included in the metamorphic series, which are
8550
of totally different composition from the adjoining schists, and which are
8551
far extended, as is sometimes the case with quartz and marble; these must
8552
generally be of the nature of true strata. (Macculloch "Classification of
8553
Rocks" page 364, states that primary limestones are often found in
8554
irregular masses or great nodules, "which can scarcely be said to possess a
8555
stratified shape!") Such strata, however, will almost always strike in the
8556
same direction with the folia, owing to the axes of elevation being in most
8557
countries parallel to the strike of the foliation; but they will generally
8558
dip at a different angle from that of the foliation; and the angle of the
8559
foliation in itself almost always varies much: hence, in crossing a
8560
metamorphosed schistose district, it would require especial attention to
8561
discriminate between true strata of deposition and complex foliated masses.
8562
The mere presence of true strata in the midst of a set of metamorphic
8563
schists, is no argument that the foliation is of sedimentary origin,
8564
without it be further shown in each case, that the folia not only strike,
8565
but dip throughout in parallel planes with those of the true
8566
stratification.
8567

8568
As in some cases it appears that where a fissile rock has been exposed to
8569
partial metamorphic action, for instance from the irruption of granite, the
8570
foliation has supervened on the already existing cleavage-planes; so
8571
perhaps in some instances, the foliation of a rock may have been determined
8572
by the original planes of deposition or of oblique current-laminae: I have,
8573
however, myself, never seen such a case, and I must maintain that in most
8574
extensive metamorphic areas, the foliation is the extreme result of that
8575
process, of which cleavage is the first effect. That foliation may arise
8576
without any previous structural arrangement in the mass, we may infer from
8577
injected, and therefore once liquified, rocks, both of volcanic and
8578
plutonic origin, sometimes having a "grain" (as expressed by Professor
8579
Sedgwick), and sometimes being composed of distinct folia or laminae of
8580
different compositions. In my work on "Volcanic Islands," I have given
8581
several instances of this structure in volcanic rocks, and it is not
8582
uncommonly seen in plutonic masses--thus, in the Cordillera of Chile, there
8583
are gigantic mountain-like masses of red granite, which have been injected
8584
whilst liquified, and which, nevertheless, display in parts a decidedly
8585
laminar structure. (As remarked in a former part of this chapter, I suspect
8586
that the boldly conical mountains of gneiss-granite, near Rio de Janeiro,
8587
in which the constituent minerals are arranged in parallel planes, are of
8588
intrusive origin. We must not, however, forget the lesson of caution taught
8589
by the curious claystone porphyries of Port Desire, in which we have seen
8590
that the breaking up and aggregation of a thinly stratified tufaceous mass,
8591
has yielded a rock semi-porphyritic with crystals of feldspar, arranged in
8592
the planes of original deposition.)
8593

8594
Finally, we have seen that the planes of cleavage and of foliation, that
8595
is, of the incipient process and of the final result, generally strike
8596
parallel to the principal axes of elevation, and to the outline of the
8597
land: the strike of the axes of elevation (that is, of the lines of
8598
fissures with the strata on their edges upturned), according to the
8599
reasoning of Mr. Hopkins, is determined by the form of the area undergoing
8600
changes of level, and the consequent direction of the lines of tension and
8601
fissure. Now, in that remarkable pile of volcanic rocks at Ascension, which
8602
has several times been alluded to (and in some other cases), I have
8603
endeavoured to show, that the lamination of the several varieties, and
8604
their alternations, have been caused by the moving mass, just before its
8605
final consolidation, having been subjected (as in a glacier) to planes of
8606
different tension; this difference in the tension affecting the crystalline
8607
and concretionary processes. (In "Volcanic Islands.") One of the varieties
8608
of rock thus produced at Ascension, at first sight, singularly resembles a
8609
fine-grained gneiss; it consists of quite straight and parallel zones of
8610
excessive tenuity, of more or less coloured crystallised feldspar, of
8611
distinct crystals of quartz, diopside, and oxide of iron. These
8612
considerations, notwithstanding the experiments made by Mr. Fox, showing
8613
the influence of electrical currents in producing a structure like that of
8614
cleavage, and notwithstanding the apparently inexplicable variation, both
8615
in the inclination of the cleavage-laminae and in their dipping first to
8616
one side and then to the other side of the line of strike, lead me to
8617
suspect that the planes of cleavage and foliation are intimately connected
8618
with the planes of different tension, to which the area was long subjected,
8619
AFTER the main fissures or axes of upheavement had been formed, but BEFORE
8620
the final consolidation of the mass and the total cessation of all
8621
molecular movement.
8622

8623

8624
CHAPTER VII. CENTRAL CHILE:--STRUCTURE OF THE CORDILLERA.
8625

8626
Central Chile.
8627
Basal formations of the Cordillera.
8628
Origin of the porphyritic clay-stone conglomerate.
8629
Andesite.
8630
Volcanic rocks.
8631
Section of the Cordillera by the Peuquenes are Portillo Pass.
8632
Great gypseous formation.
8633
Peuquenes line; thickness of strata, fossils of.
8634
Portillo line.
8635
Conglomerate, orthitic granite, mica-schist, volcanic rocks of.
8636
Concluding remarks on the denudation and elevation of the Portillo line.
8637
Section by the Cumbre, or Uspallata Pass.
8638
Porphyries.
8639
Gypseous strata.
8640
Section near the Puente del Inca; fossils of.
8641
Great subsidence.
8642
Intrusive porphyries.
8643
Plain of Uspallata.
8644
Section of the Uspallata chain.
8645
Structure and nature of the strata.
8646
Silicified vertical trees.
8647
Great subsidence.
8648
Granitic rocks of axis.
8649
Concluding remarks on the Uspallata range; origin subsequent to that of the
8650
main Cordillera; two periods of subsidence; comparison with the Portillo
8651
chain.
8652

8653
The district between the Cordillera and the Pacific, on a rude average, is
8654
from about eighty to one hundred miles in width. It is crossed by many
8655
chains of mountains, of which the principal ones, in the latitude of
8656
Valparaiso and southward of it, range nearly north and south; but in the
8657
more northern parts of the province, they run in almost every possible
8658
direction. Near the Pacific, the mountain-ranges are generally formed of
8659
syenite or granite, and or of an allied euritic porphyry; in the low
8660
country, besides these granitic rocks and greenstone, and much gneiss,
8661
there are, especially northward of Valparaiso, some considerable districts
8662
of true clay-slate with quartz veins, passing into a feldspathic and
8663
porphyritic slate; there is also some grauwacke and quartzose and jaspery
8664
rocks, the latter occasionally assuming the character of the basis of
8665
claystone porphyry: trap-dikes are numerous. Nearer the Cordillera the
8666
ranges (such as those of S. Fernando, the Prado (Meyen "Reise um Erde" th.
8667
1 s. 235.), and Aconcagua) are formed partly of granitic rocks, and partly
8668
of purple porphyritic conglomerates, claystone porphyry, greenstone
8669
porphyry, and other rocks, such as we shall immediately see, form the basal
8670
strata of the main Cordillera. In the more northern parts of Chile, this
8671
porphyritic series extends over large tracts of country far from the
8672
Cordillera; and even in Central Chile such occasionally occur in outlying
8673
positions.
8674

8675
I will describe the Campana of Quillota, which stands only fifteen miles
8676
from the Pacific, as an instance of one of these outlying masses. This hill
8677
is conspicuous from rising to the height of 6,400 feet: its summit shows a
8678
nucleus, uncovered for a height of 800 feet, of fine greenstone, including
8679
epidote and octahedral magnetic iron ore; its flanks are formed of great
8680
strata of porphyritic claystone conglomerate associated with various true
8681
porphyries and amygdaloids, alternating with thick masses of a highly
8682
feldspathic, sometimes porphyritic, pale-coloured slaty rock, with its
8683
cleavage-laminae dipping inwards at a high angle. At the base of the hill
8684
there are syenites, a granular mixture of quartz and feldspar, and harsh
8685
quartzose rocks, all belonging to the basal metamorphic series. I may
8686
observe that at the foot of several hills of this class, where the
8687
porphyries are first seen (as near S. Fernando, the Prado, Las Vacas,
8688
etc.), similar harsh quartzose rocks and granular mixtures of quartz and
8689
feldspar occur, as if the more fusible constituent parts of the granitic
8690
series had been drawn off to form the overlying porphyries.
8691

8692
In Central Chile, the flanks of the main Cordillera, into which I
8693
penetrated by four different valleys, generally consist of distinctly
8694
stratified rocks. The strata are inclined at angles varying from sometimes
8695
even under ten, to twenty degrees, very rarely exceeding forty degrees: in
8696
some, however, of the quite small, exterior, spur-like ridges, the
8697
inclination was not unfrequently greater. The dip of the strata in the main
8698
outer lines was usually outwards or from the Cordillera, but in Northern
8699
Chile frequently inwards,--that is, their basset-edges fronted the Pacific.
8700
Dikes occur in extraordinary numbers. In the great, central, loftiest
8701
ridges, the strata, as we shall presently see, are almost always highly
8702
inclined and often vertical. Before giving a detailed account of my two
8703
sections across the Cordillera, it will, I think, be convenient to describe
8704
the basal strata as seen, often to a thickness of four or five thousand
8705
feet, on the flanks of the outer lines.
8706

8707
BASAL STRATA OF THE CORDILLERA.
8708

8709
The prevailing rock is a purplish or greenish, porphyritic claystone
8710
conglomerate. The embedded fragments vary in size from mere particles to
8711
blocks as much as six or eight inches (rarely more) in diameter; in many
8712
places, where the fragments were minute, the signs of aqueous deposition
8713
were unequivocally distinct; where they were large, such evidence could
8714
rarely be detected. The basis is generally porphyritic with perfect
8715
crystals of feldspar, and resembles that of a true injected claystone
8716
porphyry: often, however, it has a mechanical or sedimentary aspect, and
8717
sometimes (as at Jajuel) is jaspery. The included fragments are either
8718
angular, or partially or quite rounded (Some of the rounded fragments in
8719
the porphyritic conglomerate near the Baths of Cauquenes, were marked with
8720
radii and concentric zones of different shades of colour: any one who did
8721
not know that pebbles, for instance flint pebbles from the chalk, are
8722
sometimes zoned concentrically with their worn and rounded surfaces, might
8723
have been led to infer, that these balls of porphyry were not true pebbles,
8724
but had originated in concretionary action.); in some parts the rounded, in
8725
others the angular fragments prevail, and usually both kinds are mixed
8726
together: hence the word BRECCIA ought strictly to be appended to the term
8727
PORPHYRITIC CONGLOMERATE. The fragments consist of many varieties of
8728
claystone porphyry, usually of nearly the same colour with the surrounding
8729
basis, namely, purplish-reddish, brownish, mottled or bright green;
8730
occasionally fragments of a laminated, pale-coloured, feldspathic rock,
8731
like altered clay-slate are included; as are sometimes grains of quartz,
8732
but only in one instance in Central Chile (namely, at the mines of Jajuel)
8733
a few pebbles of quartz. I nowhere observed mica in this formation, and
8734
rarely hornblende; where the latter mineral did occur, I was generally in
8735
doubt whether the mass really belonged to this formation, or was of
8736
intrusive origin. Calcareous spar occasionally occurs in small cavities;
8737
and nests and layers of epidote are common. In some few places in the
8738
finer-grained varieties (for instance, at Quillota), there were short,
8739
interrupted layers of earthy feldspar, which could be traced, exactly as at
8740
Port Desire, passing into large crystals of feldspar: I doubt, however,
8741
whether in this instance the layers had ever been separately deposited as
8742
tufaceous sediment.
8743

8744
All the varieties of porphyritic conglomerates and breccias pass into each
8745
other, and by innumerable gradations into porphyries no longer retaining
8746
the least trace of mechanical origin: the transition appears to have been
8747
effected much more easily in the finer-grained, than in the coarser-grained
8748
varieties. In one instance, near Cauquenes, I noticed that a porphyritic
8749
conglomerate assumed a spheroidal structure, and tended to become columnar.
8750
Besides the porphyritic conglomerates and the perfectly characterised
8751
porphyries, of metamorphic origin, there are other porphyries, which,
8752
though differing not at all or only slightly in composition, certainly have
8753
had a different origin: these consist of pink or purple claystone
8754
porphyries, sometimes including grains of quartz,--of greenstone porphyry,
8755
and of other dusky rocks, all generally porphyritic with fine, large,
8756
tabular, opaque crystals, often placed crosswise, of feldspar cleaving like
8757
albite (judging from several measurements), and often amygdaloidal with
8758
silex, agate, carbonate of lime, green and brown bole. (This bole is a very
8759
common mineral in the amygdaloidal rocks; it is generally of a greenish-
8760
brown colour, with a radiating structure; externally it is black with an
8761
almost metallic lustre, but often coated by a bright green film. It is soft
8762
and can be scratched by a quill; under the blowpipe swells greatly and
8763
becomes scaly, then fuses easily into a black magnetic bead. This substance
8764
is evidently similar to that which often occurs in submarine volcanic
8765
rocks. An examination of some very curious specimens of a fine porphyry
8766
(from Jajuel) leads me to suspect that some of these amygdaloidal balls,
8767
instead of having been deposited in pre-existing air-vesicles, are of
8768
concretionary origin; for in these specimens, some of the pea-shaped little
8769
masses (often externally marked with minute pits) are formed of a mixture
8770
of green earth with stony matter, like the basis of the porphyry, including
8771
minute imperfect crystals of feldspar; and these pea-shaped little masses
8772
are themselves amygdaloidal with minute spheres of the green earth, each
8773
enveloped by a film of white, apparently feldspathic, earthy matter: so
8774
that the porphyry is doubly amygdaloidal. It should not, however, be
8775
overlooked, that all the strata here have undergone metamorphic action,
8776
which may have caused crystals of feldspar to appear, and other changes to
8777
be effected, in the originally simple amygdaloidal balls. Mr. J.D. Dana, in
8778
an excellent paper on Trap-rocks "Edinburgh New Philosophical Journal"
8779
volume 41 page 198, has argued with great force, that all amygdaloidal
8780
minerals have been deposited by aqueous infiltration. I may take this
8781
opportunity of alluding to a curious case, described in my work on
8782
"Volcanic Islands," of an amygdaloid with many of its cells only half
8783
filled up with a mesotypic mineral. M. Rose has described an amygdaloid,
8784
brought by Dr. Meyen "Reise um Erde" Th. 1. s. 316, from Chile, as
8785
consisting of crystallised quartz, with crystals of stilbite within, and
8786
lined externally by green earth.) These several porphyritic and
8787
amygdaloidal varieties never show any signs of passing into masses of
8788
sedimentary origin: they occur both in great and small intrusive masses,
8789
and likewise in strata alternating with those of the porphyritic
8790
conglomerate, and with the planes of junction often quite distinct, yet not
8791
seldom blended together. In some of these intrusive masses, the porphyries
8792
exhibit, more or less plainly, a brecciated structure, like that often seen
8793
in volcanic masses. These brecciated porphyries could generally be
8794
distinguished at once from the metamorphosed, porphyritic breccia-
8795
conglomerates, by all the fragments being angular and being formed of the
8796
same variety, and by the absence of every trace of aqueous deposition. One
8797
of the porphyries above specified, namely, the greenstone porphyry with
8798
large tabular crystals of albite, is particularly abundant, and in some
8799
parts of the Cordillera (as near St. Jago) seemed more common even than the
8800
purplish porphyritic conglomerate. Numerous dikes likewise consist of this
8801
greenstone porphyry; others are formed of various fine-grained trappean
8802
rocks; but very few of claystone porphyry: I saw no true basaltic dikes.
8803

8804
In several places in the lower part of the series, but not everywhere,
8805
thick masses of a highly feldspathic, often porphyritic, slaty rock occur
8806
interstratified with the porphyritic conglomerate; I believe in one or two
8807
cases blackish limestone has been found in a similar position. The
8808
feldspathic rock is of a pale grey or greenish colour; it is easily
8809
fusible; where porphyritic, the crystals of feldspar are generally small
8810
and vitreous: it is distinctly laminated, and sometimes includes parallel
8811
layers of epidote (This mineral is extremely common in all the formations
8812
of Chile; in the gneiss near Valparaiso and in the granitic veins crossing
8813
it, in the injected greenstone crowning the C. of Quillota, in some
8814
granitic porphyries, in the porphyritic conglomerate, and in the
8815
feldspathic clay-slates.); the lamination appears to be distinct from
8816
stratification. Occasionally this rock is somewhat curious; and at one
8817
spot, namely, at the C. of Quillota, it had a brecciated structure. Near
8818
the mines of Jajuel, in a thick stratum of this feldspathic, porphyritic
8819
slate, there was a layer of hard, blackish, siliceous, infusible, compact
8820
clay-slate, such as I saw nowhere else; at the same place I was able to
8821
follow for a considerable distance the junction between the slate and the
8822
conformably underlying porphyritic conglomerate, and they certainly passed
8823
gradually into each other. Wherever these slaty feldspathic rocks abound,
8824
greenstone seems common; at the C. of Quillota a bed of well-crystallised
8825
greenstone lay conformably in the midst of the feldspathic slate, with the
8826
upper and lower junctions passing insensibly into it. From this point, and
8827
from the frequently porphyritic condition of the slate, I should perhaps
8828
have considered this rock as an erupted one (like certain laminated
8829
feldspathic lavas in the trachytic series), had I not seen in Tierra del
8830
Fuego how readily true clay-slate becomes feldspathic and porphyritic, and
8831
had I not seen at Jajuel the included layer of black, siliceous clay-slate,
8832
which no one could have thought of igneous origin. The gentle passage of
8833
the feldspathic slate, at Jajuel, into the porphyritic conglomerate, which
8834
is certainly of aqueous origin, should also be taken in account.
8835

8836
The alternating strata of porphyries and porphyritic conglomerate, and with
8837
the occasionally included beds of feldspathic slate, together make a grand
8838
formation; in several places within the Cordillera, I estimated its
8839
thickness at from six to seven thousand feet. It extends for many hundred
8840
miles, forming the western flank of the Chilean Cordillera; and even at
8841
Iquique in Peru, 850 miles north of the southernmost point examined by me
8842
in Chile, the coast-escarpment which rises to a height of between two and
8843
three thousand feet is thus composed. In several parts of Northern Chile
8844
this formation extends much further towards the Pacific, over the granitic
8845
and metamorphic lower rocks, than it does in Central Chile; but the main
8846
Cordillera may be considered as its central line, and its breadth in an
8847
east and west direction is never great. At first the origin of this thick,
8848
massive, long but narrow formation, appeared to me very anomalous: whence
8849
were derived, and how were dispersed the innumerable fragments, often of
8850
large size, sometimes angular and sometimes rounded, and almost invariably
8851
composed of porphyritic rocks? Seeing that the interstratified porphyries
8852
are never vesicular and often not even amygdaloidal, we must conclude that
8853
the pile was formed in deep water; how then came so many fragments to be
8854
well rounded and so many to remain angular, sometimes the two kinds being
8855
equally mingled, sometimes one and sometimes the other preponderating? That
8856
the claystone, greenstone, and other porphyries and amygdaloids, which lie
8857
CONFORMABLY between the beds of conglomerate, are ancient submarine lavas,
8858
I think there can be no doubt; and I believe we must look to the craters
8859
whence these streams were erupted, as the source of the breccia-
8860
conglomerate; after the great explosion, we may fairly imagine that the
8861
water in the heated and scarcely quiescent crater would remain for a
8862
considerable time sufficiently agitated to triturate and round the loose
8863
fragments, few or many in number, would be shot forth at the next eruption,
8864
associated with few or many angular fragments, according to the strength of
8865
the explosion. (This certainly seems to have taken place in some recent
8866
volcanic archipelagos, as at the Galapagos, where numerous craters are
8867
exclusively formed of tuff and fragments of lava.) The porphyritic
8868
conglomerate being purple or reddish, even when alternating with dusty-
8869
coloured or bright green porphyries and amygdaloids, is probably an
8870
analogous circumstance to the scoriae of the blackish basalts being often
8871
bright red. The ancient submarine orifices whence the porphyries and their
8872
fragments were ejected having been arranged in a band, like most still
8873
active volcanoes, accounts for the thickness, the narrowness, and linear
8874
extension of this formation.
8875

8876
This whole great pile of rock has suffered much metamorphic action, as is
8877
very obvious in the gradual formation and appearance of the crystals of
8878
albitic feldspar and of epidote--in the bending together of the fragments--
8879
in the appearance of a laminated structure in the feldspathic slate--and,
8880
lastly, in the disappearance of the planes of stratification, which could
8881
sometimes be seen on the same mountain quite distinct in the upper part,
8882
less and less plain on the flanks, and quite obliterated at the base.
8883
Partly owing to this metamorphic action, and partly to the close
8884
relationship in origin, I have seen fragments of porphyries--taken from a
8885
metamorphosed conglomerate--from a neighbouring stream of lava--from the
8886
nucleus or centre (as it appeared to me) of the whole submarine volcano--
8887
and lastly from an intrusive mass of quite subsequent origin, all of which
8888
were absolutely undistinguishable in external characters.
8889

8890
One other rock, of plutonic origin, and highly important in the history of
8891
the Cordillera, from having been injected in most of the great axes of
8892
elevation, and from having apparently been instrumental in metamorphosing
8893
the superincumbent strata, may be conveniently described in this
8894
preliminary discussion. It has been called by some authors ANDESITE: it
8895
mainly consists of well-crystallised white albite (as determined with the
8896
goniometer in numerous specimens both by Professor Miller and myself), of
8897
less perfectly crystallised green hornblende, often associated with much
8898
mica, with chlorite and epidote, and occasionally with a few grains of
8899
quartz: in one instance in Northern Chile, I found crystals of orthitic or
8900
potash feldspar, mingled with those of albite. (I here, and elsewhere, call
8901
by this name, those feldspathic minerals which cleave like albite: but it
8902
now appears ("Edinburgh New Philosophical Journal" volume 24 page 181) that
8903
Abich has analysed a mineral from the Cordillera, associated with
8904
hornblende and quartz (probably the same rock with that here under
8905
discussion), which cleaves like albite, but which is a new and distinct
8906
kind, called by him ANDESINE. It is allied to leucite, with the greater
8907
proportion of its potash replaced by lime and soda. This mineral seems
8908
scarcely distinguishable from albite, except by analysis.) Where the mica
8909
and quartz are abundant, the rock cannot be distinguished from granite; and
8910
it may be called andesitic granite. Where these two minerals are quite
8911
absent, and when, as often then happens, the crystals of albite are
8912
imperfect and blend together, the rock may be called andesitic porphyry,
8913
which bears nearly the same relation to andesitic granite that euritic
8914
porphyry does to common granite. These andesitic rocks form mountain masses
8915
of a white colour, which, in their general outline and appearance--in their
8916
joints--in their occasionally including dark-coloured, angular fragments,
8917
apparently of some pre-existing rock--and in the great dikes branching from
8918
them into the superincumbent strata, manifest a close and striking
8919
resemblance to masses of common granite and syenite: I never, however, saw
8920
in these andesitic rocks, those granitic veins of segregation which are so
8921
common in true granites. We have seen that andesite occurs in three places
8922
in Tierra del Fuego; in Chile, from S. Fernando to Copiapo, a distance of
8923
450 miles, I found it under most of the axes of elevation; in a collection
8924
of specimens from the Cordillera of Lima in Peru, I immediately recognised
8925
it; and Erman states that it occurs in Eastern Kamtschatka. ("Geographical
8926
Journal" volume 9 page 510.) From its wide range, and from the important
8927
part it has played in the history of the Cordillera, I think this rock has
8928
well deserved its distinct name of Andesite.
8929

8930
The few still active volcanoes in Chile are confined to the central and
8931
loftiest ranges of the Cordillera; and volcanic matter, such as appears to
8932
have been of subaerial eruption, is everywhere rare. According to Meyen,
8933
there is a hill of pumice high up the valley of the Maypu, and likewise a
8934
trachytic formation at Colina, a village situated north of St. Jago.
8935
("Reise um Erde" Th. 1 ss. 338 and 362.) Close to this latter city, there
8936
are two hills formed of a pale feldspathic porphyry, remarkable from being
8937
doubly columnar, great cylindrical columns being subdivided into smaller
8938
four- or five-sided ones; and a third hillock (Cerro Blanco) is formed of a
8939
fragmentary mass of rock, which I believed to be of volcanic origin,
8940
intermediate in character between the above feldspathic porphyry and common
8941
trachyte, and containing needles of hornblende and granular oxide of iron.
8942
Near the Baths of Cauquenes, between two short parallel lines of elevation,
8943
where they are intersected by the valley, there is a small, though distinct
8944
volcanic district; the rock is a dark grey (andesitic) trachyte, which
8945
fuses into a greenish-grey bead, and is formed of long crystals of
8946
fractured glassy albite (judging from one measurement) mingled with well-
8947
formed crystals, often twin, of augite. The whole mass is vesicular, but
8948
the surface is darker coloured and much more vesicular than any other part.
8949
This trachyte forms a cliff-bounded, horizontal, narrow strip on the steep
8950
southern side of the valley, at the height of four or five hundred feet
8951
above the river-bed; judging from an apparently corresponding line of cliff
8952
on the northern side, the valley must once have been filled up to this
8953
height by a field of lava. On the summit of a lofty mountain some leagues
8954
higher up this same valley of the Cachapual, I found columnar pitchstone
8955
porphyritic with feldspar; I do not suppose this rock to be of volcanic
8956
origin, and only mention it here, from its being intersected by masses and
8957
dikes of a VESICULAR rock, approaching in character to trachyte; in no
8958
other part of Chile did I observe vesicular or amygdaloidal dikes, though
8959
these are so common in ordinary volcanic districts.
8960

8961
PASSAGE OF THE ANDES BY THE PORTILLO OR PEQUENES PASS.
8962

8963
Although I crossed the Cordillera only once by this pass, and only once by
8964
that of the Cumbre or Uspallata (presently to be described), riding slowly
8965
and halting occasionally to ascend the mountains, there are many
8966
circumstances favourable to obtaining a more faithful sketch of their
8967
structure than would at first be thought possible from so short an
8968
examination. The mountains are steep and absolutely bare of vegetation; the
8969
atmosphere is resplendently clear; the stratification distinct; and the
8970
rocks brightly and variously coloured: some of the natural sections might
8971
be truly compared for distinctness to those coloured ones in geological
8972
works. Considering how little is known of the structure of this gigantic
8973
range, to which I particularly attended, most travellers having collected
8974
only specimens of the rocks, I think my sketch-sections, though necessarily
8975
imperfect, possess some interest. Section 1/1 in Plate 1 which I will now
8976
describe in detail, is on a horizontal scale of a third of an inch to a
8977
nautical mile, and on a vertical scale of one inch to a mile (or 6,000
8978
feet). The width of the range (excluding a few outlying hillocks), from the
8979
plain on which St. Jago the capital of Chile stands, to the Pampas, is
8980
sixty miles, as far as I can judge from the maps, which differ from each
8981
other and are all EXCEEDINGLY imperfect. The St. Jago plain at the mouth of
8982
the Maypu, I estimate from adjoining known points at 2,300 feet, and the
8983
Pampas at 3,500 feet, both above the level of the sea. The height of the
8984
Pequenes line, according to Dr. Gillies, is 13,210 feet ("Journal of
8985
Natural and Geographical Science" August 1830.); and that of the Portillo
8986
line (both in the gaps where the road crosses them) is 14,345 feet; the
8987
lowest part of the intermediate valley of Tenuyan is 7,530 feet--all above
8988
the level of the sea.
8989

8990
The Cordillera here, and indeed I believe throughout Chile, consist of
8991
several parallel, anticlinal and uniclinal mountain-lines, ranging north,
8992
or north with a little westing, and south. Some exterior and much lower
8993
ridges often vary considerably from this course, projecting like oblique
8994
spurs from the main ranges: in the district towards the Pacific, the
8995
mountains, as before remarked, extend in various directions, even east and
8996
west. In the main exterior lines, the strata, as also before remarked, are
8997
seldom inclined at a high angle; but in the central lofty ridges they are
8998
almost always highly inclined, broken by many great faults, and often
8999
vertical. As far as I could judge, few of the ranges are of great length:
9000
and in the central parts of the Cordillera, I was frequently able to follow
9001
with my eye a ridge gradually becoming higher and higher, as the
9002
stratification increased in inclination, from one end where its height was
9003
trifling and its strata gently inclined to the other end where vertical
9004
strata formed snow-clad pinnacles. Even outside the main Cordillera, near
9005
the baths of Cauquenes, I observed one such case, where a north and south
9006
ridge had its strata in the valley inclined at 37 degrees, and less than a
9007
mile south of it at 67 degrees: another parallel and similarly inclined
9008
ridge rose at the distance of about five miles, into a lofty mountain with
9009
absolutely vertical strata. Within the Cordillera, the height of the ridges
9010
and the inclination of the strata often became doubled and trebled in much
9011
shorter distances than five miles; this peculiar form of upheaval probably
9012
indicates that the stratified crust was thin, and hence yielded to the
9013
underlying intrusive masses unequally, at certain points on the lines of
9014
fissure.
9015

9016
The valleys, by which the Cordillera are drained, follow the anticlinal or
9017
rarely synclinal troughs, which deviate most from the usual north and south
9018
course; or still more commonly those lines of faults or of unequal
9019
curvature (that is, lines with the strata on both hands dipping in the same
9020
direction, but at a somewhat different angle) which deviate most from a
9021
northerly course. Occasionally the torrents run for some distance in the
9022
north and south valleys, and then recover their eastern or western course
9023
by bursting through the ranges at those points where the strata have been
9024
least inclined and the height consequently is less. Hence the valleys,
9025
along which the roads run, are generally zigzag; and, in drawing an east
9026
and west section, it is necessary to contract greatly that which is
9027
actually seen on the road.
9028

9029
Commencing at the western end of Section 1/1 where the R. Maypu debouches
9030
on the plain of St. Jago, we immediately enter on the porphyritic
9031
conglomerate formation, and in the midst of it find some hummocks [A] of
9032
granite and syenite, which probably (for I neglected to collect specimens)
9033
belong to the andesitic class. These are succeeded by some rugged hills [B]
9034
of dark-green, crystalline, feldspathic and in some parts slaty rocks,
9035
which I believe belong to the altered clay-slate formation. From this
9036
point, great mountains of purplish and greenish, generally thinly
9037
stratified, highly porphyritic conglomerates, including many strata of
9038
amygdaloidal and greenstone porphyries, extend up the valley to the
9039
junction of the rivers Yeso and Volcan. As the valley here runs in a very
9040
southerly course, the width of the porphyritic conglomerate formation is
9041
quite conjectural; and from the same cause, I was unable to make out much
9042
about the stratification. In most of the exterior mountains the dip was
9043
gentle and directed inwards; and at only one spot I observed an inclination
9044
as high as 50 degrees. Near the junction of the R. Colorado with the main
9045
stream, there is a hill of whitish, brecciated, partially decomposed
9046
feldspathic porphyry, having a volcanic aspect but not being really of that
9047
nature: at Tolla, however, in this valley, Dr. Meyen met with a hill of
9048
pumice containing mica. ("Reise um Erde" Th.1 ss. 338, 341.) At the
9049
junction of the Yeso and Volcan [D] there is an extensive mass, in white
9050
conical hillocks, of andesite, containing some mica, and passing either
9051
into andesitic granite, or into a spotted, semi-granular mixture of albitic
9052
(?) feldspar and hornblende: in the midst of this formation Dr. Meyen found
9053
true trachyte. The andesite is covered by strata of dark-coloured,
9054
crystalline, obscurely porphyritic rocks, and above them by the ordinary
9055
porphyritic conglomerates,--the strata all dipping away at a small angle
9056
from the underlying mass. The surrounding lofty mountains appear to be
9057
entirely composed of the porphyritic conglomerate, and I estimated its
9058
thickness here at between six and seven thousand feet.
9059
Beyond the junction of the Yeso and Volcan, the porphyritic strata appear
9060
to dip towards the hillocks of andesite at an angle of 40 degrees; but at
9061
some distant points on the same ridge they are bent up and vertical.
9062
Following the valley of the Yeso, trending N.E. (and therefore still
9063
unfavourable for our transverse section), the same porphyritic conglomerate
9064
formation is prolonged to near the Cuestadel Indio, situated at the western
9065
end of the basin (like a drained lake) of Yeso. Some way before arriving at
9066
this point, distant lofty pinnacles capped by coloured strata belonging to
9067
the great gypseous formation could first be seen. From the summit of the
9068
Cuesta, looking southward, there is a magnificent sectional view of a
9069
mountain-mass, at least 2,000 feet in thickness [E], of fine andesite
9070
granite (containing much black mica, a little chlorite and quartz), which
9071
sends great white dikes far into the superincumbent, dark-coloured,
9072
porphyritic conglomerates. At the line of junction the two formations are
9073
wonderfully interlaced together: in the lower part of the porphyritic
9074
conglomerate, the stratification has been quite obliterated, whilst in the
9075
upper part it is very distinct, the beds composing the crests of the
9076
surrounding mountains being inclined at angles of between 70 and 80
9077
degrees, and some being even vertical. On the northern side of the valley,
9078
there is a great corresponding mass of andesitic granite, which is encased
9079
by porphyritic conglomerate, dipping both on the western and eastern sides,
9080
at about 80 degrees to west, but on the eastern side with the tips of the
9081
strata bent in such a manner, as to render it probable that the whole mass
9082
has been on that side thrown over and inverted.
9083

9084
In the valley basin of the Yeso, which I estimated at 7,000 feet above the
9085
level of the sea, we first reach at [F] the gypseous formation. Its
9086
thickness is very great. It consists in most parts of snow-white, hard,
9087
compact gypsum, which breaks with a saccharine fracture, having translucent
9088
edges; under the blowpipe gives out much vapour; it frequently includes
9089
nests and exceedingly thin layers of crystallised, blackish carbonate of
9090
lime. Large, irregularly shaped concretions (externally still exhibiting
9091
lines of aqueous deposition) of blackish-grey, but sometimes white,
9092
coarsely and brilliantly crystallised, hard anhydrite, abound within the
9093
common gypsum. Hillocks, formed of the hardest and purest varieties of the
9094
white gypsum, stand up above the surrounding parts, and have their surfaces
9095
cracked and marked, just like newly baked bread. There is much pale brown,
9096
soft argillaceous gypsum; and there were some intercalated green beds which
9097
I had not time to reach. I saw only one fragment of selenite or transparent
9098
gypsum, and that perhaps may have come from some subsequently formed vein.
9099
From the mineralogical characters here given, it is probable that these
9100
gypseous beds have undergone some metamorphic action. The strata are much
9101
hidden by detritus, but they appeared in most parts to be highly inclined;
9102
and in an adjoining lofty pinnacle they could be distinctly seen bending
9103
up, and becoming vertical, conformably with the underlying porphyritic
9104
conglomerate. In very many parts of the great mountain-face [F], composed
9105
of thin gypseous beds, there were innumerable masses, irregularly shaped
9106
and not like dikes, yet with well-defined edges, of an imperfectly
9107
granular, pale greenish, or yellowish-white rock, essentially composed of
9108
feldspar, with a little chlorite or hornblende, epidote, iron-pyrites, and
9109
ferruginous powder: I believe that these curious trappean masses have been
9110
injected from the not far distant mountain-mass [E] of andesite whilst
9111
still fluid, and that owing to the softness of the gypseous strata they
9112
have not acquired the ordinary forms of dikes. Subsequently to the
9113
injection of these feldspathic rocks, a great dislocation has taken place;
9114
and the much shattered gypseous strata here overlie a hillock [G], composed
9115
of vertical strata of impure limestone and of black highly calcareous shale
9116
including threads of gypsum: these rocks, as we shall presently see, belong
9117
to the upper parts of the gypseous series, and hence must here have been
9118
thrown down by a vast fault.
9119

