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-The Project Gutenberg EBook of The Coming Ice Age, by C. A. M. Taber
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever. You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org. If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: The Coming Ice Age
-
-Author: C. A. M. Taber
-
-Release Date: August 29, 2019 [EBook #60195]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK THE COMING ICE AGE ***
-
-
-
-
-Produced by Tim Lindell, Charlie Howard, and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive/American Libraries.)
-
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-
-[Illustration: No. 1.
-
-THIS MAP SHOWS THE SPREAD OF GLACIERS AND ICEBERGS, AND THE EXTENSION
-OF SOUTHERN LANDS DURING ICE AGE AND ALSO THE DIRECTION OF WINDS AND
-OCEAN CURRENTS.]
-
-[Illustration: No. 2.
-
-THIS MAP SHOWS THE SPREAD OF GLACIERS AND ICEBERGS AND THE DIRECTION
-OF WINDS AND CURRENTS AT THIS DATE.]
-
-
-
-
- THE
- COMING ICE AGE.
-
-
- BY
- C. A. M. TABER.
-
-
- BOSTON:
- GEO. H. ELLIS, 141 FRANKLIN STREET.
- 1896.
-
-
-
-
- COPYRIGHT, 1896.
- BY C. A. M. TABER.
-
-
- GEO. H. ELLIS, PRINTER, 141 FRANKLIN STREET, BOSTON.
-
-
-
-
-PREFACE.
-
-
-The explanations given in the following pages, in which I have sought
-to show the manner in which an ice age is being brought about, is an
-extension of a treatise on “The Cause of Warm and Frigid Periods,”
-which I published in a small edition in 1894. And, from the small
-number of copies circulated, only a few came to the hands of persons
-particularly interested in such matter. Yet there were instances of
-its having proved of special interest to persons celebrated for their
-geological attainments, and also to instructors in physical geography.
-Besides, it received considerate notice in some of the leading reviews.
-Being thus somewhat encouraged, and thinking that the subject was too
-important to be neglected, I have given it further study during the
-last year, and meanwhile have obtained additional information from
-recent discoveries which has served to corroborate my views. Hence I
-have been able to be more explicit in my explanations in the present
-volume than in my earlier writings. Still, while acting as a pioneer in
-the matter, it will be seen that I have only attempted to expose the
-main outlines, as my age and failing health will not permit me to enter
-into the voluminous details necessary for a full explanation. In order
-to show why my attention has been turned to the great climatic changes
-which have taken place during past ages, and now threaten the future, I
-will repeat the introduction of my earlier publication, wherein I wrote
-that “the reason why I have undertaken to explain the causes which have
-brought about the warm and cold epochs is because of my being unable
-to harmonize the several theories that have been published with the
-general mode of action which nature pursues to-day. Having in the early
-part of my life been employed for a score of years in the whaling
-service, during which time my sea voyages were passed in cruising over
-the North and South Atlantic, and over the Indian Ocean, from latitudes
-north of the equator to the southern shores of Kerguelen Land, and
-along the seas of Southern Australia, I also, in my searching, cruised
-over the Pacific Ocean from the icy seas south of Cape Horn to the
-northern latitudes of Alaska, and, from New Zealand in the Western
-Pacific to the numerous islands in the tropical zone. And it may be
-said that among the chief things to be learned on such voyages was the
-direction of the prevailing winds and surface currents of the sea. Thus
-the impressions then received were in mind when, in after years, I had
-my attention drawn to the several theories advanced for explaining the
-causes which produced the warm and frigid epochs. But, so far as my
-marine experience goes, such theories have not harmonized with nature’s
-mode of operating at this age of the world. Therefore, I have conceived
-views which, to my mind, are more agreeable to the simple operations of
-nature of which I have long been witness. Consequently, I have written
-several short essays on climatic changes since 1880, and also letters
-relating to the same subject, which have been published in _Science_
-and _Scientific American_. But the space allowed for the introduction of
-such matter was necessarily too limited for so wide an explanation as
-the subject required. The views then advanced I have again repeated,
-with the addition of several facts pertaining to physical geography,
-which, so far as I know, have never before been published.”
-
- WAKEFIELD, MASS., U.S.A.
- June, 1896.
-
-
-
-
-CONTENTS.
-
-
- CHAPTER I.
-
- PAGE
-
- CAUSE OF COLD AND MILD PERIODS, 9–36
-
- Traces of ancient glaciers in temperate zones, 9;
- prevailing winds the main cause of the circulation of
- the ocean waters between the tropical and temperate
- zones, 10; general direction of prevailing winds, and
- how, in connection with continents, they circulate the
- surface waters of the sea, 11; high and low sea-levels;
- separation of antarctic lands from South America, 12;
- Captain Larsen’s discoveries in antarctic regions,
- 13; how low lands south of Cape Horn were submerged,
- 13; how the winds move more surface water southward
- than northward, 14; Dr. Croll’s views on winds and
- ocean currents, 16; under-currents of the ocean, and
- how caused, 16; Gulf Stream currents, 17; antarctic
- under-currents, 18; why the winds were able to force
- more of the ocean waters southward than northward
- at the close of the Tertiary age, 19; Mr. Alfred R.
- Wallace’s views on Tertiary seas, 20; how the Cape Horn
- channel affects the ocean currents, 21; cause of the
- increase of cold in southern latitudes, 22; how the
- Cape Horn channel is closed during ice age, and its
- effect on ocean currents and temperature of southern
- latitudes, 24; the melting of glaciers from southern
- lands, 27; a salt sea requisite for circulation during
- ice age, 28; direction of surface currents in southern
- seas, 29; Humboldt current, 30; Agulhas current, 32;
- temperature of arctic ice, 34; movement of southern
- icebergs, 35; glaciers south of Cape Horn, 36.
-
-
- CHAPTER II.
-
- HOW ICE PERIODS IN THE NORTHERN HEMISPHERE ARE BROUGHT
- ABOUT, 37–54
-
- Northern seas during Tertiary age, 37; Gulf Stream during
- Tertiary times, 38; the origin of a cold period in the
- northern hemisphere, 38; remarks on Gulf Stream and
- arctic currents, 39; circulation of arctic waters, 40;
- arctic channels during ice age, 41; how the weight of
- glaciers in the northern hemisphere attracts the waters
- of the southern seas during ice age, 42; Professor
- Prestwich on the submergence of European lands, 43;
- the great Atlantic tide rips the head-waters of the
- Gulf Stream, 44; high sea-level of Atlantic calm
- region, 45; tropical Atlantic currents, 46; Sargasso
- Sea, 48; arctic and Gulf Stream currents, 49; Pacific
- Ocean currents, 50; slow growth of an ice period, 52;
- reduction of Cape Horn channel, 53; permanence of
- antarctic glaciers elevated above the snow-line during
- mild periods, 54.
-
-
- CHAPTER III.
-
- SPREAD OF GLACIERS DURING COLD EPOCHS, 54–61
-
- Spread of glaciers in tropical zone, 54; Professor Agassiz
- on the origin of Galapagos Islands, 55; the bowlders
- of Hood’s Island and rookery of Albatross, 56; alpine
- flora of Galapagos and tropical America, 57; Mr. J.
- Crawford on ancient glaciers in Nicaragua, 58; Cuba and
- Republic of Colombia during ice age, 58; destruction
- of animal life during glacial age, 59; temperature
- of North Atlantic and Mediterranean Sea during ice
- age, 60; temperature of ocean during warm epochs, 61;
- generative age ascribed to warm eras; Professor Wright
- on pre-glacial man, 61.
-
-
- CHAPTER IV.
-
- THE GLACIERS OF THE TEMPERATE ZONE, 62–75
-
- Professor Hitchcock on the early history of North America,
- 62; glacial deposits of Nantucket and Martha’s
- Vineyard, 63; Professor James Geikie on the glacial
- deposits of Northern Italy, 64; California coast ranges
- the work of Sierra glaciers, 65; ancient glaciers on
- the Pacific slope north of California, 67; Professor
- Geikie’s views on the ancient glaciers in the Salt
- Lake region, 68; Colorado Cañon, 69; the conglomerate
- deposits in the Appalachian district, 69; remarks on
- the glacial boundaries in United States during ice age,
- 70; sands of Florida, 71; ancient ice-sheets of the
- plains west of the Mississippi River, 73; the driftless
- region of Wisconsin, 74; tropical waters of North
- Atlantic chilled during ice age, 75; the drifted snow
- of British America and Siberia during ice age, 75.
-
-
- CHAPTER V.
-
- REMARKS ON THEORIES ADVANCED FOR EXPLAINING ICE PERIODS, 76–93
-
- Professor Geikie on supposed causes of the glacial period,
- 76; change in the relative level of the land and sea
- during glacial and post-glacial times, 77; submergence
- of northern lands at close of ice age, 78; the main
- cause of the movement of water from the northern seas
- at the close of glacial age, 79; why the earth-movement
- hypothesis should be rejected, 79; glaciers of Europe
- and Alaska, 80; North Pacific currents, 81; why the
- Pacific waters are growing cool, 82; the lowering
- temperature of the northern seas, 83; the increase of
- cold in Europe and Asia, 84; falling temperature of
- the Andean region, 85; General Drayson’s astronomical
- discoveries for explaining the cause of ice periods,
- 87; why the Gulf Stream was always confined to the
- North Atlantic, 89; the improbability of the Indian
- Ocean currents entering the arctic seas, 90; why the
- increase of glaciers must continue while the Cape Horn
- channel maintains its present capacity, 91; comments on
- the coming ice age, 92; tropical zone the abode of man
- during ice age, 93; preservation of the tropical ocean
- fauna through the glacial period, 93.
-
-
-
-
-CHAPTER I.
-
-CAUSE OF COLD AND MILD PERIODS.
-
-
-It is now generally conceded by those who have given the subject much
-attention that the greater portion of North America above the latitude
-of 39° north to the shores of the Arctic Ocean has been furrowed and
-scoured by the action of ice.
-
-Vast traces of ancient glaciers are also found in Europe; for it is
-reported that ice-sheets have left unmistakable marks of having overrun
-the greater part of the lands lying between the arctic seas and the
-latitude of the Pyrenees.
-
-In Asia evidences of glacial action have been noticed from Northern
-Siberia to the mountains of Syria.
-
-The great glaciers of Himalaya have in times past attained gigantic
-proportions. In Northern China huge bowlders are found scattered over
-the valleys, and a long distance from the mountains.
-
-The southern hemisphere, in proportion to the extent of its land
-surface, shows ample traces of former ice action. From the latitude of
-38° south to the southern extremity of the western continent there is
-said to be the clearest evidence of former glacial action in numerous
-bowlders scattered over the land.
-
-On the shores of the South Pacific, from the Island of Chiloe to
-Cape Horn, the coast is fringed with deep fiords, which appear to be
-channelled out by ice, like the fiords of Norway and Greenland. And at
-this date the mountains of that southern region are covered with snow,
-and the glaciers which flow down the valleys are said to reach the
-tide-water as far north as the latitude of 47° south. The glaciers of
-New Zealand, now of Alpine proportions, during the ice age descended
-to the sea, and channelled the deep fiords on its south-western coast;
-and certain traces of glacial action have been observed in Southern
-Australia, and also in the province of Natal, South Africa.
-
-Kerguelen Land is pierced with deep, narrow fiords, which have the
-appearance of having been the work of ancient glaciers.
-
-The lands south of the antarctic circle are to-day supposed to be
-covered by an ice-sheet, of which the great ice barrier surrounding
-that region furnishes ample proof.
-
-While impressed with the above reports of the work of ancient
-glaciers, in connection with my own observations along the shores of
-the several oceans, I have been led to seek for the physical causes
-which brought about the great climatic changes of past geological
-ages. And, while having the subject under consideration, I have had my
-attention directed to the manner in which the great prevailing winds in
-connection with continental lands are able to move the heated surface
-waters of the tropical oceans into the colder zones, and also transfer
-the cold waters of the higher latitudes into the tropical zones.
-
-And it is through this grand movement of the ocean waters that we are
-enabled to account for the difference in the temperature of places now
-lying in the same parallels of latitude.
-
-The natural methods for conveying tropical heat into the higher
-latitudes, and also for excluding it therefrom, are so simple and
-efficient that on due consideration we are able to conceive how epochs
-possessing mild climates have been succeeded by periods of frigidity.
-
-It has been admitted by several writers on climatic changes that,
-should the tropical surface waters of the ocean be moved into the
-high latitudes in large volume, thus adding their warmth to the heat
-imparted by the sun, such combined heat would cause a mild climate.
-And it has been estimated that the amount of equatorial heat moved
-into the temperate and polar regions of the northern hemisphere by
-the Gulf Stream alone is equal to one-fourth of all the heat received
-from the sun by the North Atlantic from the tropic of Cancer to the
-arctic circle. Still, it appears to me, while viewing the subject from
-a marine standpoint, that the explainers of climatic changes have never
-fully comprehended the manner in which the surface waters of the ocean
-are moved from the tropics into the high latitudes, and returned from
-the high latitudes to the tropics. Consequently, they have neglected
-necessary and efficient natural agents in their explanatory theories,
-and with much learning and ingenuity have laboriously sought to show
-how great changes of climate could be brought about through other
-causes.
-
-But when we notice the simple methods employed by nature to-day for
-transferring the heat of the tropics into the higher latitudes, and
-also the manner of excluding such heat therefrom, they appear to afford
-an explanation for the great changes of climate which have taken place
-during past ages; for it appears that the natural manner of proceeding
-by which heat is moved from the torrid zone into the high latitudes
-sufficient to cause a mild climate is through the ocean currents which
-are constantly set in motion by the great prevailing winds of the
-globe. These winds, as is well known, blow mostly from the east toward
-the west in the tropics, and from the west toward the east in the high
-latitudes.
-
-This counter-movement of the winds, in connection with a continent
-extending both northward and southward from the equator over many
-degrees of latitude, such as obtains on the western continent, is
-abundantly able to create extensive depressions and elevations on
-the ocean’s surface, and thus cause vast streams of water to move by
-gravity from the high sea-levels to the low sea-levels; and in this
-way the tropical waters have been moved during past ages, and to a
-considerable extent are now moved far into the northern and southern
-seas.
-
-This transfer of the ocean waters is the main cause of a temperate
-climate being enjoyed by countries situated in the high latitudes at
-this age.
-
-But, in order that the tropical currents should be able to flow into
-the high latitudes, in quantities sufficient to cause all lands and
-seas situated in such latitudes to enjoy a mild climate, it would be
-necessary that the land should extend unbroken, or nearly so, from
-the arctic to the antarctic circles. Thus, with a continent of such
-vast extent, the westerly winds would blow the surface waters of the
-ocean away from the eastern shores in the high latitudes, and so cause
-extensive low sea-levels; while the easterly winds of the torrid zone
-would heap the surface waters of the ocean against the eastern tropical
-shores of the continent. Consequently, the warm waters of the tropical
-high sea-level would be moved by gravity to the low sea-levels of the
-high latitudes, even to the arctic and antarctic regions, and thus
-afford them a mild climate. In this way we account for the mild climate
-enjoyed on lands and seas within the high latitudes during the warm
-epochs anterior to the glacial periods.
-
-As the western continent is the only land that extends unbroken from
-the equator to the cold latitudes of both hemispheres, thus affording
-an opportunity for the prevailing winds to move the tropical waters
-into the high latitudes, I will call attention to that portion of the
-continent which extends far southward into the southern ocean, where
-the winds and ocean currents have the greatest range and power to
-affect the climate on different parts of the globe. Here we see South
-America separated from the antarctic continent by a wide channel of
-deep water, where the westerly winds blow with great force. The space
-now covered by this interesting channel, owing to its being situated in
-the high southern latitudes, must have been occupied by a channel of
-comparatively small capacity, or else an isthmus of low land uniting
-the southern portion of South America with the antarctic continent
-during the warm epochs when the beds of the ancient seas of the
-northern hemisphere contained a considerable portion of the water now
-swelling the southern ocean.
-
-Therefore, the obstructions which separated the Pacific Ocean from
-the South Atlantic furnished opportunity for the westerly winds to
-force the surface waters of the sea away from the leeward side of such
-obstructions, causing a vast low sea-level, sufficient to attract the
-tropical waters heaped against Brazil by the trade winds into the
-southern seas in adequate quantity to cause a mild climate throughout
-the antarctic regions through long periods of time.
-
-Recent discoveries have proved that these high southern latitudes have
-been subject to great changes of climate. According to the reports
-from the Dundee whalers, while searching for seal in the icy seas that
-surround the South Shetlands, they met with the Norwegian ship “Jason,”
-Captain Larsen, who had traced the eastern shore of Graham Land to 68°
-south latitude, noting two active volcanoes.
-
-The same mariner brought from Seymour Island fossil shells and
-coniferous wood of the Tertiary epoch.
-
-These furnish sufficient evidence to show that a warmer climate once
-prevailed there.
-
-At the commencement of the glacial age the obstructions which separated
-the South Pacific from the South Atlantic had become deeply submerged
-by the sea, which may have been caused by a tendency of the ocean’s
-waters to move southward or by a comparative small movement in the
-earth’s crust. But, on account of the stability of the crust of the
-earth during times so late as the glacial epochs, the submergence of
-this southern region was probably owing to the movement of the ocean’s
-waters from the northern hemisphere into the southern hemisphere,
-which appears to have been brought about mostly through the agency of
-the great prevailing winds; for it seems to have happened that the
-prevailing winds on account of the disposition of the lands and seas
-were able to move more of the ocean waters southward than they moved
-northward during the age preceding the glacial periods. The waters
-thus slowly and gradually forced into the high southern latitudes
-must have deprived the northern hemisphere of their heaviness, and
-added their weight to the southern hemisphere. Therefore, the waters
-moved southward could not all be returned to the seas of the northern
-hemisphere by gravity, for the reason that the earth’s centre of
-attraction would change in accordance with the weight of water moved
-from the northern hemisphere into the southern. It will thus be seen
-that, while the northern seas were drained or became shallow, the
-augmented southern oceans deeply submerged the region south of Cape
-Horn, thus widely separating the western continent from the antarctic
-lands.
-
-Although the south-east trade winds on the eastern sides of the
-Atlantic and Pacific Oceans extend further northward than the
-north-east trade winds extend southward, owing to the heated tropical
-shores north of the equator being more extensive than such lands
-south of the equator, still, on account of the general weakness of
-the south-east trade winds at the equator, and also because of the
-obstructing northern lands, they have during remote times, and at this
-age, been largely prevented from impelling the surface waters of the
-sea into the northern latitudes in opposition to the brisk north-east
-trades. Furthermore, on account of the widening of the oceans as they
-extend southward, the surface currents setting in the latter direction
-have more broad and easy passages than the great currents setting
-northward.
-
-Moreover, the great currents setting southward on the western sides
-of the oceans south of the equator are also much assisted during the
-southern summer months by the strong north-east monsoons which prevail
-along the east coast of equatorial Africa and the east coast of South
-America as far as the latitude of 30° south.
-
-The South African current is impelled northward by the trade winds down
-the south-western coast of Africa; but it is debarred from entering
-the northern latitudes by the Guinea currents, and so turned away into
-the south equatorial current which flows into the Brazilian stream.
-
-The Gulf Stream is much obstructed in its northern movement by the
-narrow Florida channel and the opposing arctic currents, and also
-by the trend of the North American coast eastward; while its return
-current on the eastern side of the Atlantic has a much less obstructed
-passage in its southern movement, and, while on its way past the Azores
-and Madeira Islands, is largely assisted by the prevailing winds.
-
-The Brazil current, with the impelling force of a strong north-east
-monsoon during the summer season, has no obstruction whatever in its
-southern passage until it meets with an offshoot from the great drift
-current of the southern ocean.
-
-And the same favorable conditions are obtained by the great currents
-setting southward on the western sides of the South Pacific while on
-their way to the low sea-levels east of Southern Australia and New
-Zealand. That portion of the equatorial stream of the Pacific which
-continues west across the Indian Ocean finds no open passage to the
-northern seas. Consequently, it turns south along the east coast of
-Africa into the southern seas.
-
-Therefore, this current, in connection with the great currents setting
-southward east of Australia, offsets the great Humboldt current setting
-north along the coast of Peru.
-
-In the North Pacific the Japanese current setting northward is
-obstructed by the narrowing of the ocean; while its return current
-on the American side has a constantly widening ocean on its passage
-southward, and also favorable winds to impel the surface waters toward
-the equator. Still, with all the facilities above mentioned for the
-movement of the ocean waters into the southern latitudes, it is
-probable that since the shallow seas of the northern hemisphere were
-drained, or much diminished, the prevailing winds have not possessed
-sufficient force to further augment the southern seas, because of the
-superior weight of the land in the northern hemisphere compared with
-the lands south of the equator.
-
-It will appear to those who attribute the rotation of the earth as
-being the main cause of ocean currents that I am too much given
-over to the wind theory. But I have reason to believe, as Dr. Croll
-has asserted, that “the winds are the principal cause of the ocean
-currents, and are not due to the trade winds alone, but to the general
-impulse of the prevailing winds of the globe.”
-
-Dr. Croll also declares that “all of the principal currents of the
-globe are moving in the exact direction which they ought to move,
-assuming the winds to be the sole impelling cause.”
-
-Those who think that the rotation of the earth is the real cause of
-the movement of the great surface currents of the sea should explain
-in some reasonable way why the Agulhas current turns west into the
-Atlantic from the Mozambique stream, and why the Guinea current turns
-to the east from the main tropical current of the North Atlantic; for
-it seems that these two great currents move in direct opposition to the
-rotation theory, while at the same time many things go to show that
-they receive their motion from the winds. This view of the question
-will receive further attention in succeeding pages.
-
-It is the opinion of some writers that a difference of temperature
-and density between the waters of the polar latitudes and the torrid
-zone is the principal cause of the movement of the surface waters of
-the ocean from the equatorial latitudes toward the polar seas, and
-so returned in under-currents; and this is a favorable factor for
-assisting the winds on some parts of the sea, especially in aiding the
-Brazil current in moving the surface waters from the high sea-levels
-abreast Brazil, and the equatorial calm belt of the Atlantic into the
-southern ocean, and also for favoring the surface currents setting
-southward on the western sides of the South Pacific and Indian Oceans.
-
-Yet, whatever gravitating force it may possess for assisting the
-above-named currents, it would also act against the impelling force of
-the trade winds, while they were drifting the surface waters northward
-toward the equator on the eastern sides of the several oceans, and also
-to retard the returning surface currents, while being drifted by the
-winds southward on the eastern sides of the North Atlantic and North
-Pacific. Therefore, while it would seem to favor the winds in their
-work on the one hand, it would act as an opposing agent on other parts
-of the ocean. Still, the difference of temperature between the tropical
-and antarctic seas probably does act in opposition to the wide and
-brisk trade winds on the eastern sides of the great oceans south of the
-equator, and so prevents their impelling the surface waters northward
-to a great extent; and this seems to be one great cause of there being
-less surface water moved northward than southward over the greatest
-oceans of the globe.
-
-The theory that the difference of density caused by the difference
-of temperature between the polar seas and the equatorial oceans made
-under-currents to flow from the polar latitudes, and meet in the
-equatorial seas, can only be carried on in the Atlantic Ocean, and in a
-comparatively less perfect way in the Pacific Ocean, and not at all in
-the Indian Ocean.
-
-The North Atlantic being open to the Arctic Ocean, a portion of the
-Gulf Stream waters that enter it from the north-west of Europe do sink
-and return southward in under-currents; and the cold waters which pass
-down the east and west coast of Greenland also sink under the Gulf
-Stream while on their southern movement. The meeting of these arctic
-currents with the cold under-currents from the antarctic seas in the
-tropical zone is probably one cause of their cold waters rising near
-the surface of the sea in the torrid latitudes of the Atlantic; and
-the same conditions probably obtain in a somewhat less degree in the
-Pacific Ocean.
-
-Yet it appears that the cold waters of the Antarctic occupy the largest
-space in the tropical zone, even in the North Atlantic. Dr. Carpenter,
-in his lectures on Ocean Currents, speaks of meeting with antarctic
-water so far north as the latitudes of the West India Islands; and
-he also says that all of the Pacific Ocean at its depths is supplied
-from the Antarctic Ocean, as are the cold under-waters of the tropical
-Indian Ocean, which extend over twenty degrees north of the equator.
-
-Thus, from what we can learn of the antarctic under-currents, they seem
-to show that they are not wholly attracted northward on account of
-the difference of temperature between the antarctic and the tropical
-oceans, but partly because of more surface water being moved southward
-by the prevailing winds than they are able to move northward.
-
-And it appears that, if through the winds, combined with the difference
-of temperature between the antarctic seas and the equatorial waters,
-and also because of the oceans widening toward the south, more surface
-water is being carried southward than northward, the waters of the
-under-currents so caused must rise toward the surface in the latitudes
-from which they were first removed. Having called attention to the
-fact that the prevailing winds are not able at this date to augment
-the southern ocean waters from the scanty northern seas, because of
-the preponderance of northern lands, still there is reason to believe
-that even now, owing to the form of continents and oceans, and the
-attraction of the tropical surface waters into the Antarctic Ocean
-because of the difference of density between the warm and cold seas,
-the prevailing winds of this age are able to force more of the surface
-waters of the sea southward than they force northward; but, owing to
-the superior weight of the land in the northern hemisphere, the surplus
-surface water forced into the southern seas is returned by gravity
-after being cooled by the antarctic ice, and so adding to the deep
-under-currents which flow with a sluggish movement over the bottom of
-the sea into the tropical and northern temperate latitudes. And in this
-way the northern oceans are maintained at their present sea-level.
-
-The cold under-currents are probably assisted in their northern
-movement by whatever difference there may be in the density of the
-antarctic waters over the bottom waters of the equatorial seas. But,
-as such currents extend into the northern tropical latitudes of the
-northern hemisphere, it seems that the winds are the main cause of the
-under-currents which carry so much antarctic cold into the northern
-tropical seas, because the winds have forced an undue proportion
-of ocean surface water southward, to be attracted northward in
-under-currents by the preponderating northern lands.
-
-Yet, notwithstanding the superior weight of land in the northern
-hemisphere, it appears that there have been periods when there was
-somewhat more water in the oceans of the southern hemisphere than now;
-for it is reported that a portion of the low lands of Australia show
-traces of having been submerged during late geological times.
-
-This may have happened through an increased weight in the antarctic
-glaciers, which have in past ages, and probably may in future epochs,
-cause more of the ocean waters to be attracted southward than now
-obtains. But it is probable that an increase of southern ice would be
-largely counterbalanced by the accumulation of ice on northern lands.
-
-Yet it appears certain that since the Tertiary epoch the waters of
-vast shallow seas have been moved from the northern hemisphere into
-the southern. The dry beds of the ancient northern seas encourage this
-opinion, while the comparatively small area of southern lands serves to
-support such views.
-
-Still, during the ages prior to the glacial periods, while the low
-lands of the northern hemisphere were covered by the sea, the wide
-shoal channels which submerged the lower portion of North America
-afforded convenient passages for the surface waters of the ocean in
-their northern movement, and so prevented the oceans of the southern
-hemisphere from gaining undue preponderance.
-
-Hence long geological ages passed away before the winds were able
-to force more of the ocean waters southward than they could move
-northward, and thus augment the southern ocean from the waters of the
-northern seas. But the slow growth of such immense marine deposits
-in the shallow seas as are found in the Florida Peninsula and other
-portions of that region was at length sufficient to greatly obstruct
-the passage of the Gulf currents in their northern movement, and thus
-cause conditions which enabled the winds to force more of the ocean
-waters southward than they could move northward after the close of the
-Tertiary epoch.
-
-Mr. Alfred R. Wallace says in “Island Life” that the seas in the
-northern hemisphere during the Tertiary period covered a much larger
-area than now, and extended across Central Europe and portions of
-Western Asia, and the Arctic Ocean was enlarged.
-
-As it is not likely that any portion of the waters of the sea have been
-absorbed by the earth during the late epochs in the world’s history,
-therefore the ocean waters have not diminished except during cold
-periods, when the water evaporated from the sea was converted into ice,
-and, eventually, again returned to the sea.
-
-Thus it necessarily follows that, when the seas of the northern
-hemisphere contained a much larger portion of the waters of the globe
-than at this age, the seas of the southern hemisphere must have
-contained proportionally less. Consequently, during such times a
-portion of the shoal seas of the high southern latitudes must have been
-dry land. Therefore, this must have been the condition of the shallow
-sea basins in the region of Cape Horn.
-
-Mr. Wallace also says that “many peculiarities in the distribution of
-plants and some groups of animals in the southern hemisphere render it
-almost certain that there has sometimes been a greater extension of
-antarctic lands during Tertiary times.”
-
-And he also asserts that the great ocean basins have not changed, and
-that the form of continents has been permanent. It will thus be seen
-that it was through the movement of the ocean’s waters southward that
-the low lands south of Cape Horn were covered with water previous to
-the frigid periods, and so caused the wide separation between the
-western continent and the antarctic lands.
-
-The Cape Horn channel thus enlarged, the continuous mildness of the
-high southern latitudes which possessed the earlier ages came to an
-end, and gave place to alternate epochs of frigid and mild weather.
-For it appears that it is owing to the creation or enlargement of the
-Cape Horn channel that it is possible for frigid periods to be brought
-about, for the reason that its enlarged space of water prevents the
-westerly winds from maintaining a great low sea-level in the higher
-latitudes of the southern ocean; for, whenever the capacity of the Cape
-Horn channel is enlarged, the westerly winds, instead of maintaining a
-low sea-level on the South Atlantic, employ their force in impelling
-the surface water of the southern seas around the globe. And this work
-the strong westerly winds of the high southern latitudes have always
-accomplished whenever the Cape Horn channel was widely open, and this
-is what the winds are doing at this date.
-
-Therefore, such waters of the torrid zone as are moved southward from
-their high sea-level, caused by the trade winds abreast the Brazilian
-coast, are largely turned away from the high southern latitudes. It is
-true, even with an enlarged Cape Horn channel, they can always flow
-along the South American coast to an inferior low sea-level, caused by
-the westerly winds blowing the surface waters of the sea away from the
-coast of Argentine and Patagonia; but on gaining that region they meet
-the cold ice-bearing currents which turn away east of Cape Horn from
-the great southern drift current to gain the same low sea-level which
-attracts the Brazil water. Consequently, the ice-bearing currents from
-the south, which branch off from the great southern drift current, are
-able to largely turn away the warm Brazil current from the higher
-southern latitudes; and, furthermore, the great southern drift current
-which passes through the Cape Horn channel, and so onward around the
-globe, also partly turns away the Mozambique current as well as the
-East Australian current, and so largely prevents their waters from
-warming the southern seas.
-
-Therefore, it is evident that, whenever the Cape Horn channel obtains
-sufficient capacity to give an independent circulation to the southern
-ocean, the conditions are favorable for the increase of cold in the
-southern latitudes. For it is because of the large exclusion of the
-tropical waters from the southern seas that ice-sheets have been
-able to form in early periods and in later epochs on the antarctic
-lands, and store away the annual frosts for thousands of years, and
-at the same time furnish icebergs sufficient to chill the waters of
-the southern temperate oceans, and consequently make cold such of the
-surface waters of the sea as are forced into the southern latitudes by
-the winds in surface currents, and so returned to warmer seas in cold
-under-currents, and thus with such frigid combinations bring about cold
-periods.
-
-Thus it appears, as I have previously shown, that it is owing partly
-to there being more of the surface waters of the sea forced southward
-by the prevailing winds than they impel northward that the cold
-under-currents are maintained; but it also requires an independent
-circulation of the southern ocean, such as I have pointed out, to cool
-its surface waters before they can sink and form cold under-currents.
-
-And there is reason to believe that such cold under-currents are more
-efficient in lowering the temperature of the temperate and tropical
-oceans than even the icebergs which such under-currents move into the
-temperate seas. And, when it is considered that the cold antarctic
-under-currents fill the depths of the Pacific and Indian Oceans in the
-northern hemisphere, and also largely the tropical depths of the North
-Atlantic, I am led to believe that the frigid conditions of the ice
-age were concurrent in the northern and southern hemispheres. The main
-reasons for such belief I will explain in the following chapter.
-
-After the foregoing explanations, showing how frigid periods are
-brought about through the independent circulation of the southern ocean
-surface waters, it is evident that, whenever through a slow natural
-process the Cape Horn channel is closed, a great change is wrought in
-the circulation of the southern ocean.
-
-For instead of the westerly winds blowing the surface waters of the
-southern seas constantly around the globe, and so turning away and
-preventing the entrance of the tropical currents into the high southern
-latitudes, the strong westerly winds, whenever the Cape Horn channel
-is closed or greatly obstructed, would blow the surface waters away
-from the Atlantic side of the closed channel, and so cause a great low
-sea-level, sufficient to attract the ocean waters of the tropical high
-sea-level abreast Brazil well into the southern seas. Therefore, it is
-important to trace nature’s slow methods of closing the wide Cape Horn
-channel at the perfection of an ice age.
-
-In my previous explanations on the subject I have thought that, should
-the southern seas have remained at or near the same sea-level as now,
-through an ice period brought about in the manner I have described,
-ice-sheets would accumulate on the antarctic continent, and also on the
-southern lands of South America, sufficient to flow out into the sea
-and close the Cape Horn channel.
-
-But further consideration shows the impossibility of the southern seas
-having maintained their present sea-level during the growth of frigid
-epochs which have left such ample traces of glaciers having extended
-widely over the lands of the high latitudes of both the northern and
-southern hemispheres. For it appears that the larger areas of land in
-the northern latitudes, embracing wide continents and large islands,
-must, during the growth of a frigid age, have increased the spread of
-glaciers many times greater in extent than could be obtained on the
-smaller lands of the high latitudes of the southern hemisphere.
-
-For it is evident that the water evaporated from the sea and deposited
-in snow on the large continents and islands of the high northern
-latitudes during the growth of an ice period would, while thus
-diminishing the ocean waters, greatly increase the weight of northern
-lands. Therefore, the waters of the diminishing seas of the southern
-latitudes would be attracted into the northern oceans in opposition to
-the prevailing winds.
-
-Thus it appears that the Cape Horn channel would be too much reduced at
-the perfection of an ice age to afford an independent circulation for
-the southern ocean, even without being filled by glaciers to the extent
-I have pointed out in previous essays. Still, to whatever dimensions
-the Cape Horn channel might be reduced at the perfection of a frigid
-period, the enlarged shores bordering its diminished waters would be
-covered by heavy glaciers that would flow into the shrunken strait, and
-so close it effectually. Thus the reduction of the Cape Horn channel
-during the advance of an ice age seems, on close consideration, to be a
-simple operation of nature, which in the normal course of events must
-have taken place.
-
-As the closing of the Cape Horn channel has been considered by
-reviewers the weak and questionable point in preventing my views from
-gaining acceptance, it becomes necessary to be explicit concerning the
-manner in which the Cape Horn channel has in past ages been obstructed.
-
-According to the charts prepared by John James Wild, the middle portion
-of the strait is represented as being over a thousand fathoms in depth;
-but, as far as I know, its true soundings have never been determined.
-The deep portion of the mid-channel is described as being narrow
-when compared with its whole breadth from Cape Horn to the antarctic
-continent.
-
-And, when it is considered, with the growth of an ice age, how much of
-the ocean waters would be stored in the vast ice-sheets of the northern
-hemisphere, and consequently because of their weight a large portion of
-the diminished southern oceans would be attracted into the northern
-seas, it seems that the bottom of the shoaler waters of the Cape Horn
-channel, which now comprise so large a portion of its breadth, would be
-raised above the surface of the sea.
-
-The one-hundred-fathom depth south of Cape Horn, now supposed to extend
-from longitude 70° west to 55° west, and southward to the latitude of
-57°, would be a land supporting heavy glaciers for six hundred miles
-along the north side of the reduced channel during the advanced growth
-of a frigid age; and the same conditions would be obtained in the
-vicinity of the South Shetland. And when, in addition, we contemplate
-the great snow-fall of that region, and the consequent gathering of
-glaciers which would occur on the widened shores of the lessened
-channel, and the certainty of their flowing into the diminished strait,
-together with the immense icebergs of such an age grounding in the
-shoaled waters, it seems that the complete obstruction of the reduced
-channel would be accomplished.
-
-While contemplating the conditions that would obtain while the Cape
-Horn channel was being reduced, it will be seen that the independent
-circulation of the icy southern ocean would be carried on to a
-considerable extent even after the narrowing strait was no longer
-able to afford space for wide drift currents, for the reason of the
-strong current that would be caused on account of the high ocean-level
-maintained by the westerly winds on the Pacific side of the diminishing
-channel, and the great low sea-level that would take place on its
-Atlantic side.
-
-Still, as previously shown, it seems that during an advanced stage of
-the frigid epoch, the heavy glaciers from the enlarged northern and
-southern shores of the shrunken channel, together with the ponderous
-icebergs, blocking its waters, the closing process would at last be
-speedy and effective.
-
-And on further consideration it might be said that a channel of much
-less width and depth would not have been of sufficient capacity to
-have caused ice periods so wide-spread as those that have left their
-traces on the continents and islands of the globe, for the reason
-that the independent circulation of the southern ocean would not have
-been sufficiently complete and long continued to have brought such
-world-wide cold periods to perfection.
-
-With the Cape Horn channel closed, as above explained, there would be,
-as I have asserted, a great change wrought in the circulation of the
-southern ocean; for instead of the westerly winds blowing its surface
-waters constantly around the globe, and so turning away and preventing
-the entrance of tropical currents into the higher latitudes, the strong
-prevailing westerly winds would blow the surface waters of the sea from
-the Atlantic side of the closed Cape Horn channel, and so cause a great
-low sea-level, sufficient to attract the ocean waters of the tropical
-high sea-level abreast Brazil well into the southern seas.
-
-The winds of the southern westerly wind-belt being stronger in that
-region than on any other portion of the globe, consequently they are
-able to do nearly as much work while drifting surface water as the belt
-of westerly wind of greater width on other parts of the southern seas.
-Thus a person who has had a long experience with the forcible westerly
-winds of the southern ocean can well understand their ability for
-disturbing the ocean waters in the latitudes of the Cape Horn channel.
-
-The drift currents of this region are moved by the winds and waves
-from one to four miles an hour. Therefore, with the Cape Horn channel
-closed, there is nothing more certain than that the westerly winds
-would be able to cause a vast low sea-level on the Atlantic side of
-the closed Cape Horn strait, and that the waters of the high tropical
-sea-level abreast Brazil would be attracted to its wide depression, as
-shown on map No. 1.
-
-The tropical waters thus attracted far southward would be cooler
-than the tropical waters of to-day, owing to the great amount of
-cold imparted to the ocean by the numerous icebergs of a frigid age.
-Still, they would begin the slow process of raising the temperature
-of the southern ocean, and would in time carry sufficient heat into
-the southern regions to melt the ice from all southern lands; for, in
-addition to the Brazil currents, the waters of the high sea-level of
-the tropical Indian Ocean which pass southward down the Mozambique
-channel would reach a much higher latitude than during periods when the
-Cape Horn channel was open.
-
-The ice periods of the northern and southern hemispheres being
-concurrent, a condition which I shall explain in another chapter, makes
-it obvious that during the melting of the glaciers from the antarctic
-continent and other southern lands the depleted Cape Horn channel
-could not gain sufficient capacity to give an independent circulation
-to the southern ocean during the melting of the southern ice-sheets,
-on account of the diminishing heaviness of the antarctic ice and the
-greater weight of the extensive glaciers and augmented seas of the
-northern latitudes. Consequently, it seems that the southern seas would
-continue in a lessened state while the glaciers were being melted from
-the northern hemisphere, as was the case during the melting of the ice
-from the southern hemisphere; and, furthermore, during such times the
-glaciers which overrun all the low lands and shoal waters of the Cape
-Horn region would, on account of their position being to the windward
-of the tropical currents, be the last great mass of ice to melt from
-the southern hemisphere.