9120
Proceeding up the valley-basin of the Yeso, and taking our section
9121
sometimes on one hand and sometimes on the other, we come to a great hill
9122
of stratified porphyritic conglomerate [H] dipping at 45 degrees to the
9123
west; and a few hundred yards farther on, we have a bed between three or
9124
four hundred feet thick of gypsum [I] dipping eastward at a very high
9125
angle: here then we have a fault and anticlinal axis. On the opposite side
9126
of the valley, a vertical mass of red conglomerate, conformably underlying
9127
the gypsum, appears gradually to lose its stratification and passes into a
9128
mountain of porphyry. The gypsum [I] is covered by a bed [K], at least
9129
1,000 feet in thickness, of a purplish-red, compact, heavy, fine-grained
9130
sandstone or mudstone, which fuses easily into a white enamel, and is seen
9131
under a lens to contain triturated crystals. This is succeeded by a bed
9132
[L], 1,000 feet thick (I believe I understate the thickness) of gypsum,
9133
exactly like the beds before described; and this again is capped by another
9134
great bed [M] of purplish-red sandstone. All these strata dip eastward; but
9135
the inclination becomes less and less, as we leave the first and almost
9136
vertical bed [I] of gypsum.
9137

9138
Leaving the basin-plain of Yeso, the road rapidly ascends, passing by
9139
mountains composed of the gypseous and associated beds, with their
9140
stratification greatly disturbed and therefore not easily intelligible:
9141
hence this part of the section has been left uncoloured. Shortly before
9142
reaching the great Pequenes ridge, the lowest stratum visible [N] is a red
9143
sandstone or mudstone, capped by a vast thickness of black, compact,
9144
calcareous, shaly rock [O], which has been thrown into four lofty, though
9145
small ridges: looking northward, the strata in these ridges are seen
9146
gradually to rise in inclination, becoming in some distant pinnacles
9147
absolutely vertical.
9148

9149
The ridge of Pequenes, which divides the waters flowing into the Pacific
9150
and Atlantic Oceans, extends in a nearly N.N.W. and S.S.E. line; its strata
9151
dip eastward at an angle of between 30 and 45 degrees, but in the higher
9152
peaks bending up and becoming almost vertical. Where the road crosses this
9153
range, the height is 13,210 feet above the sea-level, and I estimated the
9154
neighbouring pinnacles at from fourteen to fifteen thousand feet. The
9155
lowest stratum visible in this ridge is a red stratified sandstone [P]; on
9156
it are superimposed two great masses [Q and S] of black, hard, compact,
9157
even having a conchoidal fracture, calcareous, more or less laminated
9158
shale, passing into limestone: this rock contains organic remains,
9159
presently to be enumerated. The compacter varieties fuse easily in a white
9160
glass; and this I may add is a very general character with all the
9161
sedimentary beds in the Cordillera: although this rock when broken is
9162
generally quite black, it everywhere weathers into an ash-grey tint.
9163
Between these two great masses [Q and S], a bed [R] of gypsum is
9164
interposed, about three hundred feet in thickness, and having the same
9165
characters as heretofore described. I estimated the total thickness of
9166
these three beds [Q, R, S] at nearly three thousand feet; and to this must
9167
be added, as will be immediately seen, a great overlying mass of red
9168
sandstone.
9169

9170
In descending the eastern slope of this great central range, the strata,
9171
which in the upper part dip eastward at about an angle of 40 degrees,
9172
become more and more curved, till they are nearly vertical; and a little
9173
further onwards there is seen on the further side of a ravine, a thick mass
9174
of strata of bright red sandstone [T], with their upper extremities
9175
slightly curved, showing that they were once conformably prolonged over the
9176
beds [S]: on the southern and opposite side of the road, this red sandstone
9177
and the underlying black shaly rocks stand vertical, and in actual
9178
juxtaposition. Continuing to descend, we come to a synclinal valley filled
9179
with rubbish, beyond which we have the red sandstone [T2] corresponding
9180
with [T], and now dipping, as is seen both north and south of the road, at
9181
45 degrees to the west; and under it, the beds [S2, R2, Q2, and I believe
9182
P2] in corresponding order and of similar composition, with those on the
9183
western flank of the Pequenes range, but dipping westward. Close to the
9184
synclinal valley the dip of these strata is 45 degrees, but at the eastern
9185
or farther end of the series it increases to 60 degrees. Here the great
9186
gypseous formation abruptly terminates, and is succeeded eastward by a pile
9187
of more modern strata. Considering how violently these central ranges have
9188
been dislocated, and how very numerous dikes are in the exterior and lower
9189
parts of the Cordillera, it is remarkable that I did not here notice a
9190
single dike. The prevailing rock in this neighbourhood is the black,
9191
calcareous, compact shale, whilst in the valley-basin of the Yeso the
9192
purplish red sandstone or mudstone predominates,--both being associated
9193
with gypseous strata of exactly the same nature. It would be very difficult
9194
to ascertain the relative superposition of these several masses, for we
9195
shall afterwards see in the Cumbre Pass that the gypseous and intercalated
9196
beds are lens-shaped, and that they thin out, even where very thick, and
9197
disappear in short horizontal distances: it is quite possible that the
9198
black shales and red sandstones may be contemporaneous, but it is more
9199
probable that the former compose the uppermost parts of the series.
9200

9201
The fossils above alluded to in the black calcareous shales are few in
9202
number, and are in an imperfect condition; they consist, as named for me by
9203
M. d'Orbigny, of:--
9204

9205
1. Ammonite, indeterminable, near to A. recticostatus, d'Orbigny, "Pal.
9206
Franc." (Neocomian formation).
9207
2. Gryphaea, near to G. Couloni (Neocomian formations of France and
9208
Neufchatel).
9209
3. Natica, indeterminable.
9210
4. Cyprina rostrata, d'Orbigny, "Pal. Franc." (Neocomian formation).
9211
5. Rostellaria angulosa (?), d'Orbigny, "Pal. de l'Amer. Mer."
9212
6. Terebratula (?).
9213

9214
Some of the fragments of Ammonites were as thick as a man's arm: the
9215
Gryphaea is much the most abundant shell. These fossils M. d'Orbigny
9216
considers as belonging to the Neocomian stage of the Cretaceous system. Dr.
9217
Meyen, who ascended the valley of the Rio Volcan, a branch of the Yeso,
9218
found a nearly similar, but apparently more calcareous formation, with much
9219
gypsum, and no doubt the equivalent of that here described ("Reise um Erde"
9220
etc. Th. 1 s. 355.): the beds were vertical, and were prolonged up to the
9221
limits of perpetual snow; at the height of 9,000 feet above the sea, they
9222
abounded with fossils, consisting, according to Von Buch ("Descript. Phys.
9223
des Iles Canaries" page 471.), of:--
9224

9225
1. Exogyra (Gryphaea) Couloni, absolutely identical with specimens from the
9226
Jura and South of France.
9227
2. Trigonia costata, identical with those found in the upper Jurassic beds
9228
at Hildesheim.
9229
3. Pecten striatus, identical with those found in the upper Jurassic beds
9230
at Hildesheim.
9231
4. Cucullaea, corresponding in form to C. longirostris, so frequent in the
9232
upper Jurassic beds of Westphalia.
9233
5. Ammonites resembling A. biplex.
9234

9235
Von Buch concludes that this formation is intermediate between the
9236
limestone of the Jura and the chalk, and that it is analogous with the
9237
uppermost Jurassic beds forming the plains of Switzerland. Hence M.
9238
D'Orbigny and Von Buch, under different terms, compare these fossils to
9239
those from the same late stage in the secondary formations of Europe.
9240

9241
Some of the fossils which I collected were found a good way down the
9242
western slope of the main ridge, and hence must originally have been
9243
covered up by a great thickness of the black shaly rock, independently of
9244
the now denuded, thick, overlying masses of red sandstone. I neglected at
9245
the time to estimate how many hundred or rather thousand feet thick the
9246
superincumbent strata must have been: and I will not now attempt to do so.
9247
This, however, would have been a highly interesting point, as indicative of
9248
a great amount of subsidence, of which we shall hereafter find in other
9249
parts of the Cordillera analogous evidence during this same period. The
9250
altitude of the Peuquenes Range, considering its not great antiquity, is
9251
very remarkable; many of the fossils were embedded at the height of 13,210
9252
feet, and the same beds are prolonged up to at least from fourteen to
9253
fifteen thousand feet above the level of the sea.
9254

9255
THE PORTILLO OR EASTERN CHAIN.
9256

9257
The valley of Tenuyan, separating the Peuquenes and Portillo lines, is, as
9258
estimated by Dr. Gillies and myself, about twenty miles in width; the
9259
lowest part, where the road crosses the river, being 7,500 feet above the
9260
sea-level. The pass on the Portillo line is 14,365 feet high (1,100 feet
9261
higher than that on the Peuquenes), and the neighbouring pinnacles must, I
9262
conceive, rise to nearly 16,000 feet above the sea. The river draining the
9263
intermediate valley of Tenuyan, passes through the Portillo line. To return
9264
to our section:--shortly after leaving the lower beds [P2] of the gypseous
9265
formation, we come to grand masses of a coarse, red conglomerate [V],
9266
totally unlike any strata hitherto seen in the Cordillera. This
9267
conglomerate is distinctly stratified, some of the beds being well defined
9268
by the greater size of the pebbles: the cement is calcareous and sometimes
9269
crystalline, though the mass shows no signs of having been metamorphosed.
9270
The included pebbles are either perfectly or only partially rounded: they
9271
consist of purplish sandstones, of various porphyries, of brownish
9272
limestone, of black calcareous, compact shale precisely like that in situ
9273
in the Peuquenes range, and CONTAINING SOME OF THE SAME FOSSIL SHELLS; also
9274
very many pebbles of quartz, some of micaceous schist, and numerous,
9275
broken, rounded crystals of a reddish orthitic or potash feldspar (as
9276
determined by Professor Miller), and these from their size must have been
9277
derived from a coarse-grained rock, probably granite. From this feldspar
9278
being orthitic, and even from its external appearance, I venture positively
9279
to affirm that it has not been derived from the rocks of the western
9280
ranges; but, on the other hand, it may well have come, together with the
9281
quartz and metamorphic schists, from the eastern or Portillo line, for this
9282
line mainly consists of coarse orthitic granite. The pebbles of the
9283
fossiliferous slate and of the purple sandstone, certainly have been
9284
derived from the Peuquenes or western ranges.
9285

9286
The road crosses the valley of Tenuyan in a nearly east and west line, and
9287
for several miles we have on both hands the conglomerate, everywhere
9288
dipping west and forming separate great mountains. The strata, where first
9289
met with, after leaving the gypseous formation, are inclined westward at an
9290
angle of only 20 degrees, which further on increases to about 45 degrees.
9291
The gypseous strata, as we have seen, are also inclined westward: hence,
9292
when looking from the eastern side of the valley towards the Peuquenes
9293
range, a most deceptive appearance is presented, as if the newer beds of
9294
conglomerate dipped directly under the much older beds of the gypseous
9295
formation. In the middle of the valley, a bold mountain of unstratified
9296
lilac-coloured porphyry (with crystals of hornblende) projects; and further
9297
on, a little south of the road, there is another mountain, with its strata
9298
inclined at a small angle eastwards, which in its general aspect and
9299
colour, resembles the porphyritic conglomerate formation, so rare on this
9300
side of the Peuquenes line and so grandly developed throughout the western
9301
ranges.
9302

9303
The conglomerate is of great thickness: I do not suppose that the strata
9304
forming the separate mountain-masses [V,V,V] have ever been prolonged over
9305
each other, but that one mass has been broken up by several, distinct,
9306
parallel, uniclinal lines of elevation. Judging therefore of the thickness
9307
of the conglomerate, as seen in the separate mountain-masses, I estimated
9308
it at least from one thousand five hundred to two thousand feet. The lower
9309
beds rest conformably on some singularly coloured, soft strata [W], which I
9310
could not reach to examine; and these again rest conformably on a thick
9311
mass of micaceous, thinly laminated, siliceous sandstone [X], associated
9312
with a little black clay-slate. These lower beds are traversed by several
9313
dikes of decomposing porphyry. The laminated sandstone is directly
9314
superimposed on the vast masses of granite [Y,Y] which mainly compose the
9315
Portillo range. The line of junction between this latter rock, which is of
9316
a bright red colour, and the whitish sandstone was beautifully distinct;
9317
the sandstone being penetrated by numerous, great, tortuous dikes branching
9318
from the granite, and having been converted into a granular quartz rock
9319
(singularly like that of the Falkland Islands), containing specks of an
9320
ochrey powder, and black crystalline atoms, apparently of imperfect mica.
9321
The quartzose strata in one spot were folded into a regular dome.
9322

9323
The granite which composes the magnificent bare pinnacles and the steep
9324
western flank of the Portillo chain, is of a brick-red colour, coarsely
9325
crystallised, and composed of orthitic or potash feldspar, quartz, and
9326
imperfect mica in small quantity, sometimes passing into chlorite. These
9327
minerals occasionally assume a laminar or foliated arrangement. The fact of
9328
the feldspar being orthitic in this range, is very remarkable, considering
9329
how rare, or rather, as I believe, entirely absent, this mineral is
9330
throughout the western ranges, in which soda-feldspar, or at least a
9331
variety cleaving like albite, is so extremely abundant. In one spot on the
9332
western flank, and on the eastern flank near Los Manantiales and near the
9333
crest, I noticed some great masses of a whitish granite, parts of it fine-
9334
grained, and parts containing large crystals of feldspar; I neglected to
9335
collect specimens, so I do not know whether this feldspar is also orthitic,
9336
though I am inclined to think so from its general appearance. I saw also
9337
some syenite and one mass which resembled andesite, but of which I likewise
9338
neglected to collect specimens. From the manner in which the whitish
9339
granites formed separate mountain-masses in the midst of the brick-red
9340
variety, and from one such mass near the crest being traversed by numerous
9341
veins of flesh-coloured and greenish eurite (into which I occasionally
9342
observed the brick-red granite insensibly passing), I conclude that the
9343
white granites probably belong to an older formation, almost overwhelmed
9344
and penetrated by the red granite.
9345

9346
On the crest I saw also, at a short distance, some coloured stratified
9347
beds, apparently like those [W] at the western base, but was prevented
9348
examining them by a snowstorm: Mr. Caldcleugh, however, collected here
9349
specimens of ribboned jasper, magnesian limestone, and other minerals.
9350
("Travels" etc. volume 1 page 308.) A little way down the eastern slope a
9351
few fragments of quartz and mica-slate are met with; but the great
9352
formation of this latter rock [Z], which covers up much of the eastern
9353
flank and base of the Portillo range, cannot be conveniently examined until
9354
much lower down at a place called Mal Paso. The mica-schist here consists
9355
of thick layers of quartz, with intervening folia of finely-scaly mica,
9356
often passing into a substance like black glossy clay-slate: in one spot,
9357
the layers of the quartz having disappeared, the whole mass became
9358
converted into glossy clay-slate. Where the folia were best defined, they
9359
were inclined at a high angle westward, that is, towards the range. The
9360
line of junction between the dark mica-slate and the coarse red granite was
9361
most clearly distinguishable from a vast distance: the granite sent many
9362
small veins into the mica-slate, and included some angular fragments of it.
9363
As the sandstone on the western base has been converted by the red granite
9364
into a granular quartz-rock, so this great formation of mica-schist may
9365
possibly have been metamorphosed at the same time and by the same means;
9366
but I think it more probable, considering its more perfect metamorphic
9367
character and its well-pronounced foliation, that it belongs to an anterior
9368
epoch, connected with the white granites: I am the more inclined to this
9369
view, from having found at the foot of the range the mica-schist
9370
surrounding a hummock [Y2], exclusively composed of white granite. Near Los
9371
Arenales, the mountains on all sides are composed of the mica-slate; and
9372
looking backwards from this point up to the bare gigantic peaks above, the
9373
view was eminently interesting. The colours of the red granite and the
9374
black mica-slate are so distinct, that with a bright light these rocks
9375
could be readily distinguished even from the Pampas, at a level of at least
9376
9,000 feet below. The red granite, from being divided by parallel joints,
9377
has weathered into sharp pinnacles, on some of which, even on some of the
9378
loftiest, little caps of mica-schist could be clearly seen: here and there
9379
isolated patches of this rock adhered to the mountain-flanks, and these
9380
often corresponded in height and position on the opposite sides of the
9381
immense valleys. Lower down the schist prevailed more and more, with only a
9382
few quite small points of granite projecting through. Looking at the entire
9383
eastern face of the Portillo range, the red colour far exceeds in area the
9384
black; yet it was scarcely possible to doubt that the granite had once been
9385
almost wholly encased by the mica-schist.
9386

9387
At Los Arenales, low down on the eastern flank, the mica-slate is traversed
9388
by several closely adjoining, broad dikes, parallel to each other and to
9389
the foliation of the schist. The dikes are formed of three different
9390
varieties of rock, of which a pale brown feldspathic porphyry with grains
9391
of quartz was much the most abundant. These dikes with their granules of
9392
quartz, as well as the mica-schist itself, strikingly resemble the rocks of
9393
the Chonos Archipelago. At a height of about twelve hundred feet above the
9394
dikes, and perhaps connected with them, there is a range of cliffs formed
9395
of successive lava-streams [AA], between three and four hundred feet in
9396
thickness, and in places finely columnar. The lava consists of dark-
9397
greyish, harsh rocks, intermediate in character between trachyte and
9398
basalt, containing glassy feldspar, olivine, and a little mica, and
9399
sometimes amygdaloidal with zeolite: the basis is either quite compact, or
9400
crenulated with air-vesicles arranged in laminae. The streams are separated
9401
from each other by beds of fragmentary brown scoriae, firmly cemented
9402
together, and including a few well-rounded pebbles of lava. From their
9403
general appearance, I suspect that these lava-streams flowed at an ancient
9404
period under the pressure of the sea, when the Atlantic covered the Pampas
9405
and washed the eastern foot of the Cordillera. (This conclusion might,
9406
perhaps, even have been anticipated, from the general rarity of volcanic
9407
action, except near the sea or large bodies of water. Conformably with this
9408
rule, at the present day, there are no active volcanoes on this eastern
9409
side of the Cordillera; nor are severe earthquakes experienced here.) On
9410
the opposite and northern side of the valley there is another line of lava-
9411
cliffs at a corresponding height; the valley between being of considerable
9412
breadth, and as nearly as I could estimate 1,500 feet in depth. This field
9413
of lava is confined on both sides by the mountains of mica-schist, and
9414
slopes down rapidly but irregularly to the edge of the Pampas, where,
9415
having a thickness of about two hundred feet, it terminates against a
9416
little range of claystone porphyry. The valley in this lower part expands
9417
into a bay-like, gentle slope, bordered by the cliffs of lava, which must
9418
certainly once have extended across this wide expanse. The inclination of
9419
the streams from Los Arenales to the mouth of the valley is so great, that
9420
at the time (though ignorant of M. Elie de Beaumont's researches on the
9421
extremely small slope over which lava can flow, and yet retain a compact
9422
structure and considerable thickness) I concluded that they must
9423
subsequently to their flowing have been upheaved and tilted from the
9424
mountains; of this conclusion I can now entertain not the smallest doubt.
9425

9426
At the mouth of the valley, within the cliffs of the above lava-field,
9427
there are remnants, in the form of separate small hillocks and of lines of
9428
low cliffs, of a considerable deposit of compact white tuff (quarried for
9429
filtering-stones), composed of broken pumice, volcanic crystals, scales of
9430
mica, and fragments of lava. This mass has suffered much denudation; and
9431
the hard mica-schist has been deeply worn, since the period of its
9432
deposition; and this period must have been subsequent to the denudation of
9433
the basaltic lava-streams, as attested by their encircling cliffs standing
9434
at a higher level. At the present day, under the existing arid climate,
9435
ages might roll past without a square yard of rock of any kind being
9436
denuded, except perhaps in the rarely moistened drainage-channel of the
9437
valley. Must we then look back to that ancient period, when the waves of
9438
the sea beat against the eastern foot of the Cordillera, for a power
9439
sufficient to denude extensively, though superficially, this tufaceous
9440
deposit, soft although it be?
9441

9442
There remains only to mention some little water-worn hillocks [BB], a few
9443
hundred feet in height, and mere mole-hills compared with the gigantic
9444
mountains behind them, which rise out of the sloping, shingle-covered
9445
margin of the Pampas. The first little range is composed of a brecciated
9446
purple porphyritic claystone, with obscurely marked strata dipping at 70
9447
degrees to the S.W.; the other ranges consist of--a pale-coloured
9448
feldspathic porphyry,--a purple claystone porphyry with grains of quartz,--
9449
and a rock almost exclusively composed of brick-red crystals of feldspar.
9450
These outermost small lines of elevation extend in a N.W. by W. and S.E. by
9451
S. direction.
9452

9453
CONCLUDING REMARKS ON THE PORTILLO RANGE.
9454

9455
When on the Pampas and looking southward, and whilst travelling northward,
9456
I could see for very many leagues the red granite and dark mica-schist
9457
forming the crest and eastern flank of the Portillo line. This great range,
9458
according to Dr. Gillies, can be traced with little interruption for 140
9459
miles southward to the R. Diamante, where it unites with the western
9460
ranges: northward, according to this same author, it terminates where the
9461
R. Mendoza debouches from the mountains; but a little further north in the
9462
eastern part of the Cumbre section, there are, as we shall hereafter see,
9463
some mountain-masses of a brick-red porphyry, the last injected amidst many
9464
other porphyries, and having so close an analogy with the coarse red
9465
granite of the Portillo line, that I am tempted to believe that they belong
9466
to the same axis of injection; if so, the Portillo line is at least 200
9467
miles in length. Its height, even in the lowest gap in the road, is 14,365
9468
feet, and some of the pinnacles apparently attain an elevation of about
9469
16,000 feet above the sea. The geological history of this grand chain
9470
appears to me eminently interesting. We may safely conclude, that at a
9471
former period the valley of Tenuyan existed as an arm of the sea, about
9472
twenty-miles in width, bordered on one hand by a ridge or chain of islets
9473
of the black calcareous shales and purple sandstones of the gypseous
9474
formation; and on the other hand, by a ridge or chain of islets composed of
9475
mica-slate, white granite, and perhaps to a partial extent of red granite.
9476
These two chains, whilst thus bordering the old sea-channel, must have been
9477
exposed for a vast lapse of time to alluvial and littoral action, during
9478
which the rocks were shattered, the fragments rounded, and the strata of
9479
conglomerate accumulated to a thickness of at least fifteen hundred or two
9480
thousand feet. The red orthitic granite now forms, as we have seen, the
9481
main part of the Portillo chain: it is injected in dikes not only into the
9482
mica-schist and white granites, but into the laminated sandstone, which it
9483
has metamorphosed, and which it has thrown off, together with the
9484
conformably overlying coloured beds and stratified conglomerate, at an
9485
angle of forty-five degrees. To have thrown off so vast a pile of strata at
9486
this angle, is a proof that the main part of the red granite (whether or
9487
not portions, as perhaps is probable, previously existed) was injected in a
9488
liquified state after the accumulation both of the laminated sandstone and
9489
of the conglomerate; this conglomerate, we know, was accumulated, not only
9490
after the deposition of the fossiliferous strata of the Peuquenes line, but
9491
after their elevation and long-continued denudation: and these
9492
fossiliferous strata belong to the early part of the Cretaceous system.
9493
Late, therefore, in a geological sense, as must be the age of the main part
9494
of the red granite, I can conceive nothing more impressive than the eastern
9495
view of this great range, as forcing the mind to grapple with the idea of
9496
the thousands of thousands of years requisite for the denudation of the
9497
strata which originally encased it,--for that the fluidified granite was
9498
once encased, its mineralogical composition and structure, and the bold
9499
conical shape of the mountain-masses, yield sufficient evidence. Of the
9500
encasing strata we see the last vestiges in the coloured beds on the crest,
9501
in the little caps of mica-schist on some of the loftiest pinnacles, and in
9502
the isolated patches of this same rock at corresponding heights on the now
9503
bare and steep flanks.
9504

9505
The lava-streams at the eastern foot of the Portillo are interesting, not
9506
so much from the great denudation which they have suffered at a
9507
comparatively late period as from the evidence they afford by their
9508
inclination taken conjointly with their thickness and compactness, that
9509
after the great range had assumed its present general outline, it continued
9510
to rise as an axis of elevation. The plains extending from the base of the
9511
Cordillera to the Atlantic show that the continent has been upraised in
9512
mass to a height of 3,500 feet, and probably to a much greater height, for
9513
the smooth shingle-covered margin of the Pampas is prolonged in a gentle
9514
unbroken slope far up many of the great valleys. Nor let it be assumed that
9515
the Peuquenes and Portillo ranges have undergone only movements of
9516
elevation; for we shall hereafter see, that the bottom of the sea subsided
9517
several thousand feet during the deposition of strata, occupying the same
9518
relative place in the Cordillera, with those of the Peuquenes ridge;
9519
moreover, we shall see from the unequivocal evidence of buried upright
9520
trees, that at a somewhat later period, during the formation of the
9521
Uspallata chain, which corresponds geographically with that of the
9522
Portillo, there was another subsidence of many thousand feet: here, indeed,
9523
in the valley of Tenuyan, the accumulation of the coarse stratified
9524
conglomerate to a thickness of fifteen hundred or two thousand feet, offers
9525
strong presumptive evidence of subsidence; for all existing analogies lead
9526
to the belief that large pebbles can be transported only in shallow water,
9527
liable to be affected by currents and movements of undulation--and if so,
9528
the shallow bed of the sea on which the pebbles were first deposited must
9529
necessarily have sunk to allow of the accumulation of the superincumbent
9530
strata. What a history of changes of level, and of wear and tear, all since
9531
the age of the latter secondary formations of Europe, does the structure of
9532
this one great mountain-chain reveal!
9533

9534
PASSAGE OF THE ANDES BY THE CUMBRE OR USPALLATA PASS.
9535

9536
This Pass crosses the Andes about sixty miles north of that just described:
9537
the section given in Plate 1, Section 1/2, is on the same scale as before,
9538
namely, at one-third of an inch to a mile in distance, and one inch to a
9539
mile (or 6,000 feet) in height. Like the last section, it is a mere sketch,
9540
and cannot pretend to accuracy, though made under favourable circumstances.
9541
We will commence as before, with the western half, of which the main range
9542
bears the name of the Cumbre (that is the Ridge), and corresponds to the
9543
Peuquenes line in the former section; as does the Uspallata range, though
9544
on a much smaller scale, to that of the Portillo. Near the point where the
9545
river Aconcagua debouches on the basin plain of the same name, at a height
9546
of about two thousand three hundred feet above the sea, we meet with the
9547
usual purple and greenish porphyritic claystone conglomerate. Beds of this
9548
nature, alternating with numerous compact and amygdaloidal porphyries,
9549
which have flowed as submarine lavas, and associated with great mountain-
9550
masses of various, injected, non-stratified porphyries, are prolonged the
9551
whole distance up to the Cumbre or central ridge. One of the commonest
9552
stratified porphyries is of a green colour, highly amygdaloidal with the
9553
various minerals described in the preliminary discussion, and including
9554
fine tabular crystals of albite. The mountain-range north (often with a
9555
little westing) and south. The stratification, wherever I could clearly
9556
distinguish it, was inclined westward or towards the Pacific, and, except
9557
near the Cumbre, seldom at angles above 25 degrees. Only at one spot on
9558
this western side, on a lofty pinnacle not far from the Cumbre, I saw
9559
strata apparently belonging to the gypseous formation, and conformably
9560
capping a pile of stratified porphyries. Hence, both in composition and in
9561
stratification, the structure of the mountains on this western side of the
9562
divortium aquarum, is far more simple than in the corresponding part of the
9563
Peuquenes section. In the porphyritic claystone conglomerate, the
9564
mechanical structure and the planes of stratification have generally been
9565
much obscured and even quite obliterated towards the base of the series,
9566
whilst in the upper parts, near the summits of the mountains, both are
9567
distinctly displayed. In these upper portions the porphyries are generally
9568
lighter coloured. In three places [X, Y, Z] masses of andesite are exposed:
9569
at [Y], this rock contained some quartz, but the greater part consisted of
9570
andesitic porphyry, with only a few well-developed crystals of albite, and
9571
forming a great white mass, having the external aspect of granite, capped
9572
by much dark unstratified porphyry. In many parts of the mountains, there
9573
are dikes of a green colour, and other white ones, which latter probably
9574
spring from underlying masses of andesite.
9575

9576
The Cumbre, where the road crosses it, is, according to Mr. Pentland,
9577
12,454 feet above the sea; and the neighbouring peaks, composed of dark
9578
purple and whitish porphyries, some obscurely stratified with a westerly
9579
dip, and others without a trace of stratification, must exceed 13,000 feet
9580
in height. Descending the eastern slope of the Cumbre, the structure
9581
becomes very complicated, and generally differs on the two sides of the
9582
east and west line of road and section. First we come to a great mass [A]
9583
of nearly vertical, singularly contorted strata, composed of highly compact
9584
red sandstones, and of often calcareous conglomerates, and penetrated by
9585
green, yellow, and reddish dikes; but I shall presently have an opportunity
9586
of describing in some detail an analogous pile of strata. These vertical
9587
beds are abruptly succeeded by others [B], of apparently nearly the same
9588
nature but more metamorphosed, alternating with porphyries and limestones;
9589
these dip for a short space westward, but there has been here an
9590
extraordinary dislocation, which, on the north side of the road, appears to
9591
have determined the excavation of the north and south valley of the R. de
9592
las Cuevas. On this northern side of the road, the strata [B] are prolonged
9593
till they come in close contact with a jagged lofty mountain [D] of dark-
9594
coloured, unstratified, intrusive porphyry, where the beds have been more
9595
highly inclined and still more metamorphosed. This mountain of porphyry
9596
seems to form a short axis of elevation, for south of the road in its line
9597
there is a hill [C] of porphyritic conglomerate with absolutely vertical
9598
strata.
9599

9600
We now come to the gypseous formation: I will first describe the structure
9601
of the several mountains, and then give in one section a detailed account
9602
of the nature of the rocks. On the north side of the road, which here runs
9603
in an east and west valley, the mountain of porphyry [D] is succeeded by a
9604
hill [E] formed of the upper gypseous strata tilted, at an angle of between
9605
70 and 80 degrees to the west, by a uniclinal axis of elevation which does
9606
not run parallel to the other neighbouring ranges, and which is of short
9607
length; for on the south side of the valley its prolongation is marked only
9608
by a small flexure in a pile of strata inclined by a quite separate axis. A
9609
little further on the north and south valley of Horcones enters at right
9610
angles our line of section; its western side is bounded by a hill of
9611
gypseous strata [F] dipping westward at about 45 degrees, and its eastern
9612
side by a mountain of similar strata [G] inclined westward at 70 degrees,
9613
and superimposed by an oblique fault on another mass of the same strata
9614
[H], also inclined westward, but at an angle of about 30 degrees: the
9615
complicated relation of these three masses [F, G, H] is explained by the
9616
structure of a great mountain-range lying some way to the north, in which a
9617
regular anticlinal axis (represented in the section by dotted lines) is
9618
seen, with the strata on its eastern side again bending up and forming a
9619
distinct uniclinal axis, of which the beds marked [H] form the lower part.
9620
This great uniclinal line is intersected, near the Puente del Inca, by the
9621
valley along which the road runs, and the strata composing it will be
9622
immediately described. On the south side of the road, in the space
9623
corresponding with the mountains [E, F, and G], the strata everywhere dip
9624
westward generally at an angle of 30 degrees, occasionally mounting up to
9625
45 degrees, but not in an unbroken line, for there are several vertical
9626
faults, forming separate uniclinal masses, all dipping in the same
9627
direction,--a form of elevation common in the Cordillera. We thus see that
9628
within a narrow space, the gypseous strata have been upheaved and crushed
9629
together by a great uniclinal, anticlinal, and one lesser uniclinal line
9630
[E] of elevation; and that between these three lines and the Cumbre, in the
9631
sandstones, conglomerates and porphyritic formation, there have been at
9632
least two or three other great elevatory axes.
9633

9634
The uniclinal axis [I] intersected near the Puente del Inca (of which the
9635
strata at [H] form a part) ranges N. by W. and S. by E., forming a chain of
9636
mountains, apparently little inferior in height to the Cumbre: the strata,
9637
as we have seen, dip at an average angle of 30 degrees to the west. (At
9638
this place, there are some hot and cold springs, the warmest having a
9639
temperature, according to Lieutenant Brand "Travels," page 240, of 91
9640
degrees; they emit much gas. According to Mr. Brande, of the Royal
9641
Institution, ten cubical inches contain forty-five grains of solid matter,
9642
consisting chiefly of salt, gypsum, carbonate of lime, and oxide of iron.
9643
The water is charged with carbonic acid and sulphuretted hydrogen. These
9644
springs deposit much tufa in the form of spherical balls. They burst forth,
9645
as do those of Cauquenes, and probably those of Villa Vicencio, on a line
9646
of elevation.) The flanks of the mountains are here quite bare and steep,
9647
affording an excellent section; so that I was able to inspect the strata to
9648
a thickness of about 4,000 feet, and could clearly distinguish their
9649
general nature for 1,000 feet higher, making a total thickness of 5,000
9650
feet, to which must be added about 1,000 feet of the inferior strata seen a
9651
little lower down the valley, I will describe this one section in detail,
9652
beginning at the bottom.
9653

9654
1st. The lowest mass is the altered clay-slate described in the preliminary
9655
discussion, and which in this line of section was here first met with.
9656
Lower down the valley, at the R. de las Vacas, I had a better opportunity
9657
of examining it; it is there in some parts well characterised, having a
9658
distinct, nearly vertical, tortuous cleavage, ranging N.W. and S.E., and
9659
intersected by quartz veins: in most parts, however, it is crystalline and
9660
feldspathic, and passes into a true greenstone often including grains of
9661
quartz. The clay-slate, in its upper half, is frequently brecciated, the
9662
embedded angular fragments being of nearly the same nature with the paste.
9663

9664
2nd. Several strata of purplish porphyritic conglomerate, of no very great
9665
thickness, rest conformably upon the feldspathic slate. A thick bed of
9666
fine, purple, claystone porphyry, obscurely brecciated (but not of
9667
metamorphosed sedimentary origin), and capped by porphyritic conglomerate,
9668
was the lowest bed actually examined in this section at the Puente del
9669
Inca.
9670

9671
3rd. A stratum, eighty feet thick, of hard and very compact impure whitish
9672
limestone, weathering bright red, with included layers brecciated and re-
9673
cemented. Obscure marks of shell are distinguishable in it.
9674