-
-Therefore, it seems that the Cape Horn channel would continue closed
-or greatly obstructed while the glaciers were being melted from the
-lands of both hemispheres. Thus at length a mild climate would extend
-over the globe, and so remain until the prevailing winds slowly forced
-the surface waters of the sea into the southern ocean in the manner
-explained in previous pages, thus filling the Cape Horn channel to its
-present capacity, and again restoring the independent circulation of
-the southern ocean.
-
-While contemplating the conditions that would obtain during the melting
-of the ice from the antarctic lands, it will be seen that the tropical
-waters attracted to the great low sea-level to the leeward of the
-closed Cape Horn channel would eventually enter the great bight of
-the antarctic continent to the eastward of Graham Land, where Captain
-Weddell sailed to the latitude of 74° south. This deep gulf, owing to
-its situation, would receive the full impact of the southern movement
-of the tropical currents; and, as the warm waters spread over the
-wide sea-level, the westerly winds would convert them into a drift
-current, and under such conditions would be driven along the shores
-of the antarctic continent, past the South Indian and Pacific Oceans,
-and eventually, after undergoing a cooling process from the long icy
-passage, be forced against the Pacific side of the closed Cape Horn
-channel and the western Patagonian coast.
-
-While regarding the circulation of the sea during an ice age, it may
-be said that the ocean’s being composed of brine was the cause of its
-waters being able to circulate in frigid latitudes where fresh water
-would congeal. Consequently, this is one of the reasons why successive
-periods of frigidity and mildness have been brought about; for with an
-ocean of fresh water, repeated epochs of cold and warmth could not have
-occurred, because a sea composed of fresh water would have congealed
-while circulating in the high latitudes during a frigid age. Therefore,
-it required a sea of brine to maintain a liquid state during the low
-temperature of an ice period.
-
-For, while the cold of a glacial age increased, the saltness of the sea
-increased also, because of the great amount of fresh water evaporated
-from the ocean, and stored in ice-sheets on the great continents and
-islands of the globe. Thus the briny sea was maintained in a liquid
-state, while washing vast ice-fields and glaciated shores and floating
-the numerous icebergs of a freezing age. The cold which radiated
-from such ice-bound seas must have been severe; but meanwhile the
-evaporation from the ocean was much reduced, while the saltness and
-coldness of the sea increased, and so prevented the ice of a glacial
-period from gaining invincible proportions before the independent
-circulation of the southern ocean was arrested. Therefore, the
-remaining warmth of the tropical waters after gaining free access to
-the antarctic latitudes was able to overcome the accumulated cold of
-that frigid region.
-
-At this date the observant navigators who have visited the antarctic
-seas report that the surface currents above the latitude of Cape Horn,
-while being drifted eastward by the prevailing westerly winds, also set
-toward the antarctic ice cliffs, as shown on map No. 2.
-
-The reason why this southerly set of the surface currents becomes
-noticeable above the latitude of 55° south is because the tropical
-currents which set southward from the torrid latitudes on the western
-sides of the Atlantic, Indian, and Pacific Oceans, although largely
-turned away from the high latitudes by the westerly winds and drift
-currents, are also able to send sufficient water into the great
-belt of westerly winds to furnish water for the deep under-currents
-setting northward from the antarctic shores. Thus the surface waters
-moving from the north in order to gain the higher latitudes, after
-entering the westerly wind-belt, are moved in drift currents by the
-impelling winds easterly over many degrees of longitude, and also at
-the same time slowly southward among the cooling icebergs, because of
-the attraction caused by the difference of temperature and density
-between the northern drift waters and the icy seas of the antarctic ice
-barrier. Consequently, the gradual movement of the surface waters of
-the westerly wind-belt southward before entering the higher latitudes
-is not generally apparent; for it is after they enter latitudes where
-the globe becomes much reduced in circumference that their southern
-movement in the contracted seas becomes more noticeable. The impact of
-this southerly current, which finds its outlet in deep under-currents,
-and retards somewhat the increase of ice on the southern continent at
-this date, also largely prevents the small icebergs and field-ice from
-floating northward, away from the antarctic ice barrier; for it is such
-large icebergs as penetrate the deep under-currents that are the best
-able to move into the more temperate latitudes.
-
-From the above explanations it will be seen that the impact of surface
-water against the antarctic ice barrier when the Cape Horn channel
-was closed would greatly assist the tropical waters attracted to the
-great low sea-level to the leeward of the obstructed strait to wash the
-antarctic shores while being drifted eastward by the westerly winds
-over the southern ocean against the Patagonian coast and the Pacific
-side of the closed channel, and there causing a high sea-level. This
-movement of the winds and currents encircling the antarctic continent
-is shown on map No. 1.
-
-The vast, high sea-level caused by the westerly winds drifting the
-surface waters against the Patagonian coast would obtain a much higher
-plain, were it not that so much of the water of the great drift current
-was required to feed the antarctic under-current which constantly sets
-northward from the antarctic shores; yet it would be sufficient to
-greatly increase the volume of the Humboldt current, which would flow
-in the same direction it now flows, down the South American coast to
-the equatorial latitudes, where it would become the main source of the
-great equatorial stream, and thus offset the increased southward flow
-of the equatorial waters through the Brazil and Mozambique streams.
-
-The equatorial stream, with its increased volume, would also move, as
-it moves to-day, across the Pacific; and, on gaining the western side,
-after sending off large streams to the northern and southern latitudes,
-it would pass through the East India passages into the Indian Ocean,
-where it would be drifted westward by the trade winds and cause a high
-sea-level abreast the east coast of Africa, and so become the source
-of the great Mozambique current, which would flow southward along the
-east coast of Africa, and, with the Cape Horn channel closed, would
-gain a much higher latitude than it would with the channel open. At
-this age, when the continuation of this great equatorial stream gains
-the latitude of the Cape of Good Hope, its waters are largely turned
-eastward by the great drift current of the southern ocean.
-
-Still, a considerable portion of its waters turns toward the west,
-forming the Agulhas current, which flows around the Cape of Good Hope
-into the Atlantic, where it mingles with the cooler currents which
-branch off from the great southern drift current; and so, in connection
-with the latter, it is attracted to the low sea-level caused by the
-south-east trade winds abreast the south-western coast of Africa,
-and from thence moved as a drift current by the trade winds to the
-equatorial Atlantic and coast of Brazil. Thus it will be seen that the
-Agulhas current, even with the Cape Horn channel in possession of its
-present wide capacity, serves to retard somewhat the advance of a cold
-period.
-
-The Agulhas current at this date also partly serves to replenish the
-water which is forced from the South Atlantic by strong westerly winds
-into the Southern Indian and Southern Pacific Oceans. For it appears
-that more water is now removed by such winds from the South Atlantic
-than enters it from the South Pacific, even through the enlarged Cape
-Horn channel of this date; and this fact seems to favor an impression
-that a portion of this enlarged channel existed prior to the glacial
-periods, but with its waters so much reduced as to be unable to give
-the southern ocean an independent circulation sufficient to exclude the
-tropical currents from reaching the high southern latitudes in adequate
-volume to maintain a mild climate in the southern hemisphere.
-
-For previous to the glacial age, with little or no ice gathered on
-the antarctic lands, it seems that a strait possessing one-half the
-capacity of the Cape Horn channel of the present age could not prevent
-the Brazil current and the Agulhas stream from flowing into the
-southern ocean in quantities sufficient to make it impossible for
-glaciers to form on southern lands.
-
-Thus it is probable that a reduced channel separated the western
-continent from the antarctic lands even in the mild eras previous to
-the glacial epochs.
-
-The Cape Horn channel, at the present age, with a capacity sufficient
-to largely maintain an independent circulation for the southern ocean,
-is still only one-third of the breadth of the westerly wind-belt of the
-southern seas. Therefore, the drift currents do not all pass through
-it from the Pacific into the Atlantic. Consequently, a considerable
-portion of the drifted water turns northward west of Cape Horn, and so
-forms the Humboldt current.
-
-The Agulhas stream, which even now assists in replenishing the South
-Atlantic with tropical water, would, during the perfection of a glacial
-period, with the Cape channel closed, be a much stronger stream than
-it now obtains with the Cape channel possessing its present enlarged
-capacity, for the reason that the South Atlantic waters would continue
-as now to be forced eastward by the westerly winds, while they could
-not be replenished, as they are to-day, directly from the South Pacific.
-
-Consequently, the waters of the South Atlantic Ocean would be
-correspondingly reduced.
-
-Such conditions alone would greatly increase the volume of the Agulhas
-stream at the culmination of a frigid age. Therefore, the work of
-subduing a frigid period in the southern hemisphere after the Cape Horn
-channel was closed would not rest on the Brazil current alone, but also
-on the great equatorial stream of the Pacific and Indian Oceans.
-
-Yet during such frigid times the sources of the equatorial stream would
-be greatly chilled by its two great feeders, the Humboldt current and
-the returning Japanese current, both of which flow down from the high
-latitudes and meet in the equatorial latitudes on the eastern side of
-the Pacific, thus cooling the source of the great equatorial current.
-
-But this latter stream, while on its long western passage across
-the Pacific and Indian Oceans, beneath a torrid sun, with only
-one cold feeder from the south which approaches it along the west
-side of Australia, would, on its long tropical journey, be able to
-obtain considerable warmth, even during an ice period, to supply the
-Mozambique and Agulhas streams, and so greatly assist the Atlantic
-waters in bringing about a mild period. Still, the process of subduing
-the cold of the southern latitudes would be slow, even with the Cape
-Horn channel closed, because of the vast collection of ice burdening
-the sea and land.
-
-Yet there were conditions that were naturally brought about to favor
-the process of returning warmth; for it appears that, when the southern
-ocean was made shallow because of a considerable portion of its waters
-having been moved into the northern hemisphere, it will be seen that
-the conditions were more favorable for the westerly winds to create
-drift currents than would be the case on deeper seas. Therefore,
-the high and low sea-levels caused by such winds would be greater
-on a shallow ocean than would occur on deeper waters. Thus the low
-sea-levels of the shallow southern sea would have strong attraction
-for tropical surface waters, and so increase the thickness of its warm
-drift currents, and at the same time its lessened depths would have
-less capacity for the storage of cold water to reduce the temperature
-of the under-waters of the tropical zone.
-
-And, furthermore, when the southern ocean was shallow, New Zealand
-acquired a longer extension of land to the north and south.
-Consequently, the enlarged low sea-level on its eastern side attracted
-more tropical water into the southern latitudes than now.
-
-So, according to the conditions I have pointed out, the ice-sheets
-would at length melt away, and a long period of mildness would succeed
-on account of the length of time it would require after the ice
-disappeared from the earth for the prevailing winds to move the surface
-waters of the augmented northern seas into the southern ocean, and
-again restore its independent circulation, and so, after a considerable
-lapse of time, bring about the geographical and climatic conditions
-existing at the present date, which can be seen on map No. 2, which
-shows that a cold period has already made considerable advance in the
-southern hemisphere, the southern continent and islands being covered
-with glaciers, and the prevalence of icebergs as far north as the
-latitude of 35° south.
-
-Moreover, when we consider that the independent circulation of the
-southern ocean is caused by the westerly winds blowing its surface
-waters constantly around the globe through the open Cape Horn channel,
-and so largely preventing the tropical currents from entering the
-high southern latitudes, and how, in consequence, the cold is slowly
-on the increase through the constant accumulation of ice on the lands
-and in seas of the southern latitudes, it appears that a frigid age
-is slowly progressing in the southern hemisphere. For it seems that
-continental ice-sheets should not only be able to retain their freezing
-temperature, but also the mean of the low temperature in which they
-were formed, for a considerable length of time, and so impart their
-extreme coldness in the shape of icebergs into such seas as border on
-the glaciated lands.
-
-It has been proved at Point Barrow that strata of ice and gravel can
-maintain a wintry temperature through the summer months. Captain
-G. B. Borden, keeper of the refuge station in that region, states
-that Lieutenant Ray, of the Signal Service, excavated through ice and
-gravel to a depth of forty-one feet, and that the lower portion of the
-excavation maintains a temperature 15° Fahrenheit above zero the year
-around. Therefore, with the probability of southern glaciers obtaining
-a temperature of over 15° Fahrenheit below the freezing point, we
-can well realize the frigidity imparted to the southern oceans while
-melting numerous immense icebergs, and consequently will conclude that
-the temperature of the southern latitudes is gradually lowering.
-
-The icebergs of the antarctic seas would not move northward into the
-temperature latitudes so readily as they now do, were it not that the
-general southward set of the southern ocean currents were interrupted
-by the movement of northerly surface currents in the longitudes of
-the low sea-levels, caused by the westerly winds drifting the surface
-waters of the sea from the eastern coasts of Southern South America and
-New Zealand. For it is owing to the low sea-levels thus created, in
-connection with the deep under-currents which set northward from the
-ice cliffs of the antarctic lands, that many icebergs are enabled to
-move into the temperate latitudes, especially to seas north-east of the
-Falkland Islands.
-
-On other portions of the southern ocean above the latitude of 55° south
-the surface waters, while being drifted eastward by the strong westerly
-winds, also set toward the antarctic shores, and so furnish water for
-the cold under-currents which set northward from that frigid region.
-Thus from such parts of the coast only the largest bergs, which require
-a deep sea to float them, are moved by the under-currents into the
-temperate latitudes. Therefore, it happens that, while an ice period
-progresses, and the antarctic icebergs increase in size, the more
-readily the cold, deep under-currents force them into the temperate
-zone, in opposition to the winds and surface currents.
-
-The icebergs, after gaining the temperate latitudes, are moved more
-or less eastward by the westerly winds and drift currents, and so are
-scattered over the southern temperate oceans, where the melting bergs
-impart whatever coldness they were able to store up while forming in
-the antarctic regions.
-
-The low sea-levels caused by the westerly winds to the leeward of New
-Zealand and to the leeward of Argentine, not only cause the ice-bearing
-currents to set northward, but they also cause the tropical currents to
-make considerable inroads into the high southern latitudes. This is the
-reason why the lands are less burdened with ice on the antarctic shores
-opposite Cape Horn than on other parts of that glaciated continent.
-
-The tropical currents which turn southward east of New Zealand largely
-mingle their waters with the great southern drift current, and so
-are carried through the Cape Horn channel. Owing to this cause, the
-antarctic lands abreast Cape Horn are less burdened with ice than other
-portions of the antarctic shores.
-
-Thus, were it not for this penetration of warm waters southward, the
-antarctic coasts south of Cape Horn, because of the great snow-fall of
-that region, would obtain heavier glaciers than other portions of the
-southern continent. But the time is slowly coming when, with a lower
-temperature, the ice-sheets on the lands in the vicinity of the South
-Shetlands will attain greater thickness than the glaciers on other
-shores of the antarctic continent.
-
-Hence it appears that, when the several agents for producing
-and distributing cold in the southern latitudes are taken into
-consideration, the immense and continuous storage of ice on the
-southern lands, which adds to the wide-spread fleet of icebergs that
-float the southern temperate seas, and also the vast movement of
-cold antarctic water into the temperate and tropical oceans in deep
-under-currents, combined with the increasing coldness of the westerly
-winds, are now slowly bringing about in the southern hemisphere a
-period of frigidity.
-
-
-
-
-CHAPTER II.
-
-HOW ICE PERIODS IN THE NORTHERN HEMISPHERE ARE BROUGHT ABOUT.
-
-
-A large number of geologists are of the opinion that during the whole
-of the Tertiary period the climate of the northern temperate and arctic
-latitudes was uniformly warm, without a trace of intervening frigid
-periods. I have before explained why the climate was made warm in the
-southern hemisphere during the Tertiary epoch, and how on the closing
-of that age, and subsequently, a considerable portion of the ocean
-waters had moved from the northern hemisphere into the southern.
-
-Therefore, the northern seas during Tertiary times covered a much
-larger area than have obtained during periods following that mild
-epoch. So, when the low lands of Europe were submerged, the Baltic,
-Caspian, and other neighboring seas, now land-locked, were a portion of
-an enlarged Atlantic. Consequently, the westerly winds blew over a much
-wider North Atlantic than during the later periods.
-
-Thus the high sea-level caused by such winds on its European side was
-greater than has since been obtained with the Atlantic of less breadth.
-This high sea-level, composed largely of drift water from the ancient
-Gulf Stream, had convenient access to the enlarged Arctic Ocean, which
-then covered the low plains of Northern Europe and Siberia. And owing
-to the trend of elevated lands north-eastward, which then formed the
-southern shores of the Arctic Ocean in those regions, the warm waters
-of the high sea-level of the Eastern North Atlantic found an easy
-passage into the arctic seas; for, while they moved over the European
-and Siberian seas to the north-east, they had the assistance of the
-westerly winds well into the arctic seas, from which position they
-were attracted across the Arctic Ocean to the low sea-level abreast
-Labrador and Davis Strait.
-
-The Gulf Stream of Tertiary times comprised a much larger area than it
-now obtains; for with Florida and a large portion of the Gulf States
-submerged, and a wide, shallow sea covering the Mississippi valley
-and the Great Lake region, the tropical waters of the enlarged Gulf
-of Mexico moved from their vast high sea-level to the low sea-level
-abreast British America and Labrador, without being confined to the
-narrow Florida channel. Thus with an enlarged Gulf Stream in possession
-of a wide and clear passage leading northward, in connection with a
-mild period in the southern hemisphere, giving warmth to the southern
-oceans, the resources of the ancient Gulf currents for warming the
-northern regions were so ample and inexhaustive they were fully able to
-maintain a mild climate on the shores of the European seas, and also on
-the shores bordering the Arctic Ocean, during the Tertiary epoch.
-
-Furthermore, the Humboldt current, which had its rise in the mild
-southern seas of that age, mingled its warmth with the equatorial
-current of the Pacific, which in turn gave its warmth to the Japanese
-current. Therefore, the latter stream under such conditions was
-competent to maintain a mild climate on the North Pacific coasts.
-
-The origin of a cold period in the northern hemisphere was largely
-owing to the changed condition of the northern oceans following the
-close of the Tertiary epoch. The movement of the ocean waters into the
-southern hemisphere lessened the area of the Arctic and North Atlantic
-Oceans, and brought them to their present reduced limits, and also
-diminished the volume of the Gulf currents.
-
-This great geographical change, in connection with a cold period
-progressing in the southern hemisphere, and so increasing the coldness
-of the Japanese current, and the cold antarctic currents, previously
-explained, which set northward on the bottom of the sea through the
-torrid latitudes even into the North Pacific and North Atlantic
-Oceans, were altogether sufficient to cause conditions favorable for
-the advancement of a cold period in northern latitudes. Besides, with
-reduced northern oceans and a diminished Gulf current, conditions were
-favorable for an independent circulation of the arctic waters, such as
-is being carried out at the present time. Hence an explanation of the
-movements of the ocean waters of to-day will explain the conditions
-which caused the northern ice periods in times past, as well as
-those to come in a future age. Although the conditions are such that
-the independent circulation of the arctic waters cannot be so well
-performed as the independent circulation of the southern ocean, still
-the open arctic channels are able to prevent the tropical Gulf Stream
-water from largely entering the higher northern latitudes. For it is
-certain that the prevailing westerly winds blow the surface waters of
-the North Atlantic away from the eastern shores of North America from
-Georgia to Labrador.
-
-Consequently, the low sea-level thus caused attracts the waters of
-the Arctic Ocean southward through Baffin’s Bay and Davis Strait, and
-likewise down the east coast of Greenland, thus surrounding that large
-island with an arctic temperature, and so causing it to become a land
-of glaciers, which are constantly launching icebergs into the sea to
-cool the waters of the northern oceans. The tropical waters of the high
-sea-level of the Gulf of Mexico also seek the low sea-level abreast the
-American coast, thus causing the Gulf Stream. This great ocean current,
-being the main conveyer of tropical heat into the high latitudes of
-the North Atlantic, calls for particular notice. The great gravity
-currents, of which the Gulf Stream is one of the most conspicuous, are
-moved by small gradients.
-
-Hence the gradient which causes the Gulf Stream waters to move out
-of the Florida passage is small. The levellings which have been made
-place the surface waters of the Gulf of Mexico as being about one
-metre higher than the Atlantic abreast New York, the pressure of the
-higher Gulf waters toward the low level of the Atlantic being nearly
-equal in the narrow Florida channel from the surface to the bottom of
-the stream. Therefore, according to descriptions given by Commander
-Bartlett, the warm stream moves like a river over the hard level floor
-of the channel; but to the northward of the Bahamas, abreast Cape
-Hatteras, the stream spreads out in fanlike form, and flows over a bed
-of cold water of great depth.
-
-A bed of cold water is found to cover the bottom of all the deep oceans
-that are accessible to the antarctic seas, through which the cold water
-is mostly supplied, as I have before pointed out.
-
-But the cold water which underruns the Gulf Stream is probably
-furnished by the arctic waters which move down Davis Strait and the
-east coast of Greenland. The Gulf Stream, as it widens and becomes more
-shallow, is, through its exposure to the westerly winds, gradually
-converted into a drift current; and in this way its surface waters are
-forced over abreast the shores of Western Europe, where it imparts its
-warmth to a wide region, and also causes a high sea-level. A portion
-of the waters of this high sea-level turn southward to replenish the
-waters which have been moved by the trade winds from the eastern
-tropical North Atlantic over into the Caribbean Sea and Gulf of Mexico,
-while its northern and smaller portion mingles with the Arctic Ocean
-waters north of Europe. These latter waters, having escaped from the
-westerly wind-belt, and acquired a high sea-level, and also made cool
-on mingling with the icy arctic seas, lose a part of their bulk on
-becoming chilled by sinking and returning in under-currents to the seas
-from which they were forced by the south-westerly winds; while the
-larger remaining surface waters set across the Arctic Ocean over to
-the northern coast of Greenland, and so down the east and west coasts
-of that large island to the low sea-level abreast the American coast,
-where the cold waters not only crowd the Gulf Stream from the shore,
-but they also sink under it, and form the vast bed of cold water over
-which the Gulf currents flow. This cold underflow of water southward
-probably joins the deep antarctic currents south and south-east of the
-Bermuda Islands, and returns to the tropical latitudes a portion of the
-water that is carried into the Arctic Ocean by the Gulf Stream.
-
-There are times during the late summer and early fall months when the
-arctic channels are considerably obstructed by icebergs, and the low
-sea-level of Davis Strait and Baffin’s Bay, with the assistance of
-occasional south-east winds, is able to attract the temperate waters
-of the Atlantic as far north as the Arctic Circle. Also from the same
-cause the icy waters which flow down the east coast of Greenland are
-attracted along its southern and south-western shores into Davis Strait.
-
-Yet at the same time the icy waters which flow from Smith’s Sound and
-other arctic channels move in a counter-current down the westerly
-side of Baffin’s Bay and Davis Strait, and so carry the icebergs and
-field-ice past Labrador and Newfoundland well on to the borders of the
-Gulf Stream. And, according to Lieutenant Maury, the westerly gales of
-the winter months force the temperate waters of the Atlantic, which
-pertain to the Gulf Stream, several degrees away from the south-east
-coast of Greenland. Therefore, during such seasons the surface waters
-of the returned arctic currents, which flow down the east coast of
-Greenland and Davis Strait, are drifted past Southern Greenland and
-Iceland, and so onward into the arctic seas, north of Europe. Thus the
-arctic waters maintain an independent circulation sufficient to largely
-exclude the Gulf Stream from the arctic seas, and surround Greenland
-with an arctic temperature; and it is on this account glaciers have
-formed on Greenland and other arctic shores, and such glaciers are
-probably increasing, as every iceberg launched from the frigid lands
-and floated to the lower latitudes lowers somewhat the temperature
-of the North Atlantic, and so causes conditions favorable for larger
-accumulations of ice on the arctic shores.
-
-Yet it is probable that an ice period extending over the northern
-temperate zone could not be perfected by this process alone, should the
-tropical and southern oceans maintain their present temperature. But,
-with the assistance of a frigid period in the southern hemisphere to
-cool the ocean waters, and thus lower the temperature of all tropical
-currents, including the Gulf Stream and Japan currents, an ice age
-could be brought about in the northern hemisphere equal in intensity to
-the glacial periods of the past.
-
-And, when we know that a considerable portion of the heat carried into
-the northern latitudes by tropical streams is largely derived through
-the mingling of the waters of such currents with the warm waters of
-the southern tropical oceans, it is evident that the ice periods of
-the northern and southern hemispheres were concurrent; although the
-culmination of the northern frigid period would be somewhat later
-than the perfected southern ice age, on account of the northern seas
-requiring the assistance of the cold oceans of the southern hemisphere
-to perfect a northern ice age.
-
-The small area of the northern seas, compared with the southern oceans,
-and the wide mingling of the ocean waters of the hemispheres, make it
-evident that the comparatively scanty northern seas could not bring
-about or maintain either a frigid or mild period in opposition to the
-superior oceans of the southern hemisphere.
-
-On the consummation of an ice period in the northern hemisphere heavy
-glaciers covered the larger portion of its continents and islands,
-which added so much weight to the northern lands as to attract the
-waters of the southern oceans into the northern latitudes, as I have
-before explained.
-
-Thus, when the ice was mostly melted from the lands of the southern
-hemisphere, the heavy ice-sheets that remained on the extensive
-northern lands would still continue to attract the warm waters of the
-southern seas into the northern oceans; and in this way the Japanese
-and Gulf currents would gain a higher temperature and greater volume,
-and thus add to their ability for melting the northern glaciers
-wherever they were able to flow, and so hasten the growth of a mild era
-in the northern hemisphere.
-
-And it seems reasonable to suppose that there was more water in the
-northern hemisphere on the ending of its ice period than at this age;
-yet it appears that it was returned to the southern hemisphere during
-a short period by the prevailing winds in the manner which I have
-previously explained.
-
-Therefore, there are but few traces of such flowage to be found in the
-glacial drift, especially with the scarcity of marine life after the
-rigor of a frigid age.
-
-An article in _Science_, July 5, 1895, written by Agnes Crane, states
-that Professor Joseph Prestwich has recently contributed a suggestive
-memoir on this subject to the Philosophical Transactions of the Royal
-Society. It treats of the evidence of a submergence of Western Europe
-and the Mediterranean coasts at the close of the glacial period; and in
-a previous paper communicated to the Geological Society of London, in
-1892, the author gave evidence, deduced from personal observation, of
-the submergence of the south of England not less than a thousand feet,
-at the close of the glacial epoch.
-
-Since that time the flood of water which flowed all of the low lands
-of the high northern latitudes has been returned to the southern seas,
-because of the force of the prevailing winds in connection with the
-great oceans which open so widely toward the south, the force of the
-winds being assisted through the attraction caused by the difference
-of temperature in the surface waters of the vast southern temperate
-oceans and the antarctic seas, and in this manner bringing about the
-geographical conditions of to-day which favor the return of another ice
-age.
-
-It is said by those who attribute the great currents of the ocean to
-the rotation of the earth that the winds have little to do in causing
-such currents as the Gulf Stream. But my impression is that the
-southern portion of the Gulf Stream waters, after being drifted by
-westerly winds over abreast Europe, are attracted to the low sea-level
-in the vicinity of the Canary Islands, to be moved by the trade winds
-toward the equatorial calm belt and the West India Islands. And during
-my many months’ cruising over these seas I have had my attention
-directed to the singular action of the surface waters, while being
-impelled by the trade winds toward the West India sea; for during the
-first fifteen hundred miles of their passage they are moved by the
-prevailing easterly winds without much apparent resistance or unusual
-disturbance. But on nearing the longitude of Cape St. Roque, and
-having acquired a high sea-level from which there is no easy or wide
-outlet, the impelled surface waters begin to rebel against the forceful
-winds, and cause a remarkable commotion in the shape of tide-rips and
-white-capped ripples, which extend from the equator in a northerly
-direction to the latitude of about 19° north, thus crossing the central
-portion of the north-east trade-wind belt, with a breadth of over three
-hundred miles, as shown on map No. 2.
-
-This disturbed region where the winds and waters conflict is the
-probable fountain-head of the Gulf Stream. The reason why the surface
-waters of this disturbed portion of the Atlantic do not flow peacefully
-along through the West India passages into the Caribbean Sea and Gulf
-of Mexico is because of their narrow outlet at the Florida channel. For
-it is mainly through this narrow channel that the vast waters of the
-tropical high sea-level are attracted to the low ocean-level of the
-Western North Atlantic.
-
-Thus it seems that the great fountain-head of the Gulf Stream is
-situated between the wide tide-rips and the Caribbean Islands. The
-waters from this high ocean-level enter the Caribbean Sea mainly
-through the several passages south of Guadeloupe; while the northern
-portion of the raised waters set mostly toward the north-west, and so
-unite with the eastern portion of the Gulf currents after they enter
-the Atlantic. Still, the great high sea-level which presses against
-the Windward Islands, being somewhat higher than the Caribbean Sea,
-forces its waters through the island passages in quantities sufficient
-to supply the Gulf Stream; and there are times when the winds are so
-strong and favorable that all of the passages east of Cuba conduct
-water into the Caribbean Sea, the cold under-waters entering the deeper
-channels as well as the warm surface waters. Yet the currents setting
-through these numerous channels are subject to fluctuations, and so
-also is the Gulf Stream which they supply.
-
-That portion of the high sea-level south of Guadeloupe receives
-considerable assistance as a feeder for the Gulf Stream through being
-connected on the south by the great high sea-level abreast Brazil and
-the great high sea-level of the equatorial calm belt. The latter high
-level is caused by the trade winds, which generally blow briskly down
-the coast of Sahara, and also further off shore, and ending south of
-the Cape Verde Islands somewhat abruptly in the equatorial calm belt.
-
-The south-east trades which blow over the Eastern and Middle South
-Atlantic terminate on the southern side of the calm region. Therefore,
-the two trade winds impel the surface waters of the tropical Atlantic
-from opposite directions directly toward the calm belt, and so raise
-its waters above the common level of the sea.
-
-This is the opinion of the writers of the South Atlantic Directory.
-Still, it is probable that the high ocean-level of the calm belt is
-but slightly raised above the common level of the sea, on account of
-the trade winds having to contend against the tendency of the warm
-tropical surface waters to move toward the polar latitudes. The calm
-belt expanse which extends from Africa, where it attains its greatest
-width, gradually narrows as it extends westward to the longitude of
-Cape St. Roque, where it attains its highest sea-level, on account of
-the borders of its narrowing space being impelled westward by the trade
-winds.
-
-The movement of the waters of this high ocean-level is mostly toward
-the west, forming a portion of the equatorial current of the Atlantic.
-The reason of its western movement is on account of its raised waters
-being able to supply a portion of the Gulf Stream with water which is
-sent off in a westerly current along the South American coast, west of
-Cape St. Roque into the Caribbean Sea; while, on the other hand, it
-joins with the great high sea-level abreast Brazil, and so unites with
-its great southern current. The gradient of the high sea-level of the
-calm belt on its southern side probably extends south of the equator,
-on account of the south-east trades being weak in latitudes near the
-equator; while on the north side the north-east trades generally blow
-brisk and end more abruptly, so producing a gradient of less width than
-that of the South Atlantic side.
-
-It does not appear that the seas of the high northern latitudes gain
-an undue proportion of the tropical Atlantic waters, because of the
-south-east trades extending north of the equator, on account of such
-winds being weak, and the waters of the high sea-level of the Western
-North Atlantic having narrow and otherwise obstructed passages leading
-to its northern seas. Yet the high sea-level of the equatorial calm
-belt is always ready, whenever a favorable grade is formed by a monsoon
-or otherwise, to run off its surplus water obtained by winds and rain;
-and I have noticed, while cruising in these seas, that it happens at
-times during the northern winter months when the north-westerly gales
-drive the surface waters of the North-western Atlantic toward the
-tropical zone, and at the same time a strong north-east monsoon is
-prevailing along the southern coast of Brazil, the westerly currents
-setting past the Amazon River are reversed, and set to the south-east,
-while such conditions last.
-
-For, when the summer solstice is in the south, and the north-east
-monsoon moves southward along the coast of Brazil, much equatorial
-water moves off in that direction; and during the same season the
-cooled Sahara has an outward flow of air toward the south, which
-moves more or less water from the coast of Guinea, which is easily
-accomplished, because the warm surface waters of that coast are
-inclined to join with the south equatorial stream. Consequently, the
-waters move from their high sea-level north of Cape Palmas, and so form
-the Guinea current.
-
-The high sea-level of the equatorial calm belt of the Atlantic contains
-a large portion of the conserved heat of the tropical Atlantic, which
-at this age sends off a somewhat limited supply of warm water to
-the Gulf Stream, and also to the Brazil current. But, whenever the
-Cape Horn channel is closed or much obstructed, so causing a great
-low sea-level in the Southern Atlantic, the tropical waters heaped
-against Brazil, and the raised waters of the great calm region being
-one continuous high sea-level, would mostly be attracted to the vast
-low sea-level of the southern ocean. Hence it will be seen how large a
-portion of the conserved heat of the tropical Atlantic would be used to
-warm the high southern latitudes during a warm period in the southern
-hemisphere, and at the same time the head-waters of the Gulf Stream
-would obtain the same height as now. For we now see much of the force
-of the north-east trade winds lost, while maintaining so large a high
-sea-level to the windward of the West India Islands, which is probably
-capable of supplying a stream of double the capacity of the gulf
-current which passes through the Florida channel.
-
-And it appears, while viewing the vast reservoirs of warm water
-apparently gathered by trade winds to subdue the cold of the high
-latitudes, that much of the energy of such winds is now lost to the
-world, while maintaining a vast and pent-up high sea-level which has
-a difficult outlet to the northern seas, and no strongly attractive
-low sea-level to move its waters into the oceans of the high southern
-latitudes. The wide waters which are banked up to the windward of
-the West India Islands, and cause the wide tide-rips, set mostly
-to the westward into the Caribbean Sea through the passages south
-of Guadeloupe, while the northern portion of the raised waters set
-mostly toward the north, and thus form the eastern boundary of the
-Gulf Stream, and comprise the inner circle of the great current that
-encircles the Sargasso Sea.
-
-I have been informed by an old Barbuda fisherman that “the weeds which
-float on the surface of the Sargasso Sea grow in large quantities
-on the bottom of the shoal waters to the north and eastward of that
-island and Antigua.” Consequently, the currents of that region carry
-such weeds as become detached from their places of growth into the
-higher latitudes, where the westerly winds in the winter season drift
-them eastward south of Bermuda, until finally the central area of
-their gathering, where the most dense collection of weeds is found, is
-situated near the tropic of Cancer, and about 55° west longitude, as
-shown on map No. 2.
-
-This position is also the centre of the great circular currents which
-encompass the Sargasso Sea. The comparatively few weeds which enter
-the Gulf Stream abreast Florida are currented to the northward of
-the Bermuda Islands, and from thence drifted by the westerly winds
-to the south-west of the Azores before entering the trade-wind belt.
-The weeds, on their long drift from their native shoals, hold their
-freshness, and continue to grow while floating on the sea for a
-considerable time, but at length lose their renovating properties, and
-in certain areas of the sea acquire an appearance of age and decay.
-
-The Gulf Stream, and such other tropical waters as are attracted
-northward to the low sea-level abreast the North American coast, pass
-into the westerly wind-belt, and so gradually become drift currents,
-while being forced by the winds over to the European side of the ocean,
-as we have previously shown.
-
-The vast movement of the North Atlantic waters encircling the great
-Sargasso Sea has often been pointed out by writers on the subject. But
-the central and most dense portion of the vast sea of weeds has always
-been placed on the charts several degrees of longitude east of its true
-position.
-
-It is fifteen years since I wrote of the Gulf Stream and arctic
-currents as being attracted to a low sea-level caused by the westerly
-winds. But, as far as I know, writers on the Atlantic currents have
-had nothing to say of the great low sea-level caused by the westerly
-winds blowing the surface waters of the North Atlantic away from the
-eastern coast of North America, from Georgia to Newfoundland, and thus
-attracting the arctic and Gulf Stream waters in opposite directions,
-fifteen hundred miles along the North American coast. For, were it
-not for this low sea-level, the Gulf Stream would not be able to move
-so far northward as it now flows, but would spread out, were there no
-unevenness in the sea-level of the Atlantic, and become a drift current
-far south of its present northern limits. The United States government
-has caused surveys to be made of the Gulf Stream, and the interesting
-discoveries thus obtained have all been laid before the public. Still,
-such surveys cover but a portion of the whole round of the vast
-movement of the Gulf Stream water, and do not refer to the vast high
-sea-level of the calm belt as being one of its feeders, or to the wide
-disturbance of the surface waters of the tropical North Atlantic in
-their conflict with the trade winds, while being forced to the vast
-high sea-level of the Caribbean Sea and Gulf of Mexico, and so giving
-head to the Gulf Stream.
-
-Thus from the foregoing explanations it will be seen that the ability
-of the prevailing winds to move the surface waters of the ocean away
-from the weather shores of continents over against the opposite leeward
-shores in the different wind-belts of the globe, and so cause both high
-and low sea-levels, is the main reason why there is an interchange of
-surface water between the tropical and colder zones sufficient to carry
-heat from the tropics to the cooler regions, and thus largely affect
-the temperature of the higher latitudes.
-
-The unmistakable traces of cold periods having occurred in both
-hemispheres have given rise to an ingenious astronomical theory to
-account for their origin. According to this theory the ice periods
-in the two hemispheres were consecutive; and it is admitted by its
-supporters that, should it be shown that the frigid periods in the
-northern and southern hemispheres were concurrent, the astronomical
-doctrine would have to be abandoned.
-
-It is impossible for a person who is acquainted with the great surface
-currents of the several oceans to conceive how a mild period could be
-maintained in the northern hemisphere with a frigid period existing
-in the southern hemisphere. A frigid period in the latter hemisphere
-necessitates a cold temperature for the superior oceans of the globe
-south of the equator. With this vast area of water reduced to a
-chilling temperature, it seems impossible for the inferior waters of
-the northern latitudes to maintain sufficient warmth to favor a mild
-period in the northern hemisphere, especially with both hemispheres
-receiving an equal annual amount of the sun’s rays. The great Humboldt
-current, having its rise in the southern ocean west of Cape Horn,
-would during a southern frigid period greatly lower the temperature
-of the vast equatorial stream in the Pacific Ocean. Consequently, the
-Japanese stream, which branches off from the equatorial current into
-the North Pacific, would be cooled to such a degree that it would be
-unable to maintain the mild climate on the shores of the North Pacific
-which extensive lands now enjoy. Furthermore, during a cold period in
-the southern hemisphere the temperature of the Gulf Stream would also
-be greatly lowered by the great South-eastern Atlantic return current,
-which is caused by the south-east trade winds impelling the surface
-waters of that region into the equatorial latitudes, such waters
-being replenished from the common level of the southern ocean, and so
-mingling the cool waters of that sea with the equatorial waters of the
-Atlantic during a frigid period in the southern latitudes. And it may
-be said that during such times the frigid Antarctic Ocean would send
-its cold under-currents to cool the inferior northern oceans. Even
-to-day the northern and southern hemispheres, through the intermingling
-of the waters of the northern and southern oceans, largely maintain
-a like temperature in their temperate zones. Therefore, when we
-consider the certain traces of ice-sheets having formed on South
-Africa and Southern Australia, and to have overrun South America above
-the latitude of 40° south, thus strewing the oceans of the southern
-temperate zone with ice that are now largely free from it, it seems
-that the maintenance of warm oceans in the northern hemisphere during
-the time of a frigid period in the southern hemisphere would be
-impossible.