9675
4th. A red, quartzose, fine-grained conglomerate, with grains of quartz,
9676
and with patches of white earthy feldspar, apparently due to some process
9677
of concretionary crystalline action; this bed is more compact and
9678
metamorphosed than any of the overlying conglomerates.
9679

9680
5th. A whitish cherty limestone, with nodules of bluish argillaceous
9681
limestone.
9682

9683
6th. A white conglomerate, with many particles of quartz, almost blending
9684
into the paste.
9685

9686
7th. Highly siliceous, fine-grained white sandstone.
9687

9688
8th and 9th. Red and white beds not examined.
9689

9690
10th. Yellow, fine-grained, thinly stratified, magnesian (judging from its
9691
slow dissolution in acids) limestone: it includes some white quartz
9692
pebbles, and little cavities, lined with calcareous spar, some retaining
9693
the form of shells.
9694

9695
11th. A bed between twenty and thirty feet thick, quite conformable with
9696
the underlying ones, composed of a hard basis, tinged lilac-grey
9697
porphyritic with NUMEROUS crystals of whitish feldspar, with black mica and
9698
little spots of soft ferruginous matter: evidently a submarine lava.
9699

9700
12th. Yellow magnesian limestone, as before, part-stained purple.
9701

9702
13th. A most singular rock; basis purplish grey, obscurely crystalline,
9703
easily fusible into a dark green glass, not hard, thickly speckled with
9704
crystals more or less perfect of white carbonate of lime, of red hydrous
9705
oxide of iron, of a white and transparent mineral like analcime, and of a
9706
green opaque mineral like soap-stone; the basis is moreover amygdaloidal
9707
with many spherical balls of white crystallised carbonate of lime, of which
9708
some are coated with the red oxide of iron. I have no doubt, from the
9709
examination of a superincumbent stratum (19), that this is a submarine
9710
lava; though in Northern Chile, some of the metamorphosed sedimentary beds
9711
are almost as crystalline, and of as varied composition.
9712

9713
14th. Red sandstone, passing in the upper part into a coarse, hard, red
9714
conglomerate, 300 feet thick, having a calcareous cement, and including
9715
grains of quartz and broken crystals of feldspar; basis infusible; the
9716
pebbles consist of dull purplish porphyries, with some of quartz, from the
9717
size of a nut to a man's head. This is the coarsest conglomerate in this
9718
part of the Cordillera: in the middle there was a white layer not examined.
9719

9720
15th. Grand thick bed, of a very hard, yellowish-white rock, with a
9721
crystalline feldspathic base, including large crystals of white feldspar,
9722
many little cavities mostly full of soft ferruginous matter, and numerous
9723
hexagonal plates of black mica. The upper part of this great bed is
9724
slightly cellular; the lower part compact: the thickness varied a little in
9725
different parts. Manifestly a submarine lava; and is allied to bed 11.
9726

9727
16th and 17th. Dull purplish, calcareous, fine-grained, compact sandstones,
9728
which pass into coarse white conglomerates with numerous particles of
9729
quartz.
9730

9731
18th. Several alternations of red conglomerate, purplish sandstone, and
9732
submarine lava, like that singular rock forming bed 13.
9733

9734
19th. A very heavy, compact, greenish-black stone, with a fine-grained
9735
obviously crystalline basis, containing a few specks of white calcareous
9736
spar, many specks of the crystallised hydrous red oxide of iron, and some
9737
specks of a green mineral; there are veins and nests filled with epidote:
9738
certainly a submarine lava.
9739

9740
20th. Many thin strata of compact, fine-grained, pale purple sandstone.
9741

9742
21st. Gypsum in a nearly pure state, about three hundred feet in thickness:
9743
this bed, in its concretions of anhydrite and layers of small blackish
9744
crystals of carbonate of lime, exactly resembles the great gypseous beds in
9745
the Peuquenes range.
9746

9747
22nd. Pale purple and reddish sandstone, as in bed 20: about three hundred
9748
feet in thickness.
9749

9750
23rd. A thick mass composed of layers, often as thin as paper and
9751
convoluted, of pure gypsum with others very impure, of a purplish colour.
9752

9753
24th. Pure gypsum, thick mass.
9754

9755
25th. Red sandstones, of great thickness.
9756

9757
26th. Pure gypsum, of great thickness.
9758

9759
27th. Alternating layers of pure and impure gypsum, of great thickness.
9760

9761
I was not able to ascend to these few last great strata, which compose the
9762
neighbouring loftiest pinnacles. The thickness, from the lowest to the
9763
uppermost bed of gypsum, cannot be less than 2,000 feet: the beds beneath I
9764
estimated at 3,000 feet, and this does not include either the lower parts
9765
of the porphyritic conglomerate, or the altered clay-slate; I conceive the
9766
total thickness must be about six thousand feet. I distinctly observed that
9767
not only the gypsum, but the alternating sandstones and conglomerates were
9768
lens-shaped, and repeatedly thinned out and replaced each other: thus in
9769
the distance of about a mile, a bed 300 feet thick of sandstone between two
9770
beds of gypsum, thinned out to nothing and disappeared. The lower part of
9771
this section differs remarkably,--in the much greater diversity of its
9772
mineralogical composition,--in the abundance of calcareous matter,--in the
9773
greater coarseness of some of the conglomerates,--and in the numerous
9774
particles and well-rounded pebbles, sometimes of large size, of quartz,--
9775
from any other section hitherto described in Chile. From these
9776
peculiarities and from the lens-form of the strata, it is probable that
9777
this great pile of strata was accumulated on a shallow and very uneven
9778
bottom, near some pre-existing land formed of various porphyries and
9779
quartz-rock. The formation of porphyritic claystone conglomerate does not
9780
in this section attain nearly its ordinary thickness; this may be PARTLY
9781
attributed to the metamorphic action having been here much less energetic
9782
than usual, though the lower beds have been affected to a certain degree.
9783
If it had been as energetic as in most other parts of Chile, many of the
9784
beds of sandstone and conglomerate, containing rounded masses of porphyry,
9785
would doubtless have been converted into porphyritic conglomerate; and
9786
these would have alternated with, and even blended into, crystalline and
9787
porphyritic strata without a trace of mechanical structure,--namely, into
9788
those which, in the present state of the section, we see are unquestionably
9789
submarine lavas.
9790

9791
The beds of gypsum, together with the red alternating sandstones and
9792
conglomerates, present so perfect and curious a resemblance with those seen
9793
in our former section in the basin-valley of Yeso, that I cannot doubt the
9794
identity of the two formations: I may add, that a little westward of the P.
9795
del Inca, a mass of gypsum passed into a fine-grained, hard, brown
9796
sandstone, which contained some layers of black, calcareous, compact, shaly
9797
rock, precisely like that seen in such vast masses on the Peuquenes range.
9798

9799
Near the Puente del Inca, numerous fragments of limestone, containing some
9800
fossil remains, were scattered on the ground: these fragments so perfectly
9801
resemble the limestone of bed No. 3, in which I saw impressions of shells,
9802
that I have no doubt they have fallen from it. The yellow magnesian
9803
limestone of bed No. 10, which also includes traces of shells, has a
9804
different appearance. These fossils (as named by M. d'Orbigny) consist of:-
9805
-
9806

9807
Gryphaea, near to G. Couloni (Neocomian formation).
9808
Arca, perhaps A. Gabrielis, d'Orbigny, "Pal. Franc." (Neocomian formation).
9809

9810
Mr. Pentland made a collection of shells from this same spot, and Von Buch
9811
considers them as consisting of:--
9812

9813
Trigonia, resembling in form T. costata.
9814
Pholadomya, like one found by M. Dufresnoy near Alencon.
9815
Isocardi excentrica, Voltz., identical with that from the Jura.
9816
("Description Phys. des Iles Can." page 472.)
9817

9818
Two of these shells, namely, the Gryphaea and Trigonia, appear to be
9819
identical with species collected by Meyen and myself on the Peuquenes
9820
range; and in the opinion of Von Buch and M. d'Orbigny, the two formations
9821
belong to the same age. I must here add, that Professor E. Forbes, who has
9822
examined my specimens from this place and from the Peuquenes range, has
9823
likewise a strong impression that they indicate the Cretaceous period, and
9824
probably an early epoch in it: so that all the palaeontologists who have
9825
seen these fossils nearly coincide in opinion regarding their age. The
9826
limestone, however, with these fossils here lies at the very base of the
9827
formation, just above the porphyritic conglomerate, and certainly several
9828
thousand feet lower in the series, than the equivalent, fossiliferous,
9829
black, shaly rocks high up on the Peuquenes range.
9830

9831
It is well worthy of remark that these shells, or at least those of which I
9832
saw impressions in the limestone (bed No. 3), must have been covered up, on
9833
the LEAST computation, by 4,000 feet of strata: now we know from Professor
9834
E. Forbes's researches, that the sea at greater depths than 600 feet
9835
becomes exceedingly barren of organic beings,--a result quite in accordance
9836
with what little I have seen of deep-sea soundings. Hence, after this
9837
limestone with its shells was deposited, the bottom of the sea where the
9838
main line of the Cordillera now stands, must have subsided some thousand
9839
feet to allow of the deposition of the superincumbent submarine strata.
9840
Without supposing a movement of this kind, it would, moreover, be
9841
impossible to understand the accumulation of the several lower strata of
9842
COARSE, well-rounded conglomerates, which it is scarcely possible to
9843
believe were spread out in profoundly deep water, and which, especially
9844
those containing pebbles of quartz, could hardly have been rounded in
9845
submarine craters and afterwards ejected from them, as I believe to have
9846
been the case with much of the porphyritic conglomerate formation. I may
9847
add that, in Professor Forbes's opinion, the above-enumerated species of
9848
mollusca probably did not live at a much greater depth than twenty fathoms,
9849
that is only 120 feet.
9850

9851
To return to our section down the valley; standing on the great N. by W.
9852
and S. by E. uniclinal axis of the Puente del Inca, of which a section has
9853
just been given, and looking north-east, greater tabular masses of gypseous
9854
formation (KK) could be seen in the distance, very slightly inclined
9855
towards the east. Lower down the valley, the mountains are almost
9856
exclusively composed of porphyries, many of them of intrusive origin and
9857
non-stratified, others stratified, but with the stratification seldom
9858
distinguishable except in the upper parts. Disregarding local disturbances,
9859
the beds are either horizontal or inclined at a small angle eastwards:
9860
hence, when standing on the plain of Uspallata and looking to the west or
9861
backwards, the Cordillera appear composed of huge, square, nearly
9862
horizontal, tabular masses: so wide a space, with such lofty mountains so
9863
equably elevated, is rarely met with within the Cordillera. In this line of
9864
section, the interval between the Puente del Inca and the neighbourhood of
9865
the Cumbre, includes all the chief axes of dislocation.
9866

9867
The altered clay-slate formation, already described, is seen in several
9868
parts of the valley as far down as Las Vacas, underlying the porphyritic
9869
conglomerate. At the Casa de Pujios [L], there is a hummock of (andesitic?)
9870
granite; and the stratification of the surrounding mountains here changes
9871
from W. by S. to S.W. Again, near the R. Vacas there is a larger formation
9872
of (andesitic?) granite [M], which sends a meshwork of veins into the
9873
superincumbent clay-slate, and which locally throws off the strata, on one
9874
side to N.W. and on the other to S.E. but not at a high angle: at the
9875
junction, the clay-slate is altered into fine-grained greenstone. This
9876
granitic axis is intersected by a green dike, which I mention, because I do
9877
not remember having elsewhere seen dikes in this lowest and latest
9878
intrusive rock. From the R. Vacas to the plain of Uspallata, the valley
9879
runs N.E., so that I have had to contract my section; it runs exclusively
9880
through porphyritic rocks. As far as the Pass of Jaula, the claystone
9881
conglomerate formation, in most parts highly porphyritic, and crossed by
9882
numerous dikes of greenstone porphyry, attains a great thickness: there is
9883
also much intrusive porphyry. From the Jaula to the plain, the
9884
stratification has been in most places obliterated, except near the tops of
9885
some of the mountains; and the metamorphic action has been extremely great.
9886
In this space, the number and bulk of the intrusive masses of differently
9887
coloured porphyries, injected one into another and intersected by dikes, is
9888
truly extraordinary. I saw one mountain of whitish porphyry, from which two
9889
huge dikes, thinning out, branched DOWNWARDS into an adjoining blackish
9890
porphyry. Another hill of white porphyry, which had burst through dark-
9891
coloured strata, was itself injected by a purple, brecciated, and
9892
recemented porphyry, both being crossed by a green dike, and both having
9893
been upheaved and injected by a granitic dome. One brick-red porphyry,
9894
which above the Jaula forms an isolated mass in the midst of the
9895
porphyritic conglomerate formation, and lower down the valley a magnificent
9896
group of peaked mountains, differs remarkably from all the other
9897
porphyries. It consists of a red feldspathic base, including some rather
9898
large crystals of red feldspar, numerous large angular grains of quartz,
9899
and little bits of a soft green mineral answering in most of its characters
9900
to soapstone. The crystals of red feldspar resemble in external appearance
9901
those of orthite, though, from being partially decomposed, I was unable to
9902
measure them; and they certainly are quite unlike the variety, so
9903
abundantly met with in almost all the other rocks of this line of section,
9904
and which, wherever I tried it, cleaved like albite. This brick-red
9905
porphyry appears to have burst through all the other porphyries, and
9906
numerous red dikes traversing the neighbouring mountains have proceeded
9907
from it: in some few places, however, it was intersected by white dikes.
9908
From this posteriority of intrusive origin,--from the close general
9909
resemblance between this red porphyry and the red granite of the Portillo
9910
line, the only difference being that the feldspar here is less perfectly
9911
granular, and that soapstone replaces the mica, which is there imperfect
9912
and passes into chlorite,--and from the Portillo line a little southward of
9913
this point appearing to blend (according to Dr. Gillies) into the western
9914
ranges,--I am strongly urged to believe (as formerly remarked) that the
9915
grand mountain-masses composed of this brick-red porphyry belong to the
9916
same axis of injection with the granite of the Portillo line; if so, the
9917
injection of this porphyry probably took place, as long subsequently to the
9918
several axes of elevation in the gypseous formation near the Cumbre, as the
9919
injection of the Portillo granite has been shown to have been subsequent to
9920
the elevation of the gypseous strata composing the Peuquenes range; and
9921
this interval, we have seen, must have been a very long one.
9922

9923
The Plain of Uspallata has been briefly described in Chapter 3; it
9924
resembles the basin-plains of Chile; it is ten or fifteen miles wide, and
9925
is said to extend for 180 miles northward; its surface is nearly six
9926
thousand feet above the sea; it is composed, to a thickness of some hundred
9927
feet of loosely aggregated, stratified shingle, which is prolonged with a
9928
gently sloping surface up the valleys in the mountains on both sides. One
9929
section in this plain [Z] is interesting, from the unusual circumstance of
9930
alternating layers of almost loose red and white sand with lines of pebbles
9931
(from the size of a nut to that of an apple), and beds of gravel, being
9932
inclined at an angle of 45 degrees, and in some spots even at a higher
9933
angle. (I find that Mr. Smith of Jordan Hill has described ("Edinburgh New
9934
Philosophical Journal" volume 25 page 392) beds of sand and gravel, near
9935
Edinburgh, tilted at an angle of 60 degrees, and dislocated by miniature
9936
faults.) These beds are dislocated by small faults: and are capped by a
9937
thick mass of horizontally stratified gravel, evidently of subaqueous
9938
origin. Having been accustomed to observe the irregularities of beds
9939
accumulated under currents, I feel sure that the inclination here has not
9940
been thus produced. The pebbles consist chiefly of the brick-red porphyry
9941
just described and of white granite, both probably derived from the ranges
9942
to the west, and of altered clay-slate and of certain porphyries,
9943
apparently belonging to the rocks of the Uspallata chain. This plain
9944
corresponds geographically with the valley of Tenuyan between the Portillo
9945
and Peuquenes ranges; but in that valley the shingle, which likewise has
9946
been derived both from the eastern and western ranges, has been cemented
9947
into a hard conglomerate, and has been throughout tilted at a considerable
9948
inclination; the gravel there apparently attains a much greater thickness,
9949
and is probably of higher antiquity.
9950

9951
THE USPALLATA RANGE.
9952

9953
The road by the Villa Vicencio Pass does not strike directly across the
9954
range, but runs for some leagues northward along its western base: and I
9955
must briefly describe the rocks here seen, before continuing with the
9956
coloured east and west section. At the mouth of the valley of Canota, and
9957
at several points northwards, there is an extensive formation of a glossy
9958
and harsh, and of a feldspathic clay-slate, including strata of grauwacke,
9959
and having a tortuous, nearly vertical cleavage, traversed by numerous
9960
metalliferous veins and others of quartz. The clay-slate is in many parts
9961
capped by a thick mass of fragments of the same rock, firmly recemented;
9962
and both together have been injected and broken up by very numerous
9963
hillocks, ranging north and south, of lilac, white, dark and salmon-
9964
coloured porphyries: one steep, now denuded, hillock of porphyry had its
9965
face as distinctly impressed with the angles of a fragmentary mass of the
9966
slate, with some of the points still remaining embedded, as sealing-wax
9967
could be by a seal. At the mouth of this same valley of Canota, in a fine
9968
escarpment having the strata dipping from 50 to 60 degrees to the N.E.
9969
(Nearly opposite to this escarpment, there is another corresponding one,
9970
with the strata dipping not to the exactly opposite point, or S.W., but to
9971
S.S.W.: consequently the two escarpments trend towards each other, and some
9972
miles southward they become actually united: this is a form of elevation
9973
which I have not elsewhere seen.), the clay-slate formation is seen to be
9974
covered by--(1st) a purple, claystone porphyry resting unconformably in
9975
some parts on the solid slate, and in others on a thick fragmentary mass;
9976
(2nd), a conformable stratum of compact blackish rock, having a spheroidal
9977
structure, full of minute acicular crystals of glassy feldspar, with red
9978
spots of oxide of iron; (3rd), a great stratum of purplish-red claystone
9979
porphyry, abounding with crystals of opaque feldspar, and laminated with
9980
thin, parallel, often short, layers, and likewise with great irregular
9981
patches of white, earthy, semi-crystalline feldspar; this rock (which I
9982
noticed in other neighbouring places) perfectly resembles a curious variety
9983
described at Port Desire, and occasionally occurs in the great porphyritic
9984
conglomerate formation of Chile; (4th), a thin stratum of greenish white,
9985
indurated tuff, fusible and containing broken crystals and particles of
9986
porphyries; (5th), a grand mass, imperfectly columnar and divided into
9987
three parallel and closely joined strata, of cream-coloured claystone
9988
porphyry; (6th), a thick stratum of lilac-coloured porphyry, which I could
9989
see was capped by another bed of the cream-coloured variety; I was unable
9990
to examine the still higher parts of the escarpment. These conformably
9991
stratified porphyries, though none are either vesicular are amygdaloidal,
9992
have evidently flowed as submarine lavas: some of them are separated from
9993
each other by seams of indurated tuff, which, however, are quite
9994
insignificant in thickness compared with the porphyries. This whole pile
9995
resembles, but not very closely, some of the less brecciated parts of the
9996
great porphyritic conglomerate formation of Chile; but it does not probably
9997
belong to the same age, as the porphyries here rest unconformably on the
9998
altered feldspathic clay-slate, whereas the porphyritic conglomerate
9999
formation alternates with and rests conformably on it. These porphyries,
10000
moreover, with the exception of the one blackish stratum, and of the one
10001
indurated, white tufaceous bed, differ from the beds composing the
10002
Uspallata range in the line of the Villa Vicencio Pass.
10003

10004
I will now give, first, a sketch of the structure of the range, as
10005
represented in the section, and will then describe its composition and
10006
interesting history. At its western foot, a hillock [N] is seen to rise out
10007
of the plain, with its strata dipping at 70 degrees to the west, fronted by
10008
strata [O] inclined at 45 degrees to the east, thus forming a little north
10009
and south anticlinal axis. Some other little hillocks of similar
10010
composition, with their strata highly inclined, range N.E. and S.W.,
10011
obliquely to the main Uspallata line. The cause of these dislocations,
10012
which, though on a small scale, have been violent and complicated, is seen
10013
to lie in hummocks of lilac, purple and red porphyries, which have been
10014
injected in a liquified state through and into the underlying clay-slate
10015
formation. Several dykes were exposed here, but in no other part, that I
10016
saw of this range. As the strata consist of black, white, greenish and
10017
brown-coloured rocks, and as the intrusive porphyries are so brightly
10018
tinted, a most extraordinary view was presented, like a coloured geological
10019
drawing. On the gently inclined main western slope [PP], above the little
10020
anticlinal ridges just mentioned, the strata dip at an average angle of 25
10021
degrees to the west; the inclination in some places being only 19 degrees,
10022
in some few others as much as 45 degrees. The masses having these different
10023
inclinations, are separated from each other by parallel vertical faults [as
10024
represented at Pa], often giving rise to separate, parallel, uniclinal
10025
ridges. The summit of the main range is broad and undulatory, with the
10026
stratification undulatory and irregular: in a few places granitic and
10027
porphyritic masses [Q] protrude, which, from the small effect they have
10028
locally produced in deranging the strata, probably form the upper points of
10029
a regular, great underlying dome. These denuded granitic points, I
10030
estimated at about nine thousand feet in height above the sea. On the
10031
eastern slope, the strata in the upper part are regularly inclined at about
10032
25 degrees to the east, so that the summit of this chain, neglecting small
10033
irregularities, forms a broad anticlinal axis. Lower down, however, near
10034
Los Hornillos [R], there is a well-marked synclinal axis, beyond which the
10035
strata are inclined at nearly the same angle, namely from 20 to 30 degrees,
10036
inwards or westward. Owing to the amount of denudation which this chain has
10037
suffered, the outline of the gently inclined eastern flank scarcely offers
10038
the slightest indication of this synclinal axis. The stratified beds, which
10039
we have hitherto followed across the range, a little further down are seen
10040
to lie, I believe unconformably, on a broad mountainous band of clay-slate
10041
and grauwacke. The strata and laminae of this latter formation, on the
10042
extreme eastern flank, are generally nearly vertical; further inwards they
10043
become inclined from 45 to 80 degrees to the west: near Villa Vicencio [S]
10044
there is apparently an anticlinal axis, but the structure of this outer
10045
part of the clay-slate formation is so obscure, that I have not marked the
10046
planes of stratification in the section. On the margin of the Pampas, some
10047
low, much dislocated spurs of this same formation, project in a north-
10048
easterly line, in the same oblique manner as do the ridges on the western
10049
foot, and as is so frequently the case with those at the base of the main
10050
Cordillera.
10051

10052
I will now describe the nature of the beds, beginning at the base on the
10053
eastern side. First, for the clay-slate formation: the slate is generally
10054
hard and bluish, with the laminae coated by minute micaceous scales; it
10055
alternates many times with a coarse-grained, greenish grauwacke, containing
10056
rounded fragments of quartz and bits of slate in a slightly calcareous
10057
basis. The slate in the upper part generally becomes purplish, and the
10058
cleavage so irregular that the whole consists of mere splinters. Transverse
10059
veins of quartz are numerous. At the Calera, some leagues distant, there is
10060
a dark crystalline limestone, apparently included in this formation. With
10061
the exception of the grauwacke being here more abundant, and the clay-slate
10062
less altered, this formation closely resembles that unconformably
10063
underlying the porphyries at the western foot of this same range; and
10064
likewise that alternating with the porphyritic conglomerate in the main
10065
Cordillera. This formation is a considerable one, and extends several
10066
leagues southward to near Mendoza: the mountains composed of it rise to a
10067
height of about two thousand feet above the edge of the Pampas, or about
10068
seven thousand feet above the sea. (I infer this from the height of V.
10069
Vicencio, which was ascertained by Mr. Miers to be 5,328 feet above the
10070
sea.)
10071

10072
Secondly: the most usual bed on the clay-slate is a coarse, white, slightly
10073
calcareous conglomerate, of no great thickness, including broken crystals
10074
of feldspar, grains of quartz, and numerous pebbles of brecciated claystone
10075
porphyry, but without any pebbles of the underlying clay-slate. I nowhere
10076
saw the actual junction between this bed and the clay-slate, though I spent
10077
a whole day in endeavouring to discover their relations. In some places I
10078
distinctly saw the white conglomerate and overlying beds inclined at from
10079
25 to 30 degrees to the west, and at the bottom of the same mountain, the
10080
clay-slate and grauwacke inclined to the same point, but at an angle from
10081
70 to 80 degrees: in one instance, the clay-slate dipped not only at a
10082
different angle, but to a different point from the overlying formation. In
10083
these cases the two formations certainly appeared quite unconformable:
10084
moreover, I found in the clay-slate one great, vertical, dike-like fissure,
10085
filled up with an indurated whitish tuff, quite similar to some of the
10086
upper beds presently to be described; and this shows that the clay-slate
10087
must have been consolidated and dislocated before their deposition. On the
10088
other hand, the stratification of the slate and grauwacke, in some cases
10089
gradually and entirely disappeared in approaching the overlying white
10090
conglomerate; in other cases the stratification of the two formations
10091
became strictly conformable; and again in other cases, there was some
10092
tolerably well characterised clay-slate lying above the conglomerate. (The
10093
coarse, mechanical structure of many grauwackes has always appeared to me a
10094
difficulty; for the texture of the associated clay-slate and the nature of
10095
the embedded organic remains where present, indicate that the whole has
10096
been a deep-water deposit. Whence have the sometimes included angular
10097
fragments of clay-slate, and the rounded masses of quartz and other rocks,
10098
been derived? Many deep-water limestones, it is well known, have been
10099
brecciated, and then firmly recemented.) The most probable conclusion
10100
appears to be, that after the clay-slate formation had been dislocated and
10101
tilted, but whilst under the sea, a fresh and more recent deposition of
10102
clay-slate took place, on which the white conglomerate was conformably
10103
deposited, with here and there a thin intercalated bed of clay-slate. On
10104
this view the white conglomerates and the presently to be described tuffs
10105
and lavas are really unconformable to the main part of the clay-slate; and
10106
this, as we have seen, certainly is the case with the clay-stone lavas in
10107
the valley of Canota, at the western and opposite base of the range.
10108

10109
Thirdly: on the white conglomerate, strata several hundred feet in
10110
thickness are superimposed, varying much in nature in short distances: the
10111
commonest variety is a white, much indurated tuff, sometimes slightly
10112
calcareous, with ferruginous spots and water-lines, often passing into
10113
whitish or purplish compact, fine-grained grit or sandstones; other
10114
varieties become semi-porcellanic, and tinted faint green or blue; others
10115
pass into an indurated shale: most of these varieties are easily fusible.
10116

10117
Fourthly: a bed, about one hundred feet thick of a compact, partially
10118
columnar, pale-grey, feldspathic lava, stained with iron, including very
10119
numerous crystals of opaque feldspar, and with some crystallised and
10120
disseminated calcareous matter. The tufaceous stratum on which this
10121
feldspathic lava rests is much hardened, stained purple, and has a
10122
spherico-concretionary structure; it here contains a good many pebbles of
10123
claystone porphyry.
10124

10125
Fifthly: thin beds, 400 feet in thickness, varying much in nature,
10126
consisting of white and ferruginous tuffs, in some parts having a
10127
concretionary structure, in others containing rounded grains and a few
10128
pebbles of quartz; also passing into hard gritstones and into greenish
10129
mudstones: there is, also, much of a bluish-grey and green semi-porcellanic
10130
stone.
10131

10132
Sixthly: a volcanic stratum, 250 feet in thickness, of so varying a nature
10133
that I do not believe a score of specimens would show all the varieties;
10134
much is highly amygdaloidal, much compact; there are greenish, blackish,
10135
purplish, and grey varieties, rarely including crystals of green augite and
10136
minute acicular ones of feldspar, but often crystals and amygdaloidal
10137
masses of white, red, and black carbonate of lime. Some of the blackish
10138
varieties of this rock have a conchoidal fracture and resemble basalt;
10139
others have an irregular fracture. Some of the grey and purplish varieties
10140
are thickly speckled with green earth and with white crystalline carbonate
10141
of lime; others are largely amygdaloidal with green earth and calcareous
10142
spar. Again, other earthy varieties, of greenish, purplish and grey tints,
10143
contain much iron, and are almost half composed of amygdaloidal balls of
10144
dark brown bole, of a whitish indurated feldspathic matter, of bright green
10145
earth, of agate, and of black and white crystallised carbonate of lime. All
10146
these varieties are easily fusible. Viewed from a distance, the line of
10147
junction with the underlying semi-porcellanic strata was distinct; but when
10148
examined closely, it was impossible to point out within a foot where the
10149
lava ended and where the sedimentary mass began: the rock at the time of
10150
junction was in most places hard, of a bright green colour, and abounded
10151
with irregular amygdaloidal masses of ferruginous and pure calcareous spar,
10152
and of agate.
10153

10154
Seventhly: strata, eighty feet in thickness, of various indurated tuffs, as
10155
before; many of the varieties have a fine basis including rather coarse
10156
extraneous particles; some of them are compact and semi-porcellanic, and
10157
include vegetable impressions.
10158

10159
Eighthly: a bed, about fifty feet thick, of greenish-grey, compact,
10160
feldspathic lava, with numerous small crystals of opaque feldspar, black
10161
augite, and oxide of iron. The junction with the bed on which it rested,
10162
was ill defined; balls and masses of the feldspathic rock being enclosed in
10163
much altered tuff.
10164

10165
Ninthly: indurated tuffs, as before.
10166

10167
Tenthly: a conformable layer, less than two feet in thickness, of
10168
pitchstone, generally brecciated, and traversed by veins of agate and of
10169
carbonate of lime: parts are composed of apparently concretionary fragments
10170
of a more perfect variety, arranged in horizontal lines in a less perfectly
10171
characterised variety. I have much difficulty in believing that this thin
10172
layer of pitchstone flowed as lava.
10173

10174
Eleventhly: sedimentary and tufaceous beds as before, passing into
10175
sandstone, including some conglomerate: the pebbles in the latter are of
10176
claystone porphyry, well rounded, and some as large as cricket-balls.
10177

10178
Twelfthly: a bed of compact, sonorous, feldspathic lava, like that of bed
10179
No. 8, divided by numerous joints into large angular blocks.
10180

10181
Thirteenthly: sedimentary beds as before.
10182

10183
Fourteenthly: a thick bed of greenish or greyish black, compact basalt
10184
(fusing into a black enamel), with small crystals, occasionally
10185
distinguishable, of feldspar and augite: the junction with the underlying
10186
sedimentary bed, differently from that in most of the foregoing streams,
10187
here was quite distinct:--the lava and tufaceous matter preserving their
10188
perfect characters within two inches of each other. This rock closely
10189
resembles certain parts of that varied and singular lava-stream No. 6; it
10190
likewise resembles, as we shall immediately see, many of the great upper
10191
beds on the western flank and on the summit of this range.
10192

10193
The pile of strata here described attains a great thickness; and above the
10194
last-mentioned volcanic stratum, there were several other great tufaceous
10195
beds alternating with submarine lavas, which I had not time to examine; but
10196
a corresponding series, several thousand feet in thickness, is well
10197
exhibited on the crest and western flank of the range. Most of the lava-
10198
streams on the western side are of a jet-black colour and basaltic nature;
10199
they are either compact and fine-grained, including minute crystals of
10200
augite and feldspar, or they are coarse-grained and abound with rather
10201
large coppery-brown crystals of an augitic mineral. (Very easily fusible
10202
into a jet-black bead, attracted by the magnet: the crystals are too much
10203
tarnished to be measured by the goniometer.) Another variety was of a dull-
10204
red colour, having a claystone brecciated basis, including specks of oxide
10205
of iron and of calcareous spar, and amygdaloidal with green earth: there
10206
were apparently several other varieties. These submarine lavas often
10207
exhibit a spheroidal, and sometimes an imperfect columnar structure: their
10208
upper junctions are much more clearly defined than their lower junctions;
10209
but the latter are not so much blended into the underlying sedimentary beds
10210
as is the case in the eastern flank. On the crest and western flank of the
10211
range, the streams, viewed as a whole, are mostly basaltic; whilst those on
10212
the eastern side, which stand lower in the series, are, as we have seen,
10213
mostly feldspathic.
10214

10215
The sedimentary strata alternating with the lavas on the crest and western
10216
side, are of an almost infinitely varying nature; but a large proportion of
10217
them closely resemble those already described on the eastern flank: there
10218
are white and brown, indurated, easily fusible tuffs,--some passing into
10219
pale blue and green semi-porcellanic rocks,--others into brownish and
10220
purplish sandstones and gritstones, often including grains of quartz,--
10221
others into mudstone containing broken crystals and particles of rock, and
10222
occasionally single large pebbles. There was one stratum of a bright red,
10223
coarse, volcanic gritstone; another of conglomerate; another of a black,
10224
indurated, carbonaceous shale marked with imperfect vegetable impressions;
10225
this latter bed, which was thin, rested on a submarine lava, and followed
10226
all the considerable inequalities of its upper surface. Mr. Miers states
10227
that coal has been found in this range. Lastly, there was a bed (like No.
10228
10 on the eastern flank) evidently of sedimentary origin, and remarkable
10229
from closely approaching in character to an imperfect pitchstone, and from
10230
including extremely thin layers of perfect pitchstone, as well as nodules
10231
and irregular fragments (but not resembling extraneous fragments) of this
10232
same rock arranged in horizontal lines: I conceive that this bed, which is
10233
only a few feet in thickness, must have assumed its present state through
10234
metamorphic and concretionary action. Most of these sedimentary strata are
10235
much indurated, and no doubt have been partially metamorphosed: many of
10236
them are extraordinarily heavy and compact; others have agate and
10237
crystalline carbonate of lime disseminated throughout them. Some of the
10238
beds exhibit a singular concretionary arrangement, with the curves
10239
determined by the lines of fissure. There are many veins of agate and
10240
calcareous spar, and innumerable ones of iron and other metals, which have
10241
blackened and curiously affected the strata to considerable distances on
10242
both sides.
10243