-
-In order to make this statement more plain, I will again refer to the
-importance of the great Humboldt current for cooling the waters of
-the North Pacific during the perfection of a southern ice age. For
-during such times the ocean strewed with ice west of Cape Horn, where
-the Humboldt current takes its rise, would impart its coldness to the
-Humboldt stream, while it was floating icebergs toward the equator. The
-equatorial current of the Pacific being a continuation of the Humboldt
-stream, its waters would partake of its coldness. The Japanese current,
-being a large offshoot from the equatorial stream, would also possess a
-lower temperature than it obtains at this age. Yet at this date, with
-the southern ice-sheets confined to the antarctic lands, it does not
-possess heat sufficient to prevent glaciers from flowing down to the
-tide-water from mountains in Alaska.
-
-Consequently, the Japanese stream could not maintain a mild climate on
-the North Pacific coasts while a cold period was being completed in the
-southern hemispheres. Therefore, under the conditions above set forth
-the support of a mild period in the northern hemisphere during the
-existence of a frigid period in the southern hemisphere could not be
-carried out.
-
-From what has been explained, it will be seen that the growth of an
-ice period is necessarily slow, especially in its early stage, and also
-that the storage of ice is carried on in both hemispheres at the same
-time; but I will call further attention to the southern hemisphere,
-because it possesses greater resources than the northern for the
-production of an ice age.
-
-The independent circulation of the southern ocean waters, as before
-shown, turns away the tropical currents, and thus largely prevents
-their warm waters from entering the high southern latitudes.
-Consequently, the heat from the sun’s rays, and all other sources of
-heat included, are not sufficient to prevent ice from gathering on
-lands within the antarctic circle. This increasing storage of ice is
-only another name for the accumulation and spreading of cold, and so
-the increasing chillness goes on. The snow falls, and thus adds to the
-extension and thickness of the ice-sheets; and at the same time the
-spreading snow-fields reflect the heat received from the sun’s rays
-into space, while the cold is retained and increased in the growing
-glaciers.
-
-The spreading ice-sheets having covered the land are able to flow into
-the surrounding seas, where their outer edges become detached and form
-icebergs, which float out to sea, and so scatter over the adjoining
-oceans. Thus their coldness is mingled with and largely preserved by
-the sea, while the surface water, which is carried into the southern
-latitudes from the northern oceans by the prevailing winds, and also
-such surface waters as are attracted into the antarctic seas because
-of the difference of temperature of the antarctic waters and the
-more northern seas, are on gaining the frigid latitudes made cool,
-and returned to the more northern seas in cold under-currents, and
-so chilling the vast under-waters of the great oceans of the globe,
-and eventually their wide surface waters also; and so the coldness
-increases until the ice-sheets which at first formed on polar lands are
-enabled to spread slowly toward the equatorial regions so long as the
-independent circulation of the southern ocean is maintained.
-
-But at length the depth of the great southern ocean is diminished
-because of the water evaporated from its surface, and precipitated in
-the shape of hail and snow over the vast continents and islands of the
-high northern latitudes, thus adding sufficient weight to the northern
-lands to attract the waters of the southern seas and still further
-lessen their depth. Thus during such times the Cape Horn channel is so
-reduced as to be obstructed by the heavy glaciers and icebergs of an
-ice age.
-
-Consequently, a great change is wrought in the circulation of the
-southern seas. For, when the Cape Horn channel is closed, the westerly
-winds employ their strength to force the ocean’s surface waters away
-from the glaciers which have filled the diminished channel. This
-potent action of the winds necessarily creates a great low sea-level
-on the Atlantic side of the obstructed strait, sufficient to attract
-the tropical waters heaped against Brazil by the trade winds, and the
-waters of the high sea-level of the equatorial calm belt, and also the
-equatorial waters which set along the east coast of Africa, well into
-the southern seas.
-
-It will thus be seen that the conditions for the circulation of the
-tropical ocean waters have met with a great change.
-
-But the temperature of the waters has been lowered by the coldness of a
-frigid period; and, consequently, their capability for conveying heat
-to the high latitudes has largely diminished. Therefore, their first
-inroads in the higher latitudes make small impression on the icy seas,
-so the early process for melting ice is exceedingly slow. But the icy
-southern ocean, deprived of its independent circulation, in the course
-of time yields to the warming invasion of the tropical waters, whose
-wide and increasing spread is eventually able to bring about a mild
-period, according to the natural methods which I have explained in the
-preceding pages.
-
-And it may be said that a mild period succeeding a glacial age gained
-sufficient warmth to melt the ice-sheets from all lands excepting the
-highest mountains. For it is probable that there are lands situated in
-the antarctic circle sufficiently elevated even during late Tertiary
-times to have been above the snow-line. Therefore, the glaciers on
-such lands could not have melted away during mild periods succeeding
-an ice age. For, as has been explained, a portion of the waters of the
-southern seas had moved into the northern hemisphere. Consequently, the
-antarctic lands were raised higher above the sea-level than at this
-age. Hence the area of lofty land was increased above the snow-line.
-And, according to Dr. James Croll’s estimate, the ice-sheet at the
-south pole is at this age several miles in thickness. Therefore, its
-upper surface is above the line of perpetual snow, and could not be
-melted away during the warm eras succeeding glacial periods.
-
-
-
-
-CHAPTER III.
-
-THE SPREAD OF GLACIERS DURING COLD EPOCHS.
-
-
-I have before explained that the conditions are such that the cold
-periods of the northern and southern hemispheres were concurrent.
-Through this cause, while the glacial epoch was being perfected, the
-ice followed down the mountain ranges of both hemispheres; and, while
-gathering on the lands of the temperate latitudes, it also spread
-over a portion of the tropical zone. It is reported that traces of
-ancient glaciers are found in India, and also in Central America and
-in tropical South America. In fact, the denudation caused by ancient
-glaciers on the elevated lands of the tropics are too well defined to
-be attributed to any process of weathering, while Alpine plants of the
-same species are found near the summits of mountains in the tropics as
-well as in the high latitudes of both hemispheres.
-
-This fact goes to show that a portion of the lowlands of the tropical
-zone have experienced a temperature favorable for the growth of Alpine
-plants. And, judging from the tropical islands I have visited, situated
-in the cold currents which flow down the eastern sides of the oceans
-from the high latitudes, I think they show strong traces of having
-during some remote period been subject to the action of glaciers. The
-island of St. Helena, situated in the southern tropical Atlantic, has
-the appearance of having been heavily iced during a frigid age. Its
-steep ravines, which deepen as they approach the sea, recall to the
-southern voyager the ice-worn islands of the high latitudes. It seems
-improbable that these deep ravines which penetrate the hard volcanic
-rock, on their short course to the sea, could have been caused by their
-scanty brooklets.
-
-The bowlders scattered over the island are not in harmony with the
-weathering process, while the obliteration of its craters seems to
-point to a more rapid process of erosion than could be attributed to
-weathering.
-
-Professor Agassiz, in his “General Sketch of the Expedition of the
-‘Albatross,’” states that the Galapagos Islands are of volcanic origin,
-and that their age does not reach beyond the earliest Tertiary period;
-and his report seems to favor the impression of their having undergone
-denudation sufficient to slough off large portions of the rims of the
-older craters, and also the eastern face of Wenman Island. On Hood’s
-Island, at the time of my visit, its crater had entirely disappeared.
-
-The highest portion of the island, which was the probable site of
-its ancient crater, showed no trace of its former existence; yet at
-the foot of this low mountain, on its southern side, I saw a large
-collection of loose bowlders, composed of hard volcanic rock, which
-were mostly free from soil and other débris, and easily moved from
-their places, while the spaces afforded by the loose piles of dark
-basaltic rocks afforded a secure retreat for numerous owls and lizards.
-Beyond the rocky piles to the southward a horizontal area of land was
-strewn with bowlders to the sea, which was some two miles distant from
-the higher land. The bowlders which covered the plain were somewhat
-smaller than those at the foot of the mountain, as none of the former
-were more than three or four feet in their longest measurement.
-
-They seem to have been formed from thin strata of lava, which were
-broken in pieces from pressure, such as the action of ice could
-perform. In fact, the crowded and angular and somewhat worn blocks
-of lava presented a different appearance from stones thrown from the
-crater of a volcano, while no such bowlders are found among the recent
-volcanic eruptions on the islands.
-
-The plain so thickly strewn with bowlders, and partly shaded by a tall
-growth of shrubs, fell off abruptly at the seaside, forming a steep
-cliff some two hundred feet in height.
-
-The rocky floor at the foot of the cliff received such débris as fell
-from the sea-washed land; yet it contained few bowlders, they having
-been washed away by the waves soon after falling.
-
-At one place a steep, dry ravine penetrated the land from the seashore,
-which was dangerous to cross on account of the loose stones resting
-on its sides. Two or three miles further west, on the level land
-bordering the sea, a large rookery of albatross were brooding their
-eggs and chicklings. The land on the south side of Albemarle, near the
-sea, consists of débris from the eroded high lands; and, judging from
-the crumbling cliffs by the sea, it seems that the land at one time
-extended further seaward.
-
-Besides the excessive denudation which appears to have taken place on
-portions of these bowlder-strewn lands, we have other unmistakable
-testimony of their having formerly possessed a frigid temperature. The
-characteristic Alpine flora of these islands points to a time when they
-were exposed to a cold climate. Furthermore, rookeries of seal and
-albatross, which naturally belong to shores situated in cold latitudes,
-still exist on these equatorial islands; and, when we consider the
-favorable position of the Galapagos for the reception of cold during a
-frigid period, we can well account for the lingering signs which point
-to their former cold climate.
-
-During the perfection of an ice period the western shore of South
-America was covered with an ice-sheet from the summits of its mountain
-range to the sea, extending northward as far as the latitude of 38°
-south.
-
-This vast ice-sheet, situated in a region of great snow-fall, was
-constantly sending icebergs into the sea, where they were borne
-northward by the cold Humboldt current directly toward the Galapagos
-Islands; while, on the other hand, in the northern latitudes, in
-regions of great snow-fall, such as Alaska and British America,
-numerous icebergs were launched into the ocean, to be currented
-southward to the Galapagos seas. Thus during the frigid epoch the
-equatorial waters surrounding the Galapagos group was one of the
-greatest gathering places for floating ice to be found on the globe.
-
-And here the frigidity stored up in the glaciers of the higher
-latitudes was set free, thus chilling the waters as well as the
-atmosphere of that region. The Alpine flora of the American coast
-mountains was probably carried by floating ice to the Galapagos, while
-its rookeries of albatross and seal date back to a cold period. And
-it seems that these cold-weather animals, with the assistance of the
-cool Humboldt current, may be able to preserve their rookeries at the
-equator until the advent of another ice period. In connection with the
-evidences of a cold climate having possessed the Galapagos, there are
-ample traces of ice-sheets having flowed over a large portion of the
-high lands of tropical America, and in some places the ice may have
-flowed down to the sea, especially where the large rivers now empty;
-and it is said that masses of clay, mixed with sub-angular stones, have
-been found in Brazil, which goes to prove the glaciation of portions of
-that tropical land during a remote age. Professor Louis J. R. Agassiz,
-during his research in the Amazon valley, found bowlders resting near
-the summits of the low hills of that region, which he attributed to
-the action of ice. The spread of glaciers on southern continents and
-islands is shown on map No. 1.
-
-In _Science_, Nov. 17, 1893, Mr. J. Crawford published a summary of
-his discoveries in Nicaragua, during ten months of nearly continuous
-exploration since August, 1892.
-
-The author of this report says: “The numerous eroded mountain
-ridges and lateral terminal moraines of that tropical region give
-unquestionable evidences of the former existence of a glacial epoch,
-which covered an area of several thousand square miles in Nicaragua
-with glacial ice. The ice-sheet covered a large part of the existing
-narrow divide of land (containing about 48,000 square miles) between
-the Pacific and Caribbean Sea.” And it is likely that other large areas
-of tropical America were glaciated at the same time, especially in
-regions of great precipitation.
-
-The island of Cuba, during a portion of the ice age, probably
-supported heavy glaciers, and obtained an average temperature as low
-as South-western New Zealand at this age. According to the description
-given by J. W. Spencer, of the Cuban land, great valleys have been
-excavated, the lower portion of which are now fiords, reaching in one
-case at least to seven thousand feet in depth before gaining the sea
-beyond. Thus, while keeping in view the glacial condition of Central
-America during the frigid period, it seems that the great Cuban
-excavations were partly the work of glaciers of the same cold epoch.*
-Judging from such reliable statements, it is probable that the climate
-of tropical America during the frigid age was somewhat colder than
-obtained in the tropical regions of the eastern continent, owing to
-the wide connection of the Atlantic with the Arctic Ocean as well as
-with the antarctic seas, and because of its shores possessing a larger
-area of glaciated lands in proportion to its size than the Pacific and
-Indian Oceans, and also owing to the tropical Atlantic containing so
-small a portion of the world’s waters which lie within the torrid zone,
-and its equatorial current being separated by continental lands from
-the great equatorial stream of the Pacific and Indian Oceans.
-
- *The meeting of the British Association for the Advancement
- of Science, September, 1895, was reported in _Science_ of
- October 18, where mention is made of an interesting paper by
- Mr. R. B. White, on “The Glacial Age of Tropical America,” in
- which he described a number of apparently glacial deposits in
- the Republic of Colombia, almost under the equator. He spoke
- of moraines forming veritable mountains, immense thicknesses
- of bowlder clay, breccias, cement beds, sand, gravels, and
- clays, beds of loess, valleys scooped, grooved, and terraced,
- monstrous erratics, and traces of great avalanches.
-
-Therefore, the tropical Atlantic waters must have been reduced to a
-lower temperature during a frigid age than the tropical waters of the
-Indian Ocean or the western part of the tropical Pacific, as a large
-portion of the great equatorial current of the latter oceans, during
-its western movement, was exposed to the rays of a tropical sun for a
-much longer time, after being replenished by the cold waters of the
-high latitudes, than the tropical currents of the Atlantic; and it
-is probable that, on account of tropical America possessing a colder
-climate than the tropical lands of the eastern continent during the
-frigid epoch, the cold of the western continent was more destructive
-to its fauna and flora than was the case in the tropical regions of
-the eastern continent. Professor Wright, in his valuable work on “The
-Ice Age of North America,” gives a good description of the “flight
-of plants and animals during the glacial epoch,” and also of the
-extermination of many superior species because of the frigid climate.
-
-The high lands of tropical Africa, above the altitude of three thousand
-feet, and situated in places of great precipitation, were probably
-covered with snow and ice during the glacial age. Travellers have
-reported that islands composed partly of granite bowlders are found
-in the lakes at the head-waters of the Nile. But the glaciers that
-invaded the tropical latitudes were of short duration compared with the
-ice-sheets that burdened the lands of the temperate zones. Besides,
-such tropical ice as flowed to the low lands was so near a melting
-condition that it made small impression on the rocks; but on steep
-mountain slopes, where the movement of the ice was comparatively rapid,
-it possessed considerable eroding power. The climate of the tropical
-zone on both continents during the perfection of an ice period was so
-cold that such animals as could not endure a low temperature retreated
-into the warmest regions of the equatorial latitudes, while many
-species who failed to reach such places perished. And especially was
-this the case with the pre-glacial fauna of the western continent. Mr.
-W. B. M. Davidson, in his treatise on Florida phosphates, says: “The
-great mammal hordes of the glacial epoch were driven into Florida in
-their flight southward for life and warmth, and there perished because
-of the deadly cold which ever moved southward. The Florida waters
-grew so icy cold, fishes, reptiles, and mammoth animals died, and
-added their frames and teeth to the valley of bones now found in that
-southern region.”
-
-Such species of the tropical fauna of the ocean as survived the ice age
-could have existed only in torrid seas with small connection with the
-cold oceans during the frigid epochs. For, with the diminished oceans
-of a cold period, it seems that the conditions were favorable for the
-maintenance of such seas in the region of the East India Islands.
-
-Such parts of Southern Europe and Northern Africa as bordered on the
-Mediterranean Sea probably possessed a milder climate during the ice
-age than regions in the same latitudes on the Atlantic coast, for the
-reason that the North Atlantic was proportionally a greater receptacle
-for icebergs which were launched into it from the numerous glaciers of
-North-eastern America, Greenland, Iceland, and North-western Europe
-than the great inland sea obtained from its less frigid shores. And it
-may have happened that during such times the tropical waters of the
-Indian Ocean had some connection with the Mediterranean through the
-Red Sea and Suez, and so during portions of the year the waters of the
-tropical Indian Ocean were forced by the periodical winds into the
-inland sea. It is the opinion of several writers that man, along with
-other species of animal life, existed previous to the glacial period;
-for, since the seas and lands of the globe were chilled, the conditions
-seem to have been less favorable for the spontaneous generation of
-animate bodies than during the previous warm ages. Therefore, it
-appears that the generative ages should be ascribed to the long genial
-eras prior to the glacial epochs. For it is probable that the lower
-parts of the ocean, which now possess a low temperature even in the
-tropical latitudes, were, during the warm eras, wholly composed of warm
-water, because the surface waters of the antarctic seas of that age,
-which supply the great under-currents of the ocean, would possess a
-high temperature; and it is probable that the temperature of a large
-portion of the seas of the torrid zone was for a long time maintained
-at blood heat. For it should be considered that the waters which moved
-from the torrid seas, after making their journey through the warm
-regions of the high latitudes, would on their return to the tropics
-retain a large portion of the heat they acquired in the torrid zone
-before making their journey to the mild polar regions.
-
-And, when we reflect how the heat of the sun’s rays was conserved by
-the ocean waters, and that their circulation during such times was
-almost wholly performed by the winds, as the difference of temperature
-between the polar latitudes and the equator was small, it appears
-that during the eras previous to the glacial age the oceans must have
-obtained a higher temperature than possessed by the warmest seas of
-to-day.
-
-According to the discoveries of Professor Wright and others, ancient
-stone implements have been found beneath the glacial drift, as well
-as the bones of animals whose descendants are now living, which goes
-to prove that man, with other species of fauna which now inhabit the
-earth, existed anterior to the glacial epoch.
-
-And on consideration it seems unreasonable to suppose that any of the
-superior species of animals could have been brought into existence
-since the waters and lands of the earth were chilled by the cold of
-a glacial age. And it appears that many species of animals which
-are known to have survived the cold periods were indebted for such
-survivals to the slow process through which a frigid period is brought
-about, thus affording time for evolutionary inurement to the slow
-increase of cold which at length perfects a glacial epoch.
-
-The inurement to cold acquired by animals during the glacial age is
-still an attribute possessed by many species of fauna to-day. For, when
-a warm climate took possession of the tropical zone, it was deserted
-by a large portion of the animals that found refuge there during the
-glacial age.
-
-Thus, while the seas and shores of the cooler latitudes swarm with
-animate bodies, the torrid latitudes seem comparatively lonely to the
-voyagers on the tropical oceans.
-
-
-
-
-CHAPTER IV.
-
-THE GLACIERS OF THE TEMPERATE ZONES.
-
-
-Having asserted that during the culmination of a frigid period the
-ice-sheets spread over a portion of the lands of the tropical zone,
-I will give my views, with those of several writers, on the spread
-of ice-sheets within the now temperate latitudes; and meanwhile I
-will repeat a portion of my former essays on the subject. Professor
-Hitchcock, in his lectures on the early history of North America,
-says that “the history opens with igneous agency in the ascendant,
-aqueous and organic forces become conspicuous later on, and ice has
-put on the finishing touches to the terrestrial contours.” But there
-appear to be various opinions held by geologists respecting the changes
-brought about on the earth’s surface during the glacial period. Some
-think that glaciers have never been an important geological agent,
-while others assert that during the glacial epoch heavy ice-sheets
-covered the elevated portions of Western North America as far south
-as the thirty-sixth parallel of latitude, and Eastern North America
-was overspread with ice-sheets, which attained a depth of five or six
-thousand feet, and were able to move their débris over wide lands of
-little declivity toward the sea, their immense deposits forming the
-lands of Cape Cod, and also the islands of Nantucket and Martha’s
-Vineyard.
-
-But it is now said that this implied magnitude of the glacial deposits
-on the lands skirting the New England coast is without foundation,
-since the larger bulk of these islands consists of upturned Cretaceous
-and Tertiary strata, which are only thinly covered with glacial débris,
-such as bowlders, gravel, clay, and sand, from the eroded shores of the
-mainland of New England. But it appears that the dislocated and folded
-cretaceous strata which underlie the glacial drift of Nantucket and
-Martha’s Vineyard were during an early period deposited on the bottom
-of a shallow sea, which then covered the Vineyard Sound, Buzzard’s Bay,
-and their surrounding lowlands. Thus the ice-sheets of the frigid age
-which moved over New England displaced the yielding stratified deposits
-of the shallow sea, and forced them southward in a disturbed condition
-to the position which they now occupy.
-
-Still, it is apparent that only a small portion of the glacial drift is
-found on these islands, which, according to appearances, must have been
-eroded and moved southward from the rocky lands of New England during
-the ice age; but there is sufficient to show that large quantities
-of such débris were carried over the islands into the Atlantic. And,
-judging from the eroded rocky New England lands, there must have been
-sufficient glacial drift moved over Nantucket and Martha’s Vineyard
-into the ocean beyond to far exceed in bulk the deranged Tertiary and
-Cretaceous deposits which now form so large a portion of the islands.
-
-For, when we look over lands bearing traces of the ice age, where
-the glaciers did not move their drift into the sea, so the terminal
-moraines of such glaciers can be better estimated, we can realize the
-great work that has been performed by the ice-sheet that overran New
-England during a frigid age.
-
-Professor James Geikie states, in his discussion on the glacial
-deposits of Northern Italy, that the deposits from Alpine glaciers of a
-frigid period “rise out of the plains of Piedmont as steep hills to a
-height of fifteen hundred feet, and in one place to nearly two thousand
-feet. Measured along its outer circumference, this great morainic mass
-is found to have a frontage of fifty miles, while the plain which it
-encloses extends some fifteen miles from Andrate southward.” And it
-is reported that there are found on the southern flank of the Jura
-numerous scattered bowlders, all of which have been carried from the
-Alps across the intervening plains, and left where they now rest. Many
-contain thousands of cubic feet, and not a few are quite as large as
-cottages.
-
-Such blocks are found on the Jura, at a height of no less than two
-thousand feet above the Lake of Neuchâtel. The Jura Mountains being
-formed of limestone, it is easy to distinguish the débris deposited
-by Alpine glaciers; and, from what I can learn of extensive glacial
-work, it appears that intervening plains, lakes, and sounds are so
-often found separating the source of ancient glaciers from their
-deposits that their existence becomes almost necessary to represent
-the general outlines of disturbance performed during an ice period. In
-consideration of such facts and the foregoing statements of reliable
-observers, I am prompted to offer my views on glacial work performed on
-a portion of the Pacific shores of North America, which seems to me to
-be much more extensive than hitherto supposed.
-
-Professor Whitney describes the coast mountains of California as being
-made up of great disturbances, which have been brought about within
-geologically recent times; and this statement I found to be so obvious
-in my travels over that region that it appears to me that the coast
-ranges originated in a different manner from the older Sierras. The
-western sides of the latter mountains everywhere show the great eroding
-power of ancient glaciers; and, when I considered their favorable
-position for the accumulation of snow during a glacial period, I was
-led to seek for the glacial deposits adequate to represent the great
-gathering of ice which an age of frigid temperature would produce.
-
-But it seemed to me that such deposits could not be found in the
-foot-hills of the Sierras, which contain the moraine of inferior
-ice-sheets that terminated at the base of the mountains.
-
-Under these conditions I came to the conclusion that during the earlier
-ice period the immense glaciers which must have formed on the western
-slopes of the Sierra range moved their gigantic accumulation of débris
-so far seaward as to form the range of hills now existing next the
-coast line, and perhaps the islands abreast the Santa Barbara coast,
-the Contra Costa, or eastern range, being formed during a subsequent
-ice period, in the same manner as the hills next the coast line.
-
-Still, it may be that neither of the coast ranges was the work of a
-single cold epoch; but the western range must necessarily have been the
-earliest deposit. Although the coast ranges differ from the Sierras
-in their make up, yet it does not disagree with the glacial origin
-of the former inferior mountains, from the fact that the ice-sheets,
-while moving their bulk westward, displaced the deposits of such bays,
-lakes, rivers, and marshes as lay abreast of the Sierra slopes. The
-advancing ice-sheets, thousands of feet in depth, moving from a lofty
-and steep incline, pressed and ploughed below the somewhat superficial
-cretaceous and alluvial strata which lay in their course. The disturbed
-strata, while forced along in confused heaps in front of the ice, were
-amassed in ridges sufficient to form the hills of the coast ranges.
-The bowlders found imbedded in several of the coast hills must have
-been moved by the ice from the Sierras on account of the coast ranges
-not having a rocky core of sufficient firmness to give shape to such
-bowlders. Moreover, the temperature of the Pacific waters would not be
-favorable for glaciers to form on the coast ranges, with the ice-sheets
-of the Sierras terminating at the foot-hills.
-
-The Sacramento and San Joaquin Valleys are now covered by recent river
-deposits. Therefore, the glacial drift which should be traced from the
-Sierras to the coast ranges is concealed.
-
-Yet the abraded appearance of exposed solid rocks at the base of the
-foot-hills, and also the scattered bowlders which gradually disappear
-beneath the diluvial deposits of the plains, indicate that the Sierra
-ice-sheets could not have ended at the foot-hills, but must have moved
-further westward, while gathering immense accumulations in their front,
-sufficient to form the coast hills, the débris thus amassed being able
-to arrest the further movement of the ice seaward.
-
-The coast ranges in several places have been subject to igneous action,
-which may have been brought about through heat generated from pressure
-exerted on the interior masses after the ice had melted away, the heat
-thus produced being sufficient to cause outbursts of lava, where the
-nature of the material favored combustion. The low plains, lakes, and
-bays which separate the Sierras from the coast hills are in a position
-similar to the shallow sounds which separate Nantucket, Martha’s
-Vineyard, and Long Island from the inferior slopes of the mountains of
-New England. Therefore, while agreeing with glacialists, who believe
-that great geological changes have been wrought by ice-sheets in Italy
-and New England, it appears to me that the ancient glaciers of the
-Sierra Nevada have accomplished more extensive work, owing to the
-Sierras being situated in a more favorable position to receive the
-humidity of the ocean.
-
-Hence, with a low temperature, vast quantities of snow must have
-collected on their lofty sides; and at the same time their great
-height and declivity would cause the ice to move down their steeps
-with greater force than the glaciers which passed over New England.
-Writers who have given the subject considerable study think that the
-deep valleys of the Sierra Nevada were produced by disruptive rather
-than erosive agencies. This conclusion has been formed from the lack
-of large accumulations of débris about their lower extremities, which
-would not be the case if such valleys were the result of glacial
-erosion. But, should the coast ranges be attributed to glacial action,
-as has been stated, we can well account for the débris that should
-accumulate from the erosion of the deep valleys.
-
-The only thing that could prevent the ice from gathering on the Sierra
-Nevada range during an ice period in greater masses than on any
-mountains in the northern hemisphere would be the lack of cold; for,
-with a low temperature, the fall of snow would be enormous. This is
-shown by the great snow-fall during the short mild winters of to-day.
-Therefore, with ice-sheets covering a large portion of the lands of
-the high northern latitudes, and with the Japanese current which
-tempers the north Pacific waters made cold in the manner described
-in the foregoing pages, and while the sea along the north-west coast
-of America was strewn with icebergs launched from Alaska and British
-Columbia, it seems that California must also have obtained a frigid
-climate during the ice age. Therefore, on account of its exposure to
-the ocean winds, and the consequent heavy snow-fall, the accumulation
-of ice on its lands must have been immense. For, when it is considered
-that the glaciers of North America extended southward even into the
-torrid zone sufficient to cover a large portion of Central America,
-it is unreasonable to suppose that any portion of California could
-escape being covered by heavy ice-sheets during the glacial epoch. The
-comparatively scant fall of rain and snow over Greenland is known to
-form ice-sheets hundreds of feet in thickness.
-
-Therefore, what must have been the depth of ice over the high lands of
-the Pacific coast north of California at the culmination of a frigid
-period? The descriptions given by Dr. Dawson and others, of glacial
-phenomena along that coast, favor the impression that an immense
-ice-sheet at one time deeply covered the whole region from the top of
-the mountain range to the ocean.
-
-Thus all the deep channels were filled and all the islands deeply
-overrun with ice, while the immense bergs launched from the shore
-and carried by the winds and currents southward were probably not
-melted until they reached the tropical latitudes. Thus, when the
-whole circulation of the Pacific waters are taken into account, it
-will be seen that their temperature during the ice age must have been
-considerably lowered. The movement of ice-sheets on the Pacific slope
-was probably local in character, and not connected with the movement of
-ice on the eastern sides of the mountains.
-
-From what I have seen of the vast territory lying between the Sierra
-Nevada and the Rocky Mountains it appears that it obtained much heavier
-ice-fields than generally supposed. Professor Geikie in his lectures
-says of this region that during the glacial age, “in the Second
-Colorado Canyon, the sides were completely glaciated from bottom to
-top. These walls are from 800 to 1,000 feet high, and at the thickest
-point the glacier was 1,700 feet thick”; and he says that “the country
-around Salt Lake was covered with ice, for the rocks about there show
-the action of ice, and that the bones of the musk-ox are found there.”
-This vast area of ancient ice, although subject to little movement in
-its interior basin, still, in whatever movement it may have had, must
-have found its main outlet through the Grand Canyon of the Colorado.
-
-For in no other way can we account for the erosive forces necessary to
-excavate that immense chasm. Not even the mighty torrent that carried
-off the waters of the melting ice-sheets that covered the interior
-portion of the continent could accomplish work of such magnitude.
-
-According to Professor Geikie’s observations the Second Colorado Canyon
-was filled with glaciers during the ice age. Therefore, it seems that
-these glaciers must have flowed down into the Grand Canyon, and there
-united with glaciers flowing from more northern regions.
-
-An account of a collecting expedition to Lower California by G. Eison,
-in 1895, describes ancient moraines at the extremity of the peninsula
-as being prominent, large, and steep. This region lies under the tropic
-of Cancer, and 8° south of the mouth of the Colorado River where
-it empties into the Gulf of California. Hence it appears that the
-temperature of that portion of North America during the ice age was
-favorable for the great glacier of the Colorado Canyon to have flowed
-into the Gulf of California.
-
-The wide, shallow basins of Utah and Nevada were filled with the water
-from the melting ice-sheet on the breaking up of the ice period,
-and the lakes so caused remained for a considerable time after the
-disappearance of the ice. But, owing to the great evaporation and light
-rain-fall of that region, the lakes gradually shrank away, the filling
-and emptying of the lake basins being governed by the cold and mild
-epochs.
-
-The conglomerate deposits in the Appalachian district of North America
-are known as occurring on a large scale. Professor Shaler is inclined
-to attribute them to glacial action, because he knows of no other force
-that could bring together such masses of pebbles from a wide-spread
-surface. In Eastern Kentucky and East Tennessee these deposits are
-found to be several hundred feet in thickness. Such accumulations of
-apparent glacial origin are to be found from New Brunswick to Alabama.
-
-Hence it seems that the ice during a frigid period followed down the
-Alleghany range even so far south as Georgia and Alabama; and for a
-time, when the ice attained its greatest spread, it flowed over the
-central portion of the Gulf States. For how else can we account for the
-clay mixed with gravel and pebbles and stony fragments being spread
-broadcast over that region?
-
-I know that such statements do not agree with the views of glacialists
-who have written on the subject, and have drawn the glacial boundary
-from seven to ten degrees further north, where a line of bowlders with
-other glacial débris is plainly traced. Still, it appears to me that a
-line of bowlders deposited by an ice-sheet spreading over a continent
-and across many degrees of latitude cannot be compared to the moraines
-of inferior mountain glaciers of the temperate latitudes of the present
-age.
-
-An ice-sheet moving from a high latitude to a lower would, while in the
-colder latitude, freeze firmly to the rocky ledges, and hold them so
-strong in its frigid grasp as to break off the weaker portions of the
-rocks, and drag them toward a milder region, as far as the freezing
-grip of the ice-sheet would permit; but, on gaining lower and milder
-latitudes, the holding and dragging power of the ice would be lost on
-account of the increased warmth of the earth over which the glacier
-must pass, and also because of the ice-sheet having lost a portion of
-the low temperature acquired in the higher latitudes. Therefore, on
-such lines the bowlders would be released, while the ice-sheet would
-still move on, although largely deprived of its eroding power.
-
-This is the probable reason why a line of glacial débris, largely
-composed of bowlders, is found to extend across the Middle and Western
-States, and so generally supposed to be the glacial boundary of a
-frigid period. But there is no reason to suppose that an ice-sheet,
-although deprived of its eroding power, was arrested in its southern
-movement on the line of its stony débris, because there could be no
-sudden change of temperature in a particular latitude on the eastern
-lands of North America to cause an abrupt ending of the ice-sheets.
-And there appears to be nothing to hinder the ice from gathering and
-flowing over lands warm enough to loosen its implements of erosion;
-for there is much to show that the ice-sheets flowed much further
-southward, even into the middle portion of the Gulf States, and there
-spread the clay mixed with gravel and pebbles, with now and then a
-bowlder, over the land. The scattered bowlders, found in numerous
-instances many miles south of the bowlder line, were so deeply imbedded
-in the ice-sheet that they could not be dropped on the usual releasing
-ground. The ice-sheet, when deprived of its rocky, eroding implements,
-would, while flowing over the land, leave few or no imprints on the
-rocks; but it would probably move and spread a large amount of clay,
-gravel, pebbles, and sand over its wide course, especially if the ice
-moved from a region abounding with such material.
-
-Should we place the glacial boundary on the line of the rocky débris,
-how could we account for the glaciated stones found on the hills and
-plains situated far southward of the bowlder-strewn regions of the
-Middle and Western States? The clay mixed with gravel and sand, and
-spread so broadcast over a large portion of Georgia and even into
-Northern Florida, makes it appear that the ice of a cold period must
-have covered that southern region.
-
-Moreover, it seems to have been through the great abrasion which only
-ice-sheets could perform that the sands of the Florida peninsula were
-produced; for on examination they seem to have resulted from the
-abrasion and weathering of crystalline rocks.
-
-The worn remnants of such rocks are now found in the southern
-Appalachian range. In fact, the hills and mountains of that region at
-the present time are supposed to be a small remnant of the ancient
-highlands. Thus, on consideration, it appears that the sands caused by
-the action of glaciers were, on the disappearance of ice-sheets, blown
-by the strong north-west winds toward the Florida peninsula as fast
-as the receding waters of the ocean which flowed the lowlands on the
-breaking up of the ice age would permit; and in this way the sand was
-spread over the lowland region, which was largely composed of coral
-sea shells and other marine matter. And it seems that the sand must
-have been blown over large areas in Florida soon after the ending of
-the frigid period, because the sand, in order to be moved by the winds,
-must have spread over a country nearly destitute of vegetation; and
-such would be the condition of that region during times which succeeded
-the ice period and the subsequent brief flowage of the lowlands on the
-ending of the frigid age, which would not be the case if such sands
-resulted entirely from water erosion and weathering, because with
-such a state of things the country would be covered with forests and
-grasses, which would prevent the sand from being moved by the winds to
-any great extent.
-
-This goes to show that the region of the Gulf States was so much
-affected by the cold of the glacial period, together with the
-submergence of the lowlands at its close, its flora and also its
-animals were exterminated; for how else can we account for the abundant
-fossil remains of animals now found buried in the Florida sands? It
-appears also that, when Florida was being covered with drifting sands,
-many of the lake basins now formed did not exist, as the wind-blown
-sand could not have crossed a continuous chain of lakes like the St.
-John’s River; and it is an easy matter to-day to trace the beds of the
-ancient lakes that prevented the sands from drifting over certain lands
-now nearly destitute of it. And it is probable that the sea flowed the
-lowest lands during the period when the winds were drifting the greater
-portion of the sands over the peninsula. Therefore, regions which
-embrace the Everglades and portions of the Indian River territory are
-quite free from heavy sand deposits, and so also are the extensive flat
-woods of the peninsula.
-
-Since the sands blew over the ancient desert of Florida, many lake
-basins have been formed because of the sinking of the ground. This
-sinking of the ground is a common occurrence in limestone regions,
-where a great amount of material is moved in solution, leaving caverns
-whose roofs often fall in. The great amount of sand blown upon Florida
-caused the marine strata to give way in the weaker places under its
-burden. The sinks thus formed, probably of frequent occurrence at one
-time, have now nearly ceased. Still, there are depressions to be seen
-to-day where the tops of large pine-trees, which grew on dry, sandy
-land, are barely above the surface of the water which partly fills
-the basins so recently formed. Yet I would not assert that all of the
-depressions where Florida lakes exist were caused by the sinking of the
-ground; for the winds may have caused shallow basins in the sand, where
-the decayed vegetation has formed mud sufficient to hold the water
-which now partly fills such basins.
-
-The mobility of Florida sands can be seen to good advantage when
-exposed to a strong, dry north-west wind, where the ground happens
-to be destitute of vegetation. An observer can then realize what the
-result would be, should the whole land be deprived of vegetation and
-laid bare to the action of the winds.
-
-Under such conditions, not only would the winds be much stronger than
-now, but the air near the ground would be filled with sand, moving like
-drifting snow in a Dakota blizzard. And, furthermore, it is probable
-that the rainfall was very light while Florida was void of vegetation;
-and, even if shallow basins were formed, there would be a lack of rain
-to supply them with water.
-
-The wide plains west of the Mississippi River, extending southward into
-Texas, during the frigid period must have been covered with a sheet
-of ice and snow. And it is probable that it was not wholly a product
-of more northern latitudes, but was mostly produced by the snow which
-fell on the plains during the long winters of that period, which could
-not be melted away during the cold summers of an ice age, when it is
-considered that an ice-sheet, with a temperature sufficiently low as to
-carry glacial drift, covered the lands of Missouri as far as latitude
-38° south; and it may have been through the pressure from an ice-sheet
-in its south-eastern movement that we are to account for the numerous
-ore-bearing faulting fissures traversing the limestone strata.
-
-The ice-sheet was also the probable cause of the erosion of the
-horizontal bedded stones, yet it appears that the ice did not greatly
-change the contour of the ground; for it is well known that glaciers
-do move over lands that are not frozen to the ice without causing much
-disturbance, especially where the gradient is small, and this was the
-probable condition of the Western plains during the ice age. Thus it
-seems that whatever disturbance this region has undergone could be
-partly attributed to ice-sheets without the presence of bowlder drift,
-because the temperature and texture of the ground in the limestone
-region were unfavorable for such accumulations; yet it may be owing to
-the action of ice that minerals once diffused are now found collected
-in fissures. The deep valleys through which the large rivers now pass
-on their way toward the sea were once filled with glaciers which flowed
-into them from their tributaries. Thus the deep trenches of the plains
-are largely the work of glaciers. It is generally supposed that the
-driftless region of Wisconsin was free from ice during the frigid
-period. But it seems impossible for this region to have escaped being
-covered by ice and snow, with the great lakes filled with glaciers, and
-the regions on all sides of the driftless area covered with ice.
-
-The reason why this territory escaped the drift from the north was on
-account of the hindrance which the drift-bearing ice-sheet encountered
-in the deep basin of Lake Superior. In this great depression the
-ice-sheet from the north was relieved of bowlders and other glacial
-drift, as well as obstructed in its southern movement.
-
-Therefore, the snow and ice which gathered on the driftless region had
-little movement in any direction, while the temperature and consistency
-of the ground under the ice were not favorable for the production
-of bowlder drift; and, when we consider that the Mississippi valley
-was deprived of great sources of warmth during the culmination of a
-glacial period, we are forced to the conclusion that its wide lands
-were also covered with snow and ice.
-
-The tropical waters of the North Atlantic were so much chilled by the
-floating icebergs of North-eastern America, Greenland, Iceland, and
-Northern Europe that the Caribbean Sea, its warmest reservoir, was
-reduced to a temperature so low that the easterly winds which blew over
-its waters were unable to prevent ice-sheets from gathering on Eastern
-Nicaragua.
-
-Therefore, during such frigid times it appears that, with the waters of
-the Caribbean Sea and Gulf of Mexico reduced to a low temperature, it
-was impossible for the great Mississippi valley to escape glaciation,
-while being surrounded by cold seas and glaciated lands which extended
-even into the tropical latitudes. The broad, level lands of British
-America and Siberia during the ice age must have been thickly covered
-by the snow which fell on the deeply frozen plains, besides the large
-amount of snow that the cold westerly winds must have drifted over
-their icy surface from lands of greater snow-fall on their western
-borders. This snow during such freezing times could not be melted away.
-
-The great ice-sheets thus formed over wide, level lands could have
-but little motion in any direction, certainly not sufficient to cause
-glacial drift of much magnitude; yet the ice-sheet, at one stage of
-its existence, probably served to widen and deepen the channels of the
-great rivers which empty into the Arctic Ocean from these vast regions,
-and the glacial débris from such erosion was deposited in the arctic
-seas.
-
-
-
-
-CHAPTER V.
-
-REMARKS ON THEORIES ADVANCED FOR EXPLAINING ICE PERIODS.
-
-
-On Nov. 12, 1891, Professor Geikie made his presidential address before
-the Edinburgh Geological Society, the subject being “Supposed Causes of
-the Glacial Period.”
-
-Many of his views advanced in this lecture were so much in accordance
-with my own that I am induced to repeat them. He said that the glacial
-period was a general phenomenon due to some widely acting cause, and
-that where we now have the greatest rain-fall the greatest snow-fall
-took place, and that the Pleistocene period was characterized by great
-oscillations of climate, extremely cold and very genial conditions
-alternating. He also said that in glacial and post-glacial times
-changes in the relative level of the land and sea had taken place, and
-any suggested explanation which did not fully account for these various
-climatic and geographical conditions could not be satisfactory. And,
-while examining the earth-movement hypothesis, he pointed out that in
-the first place there was not the least evidence of great continental
-elevations and depressions in the northern hemisphere, such as the
-hypothesis postulated. Next he showed that, even if the diserrated
-earth-movements were admitted, they would not account for the phenomena.
-
-Such changes, no doubt, would profoundly affect the maritime regions of
-North America and Europe; but they would not bring about the conditions
-that obtained at the climax of the ice age.
-
-Another objection to the earth-movement hypothesis was this: it did not
-account for interglacial conditions. The advocates of that hypothesis
-imagined that these conditions would supervene when the highly elevated
-northern regions were depressed to their present level. But these
-were the conditions that obtained at the present time; and yet in
-spite of them the climate was neither so equable nor so genial as that
-which obtained in interglacial times and during the mild stage of the
-necessary post-glacial period.
-
-Therefore, he said that the earth-movement hypothesis should be
-rejected, not only because it was highly improbable that such
-wonderfully rhythmic elevations and depressions of northern lands could
-have taken place, but chiefly because it did not explain the conditions
-of the glacial periods and interglacial times.
-
-Still, Professor Geikie says that in glacial and in post-glacial times
-changes in the relative level of the land and sea had taken place; and
-it is reasonable to suppose that such changes were obtained in the high
-latitudes of both hemispheres during the breaking up of the last ice
-age.
-
-We have previously pointed out that much of the ice of the glacial
-period in the southern hemisphere was melted away, and its waters
-warmed sufficiently to assist the Gulf Stream and Japanese current to
-bring about a mild period in the northern hemisphere; for without such
-assistance they would be unable to disperse the vast ice-sheets of the
-northern latitudes.
-
-Still, the attraction of the southern ocean waters into the northern
-seas must have commenced as soon as the growing ice-sheets of the large
-continents and islands of the high northern latitudes surpassed the
-growth and weight of the glaciers on the smaller lands of the southern
-hemisphere.
-
-Hence the attraction of the ocean waters northward overcomes the force
-of the prevailing winds from moving an undue portion of the ocean’s
-surface waters southward. Consequently, the movement of water from the
-southern seas into the northern latitudes continued so long as the
-vast northern ice-sheets increased in weight greater than the glaciers
-of the southern hemisphere. Therefore, at the perfection of a frigid
-age straits and channels situated so far southward as the Magellan and
-Cape Horn channels were much diminished in width and depth or entirely
-deprived of their waters. Through this cause such reduced channels were
-readily filled with glaciers in a region of great snow-fall. The depth
-of water on the submerged northern lands at the close of the glacial
-period is not known.
-
-According to Professor Dawson, in the township of Montague in Ontario
-the skeleton of a whale was found in post-glacial deposits 440 feet
-above tide-water, and marine shells are known to occur on Montreal
-mountain at an elevation of 520 feet above the ocean; and it is said
-that there are traces of submergence of over one thousand feet in the
-higher latitudes, including the islands of Great Britain.
-
-According to the researches of Dr. J. W. Spencer, one great sheet of
-water covered most of the great lake region about the close of the
-ice age; and the lower strands of these inland seas are known to be
-connected with old marine shore lines. The probable reason why so few
-sea-shells collected on the glacial drift during such times was because
-of so much marine life having been exterminated in the high northern
-latitudes during the frigid age. Therefore, the sea, in the short
-period of northern submergence, left but few traces on the glacial
-drift it once flowed.
-
-Thus it will be seen that, if the ocean waters were attracted northward
-through the preponderance of northern ice-sheets, they not only
-assisted in melting the northern ice, but also served to greatly reduce
-the waters in the Cape Horn channel, and so largely prevented the
-independent circulation of the southern ocean, thus furthering a mild
-climate in the southern hemisphere until the prevailing winds, after
-the northern ice-sheets were melted, were able to move more of the
-ocean waters southward than they could move northward, owing to the
-ocean currents setting southward being less obstructed than the lesser
-currents setting northward. This tendency of the ocean waters to move
-southward I have before explained in the preceding pages.
-
-But I will say in addition that, on further consideration, it seems
-that one of the main causes of the waters of the augmented northern
-oceans moving southward so soon after the melting of the ice from
-the northern lands was on account of so much water being attracted
-southward to the great low sea-level east of Cape Horn. This vast low
-sea-level remained a great area of attraction for the northern seas
-until so much northern water was moved into the southern ocean as to
-reduce the seas of the northern hemisphere and augment the southern
-ocean sufficiently to enlarge the Cape Horn channel, thus causing
-the extinction of the vast low sea-level that furnished such great
-attraction for the waters of the more northern latitudes.
-
-If the earth-movement hypothesis, so wholly rejected by Professor
-Geikie, fails to explain the cause or causes of a northern ice age, it
-seems to be still more inadequate for explaining the occurrence of ice
-periods extending over both hemispheres. For it is not probable that
-portions of continents and large islands rose above the snow-line in
-both temperate zones during the same period of time, and then again
-obtained their present level with the occurrence of a mild era.
-
-Those who maintain that the continents of North America and Europe
-rose to great elevations during the ice age, in order to prove their
-assertions, point to the fiords which indent the eastern and western
-coasts of North America, and also to the fiords of Norway, as having
-been eroded by streams of ice that flowed along the bottom of such
-gorges when they were above the sea.
-
-But it appears that such erosion could be performed by heavy glaciers
-with the lands at their present level. A glacier three thousand feet
-thick would fill and press heavily on the bottom of a gorge fifteen
-hundred feet in depth. Therefore, should the bottom of a fiord sink
-hundreds of feet below the sea-level, a glacier several thousand feet
-thick flowing through and over it into a sea of much greater depth, the
-erosion at the bottom of the sunken channel would be greater than on
-the land above the sea, where the ice possessed less weight.
-
-Therefore, it is not necessary that lands pierced by deep fiords
-should have acquired a higher level during the ice age than they now
-maintain. And it is probable that on the antarctic continent ice
-erosion may be going on at much greater depths below the sea-level than
-the deepest channels in the high northern latitudes. For it is likely
-that the temperature of a glacier is so low in such frigid regions
-that it holds firmly in its freezing grasp such bowlders as may become
-detached from the rocks, thus giving it great erosive power.
-
-But this great eroding ability could not be maintained by glaciers in
-the lower latitudes, where a higher temperature would largely deprive
-the ice of its abrading properties except on the steep slopes of
-mountainous lands.
-
-There are deposits of ice on the North American coast bordering the
-arctic shores, and also on Northern Siberia, that are supposed to have
-existed since the last frigid period, and are likely to be preserved
-into a future cold age, which now appears to have made considerable
-progress on Greenland and other ice-clad arctic shores on account of
-the independent circulation of the Arctic Ocean waters, which largely
-excludes the Gulf Stream from the polar seas; and it is for this reason
-that the glaciers on the elevated lands of Iceland are being enlarged
-and rapidly advancing. Yet, notwithstanding the gathering of ice
-and increasing coldness of lands largely removed from the warm Gulf
-currents, there are still mountain regions where glaciers may have been
-preserved through post-glacial times, although directly to the leeward
-and under the influence of the Gulf Stream and Japanese currents.
-These glaciers are situated in the Alpine districts of Europe and on
-the mountain ranges of Alaska. It would appear that, were the climate
-growing gradually colder in the northern temperate zones, such glaciers
-should be increasing in size.
-
-Yet it is said that such is not always the case. This is probably
-owing to their being subject to the genial influence of the tropical
-currents. For, although the climate of Europe and Alaska may have been
-slowly growing colder for centuries, still the slow shrinkage of these
-once immense glaciers may still be going on, although at a much slower
-rate than formerly, even if the tender plants of these latitudes,
-because of the growing coldness, have gradually moved southward.
-
-As to the Alpine glaciers, M. Forel reports from data he has collected
-that there have been several enlargements and diminutions during the
-last century. And since 1875 enlargements have taken place, their
-shrinkage being caused by warm and dry weather, while their enlargement
-was brought about during cold and rainy seasons. The glaciers of
-Alaska cannot attain much extension until the waters of the great
-Japanese stream acquire a lower temperature. There is at this date a
-small current setting down through the eastern side of Bering Strait,
-bearing field-ice in the spring season down to Anadyr Gulf. The Okhotsk
-Sea in the spring season furnishes considerable field-ice to cool the
-north Pacific waters, and the wintry winds which sweep down from the
-high lands of Northern Asia also serve to chill the Pacific seas; but
-all such sources of cold combined at this age have but little general
-effect on the vast Japanese current, which still has warmth sufficient
-to prevent the increase of glaciers on Alaska.
-
-This great ocean stream in its impact against the shores of Oregon
-causes a high sea-level, which is mostly turned southward by the
-prevailing north-west winds. Still, a comparatively small stream
-sets along the shore of the Alaska Gulf, and also through the island
-passages toward a slight low sea-level, to the leeward of the Alaska
-peninsula; and it is probable that this current which warms these
-in-shore waters is favored by the difference of temperature and density
-between the waters abreast Oregon and the Gulf of Alaska, and it may be
-owing to the same cause that a small stream is sent along the eastern
-shore of Bering Strait into the deep portions of the Arctic Ocean. Thus
-because of the warm waters that proceed from the great Japanese current
-the glaciers of Alaska are prevented from increasing their bulk.
-
-The only way to furnish the Japanese stream with colder water, and
-so cause glaciers to increase on the north-west coast of America, is
-through the great Humboldt current, which has its rise in the southern
-ocean west of Patagonia and the Cape Horn channel, where a moderate but
-vast high sea-level is formed on account of the great drift current of
-the southern ocean being somewhat obstructed on its passage through the
-Cape Horn channel, which is about one-third the breadth of the westerly
-wind-belt.
-
-Therefore, the northern portion of the waters of the high sea-level
-so caused are attracted northward to the low sea-level abreast Peru,
-from whence they are moved by the south-east trade winds as a drift
-current to the equatorial latitudes, thus meeting and mingling with the
-returning Japanese current abreast Central America, and so giving head
-to the great equatorial stream which moves westward over the Pacific
-Ocean, partly impelled by the trade winds, and, on gaining the western
-side of the ocean, sends off from a moderate high sea-level a large
-stream to the low sea-level caused by the westerly winds abreast Japan,
-from whence it is drifted by the same winds over to the north-west
-coast of America, thus forming the great Japanese current.
-
-Meanwhile the temperature of the Humboldt current, being governed by
-the temperature of the southern ocean from which it takes its rise, is
-cooling at a slow rate through the enlargement of ice-sheets in the
-antarctic regions, while the increase of glaciers on Patagonia will
-in time greatly add to its coolness, and so lower the temperature of
-the equatorial current from which the Japanese current branches, the
-latter current being made cooler through the increase of coldness of
-the former streams. Therefore, the temperature of Alaska, which is
-governed by the Japanese current, will slowly acquire a colder climate;
-and, consequently, its glaciers will increase in size sufficient to
-launch icebergs into the Pacific to be currented southward, and so
-still further lower the temperature of the Eastern Pacific waters,
-and consequently the equatorial current from which the Japanese stream
-branches, and so eventually, under the above conditions, cause heavy
-ice-sheets to spread widely over the north-west coast of North America.
-
-It will be seen from the above explanations how an increase of cold
-in the southern hemisphere is necessary to cause a wider spread of
-ice-sheets on lands in the northern hemisphere.
-
-Especially is this the case to promote the gathering of glaciers on the
-west coast of North America. The great equatorial current while on its
-way to the Indian Ocean not only sends off the Japanese stream, but
-also the East Australian current, which is like the Japanese current,
-having its temperature lowered in proportion as the equatorial stream
-is cooled. Therefore, the southern ocean is slowly being deprived of
-equatorial heat from this source.
-
-I have explained how the increasing coldness of the superior oceans of
-the southern hemisphere affects more or less the temperature of the
-Gulf Stream, which meanwhile is only able to enter a small portion
-of its waters into the Arctic Ocean after undergoing a long cooling
-process as a drift current; and, while thus mingling with the arctic
-waters, it is not able to prevent the gathering of ice-sheets on
-Greenland, where glaciers are launching bergs to float southward as far
-as the latitude of 40° north. Consequently, the northern seas are now
-being cooled as well as the seas of the southern hemisphere.
-
-Yet this cooling process is so slow there is a lack of data to
-show that the temperature of the high latitudes is lowering. Our
-thermometrical observations are of such recent date they cannot be used
-to determine climatic changes which requires centuries to bring about.
-Still, it is generally known that the climate of Northern Europe has
-been accused of growing colder. The vine no longer flourishes on the
-shores of Bristol Channel or in Flanders or Brittany; and vineyards
-are no longer planted on the elevated shores of France where they
-flourished three hundred years ago. Arago did not refuse to believe
-that the laws regulating the temperature of Western Europe had notably
-altered. This is proved, he said, by the general retrogradation of the
-vineyards southward.
-
-The recent deadly freezing of the orange groves of Florida makes it
-uncertain whether the cultivation of the orange can again be successful
-in the counties where during this generation it has been very
-profitable.
-
-Travellers visiting Iceland say that the old accounts of its prosperity
-seem strange to those who now visit its shores; and it is narrated in
-the Sagas that in early times sheep could shift for themselves during
-winter, and that there were large forests and that corn ripened.
-Several years ago a correspondent of the _Spectator_, writing from
-Northern Russia where the Volga is locked with ice for six months in
-the year, stated that “the people were beginning to show increased
-resentment at the climate, and that there was reason to believe that
-the northern government of Russia would be abandoned to the desert. The
-people silently glide south by the tens of thousands every year, so the
-life of Russia was concentrating in the south.”
-
-It is now the opinion of travellers in arctic lands that the
-inhabitants of the Esquimaux regions are decreasing, as are also the
-inhabitants of Northern Siberia.
-
-A writer in the North China _Herald_, of Shanghai, says that “the
-climate of Asia is becoming colder than it formerly was, and its
-tropical animals and plants are retreating southward at a slow rate.
-In the time of Confucius elephants were in use on the Yangtse River.
-A hundred and fifty years after this Mencius speaks of the tiger, the
-leopard, the rhinoceros, and the elephant as being in many parts of
-China.
-
-“It is also said that the ferocious alligator, that formerly infested
-the rivers of South China, has retreated southward.
-
-“The flora of the country is also affected by the increasing coldness
-of the climate. The bamboo is not found in the forests of North China,
-where it grew naturally two thousand years ago, but is still grown in
-Pekin, with the aid of good shelter, as a sort of garden plant only.”
-
-A letter from Hong Kong, published in the London _Standard_, reports
-that on the 15th of January, 1893, the temperature of Hong Kong, a
-tropical seaport of China, was below freezing for three days, and was
-colder than ever before known. The rocks and also vegetation were
-covered with a coating of ice. The thermometer at times stood at 23°
-and 26° Fahrenheit.
-
-I have previously explained how the slow increasing coldness of the
-northern temperate zone is also being carried out in the southern
-hemisphere. The meteorological records for the lofty table lands of
-Ecuador, although very incomplete, furnish strong evidence to show that
-the mean temperature of that region is gradually lowering.
-
-Observations made by Boussingault at Quito in 1831, compared with those
-from 1878 to 1881, showed a decrease from 15.2° Centigrade to 13.27°
-Centigrade.
-
-Records made by Hall from 1825 to 1827 give averages of 16.1°
-Centigrade, 15.52° Centigrade, and 15.6° Centigrade. This decrease
-holds good for all points in the inter-Andean region where records have
-been kept.
-
-Yet we know that the falling temperature in the northern temperate
-latitudes is not brought about by a yearly increase of cold, because,
-when the arctic channels are somewhat obstructed with icebergs, the
-movement of arctic waters through them is lessened; and, therefore,
-during such times the Gulf Stream, meeting with less opposition from
-arctic currents while flowing northward, is able to move a larger
-volume of its waters into the arctic seas, thus warming their waters
-sufficiently in a few seasons to clear the obstructed channels, and
-also somewhat soften for several successive years the temperature of
-such lands as border on the seas of that region.
-
-And in this way we account for the mild seasons which at times follow
-those of lower temperature in high northern latitudes.
-
-But, when the detained icebergs are set adrift, and currented into the
-temperate North Atlantic, the heat consumed while melting such numerous
-bodies of ice is able to more than overcome the warmth gained during
-the temporary detention of ice in the northern seas. Thus, under such
-considerations, it appears that the conditions are favorable for the
-growth of glaciers in the high northern latitudes.
-
-I have pointed out the manner in which the superior oceans in the
-southern hemisphere are obtaining a lower temperature, and how
-they impart their coldness to the tropical currents, and in this
-way slowly cool the waters of all oceans. Thus it appears that the
-northern temperate zone, with all other parts of the earth, is slowly
-approaching a cold epoch.
-
-Several writers on climatic changes have expressed their views as to
-the number of glacial and mild periods that have been perfected since
-the conditions have been favorable for their appearance on the globe.
-According to my views, while considering the reasons for the occurrence
-of the great glacial periods which have left such extensive traces on
-the land, it seems certain that two very cold epochs have possessed
-the earth, separated by a warm period; and, possibly, other preceding
-cold epochs of less intensity have possessed the high latitudes, with
-intervening periods of mildness. But the earlier cold periods, if they
-ever existed, were comparatively short, because the Cape Horn channel
-during such times possessed less capacity than in the later periods,
-and, therefore, was more easily and quickly obstructed by the natural
-methods previously explained.
-
-Consequently, the independent circulation of the southern ocean was
-sooner arrested than during the later epoch, when the channel had
-become enlarged by erosion from heavy glaciers and icebergs; and
-meanwhile the same conditions may have governed the arctic channels
-which give an independent circulation to the arctic waters which
-surround Greenland, and thus, in connection with cold epochs in the
-southern hemisphere, have caused periods of cold of small intensity to
-occur in the high northern latitudes, and it may happen in the future
-that more ice periods will be perfected than the one now progressing.
-
-Still, it is well to bear in mind that the Cape Horn channel, which
-is the real cause of glacial periods having occurred in both the
-northern and southern hemispheres, in the manner previously explained,
-is being made wider and deeper during each succeeding ice age. For
-this reason the latest cold epoch will require a longer continuance
-of cold to obstruct the channel than the cold period preceding.
-Therefore, it appears that the time will come when there will be such
-great accumulations of ice stored on the land and in the sea before
-the enlarged Cape Horn channel can be closed that, when it is closed,
-there will not be sufficient warmth remaining in the tropical seas to
-unite with the sun’s rays to subdue the intense cold stored in the
-immense gatherings of ice. And thus the earth, which began its career
-with a warm temperature, and so continued for long ages, will finally
-terminate in an endless glacial age.
-
-The statements made by General Cowell in _Science_ of Nov. 25, 1892, in
-reference to the alleged discovery of the second rotation of the earth
-by Major-general Drayson, represents the discovery as affording a new
-solution for the cause or causes of an ice age.
-
-The second rotation as defined consists in the pole of the heavens
-describing a circle around a point which is ascertained to be
-situated six degrees distant from the pole of the ecliptic. And it
-is asserted that by a knowledge of the second rotation it is proved
-that a variation of twelve degrees in the extent of the arctic circle
-and the tropics occurred not later than 13,500 B.C., “the tropics
-varying in distance from the equator from the minimum of 23° 25′
-47″ to the maximum of 35° 25′ 47″, thus extending the torrid zone
-during its widest expansion from Cape Hatteras to the river Plate....
-It is calculated that at this date we are about 403 years distant
-from the time when the pole of the heavens in its revolution, the
-pole of the ecliptic and that of the second rotation, will be in
-the same colure,--that is, in the year 2,295 A.D.; and then the
-least differences in temperature between summer and winter will be
-experienced. From that time forward this difference will increase, and
-about 6,000 years later, or about the year 8,300 A.D., the earth will
-enter the next glacial period, and attain its greatest severity about
-the year 18,136 of our era.” General Cowell does not state how the
-widening of the tropical zone, as above set forth, would bring about
-a glacial period. The winters of the temperate zones would evidently
-be colder than now; but, on the other hand, the summers would be
-proportionally warmer, while the westerly winds above the latitudes of
-40° would prevail the same as now.
-
-Therefore, their general effect on the surface waters of the ocean
-in the high latitudes would not be changed with such an extension of
-the tropical zone, neither would the trade winds change their general
-direction with a wider torrid zone; yet the boundaries of the trade
-winds and also the westerly winds would be more shifting according to
-the declination of the sun, such winds being governed as now by the
-position of the sun during the summer and winter solstice. Yet the
-natural process for moving tropical water into the high latitudes, or
-excluding it therefrom, would not be greatly changed.
-
-Consequently, the expansion of the torrid zone to the latitudes named
-by General Drayson would not affect the climate of the hemispheres
-sufficiently to cause a frigid epoch. On the contrary, the summer
-monsoons, which now blow from the north-east, along the shores of
-Eastern Africa, and also along the coast of Southern Brazil, would be
-much stronger with a vertical sun in midsummer as far south as river
-Plate, thus forcing the surface waters of the tropical oceans into the
-higher latitudes with greater facility than at this age.
-
-Moreover, according to the statements of General Cowell, the present
-period of mildness should be on the increase, and obtain perfection
-in the year 2,295, or about 400 years hence; while, on the contrary,
-according to the explanations we have given in the preceding pages,
-there is much to show that an ice age is advancing, and has made
-considerable progress in the high latitudes of both hemispheres.
-Furthermore, if the second rotation, as claimed by General Cowell,
-is able to perfect a glacial period at regular intervals of 31,600
-years, it seems that traces of frigid epochs should not be confined to
-late geological records, as there appear to be little or no traces of
-glacial work prior to the Quaternary or Post-tertiary periods.
-
-It appears that explanations so far given, which depend on the
-astronomical theory to account for the ice age, are not in harmony with
-well-known geographical facts. The explainers neglect the attention due
-to the great prevailing winds which since the earlier geological ages
-have, in connection with continents, moved the surface waters of the
-ocean from torrid latitudes to colder zones, and from the colder zones
-to the warmer latitudes.
-
-This exchange of ocean waters between the zones is as old as the
-continents which shape their courses. The important change wrought in
-the ocean currents sufficient to have caused the glacial age which
-ended the early warm epochs was brought about through the action of the
-prevailing winds, which, in connection with the form of continents,
-became able to move the ocean waters from the northern hemisphere into
-the southern sufficient to submerge the low lands of the southern
-hemisphere, causing a great diversion of the tropical currents from
-the high southern latitudes, such as I have pointed out in preceding
-chapters.
-
-Those writers who believe that ocean currents have been the cause of
-great climatic changes have suggested that the existence of an ancient
-channel through the isthmus of Panama would have caused a frigid period
-on lands bordering on the northern shores of the Atlantic by turning
-the head-waters of the Gulf Stream into the Pacific Ocean.
-
-Professor Agassiz thinks that such a channel existed during some remote
-geological age, judging from the semblance of the fauna pertaining to
-the Caribbean Sea and Pacific Ocean.
-
-Yet it may be said that an open channel through Central America would
-have connected two high sea-levels.
-
-For this reason there would be little or no exchange of water between
-the Caribbean Sea and the Pacific Ocean.
-
-The high sea-level on the Pacific side is caused by the prevailing
-north-west winds which blow down the North American coast past
-California as far south as Central America; while, on the other hand,
-the south-east trade winds impel the surface waters of the South
-Pacific along the coast of Peru down to the equator, and so onward 5°
-to 8° north latitude. Thus the space between the ending of the two
-ocean winds obtains a high sea-level, corresponding to the high level
-of the Caribbean Sea. This has been proved from levellings for the
-Nicaragua ship canal.
-
-Consequently, the Atlantic waters would not run into the Pacific Ocean,
-even if a channel opened through Central America.
-
-Therefore, the Gulf Stream has never been turned away from the North
-Atlantic.
-
-Writers, while seeking a cause for the mild climate of ages preceding
-the glacial epochs, have thought that during such times channels
-opening through Asia from the Indian Ocean by the way of the Persian
-Gulf into the arctic seas would be the means of furnishing the Arctic
-Ocean with warm water. But it is evident that such a movement of water
-could not be brought about, because the winds would not be favorable
-for it. For, when we reflect that the prevailing winds would blow in
-the same direction as now, and that the seas of Eastern Europe and
-Western Asia were enlarged during the warm epochs, it seems that they
-would obtain high levels superior to the high level seas of the Indian
-Ocean.
-
-Besides, we should consider that there is a continuous range of high
-land separating the Persian Gulf from the northern seas, which probably
-existed anterior to the ice age. Still, during later periods, while
-the ice-sheets were being melted from the northern hemisphere and also
-on the ending of the last ice age, the Isthmus of Suez was submerged,
-as were all other low lands in that latitude; but it is probable that
-the waters of the high sea-level of the Indian Ocean abreast tropical
-Africa did not flow largely into the Mediterranean Sea for the reason
-that the enlarged European seas, being within the westerly wind-belt,
-maintained a high sea-level, while at the same time the high level
-tropical Indian Ocean waters were strongly attracted into the southern
-oceans through the Mozambique and Agulhas currents in the manner I
-have previously explained. Yet the waters of the high sea-level of the
-southern European seas must have been strongly attracted to the low
-sea-level abreast the Canary Islands.
-
-While considering the causes which brought about the glacial periods,
-it is well to reflect that the natural mode of action which could have
-produced a frigid age was as extensive as the surface of the globe;
-and, therefore, any geographical change that would affect only a
-comparatively small portion of the earth cannot serve to account for
-ages of warmth which extended over the globe, or for glacial epochs
-which were separated by warm periods of time, which seem to have
-affected all lands and seas.
-
-And it appears from the geographical explanations given in preceding
-pages of the general movements of the winds and currents of the sea how
-impossible it is for heat to be conveyed to the antarctic latitudes
-sufficient to prevent the growth of glaciers on their lands while the
-Cape Horn channel is in possession of its present capacity.
-
-For, as has been shown, this channel furnishes opportunity for the
-westerly winds to impel the surface waters of the great southern ocean
-constantly around the globe, and so largely turns away the tropical
-currents from the high southern latitudes.
-
-Consequently, there seems to be no method yet devised through nature’s
-mode of action that can carry sufficient heat into the antarctic
-latitudes to melt the ice-sheets from the southern continent, or even
-arrest their growth, while the Cape Horn channel maintains its present
-width and depth.
-
-Therefore, the increase of glaciers and icebergs will slowly continue
-until a glacial epoch is perfected.
-
-And it seems that this arrangement for bringing about a frigid age
-made slower progress in its early stage than at this date, owing to
-there having been a lack of glacial ice in the polar regions to produce
-icebergs for cooling the ocean waters. But the independent circulation
-of the great southern ocean, after turning away the tropical currents
-from the high southern latitudes for thousands of years, did at length
-cause glaciers to form on the antarctic lands, which have been slowly,
-but constantly increasing; and, consequently, the cooling of the ocean
-has been accelerated proportionate to the increase of ice-sheets.
-Therefore, with the cooling process so well advanced as it now appears
-to be, it seems that more than half of the time required to bring a
-frigid age to perfection has been expended since ice-sheets began to
-gather on the antarctic shores. For, when we realise how the facilities
-for making ice have advanced through the increase of glaciers in both
-hemispheres, and how large a portion of the ocean waters have been
-cooled below a temperate or tropical temperature even in the torrid
-latitudes where the warm upper waters of the ocean have been reduced
-to a comparatively thin stratum when compared to the vast bulk of the
-cooled under-waters, it appears that the cold will increase at a faster
-rate for the next thousand years than was the case during the last ten
-centuries. Therefore, the climate will be less favorable for plants and
-animals existing on lands in the high latitudes for the next thousand
-years than during the ten centuries preceding; and, when we take into
-consideration the accelerative growth of a frigid epoch, it seems that
-the increasing cold will in a few thousand years drive the greater
-portion of both plants and animals from the now temperate latitudes to
-maintain an existence in the tropical zone, where a large part of the
-existing species of such life must have taken refuge during the last
-ice period.
-
-And, from what can be learned from the relics of man’s prehistoric
-life, it seems to point to the lands of the tropical latitudes as
-having been his home during the frigid ages; and, because of his long
-undisturbed residence in favored portions of the tropics, he there
-attained his earliest civilization. For it appears that the tropical
-zone was not only less burdened with ice in glacial times than the
-higher latitudes of the globe, but was also more exempt from the
-great flooding of lands which obtained in the more northern latitudes
-through the shifting of the ocean waters, from causes set forth in the
-preceding pages. Yet it may be said that the low lands of the tropical
-zone south of the equator during cold epochs were much more extensive
-than at this age, on account of the shrinkage of the sea, because of
-the great amount of water evaporated from its surface, and stored in
-ice-sheets on the great continents and islands. Hence the reefs and
-shallows which surround such tropical islands as include the Seychelles
-Archipelago, and also the extensive banks covered with shoal water
-in that portion of the Indian Ocean, were during the glacial period
-elevated above the surface of the sea, possessing a climate favorable
-for vegetable and animal life. But, owing to the great rain-fall of
-that region, it is probable that the highest lands were glaciated,
-as it is reported that granite bowlders still rest on the mountain
-slopes of the highest island. The numerous islands and shoals of the
-south-western tropical Pacific must also have afforded wide land areas,
-with a temperate climate, owing to their having been situated on one of
-the warmest regions of the earth during the ice age.
-
-Moreover, it is probable that these tropical lands afforded space for
-numerous lagoons which had little connection with the surrounding
-oceans, and consequently were able to maintain, in their secluded
-shallow basins, a warmer temperature than obtained in the open seas;
-and at the same time, owing to the great rainfall in such tropical
-portions of the Indian and Pacific regions, the waters of the lagoons
-were rendered less salt than the briny depths of the shrunken oceans
-of a cold period. Hence because of such conditions the fauna of the
-tropical seas were preserved from the destructive rigor which beset the
-earth during the frigid epochs.
-
-
-
-
-Transcriber’s Notes
-
-
-Punctuation, hyphenation, and spelling were made consistent when a
-predominant preference was found in the original book; otherwise they
-were not changed.
-
-Simple typographical errors were corrected; unbalanced quotation
-marks were remedied when the change was obvious, and otherwise left
-unbalanced.
-
-
-
-
-
-End of the Project Gutenberg EBook of The Coming Ice Age, by C. A. M. Taber
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-<pre>
-
-The Project Gutenberg EBook of The Coming Ice Age, by C. A. M. Taber
-
-This eBook is for the use of anyone anywhere in the United States and most
-other parts of the world at no cost and with almost no restrictions
-whatsoever. You may copy it, give it away or re-use it under the terms of
-the Project Gutenberg License included with this eBook or online at
-www.gutenberg.org. If you are not located in the United States, you'll have
-to check the laws of the country where you are located before using this ebook.
-
-Title: The Coming Ice Age
-
-Author: C. A. M. Taber
-
-Release Date: August 29, 2019 [EBook #60195]
-
-Language: English
-
-Character set encoding: UTF-8
-
-*** START OF THIS PROJECT GUTENBERG EBOOK THE COMING ICE AGE ***
-
-
-
-
-Produced by Tim Lindell, Charlie Howard, and the Online
-Distributed Proofreading Team at http://www.pgdp.net (This
-file was produced from images generously made available
-by The Internet Archive/American Libraries.)
-
-
-
-
-
-
-</pre>
-
-
-<div id="map1" class="figcenter" style="max-width: 50em;">
- <img src="images/map1.png" width="800" height="1145" alt="Map 1" />
- <div class="caption">No. 1.<br />
- <p class="small">THIS MAP SHOWS THE SPREAD OF GLACIERS AND ICEBERGS, AND THE EXTENSION
- OF SOUTHERN LANDS DURING ICE AGE AND ALSO THE DIRECTION OF WINDS AND
- OCEAN CURRENTS.</p>
- </div>
-</div>
-
-<div id="map2" class="figcenter" style="max-width: 50em;">
- <img src="images/map2.png" width="800" height="1158" alt="Map 2" />
- <div class="caption">No. 2.<br />
- <p class="small">THIS MAP SHOWS THE SPREAD OF GLACIERS AND ICEBERGS AND THE DIRECTION
- OF WINDS AND CURRENTS AT THIS DATE.</p>
- </div>
-</div>
-
-<hr />
-
-<h1><span class="xxsmall">THE</span><br />
-
-<span class="smcap">Coming Ice Age</span>.</h1>
-
-<p class="p2 center vspace">BY<br />
-<span class="larger wspace">C. A. M. TABER.</span></p>
-
-<p class="p2 center vspace wspace">BOSTON:<br />
-<span class="smcap">Geo. H. Ellis, 141 Franklin Street</span>.
-<span class="smaller">1896.</span>
-</p>
-
-<hr />
-
-<p class="newpage p4 center small">
-<span class="smcap">Copyright, 1896.<br />
-By C. A. M. Taber.</span></p>
-
-<p class="p4 center xsmall"><span class="bt">GEO. H. ELLIS, PRINTER, 141 FRANKLIN STREET, BOSTON.</span>
-</p>
-
-<hr />
-
-<p><span class="pagenum" id="Page_3">3</span></p>
-
-<div class="chapter">
-<h2 id="PREFACE">PREFACE.</h2>
-</div>
-
-<p><span class="firstword">The</span> explanations given in the following pages, in which I
-have sought to show the manner in which an ice age is being
-brought about, is an extension of a treatise on “The Cause of
-Warm and Frigid Periods,” which I published in a small
-edition in 1894. And, from the small number of copies circulated,
-only a few came to the hands of persons particularly
-interested in such matter. Yet there were instances of its
-having proved of special interest to persons celebrated for their
-geological attainments, and also to instructors in physical geography.
-Besides, it received considerate notice in some of the
-leading reviews. Being thus somewhat encouraged, and thinking
-that the subject was too important to be neglected, I have
-given it further study during the last year, and meanwhile
-have obtained additional information from recent discoveries
-which has served to corroborate my views. Hence I have been
-able to be more explicit in my explanations in the present volume
-than in my earlier writings. Still, while acting as a pioneer
-in the matter, it will be seen that I have only attempted to
-expose the main outlines, as my age and failing health will not
-permit me to enter into the voluminous details necessary for
-a full explanation. In order to show why my attention has
-been turned to the great climatic changes which have taken
-place during past ages, and now threaten the future, I will repeat
-the introduction of my earlier publication, wherein I
-wrote that “the reason why I have undertaken to explain the
-causes which have brought about the warm and cold epochs is
-because of my being unable to harmonize the several theories<span class="pagenum" id="Page_4">4</span>
-that have been published with the general mode of action
-which nature pursues to-day. Having in the early part of my
-life been employed for a score of years in the whaling service,
-during which time my sea voyages were passed in cruising over
-the North and South Atlantic, and over the Indian Ocean,
-from latitudes north of the equator to the southern shores of
-Kerguelen Land, and along the seas of Southern Australia, I
-also, in my searching, cruised over the Pacific Ocean from the
-icy seas south of Cape Horn to the northern latitudes of
-Alaska, and, from New Zealand in the Western Pacific to the
-numerous islands in the tropical zone. And it may be said
-that among the chief things to be learned on such voyages
-was the direction of the prevailing winds and surface currents
-of the sea. Thus the impressions then received were in mind
-when, in after years, I had my attention drawn to the several
-theories advanced for explaining the causes which produced
-the warm and frigid epochs. But, so far as my marine experience
-goes, such theories have not harmonized with nature’s
-mode of operating at this age of the world. Therefore, I have
-conceived views which, to my mind, are more agreeable to the
-simple operations of nature of which I have long been witness.
-Consequently, I have written several short essays on climatic
-changes since 1880, and also letters relating to the same subject,
-which have been published in <cite>Science</cite> and <cite class="smcap">Scientific American</cite>.