10244
Many of these tufaceous beds resemble, with the exception of being more
10245
indurated, the upper beds of the Great Patagonian tertiary formation,
10246
especially those variously coloured layers high up the River Santa Cruz,
10247
and in a remarkable degree the tufaceous formation at the northern end of
10248
Chiloe. I was so much struck with this resemblance, that I particularly
10249
looked out for silicified wood, and found it under the following
10250
extraordinary circumstances. High up on this western flank, at a height
10251
estimated at 7,000 feet above the sea, in a broken escarpment of thin
10252
strata, composed of compact green gritstone passing into a fine mudstone,
10253
and alternating with layers of coarser, brownish, very heavy mudstone,
10254
including broken crystals and particles of rock almost blended together, I
10255
counted the stumps of fifty-two trees. (For the information of any future
10256
traveller, I will describe the spot in detail. Proceeding eastward from the
10257
Agua del Zorro, and afterwards leaving on the north side of the road a
10258
rancho attached to some old goldmines, you pass through a gully with low
10259
but steep rocks on each hand: the road then bends, and the ascent becomes
10260
steeper. A few hundred yards farther on, a stone's throw on the south side
10261
of the road, the white calcareous stumps may be seen. The spot is about
10262
half a mile east of the Agua del Zorro.) They projected between two and
10263
five feet above the ground, and stood at exactly right angles to the
10264
strata, which were here inclined at an angle of about 25 degrees to the
10265
west. Eleven of these trees were silicified and well preserved; Mr. R.
10266
Brown has been so kind as to examine the wood when sliced and polished; he
10267
says it is coniferous, partaking of the characters of the Araucarian tribe,
10268
with some curious points of affinity with the Yew. The bark round the
10269
trunks must have been circularly furrowed with irregular lines, for the
10270
mudstone round them is thus plainly marked. One cast consisted of dark
10271
argillaceous limestone; and forty of them of coarsely crystallised
10272
carbonate of lime, with cavities lined by quartz crystals: these latter
10273
white calcareous columns do not retain any internal structure, but their
10274
external form plainly shows their origin. All the stumps have nearly the
10275
same diameter, varying from one foot to eighteen inches; some of them stand
10276
within a yard of each other; they are grouped in a clump within a space of
10277
about sixty yards across, with a few scattered round at the distance of 150
10278
yards. They all stand at about the same level. The longest stump stood
10279
seven feet out of the ground: the roots, if they are still preserved, are
10280
buried and concealed. No one layer of the mudstone appeared much darker
10281
than the others, as if it had formerly existed as soil, nor could this be
10282
expected, for the same agents which replaced with silex and lime the wood
10283
of the trees, would naturally have removed all vegetable matter from the
10284
soil. Besides the fifty-two upright trees, there were a few fragments, like
10285
broken branches, horizontally embedded. The surrounding strata are crossed
10286
by veins of carbonate of lime, agate, and oxide of iron; and a poor gold
10287
vein has been worked not far from the trees.
10288

10289
The green and brown mudstone beds including the trees, are conformably
10290
covered by much indurated, compact, white or ferruginous tuffs, which pass
10291
upwards into a fine-grained, purplish sedimentary rock: these strata,
10292
which, together, are from four to five hundred feet in thickness, rest on a
10293
thick bed of submarine lava, and are conformably covered by another great
10294
mass of fine-grained basalt, which I estimated at 1,000 feet in thickness,
10295
and which probably has been formed by more than one stream. (This rock is
10296
quite black, and fuses into a black bead, attracted strongly by the magnet;
10297
it breaks with a conchoidal fracture; the included crystals of augite are
10298
distinguishable by the naked eye, but are not perfect enough to be
10299
measured: there are many minute acicular crystals of glassy feldspar.)
10300
Above this mass I could clearly distinguish five conformable alternations,
10301
each several hundred feet in thickness, of stratified sedimentary rocks and
10302
lavas, such as have been previously described. Certainly the upright trees
10303
have been buried under several thousand feet in thickness of matter,
10304
accumulated under the sea. As the trees obviously must once have grown on
10305
dry land, what an enormous amount of subsidence is thus indicated!
10306
Nevertheless, had it not been for the trees there was no appearance which
10307
would have led any one even to have conjectured that these strata had
10308
subsided. As the land, moreover, on which the trees grew, is formed of
10309
subaqueous deposits, of nearly if not quite equal thickness with the
10310
superincumbent strata, and as these deposits are regularly stratified and
10311
fine-grained, not like the matter thrown up on a sea-beach, a previous
10312
upward movement, aided no doubt by the great accumulation of lavas and
10313
sediment, is also indicated. (At first I imagined, that the strata with the
10314
trees might have been accumulated in a lake: but this seems highly
10315
improbable; for, first, a very deep lake was necessary to receive the
10316
matter below the trees, then it must have been drained for their growth,
10317
and afterwards re-formed and made profoundly deep, so as to receive a
10318
subsequent accumulation of matter SEVERAL THOUSAND feet in thickness. And
10319
all this must have taken place necessarily before the formation of the
10320
Uspallata range, and therefore on the margin of the wide level expanse of
10321
the Pampas! Hence I conclude, that it is infinitely more probable that the
10322
strata were accumulated under the sea: the vast amount of denudation,
10323
moreover, which this range has suffered, as shown by the wide valleys, by
10324
the exposure of the very trees and by other appearances, could have been
10325
effected, I conceive, only by the long-continued action of the sea; and
10326
this shows that the range was either upheaved from under the sea, or
10327
subsequently let down into it. From the natural manner in which the stumps
10328
(fifty-two in number) are GROUPED IN A CLUMP, and from their all standing
10329
vertically to the strata, it is superfluous to speculate on the chance of
10330
the trees having been drifted from adjoining land, and deposited upright: I
10331
may, however, mention that the late Dr. Malcolmson assured me, that he once
10332
met in the Indian Ocean, fifty miles from land, several cocoa-nut trees
10333
floating upright, owing to their roots being loaded with earth.)
10334

10335
In nearly the middle of the range, there are some hills [Q], before alluded
10336
to, formed of a kind of granite externally resembling andesite, and
10337
consisting of a white, imperfectly granular, feldspathic basis, including
10338
some perfect crystals apparently of albite (but I was unable to measure
10339
them), much black mica, epidote in veins, and very little or no quartz.
10340
Numerous small veins branch from this rock into the surrounding strata; and
10341
it is a singular fact that these veins, though composed of the same kind of
10342
feldspar and small scales of mica as in the solid rock, abound with
10343
innumerable minute ROUNDED grains of quartz: in the veins or dikes also,
10344
branching from the great granitic axis in the peninsula of Tres Montes, I
10345
observed that quartz was more abundant in them than in the main rock: I
10346
have heard of other analogous cases: can we account for this fact, by the
10347
long-continued vicinity of quartz when cooling, and by its having been thus
10348
more easily sucked into fissures than the other constituent minerals of
10349
granite? (See a paper by M. Elie de Beaumont, "Soc. Philomath." May 1839
10350
"L'Institut." 1839 page 161.) The strata encasing the flanks of these
10351
granitic or andesite masses, and forming a thick cap on one of their
10352
summits, appear originally to have been of the same tufaceous nature with
10353
the beds already described, but they are now changed into porcellanic,
10354
jaspery, and crystalline rocks, and into others of a white colour with a
10355
harsh texture, and having a siliceous aspect, though really of a
10356
feldspathic nature and fusible. Both the granitic intrusive masses and the
10357
encasing strata are penetrated by innumerable metallic veins, mostly
10358
ferruginous and auriferous, but some containing copper-pyrites and a few
10359
silver: near the veins, the rocks are blackened as if blasted by gunpowder.
10360
The strata are only slightly dislocated close round these hills, and hence,
10361
perhaps, it may be inferred that the granitic masses form only the
10362
projecting points of a broad continuous axis-dome, which has given to the
10363
upper parts of this range its anticlinal structure.
10364

10365
CONCLUDING REMARKS ON THE USPALLATA RANGE.
10366

10367
I will not attempt to estimate the total thickness of the pile of strata
10368
forming this range, but it must amount to many thousand feet. The
10369
sedimentary and tufaceous beds have throughout a general similarity, though
10370
with infinite variations. The submarine lavas in the lower part of the
10371
series are mostly feldspathic, whilst in the upper part, on the summit and
10372
western flank, they are mostly basaltic. We are thus reminded of the
10373
relative position in most recent volcanic districts of the trachytic and
10374
basaltic lavas,--the latter from their greater weight having sunk to a
10375
lower level in the earth's crust, and having consequently been erupted at a
10376
later period over the lighter and upper lavas of the trachytic series. (See
10377
on this subject, "Volcanic Islands" etc. by the Author.) Both the basaltic
10378
and feldspathic submarine streams are very compact; none being vesicular,
10379
and only a few amygdaloidal: the effects which some of them, especially
10380
those low in the series, have produced on the tufaceous beds over which
10381
they have flowed is highly curious. Independently of this local metamorphic
10382
action, all the strata undoubtedly display an indurated and altered
10383
character; and all the rocks of this range--the lavas, the alternating
10384
sediments, the intrusive granite and porphyries, and the underlying clay-
10385
slate--are intersected by metalliferous veins. The lava-strata can often be
10386
seen extending for great distances, conformably with the under and
10387
overlying beds; and it was obvious that they thickened towards the west.
10388
Hence the points of eruption must have been situated westward of the
10389
present range, in the direction of the main Cordillera: as, however, the
10390
flanks of the Cordillera are entirely composed of various porphyries,
10391
chiefly claystone and greenstone, some intrusive, and others belonging to
10392
the porphyritic conglomerate formation, but all quite unlike these
10393
submarine lava-streams, we must in all probability look to the plain of
10394
Uspallata for the now deeply buried points of eruption.
10395

10396
Comparing our section of the Uspallata range with that of the Cumbre, we
10397
see, with the exception of the underlying clay-slate, and perhaps of the
10398
intrusive rocks of the axes, a striking dissimilarity in the strata
10399
composing them. The great porphyritic conglomerate formation has not
10400
extended as far as this range; nor have we here any of the gypseous strata,
10401
the magnesian and other limestones, the red sandstones, the siliceous beds
10402
with pebbles of quartz, and comparatively little of the conglomerates, all
10403
of which form such vast masses over the basal series in the main
10404
Cordillera. On the other hand, in the Cordillera, we do not find those
10405
endless varieties of indurated tuffs, with their numerous veins and
10406
concretionary arrangement, and those grit and mud stones, and singular
10407
semi-porcellanic rocks, so abundant in the Uspallata range. The submarine
10408
lavas, also, differ considerably; the feldspathic streams of the Cordillera
10409
contain much mica, which is absent in those of the Uspallata range: in this
10410
latter range we have seen on how grand a scale, basaltic lava has been
10411
poured forth, of which there is not a trace in the Cordillera. This
10412
dissimilarity is the more striking, considering that these two parallel
10413
chains are separated by a plain only between ten and fifteen miles in
10414
width; and that the Uspallata lavas, as well as no doubt the alternating
10415
tufaceous beds, have proceeded from the west, from points apparently
10416
between the two ranges. To imagine that these two piles of strata were
10417
contemporaneously deposited in two closely adjoining, very deep, submarine
10418
areas, separated from each other by a lofty ridge, where a plain now
10419
extends, would be a gratuitous hypothesis. And had they been
10420
contemporaneously deposited, without any such dividing ridge, surely some
10421
of the gypseous and other sedimentary matter forming such immensely thick
10422
masses in the Cordillera, would have extended this short distance
10423
eastwards; and surely some of the Uspallata tuffs and basalts also
10424
accumulated to so great a thickness, would have extended a little westward.
10425
Hence I conclude, that it is far from probable that these two series are
10426
not contemporaneous; but that the strata of one of the chains were
10427
deposited, and even the chain itself uplifted, before the formation of the
10428
other:--which chain, then, is the oldest? Considering that in the Uspallata
10429
range the lowest strata on the western flank lie unconformably on the clay-
10430
slate, as probably is the case with those on the eastern flank, whereas in
10431
the Cordillera all the overlying strata lie conformably on this formation:-
10432
-considering that in the Uspallata range some of the beds, both low down
10433
and high up in the series, are marked with vegetable impressions, showing
10434
the continued existence of neighbouring land;--considering the close
10435
general resemblance between the deposits of this range and those of
10436
tertiary origin in several parts of the continent;--and lastly, even
10437
considering the lesser height and outlying position of the Uspallata
10438
range,--I conclude that the strata composing it are in all probability of
10439
subsequent origin, and that they were accumulated at a period when a deep
10440
sea studded with submarine volcanoes washed the eastern base of the already
10441
partially elevated Cordillera.
10442

10443
This conclusion is of much importance, for we have seen that in the
10444
Cordillera, during the deposition of the Neocomian strata, the bed of the
10445
sea must have subsided many thousand feet: we now learn that at a later
10446
period an adjoining area first received a great accumulation of strata, and
10447
was upheaved into land on which coniferous trees grew, and that this area
10448
then subsided several thousand feet to receive the superincumbent submarine
10449
strata, afterwards being broken up, denuded, and elevated in mass to its
10450
present height. I am strengthened in this conclusion of there having been
10451
two distinct, great periods of subsidence, by reflecting on the thick mass
10452
of coarse stratified conglomerate in the valley of Tenuyan, between the
10453
Peuquenes and Portillo lines; for the accumulation of this mass seems to
10454
me, as previously remarked, almost necessarily to have required a prolonged
10455
subsidence; and this subsidence, from the pebbles in the conglomerate
10456
having been to a great extent derived from the gypseous or Neocomian strata
10457
of the Peuquenes line, we know must have been quite distinct from, and
10458
subsequent to, that sinking movement which probably accompanied the
10459
deposition of the Peuquenes strata, and which certainly accompanied the
10460
deposition of the equivalent beds near the Puente del Inca, in this line of
10461
section.
10462

10463
The Uspallata chain corresponds in geographical position, though on a small
10464
scale, with the Portillo line; and its clay-slate formation is probably the
10465
equivalent of the mica-schist of the Portillo, there metamorphosed by the
10466
old white granites and syenites. The coloured beds under the conglomerate
10467
in the valley of Tenuyan, of which traces are seen on the crest of the
10468
Portillo, and even the conglomerate itself, may perhaps be synchronous with
10469
the tufaceous beds and submarine lavas of the Uspallata range; an open sea
10470
and volcanic action in the latter case, and a confined channel between two
10471
bordering chains of islets in the former case, having been sufficient to
10472
account for the mineralogical dissimilarity of the two series. From this
10473
correspondence between the Uspallata and Portillo ranges, perhaps in age
10474
and certainly in geographical position, one is tempted to consider the one
10475
range as the prolongation of the other; but their axes are formed of
10476
totally different intrusive rocks; and we have traced the apparent
10477
continuation of the red granite of the Portillo in the red porphyries
10478
diverging into the main Cordillera. Whether the axis of the Uspallata range
10479
was injected before, or as perhaps is more probable, after that of the
10480
Portillo line, I will not pretend to decide; but it is well to remember
10481
that the highly inclined lava-streams on the eastern flank of the Portillo
10482
line, prove that its angular upheavement was not a single and sudden event;
10483
and therefore that the anticlinal elevation of the Uspallata range may have
10484
been contemporaneous with some of the later angular movements by which the
10485
gigantic Portillo range gained its present height above the adjoining
10486
plain.
10487

10488

10489
CHAPTER VIII. NORTHERN CHILE. CONCLUSION.
10490

10491
Section from Illapel to Combarbala; gypseous formation with silicified
10492
wood.
10493
Panuncillo.
10494
Coquimbo; mines of Arqueros; section up valley; fossils.
10495
Guasco, fossils of.
10496
Copiapo, section up valley; Las Amolanas, silicified wood.
10497
Conglomerates, nature of former land, fossils, thickness of strata, great
10498
subsidence.
10499
Valley of Despoblado, fossils, tufaceous deposit, complicated dislocations
10500
of.
10501
Relations between ancient orifices of eruption and subsequent axes of
10502
injection.
10503
Iquique, Peru, fossils of, salt-deposits.
10504
Metalliferous veins.
10505
Summary on the porphyritic conglomerate and gypseous formations.
10506
Great subsidence with partial elevations during the cretaceo-oolitic
10507
period.
10508
On the elevation and structure of the Cordillera.
10509
Recapitulation on the tertiary series.
10510
Relation between movements of subsidence and volcanic action.
10511
Pampean formation.
10512
Recent elevatory movements.
10513
Long-continued volcanic action in the Cordillera.
10514
Conclusion.
10515

10516
VALPARAISO TO COQUIMBO.
10517

10518
I have already described the general nature of the rocks in the low country
10519
north of Valparaiso, consisting of granites, syenites, greenstones, and
10520
altered feldspathic clay-slate. Near Coquimbo there is much hornblendic
10521
rock and various dusky-coloured porphyries. I will describe only one
10522
section in this district, namely, from near Illapel in a N.E. line to the
10523
mines of Los Hornos, and thence in a north by east direction to Combarbala,
10524
at the foot of the main Cordillera.
10525

10526
Near Illapel, after passing for some distance over granite, andesite, and
10527
andesitic porphyry, we come to a greenish stratified feldspathic rock,
10528
which I believe is altered clay-slate, conformably capped by porphyries and
10529
porphyritic conglomerate of great thickness, dipping at an average angle of
10530
20 degrees to N.E. by N. The uppermost beds consist of conglomerates and
10531
sandstone only a little metamorphosed, and conformably covered by a
10532
gypseous formation of very great thickness, but much denuded. This gypseous
10533
formation, where first met with, lies in a broad valley or basin, a little
10534
southward of the mines of Los Hornos: the lower half alone contains gypsum,
10535
not in great masses as in the Cordillera, but in innumerable thin layers,
10536
seldom more than an inch or two in thickness. The gypsum is either opaque
10537
or transparent, and is associated with carbonate of lime. The layers
10538
alternate with numerous varying ones of a calcareous clay-shale (with
10539
strong aluminous odour, adhering to the tongue, easily fusible into a pale
10540
green glass), more or less indurated, either earthy and cream-coloured, or
10541
greenish and hard. The more indurated varieties have a compact,
10542
homogeneous, almost crystalline fracture, and contain granules of
10543
crystallised oxide of iron. Some of the varieties almost resemble
10544
honestones. There is also a little black, hardly fusible, siliceo-
10545
calcareous clay-slate, like some of the varieties alternating with gypsum
10546
on the Peuquenes range.
10547

10548
The upper half of this gypseous formation is mainly formed of the same
10549
calcareous clay-shale rock, but without any gypsum, and varying extremely
10550
in nature: it passes from a soft, coarse, earthy, ferruginous state,
10551
including particles of quartz, into compact claystones with crystallised
10552
oxide of iron,--into porcellanic layers, alternating with seams of
10553
calcareous matter,--and into green porcelain-jasper, excessively hard, but
10554
easily fusible. Strata of this nature alternate with much black and brown
10555
siliceo-calcareous slate, remarkable from the wonderful number of huge
10556
embedded logs of silicified wood. This wood, according to Mr. R. Brown, is
10557
(judging from several specimens) all coniferous. Some of the layers of the
10558
black siliceous slate contained irregular angular fragments of imperfect
10559
pitchstone, which I believe, as in the Uspallata range, has originated in a
10560
metamorphic process. There was one bed of a marly tufaceous nature, and of
10561
little specific gravity. Veins of agate and calcareous spar are numerous.
10562
The whole of this gypseous formation, especially the upper half, has been
10563
injected, metamorphosed, and locally contorted by numerous hillocks of
10564
intrusive porphyries crowded together in an extraordinary manner. These
10565
hillocks consist of purple claystone and of various other porphyries, and
10566
of much white feldspathic greenstone passing into andesite; this latter
10567
variety included in one case crystals of orthitic and albitic feldspar
10568
touching each other, and others of hornblende, chlorite, and epidote. The
10569
strata surrounding these intrusive hillocks at the mines of Los Hornos, are
10570
intersected by many veins of copper-pyrites, associated with much micaceous
10571
iron-ore, and by some of gold: in the neighbourhood of these veins the
10572
rocks are blackened and much altered. The gypsum near the intrusive masses
10573
is always opaque. One of these hillocks of porphyry was capped by some
10574
stratified porphyritic conglomerate, which must have been brought up from
10575
below, through the whole immense thickness of the overlying gypseous
10576
formation. The lower beds of the gypseous formation resemble the
10577
corresponding and probably contemporaneous strata of the main Cordillera;
10578
whilst the upper beds in several respects resemble those of the Uspallata
10579
chain, and possibly may be contemporaneous with them; for I have
10580
endeavoured to show that the Uspallata beds were accumulated subsequently
10581
to the gypseous or Neocomian formations of the Cordillera.
10582

10583
This pile of strata dips at an angle of about 20 degrees to N.E. by N.,
10584
close up to the foot of the Cuesta de Los Hornos, a crooked range of
10585
mountains formed of intrusive rocks of the same nature with the above
10586
described hillocks. Only in one or two places, on this south-eastern side
10587
of the range, I noticed a narrow fringe of the upper gypseous strata
10588
brushed up and inclined south-eastward from it. On its north-eastern flank,
10589
and likewise on a few of the summits, the stratified porphyritic
10590
conglomerate is inclined N.E.: so that, if we disregard the very narrow
10591
anticlinal fringe of gypseous strata at its S.E. foot, this range forms a
10592
second uniclinal axis of elevation. Proceeding in a north-by-east direction
10593
to the village of Combarbala, we come to a third escarpment of the
10594
porphyritic conglomerate, dipping eastwards, and forming the outer range of
10595
the main Cordillera. The lower beds were here more jaspery than usual, and
10596
they included some white cherty strata and red sandstones, alternating with
10597
purple claystone porphyry. Higher up in the Cordillera there appeared to be
10598
a line of andesitic rocks; and beyond them, a fourth escarpment of the
10599
porphyritic conglomerate, again dipping eastwards or inwards. The overlying
10600
gypseous strata, if they ever existed here, have been entirely removed.
10601

10602
COPPER MINES OF PANUNCILLO.
10603

10604
From Combarbala to Coquimbo, I traversed the country in a zigzag direction,
10605
crossing and recrossing the porphyritic conglomerate and finding in the
10606
granitic districts an unusual number of mountain-masses composed of various
10607
intrusive, porphyritic rocks, many of them andesitic. One common variety
10608
was greenish-black, with large crystals of blackish albite. At Panuncillo a
10609
short N.N.W. and S.S.E. ridge, with a nucleus formed of greenstone and of a
10610
slate-coloured porphyry including crystals of glassy feldspar, deserves
10611
notice, from the very singular nature of the almost vertical strata
10612
composing it. These consist chiefly of a finer and coarser granular
10613
mixture, not very compact, of white carbonate of lime, of protoxide of iron
10614
and of yellowish garnets (ascertained by Professor Miller), each grain
10615
being an almost perfect crystal. Some of the varieties consist exclusively
10616
of granules of the calcareous spar; and some contain grains of copper ore,
10617
and, I believe, of quartz. These strata alternate with a bluish, compact,
10618
fusible, feldspathic rock. Much of the above granular mixture has, also, a
10619
pseudo-brecciated structure, in which fragments are obscurely arranged in
10620
planes parallel to those of the stratification, and are conspicuous on the
10621
weathered surfaces. The fragments are angular or rounded, small or large,
10622
and consist of bluish or reddish compact feldspathic matter, in which a few
10623
acicular crystals of feldspar can sometimes be seen. The fragments often
10624
blend at their edges into the surrounding granular mass, and seem due to a
10625
kind of concretionary action.
10626

10627
These singular rocks are traversed by many copper veins, and appear to rest
10628
conformably on the granular mixture (in parts as fine-grained as a
10629
sandstone) of quartz, mica, hornblende, and feldspar; and this on fine-
10630
grained, common gneiss; and this on a laminated mass, composed of pinkish
10631
ORTHITIC feldspar, including a few specks of hornblende; and lastly, this
10632
on granite, which together with andesitic rocks, form the surrounding
10633
district.
10634

10635
COQUIMBO: MINING DISTRICT OF ARQUEROS.
10636

10637
At Coquimbo the porphyritic conglomerate formation approaches nearer to the
10638
Pacific than in any other part of Chile visited by me, being separated from
10639
the coast by a tract only a few miles broad of the usual plutonic rocks,
10640
with the addition of a porphyry having a red euritic base. In proceeding to
10641
the mines of Arqueros, the strata of porphyritic conglomerate are at first
10642
nearly horizontal, an unusual circumstance, and afterwards they dip gently
10643
to S.S.E. After having ascended to a considerable height, we come to an
10644
undulatory district in which the famous silver mines are situated; my
10645
examination was chiefly confined to those of S. Rosa. Most of the rocks in
10646
this district are stratified, dipping in various directions, and many of
10647
them are of so singular a nature, that at the risk of being tedious I must
10648
briefly describe them. The commonest variety is a dull-red, compact, finely
10649
brecciated stone, containing much iron and innumerable white crystallised
10650
particles of carbonate of lime, and minute extraneous fragments. Another
10651
variety is almost equally common near S. Rosa; it has a bright green,
10652
scanty basis, including distinct crystals and patches of white carbonate of
10653
lime, and grains of red, semi-micaceous oxide of iron; in parts the basis
10654
becomes dark green, and assumes an obscure crystalline arrangement, and
10655
occasionally in parts it becomes soft and slightly translucent like
10656
soapstone. These red and green rocks are often quite distinct, and often
10657
pass into each other; the passage being sometimes affected by a fine
10658
brecciated structure, particles of the red and green matter being mingled
10659
together. Some of the varieties appear gradually to become porphyritic with
10660
feldspar; and all of them are easily fusible into pale or dark-coloured
10661
beads, strongly attracted by the magnet. I should perhaps have mistaken
10662
several of these stratified rocks for submarine lavas, like some of those
10663
described at the Puente del Inca, had I not examined, a few leagues
10664
eastward of this point, a fine series of analogous but less metamorphosed,
10665
sedimentary beds belonging to the gypseous formation, and probably derived
10666
from a volcanic source.
10667

10668
This formation is intersected by numerous metalliferous veins, running,
10669
though irregularly, N.W. and S.E., and generally at right angles to the
10670
many dikes. The veins consist of native silver, of muriate of silver, an
10671
amalgam of silver, cobalt, antimony, and arsenic, generally embedded in
10672
sulphate of barytes. (See the Report on M. Domeyko's account of those
10673
mines, in the "Comptes Rendus" tome 14 page 560.) I was assured by Mr.
10674
Lambert, that native copper without a trace of silver has been found in the
10675
same vein with native silver without a trace of copper. At the mines of
10676
Aristeas, the silver veins are said to be unproductive as soon as they pass
10677
into the green strata, whereas at S. Rosa, only two or three miles distant,
10678
the reverse happens; and at the time of my visit, the miners were working
10679
through a red stratum, in the hope of the vein becoming productive in the
10680
underlying green sedimentary mass. I have a specimen of one of these green
10681
rocks, with the usual granules of white calcareous spar and red oxide of
10682
iron, abounding with disseminated particles of glittering native and
10683
muriate of silver, yet taken at the distance of one yard from any vein,--a
10684
circumstance, as I was assured, of very rare occurrence.
10685

10686
SECTION EASTWARD, UP THE VALLEY OF COQUIMBO.
10687

10688
After passing for a few miles over the coast granitic series, we come to
10689
the porphyritic conglomerate, with its usual characters, and with some of
10690
the beds distinctly displaying their mechanical origin. The strata, where
10691
first met with, are, as before stated, only slightly inclined; but near the
10692
Hacienda of Pluclaro, we come to an anticlinal axis, with the beds much
10693
dislocated and shifted by a great fault, of which not a trace is externally
10694
seen in the outline of the hill. I believe that this anticlinal axis can be
10695
traced northwards, into the district of Arqueros, where a conspicuous hill
10696
called Cerro Blanco, formed of a harsh, cream-coloured euritic rock,
10697
including a few crystals of reddish feldspar, and associated with some
10698
purplish claystone porphyry, seems to fall on a line of elevation. In
10699
descending from the Arqueros district, I crossed on the northern border of
10700
the valley, strata inclined eastward from the Pluclaro axis: on the
10701
porphyritic conglomerate there rested a mass, some hundred feet thick, of
10702
brown argillaceous limestone, in parts crystalline, and in parts almost
10703
composed of Hippurites Chilensis, d'Orbigny; above this came a black
10704
calcareous shale, and on it a red conglomerate. In the brown limestone,
10705
with the Hippurites, there was an impression of a Pecten and a coral, and
10706
great numbers of a large Gryphaea, very like, and, according to Professor
10707
E. Forbes, probably identical with G. Orientalis, Forbes MS.,--a cretaceous
10708
species (probably upper greensand) from Verdachellum, in Southern India.
10709
These fossils seem to occupy nearly the same position with those at the
10710
Puente del Inca,--namely, at the top of the porphyritic conglomerate, and
10711
at the base of the gypseous formation.
10712

10713
A little above the Hacienda of Pluclaro, I made a detour on the northern
10714
side of the valley, to examine the superincumbent gypseous strata, which I
10715
estimated at 6,000 feet in thickness. The uppermost beds of the porphyritic
10716
conglomerate, on which the gypseous strata conformably rest, are variously
10717
coloured, with one very singular and beautiful stratum composed of purple
10718
pebbles of various kinds of porphyry, embedded in white calcareous spar,
10719
including cavities lined with bright-green crystallised epidote. The whole
10720
pile of strata belonging to both formations is inclined, apparently from
10721
the above-mentioned axis of Pluclaro, at an angle of between 20 and 30
10722
degrees to the east. I will here give a section of the principal beds met
10723
with in crossing the entire thickness of the gypseous strata.
10724

10725
Firstly: above the porphyritic conglomerate formation, there is a fine-
10726
grained, red, crystalline sandstone.
10727

10728
Secondly: a thick mass of smooth-grained, calcareo-aluminous, shaly rock,
10729
often marked with dendritic manganese, and having, where most compact, the
10730
external appearance of honestone. It is easily fusible. I shall for the
10731
future, for convenience' sake, call this variety pseudo-honestone. Some of
10732
the varieties are quite black when freshly broken, but all weather into a
10733
yellowish-ash coloured, soft, earthy substance, precisely as is the case
10734
with the compact shaly rocks of the Peuquenes range. This stratum is of the
10735
same general nature with many of the beds near Los Hornos in the Illapel
10736
section. In this second bed, or in the underlying red sandstone (for the
10737
surface was partially concealed by detritus), there was a thick mass of
10738
gypsum, having the same mineralogical characters with the great beds
10739
described in our sections across the Cordillera.
10740

10741
Thirdly: a thick stratum of fine-grained, red, sedimentary matter, easily
10742
fusible into a white glass, like the basis of claystone porphyry; but in
10743
parts jaspery, in parts brecciated, and including crystalline specks of
10744
carbonate of lime. In some of the jaspery layers, and in some of the black
10745
siliceous slaty bands, there were irregular seams of imperfect pitchstone,
10746
undoubtedly of metamorphic origin, and other seams of brown, crystalline
10747
limestone. Here, also, were masses, externally resembling ill-preserved
10748
silicified wood.
10749

10750
Fourthly and fifthly: calcareous pseudo-honestone; and a thick stratum
10751
concealed by detritus.
10752

10753
Sixthly: a thinly stratified mass of bright green, compact, smooth-grained,
10754
calcareo-argillaceous stone, easily fusible, and emitting a strong
10755
aluminous odour: the whole has a highly angulo-concretionary structure; and
10756
it resembles, to a certain extent, some of the upper tufaceo-infusorial
10757
deposits of the Patagonian tertiary formation. It is in its nature allied
10758
to our pseudo-honestone, and it includes well characterised layers of that
10759
variety; and other layers of a pale green, harder, and brecciated variety;
10760
and others of red sedimentary matter, like that of bed Three. Some pebbles
10761
of porphyries are embedded in the upper part.
10762

10763
Seventhly: red sedimentary matter or sandstone like that of bed One,
10764
several hundred feet in thickness, and including jaspery layers, often
10765
having a finely brecciated structure.
10766

10767
Eighthly: white, much indurated, almost crystalline tuff, several hundred
10768
feet in thickness, including rounded grains of quartz and particles of
10769
green matter like that of bed Six. Parts pass into a very pale green, semi-
10770
porcellanic stone.
10771

10772
Ninthly: red or brown coarse conglomerate, three or four hundred feet
10773
thick, formed chiefly of pebbles of porphyries, with volcanic particles, in
10774
an arenaceous, non-calcareous, fusible basis: the upper two feet are
10775
arenaceous without any pebbles.
10776

10777
Tenthly: the last and uppermost stratum here exhibited, is a compact,
10778
slate-coloured porphyry, with numerous elongated crystals of glassy
10779
feldspar, from one hundred and fifty to two hundred feet in thickness; it
10780
lies strictly conformably on the underlying conglomerate, and is
10781
undoubtedly a submarine lava.
10782

10783
This great pile of strata has been broken up in several places by intrusive
10784
hillocks of purple claystone porphyry, and by dikes of porphyritic
10785
greenstone: it is said that a few poor metalliferous veins have been
10786
discovered here. From the fusible nature and general appearance of the
10787
finer-grained strata, they probably owe their origin (like the allied beds
10788
of the Uspallata range, and of the Upper Patagonian tertiary formations),
10789
to gentle volcanic eruptions, and to the abrasion of volcanic rocks.
10790
Comparing these beds with those in the mining district of Arqueros, we see
10791
at both places rocks easily fusible, of the same peculiar bright green and
10792
red colours, containing calcareous matter, often having a finely brecciated
10793
structure, often passing into each other, and often alternating together:
10794
hence I cannot doubt that the only difference between them, lies in the
10795
Arqueros beds having been more metamorphosed (in conformity with their more
10796
dislocated and injected condition), and consequently in the calcareous
10797
matter, oxide of iron and green colouring matter, having been segregated
10798
under a more crystalline form.
10799

10800
The strata are inclined, as before stated, from 20 to 30 degrees eastward,
10801
towards an irregular north and south chain of andesitic porphyry and of
10802
porphyritic greenstone, where they are abruptly cut off. In the valley of
10803
Coquimbo, near to the H. of Gualliguaca, similar plutonic rocks are met
10804
with, apparently a southern prolongation of the above chain; and eastward
10805
of it we have an escarpment of the porphyritic conglomerate, with the
10806
strata inclined at a small angle eastward, which makes the third
10807
escarpment, including that nearest the coast. Proceeding up the valley we
10808
come to another north and south line of granite, andesite, and blackish
10809
porphyry, which seem to lie in an irregular trough of the porphyritic
10810
conglomerate. Again, on the south side of the R. Claro, there are some
10811
irregular granitic hills, which have thrown off the strata of porphyritic
10812
conglomerate to the N.W. by W.; but the stratification here has been much
10813
disturbed. I did not proceed any farther up the valley, and this point is
10814
about two-thirds of the distance between the Pacific and the main
10815
Cordillera.
10816

10817
I will describe only one other section, namely, on the north side of the R.
10818
Claro, which is interesting from containing fossils: the strata are much
10819
dislocated by faults and dikes, and are inclined to the north, towards a
10820
mountain of andesite and porphyry, into which they appear to become almost
10821
blended. As the beds approach this mountain, their inclination increases up
10822
to an angle of 70 degrees, and in the upper part, the rocks become highly
10823
metamorphosed. The lowest bed visible in this section, is a purplish hard
10824
sandstone. Secondly, a bed two or three hundred feet thick, of a white
10825
siliceous sandstone, with a calcareous cement, containing seams of slaty
10826
sandstone, and of hard yellowish-brown (dolomitic?) limestone; numerous,
10827
well-rounded, little pebbles of quartz are included in the sandstone.
10828
Thirdly, a dark coloured limestone with some quartz pebbles, from fifty to
10829
sixty feet in thickness, containing numerous silicified shells, presently
10830
to be enumerated. Fourthly, very compact, calcareous, jaspery sandstone,
10831
passing into (fifthly) a great bed, several hundred feet thick, of
10832
conglomerate, composed of pebbles of white, red, and purple porphyries, of
10833
sandstone and quartz, cemented by calcareous matter. I observed that some
10834
of the finer parts of this conglomerate were much indurated within a foot
10835
of a dike eight feet in width, and were rendered of a paler colour with the
10836
calcareous matter segregated into white crystallised particles; some parts
10837
were stained green from the colouring matter of the dike. Sixthly, a thick
10838
mass, obscurely stratified, of a red sedimentary stone or sandstone, full
10839
of crystalline calcareous matter, imperfect crystals of oxide of iron, and
10840
I believe of feldspar, and therefore closely resembling some of the highly
10841
metamorphosed beds at Arqueros: this bed was capped by, and appeared to
10842
pass in its upper part into, rocks similarly coloured, containing
10843
calcareous matter, and abounding with minute crystals, mostly elongated and
10844
glassy, of reddish albite. Seventhly, a conformable stratum of fine reddish
10845
porphyry with large crystals of (albitic?) feldspar; probably a submarine
10846
lava. Eighthly, another conformable bed of green porphyry, with specks of
10847
green earth and cream-coloured crystals of feldspar. I believe that there
10848
are other superincumbent crystalline strata and submarine lavas, but I had
10849
not time to examine them.
10850