-But the space allowed for the introduction of such
-matter was necessarily too limited for so wide an explanation
-as the subject required. The views then advanced I have
-again repeated, with the addition of several facts pertaining to
-physical geography, which, so far as I know, have never before
-been published.”</p>
-
-<p class="in0 in1">
-<span class="smcap">Wakefield, Mass., U.S.A.</span><br />
-<span class="in3">June, 1896.</span></p>
-
-<hr />
-
-<p><span class="pagenum" id="Page_5">5</span></p>
-
-<div class="chapter">
-<h2 id="CONTENTS">CONTENTS.</h2>
-</div>
-
-<table id="toc" summary="Contents">
- <tr>
- <td class="tdc chap" colspan="2"><a href="#CHAPTER_I">CHAPTER I</a>.</td></tr>
- <tr class="small">
- <td> </td>
- <td class="tdr" style="width: 5em;">PAGE</td></tr>
- <tr class="bpad">
- <td class="chapsub"><span class="smcap">Cause of cold and mild periods</span>,</td>
- <td class="tdr"><a href="#CHAPTER_I">9–36</a></td></tr>
- <tr>
- <td class="tdl">Traces of ancient glaciers in temperate zones, 9; prevailing winds the main cause of the circulation of the ocean waters between the tropical and temperate zones, 10; general direction of prevailing winds, and how, in connection with continents, they circulate the surface waters of the sea, 11; high and low sea-levels; separation of antarctic lands from South America, 12; Captain Larsen’s discoveries in antarctic regions, 13; how low lands south of Cape Horn were submerged, 13; how the winds move more surface water southward than northward, 14; Dr. Croll’s views on winds and ocean currents, 16; under-currents of the ocean, and how caused, 16; Gulf Stream currents, 17; antarctic under-currents, 18; why the winds were able to force more of the ocean waters southward than northward at the close of the Tertiary age, 19; Mr. Alfred R. Wallace’s views on Tertiary seas, 20; how the Cape Horn channel affects the ocean currents, 21; cause of the increase of cold in southern latitudes, 22; how the Cape Horn channel is closed during ice age, and its effect on ocean currents and temperature of southern latitudes, 24; the melting of glaciers from southern lands, 27; a salt sea requisite for circulation during ice age, 28; direction of surface currents in southern seas, 29; Humboldt current, 30; Agulhas current, 32; temperature of arctic ice, 34; movement of southern icebergs, 35; glaciers south of Cape Horn, 36.</td></tr>
- <tr>
- <td class="tdl"><span class="pagenum" id="Page_6">6</span></td></tr>
- <tr>
- <td class="tdc chap" colspan="2"><a href="#CHAPTER_II">CHAPTER II</a>.</td></tr>
- <tr class="bpad">
- <td class="chapsub"><span class="smcap">How ice periods in the northern hemisphere are brought about</span>,</td>
- <td class="tdr"><a href="#CHAPTER_II">37–54</a></td></tr>
- <tr>
- <td class="tdl">Northern seas during Tertiary age, 37; Gulf Stream during Tertiary times, 38; the origin of a cold period in the northern hemisphere, 38; remarks on Gulf Stream and arctic currents, 39; circulation of arctic waters, 40; arctic channels during ice age, 41; how the weight of glaciers in the northern hemisphere attracts the waters of the southern seas during ice age, 42; Professor Prestwich on the submergence of European lands, 43; the great Atlantic tide rips the head-waters of the Gulf Stream, 44; high sea-level of Atlantic calm region, 45; tropical Atlantic currents, 46; Sargasso Sea, 48; arctic and Gulf Stream currents, 49; Pacific Ocean currents, 50; slow growth of an ice period, 52; reduction of Cape Horn channel, 53; permanence of antarctic glaciers elevated above the snow-line during mild periods, 54.</td></tr>
- <tr>
- <td class="tdc chap" colspan="2"><a href="#CHAPTER_III">CHAPTER III</a>.</td></tr>
- <tr class="bpad">
- <td class="chapsub"><span class="smcap">Spread of glaciers during cold epochs</span>,</td>
- <td class="tdr"><a href="#CHAPTER_III">54–61</a></td></tr>
- <tr>
- <td class="tdl">Spread of glaciers in tropical zone, 54; Professor Agassiz on the origin of Galapagos Islands, 55; the bowlders of Hood’s Island and rookery of Albatross, 56; alpine flora of Galapagos and tropical America, 57; Mr. J. Crawford on ancient glaciers in Nicaragua, 58; Cuba and Republic of Colombia during ice age, 58; destruction of animal life during glacial age, 59; temperature of North Atlantic and Mediterranean Sea during ice age, 60; temperature of ocean during warm epochs, 61; generative age ascribed to warm eras; Professor Wright on pre-glacial man, 61.</td></tr>
- <tr>
- <td class="tdc chap" colspan="2"><a href="#CHAPTER_IV">CHAPTER IV</a>.</td></tr>
- <tr class="bpad">
- <td class="chapsub"><span class="smcap">The glaciers of the temperate zone</span>,</td>
- <td class="tdr"><a href="#CHAPTER_IV">62–75</a></td></tr>
- <tr>
- <td class="tdl">Professor Hitchcock on the early history of North America, 62; glacial deposits of Nantucket and Martha’s Vineyard, 63; Professor James Geikie on the glacial deposits of Northern Italy, 64; California coast ranges the work of Sierra glaciers,<span class="pagenum" id="Page_7">7</span> 65; ancient glaciers on the Pacific slope north of California, 67; Professor Geikie’s views on the ancient glaciers in the Salt Lake region, 68; Colorado Cañon, 69; the conglomerate deposits in the Appalachian district, 69; remarks on the glacial boundaries in United States during ice age, 70; sands of Florida, 71; ancient ice-sheets of the plains west of the Mississippi River, 73; the driftless region of Wisconsin, 74; tropical waters of North Atlantic chilled during ice age, 75; the drifted snow of British America and Siberia during ice age, 75.</td></tr>
- <tr>
- <td class="tdc chap" colspan="2"><a href="#CHAPTER_V">CHAPTER V</a>.</td></tr>
- <tr class="bpad">
- <td class="chapsub"><span class="smcap">Remarks on theories advanced for explaining ice periods</span>,</td>
- <td class="tdr"><a href="#CHAPTER_V">76–93</a></td></tr>
- <tr>
- <td class="tdl">Professor Geikie on supposed causes of the glacial period, 76; change in the relative level of the land and sea during glacial and post-glacial times, 77; submergence of northern lands at close of ice age, 78; the main cause of the movement of water from the northern seas at the close of glacial age, 79; why the earth-movement hypothesis should be rejected, 79; glaciers of Europe and Alaska, 80; North Pacific currents, 81; why the Pacific waters are growing cool, 82; the lowering temperature of the northern seas, 83; the increase of cold in Europe and Asia, 84; falling temperature of the Andean region, 85; General Drayson’s astronomical discoveries for explaining the cause of ice periods, 87; why the Gulf Stream was always confined to the North Atlantic, 89; the improbability of the Indian Ocean currents entering the arctic seas, 90; why the increase of glaciers must continue while the Cape Horn channel maintains its present capacity, 91; comments on the coming ice age, 92; tropical zone the abode of man during ice age, 93; preservation of the tropical ocean fauna through the glacial period, 93.</td></tr>
-</table>
-
-<hr />
-
-<p><span class="pagenum" id="Page_9">9</span></p>
-
-<div class="chapter">
-<h2 id="CHAPTER_I" class="vspace">CHAPTER I.<br />
-
-<span class="subhead">CAUSE OF COLD AND MILD PERIODS.</span></h2>
-</div>
-
-<p><span class="firstword">It</span> is now generally conceded by those who have given the
-subject much attention that the greater portion of North America
-above the latitude of 39° north to the shores of the Arctic
-Ocean has been furrowed and scoured by the action of ice.</p>
-
-<p>Vast traces of ancient glaciers are also found in Europe; for
-it is reported that ice-sheets have left unmistakable marks of
-having overrun the greater part of the lands lying between the
-arctic seas and the latitude of the Pyrenees.</p>
-
-<p>In Asia evidences of glacial action have been noticed from
-Northern Siberia to the mountains of Syria.</p>
-
-<p>The great glaciers of Himalaya have in times past attained
-gigantic proportions. In Northern China huge bowlders are
-found scattered over the valleys, and a long distance from the
-mountains.</p>
-
-<p>The southern hemisphere, in proportion to the extent of its
-land surface, shows ample traces of former ice action. From
-the latitude of 38° south to the southern extremity of the
-western continent there is said to be the clearest evidence of
-former glacial action in numerous bowlders scattered over the
-land.</p>
-
-<p>On the shores of the South Pacific, from the Island of Chiloe
-to Cape Horn, the coast is fringed with deep fiords, which
-appear to be channelled out by ice, like the fiords of Norway
-and Greenland. And at this date the mountains of that
-southern region are covered with snow, and the glaciers which
-flow down the valleys are said to reach the tide-water as far
-north as the latitude of 47° south. The glaciers of New Zealand,<span class="pagenum" id="Page_10">10</span>
-now of Alpine proportions, during the ice age descended
-to the sea, and channelled the deep fiords on its south-western
-coast; and certain traces of glacial action have been observed
-in Southern Australia, and also in the province of Natal, South
-Africa.</p>
-
-<p>Kerguelen Land is pierced with deep, narrow fiords, which
-have the appearance of having been the work of ancient
-glaciers.</p>
-
-<p>The lands south of the antarctic circle are to-day supposed to
-be covered by an ice-sheet, of which the great ice barrier surrounding
-that region furnishes ample proof.</p>
-
-<p>While impressed with the above reports of the work of
-ancient glaciers, in connection with my own observations along
-the shores of the several oceans, I have been led to seek for the
-physical causes which brought about the great climatic changes
-of past geological ages. And, while having the subject under
-consideration, I have had my attention directed to the manner
-in which the great prevailing winds in connection with continental
-lands are able to move the heated surface waters of the
-tropical oceans into the colder zones, and also transfer the cold
-waters of the higher latitudes into the tropical zones.</p>
-
-<p>And it is through this grand movement of the ocean waters
-that we are enabled to account for the difference in the temperature
-of places now lying in the same parallels of latitude.</p>
-
-<p>The natural methods for conveying tropical heat into the
-higher latitudes, and also for excluding it therefrom, are so
-simple and efficient that on due consideration we are able to
-conceive how epochs possessing mild climates have been succeeded
-by periods of frigidity.</p>
-
-<p>It has been admitted by several writers on climatic changes
-that, should the tropical surface waters of the ocean be moved
-into the high latitudes in large volume, thus adding their
-warmth to the heat imparted by the sun, such combined heat
-would cause a mild climate. And it has been estimated that
-the amount of equatorial heat moved into the temperate and<span class="pagenum" id="Page_11">11</span>
-polar regions of the northern hemisphere by the Gulf Stream
-alone is equal to one-fourth of all the heat received from the
-sun by the North Atlantic from the tropic of Cancer to the
-arctic circle. Still, it appears to me, while viewing the subject
-from a marine standpoint, that the explainers of climatic
-changes have never fully comprehended the manner in which
-the surface waters of the ocean are moved from the tropics into
-the high latitudes, and returned from the high latitudes to the
-tropics. Consequently, they have neglected necessary and efficient
-natural agents in their explanatory theories, and with
-much learning and ingenuity have laboriously sought to show
-how great changes of climate could be brought about through
-other causes.</p>
-
-<p>But when we notice the simple methods employed by nature
-to-day for transferring the heat of the tropics into the higher
-latitudes, and also the manner of excluding such heat therefrom,
-they appear to afford an explanation for the great
-changes of climate which have taken place during past ages;
-for it appears that the natural manner of proceeding by which
-heat is moved from the torrid zone into the high latitudes
-sufficient to cause a mild climate is through the ocean currents
-which are constantly set in motion by the great prevailing
-winds of the globe. These winds, as is well known, blow
-mostly from the east toward the west in the tropics, and from
-the west toward the east in the high latitudes.</p>
-
-<p>This counter-movement of the winds, in connection with a
-continent extending both northward and southward from the
-equator over many degrees of latitude, such as obtains on the
-western continent, is abundantly able to create extensive depressions
-and elevations on the ocean’s surface, and thus cause
-vast streams of water to move by gravity from the high sea-levels
-to the low sea-levels; and in this way the tropical waters
-have been moved during past ages, and to a considerable extent
-are now moved far into the northern and southern seas.</p>
-
-<p>This transfer of the ocean waters is the main cause of a temperate<span class="pagenum" id="Page_12">12</span>
-climate being enjoyed by countries situated in the high
-latitudes at this age.</p>
-
-<p>But, in order that the tropical currents should be able to flow
-into the high latitudes, in quantities sufficient to cause all lands
-and seas situated in such latitudes to enjoy a mild climate, it
-would be necessary that the land should extend unbroken, or
-nearly so, from the arctic to the antarctic circles. Thus, with
-a continent of such vast extent, the westerly winds would blow
-the surface waters of the ocean away from the eastern shores
-in the high latitudes, and so cause extensive low sea-levels;
-while the easterly winds of the torrid zone would heap the
-surface waters of the ocean against the eastern tropical shores
-of the continent. Consequently, the warm waters of the tropical
-high sea-level would be moved by gravity to the low sea-levels
-of the high latitudes, even to the arctic and antarctic
-regions, and thus afford them a mild climate. In this way we
-account for the mild climate enjoyed on lands and seas within
-the high latitudes during the warm epochs anterior to the
-glacial periods.</p>
-
-<p>As the western continent is the only land that extends unbroken
-from the equator to the cold latitudes of both hemispheres,
-thus affording an opportunity for the prevailing winds
-to move the tropical waters into the high latitudes, I will call
-attention to that portion of the continent which extends far
-southward into the southern ocean, where the winds and ocean
-currents have the greatest range and power to affect the climate
-on different parts of the globe. Here we see South
-America separated from the antarctic continent by a wide
-channel of deep water, where the westerly winds blow with
-great force. The space now covered by this interesting channel,
-owing to its being situated in the high southern latitudes,
-must have been occupied by a channel of comparatively small
-capacity, or else an isthmus of low land uniting the southern
-portion of South America with the antarctic continent during
-the warm epochs when the beds of the ancient seas of the<span class="pagenum" id="Page_13">13</span>
-northern hemisphere contained a considerable portion of the
-water now swelling the southern ocean.</p>
-
-<p>Therefore, the obstructions which separated the Pacific
-Ocean from the South Atlantic furnished opportunity for the
-westerly winds to force the surface waters of the sea away
-from the leeward side of such obstructions, causing a vast low
-sea-level, sufficient to attract the tropical waters heaped against
-Brazil by the trade winds into the southern seas in adequate
-quantity to cause a mild climate throughout the antarctic
-regions through long periods of time.</p>
-
-<p>Recent discoveries have proved that these high southern latitudes
-have been subject to great changes of climate. According
-to the reports from the Dundee whalers, while searching
-for seal in the icy seas that surround the South Shetlands, they
-met with the Norwegian ship “Jason,” Captain Larsen, who
-had traced the eastern shore of Graham Land to 68° south latitude,
-noting two active volcanoes.</p>
-
-<p>The same mariner brought from Seymour Island fossil
-shells and coniferous wood of the Tertiary epoch.</p>
-
-<p>These furnish sufficient evidence to show that a warmer
-climate once prevailed there.</p>
-
-<p>At the commencement of the glacial age the obstructions
-which separated the South Pacific from the South Atlantic had
-become deeply submerged by the sea, which may have been
-caused by a tendency of the ocean’s waters to move southward
-or by a comparative small movement in the earth’s crust. But,
-on account of the stability of the crust of the earth during
-times so late as the glacial epochs, the submergence of this
-southern region was probably owing to the movement of the
-ocean’s waters from the northern hemisphere into the southern
-hemisphere, which appears to have been brought about mostly
-through the agency of the great prevailing winds; for it seems
-to have happened that the prevailing winds on account of the
-disposition of the lands and seas were able to move more of the
-ocean waters southward than they moved northward during<span class="pagenum" id="Page_14">14</span>
-the age preceding the glacial periods. The waters thus slowly
-and gradually forced into the high southern latitudes must
-have deprived the northern hemisphere of their heaviness, and
-added their weight to the southern hemisphere. Therefore,
-the waters moved southward could not all be returned to the
-seas of the northern hemisphere by gravity, for the reason that
-the earth’s centre of attraction would change in accordance
-with the weight of water moved from the northern hemisphere
-into the southern. It will thus be seen that, while the northern
-seas were drained or became shallow, the augmented southern
-oceans deeply submerged the region south of Cape Horn,
-thus widely separating the western continent from the antarctic
-lands.</p>
-
-<p>Although the south-east trade winds on the eastern sides of
-the Atlantic and Pacific Oceans extend further northward than
-the north-east trade winds extend southward, owing to the
-heated tropical shores north of the equator being more extensive
-than such lands south of the equator, still, on account of
-the general weakness of the south-east trade winds at the equator,
-and also because of the obstructing northern lands, they
-have during remote times, and at this age, been largely prevented
-from impelling the surface waters of the sea into the
-northern latitudes in opposition to the brisk north-east trades.
-Furthermore, on account of the widening of the oceans as they
-extend southward, the surface currents setting in the latter
-direction have more broad and easy passages than the great
-currents setting northward.</p>
-
-<p>Moreover, the great currents setting southward on the western
-sides of the oceans south of the equator are also much
-assisted during the southern summer months by the strong
-north-east monsoons which prevail along the east coast of
-equatorial Africa and the east coast of South America as far
-as the latitude of 30° south.</p>
-
-<p>The South African current is impelled northward by the
-trade winds down the south-western coast of Africa; but it is<span class="pagenum" id="Page_15">15</span>
-debarred from entering the northern latitudes by the Guinea
-currents, and so turned away into the south equatorial current
-which flows into the Brazilian stream.</p>
-
-<p>The Gulf Stream is much obstructed in its northern
-movement by the narrow Florida channel and the opposing
-arctic currents, and also by the trend of the North American
-coast eastward; while its return current on the eastern side
-of the Atlantic has a much less obstructed passage in its southern
-movement, and, while on its way past the Azores and
-Madeira Islands, is largely assisted by the prevailing winds.</p>
-
-<p>The Brazil current, with the impelling force of a strong
-north-east monsoon during the summer season, has no obstruction
-whatever in its southern passage until it meets with an offshoot
-from the great drift current of the southern ocean.</p>
-
-<p>And the same favorable conditions are obtained by the great
-currents setting southward on the western sides of the South
-Pacific while on their way to the low sea-levels east of Southern
-Australia and New Zealand. That portion of the equatorial
-stream of the Pacific which continues west across the Indian
-Ocean finds no open passage to the northern seas. Consequently,
-it turns south along the east coast of Africa into the
-southern seas.</p>
-
-<p>Therefore, this current, in connection with the great currents
-setting southward east of Australia, offsets the great Humboldt
-current setting north along the coast of Peru.</p>
-
-<p>In the North Pacific the Japanese current setting northward
-is obstructed by the narrowing of the ocean; while its return
-current on the American side has a constantly widening ocean
-on its passage southward, and also favorable winds to impel the
-surface waters toward the equator. Still, with all the facilities
-above mentioned for the movement of the ocean waters into the
-southern latitudes, it is probable that since the shallow seas of
-the northern hemisphere were drained, or much diminished,
-the prevailing winds have not possessed sufficient force to
-further augment the southern seas, because of the superior<span class="pagenum" id="Page_16">16</span>
-weight of the land in the northern hemisphere compared with
-the lands south of the equator.</p>
-
-<p>It will appear to those who attribute the rotation of the
-earth as being the main cause of ocean currents that I am too
-much given over to the wind theory. But I have reason to
-believe, as Dr. Croll has asserted, that “the winds are the
-principal cause of the ocean currents, and are not due to the
-trade winds alone, but to the general impulse of the prevailing
-winds of the globe.”</p>
-
-<p>Dr. Croll also declares that “all of the principal currents of
-the globe are moving in the exact direction which they ought
-to move, assuming the winds to be the sole impelling cause.”</p>
-
-<p>Those who think that the rotation of the earth is the real
-cause of the movement of the great surface currents of the sea
-should explain in some reasonable way why the Agulhas current
-turns west into the Atlantic from the Mozambique stream,
-and why the Guinea current turns to the east from the main
-tropical current of the North Atlantic; for it seems that these
-two great currents move in direct opposition to the rotation
-theory, while at the same time many things go to show that
-they receive their motion from the winds. This view of the
-question will receive further attention in succeeding pages.</p>
-
-<p>It is the opinion of some writers that a difference of temperature
-and density between the waters of the polar latitudes
-and the torrid zone is the principal cause of the movement of
-the surface waters of the ocean from the equatorial latitudes
-toward the polar seas, and so returned in under-currents; and
-this is a favorable factor for assisting the winds on some parts of
-the sea, especially in aiding the Brazil current in moving the
-surface waters from the high sea-levels abreast Brazil, and the
-equatorial calm belt of the Atlantic into the southern ocean,
-and also for favoring the surface currents setting southward on
-the western sides of the South Pacific and Indian Oceans.</p>
-
-<p>Yet, whatever gravitating force it may possess for assisting
-the above-named currents, it would also act against the impelling<span class="pagenum" id="Page_17">17</span>
-force of the trade winds, while they were drifting the surface
-waters northward toward the equator on the eastern sides
-of the several oceans, and also to retard the returning surface
-currents, while being drifted by the winds southward on the
-eastern sides of the North Atlantic and North Pacific. Therefore,
-while it would seem to favor the winds in their work on
-the one hand, it would act as an opposing agent on other parts
-of the ocean. Still, the difference of temperature between the
-tropical and antarctic seas probably does act in opposition to
-the wide and brisk trade winds on the eastern sides of the great
-oceans south of the equator, and so prevents their impelling
-the surface waters northward to a great extent; and this seems
-to be one great cause of there being less surface water moved
-northward than southward over the greatest oceans of the
-globe.</p>
-
-<p>The theory that the difference of density caused by the difference
-of temperature between the polar seas and the equatorial
-oceans made under-currents to flow from the polar latitudes,
-and meet in the equatorial seas, can only be carried on
-in the Atlantic Ocean, and in a comparatively less perfect way
-in the Pacific Ocean, and not at all in the Indian Ocean.</p>
-
-<p>The North Atlantic being open to the Arctic Ocean, a portion
-of the Gulf Stream waters that enter it from the north-west
-of Europe do sink and return southward in under-currents;
-and the cold waters which pass down the east and west
-coast of Greenland also sink under the Gulf Stream while on
-their southern movement. The meeting of these arctic currents
-with the cold under-currents from the antarctic seas in the
-tropical zone is probably one cause of their cold waters rising
-near the surface of the sea in the torrid latitudes of the Atlantic;
-and the same conditions probably obtain in a somewhat
-less degree in the Pacific Ocean.</p>
-
-<p>Yet it appears that the cold waters of the Antarctic occupy
-the largest space in the tropical zone, even in the North Atlantic.
-Dr. Carpenter, in his lectures on Ocean Currents, speaks of<span class="pagenum" id="Page_18">18</span>
-meeting with antarctic water so far north as the latitudes of the
-West India Islands; and he also says that all of the Pacific
-Ocean at its depths is supplied from the Antarctic Ocean, as are
-the cold under-waters of the tropical Indian Ocean, which extend
-over twenty degrees north of the equator.</p>
-
-<p>Thus, from what we can learn of the antarctic under-currents,
-they seem to show that they are not wholly attracted northward
-on account of the difference of temperature between the
-antarctic and the tropical oceans, but partly because of more
-surface water being moved southward by the prevailing winds
-than they are able to move northward.</p>
-
-<p>And it appears that, if through the winds, combined with
-the difference of temperature between the antarctic seas and the
-equatorial waters, and also because of the oceans widening
-toward the south, more surface water is being carried southward
-than northward, the waters of the under-currents so
-caused must rise toward the surface in the latitudes from
-which they were first removed. Having called attention to the
-fact that the prevailing winds are not able at this date to augment
-the southern ocean waters from the scanty northern seas,
-because of the preponderance of northern lands, still there is
-reason to believe that even now, owing to the form of continents
-and oceans, and the attraction of the tropical surface
-waters into the Antarctic Ocean because of the difference of
-density between the warm and cold seas, the prevailing winds
-of this age are able to force more of the surface waters of the
-sea southward than they force northward; but, owing to the
-superior weight of the land in the northern hemisphere, the surplus
-surface water forced into the southern seas is returned by
-gravity after being cooled by the antarctic ice, and so adding to
-the deep under-currents which flow with a sluggish movement
-over the bottom of the sea into the tropical and northern temperate
-latitudes. And in this way the northern oceans are
-maintained at their present sea-level.</p>
-
-<p>The cold under-currents are probably assisted in their<span class="pagenum" id="Page_19">19</span>
-northern movement by whatever difference there may be in the
-density of the antarctic waters over the bottom waters of the
-equatorial seas. But, as such currents extend into the northern
-tropical latitudes of the northern hemisphere, it seems that the
-winds are the main cause of the under-currents which carry so
-much antarctic cold into the northern tropical seas, because the
-winds have forced an undue proportion of ocean surface water
-southward, to be attracted northward in under-currents by the
-preponderating northern lands.</p>
-
-<p>Yet, notwithstanding the superior weight of land in the
-northern hemisphere, it appears that there have been periods
-when there was somewhat more water in the oceans of the
-southern hemisphere than now; for it is reported that a portion
-of the low lands of Australia show traces of having been
-submerged during late geological times.</p>
-
-<p>This may have happened through an increased weight in the
-antarctic glaciers, which have in past ages, and probably may in
-future epochs, cause more of the ocean waters to be attracted
-southward than now obtains. But it is probable that an increase
-of southern ice would be largely counterbalanced by the
-accumulation of ice on northern lands.</p>
-
-<p>Yet it appears certain that since the Tertiary epoch the
-waters of vast shallow seas have been moved from the northern
-hemisphere into the southern. The dry beds of the ancient
-northern seas encourage this opinion, while the comparatively
-small area of southern lands serves to support such views.</p>
-
-<p>Still, during the ages prior to the glacial periods, while the
-low lands of the northern hemisphere were covered by the sea,
-the wide shoal channels which submerged the lower portion of
-North America afforded convenient passages for the surface
-waters of the ocean in their northern movement, and so prevented
-the oceans of the southern hemisphere from gaining
-undue preponderance.</p>
-
-<p>Hence long geological ages passed away before the winds
-were able to force more of the ocean waters southward than they<span class="pagenum" id="Page_20">20</span>
-could move northward, and thus augment the southern ocean
-from the waters of the northern seas. But the slow growth of
-such immense marine deposits in the shallow seas as are found
-in the Florida Peninsula and other portions of that region was
-at length sufficient to greatly obstruct the passage of the Gulf
-currents in their northern movement, and thus cause conditions
-which enabled the winds to force more of the ocean waters
-southward than they could move northward after the close of
-the Tertiary epoch.</p>
-
-<p>Mr. Alfred R. Wallace says in “Island Life” that the seas
-in the northern hemisphere during the Tertiary period covered
-a much larger area than now, and extended across Central
-Europe and portions of Western Asia, and the Arctic Ocean
-was enlarged.</p>
-
-<p>As it is not likely that any portion of the waters of the sea
-have been absorbed by the earth during the late epochs in the
-world’s history, therefore the ocean waters have not diminished
-except during cold periods, when the water evaporated from
-the sea was converted into ice, and, eventually, again returned
-to the sea.</p>
-
-<p>Thus it necessarily follows that, when the seas of the
-northern hemisphere contained a much larger portion of the
-waters of the globe than at this age, the seas of the southern
-hemisphere must have contained proportionally less. Consequently,
-during such times a portion of the shoal seas of the
-high southern latitudes must have been dry land. Therefore,
-this must have been the condition of the shallow sea basins in
-the region of Cape Horn.</p>
-
-<p>Mr. Wallace also says that “many peculiarities in the distribution
-of plants and some groups of animals in the southern
-hemisphere render it almost certain that there has sometimes
-been a greater extension of antarctic lands during Tertiary
-times.”</p>
-
-<p>And he also asserts that the great ocean basins have not
-changed, and that the form of continents has been permanent.<span class="pagenum" id="Page_21">21</span>
-It will thus be seen that it was through the movement of the
-ocean’s waters southward that the low lands south of Cape
-Horn were covered with water previous to the frigid periods,
-and so caused the wide separation between the western continent
-and the antarctic lands.</p>
-
-<p>The Cape Horn channel thus enlarged, the continuous
-mildness of the high southern latitudes which possessed the
-earlier ages came to an end, and gave place to alternate epochs
-of frigid and mild weather. For it appears that it is owing to
-the creation or enlargement of the Cape Horn channel that it is
-possible for frigid periods to be brought about, for the reason
-that its enlarged space of water prevents the westerly winds
-from maintaining a great low sea-level in the higher latitudes
-of the southern ocean; for, whenever the capacity of the Cape
-Horn channel is enlarged, the westerly winds, instead of
-maintaining a low sea-level on the South Atlantic, employ
-their force in impelling the surface water of the southern seas
-around the globe. And this work the strong westerly winds
-of the high southern latitudes have always accomplished whenever
-the Cape Horn channel was widely open, and this is what
-the winds are doing at this date.</p>
-
-<p>Therefore, such waters of the torrid zone as are moved
-southward from their high sea-level, caused by the trade winds
-abreast the Brazilian coast, are largely turned away from the
-high southern latitudes. It is true, even with an enlarged
-Cape Horn channel, they can always flow along the South
-American coast to an inferior low sea-level, caused by the
-westerly winds blowing the surface waters of the sea away
-from the coast of Argentine and Patagonia; but on gaining
-that region they meet the cold ice-bearing currents which turn
-away east of Cape Horn from the great southern drift current
-to gain the same low sea-level which attracts the Brazil water.
-Consequently, the ice-bearing currents from the south, which
-branch off from the great southern drift current, are able to
-largely turn away the warm Brazil current from the higher<span class="pagenum" id="Page_22">22</span>
-southern latitudes; and, furthermore, the great southern drift
-current which passes through the Cape Horn channel, and so
-onward around the globe, also partly turns away the Mozambique
-current as well as the East Australian current, and so
-largely prevents their waters from warming the southern seas.</p>
-
-<p>Therefore, it is evident that, whenever the Cape Horn
-channel obtains sufficient capacity to give an independent
-circulation to the southern ocean, the conditions are favorable
-for the increase of cold in the southern latitudes. For it is
-because of the large exclusion of the tropical waters from the
-southern seas that ice-sheets have been able to form in early
-periods and in later epochs on the antarctic lands, and store
-away the annual frosts for thousands of years, and at the
-same time furnish icebergs sufficient to chill the waters of
-the southern temperate oceans, and consequently make cold
-such of the surface waters of the sea as are forced into the
-southern latitudes by the winds in surface currents, and
-so returned to warmer seas in cold under-currents, and thus
-with such frigid combinations bring about cold periods.</p>
-
-<p>Thus it appears, as I have previously shown, that it is owing
-partly to there being more of the surface waters of the sea
-forced southward by the prevailing winds than they impel
-northward that the cold under-currents are maintained; but it
-also requires an independent circulation of the southern ocean,
-such as I have pointed out, to cool its surface waters before
-they can sink and form cold under-currents.</p>
-
-<p>And there is reason to believe that such cold under-currents
-are more efficient in lowering the temperature of the temperate
-and tropical oceans than even the icebergs which such under-currents
-move into the temperate seas. And, when it is considered
-that the cold antarctic under-currents fill the depths of
-the Pacific and Indian Oceans in the northern hemisphere, and
-also largely the tropical depths of the North Atlantic, I am led
-to believe that the frigid conditions of the ice age were concurrent
-in the northern and southern hemispheres. The main reasons
-for such belief I will explain in the following chapter.</p>
-
-<p><span class="pagenum" id="Page_23">23</span>
-After the foregoing explanations, showing how frigid periods
-are brought about through the independent circulation of the
-southern ocean surface waters, it is evident that, whenever
-through a slow natural process the Cape Horn channel is closed,
-a great change is wrought in the circulation of the southern
-ocean.</p>
-
-<p>For instead of the westerly winds blowing the surface waters
-of the southern seas constantly around the globe, and so turning
-away and preventing the entrance of the tropical currents
-into the high southern latitudes, the strong westerly winds,
-whenever the Cape Horn channel is closed or greatly obstructed,
-would blow the surface waters away from the Atlantic side of
-the closed channel, and so cause a great low sea-level, sufficient
-to attract the ocean waters of the tropical high sea-level abreast
-Brazil well into the southern seas. Therefore, it is important
-to trace nature’s slow methods of closing the wide Cape Horn
-channel at the perfection of an ice age.</p>
-
-<p>In my previous explanations on the subject I have thought
-that, should the southern seas have remained at or near the
-same sea-level as now, through an ice period brought about
-in the manner I have described, ice-sheets would accumulate
-on the antarctic continent, and also on the southern lands of
-South America, sufficient to flow out into the sea and close the
-Cape Horn channel.</p>
-
-<p>But further consideration shows the impossibility of the
-southern seas having maintained their present sea-level during
-the growth of frigid epochs which have left such ample traces
-of glaciers having extended widely over the lands of the high
-latitudes of both the northern and southern hemispheres. For
-it appears that the larger areas of land in the northern latitudes,
-embracing wide continents and large islands, must, during
-the growth of a frigid age, have increased the spread of
-glaciers many times greater in extent than could be obtained
-on the smaller lands of the high latitudes of the southern
-hemisphere.</p>
-
-<p><span class="pagenum" id="Page_24">24</span>
-For it is evident that the water evaporated from the sea and
-deposited in snow on the large continents and islands of the
-high northern latitudes during the growth of an ice period
-would, while thus diminishing the ocean waters, greatly increase
-the weight of northern lands. Therefore, the waters of
-the diminishing seas of the southern latitudes would be attracted
-into the northern oceans in opposition to the prevailing
-winds.</p>
-
-<p>Thus it appears that the Cape Horn channel would be too
-much reduced at the perfection of an ice age to afford an independent
-circulation for the southern ocean, even without
-being filled by glaciers to the extent I have pointed out in previous
-essays. Still, to whatever dimensions the Cape Horn
-channel might be reduced at the perfection of a frigid period,
-the enlarged shores bordering its diminished waters would be
-covered by heavy glaciers that would flow into the shrunken
-strait, and so close it effectually. Thus the reduction of the
-Cape Horn channel during the advance of an ice age seems, on
-close consideration, to be a simple operation of nature, which
-in the normal course of events must have taken place.</p>
-
-<p>As the closing of the Cape Horn channel has been considered
-by reviewers the weak and questionable point in preventing
-my views from gaining acceptance, it becomes necessary to be
-explicit concerning the manner in which the Cape Horn channel
-has in past ages been obstructed.</p>
-
-<p>According to the charts prepared by John James Wild, the
-middle portion of the strait is represented as being over a
-thousand fathoms in depth; but, as far as I know, its true soundings
-have never been determined. The deep portion of the
-mid-channel is described as being narrow when compared with
-its whole breadth from Cape Horn to the antarctic continent.</p>
-
-<p>And, when it is considered, with the growth of an ice age,
-how much of the ocean waters would be stored in the vast
-ice-sheets of the northern hemisphere, and consequently because
-of their weight a large portion of the diminished southern<span class="pagenum" id="Page_25">25</span>
-oceans would be attracted into the northern seas, it seems
-that the bottom of the shoaler waters of the Cape Horn channel,
-which now comprise so large a portion of its breadth,
-would be raised above the surface of the sea.</p>
-
-<p>The one-hundred-fathom depth south of Cape Horn, now
-supposed to extend from longitude 70° west to 55° west, and
-southward to the latitude of 57°, would be a land supporting
-heavy glaciers for six hundred miles along the north side of
-the reduced channel during the advanced growth of a frigid
-age; and the same conditions would be obtained in the vicinity
-of the South Shetland. And when, in addition, we contemplate
-the great snow-fall of that region, and the consequent gathering
-of glaciers which would occur on the widened shores of
-the lessened channel, and the certainty of their flowing into
-the diminished strait, together with the immense icebergs of
-such an age grounding in the shoaled waters, it seems that the
-complete obstruction of the reduced channel would be accomplished.</p>
-
-<p>While contemplating the conditions that would obtain
-while the Cape Horn channel was being reduced, it will be
-seen that the independent circulation of the icy southern ocean
-would be carried on to a considerable extent even after the
-narrowing strait was no longer able to afford space for wide
-drift currents, for the reason of the strong current that would
-be caused on account of the high ocean-level maintained by
-the westerly winds on the Pacific side of the diminishing channel,
-and the great low sea-level that would take place on its
-Atlantic side.</p>
-
-<p>Still, as previously shown, it seems that during an advanced
-stage of the frigid epoch, the heavy glaciers from the enlarged
-northern and southern shores of the shrunken channel, together
-with the ponderous icebergs, blocking its waters, the
-closing process would at last be speedy and effective.</p>
-
-<p>And on further consideration it might be said that a channel
-of much less width and depth would not have been of sufficient<span class="pagenum" id="Page_26">26</span>
-capacity to have caused ice periods so wide-spread as
-those that have left their traces on the continents and islands
-of the globe, for the reason that the independent circulation
-of the southern ocean would not have been sufficiently complete
-and long continued to have brought such world-wide
-cold periods to perfection.</p>
-
-<p>With the Cape Horn channel closed, as above explained,
-there would be, as I have asserted, a great change wrought in
-the circulation of the southern ocean; for instead of the westerly
-winds blowing its surface waters constantly around the
-globe, and so turning away and preventing the entrance of
-tropical currents into the higher latitudes, the strong prevailing
-westerly winds would blow the surface waters of the sea
-from the Atlantic side of the closed Cape Horn channel, and
-so cause a great low sea-level, sufficient to attract the ocean
-waters of the tropical high sea-level abreast Brazil well into the
-southern seas.</p>
-
-<p>The winds of the southern westerly wind-belt being stronger
-in that region than on any other portion of the globe, consequently
-they are able to do nearly as much work while drifting
-surface water as the belt of westerly wind of greater width on
-other parts of the southern seas. Thus a person who has had
-a long experience with the forcible westerly winds of the
-southern ocean can well understand their ability for disturbing
-the ocean waters in the latitudes of the Cape Horn channel.</p>
-
-<p>The drift currents of this region are moved by the winds
-and waves from one to four miles an hour. Therefore, with
-the Cape Horn channel closed, there is nothing more certain
-than that the westerly winds would be able to cause a vast low
-sea-level on the Atlantic side of the closed Cape Horn strait,
-and that the waters of the high tropical sea-level abreast Brazil
-would be attracted to its wide depression, as shown on <a href="#map1" class="locked">map No. 1</a>.</p>
-
-<p>The tropical waters thus attracted far southward would be
-cooler than the tropical waters of to-day, owing to the great<span class="pagenum" id="Page_27">27</span>
-amount of cold imparted to the ocean by the numerous icebergs
-of a frigid age. Still, they would begin the slow process
-of raising the temperature of the southern ocean, and would in
-time carry sufficient heat into the southern regions to melt the
-ice from all southern lands; for, in addition to the Brazil currents,
-the waters of the high sea-level of the tropical Indian
-Ocean which pass southward down the Mozambique channel
-would reach a much higher latitude than during periods when
-the Cape Horn channel was open.</p>
-
-<p>The ice periods of the northern and southern hemispheres
-being concurrent, a condition which I shall explain in another
-chapter, makes it obvious that during the melting of the glaciers
-from the antarctic continent and other southern lands the
-depleted Cape Horn channel could not gain sufficient capacity
-to give an independent circulation to the southern ocean during
-the melting of the southern ice-sheets, on account of the diminishing
-heaviness of the antarctic ice and the greater weight of
-the extensive glaciers and augmented seas of the northern latitudes.
-Consequently, it seems that the southern seas would
-continue in a lessened state while the glaciers were being melted
-from the northern hemisphere, as was the case during the melting
-of the ice from the southern hemisphere; and, furthermore,
-during such times the glaciers which overrun all the low lands
-and shoal waters of the Cape Horn region would, on account of
-their position being to the windward of the tropical currents,
-be the last great mass of ice to melt from the southern hemisphere.</p>
-
-<p>Therefore, it seems that the Cape Horn channel would continue
-closed or greatly obstructed while the glaciers were being
-melted from the lands of both hemispheres. Thus at length a
-mild climate would extend over the globe, and so remain until
-the prevailing winds slowly forced the surface waters of the sea
-into the southern ocean in the manner explained in previous
-pages, thus filling the Cape Horn channel to its present capacity,
-and again restoring the independent circulation of the
-southern ocean.</p>
-
-<p><span class="pagenum" id="Page_28">28</span>
-While contemplating the conditions that would obtain during
-the melting of the ice from the antarctic lands, it will be
-seen that the tropical waters attracted to the great low sea-level
-to the leeward of the closed Cape Horn channel would
-eventually enter the great bight of the antarctic continent to
-the eastward of Graham Land, where Captain Weddell sailed
-to the latitude of 74° south. This deep gulf, owing to its situation,
-would receive the full impact of the southern movement
-of the tropical currents; and, as the warm waters spread over
-the wide sea-level, the westerly winds would convert them into
-a drift current, and under such conditions would be driven
-along the shores of the antarctic continent, past the South
-Indian and Pacific Oceans, and eventually, after undergoing a
-cooling process from the long icy passage, be forced against the
-Pacific side of the closed Cape Horn channel and the western
-Patagonian coast.</p>
-
-<p>While regarding the circulation of the sea during an ice
-age, it may be said that the ocean’s being composed of brine was
-the cause of its waters being able to circulate in frigid latitudes
-where fresh water would congeal. Consequently, this is
-one of the reasons why successive periods of frigidity and mildness
-have been brought about; for with an ocean of fresh
-water, repeated epochs of cold and warmth could not have occurred,
-because a sea composed of fresh water would have congealed
-while circulating in the high latitudes during a frigid
-age. Therefore, it required a sea of brine to maintain a liquid
-state during the low temperature of an ice period.</p>
-
-<p>For, while the cold of a glacial age increased, the saltness of
-the sea increased also, because of the great amount of fresh
-water evaporated from the ocean, and stored in ice-sheets on
-the great continents and islands of the globe. Thus the briny
-sea was maintained in a liquid state, while washing vast ice-fields
-and glaciated shores and floating the numerous icebergs
-of a freezing age. The cold which radiated from such ice-bound
-seas must have been severe; but meanwhile the evaporation<span class="pagenum" id="Page_29">29</span>
-from the ocean was much reduced, while the saltness
-and coldness of the sea increased, and so prevented the ice of a
-glacial period from gaining invincible proportions before the
-independent circulation of the southern ocean was arrested.
-Therefore, the remaining warmth of the tropical waters after
-gaining free access to the antarctic latitudes was able to overcome
-the accumulated cold of that frigid region.</p>
-
-<p>At this date the observant navigators who have visited the
-antarctic seas report that the surface currents above the latitude
-of Cape Horn, while being drifted eastward by the prevailing
-westerly winds, also set toward the antarctic ice cliffs, as
-shown on <a href="#map2" class="locked">map No. 2</a>.</p>
-
-<p>The reason why this southerly set of the surface currents becomes
-noticeable above the latitude of 55° south is because the
-tropical currents which set southward from the torrid latitudes
-on the western sides of the Atlantic, Indian, and Pacific
-Oceans, although largely turned away from the high latitudes
-by the westerly winds and drift currents, are also able to send
-sufficient water into the great belt of westerly winds to furnish
-water for the deep under-currents setting northward from the
-antarctic shores. Thus the surface waters moving from the
-north in order to gain the higher latitudes, after entering the
-westerly wind-belt, are moved in drift currents by the impelling
-winds easterly over many degrees of longitude, and also at
-the same time slowly southward among the cooling icebergs,
-because of the attraction caused by the difference of temperature
-and density between the northern drift waters and the icy
-seas of the antarctic ice barrier. Consequently, the gradual
-movement of the surface waters of the westerly wind-belt
-southward before entering the higher latitudes is not generally
-apparent; for it is after they enter latitudes where the globe
-becomes much reduced in circumference that their southern
-movement in the contracted seas becomes more noticeable.
-The impact of this southerly current, which finds its outlet
-in deep under-currents, and retards somewhat the increase of<span class="pagenum" id="Page_30">30</span>
-ice on the southern continent at this date, also largely prevents
-the small icebergs and field-ice from floating northward, away
-from the antarctic ice barrier; for it is such large icebergs as
-penetrate the deep under-currents that are the best able to
-move into the more temperate latitudes.</p>
-
-<p>From the above explanations it will be seen that the impact
-of surface water against the antarctic ice barrier when the
-Cape Horn channel was closed would greatly assist the tropical
-waters attracted to the great low sea-level to the leeward of
-the obstructed strait to wash the antarctic shores while being
-drifted eastward by the westerly winds over the southern
-ocean against the Patagonian coast and the Pacific side of the
-closed channel, and there causing a high sea-level. This movement
-of the winds and currents encircling the antarctic continent
-is shown on <a href="#map1" class="locked">map No. 1</a>.</p>
-
-<p>The vast, high sea-level caused by the westerly winds drifting
-the surface waters against the Patagonian coast would obtain
-a much higher plain, were it not that so much of the water
-of the great drift current was required to feed the antarctic
-under-current which constantly sets northward from the antarctic
-shores; yet it would be sufficient to greatly increase the
-volume of the Humboldt current, which would flow in the
-same direction it now flows, down the South American coast to
-the equatorial latitudes, where it would become the main
-source of the great equatorial stream, and thus offset the increased
-southward flow of the equatorial waters through the
-Brazil and Mozambique streams.</p>
-
-<p>The equatorial stream, with its increased volume, would also
-move, as it moves to-day, across the Pacific; and, on gaining
-the western side, after sending off large streams to the northern
-and southern latitudes, it would pass through the East
-India passages into the Indian Ocean, where it would be
-drifted westward by the trade winds and cause a high sea-level
-abreast the east coast of Africa, and so become the source of
-the great Mozambique current, which would flow southward<span class="pagenum" id="Page_31">31</span>
-along the east coast of Africa, and, with the Cape Horn channel
-closed, would gain a much higher latitude than it would
-with the channel open. At this age, when the continuation of
-this great equatorial stream gains the latitude of the Cape of
-Good Hope, its waters are largely turned eastward by the great
-drift current of the southern ocean.</p>
-
-<p>Still, a considerable portion of its waters turns toward the
-west, forming the Agulhas current, which flows around the
-Cape of Good Hope into the Atlantic, where it mingles with
-the cooler currents which branch off from the great southern
-drift current; and so, in connection with the latter, it is attracted
-to the low sea-level caused by the south-east trade
-winds abreast the south-western coast of Africa, and from
-thence moved as a drift current by the trade winds to the equatorial
-Atlantic and coast of Brazil. Thus it will be seen that
-the Agulhas current, even with the Cape Horn channel in possession
-of its present wide capacity, serves to retard somewhat
-the advance of a cold period.</p>
-
-<p>The Agulhas current at this date also partly serves to replenish
-the water which is forced from the South Atlantic by
-strong westerly winds into the Southern Indian and Southern
-Pacific Oceans. For it appears that more water is now removed
-by such winds from the South Atlantic than enters it
-from the South Pacific, even through the enlarged Cape Horn
-channel of this date; and this fact seems to favor an impression
-that a portion of this enlarged channel existed prior to
-the glacial periods, but with its waters so much reduced as to
-be unable to give the southern ocean an independent circulation
-sufficient to exclude the tropical currents from reaching
-the high southern latitudes in adequate volume to maintain a
-mild climate in the southern hemisphere.</p>
-
-<p>For previous to the glacial age, with little or no ice gathered
-on the antarctic lands, it seems that a strait possessing one-half
-the capacity of the Cape Horn channel of the present age
-could not prevent the Brazil current and the Agulhas stream<span class="pagenum" id="Page_32">32</span>
-from flowing into the southern ocean in quantities sufficient to
-make it impossible for glaciers to form on southern lands.</p>
-
-<p>Thus it is probable that a reduced channel separated the
-western continent from the antarctic lands even in the mild
-eras previous to the glacial epochs.</p>
-
-<p>The Cape Horn channel, at the present age, with a capacity
-sufficient to largely maintain an independent circulation for the
-southern ocean, is still only one-third of the breadth of the
-westerly wind-belt of the southern seas. Therefore, the drift
-currents do not all pass through it from the Pacific into the
-Atlantic. Consequently, a considerable portion of the drifted
-water turns northward west of Cape Horn, and so forms the
-Humboldt current.</p>
-
-<p>The Agulhas stream, which even now assists in replenishing
-the South Atlantic with tropical water, would, during the perfection
-of a glacial period, with the Cape channel closed, be
-a much stronger stream than it now obtains with the Cape
-channel possessing its present enlarged capacity, for the reason
-that the South Atlantic waters would continue as now to
-be forced eastward by the westerly winds, while they could not
-be replenished, as they are to-day, directly from the South
-Pacific.</p>
-
-<p>Consequently, the waters of the South Atlantic Ocean would
-be correspondingly reduced.</p>
-
-<p>Such conditions alone would greatly increase the volume of
-the Agulhas stream at the culmination of a frigid age. Therefore,
-the work of subduing a frigid period in the southern hemisphere
-after the Cape Horn channel was closed would not rest
-on the Brazil current alone, but also on the great equatorial
-stream of the Pacific and Indian Oceans.</p>
-
-<p>Yet during such frigid times the sources of the equatorial
-stream would be greatly chilled by its two great feeders, the
-Humboldt current and the returning Japanese current, both
-of which flow down from the high latitudes and meet in the
-equatorial latitudes on the eastern side of the Pacific, thus
-cooling the source of the great equatorial current.</p>
-
-<p><span class="pagenum" id="Page_33">33</span>
-But this latter stream, while on its long western passage
-across the Pacific and Indian Oceans, beneath a torrid sun,
-with only one cold feeder from the south which approaches it
-along the west side of Australia, would, on its long tropical
-journey, be able to obtain considerable warmth, even during an
-ice period, to supply the Mozambique and Agulhas streams,
-and so greatly assist the Atlantic waters in bringing about a
-mild period. Still, the process of subduing the cold of the
-southern latitudes would be slow, even with the Cape Horn
-channel closed, because of the vast collection of ice burdening
-the sea and land.</p>
-
-<p>Yet there were conditions that were naturally brought about
-to favor the process of returning warmth; for it appears that,
-when the southern ocean was made shallow because of a considerable
-portion of its waters having been moved into the
-northern hemisphere, it will be seen that the conditions were
-more favorable for the westerly winds to create drift currents
-than would be the case on deeper seas. Therefore, the high and
-low sea-levels caused by such winds would be greater on a shallow
-ocean than would occur on deeper waters. Thus the low
-sea-levels of the shallow southern sea would have strong attraction
-for tropical surface waters, and so increase the thickness of
-its warm drift currents, and at the same time its lessened depths
-would have less capacity for the storage of cold water to reduce
-the temperature of the under-waters of the tropical zone.</p>
-
-<p>And, furthermore, when the southern ocean was shallow,
-New Zealand acquired a longer extension of land to the north
-and south. Consequently, the enlarged low sea-level on its
-eastern side attracted more tropical water into the southern latitudes
-than now.</p>
-
-<p>So, according to the conditions I have pointed out, the ice-sheets
-would at length melt away, and a long period of mildness
-would succeed on account of the length of time it would
-require after the ice disappeared from the earth for the prevailing
-winds to move the surface waters of the augmented<span class="pagenum" id="Page_34">34</span>
-northern seas into the southern ocean, and again restore its
-independent circulation, and so, after a considerable lapse of
-time, bring about the geographical and climatic conditions existing
-at the present date, which can be seen on <a href="#map2" class="locked">map No. 2</a>,
-which shows that a cold period has already made considerable
-advance in the southern hemisphere, the southern continent
-and islands being covered with glaciers, and the prevalence of
-icebergs as far north as the latitude of 35° south.</p>
-
-<p>Moreover, when we consider that the independent circulation
-of the southern ocean is caused by the westerly winds
-blowing its surface waters constantly around the globe through
-the open Cape Horn channel, and so largely preventing the
-tropical currents from entering the high southern latitudes,
-and how, in consequence, the cold is slowly on the increase
-through the constant accumulation of ice on the lands and in
-seas of the southern latitudes, it appears that a frigid age is
-slowly progressing in the southern hemisphere. For it seems
-that continental ice-sheets should not only be able to retain
-their freezing temperature, but also the mean of the low temperature
-in which they were formed, for a considerable length
-of time, and so impart their extreme coldness in the shape of
-icebergs into such seas as border on the glaciated lands.</p>
-
-<p>It has been proved at Point Barrow that strata of ice and
-gravel can maintain a wintry temperature through the summer
-months. Captain G. B. Borden, keeper of the refuge station
-in that region, states that Lieutenant Ray, of the Signal
-Service, excavated through ice and gravel to a depth of forty-one
-feet, and that the lower portion of the excavation maintains
-a temperature 15° Fahrenheit above zero the year around.
-Therefore, with the probability of southern glaciers obtaining
-a temperature of over 15° Fahrenheit below the freezing point,
-we can well realize the frigidity imparted to the southern
-oceans while melting numerous immense icebergs, and consequently
-will conclude that the temperature of the southern
-latitudes is gradually lowering.</p>
-
-<p><span class="pagenum" id="Page_35">35</span>
-The icebergs of the antarctic seas would not move northward
-into the temperature latitudes so readily as they now do, were
-it not that the general southward set of the southern ocean
-currents were interrupted by the movement of northerly surface
-currents in the longitudes of the low sea-levels, caused by
-the westerly winds drifting the surface waters of the sea from
-the eastern coasts of Southern South America and New Zealand.
-For it is owing to the low sea-levels thus created, in
-connection with the deep under-currents which set northward
-from the ice cliffs of the antarctic lands, that many icebergs
-are enabled to move into the temperate latitudes, especially to
-seas north-east of the Falkland Islands.</p>
-
-<p>On other portions of the southern ocean above the latitude of
-55° south the surface waters, while being drifted eastward by
-the strong westerly winds, also set toward the antarctic shores,
-and so furnish water for the cold under-currents which set
-northward from that frigid region. Thus from such parts of
-the coast only the largest bergs, which require a deep sea to
-float them, are moved by the under-currents into the temperate
-latitudes. Therefore, it happens that, while an ice period progresses,
-and the antarctic icebergs increase in size, the more
-readily the cold, deep under-currents force them into the temperate
-zone, in opposition to the winds and surface currents.</p>
-
-<p>The icebergs, after gaining the temperate latitudes, are
-moved more or less eastward by the westerly winds and drift
-currents, and so are scattered over the southern temperate
-oceans, where the melting bergs impart whatever coldness they
-were able to store up while forming in the antarctic regions.</p>
-
-<p>The low sea-levels caused by the westerly winds to the leeward
-of New Zealand and to the leeward of Argentine, not only
-cause the ice-bearing currents to set northward, but they also
-cause the tropical currents to make considerable inroads into
-the high southern latitudes. This is the reason why the lands
-are less burdened with ice on the antarctic shores opposite Cape
-Horn than on other parts of that glaciated continent.</p>
-
-<p><span class="pagenum" id="Page_36">36</span>
-The tropical currents which turn southward east of New Zealand
-largely mingle their waters with the great southern
-drift current, and so are carried through the Cape Horn channel.
-Owing to this cause, the antarctic lands abreast Cape
-Horn are less burdened with ice than other portions of the
-antarctic shores.</p>
-
-<p>Thus, were it not for this penetration of warm waters southward,
-the antarctic coasts south of Cape Horn, because of the
-great snow-fall of that region, would obtain heavier glaciers
-than other portions of the southern continent. But the time is
-slowly coming when, with a lower temperature, the ice-sheets
-on the lands in the vicinity of the South Shetlands will attain
-greater thickness than the glaciers on other shores of the
-antarctic continent.</p>
-
-<p>Hence it appears that, when the several agents for producing
-and distributing cold in the southern latitudes are taken into
-consideration, the immense and continuous storage of ice on
-the southern lands, which adds to the wide-spread fleet of icebergs
-that float the southern temperate seas, and also the vast
-movement of cold antarctic water into the temperate and tropical
-oceans in deep under-currents, combined with the increasing
-coldness of the westerly winds, are now slowly bringing
-about in the southern hemisphere a period of frigidity.</p>
-
-<hr />
-
-<p><span class="pagenum" id="Page_37">37</span></p>
-
-<div class="chapter">
-<h2 id="CHAPTER_II" class="vspace">CHAPTER II.<br />
-
-<span class="subhead">HOW ICE PERIODS IN THE NORTHERN HEMISPHERE ARE
-BROUGHT ABOUT.</span></h2>
-</div>
-
-<p><span class="firstword">A large</span> number of geologists are of the opinion that
-during the whole of the Tertiary period the climate of the
-northern temperate and arctic latitudes was uniformly warm,
-without a trace of intervening frigid periods. I have before
-explained why the climate was made warm in the southern
-hemisphere during the Tertiary epoch, and how on the closing
-of that age, and subsequently, a considerable portion of the
-ocean waters had moved from the northern hemisphere into the
-southern.</p>
-
-<p>Therefore, the northern seas during Tertiary times covered
-a much larger area than have obtained during periods following
-that mild epoch. So, when the low lands of Europe were submerged,
-the Baltic, Caspian, and other neighboring seas, now
-land-locked, were a portion of an enlarged Atlantic. Consequently,
-the westerly winds blew over a much wider North
-Atlantic than during the later periods.</p>
-
-<p>Thus the high sea-level caused by such winds on its European
-side was greater than has since been obtained with the Atlantic
-of less breadth. This high sea-level, composed largely of
-drift water from the ancient Gulf Stream, had convenient
-access to the enlarged Arctic Ocean, which then covered the
-low plains of Northern Europe and Siberia. And owing to the
-trend of elevated lands north-eastward, which then formed the
-southern shores of the Arctic Ocean in those regions, the warm
-waters of the high sea-level of the Eastern North Atlantic
-found an easy passage into the arctic seas; for, while they
-moved over the European and Siberian seas to the north-east,
-they had the assistance of the westerly winds well into the
-arctic seas, from which position they were attracted across the<span class="pagenum" id="Page_38">38</span>
-Arctic Ocean to the low sea-level abreast Labrador and Davis
-Strait.</p>
-
-<p>The Gulf Stream of Tertiary times comprised a much larger
-area than it now obtains; for with Florida and a large portion
-of the Gulf States submerged, and a wide, shallow sea covering
-the Mississippi valley and the Great Lake region, the tropical
-waters of the enlarged Gulf of Mexico moved from their vast
-high sea-level to the low sea-level abreast British America and
-Labrador, without being confined to the narrow Florida channel.
-Thus with an enlarged Gulf Stream in possession of a
-wide and clear passage leading northward, in connection with
-a mild period in the southern hemisphere, giving warmth to
-the southern oceans, the resources of the ancient Gulf currents
-for warming the northern regions were so ample and inexhaustive
-they were fully able to maintain a mild climate on
-the shores of the European seas, and also on the shores bordering
-the Arctic Ocean, during the Tertiary epoch.</p>
-
-<p>Furthermore, the Humboldt current, which had its rise in
-the mild southern seas of that age, mingled its warmth with
-the equatorial current of the Pacific, which in turn gave its
-warmth to the Japanese current. Therefore, the latter stream
-under such conditions was competent to maintain a mild
-climate on the North Pacific coasts.</p>
-
-<p>The origin of a cold period in the northern hemisphere was
-largely owing to the changed condition of the northern oceans
-following the close of the Tertiary epoch. The movement of
-the ocean waters into the southern hemisphere lessened the
-area of the Arctic and North Atlantic Oceans, and brought
-them to their present reduced limits, and also diminished the
-volume of the Gulf currents.</p>
-
-<p>This great geographical change, in connection with a cold
-period progressing in the southern hemisphere, and so increasing
-the coldness of the Japanese current, and the cold antarctic
-currents, previously explained, which set northward on the
-bottom of the sea through the torrid latitudes even into the<span class="pagenum" id="Page_39">39</span>
-North Pacific and North Atlantic Oceans, were altogether
-sufficient to cause conditions favorable for the advancement
-of a cold period in northern latitudes. Besides, with reduced
-northern oceans and a diminished Gulf current, conditions were
-favorable for an independent circulation of the arctic waters,
-such as is being carried out at the present time. Hence an explanation
-of the movements of the ocean waters of to-day will
-explain the conditions which caused the northern ice periods in
-times past, as well as those to come in a future age. Although
-the conditions are such that the independent circulation of
-the arctic waters cannot be so well performed as the independent
-circulation of the southern ocean, still the open arctic
-channels are able to prevent the tropical Gulf Stream water
-from largely entering the higher northern latitudes. For it is
-certain that the prevailing westerly winds blow the surface
-waters of the North Atlantic away from the eastern shores of
-North America from Georgia to Labrador.</p>
-
-<p>Consequently, the low sea-level thus caused attracts the
-waters of the Arctic Ocean southward through Baffin’s Bay
-and Davis Strait, and likewise down the east coast of Greenland,
-thus surrounding that large island with an arctic temperature,
-and so causing it to become a land of glaciers, which
-are constantly launching icebergs into the sea to cool the waters
-of the northern oceans. The tropical waters of the high sea-level
-of the Gulf of Mexico also seek the low sea-level abreast
-the American coast, thus causing the Gulf Stream. This great
-ocean current, being the main conveyer of tropical heat into the
-high latitudes of the North Atlantic, calls for particular notice.
-The great gravity currents, of which the Gulf Stream is one of
-the most conspicuous, are moved by small gradients.</p>
-
-<p>Hence the gradient which causes the Gulf Stream waters to
-move out of the Florida passage is small. The levellings
-which have been made place the surface waters of the Gulf
-of Mexico as being about one metre higher than the Atlantic
-abreast New York, the pressure of the higher Gulf waters<span class="pagenum" id="Page_40">40</span>
-toward the low level of the Atlantic being nearly equal in
-the narrow Florida channel from the surface to the bottom
-of the stream. Therefore, according to descriptions given by
-Commander Bartlett, the warm stream moves like a river over
-the hard level floor of the channel; but to the northward of
-the Bahamas, abreast Cape Hatteras, the stream spreads out in
-fanlike form, and flows over a bed of cold water of great depth.</p>
-
-<p>A bed of cold water is found to cover the bottom of all the
-deep oceans that are accessible to the antarctic seas, through
-which the cold water is mostly supplied, as I have before
-pointed out.</p>
-
-<p>But the cold water which underruns the Gulf Stream is
-probably furnished by the arctic waters which move down
-Davis Strait and the east coast of Greenland. The Gulf
-Stream, as it widens and becomes more shallow, is, through
-its exposure to the westerly winds, gradually converted into a
-drift current; and in this way its surface waters are forced
-over abreast the shores of Western Europe, where it imparts its
-warmth to a wide region, and also causes a high sea-level.
-A portion of the waters of this high sea-level turn southward
-to replenish the waters which have been moved by the trade
-winds from the eastern tropical North Atlantic over into the
-Caribbean Sea and Gulf of Mexico, while its northern and
-smaller portion mingles with the Arctic Ocean waters north
-of Europe. These latter waters, having escaped from the
-westerly wind-belt, and acquired a high sea-level, and also
-made cool on mingling with the icy arctic seas, lose a part of
-their bulk on becoming chilled by sinking and returning in
-under-currents to the seas from which they were forced by
-the south-westerly winds; while the larger remaining surface
-waters set across the Arctic Ocean over to the northern coast
-of Greenland, and so down the east and west coasts of that
-large island to the low sea-level abreast the American coast,
-where the cold waters not only crowd the Gulf Stream from the
-shore, but they also sink under it, and form the vast bed of<span class="pagenum" id="Page_41">41</span>
-cold water over which the Gulf currents flow. This cold
-underflow of water southward probably joins the deep antarctic
-currents south and south-east of the Bermuda Islands, and
-returns to the tropical latitudes a portion of the water that is
-carried into the Arctic Ocean by the Gulf Stream.</p>
-
-<p>There are times during the late summer and early fall months
-when the arctic channels are considerably obstructed by icebergs,
-and the low sea-level of Davis Strait and Baffin’s Bay,
-with the assistance of occasional south-east winds, is able to
-attract the temperate waters of the Atlantic as far north as the
-Arctic Circle. Also from the same cause the icy waters which
-flow down the east coast of Greenland are attracted along its
-southern and south-western shores into Davis Strait.</p>
-
-<p>Yet at the same time the icy waters which flow from Smith’s
-Sound and other arctic channels move in a counter-current
-down the westerly side of Baffin’s Bay and Davis Strait, and so
-carry the icebergs and field-ice past Labrador and Newfoundland
-well on to the borders of the Gulf Stream. And, according
-to Lieutenant Maury, the westerly gales of the winter months
-force the temperate waters of the Atlantic, which pertain to
-the Gulf Stream, several degrees away from the south-east
-coast of Greenland. Therefore, during such seasons the surface
-waters of the returned arctic currents, which flow down the
-east coast of Greenland and Davis Strait, are drifted past
-Southern Greenland and Iceland, and so onward into the arctic
-seas, north of Europe. Thus the arctic waters maintain an
-independent circulation sufficient to largely exclude the Gulf
-Stream from the arctic seas, and surround Greenland with an
-arctic temperature; and it is on this account glaciers have
-formed on Greenland and other arctic shores, and such glaciers
-are probably increasing, as every iceberg launched from the
-frigid lands and floated to the lower latitudes lowers somewhat
-the temperature of the North Atlantic, and so causes conditions
-favorable for larger accumulations of ice on the arctic shores.</p>
-
-<p>Yet it is probable that an ice period extending over the<span class="pagenum" id="Page_42">42</span>
-northern temperate zone could not be perfected by this process
-alone, should the tropical and southern oceans maintain their
-present temperature. But, with the assistance of a frigid
-period in the southern hemisphere to cool the ocean waters, and
-thus lower the temperature of all tropical currents, including
-the Gulf Stream and Japan currents, an ice age could be
-brought about in the northern hemisphere equal in intensity
-to the glacial periods of the past.</p>
-
-<p>And, when we know that a considerable portion of the heat
-carried into the northern latitudes by tropical streams is largely
-derived through the mingling of the waters of such currents
-with the warm waters of the southern tropical oceans, it is
-evident that the ice periods of the northern and southern hemispheres
-were concurrent; although the culmination of the
-northern frigid period would be somewhat later than the perfected
-southern ice age, on account of the northern seas requiring
-the assistance of the cold oceans of the southern hemisphere
-to perfect a northern ice age.</p>
-
-<p>The small area of the northern seas, compared with the
-southern oceans, and the wide mingling of the ocean waters of
-the hemispheres, make it evident that the comparatively scanty
-northern seas could not bring about or maintain either a frigid
-or mild period in opposition to the superior oceans of the
-southern hemisphere.</p>
-
-<p>On the consummation of an ice period in the northern hemisphere
-heavy glaciers covered the larger portion of its continents
-and islands, which added so much weight to the northern
-lands as to attract the waters of the southern oceans into the
-northern latitudes, as I have before explained.</p>
-
-<p>Thus, when the ice was mostly melted from the lands of the
-southern hemisphere, the heavy ice-sheets that remained on
-the extensive northern lands would still continue to attract
-the warm waters of the southern seas into the northern oceans;
-and in this way the Japanese and Gulf currents would gain a
-higher temperature and greater volume, and thus add to their<span class="pagenum" id="Page_43">43</span>
-ability for melting the northern glaciers wherever they were
-able to flow, and so hasten the growth of a mild era in the
-northern hemisphere.</p>
-
-<p>And it seems reasonable to suppose that there was more
-water in the northern hemisphere on the ending of its ice
-period than at this age; yet it appears that it was returned to
-the southern hemisphere during a short period by the prevailing
-winds in the manner which I have previously explained.</p>
-
-<p>Therefore, there are but few traces of such flowage to be
-found in the glacial drift, especially with the scarcity of marine
-life after the rigor of a frigid age.</p>
-
-<p>An article in <cite>Science</cite>, July 5, 1895, written by Agnes Crane,
-states that Professor Joseph Prestwich has recently contributed
-a suggestive memoir on this subject to the Philosophical
-Transactions of the Royal Society. It treats of the evidence
-of a submergence of Western Europe and the Mediterranean
-coasts at the close of the glacial period; and in a previous
-paper communicated to the Geological Society of London, in
-1892, the author gave evidence, deduced from personal observation,
-of the submergence of the south of England not less
-than a thousand feet, at the close of the glacial epoch.</p>
-
-<p>Since that time the flood of water which flowed all of the
-low lands of the high northern latitudes has been returned to
-the southern seas, because of the force of the prevailing winds
-in connection with the great oceans which open so widely
-toward the south, the force of the winds being assisted through
-the attraction caused by the difference of temperature in the
-surface waters of the vast southern temperate oceans and the
-antarctic seas, and in this manner bringing about the geographical
-conditions of to-day which favor the return of another
-ice age.</p>
-
-<p>It is said by those who attribute the great currents of the
-ocean to the rotation of the earth that the winds have little to
-do in causing such currents as the Gulf Stream. But my impression
-is that the southern portion of the Gulf Stream<span class="pagenum" id="Page_44">44</span>
-waters, after being drifted by westerly winds over abreast
-Europe, are attracted to the low sea-level in the vicinity of the
-Canary Islands, to be moved by the trade winds toward the
-equatorial calm belt and the West India Islands. And during
-my many months’ cruising over these seas I have had my
-attention directed to the singular action of the surface waters,
-while being impelled by the trade winds toward the West India
-sea; for during the first fifteen hundred miles of their passage
-they are moved by the prevailing easterly winds without much
-apparent resistance or unusual disturbance. But on nearing
-the longitude of Cape St. Roque, and having acquired a high
-sea-level from which there is no easy or wide outlet, the impelled
-surface waters begin to rebel against the forceful winds,
-and cause a remarkable commotion in the shape of tide-rips
-and white-capped ripples, which extend from the equator in a
-northerly direction to the latitude of about 19° north, thus
-crossing the central portion of the north-east trade-wind belt,
-with a breadth of over three hundred miles, as shown on <a href="#map2" class="locked">map No. 2</a>.</p>
-
-<p>This disturbed region where the winds and waters conflict
-is the probable fountain-head of the Gulf Stream. The reason
-why the surface waters of this disturbed portion of the Atlantic
-do not flow peacefully along through the West India passages
-into the Caribbean Sea and Gulf of Mexico is because of
-their narrow outlet at the Florida channel. For it is mainly
-through this narrow channel that the vast waters of the tropical
-high sea-level are attracted to the low ocean-level of the
-Western North Atlantic.</p>
-
-<p>Thus it seems that the great fountain-head of the Gulf
-Stream is situated between the wide tide-rips and the Caribbean
-Islands. The waters from this high ocean-level enter the
-Caribbean Sea mainly through the several passages south of
-Guadeloupe; while the northern portion of the raised waters
-set mostly toward the north-west, and so unite with the eastern
-portion of the Gulf currents after they enter the Atlantic.<span class="pagenum" id="Page_45">45</span>
-Still, the great high sea-level which presses against the Windward
-Islands, being somewhat higher than the Caribbean Sea,
-forces its waters through the island passages in quantities sufficient
-to supply the Gulf Stream; and there are times when
-the winds are so strong and favorable that all of the passages
-east of Cuba conduct water into the Caribbean Sea, the cold
-under-waters entering the deeper channels as well as the warm
-surface waters. Yet the currents setting through these numerous
-channels are subject to fluctuations, and so also is the Gulf
-Stream which they supply.</p>
-
-<p>That portion of the high sea-level south of Guadeloupe receives
-considerable assistance as a feeder for the Gulf Stream
-through being connected on the south by the great high sea-level
-abreast Brazil and the great high sea-level of the equatorial
-calm belt. The latter high level is caused by the trade
-winds, which generally blow briskly down the coast of Sahara,
-and also further off shore, and ending south of the Cape Verde
-Islands somewhat abruptly in the equatorial calm belt.</p>
-
-<p>The south-east trades which blow over the Eastern and Middle
-South Atlantic terminate on the southern side of the calm
-region. Therefore, the two trade winds impel the surface
-waters of the tropical Atlantic from opposite directions directly
-toward the calm belt, and so raise its waters above the
-common level of the sea.</p>
-
-<p>This is the opinion of the writers of the South Atlantic
-Directory. Still, it is probable that the high ocean-level of the
-calm belt is but slightly raised above the common level of the
-sea, on account of the trade winds having to contend against
-the tendency of the warm tropical surface waters to move
-toward the polar latitudes. The calm belt expanse which extends
-from Africa, where it attains its greatest width, gradually
-narrows as it extends westward to the longitude of Cape St.
-Roque, where it attains its highest sea-level, on account of the
-borders of its narrowing space being impelled westward by the
-trade winds.</p>
-
-<p><span class="pagenum" id="Page_46">46</span>
-The movement of the waters of this high ocean-level is
-mostly toward the west, forming a portion of the equatorial
-current of the Atlantic. The reason of its western movement
-is on account of its raised waters being able to supply a portion
-of the Gulf Stream with water which is sent off in a westerly
-current along the South American coast, west of Cape St.
-Roque into the Caribbean Sea; while, on the other hand, it
-joins with the great high sea-level abreast Brazil, and so unites
-with its great southern current. The gradient of the high sea-level
-of the calm belt on its southern side probably extends
-south of the equator, on account of the south-east trades being
-weak in latitudes near the equator; while on the north side
-the north-east trades generally blow brisk and end more
-abruptly, so producing a gradient of less width than that of the
-South Atlantic side.</p>
-
-<p>It does not appear that the seas of the high northern latitudes
-gain an undue proportion of the tropical Atlantic waters,
-because of the south-east trades extending north of the equator,
-on account of such winds being weak, and the waters of the
-high sea-level of the Western North Atlantic having narrow
-and otherwise obstructed passages leading to its northern seas.
-Yet the high sea-level of the equatorial calm belt is always
-ready, whenever a favorable grade is formed by a monsoon or
-otherwise, to run off its surplus water obtained by winds and
-rain; and I have noticed, while cruising in these seas, that it
-happens at times during the northern winter months when the
-north-westerly gales drive the surface waters of the North-western
-Atlantic toward the tropical zone, and at the same
-time a strong north-east monsoon is prevailing along the southern
-coast of Brazil, the westerly currents setting past the Amazon
-River are reversed, and set to the south-east, while such
-conditions last.</p>
-
-<p>For, when the summer solstice is in the south, and the north-east
-monsoon moves southward along the coast of Brazil, much
-equatorial water moves off in that direction; and during the<span class="pagenum" id="Page_47">47</span>
-same season the cooled Sahara has an outward flow of air
-toward the south, which moves more or less water from the
-coast of Guinea, which is easily accomplished, because the
-warm surface waters of that coast are inclined to join with the
-south equatorial stream. Consequently, the waters move from
-their high sea-level north of Cape Palmas, and so form the
-Guinea current.</p>
-
-<p>The high sea-level of the equatorial calm belt of the Atlantic
-contains a large portion of the conserved heat of the tropical
-Atlantic, which at this age sends off a somewhat limited supply
-of warm water to the Gulf Stream, and also to the Brazil current.
-But, whenever the Cape Horn channel is closed or much
-obstructed, so causing a great low sea-level in the Southern Atlantic,
-the tropical waters heaped against Brazil, and the raised
-waters of the great calm region being one continuous high sea-level,
-would mostly be attracted to the vast low sea-level of the
-southern ocean. Hence it will be seen how large a portion of
-the conserved heat of the tropical Atlantic would be used to
-warm the high southern latitudes during a warm period in the
-southern hemisphere, and at the same time the head-waters of
-the Gulf Stream would obtain the same height as now. For
-we now see much of the force of the north-east trade winds lost,
-while maintaining so large a high sea-level to the windward of
-the West India Islands, which is probably capable of supplying
-a stream of double the capacity of the gulf current which
-passes through the Florida channel.</p>
-
-<p>And it appears, while viewing the vast reservoirs of warm
-water apparently gathered by trade winds to subdue the cold
-of the high latitudes, that much of the energy of such winds
-is now lost to the world, while maintaining a vast and pent-up
-high sea-level which has a difficult outlet to the northern seas,
-and no strongly attractive low sea-level to move its waters into
-the oceans of the high southern latitudes. The wide waters
-which are banked up to the windward of the West India
-Islands, and cause the wide tide-rips, set mostly to the westward<span class="pagenum" id="Page_48">48</span>
-into the Caribbean Sea through the passages south of Guadeloupe,
-while the northern portion of the raised waters set
-mostly toward the north, and thus form the eastern boundary
-of the Gulf Stream, and comprise the inner circle of the great
-current that encircles the Sargasso Sea.</p>
-
-<p>I have been informed by an old Barbuda fisherman that “the
-weeds which float on the surface of the Sargasso Sea grow in
-large quantities on the bottom of the shoal waters to the north
-and eastward of that island and Antigua.” Consequently, the
-currents of that region carry such weeds as become detached
-from their places of growth into the higher latitudes, where
-the westerly winds in the winter season drift them eastward
-south of Bermuda, until finally the central area of their gathering,
-where the most dense collection of weeds is found, is
-situated near the tropic of Cancer, and about 55° west longitude,
-as shown on <a href="#map2" class="locked">map No. 2</a>.</p>
-
-<p>This position is also the centre of the great circular currents
-which encompass the Sargasso Sea. The comparatively few
-weeds which enter the Gulf Stream abreast Florida are currented
-to the northward of the Bermuda Islands, and from
-thence drifted by the westerly winds to the south-west of the
-Azores before entering the trade-wind belt. The weeds, on
-their long drift from their native shoals, hold their freshness,
-and continue to grow while floating on the sea for a considerable
-time, but at length lose their renovating properties, and
-in certain areas of the sea acquire an appearance of age and
-decay.</p>
-
-<p>The Gulf Stream, and such other tropical waters as are attracted
-northward to the low sea-level abreast the North American
-coast, pass into the westerly wind-belt, and so gradually
-become drift currents, while being forced by the winds over to
-the European side of the ocean, as we have previously shown.</p>
-
-<p>The vast movement of the North Atlantic waters encircling
-the great Sargasso Sea has often been pointed out by writers
-on the subject. But the central and most dense portion of the<span class="pagenum" id="Page_49">49</span>
-vast sea of weeds has always been placed on the charts several
-degrees of longitude east of its true position.</p>
-
-<p>It is fifteen years since I wrote of the Gulf Stream and arctic
-currents as being attracted to a low sea-level caused by the
-westerly winds. But, as far as I know, writers on the Atlantic
-currents have had nothing to say of the great low sea-level
-caused by the westerly winds blowing the surface waters of the
-North Atlantic away from the eastern coast of North America,
-from Georgia to Newfoundland, and thus attracting the arctic
-and Gulf Stream waters in opposite directions, fifteen hundred
-miles along the North American coast. For, were it not for
-this low sea-level, the Gulf Stream would not be able to move
-so far northward as it now flows, but would spread out, were
-there no unevenness in the sea-level of the Atlantic, and become
-a drift current far south of its present northern limits.
-The United States government has caused surveys to be made
-of the Gulf Stream, and the interesting discoveries thus obtained
-have all been laid before the public. Still, such surveys
-cover but a portion of the whole round of the vast movement
-of the Gulf Stream water, and do not refer to the vast
-high sea-level of the calm belt as being one of its feeders, or to
-the wide disturbance of the surface waters of the tropical
-North Atlantic in their conflict with the trade winds, while
-being forced to the vast high sea-level of the Caribbean Sea
-and Gulf of Mexico, and so giving head to the Gulf Stream.</p>
-
-<p>Thus from the foregoing explanations it will be seen that the
-ability of the prevailing winds to move the surface waters of
-the ocean away from the weather shores of continents over
-against the opposite leeward shores in the different wind-belts
-of the globe, and so cause both high and low sea-levels, is the
-main reason why there is an interchange of surface water between
-the tropical and colder zones sufficient to carry heat
-from the tropics to the cooler regions, and thus largely affect
-the temperature of the higher latitudes.</p>
-
-<p>The unmistakable traces of cold periods having occurred in<span class="pagenum" id="Page_50">50</span>
-both hemispheres have given rise to an ingenious astronomical
-theory to account for their origin. According to this theory
-the ice periods in the two hemispheres were consecutive; and
-it is admitted by its supporters that, should it be shown that
-the frigid periods in the northern and southern hemispheres
-were concurrent, the astronomical doctrine would have to be
-abandoned.</p>
-
-<p>It is impossible for a person who is acquainted with the
-great surface currents of the several oceans to conceive how
-a mild period could be maintained in the northern hemisphere
-with a frigid period existing in the southern hemisphere.