10851
The upper beds in this section probably correspond with parts of the great
10852
gypseous formation; and the lower beds of red sandstone conglomerate and
10853
fossiliferous limestone no doubt are the equivalents of the Hippurite
10854
stratum, seen in descending from Arqueros to Pluclaro, which there lies
10855
conformably upon the porphyritic conglomerate formation. The fossils found
10856
in the third bed, consist of:--
10857

10858
Pecten Dufreynoyi, d'Orbigny, "Voyage, Part Pal."
10859
This species, which occurs here in vast numbers, according to M. D'Orbigny,
10860
resembles certain cretaceous forms.
10861

10862
Ostrea hemispherica, d'Orbigny, "Voyage" etc.
10863

10864
Also resembles, according to the same author, cretaceous forms.
10865

10866
Terebratula aenigma, d'Orbigny, "Voyage" etc. (Pl. 22 Figures 10-12.)
10867

10868
Is allied, according to M. d'Orbigny, to T. concinna from the Forest
10869
Marble. A series of this species, collected in several localities hereafter
10870
to be referred to, has been laid before Professor Forbes; and he informs me
10871
that many of the specimens are almost undistinguishable from our oolitic T.
10872
tetraedra, and that the varieties amongst them are such as are found in
10873
that variable species. Generally speaking, the American specimens of T.
10874
aenigma may be distinguished from the British T. tetraedra, by the surface
10875
having the ribs sharp and well-defined to the beak, whilst in the British
10876
species they become obsolete and smoothed down; but this difference is not
10877
constant. Professor Forbes adds, that, possibly, internal characters may
10878
exist, which would distinguish the American species from its European
10879
allies.
10880

10881
Spirifer linguiferoides, E. Forbes.
10882

10883
Professor Forbes states that this species is very near to S. linguifera of
10884
Phillips (a carboniferous limestone fossil), but probably distinct. M.
10885
d'Orbigny considers it as perhaps indicating the Jurassic period.
10886

10887
Ammonites, imperfect impression of.
10888

10889
M. Domeyko has sent to France a collection of fossils, which, I presume,
10890
from the description given, must have come from the neighbourhood of
10891
Arqueros; they consist of:--
10892

10893
Pecten Dufreynoyi, d'Orbigny, "Voyage" Part Pal.
10894
Ostrea hemispherica, d'Orbigny, "Voyage" Part Pal.
10895
Turritella Andii, d'Orbigny, "Voyage" Part Pal. (Pleurotomaria Humboldtii
10896
of Von Buch).
10897
Hippurites Chilensis, d'Orbigny, "Voyage" Part Pal.
10898

10899
The specimens of this Hippurite, as well as those I collected in my descent
10900
from Arqueros, are very imperfect; but in M. d'Orbigny's opinion they
10901
resemble, as does the Turritella Andii, cretaceous (upper greensand) forms.
10902

10903
Nautilus Domeykus, d'Orbigny, "Voyage" Part Pal.
10904
Terebratula aenigma, d'Orbigny, "Voyage" Part Pal.
10905
Terebratula ignaciana, d'Orbigny, "Voyage" Part Pal.
10906

10907
This latter species was found by M. Domeyko in the same block of limestone
10908
with the T. aenigma. According to M. d'Orbigny, it comes near to T.
10909
ornithocephala from the Lias. A series of this species collected at Guasco,
10910
has been examined by Professor E. Forbes, and he states that it is
10911
difficult to distinguish between some of the specimens and the T. hastata
10912
from the mountain limestone; and that it is equally difficult to draw a
10913
line between them and some Marlstone Terebratulae. Without a knowledge of
10914
the internal structure, it is impossible at present to decide on their
10915
identity with analogous European forms.
10916

10917
The remarks given on the several foregoing shells, show that, in M.
10918
d'Orbigny's opinion, the Pecten, Ostrea, Turritella, and Hippurite indicate
10919
the cretaceous period; and the Gryphaea appears to Professor Forbes to be
10920
identical with a species, associated in Southern India with unquestionably
10921
cretaceous forms. On the other hand, the two Terebratulae and the Spirifer
10922
point, in the opinion both of M. d'Orbigny and Professor Forbes, to the
10923
oolitic series. Hence M. d'Orbigny, not having himself examined this
10924
country, has concluded that there are here two distinct formations; but the
10925
Spirifer and T. aenigma were certainly included in the same bed with the
10926
Pecten and Ostrea, whence I extracted them; and the geologist M. Domeyko
10927
sent home the two Terebratulae with the other-named shells, from the same
10928
locality, without specifying that they came from different beds. Again, as
10929
we shall presently see, in a collection of shells given me from Guasco, the
10930
same species, and others presenting analogous differences, are mingled
10931
together, and are in the same condition; and lastly, in three places in the
10932
valley of Copiapo, I found some of these same species similarly grouped.
10933
Hence there cannot be any doubt, highly curious though the fact be, that
10934
these several fossils, namely, the Hippurites, Gryphaea, Ostrea, Pecten,
10935
Turritella, Nautilus, two Terebratulae, and Spirifer all belong to the same
10936
formation, which would appear to form a passage between the oolitic and
10937
cretaceous systems of Europe. Although aware how unusual the term must
10938
sound, I shall, for convenience' sake, call this formation cretaceo-
10939
oolitic. Comparing the sections in this valley of Coquimbo with those in
10940
the Cordillera described in the last chapter, and bearing in mind the
10941
character of the beds in the intermediate district of Los Hornos, there is
10942
certainly a close general mineralogical resemblance between them, both in
10943
the underlying porphyritic conglomerate, and in the overlying gypseous
10944
formation. Considering this resemblance, and that the fossils from the
10945
Puente del Inca at the base of the gypseous formation, and throughout the
10946
greater part of its entire thickness on the Peuquenes range, indicate the
10947
Neocomian period,--that is, the dawn of the cretaceous system, or, as some
10948
have believed, a passage between this latter and the oolitic series--I
10949
conclude that probably the gypseous and associated beds in all the sections
10950
hitherto described, belong to the same great formation, which I have
10951
denominated--cretaceo-oolitic. I may add, before leaving Coquimbo, that M.
10952
Gay found in the neighbouring Cordillera, at the height of 14,000 feet
10953
above the sea, a fossiliferous formation, including a Trigonia and
10954
Pholadomya (D'Orbigny "Voyage" Part Geolog. page 242.);--both of which
10955
genera occur at the Puente del Inca.
10956

10957
COQUIMBO TO GUASCO.
10958

10959
The rocks near the coast, and some way inland, do not differ from those
10960
described northwards of Valparaiso: we have much greenstone, syenite,
10961
feldspathic and jaspery slate, and grauwackes having a basis like that of
10962
claystone; there are some large tracts of granite, in which the constituent
10963
minerals are sometimes arranged in folia, thus composing an imperfect
10964
gneiss. There are two large districts of mica-schists, passing into glossy
10965
clay-slate, and resembling the great formation in the Chonos Archipelago.
10966
In the valley of Guasco, an escarpment of porphyritic conglomerate is first
10967
seen high up the valley, about two leagues eastward of the town of
10968
Ballenar. I heard of a great gypseous formation in the Cordillera; and a
10969
collection of shells made there was given me. These shells are all in the
10970
same condition, and appear to have come from the same bed: they consist
10971
of:--
10972

10973
Turritella Andii, d'Orbigny, "Voyage" Part Pal.
10974
Pecten Dufreynoyi, d'Orbigny, "Voyage" Part Pal.
10975
Terebatula ignaciana, d'Orbigny, "Voyage" Part Pal.
10976

10977
The relations of these species have been given under the head of Coquimbo.
10978

10979
Terebratula aenigma, d'Orbigny, "Voyage" Part Pal.
10980

10981
This shell M. d'Orbigny does not consider identical with his T. aenigma,
10982
but near to T. obsoleta. Professor Forbes thinks that it is certainly a
10983
variety of T. aenigma: we shall meet with this variety again at Copiapo.
10984

10985
Spirifer Chilensis, E. Forbes.
10986

10987
Professor Forbes remarks that this fossil resembles several carboniferous
10988
limestone Spirifers; and that it is also related to some liassic species,
10989
as S. Wolcotii.
10990

10991
If these shells had been examined independently of the other collections,
10992
they would probably have been considered, from the characters of the two
10993
Terebratulae, and from the Spirifer, as oolitic; but considering that the
10994
first species, and according to Professor Forbes, the four first, are
10995
identical with those from Coquimbo, the two formations no doubt are the
10996
same, and may, as I have said, be provisionally called cretaceo-oolitic.
10997

10998
VALLEY OF COPIAPO.
10999

11000
The journey from Guasco to Copiapo, owing to the utterly desert nature of
11001
the country, was necessarily so hurried, that I do not consider my notes
11002
worth giving. In the valley of Copiapo some of the sections are very
11003
interesting. From the sea to the town of Copiapo, a distance estimated at
11004
thirty miles, the mountains are composed of greenstone, granite, andesite,
11005
and blackish porphyry, together with some dusky-green feldspathic rocks,
11006
which I believe to be altered clay-slate: these mountains are crossed by
11007
many brown-coloured dikes, running north and south. Above the town, the
11008
main valley runs in a south-east and even more southerly course towards the
11009
Cordillera, where it is divided into three great ravines, by the northern
11010
one of which, called Jolquera, I penetrated for a short distance. The
11011
section, Section 1/3 in Plate 1, gives an eye-sketch of the structure and
11012
composition of the mountains on both sides of this valley: a straight east
11013
and west line from the town to the Cordillera is perhaps not more than
11014
thirty miles, but along the valley the distance is much greater. Wherever
11015
the valley trended very southerly, I have endeavoured to contract the
11016
section into its true proportion. This valley, I may add, rises much more
11017
gently than any other valley which I saw in Chile.
11018

11019
To commence with our section, for a short distance above the town we have
11020
hills of the granitic series, together with some of that rock [A], which I
11021
suspect to be altered clay-slate, but which Professor G. Rose, judging from
11022
specimens collected by Meyen at P. Negro, states is serpentine passing into
11023
greenstone. We then come suddenly to the great gypseous formation [B],
11024
without having passed over, differently from, in all the sections hitherto
11025
described, any of the porphyritic conglomerate. The strata are at first
11026
either horizontal or gently inclined westward; then highly inclined in
11027
various directions, and contorted by underlying masses of intrusive rocks;
11028
and lastly, they have a regular eastward dip, and form a tolerably well
11029
pronounced north and south line of hills. This formation consists of thin
11030
strata, with innumerable alternations, of black, calcareous slate-rock, of
11031
calcareo-aluminous stones like those at Coquimbo, which I have called
11032
pseudo-honestones of green jaspery layers, and of pale-purplish,
11033
calcareous, soft rotten-stone, including seams and veins of gypsum. These
11034
strata are conformably overlaid by a great thickness of thinly stratified,
11035
compact limestone with included crystals of carbonate of lime. At a place
11036
called Tierra Amarilla, at the foot of a mountain thus composed there is a
11037
broad vein, or perhaps stratum, of a beautiful and curious crystallised
11038
mixture, composed, according to Professor G. Rose, of sulphate of iron
11039
under two forms, and of the sulphates of copper and alumina (Meyen's
11040
"Reise" etc. Th. 1, s. 394.): the section is so obscure that I could not
11041
make out whether this vein or stratum occurred in the gypseous formation,
11042
or more probably in some underlying masses [A], which I believe are altered
11043
clay-slate.
11044

11045
SECOND AXIS OF ELEVATION.
11046

11047
After the gypseous masses [B], we come to a line of hills of unstratified
11048
porphyry [C], which on their eastern side blend into strata of great
11049
thickness of porphyritic conglomerate, dipping eastward. This latter
11050
formation, however, here has not been nearly so much metamorphosed as in
11051
most parts of Central Chile; it is composed of beds of true purple
11052
claystone porphyry, repeatedly alternating with thick beds of purplish-red
11053
conglomerate with the well-rounded, large pebbles of various porphyries,
11054
not blended together.
11055

11056
THIRD AXIS OF ELEVATION.
11057

11058
Near the ravine of Los Hornitos, there is a well-marked line of elevation,
11059
extending for many miles in a N.N.E. and S.S.W. direction, with the strata
11060
dipping in most parts (as in the second axis) only in one direction,
11061
namely, eastward at an average angle of between 30 and 40 degrees. Close to
11062
the mouth of the valley, however, there is, as represented in the section,
11063
a steep and high mountain [D], composed of various green and brown
11064
intrusive porphyries enveloped with strata, apparently belonging to the
11065
upper parts of the porphyritic conglomerate, and dipping both eastward and
11066
westward. I will describe the section seen on the eastern side of this
11067
mountain [D], beginning at the base with the lowest bed visible in the
11068
porphyritic conglomerate, and proceeding upwards through the gypseous
11069
formation. Bed 1 consists of reddish and brownish porphyry varying in
11070
character, and in many parts highly amygdaloidal with carbonate of lime,
11071
and with bright green and brown bole. Its upper surface is throughout
11072
clearly defined, but the lower surface is in most parts indistinct, and
11073
towards the summit of the mountain [D] quite blended into the intrusive
11074
porphyries. Bed 2, a pale lilac, hard but not heavy stone, slightly
11075
laminated, including small extraneous fragments, and imperfect as well as
11076
some perfect and glassy crystals of feldspar; from one hundred and fifty to
11077
two hundred feet in thickness. When examining it in situ, I thought it was
11078
certainly a true porphyry, but my specimens now lead me to suspect that it
11079
possibly may be a metamorphosed tuff. From its colour it could be traced
11080
for a long distance, overlying in one part, quite conformably to the
11081
porphyry of bed 1, and in another not distant part, a very thick mass of
11082
conglomerate, composed of pebbles of a porphyry chiefly like that of bed 1:
11083
this fact shows how the nature of the bottom formerly varied in short
11084
horizontal distances. Bed 3, white, much indurated tuff, containing minute
11085
pebbles, broken crystals, and scales of mica, varies much in thickness.
11086
This bed is remarkable from containing many globular and pear-shaped,
11087
externally rusty balls, from the size of an apple to a man's head, of very
11088
tough, slate-coloured porphyry, with imperfect crystals of feldspar: in
11089
shape these balls do not resemble pebbles, AND I BELIEVE THAT THEY ARE
11090
SUBAQUEOUS VOLCANIC BOMBS; they differ from SUBAERIAL bombs only in not
11091
being vesicular. Bed 4; a dull purplish-red, hard conglomerate, with
11092
crystallised particles and veins of carbonate of lime, from three hundred
11093
to four hundred feet in thickness. The pebbles are of claystone porphyries
11094
of many varieties; they are tolerably well rounded, and vary in size from a
11095
large apple to a man's head. This bed includes three layers of coarse,
11096
black, calcareous, somewhat slaty rock: the upper part passes into a
11097
compact red sandstone.
11098

11099
In a formation so highly variable in mineralogical nature, any division not
11100
founded on fossil remains, must be extremely arbitrary: nevertheless, the
11101
beds below the last conglomerate may, in accordance with all the sections
11102
hitherto described, be considered as belonging to the porphyritic
11103
conglomerate, and those above it to the gypseous formation, marked [E] in
11104
the section. The part of the valley in which the following beds are seen is
11105
near Potrero Seco. Bed 5, compact, fine-grained, pale greenish-grey, non-
11106
calcareous, indurated mudstone, easily fusible into a pale green and white
11107
glass. Bed 6, purplish, coarse-grained, hard sandstone, with broken
11108
crystals of feldspar and crystallised particles of carbonate of lime; it
11109
possesses a slightly nodular structure. Bed 7, blackish-grey, much
11110
indurated, calcareous mudstone, with extraneous particles of unequal size;
11111
the whole being in parts finely brecciated. In this mass there is a
11112
stratum, twenty feet in thickness, of impure gypsum. Bed 8, a greenish
11113
mudstone, with several layers of gypsum. Bed 9, a highly indurated, easily
11114
fusible, white tuff, thickly mottled with ferruginous matter, and including
11115
some white semi-porcellanic layers, which are interlaced with ferruginous
11116
veins. This stone closely resembles some of the commonest varieties in the
11117
Uspallata chain. Bed 10, a thick bed of rather bright green, indurated
11118
mudstone or tuff, with a concretionary nodular structure so strongly
11119
developed that the whole mass consists of balls. I will not attempt to
11120
estimate the thickness of the strata in the gypseous formation hitherto
11121
described, but it must certainly be very many hundred feet. Bed 11 is at
11122
least 800 feet in thickness: it consists of thin layers of whitish,
11123
greenish, or more commonly brown, fine-grained, indurated tuffs, which
11124
crumble into angular fragments: some of the layers are semi-porcellanic,
11125
many of them highly ferruginous, and some are almost composed of carbonate
11126
of lime and iron with drusy cavities lined with quartzf-crystals. Bed 12,
11127
dull purplish or greenish or dark-grey, very compact and much indurated
11128
mudstone: estimated at 1,500 feet in thickness: in some parts this rock
11129
assumes the character of an imperfect coarse clay-slate; but viewed under a
11130
lens, the basis always has a mottled appearance, with the edges of the
11131
minute component particles blending together. Parts are calcareous, and
11132
there are numerous veins of highly crystalline carbonate of lime charged
11133
with iron. The mass has a nodular structure, and is divided by only a few
11134
planes of stratification: there are, however, two layers, each about
11135
eighteen inches thick, of a dark brown, finer-grained stone, having a
11136
conchoidal, semi-porcellanic fracture, which can be followed with the eye
11137
for some miles across the country.
11138

11139
I believe this last great bed is covered by other nearly similar
11140
alternations; but the section is here obscured by a tilt from the next
11141
porphyritic chain, presently to be described. I have given this section in
11142
detail, as being illustrative of the general character of the mountains in
11143
this neighbourhood; but it must not be supposed that any one stratum long
11144
preserves the same character. At a distance of between only two and three
11145
miles the green mudstones and white indurated tuffs are to a great extent
11146
replaced by red sandstone and black calcareous shaly rocks, alternating
11147
together. The white indurated tuff, bed 11, here contains little or no
11148
gypsum, whereas on the northern and opposite side of the valley, it is of
11149
much greater thickness and abounds with layers of gypsum, some of them
11150
alternating with thin seams of crystalline carbonate of lime. The
11151
uppermost, dark-coloured, hard mudstone, bed 12, is in this neighbourhood
11152
the most constant stratum. The whole series differs to a considerable
11153
extent, especially in its upper part, from that met with at [BB], in the
11154
lower part of the valley; nevertheless, I do not doubt that they are
11155
equivalents.
11156

11157
FOURTH AXIS OF ELEVATION (VALLEY OF COPIAPO).
11158

11159
This axis is formed of a chain of mountains [F], of which the central
11160
masses (near La Punta) consist of andesite containing green hornblende and
11161
coppery mica, and the outer masses of greenish and black porphyries,
11162
together with some fine lilac-coloured claystone porphyry; all these
11163
porphyries being injected and broken up by small hummocks of andesite. The
11164
central great mass of this latter rock, is covered on the eastern side by a
11165
black, fine-grained, highly micaceous slate, which, together with the
11166
succeeding mountains of porphyry, are traversed by numerous white dikes,
11167
branching from the andesite, and some of them extending in straight lines,
11168
to a distance of at least two miles. The mountains of porphyry eastward of
11169
the micaceous schist soon, but gradually, assume (as observed in so many
11170
other cases) a stratified structure, and can then be recognised as a part
11171
of the porphyritic conglomerate formation. These strata [G] are inclined at
11172
a high angle to the S.E., and form a mass from fifteen hundred to two
11173
thousand feet in thickness. The gypseous masses to the west already
11174
described, dip directly towards this axis, with the strata only in a few
11175
places (one of which is represented in the section) thrown from it: hence
11176
this fourth axis is mainly uniclinal towards the S.E., and just like our
11177
third axis, only locally anticlinal.
11178

11179
The above strata of porphyritic conglomerate [G] with their south-eastward
11180
dip, come abruptly up against beds of the gypseous formation [H], which are
11181
gently, but irregularly, inclined westward: so that there is here a
11182
synclinal axis and great fault. Further up the valley, here running nearly
11183
north and south, the gypseous formation is prolonged for some distance; but
11184
the stratification is unintelligible, the whole being broken up by faults,
11185
dikes, and metalliferous veins. The strata consist chiefly of red
11186
calcareous sandstones, with numerous veins in the place of layers, of
11187
gypsum; the sandstone is associated with some black calcareous slate-rock,
11188
and with green pseudo-honestones, passing into porcelain-jasper. Still
11189
further up the valley, near Las Amolanas [I], the gypseous strata become
11190
more regular, dipping at an angle of between 30 and 40 degrees to W.S.W.,
11191
and conformably overlying, near the mouth of the ravine of Jolquera, strata
11192
[K] of porphyritic conglomerate. The whole series has been tilted by a
11193
partially concealed axis [L], of granite, andesite, and a granitic mixture
11194
of white feldspar, quartz, and oxide of iron.
11195

11196
FIFTH AXIS OF ELEVATION (VALLEY OF COPIAPO, NEAR LOS AMOLANAS).
11197

11198
I will describe in some detail the beds [I] seen here, which, as just
11199
stated, dip to W.S.W., at an angle of from 30 to 40 degrees. I had not time
11200
to examine the underlying porphyritic conglomerate, of which the lowest
11201
beds, as seen at the mouth of the Jolquera, are highly compact, with
11202
crystals of red oxide of iron; and I am not prepared to say whether they
11203
are chiefly of volcanic or metamorphic origin. On these beds there rests a
11204
coarse purplish conglomerate, very little metamorphosed, composed of
11205
pebbles of porphyry, but remarkable from containing one pebble of granite;-
11206
-of which fact no instance has occurred in the sections hitherto described.
11207
Above this conglomerate, there is a black siliceous claystone, and above it
11208
numerous alternations of dark-purplish and green porphyries, which may be
11209
considered as the uppermost limit of the porphyritic conglomerate
11210
formation.
11211

11212
Above these porphyries comes a coarse, arenaceous conglomerate, the lower
11213
half white and the upper half of a pink colour, composed chiefly of pebbles
11214
of various porphyries, but with some of red sandstone and jaspery rocks. In
11215
some of the more arenaceous parts of the conglomerate, there was an oblique
11216
or current lamination; a circumstance which I did not elsewhere observe.
11217
Above this conglomerate, there is a vast thickness of thinly stratified,
11218
pale-yellowish, siliceous sandstone, passing into a granular quartz-rock,
11219
used for grindstones (hence the name of the place Las Amolanas), and
11220
certainly belonging to the gypseous formation, as does probably the
11221
immediately underlying conglomerate. In this yellowish sandstone there are
11222
layers of white and pale-red siliceous conglomerate; other layers with
11223
small, well-rounded pebbles of white quartz, like the bed at the R. Claro
11224
at Coquimbo; others of a greenish, fine-grained, less siliceous stone,
11225
somewhat resembling the pseudo-honestones lower down the valley; and
11226
lastly, others of a black calcareous shale-rock. In one of the layers of
11227
conglomerate, there was embedded a fragment of mica-slate, of which this is
11228
the first instance; hence perhaps, it is from a formation of mica-slate,
11229
that the numerous small pebbles of quartz, both here and at Coquimbo, have
11230
been derived. Not only does the siliceous sandstone include layers of the
11231
black, thinly stratified, not fissile, calcareous shale-rock, but in one
11232
place the whole mass, especially the upper part, was, in a marvellously
11233
short horizontal distance, after frequent alternations, replaced by it.
11234
When this occurred, a mountain-mass, several thousand feet in thickness was
11235
thus composed; the black calcareous shale-rock, however, always included
11236
some layers of the pale-yellowish siliceous sandstone, of the red
11237
conglomerate, and of the greenish jaspery and pseudo-honestone varieties.
11238
It likewise included three or four widely separated layers of a brown
11239
limestone, abounding with shells immediately to be described. This pile of
11240
strata was in parts traversed by many veins of gypsum. The calcareous
11241
shale-rock, though when freshly broken quite black, weathers into an ash-
11242
colour: in which respect and in general appearance, it perfectly resembles
11243
those great fossiliferous beds of the Peuquenes range, alternating with
11244
gypsum and red sandstone, described in the last chapter.
11245

11246
The shells out of the layers of brown limestone, included in the black
11247
calcareous shale-rock, which latter, as just stated, replaces the white
11248
siliceous sandstone, consist of:--
11249

11250
Pecten Dufreynoyi, d'Orbigny, "Voyage" Part Pal.
11251
Turritella Andii, d'Orbigny, "Voyage" Part Pal.
11252

11253
Astarte Darwinii, E. Forbes.
11254
Gryphaea Darwinii, E. Forbes.
11255

11256
An intermediate form between G. gigantea and G. incurva.
11257

11258
Gryphaea nov. spec.?, E. Forbes.
11259
Perna Americana, E. Forbes.
11260
Avicula, nov. spec.
11261

11262
Considered by Mr. G.B. Sowerby as the A. echinata, by M. d'Orbigny as
11263
certainly a new and distinct species, having a Jurassic aspect. The
11264
specimen has been unfortunately lost.
11265

11266
Terebratula aenigma, d'Orbigny, (var. of do. E. Forbes.)
11267

11268
This is the same variety, with that from Guasco, considered by M. D'Orbigny
11269
to be a distinct species from his T. aenigma, and related to T. obsoleta.
11270

11271
Plagiostoma and Ammonites, fragments of.
11272

11273
The lower layers of the limestone contained thousands of the Gryphaea; and
11274
the upper ones as many of the Turritella, with the Gryphaea (nov. species)
11275
and Serpulae adhering to them; in all the layers, the Terebratula and
11276
fragments of the Pecten were included. It was evident, from the manner in
11277
which species were grouped together, that they had lived where now
11278
embedded. Before making any further remarks, I may state, that higher up
11279
this same valley we shall again meet with a similar association of shells;
11280
and in the great Despoblado Valley, which branches off near the town from
11281
that of Copiapo, the Pecten Dufreynoyi, some Gryphites (I believe G.
11282
Darwinii), and the TRUE Terebratula aenigma of d'Orbigny were found
11283
together in an equivalent formation, as will be hereafter seen. A specimen
11284
also, I may add, of the true T. aenigma, was given me from the
11285
neighbourhood of the famous silver mines of Chanuncillo, a little south of
11286
the valley of the Copiapo, and these mines, from their position, I have no
11287
doubt, lie within the great gypseous formation: the rocks close to one of
11288
the silver veins, judging from fragments shown me, resemble those singular
11289
metamorphosed deposits from the mining district of Arqueros near Coquimbo.
11290

11291
I will reiterate the evidence on the association of these several shells in
11292
the several localities.
11293

11294
COQUIMBO.
11295

11296
In the same bed, Rio Claro:
11297
Pecten Dufreynoyi.
11298
Ostrea hemispherica.
11299
Terebratula aenigma.
11300
Spirifer linguiferoides.
11301

11302
Same bed, near Arqueros:
11303
Hippurites Chilensis.
11304
Gryphaea orientalis.
11305

11306
Collected by M. Domeyko from the same locality, apparently near Arqueros:
11307
Terebratula aenigma and Terebratula ignaciana, in same block of limestone:
11308
Pecten Dufreynoyi.
11309
Ostrea hemispherica.
11310
Hippurites Chilensis.
11311
Turritella Andii.
11312
Nautilus Domeykus.
11313

11314
GUASCO.
11315

11316
In a collection from the Cordillera, given me: the specimens all in the
11317
same condition:
11318
Pecten Dufreynoyi.
11319
Turritella Andii.
11320
Terebratula ignaciana.
11321
Terebratula aenigma, var.
11322
Spirifer Chilensis.
11323

11324
COPIAPO.
11325

11326
Mingled together in alternating beds in the main valley of Copiapo near Las
11327
Amolanas, and likewise higher up the valley:
11328
Pecten Dufreynoyi.
11329
Turritella Andii.
11330
Terebratula aenigma, var. as at Guasco.
11331
Astarte Darwinii.
11332
Gryphaea Darwinii.
11333
Gryphaea nov. species?
11334
Perna Americana.
11335
Avicula, nov. species.
11336

11337
Main valley of Copiapo, apparently same formation with that of Amolanas:
11338
Terebratula aenigma (true).
11339

11340
In the same bed, high up the great lateral valley of the Despoblado, in the
11341
ravine of Maricongo:
11342
Terebratula aenigma (true).
11343
Pecten Dufreynoyi.
11344
Gryphaea Darwinii?
11345

11346
Considering this table, I think it is impossible to doubt that all these
11347
fossils belong to the same formation. If, however, the species from Las
11348
Amolanas, in the Valley of Copiapo, had, as in the case of those from
11349
Guasco, been separately examined, they would probably have been ranked as
11350
oolitic; for, although no Spirifers were found here, all the other species,
11351
with the exception of the Pecten, Turritella, and Astarte, have a more
11352
ancient aspect than cretaceous forms. On the other hand, taking into
11353
account the evidence derived from the cretaceous character of these three
11354
shells, and of the Hippurites, Gryphaea orientalis, and Ostrea, from
11355
Coquimbo, we are driven back to the provisional name already used of
11356
cretaceo-oolitic. From geological evidence, I believe this formation to be
11357
the equivalent of the Neocomian beds of the Cordillera of Central Chile.
11358

11359
To return to our section near Las Amolanas:--Above the yellow siliceous
11360
sandstone, or the equivalent calcareous slate-rock, with its bands of
11361
fossil-shells, according as the one or other prevails, there is a pile of
11362
strata, which cannot be less than from two to three thousand feet in
11363
thickness, in main part composed of a coarse, bright red conglomerate, with
11364
many intercalated beds of red sandstone, and some of green and other
11365
coloured porcelain-jaspery layers. The included pebbles are well-rounded,
11366
varying from the size of an egg to that of a cricket-ball, with a few
11367
larger; and they consist chiefly of porphyries. The basis of the
11368
conglomerate, as well as some of the alternating thin beds, are formed of a
11369
red, rather harsh, easily fusible sandstone, with crystalline calcareous
11370
particles. This whole great pile is remarkable from the thousands of huge,
11371
embedded, silicified trunks of trees, one of which was eight feet long, and
11372
another eighteen feet in circumference: how marvellous it is, that every
11373
vessel in so thick a mass of wood should have been converted into silex! I
11374
brought home many specimens, and all of them, according to Mr. R. Brown,
11375
present a coniferous structure.
11376

11377
Above this great conglomerate, we have from two to three hundred feet in
11378
thickness of red sandstone; and above this, a stratum of black calcareous
11379
slate-rock, like that which alternates with and replaces the underlying
11380
yellowish-white, siliceous sandstone. Close to the junction between this
11381
upper black slate-rock and the upper red sandstone, I found the Gryphaea
11382
Darwinii, the Turritella Andii, and vast numbers of a bivalve, too
11383
imperfect to be recognised. Hence we see that, as far as the evidence of
11384
these two shells serves--and the Turritella is an eminently characteristic
11385
species--the whole thickness of this vast pile of strata belongs to the
11386
same age. Again, above the last-mentioned upper red sandstone, there were
11387
several alternations of the black, calcareous slate-rock; but I was unable
11388
to ascend to them. All these uppermost strata, like the lower ones, vary
11389
extremely in character in short horizontal distances. The gypseous
11390
formation, as here seen, has a coarser, more mechanical texture, and
11391
contains much more siliceous matter than the corresponding beds lower down
11392
the valley. Its total thickness, together with the upper beds of the
11393
porphyritic conglomerate, I estimated at least at 8,000 feet; and only a
11394
small portion of the porphyritic conglomerate, which on the eastern flank
11395
of the fourth axis of elevation appeared to be from fifteen hundred to two
11396
thousand feet thick, is here included. As corroborative of the great
11397
thickness of the gypseous formation, I may mention that in the Despoblado
11398
Valley (which branches from the main valley a little above the town of
11399
Copiapo) I found a corresponding pile of red and white sandstones, and of
11400
dark, calcareous, semi-jaspery mudstones, rising from a nearly level
11401
surface and thrown into an absolutely vertical position; so that, by
11402
pacing, I ascertained their thickness to be nearly two thousand seven
11403
hundred feet; taking this as a standard of comparison, I estimated the
11404
thickness of the strata ABOVE the porphyritic conglomerate at 7,000 feet.
11405

11406
The fossils before enumerated, from the limestone-layers in the whitish
11407
siliceous sandstone, are now covered, on the least computation, by strata
11408
from 5,000 to 6,000 feet in thickness. Professor E. Forbes thinks that
11409
these shells probably lived at a depth of from about 30 to 40 fathoms, that
11410
is from 180 to 240 feet; anyhow, it is impossible that they could have
11411
lived at the depth of from 5,000 to 6,000 feet. Hence in this case, as in
11412
that of the Puente del Inca, we may safely conclude that the bottom of the
11413
sea on which the shells lived, subsided, so as to receive the
11414
superincumbent submarine strata: and this subsidence must have taken place
11415
during the existence of these shells; for, as I have shown, some of them
11416
occur high up as well as low down in the series. That the bottom of the sea
11417
subsided, is in harmony with the presence of the layers of coarse, well-
11418
rounded pebbles included throughout this whole pile of strata, as well as
11419
of the great upper mass of conglomerate from 2,000 to 3,000 feet thick; for
11420
coarse gravel could hardly have been formed or spread out at the profound
11421
depths indicated by the thickness of the strata. The subsidence, also, must
11422
have been slow to have allowed of this often-recurrent spreading out of the
11423
pebbles. Moreover, we shall presently see that the surfaces of some of the
11424
streams of porphyritic lava beneath the gypseous formation, are so highly
11425
amygdaloidal that it is scarcely possible to believe that they flowed under
11426
the vast pressure of a deep ocean. The conclusion of a great subsidence
11427
during the existence of these cretaceo-oolitic fossils, may, I believe, be
11428
extended to the district of Coquimbo, although owing to the fossiliferous
11429
beds there not being directly covered by the upper gypseous strata, which
11430
in the section north of the valley are about 6,000 feet in thickness, I did
11431
not there insist on this conclusion.
11432

11433
The pebbles in the above conglomerates, both in the upper and lower beds,
11434
are all well rounded, and, though chiefly composed of various porphyries,
11435
there are some of red sandstone and of a jaspery stone, both like the rocks
11436
intercalated in layers in this same gypseous formation; there was one
11437
pebble of mica-slate and some of quartz, together with many particles of
11438
quartz. In these respects there is a wide difference between the gypseous
11439
conglomerates and those of the porphyritic-conglomerate formation, in which
11440
latter, angular and rounded fragments, almost exclusively composed of
11441
porphyries, are mingled together, and which, as already often remarked,
11442
probably were ejected from craters deep under the sea. From these facts I
11443
conclude, that during the formation of the conglomerates, land existed in
11444
the neighbourhood, on the shores of which the innumerable pebbles were
11445
rounded and thence dispersed, and on which the coniferous forests
11446
flourished--for it is improbable that so many thousand logs of wood should
11447
have drifted from any great distance. This land, probably islands, must
11448
have been mainly formed of porphyries, with some mica-slate, whence the
11449
quartz was derived, and with some red sandstone and jaspery rocks. This
11450
latter fact is important, as it shows that in this district, even
11451
previously to the deposition of the lower gypseous or cretaceo-oolitic
11452
beds, strata of an analogous nature had elsewhere, no doubt in the more
11453
central ranges of the Cordillera, been elevated; thus recalling to our
11454
minds the relations of the Cumbre and Uspallata chains. Having already
11455
referred to the great lateral valley of the Despoblado, I may mention that
11456
above the 2,700 feet of red and white sandstone and dark mudstone, there is
11457
a vast mass of coarse, hard, red conglomerate, some thousand feet in
11458
thickness, which contains much silicified wood, and evidently corresponds
11459
with the great upper conglomerate at Las Amolanas: here, however, the
11460
conglomerate consists almost exclusively of pebbles of granite, and of
11461
disintegrated crystals of reddish feldspar and quartz firmly recemented
11462
together. In this case, we may conclude that the land whence the pebbles
11463
were derived, and on which the now silicified trees once flourished, was
11464
formed of granite.
11465

11466
The mountains near Las Amolanas, composed of the cretaceo-oolitic strata,
11467
are interlaced with dikes like a spider's web, to an extent which I have
11468
never seen equalled, except in the denuded interior of a volcanic crater:
11469
north and south lines, however, predominate. These dikes are composed of
11470
green, white, and blackish rocks, all porphyritic with feldspar, and often
11471
with large crystals of hornblende. The white varieties approach closely in
11472
character to andesite, which composes as we have seen, the injected axes of
11473
so many of the lines of elevation. Some of the green varieties are finely
11474
laminated, parallel to the walls of the dikes.
11475

11476
SIXTH AXIS OF ELEVATION (VALLEY OF COPIAPO).
11477

11478
This axis consists of a broad mountainous mass [O] of andesite, composed of
11479
albite, brown mica, and chlorite, passing into andesitic granite, with
11480
quartz: on its western side it has thrown off, at a considerable angle, a
11481
thick mass of stratified porphyries, including much epidote [NN], and
11482
remarkable only from being divided into very thin beds, as highly
11483
amygdaloidal on their surfaces as subaerial lava-streams are often
11484
vesicular. This porphyritic formation is conformably covered, as seen some
11485
way up the ravine of Jolquera, by a mere remnant of the lower part of the
11486
cretaceo-oolitic formation [MM], which in one part encases, as represented
11487
in the coloured section, the foot of the andesitic axis [L], of the already
11488
described fifth line, and in another part entirely conceals it: in this
11489
latter case, the gypseous or cretaceo-oolitic strata falsely appeared to
11490
dip under the porphyritic conglomerate of the fifth axis. The lowest bed of
11491
the gypseous formation, as seen here [M], is of yellowish siliceous
11492
sandstone, precisely like that of Amolanas, interlaced in parts with veins
11493
of gypsum, and including layers of the black, calcareous, non-fissile
11494
slate-rock: the Turritella Andii, Pecten Dufreynoyi, Terebratula aenigma,
11495
var., and some Gryphites were embedded in these layers. The sandstone
11496
varies in thickness from only twenty to eighty feet; and this variation is
11497
caused by the inequalities in the upper surface of an underlying stream of
11498
purple claystone porphyry. Hence the above fossils here lie at the very
11499
base of the gypseous or cretaceo-oolitic formation, and hence they were
11500
probably once covered up by strata about seven thousand feet in thickness:
11501
it is, however, possible, though from the nature of all the other sections
11502
in this district not probable, that the porphyritic claystone lava may in
11503
this case have invaded a higher level in the series. Above the sandstone
11504
there is a considerable mass of much indurated, purplish-black, calcareous
11505
claystone, allied in nature to the often-mentioned black calcareous slate-
11506
rock.
11507
Eastward of the broad andesitic axis of this sixth line, and penetrated by
11508
many dikes from it, there is a great formation [P] of mica-schist, with its
11509
usual variations, and passing in one part into a ferruginous quartz-rock.
11510
The folia are curved and highly inclined, generally dipping eastward. It is
11511
probable that this mica-schist is an old formation, connected with the
11512
granitic rocks and metamorphic schists near the coast; and that the one
11513
fragment of mica-slate, and the pebbles of quartz low down in the gypseous
11514
formation at Las Amolanas, have been derived from it. The mica-schist is
11515
succeeded by stratified porphyritic conglomerate [Q] of great thickness,
11516
dipping eastward with a high inclination: I have included this latter
11517
mountain-mass in the same anticlinal axis with the porphyritic streams
11518
[NN]; but I am far from sure that the two masses may not have been
11519
independently upheaved.
11520

11521
SEVENTH AXIS OF ELEVATION.
11522

11523
Proceeding up the ravine, we come to another mass [R] of andesite; and
11524
beyond this, we again have a very thick, stratified porphyritic formation
11525
[S], dipping at a small angle eastward, and forming the basal part of the
11526
main Cordillera. I did not ascend the ravine any higher; but here, near
11527
Castano, I examined several sections, of which I will not give the details,
11528
only observing, that the porphyritic beds, or submarine lavas, preponderate
11529
greatly in bulk over the alternating sedimentary layers, which have been
11530
but little metamorphosed: these latter consist of fine-grained red tuffs
11531
and of whitish volcanic grit-stones, together with much of a singular,
11532
compact rock, having an almost crystalline basis, finely brecciated with
11533
red and green fragments, and occasionally including a few large pebbles.
11534
The porphyritic lavas are highly amygdaloidal, both on their upper and
11535
lower surfaces; they consist chiefly of claystone porphyry, but with one
11536
common variety, like some of the streams at the Puente del Inca, having a
11537
grey mottled basis, abounding with crystals of red hydrous oxide of iron,
11538
green ones apparently of epidote, and a few glassy ones of feldspar. This
11539
pile of strata differs considerably from the basal strata of the Cordillera
11540
in Central Chile, and may possibly belong to the upper and gypseous series:
11541
I saw, however, in the bed of the valley, one fragment of porphyritic
11542
breccia-conglomerate, exactly like those great masses met with in the more
11543
southern parts of Chile.
11544

11545
Finally, I must observe, that though I have described between the town of
11546
Copiapo and the western flank of the main Cordillera seven or eight axes of
11547
elevation, extending nearly north and south, it must not be supposed that
11548
they all run continuously for great distances. As was stated to be the case
11549
in our sections across the Cordillera of Central Chile, so here most of the
11550
lines of elevation, with the exception of the first, third, and fifth, are
11551
very short. The stratification is everywhere disturbed and intricate;
11552
nowhere have I seen more numerous faults and dikes. The whole district,
11553
from the sea to the Cordillera, is more or less metalliferous; and I heard
11554
of gold, silver, copper, lead, mercury, and iron veins. The metamorphic
11555
action, even in the lower strata, has certainly been far less here than in
11556
Central Chile.
11557

11558
VALLEY OF THE DESPOBLADO.
11559

11560
This great barren valley, which has already been alluded to, enters the
11561
main valley of Copiapo a little above the town: it runs at first northerly,
11562
then N.E., and more easterly into the Cordillera; I followed its dreary
11563
course to the foot of the first main ridge. I will not give a detailed
11564
section, because it would be essentially similar to that already given, and
11565
because the stratification is exceedingly complicated. After leaving the
11566
plutonic hills near the town, I met first, as in the main valley, with the
11567
gypseous formation, having the same diversified character as before, and
11568
soon afterwards with masses of porphyritic conglomerate, about one thousand
11569
feet in thickness. In the lower part of this formation there were very
11570
thick beds composed of fragments of claystone porphyries, both angular and
11571
rounded, with the smaller ones partially blended together and the basis
11572
rendered porphyritic; these beds separated distinct streams, from sixty to
11573
eighty feet in thickness, of claystone lavas. Near Paipote, also, there was
11574
much true porphyritic breccia-conglomerate: nevertheless, few of these
11575
masses were metamorphosed to the same degree with the corresponding
11576
formation in Central Chile. I did not meet in this valley with any true
11577
andesite, but only with imperfect andesitic porphyry, including large
11578
crystals of hornblende: numerous as have been the varieties of intrusive
11579
porphyries already mentioned, there were here mountains composed of a new
11580
kind, having a compact, smooth, cream-coloured basis, including only a few
11581
crystals of feldspar, and mottled with dendritic spots of oxide of iron.
11582
There were also some mountains of a porphyry with a brick-red basis,
11583
containing irregular, often lens-shaped, patches of compact feldspar, and
11584
crystals of feldspar, which latter to my surprise I find to be orthite.
11585

11586
At the foot of the first ridge of the main Cordillera, in the ravine of
11587
Maricongo, and at an elevation which, from the extreme coldness and
11588
appearance of the vegetation, I estimated at about ten thousand feet, I
11589
found beds of white sandstone and of limestone including the Pecten
11590
Dufreynoyi, Terebratula aenigma, and some Gryphites. This ridge throws the
11591
water on the one hand into the Pacific, and on the other, as I was
11592
informed, into a great gravel-covered, basin-like plain, including a salt-
11593
lake, and without any drainage-exit. In crossing the Cordillera by this
11594
Pass, it is said that three principal ridges must be traversed, instead of
11595
two, or only one as in Central Chile.
11596

11597
The crest of this first main ridge and the surrounding mountains, with the
11598
exception of a few lofty pinnacles, are capped by a great thickness of a
11599
horizontally stratified, tufaceous deposit. The lowest bed is of a pale
11600
purple colour, hard, fine-grained, and full of broken crystals of feldspar
11601
and scales of mica. The middle bed is coarser, and less hard, and hence
11602
weathers into very sharp pinnacles; it includes very small fragments of
11603
granite, and innumerable ones of all sizes of grey vesicular trachyte, some
11604
of which were distinctly rounded. The uppermost bed is about two hundred
11605
feet in thickness, of a darker colour and apparently hard: but I had not
11606
time to ascend to it. These three horizontal beds may be seen for the
11607
distance of many leagues, especially westward or in the direction of the
11608
Pacific, capping the summits of the mountains, and standing on the opposite
11609
sides of the immense valleys at exactly corresponding heights. If united
11610
they would form a plain, inclined very slightly towards the Pacific; the
11611
beds become thinner in this direction, and the tuff (judging from one point
11612
to which I ascended, some way down the valley) finer-grained and of less
11613
specific gravity, though still compact and sonorous under the hammer. The
11614
gently inclined, almost horizontal stratification, the presence of some
11615
rounded pebbles, and the compactness of the lowest bed, though rendering it
11616
probable, would not have convinced me that this mass had been of subaqueous
11617
origin, for it is known that volcanic ashes falling on land and moistened
11618
by rain often become hard and stratified; but beds thus originating, and
11619
owing their consolidation to atmospheric moisture, would have covered
11620
almost equally every neighbouring summit, high and low, and would not have
11621
left those above a certain exact level absolutely bare; this circumstance
11622
seems to me to prove that the volcanic ejections were arrested at their
11623
present, widely extended, equable level, and there consolidated by some
11624
other means than simple atmospheric moisture; and this no doubt must have
11625
been a sheet of water. A lake at this great height, and without a barrier
11626
on any one side, is out of the question; consequently we must conclude that
11627
the tufaceous matter was anciently deposited beneath the sea. It was
11628
certainly deposited before the excavation of the valleys, or at least
11629
before their final enlargement (I have endeavoured to show in my "Journal"
11630
etc. (2nd edition) page 355, that this arid valley was left by the
11631
retreating sea, as the land slowly rose, in the state in which we now see
11632
it.); and I may add, that Mr. Lambert, a gentleman well acquainted with
11633
this country, informs me, that in ascending the ravine of Santandres (which
11634
branches off from the Despoblado) he met with streams of lava and much
11635
erupted matter capping all the hills of granite and porphyry, with the
11636
exception of some projecting points; he also remarked that the valleys had
11637
been excavated subsequently to these eruptions.
11638

11639
This volcanic formation, which I am informed by Mr. Lambert extends far
11640
northward, is of interest, as typifying what has taken place on a grander
11641
scale on the corresponding western side of the Cordillera of Peru. Under
11642
another point of view, however, it possesses a far higher interest, as
11643
confirming that conclusion drawn from the structure of the fringes of
11644
stratified shingle which are prolonged from the plains at the foot of the
11645
Cordillera far up the valleys,--namely, that this great range has been
11646
elevated in mass to a height of between eight and nine thousand feet (I may
11647
here mention that on the south side of the main valley of Copiapo, near
11648
Potrero Seco, the mountains are capped by a thick mass of horizontally
11649
stratified shingle, at a height which I estimated at between fifteen
11650
hundred and two thousand feet above the bed of the valley. This shingle, I
11651
believe, forms the edge of a wide plain, which stretches southwards between
11652
two mountain ranges.); and now, judging from this tufaceous deposit, we may
11653
conclude that the horizontal elevation has been in the district of Copiapo
11654
about ten thousand feet.
11655

11656
(FIGURE 24.)
11657

11658
In the valley of the Despoblado, the stratification, as before remarked has
11659
been much disturbed, and in some points to a greater degree than I have
11660
anywhere else seen. I will give two cases: a very thick mass of thinly
11661
stratified red sandstone, including beds of conglomerate, has been crushed
11662
together (as represented in Figure 24) into a yoke or urn-formed trough, so
11663
that the strata on both sides have been folded inwards: on the right hand
11664
the properly underlying porphyritic claystone conglomerate is seen
11665
overlying the sandstone, but it soon becomes vertical, and then is inclined
11666
towards the trough, so that the beds radiate like the spokes of a wheel: on
11667
the left hand, the inverted porphyritic conglomerate also assumes a dip
11668
towards the trough, not gradually, as on the right hand, but by means of a
11669
vertical fault and synclinal break; and a little still further on towards
11670
the left, there is a second great oblique fault (both shown by the arrow-
11671
lines), with the strata dipping to a directly opposite point; these
11672
mountains are intersected by infinitely numerous dikes, some of which can
11673
be seen to rise from hummocks of greenstone, and can be traced for
11674
thousands of feet. In the second case, two low ridges trend together and
11675
unite at the head of a little wedge-shaped valley: throughout the right-
11676
hand ridge, the strata dip at 45 degrees to the east; in the left-hand
11677
ridge, we have the very same strata and at first with exactly the same dip;
11678
but in following this ridge up the valley, the strata are seen very
11679
regularly to become more and more inclined until they stand vertical, they
11680
then gradually fall over (the basset edges forming symmetrical serpentine
11681
lines along the crest), till at the very head of the valley they are
11682
reversed at an angle of 45 degrees: so that at this point the beds have
11683
been turned through an angle of 135 degrees; and here there is a kind of
11684
anticlinal axis, with the strata on both sides dipping to opposite points
11685
at an angle of 45 degrees, but those on the left hand upside down.
11686

11687
ON THE ERUPTIVE SOURCES OF THE PORPHYRITIC CLAYSTONE AND GREENSTONE LAVAS.
11688

11689
In Central Chile, from the extreme metamorphic action, it is in most parts
11690
difficult to distinguish between the streams of porphyritic lava and the
11691
porphyritic breccia-conglomerate, but here, at Copiapo, they are generally
11692
perfectly distinct, and in the Despoblado, I saw for the first time, two
11693
great strata of purple claystone porphyry, after having been for a
11694
considerable space closely united together, one above the other, become
11695
separated by a mass of fragmentary matter, and then both thin out;--the
11696
lower one more rapidly than the upper and greater stream. Considering the
11697
number and thickness of the streams of porphyritic lava, and the great
11698
thickness of the beds of breccia-conglomerate, there can be little doubt
11699
that the sources of eruption must originally have been numerous:
11700
nevertheless, it is now most difficult even to conjecture the precise point
11701
of any one of the ancient submarine craters. I have repeatedly observed
11702
mountains of porphyries, more or less distinctly stratified towards their
11703
summits or on their flanks, without a trace of stratification in their
11704
central and basal parts: in most cases, I believe this is simply due either
11705
to the obliterating effects of metamorphic action, or to such parts having
11706
been mainly formed of intrusive porphyries, or to both causes conjoined; in
11707
some instances, however, it appeared to me very probable that the great
11708
central unstratified masses of porphyry were the now partially denuded
11709
nuclei of the old submarine volcanoes, and that the stratified parts marked
11710
the points whence the streams flowed. In one case alone, and it was in this
11711
Valley of the Despoblado, I was able actually to trace a thick stratum of
11712
purplish porphyry, which for a space of some miles conformably overlay the
11713
usual alternating beds of breccia-conglomerates and claystone lavas, until
11714
it became united with, and blended into, a mountainous mass of various
11715
unstratified porphyries.
11716

11717
The difficulty of tracing the streams of porphyries to their ancient and
11718
doubtless numerous eruptive sources, may be partly explained by the very
11719
general disturbance which the Cordillera in most parts has suffered; but I
11720
strongly suspect that there is a more specific cause, namely, THAT THE
11721
ORIGINAL POINTS OF ERUPTION TEND TO BECOME THE POINTS OF INJECTION. This in
11722
itself does not seem improbable; for where the earth's crust has once
11723
yielded, it would be liable to yield again, though the liquified intrusive
11724
matter might not be any longer enabled to reach the submarine surface and
11725
flow as lava. I have been led to this conclusion, from having so frequently
11726
observed that, where part of an unstratified mountain-mass resembled in
11727
mineralogical character the adjoining streams or strata, there were several
11728
other kinds of intrusive porphyries and andesitic rocks injected into the
11729
same point. As these intrusive mountain-masses form most of the axes-lines
11730
in the Cordillera, whether anticlinal, uniclinal, or synclinal, and as the
11731
main valleys have generally been hollowed out along these lines, the
11732
intrusive masses have generally suffered much denudation. Hence they are
11733
apt to stand in some degree isolated, and to be situated at the points
11734
where the valleys abruptly bend, or where the main tributaries enter. On
11735
this view of there being a tendency in the old points of eruption to become
11736
the points of subsequent injection and disturbance, and consequently of
11737
denudation, it ceases to be surprising that the streams of lava in the
11738
porphyritic claystone conglomerate formation, and in other analogous cases,
11739
should most rarely be traceable to their actual sources.
11740

11741
IQUIQUE, SOUTHERN PERU.
11742

11743
Differently from what we have seen throughout Chile, the coast here is
11744
formed not by the granitic series, but by an escarpment of the porphyritic
11745
conglomerate formation, between two and three thousand feet in height. (The
11746
lowest point, where the road crosses the coast-escarpment, is 1,900 feet by
11747
the barometer above the level of the sea.) I had time only for a very short
11748
examination; the chief part of the escarpment appears to be composed of
11749
various reddish and purple, sometimes laminated, porphyries, resembling
11750
those of Chile; and I saw some of the porphyritic breccia-conglomerate; the
11751
stratification appeared but little inclined. The uppermost part, judging
11752
from the rocks near the famous silver mine of Huantajaya, consists of
11753
laminated, impure, argillaceous, purplish-grey limestone, associated, I
11754
believe, with some purple sandstone. (Mr. Bollaert has described
11755
"Geological Proceedings" volume 2 page 598, a singular mass of stratified
11756
detritus, gravel, and sand, eighty-one yards in thickness, overlying the
11757
limestone, and abounding with loose masses of silver ore. The miners
11758
believe that they can attribute these masses to their proper veins.) In the
11759
limestone shells are found: the three following species were given me:--
11760

11761
Lucina Americana, E. Forbes.
11762
Terebratula inca, E. Forbes.
11763
Terebratula aenigma, D'Orbigny.
11764

11765
This latter species we have seen associated with the fossils of which lists
11766
have been given in this chapter, in two places in the valley of Coquimbo,
11767
and in the ravine of Maricongo at Copiapo. Considering this fact, and the
11768
superposition of these beds on the porphyritic conglomerate formation; and,
11769
as we shall immediately see, from their containing much gypsum, and from
11770
their otherwise close general resemblance in mineralogical nature with the
11771
strata described in the valley of Copiapo, I have little doubt that these
11772
fossiliferous beds of Iquique belong to the great cretaceo-oolitic
11773
formation of Northern Chile. Iquique is situated seven degrees latitude
11774
north of Copiapo; and I may here mention, that an Ammonites, nov. species,
11775
and an Astarte, nov. species, were given me from the Cerro Pasco, about ten
11776
degrees of latitude north of Iquique, and M. D'Orbigny thinks that they
11777
probably indicate a Neocomian formation. Again, fifteen degrees of latitude
11778
northward, in Colombia, there is a grand fossiliferous deposit, now well
11779
known from the labours of Von Buch, Lea, d'Orbigny, and Forbes, which
11780
belongs to the earlier stages of the cretaceous system. Hence, bearing in
11781
mind the character of the few fossils from Tierra del Fuego, there is some
11782
evidence that a great portion of the stratified deposits of the whole vast
11783
range of the South American Cordillera belongs to about the same geological
11784
epoch.
11785

11786
Proceeding from the coast escarpment inwards, I crossed, in a space of
11787
about thirty miles, an elevated undulatory district, with the beds dipping
11788
in various directions. The rocks are of many kinds,--white laminated,
11789
sometimes siliceous sandstone,--purple and red sandstone, sometimes so
11790
highly calcareous as to have a crystalline fracture,--argillaceous
11791
limestone,--black calcareous slate-rock, like that so often described at
11792
Copiapo and other places,--thinly laminated, fine-grained, greenish,
11793
indurated, sedimentary, fusible rocks, approaching in character to the so-
11794
called pseudo-honestone of Chile, including thin contemporaneous veins of
11795
gypsum,--and lastly, much calcareous, laminated porcelain jasper, of a
11796
green colour, with red spots, and of extremely easy fusibility: I noticed
11797
one conformable stratum of a freckled-brown, feldspathic lava. I may here
11798
mention that I heard of great beds of gypsum in the Cordillera. The only
11799
novel point in this formation, is the presence of innumerable thin layers
11800
of rock-salt, alternating with the laminated and hard, but sometimes
11801
earthy, yellowish, or bright red and ferruginous sandstones. The thickest
11802
layer of salt was only two inches, and it thinned out at both ends. On one
11803
of these saliferous masses I noticed a stratum about twelve feet thick, of
11804
dark-brown, hard brecciated, easily fusible rock, containing grains of
11805
quartz and of black oxide of iron, together with numerous imperfect
11806
fragments of shells. The problem of the origin of salt is so obscure, that
11807
every fact, even geographical position, is worth recording. (It is well
11808
known that stratified salt is found in several places on the shores of
11809
Peru. The island of San Lorenzo, off Lima, is composed of a pile of thin
11810
strata, about eight hundred feet in thickness, composed of yellowish and
11811
purplish, hard siliceous, or earthy sandstones, alternating with thin
11812
layers of shale, which in places passes into a greenish, semi-porcellanic,
11813
fusible rock. There are some thin beds of reddish mudstone, and soft
11814
ferruginous rotten-stones, with layers of gypsum. In nearly all these
11815
varieties, especially in the softer sandstones, there are numerous thin
11816
seams of rock-salt: I was informed that one layer has been found two inches
11817
in thickness. The manner in which the minutest fissures of the dislocated
11818
beds have been penetrated by the salt, apparently by subsequent
11819
infiltration, is very curious. On the south side of the island, layers of
11820
coal and of impure limestone have been discovered. Hence we here have salt,
11821
gypsum, and coal associated together. The strata include veins of quartz,
11822
carbonate of lime, and iron pyrites; they have been dislocated by an
11823
injected mass of greenish-brown feldspathic trap. Not only is salt abundant
11824
on the extreme western limits of the district between the Cordillera and
11825
the Pacific, but, according to Helms, it is found in the outlying low hills
11826
on the eastern flank of the Cordillera. These facts appear to me opposed to
11827
the theory, that rock-salt is due to the sinking of water, charged with
11828
salt, in mediterranean spaces of the ocean. The general character of the
11829
geology of these countries would rather lead to the opinion, that its
11830
origin is in some way connected with volcanic heat at the bottom of the
11831
sea: see on this subject Sir R. Murchison "Anniversary Address to the
11832
Geological Society" 1843 page 65.) With the exception of these saliferous
11833
beds, most of the rocks as already remarked, present a striking general
11834
resemblance with the upper parts of the gypseous or cretaceo-oolitic
11835
formation of Chile.
11836

11837
METALLIFEROUS VEINS.
11838

11839
I have only a few remarks to make on this subject: in nine mining
11840
districts, some of them of considerable extent, which I visited in CENTRAL
11841
Chile, I found the PRINCIPAL veins running from between [N. and N.W.] to
11842
[S. and S.E.] (These mining districts are Yaquil near Nancagua, where the
11843
direction of the chief veins, to which only in all cases I refer, is north
11844
and south; in the Uspallata range, the prevailing line is N.N.W. and
11845
S.S.E.; in the C. de Prado, it is N.N.W. and S.S.E.; near Illapel, it is N.
11846
by W. and S. by E.; at Los Hornos the direction varies from between [N. and
11847
N.W.] to [S. and S.E.]; at the C. de los Hornos (further northward), it is
11848
N.N.W. and S.S.E.; at Panuncillo, it is N.N.W. and S.S.E.; and, lastly, at
11849
Arqueros, the direction is N.W. and S.E.): in some other places, however,
11850
their courses appeared quite irregular, as is said to be generally the case
11851
in the whole valley of Copiapo: at Tambillos, south of Coquimbo, I saw one
11852
large copper vein extending east and west. It is worthy of notice, that the
11853
foliation of the gneiss and mica-slate, where such rocks occur, certainly
11854
tend to run like the metalliferous veins, though often irregularly, in a
11855
direction a little westward of north. At Yaquil, I observed that the
11856
principal auriferous veins ran nearly parallel to the grain or imperfect
11857
cleavage of the surrounding GRANITIC rocks. With respect to the
11858
distribution of the different metals, copper, gold, and iron are generally
11859
associated together, and are most frequently found (but with many
11860
exceptions, as we shall presently see) in the rocks of the lower series,
11861
between the Cordillera and the Pacific, namely, in granite, syenite,
11862
altered feldspathic clay-slate, gneiss, and as near Guasco mica-schist. The
11863
copper-ores consist of sulphurets, oxides, and carbonates, sometimes with
11864
laminae of native metal: I was assured that in some cases (as at Panuncillo
11865
S.E. of Coquimbo), the upper part of the same vein contains oxides, and the
11866
lower part sulphurets of copper. (The same fact has been observed by Mr.
11867
Taylor in Cuba: "London Philosophical Journal" volume 11 page 21.) Gold
11868
occurs in its native form; it is believed that, in many cases, the upper
11869
part of the vein is the most productive part: this fact probably is
11870
connected with the abundance of this metal in the stratified detritus of
11871
Chile, which must have been chiefly derived from the degradation of the
11872
upper portions of the rocks. These superficial beds of well-rounded gravel
11873
and sand, containing gold, appeared to me to have been formed under the sea
11874
close to the beach, during the slow elevation of the land: Schmidtmeyer
11875
remarks that in Chile gold is sought for in shelving banks at the height of
11876
some feet on the sides of the streams, and not in their beds, as would have
11877
been the case had this metal been deposited by common alluvial action.
11878
("Travels in Chile" page 29.) Very frequently the copper-ores, including
11879
some gold, are associated with abundant micaceous specular iron. Gold is
11880
often found in iron-pyrites: at two gold mines at Yaquil (near Nancagua), I
11881
was informed by the proprietor that in one the gold was always associated
11882
with copper-pyrites, and in the other with iron-pyrites: in this latter
11883
case, it is said that if the vein ceases to contain iron-pyrites, it is yet
11884
worth while to continue the search, but if the iron-pyrites, when it
11885
reappears, is not auriferous, it is better at once to give up working the
11886
vein. Although I believe copper and gold are most frequently found in the
11887
lower granitic and metamorphic schistose series, yet these metals occur
11888
both in the porphyritic conglomerate formation (as on the flanks of the
11889
Bell of Quillota and at Jajuel), and in the superincumbent strata. At
11890
Jajuel I was informed that the copper-ore, with some gold, is found only in
11891
the greenstones and altered feldspathic clay-slate, which alternate with
11892
the purple porphyritic conglomerate. Several gold veins and some of copper-
11893
ore are worked in several parts of the Uspallata range, both in the
11894
metamorphosed strata, which have been shown to have been of probably
11895
subsequent origin to the Neocomian or gypseous formation of the main
11896
Cordillera, and in the intrusive andesitic rocks of that range. At Los
11897
Hornos (N.E. of Illapel), likewise, there are numerous veins of copper-
11898
pyrites and of gold, both in the strata of the gypseous formation and in
11899
the injected hills of andesite and various porphyries.
11900

11901
Silver, in the form of a chloride, sulphuret, or an amalgam, or in its
11902
native state, and associated with lead and other metals, and at Arqueros
11903
with pure native copper, occurs chiefly in the upper great gypseous or
11904
cretaceo-oolitic formation which forms probably the richest mass in Chile.
11905
We may instance the mining districts of Arqueros near Coquimbo, and of
11906
nearly the whole valley of Copiapo, and of Iquique (where the principal
11907
veins run N.E. by E. and S.W. by W.), in Peru. Hence comes Molina's remark,
11908
that silver is born in the cold and solitary deserts of the Upper
11909
Cordillera. There are, however, exceptions to this rule: at Paral (S.E. of
11910
Coquimbo) silver is found in the porphyritic conglomerate formation; as I
11911
suspect is likewise the case at S. Pedro de Nolasko in the Peuquenes Pass.
11912
Rich argentiferous lead is found in the clay-slate of the Uspallata range;
11913
and I saw an old silver-mine in a hill of syenite at the foot of the Bell
11914
of Quillota: I was also assured that silver has been found in the andesitic
11915
and porphyritic region between the town of Copiapo and the Pacific. I have
11916
stated in a previous part of this chapter, that in two neighbouring mines
11917
at Arqueros the veins in one were productive when they traversed the
11918
singular green sedimentary beds, and unproductive when crossing the reddish
11919
beds; whereas at the other mine exactly the reverse takes place; I have
11920
also described the singular and rare case of numerous particles of native
11921
silver and of the chloride being disseminated in the green rock at the
11922
distance of a yard from the vein. Mercury occurs with silver both at
11923
Arqueros and at Copiapo: at the base of C. de los Hornos (S.E. of Coquimbo,
11924
a different place from Los Hornos, before mentioned) I saw in a syenitic
11925
rock numerous quartzose veins, containing a little cinnabar in nests: there
11926
were here other parallel veins of copper and of a ferrugino-auriferous ore.
11927
I believe tin has never been found in Chile.
11928

11929
From information given me by Mr. Nixon of Yaquil (At the Durazno mine, the
11930
gold is associated with copper-pyrites, and the veins contain large prisms
11931
of plumbago. Crystallised carbonate of lime is one of the commonest
11932
minerals in the matrix of the Chilean veins.), and by others, it appears
11933
that in Chile those veins are generally most permanently productive, which,
11934
consisting of various minerals (sometimes differing but slightly from the
11935
surrounding rocks), include parallel strings RICH in metals; such a vein is
11936
called a veta real. More commonly the mines are worked only where one, two,
11937
or more thin veins or strings running in a different direction, intersect a
11938
POOR "veta real:" it is unanimously believed that at such points of
11939
intersection (cruceros), the quantity of metal is much greater than that
11940
contained in other parts of the intersecting veins. In some cruceros or
11941
points of intersection, the metals extend even beyond the walls of the
11942
main, broad, stony vein. It is said that the greater the angle of
11943
intersection, the greater the produce; and that nearly parallel strings
11944
attract each other; in the Uspallata range, I observed that numerous thin
11945
auri-ferruginous veins repeatedly ran into knots, and then branched out
11946
again. I have already described the remarkable manner in which rocks of the
11947
Uspallata range are indurated and blackened (as if by a blast of gunpowder)
11948
to a considerable distance from the metallic veins.
11949

11950
Finally, I may observe, that the presence of metallic veins seems obviously
11951
connected with the presence of intrusive rocks, and with the degree of
11952
metamorphic action which the different districts of Chile have undergone.
11953
(Sir R. Murchison and his fellow travellers have given some striking facts
11954
on this subject in their account of the Ural Mountains ("Geological
11955
Proceedings" volume 3 page 748.) Such metamorphosed areas are generally
11956
accompanied by numerous dikes and injected masses of andesite and various
11957
porphyries: I have in several places traced the metalliferous veins from
11958
the intrusive masses into the encasing strata. Knowing that the porphyritic
11959
conglomerate formation consists of alternate streams of submarine lavas and
11960
of the debris of anciently erupted rocks, and that the strata of the upper
11961
gypseous formation sometimes include submarine lavas, and are composed of
11962
tuffs, mudstones, and mineral substances, probably due to volcanic
11963
exhalations,--the richness of these strata is highly remarkable when
11964
compared with the erupted beds, often of submarine origin, but NOT
11965
METAMORPHOSED, which compose the numerous islands in the Pacific, Indian,
11966
and Atlantic Oceans; for in these islands metals are entirely absent, and
11967
their nature even unknown to the aborigines.
11968

11969
SUMMARY OF THE GEOLOGICAL HISTORY OF THE CHILEAN CORDILLERA, AND OF THE
11970
SOUTHERN PARTS OF SOUTH AMERICA.
11971

11972
We have seen that the shores of the Pacific, for a space of 1,200 miles
11973
from Tres Montes to Copiapo, and I believe for a very much greater
11974
distance, are composed, with the exception of the tertiary basins, of
11975
metamorphic schists, plutonic rocks, and more or less altered clay-slate.
11976
On the floor of the ocean thus constituted, vast streams of various
11977
purplish claystone and greenstone porphyries were poured forth, together
11978
with great alternating piles of angular and rounded fragments of similar
11979
rocks ejected from the submarine craters. From the compactness of the
11980
streams and fragments, it is probable that, with the exception of some
11981
districts in Northern Chile, the eruptions took place in profoundly deep
11982
water. The orifices of eruption appear to have been studded over a breadth,
11983
with some outliers, of from fifty to one hundred miles: and closely enough
11984
together, both north and south, and east and west, for the ejected matter
11985
to form a continuous mass, which in Central Chile is more than a mile in
11986
thickness. I traced this mould-like mass, for only 450 miles; but judging
11987
from what I saw at Iquique, from specimens, and from published accounts, it
11988
appears to have a manifold greater length. In the basal parts of the
11989
series, and especially towards the flanks of the range, mud, since
11990
converted into a feldspathic slaty rock, and sometimes into greenstone, was
11991
occasionally deposited between the beds of erupted matter: with this
11992
exception the uniformity of the porphyritic rocks is very remarkable.
11993