-A frigid period in the latter hemisphere necessitates a cold
-temperature for the superior oceans of the globe south of the
-equator. With this vast area of water reduced to a chilling
-temperature, it seems impossible for the inferior waters of the
-northern latitudes to maintain sufficient warmth to favor a
-mild period in the northern hemisphere, especially with both
-hemispheres receiving an equal annual amount of the sun’s
-rays. The great Humboldt current, having its rise in the
-southern ocean west of Cape Horn, would during a southern
-frigid period greatly lower the temperature of the vast equatorial
-stream in the Pacific Ocean. Consequently, the Japanese
-stream, which branches off from the equatorial current into
-the North Pacific, would be cooled to such a degree that it
-would be unable to maintain the mild climate on the shores of
-the North Pacific which extensive lands now enjoy. Furthermore,
-during a cold period in the southern hemisphere the
-temperature of the Gulf Stream would also be greatly lowered by
-the great South-eastern Atlantic return current, which is caused
-by the south-east trade winds impelling the surface waters of
-that region into the equatorial latitudes, such waters being replenished
-from the common level of the southern ocean, and
-so mingling the cool waters of that sea with the equatorial
-waters of the Atlantic during a frigid period in the southern
-latitudes. And it may be said that during such times the<span class="pagenum" id="Page_51">51</span>
-frigid Antarctic Ocean would send its cold under-currents to
-cool the inferior northern oceans. Even to-day the northern
-and southern hemispheres, through the intermingling of the
-waters of the northern and southern oceans, largely maintain
-a like temperature in their temperate zones. Therefore, when
-we consider the certain traces of ice-sheets having formed on
-South Africa and Southern Australia, and to have overrun
-South America above the latitude of 40° south, thus strewing
-the oceans of the southern temperate zone with ice that are
-now largely free from it, it seems that the maintenance of
-warm oceans in the northern hemisphere during the time of a
-frigid period in the southern hemisphere would be impossible.</p>
-
-<p>In order to make this statement more plain, I will again
-refer to the importance of the great Humboldt current for
-cooling the waters of the North Pacific during the perfection
-of a southern ice age. For during such times the ocean
-strewed with ice west of Cape Horn, where the Humboldt
-current takes its rise, would impart its coldness to the Humboldt
-stream, while it was floating icebergs toward the equator.
-The equatorial current of the Pacific being a continuation of
-the Humboldt stream, its waters would partake of its coldness.
-The Japanese current, being a large offshoot from the equatorial
-stream, would also possess a lower temperature than it
-obtains at this age. Yet at this date, with the southern ice-sheets
-confined to the antarctic lands, it does not possess heat
-sufficient to prevent glaciers from flowing down to the tide-water
-from mountains in Alaska.</p>
-
-<p>Consequently, the Japanese stream could not maintain a
-mild climate on the North Pacific coasts while a cold period
-was being completed in the southern hemispheres. Therefore,
-under the conditions above set forth the support of a mild
-period in the northern hemisphere during the existence of a
-frigid period in the southern hemisphere could not be carried
-out.</p>
-
-<p>From what has been explained, it will be seen that the<span class="pagenum" id="Page_52">52</span>
-growth of an ice period is necessarily slow, especially in its
-early stage, and also that the storage of ice is carried on in
-both hemispheres at the same time; but I will call further
-attention to the southern hemisphere, because it possesses
-greater resources than the northern for the production of an
-ice age.</p>
-
-<p>The independent circulation of the southern ocean waters,
-as before shown, turns away the tropical currents, and thus
-largely prevents their warm waters from entering the high
-southern latitudes. Consequently, the heat from the sun’s
-rays, and all other sources of heat included, are not sufficient
-to prevent ice from gathering on lands within the antarctic
-circle. This increasing storage of ice is only another
-name for the accumulation and spreading of cold, and so the
-increasing chillness goes on. The snow falls, and thus adds
-to the extension and thickness of the ice-sheets; and at the
-same time the spreading snow-fields reflect the heat received
-from the sun’s rays into space, while the cold is retained and
-increased in the growing glaciers.</p>
-
-<p>The spreading ice-sheets having covered the land are able
-to flow into the surrounding seas, where their outer edges
-become detached and form icebergs, which float out to sea, and
-so scatter over the adjoining oceans. Thus their coldness is
-mingled with and largely preserved by the sea, while the surface
-water, which is carried into the southern latitudes from
-the northern oceans by the prevailing winds, and also such
-surface waters as are attracted into the antarctic seas because
-of the difference of temperature of the antarctic waters and
-the more northern seas, are on gaining the frigid latitudes
-made cool, and returned to the more northern seas in cold
-under-currents, and so chilling the vast under-waters of the
-great oceans of the globe, and eventually their wide surface
-waters also; and so the coldness increases until the ice-sheets
-which at first formed on polar lands are enabled to spread
-slowly toward the equatorial regions so long as the independent
-circulation of the southern ocean is maintained.</p>
-
-<p><span class="pagenum" id="Page_53">53</span>
-But at length the depth of the great southern ocean is diminished
-because of the water evaporated from its surface, and
-precipitated in the shape of hail and snow over the vast continents
-and islands of the high northern latitudes, thus adding
-sufficient weight to the northern lands to attract the waters
-of the southern seas and still further lessen their depth. Thus
-during such times the Cape Horn channel is so reduced as to be
-obstructed by the heavy glaciers and icebergs of an ice age.</p>
-
-<p>Consequently, a great change is wrought in the circulation of
-the southern seas. For, when the Cape Horn channel is closed,
-the westerly winds employ their strength to force the ocean’s
-surface waters away from the glaciers which have filled the
-diminished channel. This potent action of the winds necessarily
-creates a great low sea-level on the Atlantic side of the obstructed
-strait, sufficient to attract the tropical waters heaped
-against Brazil by the trade winds, and the waters of the high
-sea-level of the equatorial calm belt, and also the equatorial
-waters which set along the east coast of Africa, well into the
-southern seas.</p>
-
-<p>It will thus be seen that the conditions for the circulation of
-the tropical ocean waters have met with a great change.</p>
-
-<p>But the temperature of the waters has been lowered by the
-coldness of a frigid period; and, consequently, their capability
-for conveying heat to the high latitudes has largely diminished.
-Therefore, their first inroads in the higher latitudes
-make small impression on the icy seas, so the early process for
-melting ice is exceedingly slow. But the icy southern ocean,
-deprived of its independent circulation, in the course of time
-yields to the warming invasion of the tropical waters, whose
-wide and increasing spread is eventually able to bring about a
-mild period, according to the natural methods which I have explained
-in the preceding pages.</p>
-
-<p>And it may be said that a mild period succeeding a glacial
-age gained sufficient warmth to melt the ice-sheets from all
-lands excepting the highest mountains. For it is probable<span class="pagenum" id="Page_54">54</span>
-that there are lands situated in the antarctic circle sufficiently
-elevated even during late Tertiary times to have been above
-the snow-line. Therefore, the glaciers on such lands could not
-have melted away during mild periods succeeding an ice age.
-For, as has been explained, a portion of the waters of the southern
-seas had moved into the northern hemisphere. Consequently,
-the antarctic lands were raised higher above the sea-level
-than at this age. Hence the area of lofty land was increased
-above the snow-line. And, according to Dr. James
-Croll’s estimate, the ice-sheet at the south pole is at this age
-several miles in thickness. Therefore, its upper surface is
-above the line of perpetual snow, and could not be melted
-away during the warm eras succeeding glacial periods.</p>
-
-<hr />
-<div class="chapter">
-<h2 id="CHAPTER_III" class="vspace">CHAPTER III.<br />
-
-<span class="subhead">THE SPREAD OF GLACIERS DURING COLD EPOCHS.</span></h2>
-</div>
-
-<p><span class="firstword">I have</span> before explained that the conditions are such that
-the cold periods of the northern and southern hemispheres
-were concurrent. Through this cause, while the glacial epoch
-was being perfected, the ice followed down the mountain
-ranges of both hemispheres; and, while gathering on the lands
-of the temperate latitudes, it also spread over a portion of the
-tropical zone. It is reported that traces of ancient glaciers are
-found in India, and also in Central America and in tropical
-South America. In fact, the denudation caused by ancient
-glaciers on the elevated lands of the tropics are too well defined
-to be attributed to any process of weathering, while Alpine
-plants of the same species are found near the summits of
-mountains in the tropics as well as in the high latitudes of
-both hemispheres.</p>
-
-<p>This fact goes to show that a portion of the lowlands of the
-tropical zone have experienced a temperature favorable for the<span class="pagenum" id="Page_55">55</span>
-growth of Alpine plants. And, judging from the tropical
-islands I have visited, situated in the cold currents which flow
-down the eastern sides of the oceans from the high latitudes, I
-think they show strong traces of having during some remote
-period been subject to the action of glaciers. The island of St.
-Helena, situated in the southern tropical Atlantic, has the appearance
-of having been heavily iced during a frigid age. Its
-steep ravines, which deepen as they approach the sea, recall to
-the southern voyager the ice-worn islands of the high latitudes.
-It seems improbable that these deep ravines which penetrate
-the hard volcanic rock, on their short course to the sea, could
-have been caused by their scanty brooklets.</p>
-
-<p>The bowlders scattered over the island are not in harmony
-with the weathering process, while the obliteration of its
-craters seems to point to a more rapid process of erosion than
-could be attributed to weathering.</p>
-
-<p>Professor Agassiz, in his “General Sketch of the Expedition
-of the ‘Albatross,’” states that the Galapagos Islands are of
-volcanic origin, and that their age does not reach beyond the
-earliest Tertiary period; and his report seems to favor the impression
-of their having undergone denudation sufficient to
-slough off large portions of the rims of the older craters, and
-also the eastern face of Wenman Island. On Hood’s Island,
-at the time of my visit, its crater had entirely disappeared.</p>
-
-<p>The highest portion of the island, which was the probable site
-of its ancient crater, showed no trace of its former existence;
-yet at the foot of this low mountain, on its southern side, I saw
-a large collection of loose bowlders, composed of hard volcanic
-rock, which were mostly free from soil and other débris, and
-easily moved from their places, while the spaces afforded by
-the loose piles of dark basaltic rocks afforded a secure retreat
-for numerous owls and lizards. Beyond the rocky piles to the
-southward a horizontal area of land was strewn with bowlders
-to the sea, which was some two miles distant from the higher
-land. The bowlders which covered the plain were somewhat<span class="pagenum" id="Page_56">56</span>
-smaller than those at the foot of the mountain, as none of the
-former were more than three or four feet in their longest measurement.</p>
-
-<p>They seem to have been formed from thin strata of lava,
-which were broken in pieces from pressure, such as the action
-of ice could perform. In fact, the crowded and angular and
-somewhat worn blocks of lava presented a different appearance
-from stones thrown from the crater of a volcano, while no such
-bowlders are found among the recent volcanic eruptions on the
-islands.</p>
-
-<p>The plain so thickly strewn with bowlders, and partly
-shaded by a tall growth of shrubs, fell off abruptly at the seaside,
-forming a steep cliff some two hundred feet in height.</p>
-
-<p>The rocky floor at the foot of the cliff received such débris as
-fell from the sea-washed land; yet it contained few bowlders,
-they having been washed away by the waves soon after falling.</p>
-
-<p>At one place a steep, dry ravine penetrated the land from the
-seashore, which was dangerous to cross on account of the loose
-stones resting on its sides. Two or three miles further west,
-on the level land bordering the sea, a large rookery of albatross
-were brooding their eggs and chicklings. The land on the
-south side of Albemarle, near the sea, consists of débris from
-the eroded high lands; and, judging from the crumbling cliffs
-by the sea, it seems that the land at one time extended further
-seaward.</p>
-
-<p>Besides the excessive denudation which appears to have
-taken place on portions of these bowlder-strewn lands, we have
-other unmistakable testimony of their having formerly possessed
-a frigid temperature. The characteristic Alpine flora of
-these islands points to a time when they were exposed to a cold
-climate. Furthermore, rookeries of seal and albatross, which
-naturally belong to shores situated in cold latitudes, still exist
-on these equatorial islands; and, when we consider the favorable
-position of the Galapagos for the reception of cold during
-a frigid period, we can well account for the lingering signs
-which point to their former cold climate.</p>
-
-<p><span class="pagenum" id="Page_57">57</span>
-During the perfection of an ice period the western shore of
-South America was covered with an ice-sheet from the summits
-of its mountain range to the sea, extending northward as far as
-the latitude of 38° south.</p>
-
-<p>This vast ice-sheet, situated in a region of great snow-fall,
-was constantly sending icebergs into the sea, where they were
-borne northward by the cold Humboldt current directly toward
-the Galapagos Islands; while, on the other hand, in the northern
-latitudes, in regions of great snow-fall, such as Alaska and
-British America, numerous icebergs were launched into the
-ocean, to be currented southward to the Galapagos seas. Thus
-during the frigid epoch the equatorial waters surrounding the
-Galapagos group was one of the greatest gathering places for
-floating ice to be found on the globe.</p>
-
-<p>And here the frigidity stored up in the glaciers of the higher
-latitudes was set free, thus chilling the waters as well as the
-atmosphere of that region. The Alpine flora of the American
-coast mountains was probably carried by floating ice to the
-Galapagos, while its rookeries of albatross and seal date back
-to a cold period. And it seems that these cold-weather animals,
-with the assistance of the cool Humboldt current, may be
-able to preserve their rookeries at the equator until the advent
-of another ice period. In connection with the evidences of a
-cold climate having possessed the Galapagos, there are ample
-traces of ice-sheets having flowed over a large portion of the
-high lands of tropical America, and in some places the ice may
-have flowed down to the sea, especially where the large rivers
-now empty; and it is said that masses of clay, mixed with sub-angular
-stones, have been found in Brazil, which goes to prove
-the glaciation of portions of that tropical land during a remote
-age. Professor Louis J. R. Agassiz, during his research in the
-Amazon valley, found bowlders resting near the summits of the
-low hills of that region, which he attributed to the action of
-ice. The spread of glaciers on southern continents and islands
-is shown on <a href="#map1" class="locked">map No. 1</a>.</p>
-
-<p><span class="pagenum" id="Page_58">58</span>
-In <cite>Science</cite>, Nov. 17, 1893, Mr. J. Crawford published a summary
-of his discoveries in Nicaragua, during ten months of
-nearly continuous exploration since August, 1892.</p>
-
-<p>The author of this report says: “The numerous eroded
-mountain ridges and lateral terminal moraines of that tropical
-region give unquestionable evidences of the former existence
-of a glacial epoch, which covered an area of several thousand
-square miles in Nicaragua with glacial ice. The ice-sheet
-covered a large part of the existing narrow divide of land
-(containing about 48,000 square miles) between the Pacific and
-Caribbean Sea.” And it is likely that other large areas of tropical
-America were glaciated at the same time, especially in
-regions of great precipitation.</p>
-
-<p>The island of Cuba, during a portion of the ice age, probably
-supported heavy glaciers, and obtained an average temperature
-as low as South-western New Zealand at this age. According
-to the description given by J. W. Spencer, of the Cuban land,
-great valleys have been excavated, the lower portion of which
-are now fiords, reaching in one case at least to seven thousand
-feet in depth before gaining the sea beyond. Thus, while keeping
-in view the glacial condition of Central America during the
-frigid period, it seems that the great Cuban excavations were
-partly the work of glaciers of the same cold epoch.<a id="FNanchor_1" href="#Footnote_1" class="fnanchor">*</a> Judging
-from such reliable statements, it is probable that the climate of
-tropical America during the frigid age was somewhat colder than
-obtained in the tropical regions of the eastern continent, owing
-to the wide connection of the Atlantic with the Arctic Ocean
-as well as with the antarctic seas, and because of its shores possessing<span class="pagenum" id="Page_59">59</span>
-a larger area of glaciated lands in proportion to its
-size than the Pacific and Indian Oceans, and also owing to the
-tropical Atlantic containing so small a portion of the world’s
-waters which lie within the torrid zone, and its equatorial current
-being separated by continental lands from the great equatorial
-stream of the Pacific and Indian Oceans.</p>
-
-<div class="footnote">
-
-<p><a id="Footnote_1" href="#FNanchor_1" class="nodec">*</a>The meeting of the British Association for the Advancement of
-Science, September, 1895, was reported in <cite>Science</cite> of October 18, where
-mention is made of an interesting paper by Mr. R. B. White, on “The
-Glacial Age of Tropical America,” in which he described a number of
-apparently glacial deposits in the Republic of Colombia, almost under the
-equator. He spoke of moraines forming veritable mountains, immense
-thicknesses of bowlder clay, breccias, cement beds, sand, gravels, and
-clays, beds of loess, valleys scooped, grooved, and terraced, monstrous
-erratics, and traces of great avalanches.</p></div>
-
-<p>Therefore, the tropical Atlantic waters must have been reduced
-to a lower temperature during a frigid age than the
-tropical waters of the Indian Ocean or the western part of the
-tropical Pacific, as a large portion of the great equatorial current
-of the latter oceans, during its western movement, was exposed
-to the rays of a tropical sun for a much longer time, after
-being replenished by the cold waters of the high latitudes, than
-the tropical currents of the Atlantic; and it is probable that,
-on account of tropical America possessing a colder climate than
-the tropical lands of the eastern continent during the frigid
-epoch, the cold of the western continent was more destructive
-to its fauna and flora than was the case in the tropical regions
-of the eastern continent. Professor Wright, in his valuable work
-on “The Ice Age of North America,” gives a good description
-of the “flight of plants and animals during the glacial epoch,”
-and also of the extermination of many superior species because
-of the frigid climate.</p>
-
-<p>The high lands of tropical Africa, above the altitude of
-three thousand feet, and situated in places of great precipitation,
-were probably covered with snow and ice during the
-glacial age. Travellers have reported that islands composed
-partly of granite bowlders are found in the lakes at the head-waters
-of the Nile. But the glaciers that invaded the tropical
-latitudes were of short duration compared with the ice-sheets
-that burdened the lands of the temperate zones. Besides, such
-tropical ice as flowed to the low lands was so near a melting
-condition that it made small impression on the rocks; but on
-steep mountain slopes, where the movement of the ice was
-comparatively rapid, it possessed considerable eroding power.<span class="pagenum" id="Page_60">60</span>
-The climate of the tropical zone on both continents during the
-perfection of an ice period was so cold that such animals as
-could not endure a low temperature retreated into the warmest
-regions of the equatorial latitudes, while many species who
-failed to reach such places perished. And especially was this
-the case with the pre-glacial fauna of the western continent.
-Mr. W. B. M. Davidson, in his treatise on Florida phosphates,
-says: “The great mammal hordes of the glacial epoch were
-driven into Florida in their flight southward for life and
-warmth, and there perished because of the deadly cold which
-ever moved southward. The Florida waters grew so icy cold,
-fishes, reptiles, and mammoth animals died, and added their
-frames and teeth to the valley of bones now found in that
-southern region.”</p>
-
-<p>Such species of the tropical fauna of the ocean as survived
-the ice age could have existed only in torrid seas with small
-connection with the cold oceans during the frigid epochs. For,
-with the diminished oceans of a cold period, it seems that
-the conditions were favorable for the maintenance of such
-seas in the region of the East India Islands.</p>
-
-<p>Such parts of Southern Europe and Northern Africa as
-bordered on the Mediterranean Sea probably possessed a
-milder climate during the ice age than regions in the same
-latitudes on the Atlantic coast, for the reason that the North
-Atlantic was proportionally a greater receptacle for icebergs
-which were launched into it from the numerous glaciers of
-North-eastern America, Greenland, Iceland, and North-western
-Europe than the great inland sea obtained from its less frigid
-shores. And it may have happened that during such times the
-tropical waters of the Indian Ocean had some connection with
-the Mediterranean through the Red Sea and Suez, and so during
-portions of the year the waters of the tropical Indian
-Ocean were forced by the periodical winds into the inland sea.
-It is the opinion of several writers that man, along with other
-species of animal life, existed previous to the glacial period;<span class="pagenum" id="Page_61">61</span>
-for, since the seas and lands of the globe were chilled, the conditions
-seem to have been less favorable for the spontaneous
-generation of animate bodies than during the previous warm
-ages. Therefore, it appears that the generative ages should
-be ascribed to the long genial eras prior to the glacial epochs.
-For it is probable that the lower parts of the ocean, which
-now possess a low temperature even in the tropical latitudes,
-were, during the warm eras, wholly composed of warm water,
-because the surface waters of the antarctic seas of that age,
-which supply the great under-currents of the ocean, would
-possess a high temperature; and it is probable that the temperature
-of a large portion of the seas of the torrid zone was
-for a long time maintained at blood heat. For it should be
-considered that the waters which moved from the torrid seas,
-after making their journey through the warm regions of the
-high latitudes, would on their return to the tropics retain a
-large portion of the heat they acquired in the torrid zone before
-making their journey to the mild polar regions.</p>
-
-<p>And, when we reflect how the heat of the sun’s rays was
-conserved by the ocean waters, and that their circulation during
-such times was almost wholly performed by the winds, as
-the difference of temperature between the polar latitudes and
-the equator was small, it appears that during the eras previous
-to the glacial age the oceans must have obtained a higher
-temperature than possessed by the warmest seas of to-day.</p>
-
-<p>According to the discoveries of Professor Wright and others,
-ancient stone implements have been found beneath the glacial
-drift, as well as the bones of animals whose descendants are
-now living, which goes to prove that man, with other species of
-fauna which now inhabit the earth, existed anterior to the
-glacial epoch.</p>
-
-<p>And on consideration it seems unreasonable to suppose that
-any of the superior species of animals could have been brought
-into existence since the waters and lands of the earth were
-chilled by the cold of a glacial age. And it appears that many<span class="pagenum" id="Page_62">62</span>
-species of animals which are known to have survived the cold
-periods were indebted for such survivals to the slow process
-through which a frigid period is brought about, thus affording
-time for evolutionary inurement to the slow increase of cold
-which at length perfects a glacial epoch.</p>
-
-<p>The inurement to cold acquired by animals during the
-glacial age is still an attribute possessed by many species
-of fauna to-day. For, when a warm climate took possession of
-the tropical zone, it was deserted by a large portion of the
-animals that found refuge there during the glacial age.</p>
-
-<p>Thus, while the seas and shores of the cooler latitudes swarm
-with animate bodies, the torrid latitudes seem comparatively
-lonely to the voyagers on the tropical oceans.</p>
-
-<hr />
-<div class="chapter">
-<h2 id="CHAPTER_IV" class="vspace">CHAPTER IV.<br />
-
-<span class="subhead">THE GLACIERS OF THE TEMPERATE ZONES.</span></h2>
-</div>
-
-<p><span class="firstword">Having</span> asserted that during the culmination of a frigid
-period the ice-sheets spread over a portion of the lands of the
-tropical zone, I will give my views, with those of several
-writers, on the spread of ice-sheets within the now temperate
-latitudes; and meanwhile I will repeat a portion of my former
-essays on the subject. Professor Hitchcock, in his lectures on
-the early history of North America, says that “the history opens
-with igneous agency in the ascendant, aqueous and organic
-forces become conspicuous later on, and ice has put on the
-finishing touches to the terrestrial contours.” But there appear
-to be various opinions held by geologists respecting the changes
-brought about on the earth’s surface during the glacial period.
-Some think that glaciers have never been an important geological
-agent, while others assert that during the glacial epoch
-heavy ice-sheets covered the elevated portions of Western<span class="pagenum" id="Page_63">63</span>
-North America as far south as the thirty-sixth parallel of latitude,
-and Eastern North America was overspread with ice-sheets,
-which attained a depth of five or six thousand feet, and
-were able to move their débris over wide lands of little declivity
-toward the sea, their immense deposits forming the lands
-of Cape Cod, and also the islands of Nantucket and Martha’s
-Vineyard.</p>
-
-<p>But it is now said that this implied magnitude of the glacial
-deposits on the lands skirting the New England coast is without
-foundation, since the larger bulk of these islands consists
-of upturned Cretaceous and Tertiary strata, which are only
-thinly covered with glacial débris, such as bowlders, gravel,
-clay, and sand, from the eroded shores of the mainland of
-New England. But it appears that the dislocated and folded
-cretaceous strata which underlie the glacial drift of Nantucket
-and Martha’s Vineyard were during an early period deposited
-on the bottom of a shallow sea, which then covered the Vineyard
-Sound, Buzzard’s Bay, and their surrounding lowlands.
-Thus the ice-sheets of the frigid age which moved over New
-England displaced the yielding stratified deposits of the shallow
-sea, and forced them southward in a disturbed condition to
-the position which they now occupy.</p>
-
-<p>Still, it is apparent that only a small portion of the glacial
-drift is found on these islands, which, according to appearances,
-must have been eroded and moved southward from the rocky
-lands of New England during the ice age; but there is sufficient
-to show that large quantities of such débris were carried
-over the islands into the Atlantic. And, judging from the
-eroded rocky New England lands, there must have been sufficient
-glacial drift moved over Nantucket and Martha’s Vineyard
-into the ocean beyond to far exceed in bulk the deranged
-Tertiary and Cretaceous deposits which now form so large a
-portion of the islands.</p>
-
-<p>For, when we look over lands bearing traces of the ice age,
-where the glaciers did not move their drift into the sea, so the<span class="pagenum" id="Page_64">64</span>
-terminal moraines of such glaciers can be better estimated, we
-can realize the great work that has been performed by the ice-sheet
-that overran New England during a frigid age.</p>
-
-<p>Professor James Geikie states, in his discussion on the glacial
-deposits of Northern Italy, that the deposits from Alpine
-glaciers of a frigid period “rise out of the plains of Piedmont
-as steep hills to a height of fifteen hundred feet, and in one
-place to nearly two thousand feet. Measured along its outer
-circumference, this great morainic mass is found to have a
-frontage of fifty miles, while the plain which it encloses extends
-some fifteen miles from Andrate southward.” And it is
-reported that there are found on the southern flank of the Jura
-numerous scattered bowlders, all of which have been carried
-from the Alps across the intervening plains, and left where
-they now rest. Many contain thousands of cubic feet, and not
-a few are quite as large as cottages.</p>
-
-<p>Such blocks are found on the Jura, at a height of no less than
-two thousand feet above the Lake of Neuchâtel. The Jura
-Mountains being formed of limestone, it is easy to distinguish
-the débris deposited by Alpine glaciers; and, from what I can
-learn of extensive glacial work, it appears that intervening
-plains, lakes, and sounds are so often found separating the
-source of ancient glaciers from their deposits that their existence
-becomes almost necessary to represent the general outlines
-of disturbance performed during an ice period. In consideration
-of such facts and the foregoing statements of reliable observers,
-I am prompted to offer my views on glacial work performed
-on a portion of the Pacific shores of North America,
-which seems to me to be much more extensive than hitherto
-supposed.</p>
-
-<p>Professor Whitney describes the coast mountains of California
-as being made up of great disturbances, which have been
-brought about within geologically recent times; and this statement
-I found to be so obvious in my travels over that region
-that it appears to me that the coast ranges originated in a different<span class="pagenum" id="Page_65">65</span>
-manner from the older Sierras. The western sides of
-the latter mountains everywhere show the great eroding power
-of ancient glaciers; and, when I considered their favorable position
-for the accumulation of snow during a glacial period, I
-was led to seek for the glacial deposits adequate to represent
-the great gathering of ice which an age of frigid temperature
-would produce.</p>
-
-<p>But it seemed to me that such deposits could not be found in
-the foot-hills of the Sierras, which contain the moraine of inferior
-ice-sheets that terminated at the base of the mountains.</p>
-
-<p>Under these conditions I came to the conclusion that during
-the earlier ice period the immense glaciers which must have
-formed on the western slopes of the Sierra range moved their
-gigantic accumulation of débris so far seaward as to form the
-range of hills now existing next the coast line, and perhaps
-the islands abreast the Santa Barbara coast, the Contra Costa,
-or eastern range, being formed during a subsequent ice period,
-in the same manner as the hills next the coast line.</p>
-
-<p>Still, it may be that neither of the coast ranges was the work
-of a single cold epoch; but the western range must necessarily
-have been the earliest deposit. Although the coast ranges differ
-from the Sierras in their make up, yet it does not disagree
-with the glacial origin of the former inferior mountains, from
-the fact that the ice-sheets, while moving their bulk westward,
-displaced the deposits of such bays, lakes, rivers, and marshes
-as lay abreast of the Sierra slopes. The advancing ice-sheets,
-thousands of feet in depth, moving from a lofty and steep incline,
-pressed and ploughed below the somewhat superficial cretaceous
-and alluvial strata which lay in their course. The disturbed
-strata, while forced along in confused heaps in front of
-the ice, were amassed in ridges sufficient to form the hills of
-the coast ranges. The bowlders found imbedded in several of
-the coast hills must have been moved by the ice from the Sierras
-on account of the coast ranges not having a rocky core of
-sufficient firmness to give shape to such bowlders. Moreover,<span class="pagenum" id="Page_66">66</span>
-the temperature of the Pacific waters would not be favorable
-for glaciers to form on the coast ranges, with the ice-sheets of
-the Sierras terminating at the foot-hills.</p>
-
-<p>The Sacramento and San Joaquin Valleys are now covered
-by recent river deposits. Therefore, the glacial drift which
-should be traced from the Sierras to the coast ranges is concealed.</p>
-
-<p>Yet the abraded appearance of exposed solid rocks at the
-base of the foot-hills, and also the scattered bowlders which
-gradually disappear beneath the diluvial deposits of the plains,
-indicate that the Sierra ice-sheets could not have ended at the
-foot-hills, but must have moved further westward, while gathering
-immense accumulations in their front, sufficient to form
-the coast hills, the débris thus amassed being able to arrest the
-further movement of the ice seaward.</p>
-
-<p>The coast ranges in several places have been subject to igneous
-action, which may have been brought about through heat
-generated from pressure exerted on the interior masses after
-the ice had melted away, the heat thus produced being sufficient
-to cause outbursts of lava, where the nature of the material
-favored combustion. The low plains, lakes, and bays
-which separate the Sierras from the coast hills are in a position
-similar to the shallow sounds which separate Nantucket,
-Martha’s Vineyard, and Long Island from the inferior slopes
-of the mountains of New England. Therefore, while agreeing
-with glacialists, who believe that great geological changes have
-been wrought by ice-sheets in Italy and New England, it appears
-to me that the ancient glaciers of the Sierra Nevada have
-accomplished more extensive work, owing to the Sierras being
-situated in a more favorable position to receive the humidity
-of the ocean.</p>
-
-<p>Hence, with a low temperature, vast quantities of snow must
-have collected on their lofty sides; and at the same time their
-great height and declivity would cause the ice to move down
-their steeps with greater force than the glaciers which passed<span class="pagenum" id="Page_67">67</span>
-over New England. Writers who have given the subject considerable
-study think that the deep valleys of the Sierra Nevada
-were produced by disruptive rather than erosive agencies.
-This conclusion has been formed from the lack of large accumulations
-of débris about their lower extremities, which would
-not be the case if such valleys were the result of glacial
-erosion. But, should the coast ranges be attributed to glacial
-action, as has been stated, we can well account for the débris
-that should accumulate from the erosion of the deep valleys.</p>
-
-<p>The only thing that could prevent the ice from gathering
-on the Sierra Nevada range during an ice period in greater
-masses than on any mountains in the northern hemisphere
-would be the lack of cold; for, with a low temperature, the
-fall of snow would be enormous. This is shown by the great
-snow-fall during the short mild winters of to-day. Therefore,
-with ice-sheets covering a large portion of the lands of the
-high northern latitudes, and with the Japanese current which
-tempers the north Pacific waters made cold in the manner
-described in the foregoing pages, and while the sea along the
-north-west coast of America was strewn with icebergs launched
-from Alaska and British Columbia, it seems that California
-must also have obtained a frigid climate during the ice age.
-Therefore, on account of its exposure to the ocean winds, and
-the consequent heavy snow-fall, the accumulation of ice on its
-lands must have been immense. For, when it is considered
-that the glaciers of North America extended southward even
-into the torrid zone sufficient to cover a large portion of Central
-America, it is unreasonable to suppose that any portion
-of California could escape being covered by heavy ice-sheets
-during the glacial epoch. The comparatively scant fall of rain
-and snow over Greenland is known to form ice-sheets hundreds
-of feet in thickness.</p>
-
-<p>Therefore, what must have been the depth of ice over the
-high lands of the Pacific coast north of California at the culmination
-of a frigid period? The descriptions given by Dr.<span class="pagenum" id="Page_68">68</span>
-Dawson and others, of glacial phenomena along that coast,
-favor the impression that an immense ice-sheet at one time
-deeply covered the whole region from the top of the mountain
-range to the ocean.</p>
-
-<p>Thus all the deep channels were filled and all the islands
-deeply overrun with ice, while the immense bergs launched
-from the shore and carried by the winds and currents southward
-were probably not melted until they reached the tropical
-latitudes. Thus, when the whole circulation of the Pacific
-waters are taken into account, it will be seen that their temperature
-during the ice age must have been considerably lowered.
-The movement of ice-sheets on the Pacific slope was probably
-local in character, and not connected with the movement of
-ice on the eastern sides of the mountains.</p>
-
-<p>From what I have seen of the vast territory lying between
-the Sierra Nevada and the Rocky Mountains it appears that it
-obtained much heavier ice-fields than generally supposed. Professor
-Geikie in his lectures says of this region that during
-the glacial age, “in the Second Colorado Canyon, the sides
-were completely glaciated from bottom to top. These walls
-are from 800 to 1,000 feet high, and at the thickest point the
-glacier was 1,700 feet thick”; and he says that “the country
-around Salt Lake was covered with ice, for the rocks about
-there show the action of ice, and that the bones of the musk-ox
-are found there.” This vast area of ancient ice, although
-subject to little movement in its interior basin, still, in whatever
-movement it may have had, must have found its main
-outlet through the Grand Canyon of the Colorado.</p>
-
-<p>For in no other way can we account for the erosive forces
-necessary to excavate that immense chasm. Not even the
-mighty torrent that carried off the waters of the melting ice-sheets
-that covered the interior portion of the continent could
-accomplish work of such magnitude.</p>
-
-<p>According to Professor Geikie’s observations the Second
-Colorado Canyon was filled with glaciers during the ice age.<span class="pagenum" id="Page_69">69</span>
-Therefore, it seems that these glaciers must have flowed down
-into the Grand Canyon, and there united with glaciers flowing
-from more northern regions.</p>
-
-<p>An account of a collecting expedition to Lower California
-by G. Eison, in 1895, describes ancient moraines at the extremity
-of the peninsula as being prominent, large, and steep.
-This region lies under the tropic of Cancer, and 8° south of
-the mouth of the Colorado River where it empties into the
-Gulf of California. Hence it appears that the temperature
-of that portion of North America during the ice age was favorable
-for the great glacier of the Colorado Canyon to have
-flowed into the Gulf of California.</p>
-
-<p>The wide, shallow basins of Utah and Nevada were filled
-with the water from the melting ice-sheet on the breaking up
-of the ice period, and the lakes so caused remained for a considerable
-time after the disappearance of the ice. But, owing
-to the great evaporation and light rain-fall of that region, the
-lakes gradually shrank away, the filling and emptying of the
-lake basins being governed by the cold and mild epochs.</p>
-
-<p>The conglomerate deposits in the Appalachian district of
-North America are known as occurring on a large scale. Professor
-Shaler is inclined to attribute them to glacial action,
-because he knows of no other force that could bring together
-such masses of pebbles from a wide-spread surface. In Eastern
-Kentucky and East Tennessee these deposits are found to
-be several hundred feet in thickness. Such accumulations of
-apparent glacial origin are to be found from New Brunswick
-to Alabama.</p>
-
-<p>Hence it seems that the ice during a frigid period followed
-down the Alleghany range even so far south as Georgia and
-Alabama; and for a time, when the ice attained its greatest
-spread, it flowed over the central portion of the Gulf States.
-For how else can we account for the clay mixed with gravel and
-pebbles and stony fragments being spread broadcast over that
-region?</p>
-
-<p><span class="pagenum" id="Page_70">70</span>
-I know that such statements do not agree with the views of
-glacialists who have written on the subject, and have drawn
-the glacial boundary from seven to ten degrees further north,
-where a line of bowlders with other glacial débris is plainly
-traced. Still, it appears to me that a line of bowlders deposited
-by an ice-sheet spreading over a continent and across
-many degrees of latitude cannot be compared to the moraines
-of inferior mountain glaciers of the temperate latitudes of the
-present age.</p>
-
-<p>An ice-sheet moving from a high latitude to a lower would,
-while in the colder latitude, freeze firmly to the rocky ledges,
-and hold them so strong in its frigid grasp as to break off the
-weaker portions of the rocks, and drag them toward a milder
-region, as far as the freezing grip of the ice-sheet would permit;
-but, on gaining lower and milder latitudes, the holding
-and dragging power of the ice would be lost on account of the
-increased warmth of the earth over which the glacier must
-pass, and also because of the ice-sheet having lost a portion of
-the low temperature acquired in the higher latitudes. Therefore,
-on such lines the bowlders would be released, while the
-ice-sheet would still move on, although largely deprived of its
-eroding power.</p>
-
-<p>This is the probable reason why a line of glacial débris,
-largely composed of bowlders, is found to extend across the
-Middle and Western States, and so generally supposed to be
-the glacial boundary of a frigid period. But there is no reason
-to suppose that an ice-sheet, although deprived of its eroding
-power, was arrested in its southern movement on the line of its
-stony débris, because there could be no sudden change of temperature
-in a particular latitude on the eastern lands of North
-America to cause an abrupt ending of the ice-sheets. And
-there appears to be nothing to hinder the ice from gathering
-and flowing over lands warm enough to loosen its implements
-of erosion; for there is much to show that the ice-sheets flowed
-much further southward, even into the middle portion of the<span class="pagenum" id="Page_71">71</span>
-Gulf States, and there spread the clay mixed with gravel and
-pebbles, with now and then a bowlder, over the land. The
-scattered bowlders, found in numerous instances many miles
-south of the bowlder line, were so deeply imbedded in the ice-sheet
-that they could not be dropped on the usual releasing
-ground. The ice-sheet, when deprived of its rocky, eroding
-implements, would, while flowing over the land, leave few or
-no imprints on the rocks; but it would probably move and
-spread a large amount of clay, gravel, pebbles, and sand over
-its wide course, especially if the ice moved from a region
-abounding with such material.</p>
-
-<p>Should we place the glacial boundary on the line of the rocky
-débris, how could we account for the glaciated stones found on
-the hills and plains situated far southward of the bowlder-strewn
-regions of the Middle and Western States? The clay
-mixed with gravel and sand, and spread so broadcast over
-a large portion of Georgia and even into Northern Florida,
-makes it appear that the ice of a cold period must have covered
-that southern region.</p>
-
-<p>Moreover, it seems to have been through the great abrasion
-which only ice-sheets could perform that the sands of the
-Florida peninsula were produced; for on examination they
-seem to have resulted from the abrasion and weathering of
-crystalline rocks.</p>
-
-<p>The worn remnants of such rocks are now found in the
-southern Appalachian range. In fact, the hills and mountains
-of that region at the present time are supposed to be a small
-remnant of the ancient highlands. Thus, on consideration, it
-appears that the sands caused by the action of glaciers were,
-on the disappearance of ice-sheets, blown by the strong north-west
-winds toward the Florida peninsula as fast as the receding
-waters of the ocean which flowed the lowlands on the
-breaking up of the ice age would permit; and in this way the
-sand was spread over the lowland region, which was largely
-composed of coral sea shells and other marine matter. And it<span class="pagenum" id="Page_72">72</span>
-seems that the sand must have been blown over large areas in
-Florida soon after the ending of the frigid period, because the
-sand, in order to be moved by the winds, must have spread over
-a country nearly destitute of vegetation; and such would be
-the condition of that region during times which succeeded the
-ice period and the subsequent brief flowage of the lowlands on
-the ending of the frigid age, which would not be the case if
-such sands resulted entirely from water erosion and weathering,
-because with such a state of things the country would be
-covered with forests and grasses, which would prevent the sand
-from being moved by the winds to any great extent.</p>
-
-<p>This goes to show that the region of the Gulf States was so
-much affected by the cold of the glacial period, together with
-the submergence of the lowlands at its close, its flora and also
-its animals were exterminated; for how else can we account
-for the abundant fossil remains of animals now found buried
-in the Florida sands? It appears also that, when Florida was
-being covered with drifting sands, many of the lake basins now
-formed did not exist, as the wind-blown sand could not have
-crossed a continuous chain of lakes like the St. John’s River;
-and it is an easy matter to-day to trace the beds of the ancient
-lakes that prevented the sands from drifting over certain lands
-now nearly destitute of it. And it is probable that the sea
-flowed the lowest lands during the period when the winds were
-drifting the greater portion of the sands over the peninsula.