11994
At the period when the claystone and greenstone porphyries nearly or quite
11995
ceased being erupted, that great pile of strata which, from often abounding
11996
with gypsum, I have generally called the gypseous formation was deposited,
11997
and feldspathic lavas, together with other singular volcanic rocks, were
11998
occasionally poured forth: I am far from pretending that any distinct line
11999
of demarcation can be drawn between this formation and the underlying
12000
porphyries and porphyritic conglomerate, but in a mass of such great
12001
thickness, and between beds of such widely different mineralogical nature,
12002
some division was necessary. At about the commencement of the gypseous
12003
period, the bottom of the sea here seems first to have been peopled by
12004
shells, not many in kind, but abounding in individuals. At the P. del Inca
12005
the fossils are embedded near the base of the formation; in the Peuquenes
12006
range, at different levels, halfway up, and even higher in the series;
12007
hence, in these sections, the whole pile of strata belongs to the same
12008
period: the same remark is applicable to the beds at Copiapo, which attain
12009
a thickness of between seven and eight thousand feet. The fossil shells in
12010
the Cordillera of Central Chile, in the opinion of all the palaeontologists
12011
who have examined them, belong to the earlier stages of the cretaceous
12012
system; whilst in Northern Chile there is a most singular mixture of
12013
cretaceous and oolitic forms: from the geological relations, however, of
12014
these two districts, I cannot but think that they all belong to nearly the
12015
same epoch, which I have provisionally called cretaceo-oolitic.
12016

12017
The strata in this formation, composed of black calcareous shaly-rocks of
12018
red and white, and sometimes siliceous sandstone, of coarse conglomerates,
12019
limestones, tuffs, dark mudstones, and those singular fine-grained rocks
12020
which I have called pseudo-honestones, vast beds of gypsum, and many other
12021
jaspery and scarcely describable varieties, vary and replace each other in
12022
short horizontal distances, to an extent, I believe, unequalled even in any
12023
tertiary basin. Most of these substances are easily fusible, and have
12024
apparently been derived either from volcanoes still in quiet action, or
12025
from the attrition of volcanic products. If we picture to ourselves the
12026
bottom of the sea, rendered uneven in an extreme degree, with numerous
12027
craters, some few occasionally in eruption, but the greater number in the
12028
state of solfataras, discharging calcareous, siliceous, ferruginous
12029
matters, and gypsum or sulphuric acid to an amount surpassing, perhaps,
12030
even the existing sulphureous volcanoes of Java (Von Buch's "Description
12031
Physique des Iles Canaries" page 428.), we shall probably understand the
12032
circumstances under which this singular pile of varying strata was
12033
accumulated. The shells appear to have lived at the quiescent periods when
12034
only limestone or calcareo-argillaceous matter was depositing. From Dr.
12035
Gillies' account, this gypseous or cretaceo-oolitic formation extends as
12036
far south as the Pass of Planchon, and I followed it northward at intervals
12037
for 500 miles: judging from the character of the beds with the Terebratula
12038
aenigma, at Iquique, it extends from four to five hundred miles further:
12039
and perhaps even for ten degrees of latitude north of Iquique to the Cerro
12040
Pasco, not far from Lima: again, we know that a cretaceous formation,
12041
abounding with fossils, is largely developed north of the equator, in
12042
Colombia: in Tierra del Fuego, at about this same period, a wide district
12043
of clay-slate was deposited, which in its mineralogical characters and
12044
external features, might be compared to the Silurian regions of North
12045
Wales. The gypseous formation, like that of the porphyritic breccia-
12046
conglomerate on which it rests, is of inconsiderable breadth; though of
12047
greater breadth in Northern than in Central Chile.
12048

12049
As the fossil shells in this formation are covered, in the Peuquenes ridge,
12050
by a great thickness of strata; at the Puente del Inca, by at least five
12051
thousand feet; at Coquimbo, though the superposition there is less plainly
12052
seen, by about six thousand feet; and at Copiapo, certainly by five or six
12053
thousand, and probably by seven thousand feet (the same species there
12054
recurring in the upper and lower parts of the series), we may feel
12055
confident that the bottom of the sea subsided during this cretaceo-oolitic
12056
period, so as to allow of the accumulation of the superincumbent submarine
12057
strata. This conclusion is confirmed by, or perhaps rather explains, the
12058
presence of the many beds at many levels of coarse conglomerate, the well-
12059
rounded pebbles in which we cannot believe were transported in very deep
12060
water. Even the underlying porphyries at Copiapo. with their highly
12061
amygdaloidal surfaces, do not appear to have flowed under great pressure.
12062
The great sinking movement thus plainly indicated, must have extended in a
12063
north and south line for at least four hundred miles, and probably was co-
12064
extensive with the gypseous formation.
12065

12066
The beds of conglomerate just referred to, and the extraordinarily numerous
12067
silicified trunks of fir-trees at Los Hornos, perhaps at Coquimbo and at
12068
two distant points in the valley of Copiapo, indicate that land existed at
12069
this period in the neighbourhood. This land, or islands, in the northern
12070
part of the district of Copiapo, must have been almost exclusively
12071
composed, judging from the nature of the pebbles of granite: in the
12072
southern parts of Copiapo, it must have been mainly formed of claystone
12073
porphyries, with some mica-schist, and with much sandstone and jaspery
12074
rocks exactly like the rocks in the gypseous formation, and no doubt
12075
belonging to its basal series. In several other places also, during the
12076
accumulation of the gypseous formation, its basal parts and the underlying
12077
porphyritic conglomerate must likewise have been already partially upheaved
12078
and exposed to wear and tear; near the Puente del Inca and at Coquimbo,
12079
there must have existed masses of mica-schist or some such rock, whence
12080
were derived the many small pebbles of opaque quartz. It follows from these
12081
facts, that in some parts of the Cordillera the upper beds of the gypseous
12082
formation must lie unconformably on the lower beds; and the whole gypseous
12083
formation, in parts, unconformably on the porphyritic conglomerate;
12084
although I saw no such cases, yet in many places the gypseous formation is
12085
entirely absent; and this, although no doubt generally caused by quite
12086
subsequent denudation, may in others be due to the underlying porphyritic
12087
conglomerate having been locally upheaved before the deposition of the
12088
gypseous strata, and thus having become the source of the pebbles of
12089
porphyry embedded in them. In the porphyritic conglomerate formation, in
12090
its lower and middle parts, there is very rarely any evidence, with the
12091
exception of the small quartz pebbles at Jajuel near Aconcagua, and of the
12092
single pebble of granite at Copiapo, of the existence of neighbouring land:
12093
in the upper parts, however, and especially in the district of Copiapo, the
12094
number of thoroughly well-rounded pebbles of compact porphyries make me
12095
believe, that, as during the prolonged accumulation of the gypseous
12096
formation the lower beds had already been locally upheaved and exposed to
12097
wear and tear, so it was with the porphyritic conglomerate. Hence in
12098
following thus far the geological history of the Cordillera, it may be
12099
inferred that the bed of a deep and open, or nearly open, ocean was filled
12100
up by porphyritic eruptions, aided probably by some general and some local
12101
elevations, to that comparatively shallow level at which the cretaceo-
12102
oolitic shells first lived. At this period, the submarine craters yielded
12103
at intervals a prodigious supply of gypsum and other mineral exhalations,
12104
and occasionally, in certain places poured forth lavas, chiefly of a
12105
feldspathic nature: at this period, islands clothed with fir-trees and
12106
composed of porphyries, primary rocks, and the lower gypseous strata had
12107
already been locally upheaved, and exposed to the action of the waves;--the
12108
general movement, however, at this time having been over a very wide area,
12109
one of slow subsidence, prolonged till the bed of the sea sank several
12110
thousand feet.
12111

12112
In Central Chile, after the deposition of a great thickness of the gypseous
12113
strata, and after their upheaval, by which the Cumbre and adjoining ranges
12114
were formed, a vast pile of tufaceous matter and submarine lava was
12115
accumulated, where the Uspallata chain now stands; also after the
12116
deposition and upheaval of the equivalent gypseous strata of the Peuquenes
12117
range, the great thick mass of conglomerate in the valley of Tenuyan was
12118
accumulated: during the deposition of the Uspallata strata, we know
12119
absolutely, from the buried vertical trees, that there was a subsidence of
12120
some thousand feet; and we may infer from the nature of the conglomerate in
12121
the valley of Tenuyan, that a similar and perhaps contemporaneous movement
12122
there took place. We have, then, evidence of a second great period of
12123
subsidence; and, as in the case of the subsidence which accompanied the
12124
accumulation of the cretaceo-oolitic strata, so this latter subsidence
12125
appears to have been complicated by alternate or local elevatory movement--
12126
for the vertical trees, buried in the midst of the Uspallata strata, must
12127
have grown on dry land, formed by the upheaval of the lower submarine beds.
12128
Presently I shall have to recapitulate the facts, showing that at a still
12129
later period, namely, at nearly the commencement of the old tertiary
12130
deposits of Patagonia and of Chile, the continent stood at nearly its
12131
present level, and then, for the third time, slowly subsided to the amount
12132
of several hundred feet, and was afterwards slowly re-uplifted to its
12133
present level.
12134

12135
The highest peaks of the Cordillera appear to consist of active or more
12136
commonly dormant volcanoes,--such as Tupungato, Maypu, and Aconcagua, which
12137
latter stands 23,000 feet above the level of the sea, and many others. The
12138
next highest peaks are formed of the gypseous and porphyritic strata,
12139
thrown into vertical or highly inclined positions. Besides the elevation
12140
thus gained by angular displacements, I infer, without any hesitation--from
12141
the stratified gravel-fringes which gently slope up the valleys of the
12142
Cordillera from the gravel-capped plains at their base, which latter are
12143
connected with the plains, still covered with recent shells on the coast--
12144
that this great range has been upheaved in mass by a slow movement, to an
12145
amount of at least 8,000 feet. In the Despoblado Valley, north of Copiapo,
12146
the horizontal elevation, judging from the compact, stratified tufaceous
12147
deposit, capping the distant mountains at corresponding heights, was about
12148
ten thousand feet. It is very possible, or rather probable, that this
12149
elevation in mass may not have been strictly horizontal, but more energetic
12150
under the Cordillera, than towards the coast on either side; nevertheless,
12151
movements of this kind may be conveniently distinguished from those by
12152
which strata have been abruptly broken and upturned. When viewing the
12153
Cordillera, before having read Mr. Hopkins's profound "Researches on
12154
Physical Geology," the conviction was impressed on me, that the angular
12155
dislocations, however violent, were quite subordinate in importance to the
12156
great upward movement in mass, and that they had been caused by the edges
12157
of the wide fissures, which necessarily resulted from the tension of the
12158
elevated area, having yielded to the inward rush of fluidified rock, and
12159
having thus been upturned.
12160

12161
The ridges formed by the angularly upheaved strata are seldom of great
12162
length: in the central parts of the Cordillera they are generally parallel
12163
to each other, and run in north and south lines; but towards the flanks
12164
they often extend more or less obliquely. The angular displacement has been
12165
much more violent in the central than in the exterior MAIN lines; but it
12166
has likewise been violent in some of the MINOR lines on the extreme flanks.
12167
The violence has been very unequal on the same short lines; the crust
12168
having apparently tended to yield on certain points along the lines of
12169
fissures. These points, I have endeavoured to show, were probably first
12170
foci of eruption, and afterwards of injected masses of porphyry and
12171
andesite. (Sir R. Murchison and his companions state "Geological
12172
Proceedings" volume 3 page 747, that no true granite appears in the higher
12173
Ural Mountains; but that syenitic greenstone--a rock closely analogous to
12174
our andesite--is far the most abundant of the intrusive masses.) The close
12175
similarity of the andesitic granites and porphyries, throughout Chile,
12176
Tierra del Fuego, and even in Peru, is very remarkable. The prevalence of
12177
feldspar cleaving like albite, is common not only to the andesites, but (as
12178
I infer from the high authority of Professor G. Rose, as well as from my
12179
own measurements) to the various claystone and greenstone porphyries, and
12180
to the trachytic lavas of the Cordillera. The andesitic rocks have in most
12181
cases been the last injected ones, and they probably form a continuous dome
12182
under this great range: they stand in intimate relationship with the modern
12183
lavas; and they seem to have been the immediate agent in metamorphosing the
12184
porphyritic conglomerate formation, and often likewise the gypseous strata,
12185
to the extraordinary extent to which they have suffered.
12186

12187
With respect to the age at which the several parallel ridges composing the
12188
Cordillera were upthrown, I have little evidence. Many of them may have
12189
been contemporaneously elevated and injected in the same manner as in
12190
volcanic archipelagoes lavas are contemporaneously ejected on the parallel
12191
lines of fissure. ("Volcanic Islands" etc.) But the pebbles apparently
12192
derived from the wear and tear of the porphyritic conglomerate formation,
12193
which are occasionally present in the upper parts of this same formation,
12194
and are often present in the gypseous formation, together with the pebbles
12195
from the basal parts of the latter formation in its upper strata, render it
12196
almost certain that portions, we may infer ridges, of these two formations
12197
were successively upheaved. In the case of the gigantic Portillo range, we
12198
may feel almost certain that a preexisting granitic line was upraised (not
12199
by a single blow, as shown by the highly inclined basaltic streams in the
12200
valley on its eastern flank) at a period long subsequent to the upheavement
12201
of the parallel Peuquenes range. (I have endeavoured to show in my
12202
"Journal" 2nd edition page 321, that the singular fact of the river, which
12203
drains the valley between these two ranges, passing through the Portillo
12204
and higher line, is explained by its slow and subsequent elevation. There
12205
are many analogous cases in the drainage of rivers: see "Edinburgh New
12206
Philosophical Journal" volume 28 pages 33 and 44.) Again, subsequently to
12207
the upheavement of the Cumbre chain, that of Uspallata was formed and
12208
elevated; and afterwards, I may add, in the plain of Uspallata, beds of
12209
sand and gravel were violently upthrown. The manner in which the various
12210
kinds of porphyries and andesites have been injected one into the other,
12211
and in which the infinitely numerous dikes of various composition intersect
12212
each other, plainly show that the stratified crust has been stretched and
12213
yielded many times over the same points. With respect to the age of the
12214
axes of elevation between the Pacific and the Cordillera, I know little:
12215
but there are some lines which must--namely, those running north and south
12216
in Chiloe, those eight or nine east and west, parallel, far-extended, most
12217
symmetrical uniclinal lines at P. Rumena, and the short N.W.-S.E. and N.E.-
12218
S.W. lines at Concepcion--have been upheaved long after the formation of
12219
the Cordillera. Even during the earthquake of 1835, when the linear north
12220
and south islet of St. Mary was uplifted several feet above the surrounding
12221
area, we perhaps see one feeble step in the formation of a subordinate
12222
mountain-axis. In some cases, moreover, for instance, near the baths of
12223
Cauquenes, I was forcibly struck with the small size of the breaches cut
12224
through the exterior mountain-ranges, compared with the size of the same
12225
valleys higher up where entering the Cordillera; and this circumstance
12226
appeared to me scarcely explicable, except on the idea of the exterior
12227
lines having been subsequently upthrown, and therefore having been exposed
12228
to a less amount of denudation. From the manner in which the fringes of
12229
gravel are prolonged in unbroken slopes up the valleys of the Cordillera, I
12230
infer that most of the greater dislocations took place during the earlier
12231
parts of the great elevation in mass: I have, however, elsewhere given a
12232
case, and M. de Tschudi has given another, of a ridge thrown up in Peru
12233
across the bed of a river, and consequently after the final elevation of
12234
the country above the level of the sea. ("Reise in Peru" Band 2 s.8:
12235
Author's "Journal" 2nd edition page 359.)
12236

12237
Ascending to the older tertiary formations, I will not again recapitulate
12238
the remarks already given at the end of the Fifth Chapter,--on their great
12239
extent, especially along the shores of the Atlantic--on their antiquity,
12240
perhaps corresponding with that of the eocene deposits of Europe,--on the
12241
almost entire dissimilarity, though the formations are apparently
12242
contemporaneous, of the fossils from the eastern and western coasts, as is
12243
likewise the case, even in a still more marked degree, with the shells now
12244
living in these opposite though approximate seas,--on the climate of this
12245
period not having been more tropical than what might have been expected
12246
from the latitudes of the places under which the deposits occur; a
12247
circumstance rendered well worthy of notice, from the contrast with what is
12248
known to have been the case during the older tertiary periods of Europe,
12249
and likewise from the fact of the southern hemisphere having suffered at a
12250
much later period, apparently at the same time with the northern
12251
hemisphere, a colder or more equable temperature, as shown by the zones
12252
formerly affected by ice-action. Nor will I recapitulate the proofs of the
12253
bottom of the sea, both on the eastern and western coast, having subsided
12254
seven or eight hundred feet during this tertiary period; the movement
12255
having apparently been co-extensive, or nearly co-extensive, with the
12256
deposits of this age. Nor will I again give the facts and reasoning on
12257
which the proposition was founded, that when the bed of the sea is either
12258
stationary or rising, circumstances are far less favourable than when its
12259
level is sinking, to the accumulation of conchiferous deposits of
12260
sufficient thickness, extension, and hardness to resist, when upheaved, the
12261
ordinary vast amount of denudation. We have seen that the highly remarkable
12262
fact of the absence of any EXTENSIVE formations containing recent shells,
12263
either on the eastern or western coasts of the continent,--though these
12264
coasts now abound with living mollusca,--though they are, and apparently
12265
have always been, as favourable for the deposition of sediment as they were
12266
when the tertiary formations were copiously deposited,--and though they
12267
have been upheaved to an amount quite sufficient to bring up strata from
12268
the depths the most fertile for animal life--can be explained in accordance
12269
with the above proposition. As a deduction, it was also attempted to be
12270
shown, first, that the want of close sequence in the fossils of successive
12271
formations, and of successive stages in the same formation, would follow
12272
from the improbability of the same area continuing slowly to subside from
12273
one whole period to another, or even during a single entire period; and
12274
secondly, that certain epochs having been favourable at distant points, in
12275
the same quarter of the world for the synchronous accumulation of
12276
fossiliferous strata, would follow from movements of subsidence having
12277
apparently, like those of elevation, contemporaneously affected very large
12278
areas.
12279

12280
There is another point which deserves some notice, namely, the analogy
12281
between the upper parts of the Patagonian tertiary formation, as well as of
12282
the upper possibly contemporaneous beds at Chiloe and Concepcion, with the
12283
great gypseous formation of Cordillera; for in both formations, the rocks,
12284
in their fusible nature, in their containing gypsum, and in many other
12285
characters, show a connection, either intimate or remote, with volcanic
12286
action; and as the strata in both were accumulated during subsidence, it
12287
appears at first natural to connect this sinking movement with a state of
12288
high activity in the neighbouring volcanoes. During the cretaceo-oolitic
12289
period this certainly appears to have been the case at the Puente del Inca,
12290
judging from the number of intercalated lava-streams in the lower 3,000
12291
feet of strata; but generally, the volcanic orifices seem at this time to
12292
have existed as submarine solfataras, and were certainly quiescent compared
12293
with their state during the accumulation of the porphyritic conglomerate
12294
formation. During the deposition of the tertiary strata we know that at S.
12295
Cruz, deluges of basaltic lava were poured forth; but as these lie in the
12296
upper part of the series, it is possible that the subsidence may at that
12297
time have ceased: at Chiloe, I was unable to ascertain to what part of the
12298
series the pile of lavas belonged. The Uspallata tuffs and great streams of
12299
submarine lavas, were probably intermediate in age between the cretaceo-
12300
oolitic and older tertiary formations, and we know from the buried trees
12301
that there was a great subsidence during their accumulation; but even in
12302
this case, the subsidence may not have been strictly contemporaneous with
12303
the great volcanic eruptions, for we must believe in at least one
12304
intercalated period of elevation, during which the ground was upraised on
12305
which the now buried trees grew. I have been led to make these remarks, and
12306
to throw some doubt on the strict contemporaneousness of high volcanic
12307
activity and movements of subsidence, from the conviction impressed on my
12308
mind by the study of coral formations, that these two actions do not
12309
generally go on synchronously;--on the contrary, that in volcanic
12310
districts, subsidence ceases as soon as the orifices burst forth into
12311
renewed action, and only recommences when they again have become dormant.
12312
("The Structure and Distribution of Coral Reefs.")
12313

12314
At a later period, the Pampean mud, of estuary origin, was deposited over a
12315
wide area,--in one district conformably on the underlying old tertiary
12316
strata, and in another district unconformably on them, after their upheaval
12317
and denudation. During and before the accumulation, however, of these old
12318
tertiary strata, and, therefore, at a very remote period, sediment,
12319
strikingly resembling that of the Pampas, was deposited; showing during how
12320
long a time in this case the same agencies were at work in the same area.
12321
The deposition of the Pampean estuary mud was accompanied, at least in the
12322
southern parts of the Pampas, by an elevatory movement, so that the M.
12323
Hermoso beds probably were accumulated after the upheaval of those round
12324
the S. Ventana; and those at P. Alta after the upheaval of the M. Hermoso
12325
strata; but there is some reason to suspect that one period of subsidence
12326
intervened, during which mud was deposited over the coarse sand of the
12327
Barrancas de S. Gregorio, and on the higher parts of Banda Oriental. The
12328
mammiferous animals characteristic of this formation, many of which differ
12329
as much from the present inhabitants of South America, as do the eocene
12330
mammals of Europe from the present ones of that quarter of the globe,
12331
certainly co-existed at B. Blanca with twenty species of mollusca, one
12332
balanus, and two corals, all now living in the adjoining sea: this is
12333
likewise the case in Patagonia with the Macrauchenia, which co-existed with
12334
eight shells, still the commonest kinds on that coast. I will not repeat
12335
what I have elsewhere said, on the place of habitation, food, wide range,
12336
and extinction of the numerous gigantic mammifers, which at this late
12337
period inhabited the two Americas.
12338

12339
The nature and grouping of the shells embedded in the old tertiary
12340
formations of Patagonia and Chile show us, that the continent at that
12341
period must have stood only a few fathoms below its present level, and that
12342
afterwards it subsided over a wide area, seven or eight hundred feet. The
12343
manner in which it has since been rebrought up to its actual level, was
12344
described in detail in the First and Second Chapters. It was there shown
12345
that recent shells are found on the shores of the Atlantic, from Tierra del
12346
Fuego northward for a space of at least 1,180 nautical miles, and at the
12347
height of about 100 feet in La Plata, and of 400 feet in Patagonia. The
12348
elevatory movements on this side of the continent have been slow; and the
12349
coast of Patagonia, up to the height in one part of 950 feet and in another
12350
of 1,200 feet, is modelled into eight great, step-like, gravel-capped
12351
plains, extending for hundreds of miles with the same heights; this fact
12352
shows that the periods of denudation (which, judging from the amount of
12353
matter removed, must have been long continued) and of elevation were
12354
synchronous over surprisingly great lengths of coasts. On the shores of the
12355
Pacific, upraised shells of recent species, generally, though not always,
12356
in the same proportional numbers as in the adjoining sea, have actually
12357
been found over a north and south space of 2,075 miles, and there is reason
12358
to believe that they occur over a space of 2,480 miles. The elevation on
12359
this western side of the continent has not been equable; at Valparaiso,
12360
within the period during which upraised shells have remained undecayed on
12361
the surface, it has been 1,300 feet, whilst at Coquimbo, 200 miles
12362
northward, it has been within this same period only 252 feet. At Lima, the
12363
land has been uplifted at least 80 feet since Indian man inhabited that
12364
district; but the level within historical times apparently has subsided. At
12365
Coquimbo, in a height of 364 feet, the elevation has been interrupted by
12366
five periods of comparative rest. At several places the land has been
12367
lately, or still is, rising both insensibly and by sudden starts of a few
12368
feet during earthquake-shocks; this shows that these two kinds of upward
12369
movement are intimately connected together. For a space of 775 miles,
12370
upraised recent shells are found on the two opposite sides of the
12371
continent; and in the southern half of this space, it may be safely
12372
inferred from the slope of the land up to the Cordillera, and from the
12373
shells found in the central part of Tierra del Fuego, and high up the River
12374
Santa Cruz, that the entire breadth of the continent has been uplifted.
12375
From the general occurrence on both coasts of successive lines of
12376
escarpments, of sand-dunes and marks of erosion, we must conclude that the
12377
elevatory movement has been normally interrupted by periods, when the land
12378
either was stationary, or when it rose at so slow a rate as not to resist
12379
the average denuding power of the waves, or when it subsided. In the case
12380
of the present high sea-cliffs of Patagonia and in other analogous
12381
instances, we have seen that the difficulty in understanding how strata can
12382
be removed at those depths under the sea, at which the currents and
12383
oscillations of the water are depositing a smooth surface of mud, sand, and
12384
sifted pebbles, leads to the suspicion that the formation or denudation of
12385
such cliffs has been accompanied by a sinking movement.
12386

12387
In South America, everything has taken place on a grand scale, and all
12388
geological phenomena are still in active operation. We know how violent at
12389
the present day the earthquakes are, we have seen how great an area is now
12390
rising, and the plains of tertiary origin are of vast dimensions; an almost
12391
straight line can be drawn from Tierra del Fuego for 1,600 miles northward,
12392
and probably for a much greater distance, which shall intersect no
12393
formation older than the Patagonian deposits; so equable has been the
12394
upheaval of the beds, that throughout this long line, not a fault in the
12395
stratification or abrupt dislocation was anywhere observable. Looking to
12396
the basal, metamorphic, and plutonic rocks of the continent, the areas
12397
formed of them are likewise vast; and their planes of cleavage and
12398
foliation strike over surprisingly great spaces in uniform directions. The
12399
Cordillera, with its pinnacles here and there rising upwards of twenty
12400
thousand feet above the level of the sea, ranges in an unbroken line from
12401
Tierra del Fuego, apparently to the Arctic circle. This grand range has
12402
suffered both the most violent dislocations, and slow, though grand, upward
12403
and downward movements in mass; I know not whether the spectacle of its
12404
immense valleys, with mountain-masses of once liquified and intrusive rocks
12405
now bared and intersected, or whether the view of those plains, composed of
12406
shingle and sediment hence derived, which stretch to the borders of the
12407
Atlantic Ocean, is best adapted to excite our astonishment at the amount of
12408
wear and tear which these mountains have undergone.
12409

12410
The Cordillera from Tierra del Fuego to Mexico, is penetrated by volcanic
12411
orifices, and those now in action are connected in great trains. The
12412
intimate relation between their recent eruptions and the slow elevation of
12413
the continent in mass, appears to me highly important, for no explanation
12414
of the one phenomenon can be considered as satisfactory which is not
12415
applicable to the other. (On the Connection of certain Volcanic Phenomena
12416
in South America: "Geological Transactions" volume 5 page 609.) The
12417
permanence of the volcanic action on this chain of mountains is, also, a
12418
striking fact; first, we have the deluges of submarine lavas alternating
12419
with the porphyritic conglomerate strata, then occasionally feldspathic
12420
streams and abundant mineral exhalations during the gypseous or cretaceo-
12421
oolitic period: then the eruptions of the Uspallata range, and at an
12422
ancient but unknown period, when the sea came up to the eastern foot of the
12423
Cordillera, streams of basaltic lava at the foot of the Portillo range;
12424
then the old tertiary eruptions; and lastly, there are here and there
12425
amongst the mountains, much worn and apparently very ancient volcanic
12426
formations without any craters; there are, also, craters quite extinct, and
12427
others in the condition of solfataras, and others occasionally or
12428
habitually in fierce action. Hence it would appear that the Cordillera has
12429
been, probably with some quiescent periods, a source of volcanic matter
12430
from an epoch anterior to our cretaceo-oolitic formation to the present
12431
day; and now the earthquakes, daily recurrent on some part of the western
12432
coast, give little hope that the subterranean energy is expended.
12433

12434
Recurring to the evidence by which it was shown that some at least of the
12435
parallel ridges, which together compose the Cordillera, were successively
12436
and slowly upthrown at widely different periods; and that the whole range
12437
certainly once, and almost certainly twice, subsided some thousand feet,
12438
and being then brought up by a slow movement in mass, again, during the old
12439
tertiary formations, subsided several hundred feet, and again was brought
12440
up to its present level by a slow and often interrupted movement; we see
12441
how opposed is this complicated history of changes slowly effected, to the
12442
views of those geologists who believe that this great mountain-chain was
12443
formed in late times by a single blow. I have endeavoured elsewhere to
12444
show, that the excessively disturbed condition of the strata in the
12445
Cordillera, so far from indicating single periods of extreme violence,
12446
presents insuperable difficulties, except on the admission that the masses
12447
of once liquified rocks of the axes were repeatedly injected with intervals
12448
sufficiently long for their successive cooling and consolidation.
12449
("Geological Transactions" volume 5 page 626.) Finally, if we look to the
12450
analogies drawn from the changes now in progress in the earth's crust,
12451
whether to the manner in which volcanic matter is erupted, or to the manner
12452
in which the land is historically known to have risen and sunk: or again,
12453
if we look to the vast amount of denudation which every part of the
12454
Cordillera has obviously suffered, the changes through which it has been
12455
brought into its present condition, will appear neither to have been too
12456
slowly effected, nor to have been too complicated.
12457

12458
NOTE.
12459

12460
As, both in France and England, translations of a passage in Professor
12461
Ehrenberg's Memoir, often referred to in the Fourth Chapter of this volume,
12462
have appeared, implying that Professor Ehrenberg believes, from the
12463
character of the infusoria, that the Pampean formation was deposited by a
12464
sea-debacle rushing over the land, I may state, on the authority of a
12465
letter to me, that these translations are incorrect. The following is the
12466
passage in question:--
12467

12468
"Durch Beachtung der mikroscopischen Formen hat sich nun feststellen
12469
lassen, das die Mastodonten-Lager am La Plata und die Knochen-Lager am
12470
Monte Hermoso, who wie die der Riesen-Gurtelthiere in den Dunenhugeln bei
12471
Bahia Blanca, beides in Patagonien, unveranderte brakische
12472
Susswasserbildungen sind, die einst wohl sammtlich zum obersten
12473
Fluthgebiethe des Meeres im tieferen Festlande gehorten."--"Monatsberichten
12474
der konigl. Akad. etc." zu Berlin vom April 1845.
12475

12476

12477
INDEX.
12478

12479
Abich, on a new variety of feldspar.
12480

12481
Abrolhos islands.
12482

12483
Absence of recent formations on the S. American coasts.
12484

12485
Aguerros on elevation of Imperial.
12486

12487
Albite, constituent mineral in andesite.
12488
--in rocks of Tierra del Fuego.
12489
--in porphyries.
12490
--crystals of, with orthite.
12491

12492
Alison, Mr., on elevation of Valparaiso.
12493

12494
Alumina, sulphate of.
12495

12496
Ammonites from Concepcion.
12497

12498
Amolanas, Las.
12499

12500
Amygdaloid, curious varieties of.
12501

12502
Amygdaloids of the Uspallata range.
12503
--of Copiapo.
12504

12505
Andesite of Chile.
12506
--in the valley of Maypu.
12507
--of the Cumbre pass.
12508
--of the Uspallata range.
12509
--of Los Hornos.
12510
--of Copiapo.
12511

12512
Anhydrite, concretions of.
12513

12514
Araucaria, silicified wood of.
12515
Arica, elevation of.
12516

12517
Arqueros, mines of.
12518

12519
Ascension, gypsum deposited on.
12520
--laminated volcanic rocks of.
12521

12522
Augite in fragments, in gneiss.
12523
--with albite, in lava.
12524

12525
Austin, Mr. R.A.C., on bent cleavage lamina.
12526

12527
Austin, Captain, on sea-bottom.
12528

12529
Australia, foliated rocks of.
12530

12531
Azara labiata, beds of, at San Pedro.
12532

12533
Baculites vagina.
12534

12535
Bahia Blanca, elevation of.
12536
--formations near.
12537
--character of living shells of.
12538

12539
Bahia (Brazil), elevation near.
12540
--crystalline rocks of.
12541

12542
Ballard, M., on the precipitation of sulphate of soda.
12543

12544
Banda Oriental, tertiary formations of.
12545
--crystalline rocks of.
12546

12547
Barnacles above sea-level.
12548
--adhering to upraised shells.
12549

12550
Basalt of S. Cruz.
12551
--streams of, in the Portillo range.
12552
--in the Uspallata range.
12553

12554
Basin chains of Chile.
12555

12556
Beagle Channel.
12557

12558
Beaumont, Elie de, on inclination of lava-streams.
12559
--on viscid quartz-rocks.
12560

12561
Beech-tree, leaves of fossil.
12562

12563
Beechey, Captain, on sea-bottom.
12564

12565
Belcher, Lieutenant, on elevated shells from Concepcion.
12566

12567
Bella Vista, plain of.
12568

12569
Benza, Dr., on decomposed granite.
12570

12571
Bettington, Mr., on quadrupeds transported by rivers.
12572

12573
Blake, Mr., on the decay of elevated shells near Iquique.
12574
--on nitrate of soda.
12575

12576
Bole.
12577

12578
Bollaert, Mr., on mines of Iquique.
12579

12580
Bones, silicified.
12581
--fossil, fresh condition of.
12582

12583
Bottom of sea off Patagonia.
12584

12585
Bougainville, on elevation of the Falkland islands.
12586

12587
Boulder formation of S. Cruz.
12588
--of Falkland islands.
12589
--anterior to certain extinct quadrupeds.
12590
--of Tierra del Fuego.
12591

12592
Boulders in the Cordillera.
12593
--transported by earthquake-waves.
12594
--in fine-grained tertiary deposits.
12595

12596
Brande, Mr., on a mineral spring.
12597

12598
Bravais, M., on elevation of Scandinavia.
12599

12600
Brazil, elevation of.
12601
--crystalline rocks of.
12602

12603
Broderip, Mr., on elevated shells from Concepcion.
12604

12605
Brown, Mr. R., on silicified wood of Uspallata range.
12606

12607
Brown, on silicified wood.
12608

12609
Bucalema, elevated shells near.
12610

12611
Buch, Von, on cleavage.
12612
--on cretaceous fossils of the Cordillera.
12613
--on the sulphureous volcanoes of Java.
12614

12615
Buenos Ayres.
12616

12617
Burchell, Mr., on elevated shells of Brazil.
12618

12619
Byron, on elevated shells.
12620

12621
Cachapual, boulders in valley of.
12622

12623
Caldcleugh, Mr., on elevation of Coquimbo.
12624
--on rocks of the Portillo range.
12625

12626
Callao, elevation near.
12627
--old town of.
12628

12629
Cape of Good Hope, metamorphic rocks of.
12630

12631
Carcharias megalodon.
12632

12633
Carpenter, Dr., on microscopic organisms.
12634

12635
Castro (Chiloe), beds near.
12636

12637
Cauquenes Baths, boulders near.
12638
--pebbles in porphyry near.
12639
--volcanic formation near.
12640
--stratification near.
12641

12642
Caves above sea-level.
12643

12644
Cervus pumilus, fossil-horns of.
12645

12646
Chevalier, M., on elevation near Lima.
12647

12648
Chile, structure of country between the Cordillera and the Pacific.
12649
--tertiary formations of.
12650
--crystalline rocks in.
12651
--central, geology of.
12652
--northern, geology of.
12653

12654
Chiloe, gravel on coast.
12655
--elevation of.
12656
--tertiary formation of.
12657
--crystalline rocks of.
12658

12659
Chlorite-schist, near M. Video.
12660

12661
Chonos archipelago, tertiary formations of.
12662
--crystalline rocks of.
12663

12664
Chupat, Rio, scoriae transported by.
12665

12666
Claro, Rio, fossiliferous beds of.
12667

12668
Clay-shale of Los Hornos.
12669

12670
Clay-slate, formation of, Tierra del Fuego.
12671
--of Concepcion.
12672
--feldspathic, of Chile.
12673
-- --of the Uspallata range.
12674
--black siliceous, band of, in porphyritic formations of Chile.
12675

12676
Claystone porphyry, formation of, in Chile.
12677
--origin of.
12678
--eruptive sources of.
12679

12680
Cleavage, definition of.
12681
--at Bahia.
12682
--Rio de Janeiro.
12683
--Maldonado.
12684
--Monte Video.
12685
--S. Guitru-gueyu.
12686
--Falkland I.
12687
--Tierra del Fuego.
12688
--Chonos I.
12689
--Chiloe.
12690
--Concepcion.
12691
--Chile.
12692
--discussion on.
12693

12694
Cleavage-laminae superficially bent.
12695

12696
Cliffs, formation of.
12697

12698
Climate, late changes in.
12699
--of Chile during tertiary period.
12700

12701
Coal of Concepcion.
12702
--S. Lorenzo.
12703

12704
Coast-denudation of St. Helena.
12705

12706
Cobija, elevation of.
12707

12708
Colombia, cretaceous formation of.
12709

12710
Colonia del Sacramiento, elevation of.
12711
--Pampean formation near Colorado, Rio, gravel of.
12712
--sand-dunes of.
12713
--Pampean formation near.
12714

12715
Combarbala.
12716

12717
Concepcion, elevation of.
12718
--deposits of.
12719
--crystalline rocks of.
12720

12721
Conchalee, gravel-terraces of.
12722

12723
Concretions of gypsum, at Iquique.
12724
--in sandstone at S. Cruz.
12725
--in tufaceous tuff of Chiloe.
12726
--in gneiss.
12727
--in claystone-porphyry at Port Desire.
12728
--in gneiss at Valparaiso.
12729
--in metamorphic rocks.
12730
--of anhydrite.
12731
--relations of, to veins.
12732

12733
Conglomerate claystone of Chile.
12734
--of Tenuyan.
12735
--of the Cumbre Pass.
12736
--of Rio Claro.
12737
--of Copiapo.
12738

12739
Cook, Captain, on form of sea-bottom.
12740

12741
Copiapo, elevation of.
12742
--tertiary formations of.
12743
--secondary formations of.
12744

12745
Copper, sulphate of.
12746
--native, at Arqueros.
12747
--mines of, at Panuncillo.
12748
--veins, distribution of.
12749

12750
Coquimbo, elevation and terraces of.
12751
--tertiary formations of.
12752
--secondary formations of.
12753

12754
Corallines living on pebbles.
12755

12756
Cordillera, valleys bordered by gravel fringes.
12757
--basal strata of.
12758
--fossils of.
12759
--elevation of.
12760
--gypseous formations of.
12761
--claystone-porphyries of.
12762
--andesitic rocks of.
12763
--volcanoes of.
12764

12765
Coste, M., on elevation of Lemus.
12766

12767
Coy inlet, tertiary formation of.
12768

12769
Crassatella Lyellii.
12770

12771
Cruickshanks, Mr., on elevation near Lima.
12772

12773
Crystals of feldspar, gradual formation of, at Port Desire.
12774

12775
Cumbre, Pass of, in Cordillera.
12776

12777
Cuming, Mr., on habits of the Mesodesma.
12778
--on range of living shells on west coast.
12779

12780
Dana, Mr., on foliated rocks.
12781
--on amygdaloids.
12782

12783
Darwin, Mount.
12784

12785
D'Aubuisson, on concretions.
12786
--on foliated rocks.
12787
Decay, gradual, of upraised shells.
12788

12789
Decomposition of granite rocks.
12790

12791
De la Beche, Sir H., his theoretical researches in geology.
12792
--on the action of salt on calcareous rocks.
12793
--on bent cleavage-laminae.
12794

12795
Denudation on coast of Patagonia.
12796
--great powers of.
12797
--of the Portillo range.
12798

12799
Deposits, saline.
12800

12801
Despoblado, valley of.
12802

12803
Detritus, nature of, in Cordillera.
12804

12805
Devonshire, bent cleavage in.
12806

12807
Dikes, in gneiss of Brazil.
12808
--near Rio de Janeiro.
12809
--pseudo, at Port Desire.
12810
--in Tierra del Fuego.
12811
--in Chonos archipelago, containing quartz.
12812
--near Concepcion, with quartz.
12813
--granitic-porphyritic, at Valparaiso.
12814
--rarely vesicular in Cordillera.
12815
--absent in the central ridges of the Portillo pass.
12816
--of the Portillo range, with grains of quartz.
12817
--intersecting each other often.
12818
--numerous at Copiapo.
12819

12820
Domeyko, M., on the silver mines of Coquimbo.
12821
on the fossils of Coquimbo.
12822

12823
D'Orbigny, M. A., on upraised shells of Monte Video.
12824
--on elevated shells at St. Pedro.
12825
--on elevated shells near B. Ayres.
12826
--on elevation of S. Blas.
12827
--on the sudden elevation of La Plata.
12828
--on elevated shells near Cobija.
12829
--on elevated shells near Arica.
12830
--on the climate of Peru.
12831
--on salt deposits of Cobija.
12832
--on crystals of gypsum in salt-lakes.
12833
--on absence of gypsum in the Pampean formation.
12834
--on fossil remains from Bahia Blanca.
12835
--on fossil remains from the banks of the Parana.
12836
--on the geology of St. Fe.
12837
--on the age of Pampean formation.
12838
--on the Mastodon Andium.
12839
--on the geology of the Rio Negro.
12840
--on the character of the Patagonian fossils.
12841
--on fossils from Concepcion.
12842
-- --from Coquimbo.
12843
-- --from Payta.
12844
--on fossil tertiary shells of Chile.
12845
--on cretaceous fossils of Tierra del Fuego.
12846
-- --from the Cordillera of Chile.
12847

12848
Earth, marine origin of.
12849

12850
Earthenware, fossil.
12851

12852
Earthquake, effect of, at S. Maria.
12853
--elevation during, at Lemus.
12854
--of 1822, at Valparaiso.
12855
--effects of, in shattering surface.
12856
--fissures made by.
12857
--probable effects on cleavage.
12858

12859
Earthquakes in Pampas.
12860

12861
Earthquake-waves, power of, in throwing up shells.
12862
--effects of, near Lima.
12863
--power of, in transporting boulders.
12864

12865
Edmonston, Mr., on depths at which shells live at Valparaiso.
12866

12867
Ehrenberg, Professor, on infusoria in the Pampean formation.
12868
--on infusoria in the Patagonian formation.
12869

12870
Elevation of La Plata.
12871
--Brazil.
12872
--Bahia Blanca.
12873
--San Blas.
12874
--Patagonia.
12875
--Tierra del Fuego.
12876
--Falkland islands.
12877
--Pampas.
12878
--Chonos archipelago.
12879
--Chiloe.
12880
--Chile.
12881
--Valparaiso.
12882
--Coquimbo.
12883
--Guasco.
12884
--Iquique.
12885
--Cobija.
12886
--Lima.
12887
--sudden, at S. Maria.
12888
-- --at Lemus.
12889
--insensible, at Chiloe.
12890
-- --at Valparaiso.
12891
-- --at Coquimbo.
12892
--axes of, at Chiloe.
12893
-- --at P. Rumena.
12894
--at Concepcion.
12895
--unfavourable for the accumulation of permanent deposits.
12896
--lines of, parallel to cleavage and foliation.
12897
--lines of, oblique to foliation.
12898
--areas of, causing lines of elevation and cleavage.
12899
--lines of, in the Cordillera.
12900
--slow, in the Portillo range.
12901
--two periods of, in Cordillera of Central Chile.
12902
--of the Uspallata range.
12903
--two periods of, in Cumbre Pass.
12904
--horizontal, in the Cordillera of Copiapo.
12905
--axes of, coincident with volcanic orifices.
12906
--of the Cordillera, summary on.
12907

12908
Elliott, Captain, on human remains.
12909

12910
Ensenada, elevated shells of.
12911

12912
Entre Rios, geology of.
12913

12914
Equus curvidens.
12915

12916
Epidote in Tierra del Fuego.
12917
--in gneiss.
12918
--frequent in Chile.
12919
--in the Uspallata range.
12920
--in porphyry of Coquimbo.
12921

12922
Erman, M., on andesite.
12923
Escarpments, recent, of Patagonia.
12924

12925
Extinction of fossil mammifers.
12926

12927
Falkland islands, elevation of.
12928
--pebbles on coast.
12929
--geology of.
12930

12931
Falkner, on saline incrustations.
12932

12933
Faults, great, in Cordillera.
12934

12935
Feldspar, earthy, metamorphosis of, at Port Desire.
12936
--albitic.
12937
--crystals of, with albite.
12938
--orthitic, in conglomerate of Tenuyan.
12939
--in granite of Portillo range.
12940
--in porphyries in the Cumbre Pass.
12941

12942
Feuillee on sea-level at Coquimbo.
12943

12944
Fissures, relations of, to concretions.
12945
--upfilled, at Port Desire.
12946
--in clay-slate.
12947

12948
Fitton, Dr., on the geology of Tierra del Fuego.
12949

12950
Fitzroy, Captain, on the elevation of the Falkland islands.
12951
--on the elevation of Concepcion.
12952

12953
Foliation, definition of.
12954
--of rocks at Bahia.
12955
--Rio de Janeiro.
12956
--Maldonado.
12957
--Monte Video.
12958
--S. Guitru-gueyu.
12959
--Falkland I.
12960
--Tierra del Fuego.
12961
--Chonos archipelago.
12962
--Chiloe.
12963
--Concepcion.
12964
--Chile.
12965
--discussion on.
12966

12967
Forbes, Professor E., on cretaceous fossils of Concepcion.
12968
--on cretaceous fossils and subsidence in Cumbre Pass.
12969
--on fossils from Guasco.
12970
-- --from Coquimbo.
12971
-- --from Copiapo.
12972
--on depths at which shells live.
12973

12974
Formation, Pampean.
12975
-- --area of.
12976
-- --estuary origin.
12977
--tertiary of Entre Rios.
12978
--of Banda Oriental.
12979
--volcanic, in Banda Oriental.
12980
--of Patagonia.
12981
--summary on.
12982
--tertiary of Tierra del Fuego.
12983
-- --of the Chonos archipelago.
12984
-- --of Chiloe.
12985
-- --of Chile.
12986
-- --of Concepcion.
12987
-- --of Navidad.
12988
-- --of Coquimbo.
12989
-- --of Peru.
12990
-- --subsidence during.
12991
--volcanic, of Tres Montes.
12992
-- --of Chiloe.
12993
-- --old, near Maldonado.
12994
-- --with laminar structure.
12995
-- --ancient, in Tierra del Fuego.
12996
--recent, absent on S. American coast.
12997
--metamorphic, of claystone-porphyry of Patagonia.
12998
--foliation of.
12999
--plutonic, with laminar structure.
13000
--palaeozoic, of the Falkland I.
13001
--claystone, at Concepcion.
13002
--Jurassic, of Cordillera.
13003
--Neocomian, of the Portillo Pass.
13004
--volcanic, of Cumbre Pass.
13005
--gypseous, of Los Hornos.
13006
-- --of Coquimbo.
13007
-- --of Guasco.
13008
-- --of Copiapo.
13009
-- --of Iquique.
13010
--cretaceo-oolitic, of Coquimbo.
13011
-- --of Guasco.
13012
-- --of Copiapo.
13013
-- --of Iquique.
13014

13015
Fossils, Neocomian, of Portillo Pass.
13016
-- --of Cumbre Pass.
13017
--secondary, of Coquimbo.
13018
-- --of Guasco.
13019
-- --of Copiapo.
13020
-- --of Iquique.
13021
--palaeozoic, from the Falklands.
13022

13023
Fragments of hornblende-rock in gneiss.
13024
--of gneiss in gneiss.
13025

13026
Freyer, Lieutenant, on elevated shells of Arica.
13027

13028
Frezier on sea-level at Coquimbo.
13029

13030
Galapagos archipelago, pseudo-dikes of.
13031

13032
Gallegos, Port, tertiary formation of.
13033

13034
Garnets in gneiss.
13035
--in mica-slate.
13036
--at Panuncillo.
13037

13038
Gardichaud, M., on granites of Brazil.
13039

13040
Gay, M., on elevated shells.
13041
--on boulders in the Cordillera.
13042
--on fossils from Cordillera of Coquimbo.
13043

13044
Gill, Mr., on brickwork transported by an earthquake-wave.
13045

13046
Gillies, Dr., on heights in the Cordillera.
13047
--on extension of the Portillo range.
13048

13049
Glen Roy, parallel roads of.
13050
--sloping terraces of.
13051

13052
Gneiss, near Bahia.
13053
--of Rio de Janeiro.
13054
--decomposition of.
13055

13056
Gold, distribution of.
13057

13058
Gorodona, formations near.
13059
Granite, axis of oblique, to foliation.
13060
--andesitic.
13061
--of Portillo range.
13062
--veins of, quartzose.
13063
--pebble of, in porphyritic conglomerate.
13064
--conglomerate.
13065

13066
Grauwacke of Uspallata range.
13067

13068
Gravel at bottom of sea.
13069
--formation of, in Patagonia.
13070
--means of transportation of.
13071
--strata of, inclined.
13072

13073
Gravel-terraces in Cordillera.
13074

13075
Greenough, Mr., on quartz veins.
13076

13077
Greenstone, resulting from metamorphose hornblende-rock.
13078
--of Tierra del Fuego.
13079
--on the summit of the Campana of Quillota.
13080
--porphyry.
13081
--relation of, to clay-slate.
13082

13083
Gryphaea orientalis.
13084

13085
Guasco, elevation of.
13086
--secondary formation of.
13087

13088
Guitru-gueyu, Sierra.
13089

13090
Guyana, gneissic rocks of.
13091

13092
Gypsum, nodules of, in gravel at Rio Negro.
13093
--deposited from sea-water.
13094
--deposits of, at Iquique.
13095
--crystals of, in salt lakes.
13096
--in Pampean formation.
13097
--in tertiary formation of Patagonia.
13098
--great formation of, in the Portillo Pass.
13099
-- --in the Cumbre Pass.
13100
-- --near Los Hornos.
13101
-- --at Coquimbo.
13102
-- --at Copiapo.
13103
-- --near Iquique.
13104
--of San Lorenzo.
13105

13106
Hall, Captain, on terraces at Coquimbo.
13107

13108
Hamilton, Mr., on elevation near Tacna.
13109

13110
Harlan, Dr., on human remains.
13111

13112
Hayes, Mr. A., on nitrate of soda.
13113

13114
Henslow, Professor, on concretions.
13115

13116
Herbert, Captain, on valleys in the Himalaya.
13117

13118
Herradura Bay, elevated shells of.
13119
--tertiary formations of.
13120

13121
Himalaya, valleys in.
13122

13123
Hippurites Chilensis.
13124

13125
Hitchcock, Professor, on dikes.
13126

13127
Honestones, pseudo, of Coquimbo.
13128
--of Copiapo.
13129

13130
Hooker, Dr. J.D., on fossil beech-leaves.
13131

13132
Hopkins, Mr., on axes of elevation oblique to foliation.
13133
--on origin of lines of elevation.
13134

13135
Hornblende-rock, fragments of, in gneiss.
13136

13137
Hornblende-schist, near M. Video.
13138

13139
Hornos, Los, section near.
13140

13141
Hornstone, dike of.
13142

13143
Horse, fossil tooth of.
13144

13145
Huafo island.
13146
--subsidence at.
13147

13148
Huantajaya, mines of.
13149

13150
Humboldt, on saline incrustations.
13151
--on foliations of gneiss.
13152
--on concretions in gneiss.
13153

13154
Icebergs, action on cleavage.
13155

13156
Illapel, section near.
13157

13158
Imperial, beds of shells near.
13159

13160
Incrustations, saline.
13161

13162
Infusoria in Pampean formation.
13163
--in Patagonian formation.
13164

13165
Iodine, salts of.
13166

13167
Iquique, elevation of.
13168
--saliferous deposits of.
13169
--cretaceo-oolitic formation of.
13170

13171
Iron, oxide of, in lavas.
13172
--in sedimentary beds.
13173
--tendency in, to produce hollow concretions.
13174
--sulphate of.
13175

13176
Isabelle, M., on volcanic rocks of Banda Oriental.
13177

13178
Joints in clay-slate.
13179

13180
Jukes, Mr., on cleavage in Newfoundland.
13181

13182
Kamtschatka, andesite of.
13183

13184
Kane, Dr., on the production of carbonate of soda.
13185

13186
King George's sound, calcareous beds of.
13187

13188
Lakes, origin of.
13189
--fresh-water, near salt lakes.
13190

13191
Lava, basaltic, of S. Cruz.
13192
--claystone-porphyry, at Chiloe.
13193
-- --ancient submarine.
13194
--basaltic, of the Portillo range.
13195
--feldspathic, of the Cumbre Pass.
13196
--submarine, of the Uspallata range.
13197
--basaltic, of the Uspallata range.
13198
--submarine, of Coquimbo.
13199
--of Copiapo.
13200

13201
Lemus island.
13202

13203
Lemuy islet.
13204

13205
Lignite of Chiloe.
13206
--of Concepcion.
13207

13208
Lima, elevation of.
13209

13210
Lime, muriate of.
13211

13212
Limestone of Cumbre Pass.
13213
--of Coquimbo.
13214
--of Copiapo.
13215

13216
Lund and Clausen on remains of caves in Brazil.
13217

13218
Lund, M., on granites of Brazil.
13219

13220
Lyell, M., on upraised shells retaining their colours.
13221
--on terraces at Coquimbo.
13222
--on elevation near Lima.
13223
--on fossil horse's tooth.
13224
--on the boulder-formation being anterior to the extinction of North
13225
American mammifers.
13226
--on quadrupeds washed down by floods.
13227
--on age of American fossil mammifers.
13228
--on changes of climate.
13229
--on denudation.
13230
--on foliation.
13231

13232
MacCulloch, Dr., on concretions.
13233
--on beds of marble.
13234

13235
Maclaren, Mr., letter to, on coral-formations.
13236

13237
Macrauchenia Patachonica.
13238

13239
Madeira, subsidence of.
13240

13241
Magellan, Strait, elevation near, of.
13242

13243
Magnesia, sulphate of, in veins.
13244

13245
Malcolmson, Dr., on trees carried out to sea.
13246

13247
Maldonado, elevation of.
13248
--Pampean formation of.
13249
--crystalline rocks of.
13250

13251
Mammalia, fossil, of Bahia Blanca.
13252
-- --near St. Fe.
13253
-- --of Banda Oriental.
13254
-- --of St. Julian.
13255
-- --at Port Gallegos.
13256
--washed down by floods.
13257
--number of remains of, and range of, in Pampas.
13258

13259
Man, skeletons of (Brazil).
13260
--remains of, near Lima.
13261
--Indian, antiquity of.
13262

13263
Marble, beds of.
13264

13265
Maricongo, ravine of.
13266

13267
Marsden, on elevation of Sumatra.
13268

13269
Mastodon Andium, remains of.
13270
--range of.
13271

13272
Maypu, Rio, mouth of, with upraised shells.
13273
--gravel fringes of.
13274
--debouchement from the Cordillera.
13275

13276
Megalonyx, range of.
13277

13278
Megatherium, range of.
13279

13280
Miers, Mr., on elevated shells.
13281
--on the height of the Uspallata plain.
13282

13283
Minas, Las.
13284

13285
Mocha Island, elevation of.
13286
--tertiary form of.
13287
--subsidence at.
13288

13289
Molina, on a great flood.
13290

13291
Monte Hermoso, elevation of.
13292
--fossils of.
13293

13294
Monte Video, elevation of.
13295
--Pampean formation of.
13296
--crystalline rocks of.
13297

13298
Morris and Sharpe, Messrs., on the palaeozoic fossils of the Falklands.
13299

13300
Mud, Pampean.
13301
--long deposited on the same area.
13302

13303
Murchison, Sir R., on cleavage.
13304
--on waves transporting gravel.
13305
--on origin of salt formations.
13306
--on the relations of metalliferous veins and intrusive rocks.
13307
--on the absence of granite in the Ural.
13308

13309
Nautilus d'Orbignyanus.
13310

13311
Navidad, tertiary formations of, subsidence of.
13312

13313
Negro, Rio, pumice of pebbles of.
13314
--gravel of.
13315
--salt lakes of.
13316
--tertiary strata of.
13317

13318
North America, fossil remains of.
13319

13320
North Wales, sloping terraces absent in.
13321
--bent cleavage of.
13322

13323
Neuvo Gulf, plains of.
13324
--tertiary formation of.
13325

13326
Owen, Professor, on fossil mammiferous remains.
13327

13328
Palmer, Mr., on transportation of gravel.
13329

13330
Pampas, elevation of.
13331
--earthquakes of.
13332
--formation of.
13333
--localities in which fossil mammifers have been found.
13334

13335
Panuncillo, mines of.
13336

13337
Parana, Rio, on saline incrustations.
13338
--Pampean formations near.
13339
--on the S. Tandil.
13340

13341
Parish, Sir W., on elevated shells near Buenos Ayres.
13342
--on earthquakes in the Pampas.
13343
--on fresh-water near salt lakes.
13344
--on origin of Pampean formation.
13345

13346
Patagonia, elevation and plains of.
13347
--denudation of.
13348
--gravel-formation of.
13349
--sea-cliffs of.
13350
--subsidence during tertiary period.
13351
--crystalline rocks of.
13352

13353
Payta, tertiary formations of.
13354

13355
Pebbles of pumice.
13356
--decrease in size on the coast of Patagonia.
13357
--means of transportation.
13358
--encrusted with living corallines.
13359
--distribution of, at the eastern foot of Cordillera.
13360
--dispersal of, in the Pampas.
13361
--zoned with colour.
13362

13363
Pentland, Mr., on heights in the Cordillera.
13364
--on fossils of the Cordillera.
13365

13366
Pernambuco.
13367

13368
Peru, tertiary formations of.
13369

13370
Peuquenes, Pass of, in the Cordillera.
13371
--ridge of.
13372

13373
Pholas, elevated shells of.
13374

13375
Pitchstone of Chiloe.
13376
--of Port Desire.
13377
--near Cauquenes.
13378
--layers of, in the Uspallata range.
13379
--of Los Hornos.
13380
--of Coquimbo.
13381

13382
Plains of Patagonia.
13383
--of Chiloe.
13384
--of Chile.
13385
--of Uspallata.
13386
--on eastern foot of Cordillera.
13387
--of Iquique.
13388

13389
Plata, La, elevation of.
13390
--tertiary formation of.
13391
--crystalline rocks of.
13392

13393
Playfair, Professor, on the transportation of gravel.
13394

13395
Pluclaro, axis of.
13396

13397
Pondicherry, fossils of.
13398

13399
Porcelain rocks of Port Desire.
13400
--of the Uspallata range.
13401

13402
Porphyry, pebbles of, strewed over Patagonia.
13403

13404
Porphyry, claystone, of Chiloe,
13405
-- --of Patagonia.
13406
-- --of Chile.
13407
--greenstone, of Chile.
13408
--doubly columnar.
13409
--claystone, rare, on the eastern side of the Portillo Pass.
13410
--brick-red and orthitic, of Cumbre Pass.
13411
--intrusive, repeatedly injected.
13412
--claystone of the Uspallata range.
13413
-- --of Copiapo.
13414
-- --eruptive sources of.
13415

13416
Port Desire, elevation and plains of.
13417
--tertiary formation of.
13418
--porphyries of.
13419

13420
Portillo Pass in the Cordillera.
13421

13422
Portillo chain.
13423
--compared with that of the Uspallata.
13424

13425
Prefil or sea-wall of Valparaiso.
13426

13427
Puente del Inca, section of.
13428

13429
Pumice, pebbles of.
13430
--conglomerate of R. Negro.
13431
--hills of, in the Cordillera.
13432

13433
Punta Alta, elevation of.
13434
--beds of.
13435

13436
Quartz-rock of the S. Ventana.
13437
--C. Blanco.
13438
--Falkland islands.
13439
--Portillo range.
13440
--viscidity of.
13441
--veins of, near Monte Video.
13442
-- --in dike of greenstone.
13443
--grains of, in mica slate.
13444
-- --in dikes.
13445
--veins of, relations to cleavage.
13446

13447
Quillota, Campana of.
13448

13449
Quintero, elevation of.
13450

13451
Quiriquina, elevation of.
13452
--deposits of.
13453

13454
Rancagua, plain of.
13455

13456
Rapel, R. elevation near.
13457

13458
Reeks, Mr. T., his analysis of decomposed shells.
13459
--his analysis of salts.
13460

13461
Remains, human.
13462

13463
Rio de Janeiro, elevation near.
13464
--crystalline rocks of.
13465

13466
Rivers, small power of transporting pebbles.
13467
--small power of, in forming valleys.
13468
--drainage of, in the Cordillera.
13469

13470
Roads, parallel, of Glen Roy.
13471

13472
Rocks, volcanic, of Banda Oriental.
13473
--Tres Montes.
13474
--Chiloe.
13475
--Tierra del Fuego.
13476
--with laminar structure.
13477

13478
Rodents, fossil, remains of.
13479

13480
Rogers, Professor, address to Association of American Geologists.
13481

13482
Rose, Professor G., on sulphate of iron at Copiapo.
13483

13484
S. Blas, elevation of.
13485

13486
S. Cruz, elevation and plains of.
13487
--valley of.
13488
--nature of gravel in valley of.
13489
--boulder formation of.
13490
--tertiary formation of.
13491
--subsidence at.
13492

13493
S. Fe Bajada, formations of.
13494

13495
S. George's bay, plains of.
13496

13497
S. Helena island, sea-cliffs, and subsidence of.
13498

13499
S. Josef, elevation of.
13500
--tertiary formation of.
13501

13502
S. Juan, elevation near.
13503

13504
S. Julian, elevation and plains of.
13505
--salt lake of.
13506
--earthy deposit with mammiferous remains.
13507
--tertiary formations of.
13508
--subsidence at.
13509

13510
S. Lorenzo, elevation of.
13511
--old salt formation of.
13512

13513
S. Mary, island of, elevation of.
13514

13515
S. Pedro, elevation of.
13516

13517
Salado, R., elevated shells of.
13518
--Pampean formation of.
13519

13520
Salines.
13521

13522
Salt, with upraised shell.
13523
--lakes of.
13524
--purity of, in salt lakes.
13525
--deliquescent, necessary for the preservation of meat.
13526
--ancient formation of, at Iquique.
13527
-- --at S. Lorenzo.
13528
--strata of, origin of.
13529

13530
Salts, superficial deposits of.
13531

13532
Sand-dunes of the Uruguay.
13533
--of the Pampas.
13534
--near Bahia Blanca.
13535
--of the Colorado.
13536
--of S. Cruz.
13537
--of Arica.
13538

13539
Sarmiento, Mount.
13540

13541
Schmidtmeyer on auriferous detritus.
13542

13543
Schomburghk, Sir R., on sea-bottom.
13544
--on the rocks of Guyana.
13545

13546
Scotland, sloping terraces of.
13547

13548
Sea, nature of bottom of, off Patagonia.
13549
--power of, in forming valleys.
13550

13551
Sea cliffs, formation of.
13552

13553
Seale, Mr., model of St. Helena.
13554

13555
Sebastian Bay, tertiary formation of.
13556

13557
Sedgwick, Professor, on cleavage.
13558

13559
Serpentine of Copiapo.
13560

13561
Serpulae, on upraised rocks.
13562

13563
Shale-rock, of the Portillo Pass.
13564
--of Copiapo.
13565

13566
Shells, upraised state of, in Patagonia.
13567
--elevated, too small for human food.
13568
--transported far inland, for food.
13569
--upraised, proportional numbers varying.
13570
-- --gradual decay of.
13571
-- --absent on high plains of Chile.
13572
-- --near Bahia Blanca.
13573
--preserved in concretions.
13574
--living and fossil range of, on west coast.
13575
--living, different on the east and west coast.
13576

13577
Shingle of Patagonia.
13578

13579
Siau, M., on sea-bottom.
13580

13581
Silver mines of Arqueros.
13582
--of Chanuncillo.
13583
--of Iquique.
13584
--distribution of.
13585

13586
Slip, great, at S. Cruz.
13587

13588
Smith, Mr., of Jordan Hill, on upraised shells retaining their colours.
13589
--on Madeira.
13590
--on elevated seaweed.
13591
--on inclined gravel beds.
13592

13593
Soda, nitrate of.
13594
--sulphate of, near Bahia Blanca.
13595
--carbonate of.
13596

13597
Soundings off Patagonia.
13598
--in Tierra del Fuego.
13599

13600
Spirifers.
13601

13602
Spix and Martius on Brazil.
13603
Sprengel on the production of carbonate of soda.
13604

13605
Springs, mineral, in the Cumbre Pass.
13606

13607
Stratification of sandstone in metamorphic rocks.
13608
--of clay-slate in Tierra del Fuego.
13609
--of the Cordillera of Central Chile.
13610
--little disturbed in Cumbre Pass.
13611
--disturbance of, near Copiapo.
13612

13613
Streams of lava at S. Cruz, inclination of.
13614
--in the Portillo range.
13615

13616
String of cotton with fossil-shells.
13617

13618
Struthiolaria ornata.
13619

13620
Studer, M., on metamorphic rocks.
13621

13622
Subsidence during formation of sea-cliffs.
13623
--near Lima.
13624
--probable, during Pampean formation.
13625
--necessary for the accumulation of permanent deposits.
13626
--during the tertiary formations of Chile and Patagonia.
13627
--probable during the Neocomian formation of the Portillo Pass.
13628
--probable during the formation of conglomerate of Tenuyan.
13629
--during the Neocomian formation of the Cumbre Pass.
13630
--of the Uspallata range.
13631
--great, at Copiapo.
13632
-- --during the formation of the Cordillera.
13633

13634
Sulphur, volcanic exhalations of.
13635

13636
Sumatra, promontories of.
13637

13638
Summary on the recent elevatory movements.
13639
--on the Pampean formation.
13640
--on the tertiary formations of Patagonia and Chile.
13641
--on the Chilean Cordillera.
13642
--on the cretaceo-oolitic formation.
13643
--on the subsidences of the Cordillera.
13644
--on the elevation of the Cordillera.
13645

13646
Tacna, elevation of.
13647

13648
Tampico, elevated shells near.
13649

13650
Tandil, crystalline rocks of.
13651

13652
Tapalguen, Pampean formation of.
13653
--crystalline rocks of.
13654

13655
Taylor, Mr., on copper veins of Cuba.
13656

13657
Temperature of Chile during the tertiary period.
13658

13659
Tension, lines of, origin of, axes of elevation and of cleavage.
13660

13661
Tenuy Point, singular section of.
13662

13663
Tenuyan, valley of.
13664

13665
Terraces of the valley of S. Cruz.
13666
--of equable heights throughout Patagonia.
13667
--of Patagonia, formation of.
13668
--of Chiloe.
13669
--at Conchalee.
13670
--of Coquimbo.
13671
--not horizontal at Coquimbo.
13672
--of Guasco.
13673
--of S. Lorenzo.
13674
--of gravel within the Cordillera.
13675

13676
Theories on the origin of the Pampean formation.
13677

13678
Tierra Amarilla.
13679

13680
Tierra del Fuego, form of sea-bottom.
13681
--tertiary formations of.
13682
--clay-slate formation of.
13683
--cretaceous formation of.
13684
--crystalline rocks of.
13685
--cleavage of clay-slate.
13686

13687
Tosca rock.
13688

13689
Trachyte of Chiloe.
13690
--of Port Desire.
13691
--in the Cordillera.
13692

13693
Traditions of promontories having been islands.
13694
--on changes of level near Lima.
13695

13696
Trees buried in plain of Iquique.
13697
--silicified, vertical, of the Uspallata range.
13698

13699
Tres Montes, elevation of.
13700
--volcanic rocks of.
13701

13702
Trigonocelia insolita.
13703

13704
Tristan Arroyo, elevated shells of.
13705

13706
Tschudi, Mr., on subsidence near Lima.
13707

13708
Tuff, calcareous, at Coquimbo.
13709
--on basin-plain near St. Jago.
13710
--structure of, in Pampas.
13711
--origin of, in Pampas.
13712
--pumiceous, of R. Negro.
13713
--Nuevo Gulf.
13714
--Port Desire.
13715
--S. Cruz.
13716
--Patagonia, summary on Chiloe.
13717
--formation of, in Portillo chain.
13718
--great deposit of, at Copiapo.
13719

13720
Tuffs, volcanic, metamorphic, of Uspallata.
13721
--of Coquimbo.
13722

13723
Ulloa, on rain in Peru.
13724
--on elevation near Lima.
13725

13726
Uruguay, Rio, elevation of country near.
13727

13728
Uspallata, plain of.
13729
--pass of.
13730
--range of.
13731
--concluding remarks on.
13732

13733
Valdivia, tertiary beds of.
13734
--mica-slate of.
13735

13736
Valley of S. Cruz, structure of.
13737
--Coquimbo.
13738
--Guasco, structure of.
13739
--Copiapo, structure of.
13740
--S. Cruz, tertiary formations of.
13741
--Coquimbo, geology of.
13742
--Guasco, secondary formations of.
13743
--Copiapo, secondary formations of.
13744
--Despoblado.
13745

13746
Valleys in the Cordillera bordered by gravel fringes.
13747
--formation of.
13748
--in the Cordillera.
13749

13750
Valparaiso, elevation of.
13751
--gneiss of.
13752

13753
Vein of quartz near Monte Video.
13754
--in mica-slate.
13755
--relations of, to cleavage.
13756
--in a trap dike.
13757
--of granite, quartzose.
13758
--remarkable, in gneiss, near Valparaiso.
13759

13760
Veins, relations of, to concretions.
13761
--metalliferous, of the Uspallata range.
13762
--metalliferous, discussion on.
13763

13764
Venezuela, gneissic rocks of.
13765

13766
Ventana, Sierra, Pampean formation near.
13767
--quartz-rock of.
13768

13769
Villa Vincencio Pass.
13770

13771
Volcan, Rio, mouth of.
13772
--fossils of.
13773

13774
Volcanoes of the Cordillera.
13775
--absent, except near bodies of water.
13776
--ancient submarine, in Cordillera.
13777
--action of, in relation to changes of level.
13778
--long action of, in the Cordillera.
13779

13780
Wafer on elevated shells.
13781

13782
Waves caused by earthquakes, power of, in transporting boulders.
13783
--power of, in throwing up shells.
13784

13785
Weaver, Mr., on elevated shells.
13786

13787
White, Martin., on sea-bottom.
13788

13789
Wood, silicified, of Entre Rios.
13790
--S. Cruz.
13791
--Chiloe.
13792
--Uspallata range.
13793
--Los Hornos.
13794
--Copiapo.
13795

13796
Yeso, Rio, and plain of.
13797

13798
Ypun Island, tertiary formation of.
13799

13800
Zeagonite.
13801

13802

13803

13804

13805

13806

13807

13808