-Therefore, regions which embrace the Everglades and portions
-of the Indian River territory are quite free from heavy sand
-deposits, and so also are the extensive flat woods of the
-peninsula.</p>
-
-<p>Since the sands blew over the ancient desert of Florida, many
-lake basins have been formed because of the sinking of the
-ground. This sinking of the ground is a common occurrence
-in limestone regions, where a great amount of material is
-moved in solution, leaving caverns whose roofs often fall in.
-The great amount of sand blown upon Florida caused the<span class="pagenum" id="Page_73">73</span>
-marine strata to give way in the weaker places under its
-burden. The sinks thus formed, probably of frequent occurrence
-at one time, have now nearly ceased. Still, there are
-depressions to be seen to-day where the tops of large pine-trees,
-which grew on dry, sandy land, are barely above the surface of
-the water which partly fills the basins so recently formed. Yet
-I would not assert that all of the depressions where Florida
-lakes exist were caused by the sinking of the ground; for the
-winds may have caused shallow basins in the sand, where the
-decayed vegetation has formed mud sufficient to hold the water
-which now partly fills such basins.</p>
-
-<p>The mobility of Florida sands can be seen to good advantage
-when exposed to a strong, dry north-west wind, where the
-ground happens to be destitute of vegetation. An observer can
-then realize what the result would be, should the whole land
-be deprived of vegetation and laid bare to the action of the
-winds.</p>
-
-<p>Under such conditions, not only would the winds be much
-stronger than now, but the air near the ground would be filled
-with sand, moving like drifting snow in a Dakota blizzard. And,
-furthermore, it is probable that the rainfall was very light
-while Florida was void of vegetation; and, even if shallow
-basins were formed, there would be a lack of rain to supply
-them with water.</p>
-
-<p>The wide plains west of the Mississippi River, extending
-southward into Texas, during the frigid period must have been
-covered with a sheet of ice and snow. And it is probable that
-it was not wholly a product of more northern latitudes, but
-was mostly produced by the snow which fell on the plains
-during the long winters of that period, which could not be
-melted away during the cold summers of an ice age, when it is
-considered that an ice-sheet, with a temperature sufficiently low
-as to carry glacial drift, covered the lands of Missouri as far as
-latitude 38° south; and it may have been through the pressure
-from an ice-sheet in its south-eastern movement that we are to<span class="pagenum" id="Page_74">74</span>
-account for the numerous ore-bearing faulting fissures traversing
-the limestone strata.</p>
-
-<p>The ice-sheet was also the probable cause of the erosion of
-the horizontal bedded stones, yet it appears that the ice did
-not greatly change the contour of the ground; for it is well
-known that glaciers do move over lands that are not frozen to
-the ice without causing much disturbance, especially where the
-gradient is small, and this was the probable condition of the
-Western plains during the ice age. Thus it seems that whatever
-disturbance this region has undergone could be partly
-attributed to ice-sheets without the presence of bowlder drift,
-because the temperature and texture of the ground in the limestone
-region were unfavorable for such accumulations; yet it
-may be owing to the action of ice that minerals once diffused
-are now found collected in fissures. The deep valleys through
-which the large rivers now pass on their way toward the sea
-were once filled with glaciers which flowed into them from
-their tributaries. Thus the deep trenches of the plains are
-largely the work of glaciers. It is generally supposed that
-the driftless region of Wisconsin was free from ice during the
-frigid period. But it seems impossible for this region to have
-escaped being covered by ice and snow, with the great lakes
-filled with glaciers, and the regions on all sides of the driftless
-area covered with ice.</p>
-
-<p>The reason why this territory escaped the drift from the
-north was on account of the hindrance which the drift-bearing
-ice-sheet encountered in the deep basin of Lake Superior. In
-this great depression the ice-sheet from the north was relieved
-of bowlders and other glacial drift, as well as obstructed in its
-southern movement.</p>
-
-<p>Therefore, the snow and ice which gathered on the driftless
-region had little movement in any direction, while the temperature
-and consistency of the ground under the ice were not
-favorable for the production of bowlder drift; and, when we
-consider that the Mississippi valley was deprived of great<span class="pagenum" id="Page_75">75</span>
-sources of warmth during the culmination of a glacial period,
-we are forced to the conclusion that its wide lands were also
-covered with snow and ice.</p>
-
-<p>The tropical waters of the North Atlantic were so much
-chilled by the floating icebergs of North-eastern America,
-Greenland, Iceland, and Northern Europe that the Caribbean
-Sea, its warmest reservoir, was reduced to a temperature so
-low that the easterly winds which blew over its waters were
-unable to prevent ice-sheets from gathering on Eastern Nicaragua.</p>
-
-<p>Therefore, during such frigid times it appears that, with the
-waters of the Caribbean Sea and Gulf of Mexico reduced to a
-low temperature, it was impossible for the great Mississippi
-valley to escape glaciation, while being surrounded by cold seas
-and glaciated lands which extended even into the tropical latitudes.
-The broad, level lands of British America and Siberia
-during the ice age must have been thickly covered by the snow
-which fell on the deeply frozen plains, besides the large amount
-of snow that the cold westerly winds must have drifted over
-their icy surface from lands of greater snow-fall on their western
-borders. This snow during such freezing times could not be
-melted away.</p>
-
-<p>The great ice-sheets thus formed over wide, level lands could
-have but little motion in any direction, certainly not sufficient
-to cause glacial drift of much magnitude; yet the ice-sheet, at
-one stage of its existence, probably served to widen and deepen
-the channels of the great rivers which empty into the Arctic
-Ocean from these vast regions, and the glacial débris from such
-erosion was deposited in the arctic seas.</p>
-
-<hr />
-
-<p><span class="pagenum" id="Page_76">76</span></p>
-
-<div class="chapter">
-<h2 id="CHAPTER_V" class="vspace">CHAPTER V.<br />
-
-<span class="subhead">REMARKS ON THEORIES ADVANCED FOR EXPLAINING ICE
-PERIODS.</span></h2>
-</div>
-
-<p><span class="firstword">On</span> Nov. 12, 1891, Professor Geikie made his presidential
-address before the Edinburgh Geological Society, the subject
-being “Supposed Causes of the Glacial Period.”</p>
-
-<p>Many of his views advanced in this lecture were so much in
-accordance with my own that I am induced to repeat them.
-He said that the glacial period was a general phenomenon due
-to some widely acting cause, and that where we now have the
-greatest rain-fall the greatest snow-fall took place, and that the
-Pleistocene period was characterized by great oscillations of
-climate, extremely cold and very genial conditions alternating.
-He also said that in glacial and post-glacial times changes in
-the relative level of the land and sea had taken place, and any
-suggested explanation which did not fully account for these
-various climatic and geographical conditions could not be satisfactory.
-And, while examining the earth-movement hypothesis,
-he pointed out that in the first place there was not the
-least evidence of great continental elevations and depressions
-in the northern hemisphere, such as the hypothesis postulated.
-Next he showed that, even if the diserrated earth-movements
-were admitted, they would not account for the phenomena.</p>
-
-<p>Such changes, no doubt, would profoundly affect the maritime
-regions of North America and Europe; but they would not
-bring about the conditions that obtained at the climax of the
-ice age.</p>
-
-<p>Another objection to the earth-movement hypothesis was
-this: it did not account for interglacial conditions. The advocates
-of that hypothesis imagined that these conditions would
-supervene when the highly elevated northern regions were depressed
-to their present level. But these were the conditions<span class="pagenum" id="Page_77">77</span>
-that obtained at the present time; and yet in spite of them the
-climate was neither so equable nor so genial as that which obtained
-in interglacial times and during the mild stage of the
-necessary post-glacial period.</p>
-
-<p>Therefore, he said that the earth-movement hypothesis should
-be rejected, not only because it was highly improbable that such
-wonderfully rhythmic elevations and depressions of northern
-lands could have taken place, but chiefly because it did not
-explain the conditions of the glacial periods and interglacial
-times.</p>
-
-<p>Still, Professor Geikie says that in glacial and in post-glacial
-times changes in the relative level of the land and sea had taken
-place; and it is reasonable to suppose that such changes were
-obtained in the high latitudes of both hemispheres during the
-breaking up of the last ice age.</p>
-
-<p>We have previously pointed out that much of the ice of the
-glacial period in the southern hemisphere was melted away,
-and its waters warmed sufficiently to assist the Gulf Stream
-and Japanese current to bring about a mild period in the northern
-hemisphere; for without such assistance they would be
-unable to disperse the vast ice-sheets of the northern latitudes.</p>
-
-<p>Still, the attraction of the southern ocean waters into the
-northern seas must have commenced as soon as the growing
-ice-sheets of the large continents and islands of the high northern
-latitudes surpassed the growth and weight of the glaciers
-on the smaller lands of the southern hemisphere.</p>
-
-<p>Hence the attraction of the ocean waters northward overcomes
-the force of the prevailing winds from moving an undue
-portion of the ocean’s surface waters southward. Consequently,
-the movement of water from the southern seas into the northern
-latitudes continued so long as the vast northern ice-sheets increased
-in weight greater than the glaciers of the southern
-hemisphere. Therefore, at the perfection of a frigid age straits
-and channels situated so far southward as the Magellan and
-Cape Horn channels were much diminished in width and depth<span class="pagenum" id="Page_78">78</span>
-or entirely deprived of their waters. Through this cause such
-reduced channels were readily filled with glaciers in a region of
-great snow-fall. The depth of water on the submerged northern
-lands at the close of the glacial period is not known.</p>
-
-<p>According to Professor Dawson, in the township of Montague
-in Ontario the skeleton of a whale was found in post-glacial
-deposits 440 feet above tide-water, and marine shells are
-known to occur on Montreal mountain at an elevation of 520
-feet above the ocean; and it is said that there are traces of
-submergence of over one thousand feet in the higher latitudes,
-including the islands of Great Britain.</p>
-
-<p>According to the researches of Dr. J. W. Spencer, one great
-sheet of water covered most of the great lake region about the
-close of the ice age; and the lower strands of these inland
-seas are known to be connected with old marine shore lines.
-The probable reason why so few sea-shells collected on the
-glacial drift during such times was because of so much marine
-life having been exterminated in the high northern latitudes
-during the frigid age. Therefore, the sea, in the short period
-of northern submergence, left but few traces on the glacial
-drift it once flowed.</p>
-
-<p>Thus it will be seen that, if the ocean waters were attracted
-northward through the preponderance of northern ice-sheets,
-they not only assisted in melting the northern ice, but also
-served to greatly reduce the waters in the Cape Horn channel,
-and so largely prevented the independent circulation of the
-southern ocean, thus furthering a mild climate in the southern
-hemisphere until the prevailing winds, after the northern ice-sheets
-were melted, were able to move more of the ocean waters
-southward than they could move northward, owing to the ocean
-currents setting southward being less obstructed than the lesser
-currents setting northward. This tendency of the ocean waters
-to move southward I have before explained in the preceding
-pages.</p>
-
-<p>But I will say in addition that, on further consideration, it<span class="pagenum" id="Page_79">79</span>
-seems that one of the main causes of the waters of the augmented
-northern oceans moving southward so soon after the
-melting of the ice from the northern lands was on account
-of so much water being attracted southward to the great low
-sea-level east of Cape Horn. This vast low sea-level remained
-a great area of attraction for the northern seas until so much
-northern water was moved into the southern ocean as to reduce
-the seas of the northern hemisphere and augment the southern
-ocean sufficiently to enlarge the Cape Horn channel, thus causing
-the extinction of the vast low sea-level that furnished such
-great attraction for the waters of the more northern latitudes.</p>
-
-<p>If the earth-movement hypothesis, so wholly rejected by Professor
-Geikie, fails to explain the cause or causes of a northern
-ice age, it seems to be still more inadequate for explaining the
-occurrence of ice periods extending over both hemispheres.
-For it is not probable that portions of continents and large
-islands rose above the snow-line in both temperate zones during
-the same period of time, and then again obtained their present
-level with the occurrence of a mild era.</p>
-
-<p>Those who maintain that the continents of North America
-and Europe rose to great elevations during the ice age, in order
-to prove their assertions, point to the fiords which indent the eastern
-and western coasts of North America, and also to the fiords
-of Norway, as having been eroded by streams of ice that flowed
-along the bottom of such gorges when they were above the sea.</p>
-
-<p>But it appears that such erosion could be performed by heavy
-glaciers with the lands at their present level. A glacier three
-thousand feet thick would fill and press heavily on the bottom
-of a gorge fifteen hundred feet in depth. Therefore, should
-the bottom of a fiord sink hundreds of feet below the sea-level,
-a glacier several thousand feet thick flowing through and over
-it into a sea of much greater depth, the erosion at the bottom
-of the sunken channel would be greater than on the land above
-the sea, where the ice possessed less weight.</p>
-
-<p>Therefore, it is not necessary that lands pierced by deep<span class="pagenum" id="Page_80">80</span>
-fiords should have acquired a higher level during the ice age
-than they now maintain. And it is probable that on the antarctic
-continent ice erosion may be going on at much greater
-depths below the sea-level than the deepest channels in the
-high northern latitudes. For it is likely that the temperature
-of a glacier is so low in such frigid regions that it holds firmly
-in its freezing grasp such bowlders as may become detached
-from the rocks, thus giving it great erosive power.</p>
-
-<p>But this great eroding ability could not be maintained by
-glaciers in the lower latitudes, where a higher temperature
-would largely deprive the ice of its abrading properties except
-on the steep slopes of mountainous lands.</p>
-
-<p>There are deposits of ice on the North American coast bordering
-the arctic shores, and also on Northern Siberia, that are
-supposed to have existed since the last frigid period, and are
-likely to be preserved into a future cold age, which now appears
-to have made considerable progress on Greenland and other
-ice-clad arctic shores on account of the independent circulation
-of the Arctic Ocean waters, which largely excludes the Gulf
-Stream from the polar seas; and it is for this reason that the
-glaciers on the elevated lands of Iceland are being enlarged
-and rapidly advancing. Yet, notwithstanding the gathering of
-ice and increasing coldness of lands largely removed from the
-warm Gulf currents, there are still mountain regions where
-glaciers may have been preserved through post-glacial times,
-although directly to the leeward and under the influence
-of the Gulf Stream and Japanese currents. These glaciers are
-situated in the Alpine districts of Europe and on the mountain
-ranges of Alaska. It would appear that, were the climate
-growing gradually colder in the northern temperate zones, such
-glaciers should be increasing in size.</p>
-
-<p>Yet it is said that such is not always the case. This is probably
-owing to their being subject to the genial influence of
-the tropical currents. For, although the climate of Europe
-and Alaska may have been slowly growing colder for centuries,<span class="pagenum" id="Page_81">81</span>
-still the slow shrinkage of these once immense glaciers may
-still be going on, although at a much slower rate than formerly,
-even if the tender plants of these latitudes, because of the
-growing coldness, have gradually moved southward.</p>
-
-<p>As to the Alpine glaciers, M. Forel reports from data he has
-collected that there have been several enlargements and diminutions
-during the last century. And since 1875 enlargements
-have taken place, their shrinkage being caused by warm and
-dry weather, while their enlargement was brought about during
-cold and rainy seasons. The glaciers of Alaska cannot attain
-much extension until the waters of the great Japanese
-stream acquire a lower temperature. There is at this date a
-small current setting down through the eastern side of Bering
-Strait, bearing field-ice in the spring season down to Anadyr
-Gulf. The Okhotsk Sea in the spring season furnishes considerable
-field-ice to cool the north Pacific waters, and the wintry
-winds which sweep down from the high lands of Northern Asia
-also serve to chill the Pacific seas; but all such sources of cold
-combined at this age have but little general effect on the vast
-Japanese current, which still has warmth sufficient to prevent
-the increase of glaciers on Alaska.</p>
-
-<p>This great ocean stream in its impact against the shores of
-Oregon causes a high sea-level, which is mostly turned southward
-by the prevailing north-west winds. Still, a comparatively
-small stream sets along the shore of the Alaska Gulf, and
-also through the island passages toward a slight low sea-level,
-to the leeward of the Alaska peninsula; and it is probable
-that this current which warms these in-shore waters is favored
-by the difference of temperature and density between the
-waters abreast Oregon and the Gulf of Alaska, and it may be
-owing to the same cause that a small stream is sent along the
-eastern shore of Bering Strait into the deep portions of the
-Arctic Ocean. Thus because of the warm waters that proceed
-from the great Japanese current the glaciers of Alaska are
-prevented from increasing their bulk.</p>
-
-<p><span class="pagenum" id="Page_82">82</span>
-The only way to furnish the Japanese stream with colder
-water, and so cause glaciers to increase on the north-west coast
-of America, is through the great Humboldt current, which has
-its rise in the southern ocean west of Patagonia and the Cape
-Horn channel, where a moderate but vast high sea-level is
-formed on account of the great drift current of the southern
-ocean being somewhat obstructed on its passage through the
-Cape Horn channel, which is about one-third the breadth of
-the westerly wind-belt.</p>
-
-<p>Therefore, the northern portion of the waters of the high
-sea-level so caused are attracted northward to the low sea-level
-abreast Peru, from whence they are moved by the south-east
-trade winds as a drift current to the equatorial latitudes, thus
-meeting and mingling with the returning Japanese current
-abreast Central America, and so giving head to the great
-equatorial stream which moves westward over the Pacific
-Ocean, partly impelled by the trade winds, and, on gaining
-the western side of the ocean, sends off from a moderate high
-sea-level a large stream to the low sea-level caused by the
-westerly winds abreast Japan, from whence it is drifted by
-the same winds over to the north-west coast of America, thus
-forming the great Japanese current.</p>
-
-<p>Meanwhile the temperature of the Humboldt current, being
-governed by the temperature of the southern ocean from which
-it takes its rise, is cooling at a slow rate through the enlargement
-of ice-sheets in the antarctic regions, while the increase of
-glaciers on Patagonia will in time greatly add to its coolness,
-and so lower the temperature of the equatorial current from
-which the Japanese current branches, the latter current being
-made cooler through the increase of coldness of the former
-streams. Therefore, the temperature of Alaska, which is
-governed by the Japanese current, will slowly acquire a colder
-climate; and, consequently, its glaciers will increase in size
-sufficient to launch icebergs into the Pacific to be currented
-southward, and so still further lower the temperature of the<span class="pagenum" id="Page_83">83</span>
-Eastern Pacific waters, and consequently the equatorial current
-from which the Japanese stream branches, and so eventually,
-under the above conditions, cause heavy ice-sheets to spread
-widely over the north-west coast of North America.</p>
-
-<p>It will be seen from the above explanations how an increase
-of cold in the southern hemisphere is necessary to cause a wider
-spread of ice-sheets on lands in the northern hemisphere.</p>
-
-<p>Especially is this the case to promote the gathering of
-glaciers on the west coast of North America. The great
-equatorial current while on its way to the Indian Ocean not
-only sends off the Japanese stream, but also the East Australian
-current, which is like the Japanese current, having its
-temperature lowered in proportion as the equatorial stream
-is cooled. Therefore, the southern ocean is slowly being
-deprived of equatorial heat from this source.</p>
-
-<p>I have explained how the increasing coldness of the superior
-oceans of the southern hemisphere affects more or less the
-temperature of the Gulf Stream, which meanwhile is only able
-to enter a small portion of its waters into the Arctic Ocean
-after undergoing a long cooling process as a drift current;
-and, while thus mingling with the arctic waters, it is not able
-to prevent the gathering of ice-sheets on Greenland, where
-glaciers are launching bergs to float southward as far as the
-latitude of 40° north. Consequently, the northern seas are
-now being cooled as well as the seas of the southern hemisphere.</p>
-
-<p>Yet this cooling process is so slow there is a lack of data to
-show that the temperature of the high latitudes is lowering.
-Our thermometrical observations are of such recent date
-they cannot be used to determine climatic changes which requires
-centuries to bring about. Still, it is generally known
-that the climate of Northern Europe has been accused of
-growing colder. The vine no longer flourishes on the shores
-of Bristol Channel or in Flanders or Brittany; and vineyards
-are no longer planted on the elevated shores of France where<span class="pagenum" id="Page_84">84</span>
-they flourished three hundred years ago. Arago did not refuse
-to believe that the laws regulating the temperature of
-Western Europe had notably altered. This is proved, he said,
-by the general retrogradation of the vineyards southward.</p>
-
-<p>The recent deadly freezing of the orange groves of Florida
-makes it uncertain whether the cultivation of the orange can
-again be successful in the counties where during this generation
-it has been very profitable.</p>
-
-<p>Travellers visiting Iceland say that the old accounts of its
-prosperity seem strange to those who now visit its shores;
-and it is narrated in the Sagas that in early times sheep could
-shift for themselves during winter, and that there were
-large forests and that corn ripened. Several years ago a correspondent
-of the <cite>Spectator</cite>, writing from Northern Russia
-where the Volga is locked with ice for six months in the year,
-stated that “the people were beginning to show increased resentment
-at the climate, and that there was reason to believe
-that the northern government of Russia would be abandoned
-to the desert. The people silently glide south by the tens of
-thousands every year, so the life of Russia was concentrating
-in the south.”</p>
-
-<p>It is now the opinion of travellers in arctic lands that the
-inhabitants of the Esquimaux regions are decreasing, as are
-also the inhabitants of Northern Siberia.</p>
-
-<p>A writer in the North China <cite>Herald</cite>, of Shanghai, says that
-“the climate of Asia is becoming colder than it formerly was,
-and its tropical animals and plants are retreating southward
-at a slow rate. In the time of Confucius elephants were in use
-on the Yangtse River. A hundred and fifty years after this
-Mencius speaks of the tiger, the leopard, the rhinoceros, and
-the elephant as being in many parts of China.</p>
-
-<p>“It is also said that the ferocious alligator, that formerly infested
-the rivers of South China, has retreated southward.</p>
-
-<p>“The flora of the country is also affected by the increasing
-coldness of the climate. The bamboo is not found in the forests<span class="pagenum" id="Page_85">85</span>
-of North China, where it grew naturally two thousand
-years ago, but is still grown in Pekin, with the aid of good
-shelter, as a sort of garden plant only.”</p>
-
-<p>A letter from Hong Kong, published in the London <cite>Standard</cite>,
-reports that on the 15th of January, 1893, the temperature
-of Hong Kong, a tropical seaport of China, was below freezing
-for three days, and was colder than ever before known.
-The rocks and also vegetation were covered with a coating of
-ice. The thermometer at times stood at 23° and 26° Fahrenheit.</p>
-
-<p>I have previously explained how the slow increasing coldness
-of the northern temperate zone is also being carried out in the
-southern hemisphere. The meteorological records for the lofty
-table lands of Ecuador, although very incomplete, furnish
-strong evidence to show that the mean temperature of that
-region is gradually lowering.</p>
-
-<p>Observations made by Boussingault at Quito in 1831, compared
-with those from 1878 to 1881, showed a decrease from
-15.2° Centigrade to 13.27° Centigrade.</p>
-
-<p>Records made by Hall from 1825 to 1827 give averages of
-16.1° Centigrade, 15.52° Centigrade, and 15.6° Centigrade.
-This decrease holds good for all points in the inter-Andean
-region where records have been kept.</p>
-
-<p>Yet we know that the falling temperature in the northern
-temperate latitudes is not brought about by a yearly increase
-of cold, because, when the arctic channels are somewhat obstructed
-with icebergs, the movement of arctic waters through
-them is lessened; and, therefore, during such times the Gulf
-Stream, meeting with less opposition from arctic currents while
-flowing northward, is able to move a larger volume of its
-waters into the arctic seas, thus warming their waters sufficiently
-in a few seasons to clear the obstructed channels, and
-also somewhat soften for several successive years the temperature
-of such lands as border on the seas of that region.</p>
-
-<p>And in this way we account for the mild seasons which at<span class="pagenum" id="Page_86">86</span>
-times follow those of lower temperature in high northern latitudes.</p>
-
-<p>But, when the detained icebergs are set adrift, and currented
-into the temperate North Atlantic, the heat consumed while
-melting such numerous bodies of ice is able to more than overcome
-the warmth gained during the temporary detention of ice
-in the northern seas. Thus, under such considerations, it appears
-that the conditions are favorable for the growth of glaciers
-in the high northern latitudes.</p>
-
-<p>I have pointed out the manner in which the superior oceans
-in the southern hemisphere are obtaining a lower temperature,
-and how they impart their coldness to the tropical currents,
-and in this way slowly cool the waters of all oceans. Thus it
-appears that the northern temperate zone, with all other parts
-of the earth, is slowly approaching a cold epoch.</p>
-
-<p>Several writers on climatic changes have expressed their
-views as to the number of glacial and mild periods that have
-been perfected since the conditions have been favorable for
-their appearance on the globe. According to my views, while
-considering the reasons for the occurrence of the great glacial
-periods which have left such extensive traces on the land, it
-seems certain that two very cold epochs have possessed the
-earth, separated by a warm period; and, possibly, other preceding
-cold epochs of less intensity have possessed the high
-latitudes, with intervening periods of mildness. But the earlier
-cold periods, if they ever existed, were comparatively short,
-because the Cape Horn channel during such times possessed
-less capacity than in the later periods, and, therefore, was more
-easily and quickly obstructed by the natural methods previously
-explained.</p>
-
-<p>Consequently, the independent circulation of the southern
-ocean was sooner arrested than during the later epoch, when
-the channel had become enlarged by erosion from heavy glaciers
-and icebergs; and meanwhile the same conditions may
-have governed the arctic channels which give an independent<span class="pagenum" id="Page_87">87</span>
-circulation to the arctic waters which surround Greenland, and
-thus, in connection with cold epochs in the southern hemisphere,
-have caused periods of cold of small intensity to occur in the
-high northern latitudes, and it may happen in the future that
-more ice periods will be perfected than the one now progressing.</p>
-
-<p>Still, it is well to bear in mind that the Cape Horn channel,
-which is the real cause of glacial periods having occurred in
-both the northern and southern hemispheres, in the manner
-previously explained, is being made wider and deeper during
-each succeeding ice age. For this reason the latest cold epoch
-will require a longer continuance of cold to obstruct the channel
-than the cold period preceding. Therefore, it appears that
-the time will come when there will be such great accumulations
-of ice stored on the land and in the sea before the enlarged
-Cape Horn channel can be closed that, when it is closed, there
-will not be sufficient warmth remaining in the tropical seas to
-unite with the sun’s rays to subdue the intense cold stored in
-the immense gatherings of ice. And thus the earth, which
-began its career with a warm temperature, and so continued
-for long ages, will finally terminate in an endless glacial age.</p>
-
-<p>The statements made by General Cowell in <cite>Science</cite> of Nov. 25,
-1892, in reference to the alleged discovery of the second rotation
-of the earth by Major-general Drayson, represents the discovery
-as affording a new solution for the cause or causes of an
-ice age.</p>
-
-<p>The second rotation as defined consists in the pole of the
-heavens describing a circle around a point which is ascertained
-to be situated six degrees distant from the pole of the ecliptic.
-And it is asserted that by a knowledge of the second rotation
-it is proved that a variation of twelve degrees in the extent of
-the arctic circle and the tropics occurred not later than 13,500
-<span class="smcap smaller">B.C.</span>, “the tropics varying in distance from the equator from
-the minimum of 23° 25′ 47″ to the maximum of 35° 25′ 47″,
-thus extending the torrid zone during its widest expansion
-from Cape Hatteras to the river Plate.... It is calculated that<span class="pagenum" id="Page_88">88</span>
-at this date we are about 403 years distant from the time when
-the pole of the heavens in its revolution, the pole of the ecliptic
-and that of the second rotation, will be in the same colure,—that
-is, in the year 2,295 <span class="smcap smaller">A.D.</span>; and then the least differences in
-temperature between summer and winter will be experienced.
-From that time forward this difference will increase, and about
-6,000 years later, or about the year 8,300 <span class="smcap smaller">A.D.</span>, the earth will
-enter the next glacial period, and attain its greatest severity
-about the year 18,136 of our era.” General Cowell does not
-state how the widening of the tropical zone, as above set forth,
-would bring about a glacial period. The winters of the temperate
-zones would evidently be colder than now; but, on the
-other hand, the summers would be proportionally warmer,
-while the westerly winds above the latitudes of 40° would prevail
-the same as now.</p>
-
-<p>Therefore, their general effect on the surface waters of the
-ocean in the high latitudes would not be changed with such an
-extension of the tropical zone, neither would the trade winds
-change their general direction with a wider torrid zone; yet
-the boundaries of the trade winds and also the westerly winds
-would be more shifting according to the declination of the sun,
-such winds being governed as now by the position of the sun
-during the summer and winter solstice. Yet the natural process
-for moving tropical water into the high latitudes, or excluding
-it therefrom, would not be greatly changed.</p>
-
-<p>Consequently, the expansion of the torrid zone to the latitudes
-named by General Drayson would not affect the climate of the
-hemispheres sufficiently to cause a frigid epoch. On the contrary,
-the summer monsoons, which now blow from the north-east,
-along the shores of Eastern Africa, and also along the
-coast of Southern Brazil, would be much stronger with a vertical
-sun in midsummer as far south as river Plate, thus forcing
-the surface waters of the tropical oceans into the higher latitudes
-with greater facility than at this age.</p>
-
-<p>Moreover, according to the statements of General Cowell, the<span class="pagenum" id="Page_89">89</span>
-present period of mildness should be on the increase, and obtain
-perfection in the year 2,295, or about 400 years hence; while,
-on the contrary, according to the explanations we have given
-in the preceding pages, there is much to show that an ice age
-is advancing, and has made considerable progress in the high
-latitudes of both hemispheres. Furthermore, if the second
-rotation, as claimed by General Cowell, is able to perfect a
-glacial period at regular intervals of 31,600 years, it seems that
-traces of frigid epochs should not be confined to late geological
-records, as there appear to be little or no traces of glacial work
-prior to the Quaternary or Post-tertiary periods.</p>
-
-<p>It appears that explanations so far given, which depend on
-the astronomical theory to account for the ice age, are not in
-harmony with well-known geographical facts. The explainers
-neglect the attention due to the great prevailing winds which
-since the earlier geological ages have, in connection with continents,
-moved the surface waters of the ocean from torrid latitudes
-to colder zones, and from the colder zones to the warmer
-latitudes.</p>
-
-<p>This exchange of ocean waters between the zones is as old
-as the continents which shape their courses. The important
-change wrought in the ocean currents sufficient to have caused
-the glacial age which ended the early warm epochs was brought
-about through the action of the prevailing winds, which, in
-connection with the form of continents, became able to move
-the ocean waters from the northern hemisphere into the southern
-sufficient to submerge the low lands of the southern hemisphere,
-causing a great diversion of the tropical currents from
-the high southern latitudes, such as I have pointed out in preceding
-chapters.</p>
-
-<p>Those writers who believe that ocean currents have been the
-cause of great climatic changes have suggested that the existence
-of an ancient channel through the isthmus of Panama
-would have caused a frigid period on lands bordering on the
-northern shores of the Atlantic by turning the head-waters of
-the Gulf Stream into the Pacific Ocean.</p>
-
-<p><span class="pagenum" id="Page_90">90</span>
-Professor Agassiz thinks that such a channel existed during
-some remote geological age, judging from the semblance of the
-fauna pertaining to the Caribbean Sea and Pacific Ocean.</p>
-
-<p>Yet it may be said that an open channel through Central
-America would have connected two high sea-levels.</p>
-
-<p>For this reason there would be little or no exchange of water
-between the Caribbean Sea and the Pacific Ocean.</p>
-
-<p>The high sea-level on the Pacific side is caused by the prevailing
-north-west winds which blow down the North American
-coast past California as far south as Central America; while,
-on the other hand, the south-east trade winds impel the surface
-waters of the South Pacific along the coast of Peru down to
-the equator, and so onward 5° to 8° north latitude. Thus the
-space between the ending of the two ocean winds obtains a high
-sea-level, corresponding to the high level of the Caribbean Sea.
-This has been proved from levellings for the Nicaragua ship
-canal.</p>
-
-<p>Consequently, the Atlantic waters would not run into the
-Pacific Ocean, even if a channel opened through Central
-America.</p>
-
-<p>Therefore, the Gulf Stream has never been turned away
-from the North Atlantic.</p>
-
-<p>Writers, while seeking a cause for the mild climate of ages
-preceding the glacial epochs, have thought that during such
-times channels opening through Asia from the Indian Ocean
-by the way of the Persian Gulf into the arctic seas would be
-the means of furnishing the Arctic Ocean with warm water.
-But it is evident that such a movement of water could not be
-brought about, because the winds would not be favorable for
-it. For, when we reflect that the prevailing winds would blow
-in the same direction as now, and that the seas of Eastern Europe
-and Western Asia were enlarged during the warm epochs,
-it seems that they would obtain high levels superior to the
-high level seas of the Indian Ocean.</p>
-
-<p>Besides, we should consider that there is a continuous range<span class="pagenum" id="Page_91">91</span>
-of high land separating the Persian Gulf from the northern
-seas, which probably existed anterior to the ice age. Still,
-during later periods, while the ice-sheets were being melted
-from the northern hemisphere and also on the ending of the
-last ice age, the Isthmus of Suez was submerged, as were all
-other low lands in that latitude; but it is probable that the
-waters of the high sea-level of the Indian Ocean abreast tropical
-Africa did not flow largely into the Mediterranean Sea for
-the reason that the enlarged European seas, being within the
-westerly wind-belt, maintained a high sea-level, while at the
-same time the high level tropical Indian Ocean waters were
-strongly attracted into the southern oceans through the Mozambique
-and Agulhas currents in the manner I have previously
-explained. Yet the waters of the high sea-level of the
-southern European seas must have been strongly attracted to
-the low sea-level abreast the Canary Islands.</p>
-
-<p>While considering the causes which brought about the
-glacial periods, it is well to reflect that the natural mode of
-action which could have produced a frigid age was as extensive
-as the surface of the globe; and, therefore, any geographical
-change that would affect only a comparatively small portion
-of the earth cannot serve to account for ages of warmth
-which extended over the globe, or for glacial epochs which
-were separated by warm periods of time, which seem to have
-affected all lands and seas.</p>
-
-<p>And it appears from the geographical explanations given in
-preceding pages of the general movements of the winds and
-currents of the sea how impossible it is for heat to be conveyed
-to the antarctic latitudes sufficient to prevent the growth
-of glaciers on their lands while the Cape Horn channel is in
-possession of its present capacity.</p>
-
-<p>For, as has been shown, this channel furnishes opportunity
-for the westerly winds to impel the surface waters of the great
-southern ocean constantly around the globe, and so largely
-turns away the tropical currents from the high southern latitudes.</p>
-
-<p><span class="pagenum" id="Page_92">92</span>
-Consequently, there seems to be no method yet devised
-through nature’s mode of action that can carry sufficient heat
-into the antarctic latitudes to melt the ice-sheets from the
-southern continent, or even arrest their growth, while the Cape
-Horn channel maintains its present width and depth.</p>
-
-<p>Therefore, the increase of glaciers and icebergs will slowly
-continue until a glacial epoch is perfected.</p>
-
-<p>And it seems that this arrangement for bringing about a
-frigid age made slower progress in its early stage than at this
-date, owing to there having been a lack of glacial ice in the
-polar regions to produce icebergs for cooling the ocean waters.
-But the independent circulation of the great southern ocean,
-after turning away the tropical currents from the high southern
-latitudes for thousands of years, did at length cause glaciers to
-form on the antarctic lands, which have been slowly, but constantly
-increasing; and, consequently, the cooling of the ocean
-has been accelerated proportionate to the increase of ice-sheets.
-Therefore, with the cooling process so well advanced as it now
-appears to be, it seems that more than half of the time required
-to bring a frigid age to perfection has been expended since ice-sheets
-began to gather on the antarctic shores. For, when we
-realise how the facilities for making ice have advanced through
-the increase of glaciers in both hemispheres, and how large a
-portion of the ocean waters have been cooled below a temperate
-or tropical temperature even in the torrid latitudes where the
-warm upper waters of the ocean have been reduced to a comparatively
-thin stratum when compared to the vast bulk of
-the cooled under-waters, it appears that the cold will increase
-at a faster rate for the next thousand years than was the case
-during the last ten centuries. Therefore, the climate will be
-less favorable for plants and animals existing on lands in the
-high latitudes for the next thousand years than during the ten
-centuries preceding; and, when we take into consideration
-the accelerative growth of a frigid epoch, it seems that the increasing
-cold will in a few thousand years drive the greater<span class="pagenum" id="Page_93">93</span>
-portion of both plants and animals from the now temperate
-latitudes to maintain an existence in the tropical zone, where a
-large part of the existing species of such life must have taken
-refuge during the last ice period.</p>
-
-<p>And, from what can be learned from the relics of man’s prehistoric
-life, it seems to point to the lands of the tropical latitudes
-as having been his home during the frigid ages; and,
-because of his long undisturbed residence in favored portions
-of the tropics, he there attained his earliest civilization. For it
-appears that the tropical zone was not only less burdened with
-ice in glacial times than the higher latitudes of the globe, but
-was also more exempt from the great flooding of lands which
-obtained in the more northern latitudes through the shifting of
-the ocean waters, from causes set forth in the preceding pages.
-Yet it may be said that the low lands of the tropical zone
-south of the equator during cold epochs were much more extensive
-than at this age, on account of the shrinkage of the sea,
-because of the great amount of water evaporated from its surface,
-and stored in ice-sheets on the great continents and
-islands. Hence the reefs and shallows which surround such
-tropical islands as include the Seychelles Archipelago, and also
-the extensive banks covered with shoal water in that portion of
-the Indian Ocean, were during the glacial period elevated above
-the surface of the sea, possessing a climate favorable for
-vegetable and animal life. But, owing to the great rain-fall of
-that region, it is probable that the highest lands were glaciated,
-as it is reported that granite bowlders still rest on the mountain
-slopes of the highest island. The numerous islands and
-shoals of the south-western tropical Pacific must also have
-afforded wide land areas, with a temperate climate, owing to
-their having been situated on one of the warmest regions of
-the earth during the ice age.</p>
-
-<p>Moreover, it is probable that these tropical lands afforded
-space for numerous lagoons which had little connection with
-the surrounding oceans, and consequently were able to maintain,<span class="pagenum" id="Page_94">94</span>
-in their secluded shallow basins, a warmer temperature
-than obtained in the open seas; and at the same time, owing
-to the great rainfall in such tropical portions of the Indian and
-Pacific regions, the waters of the lagoons were rendered less
-salt than the briny depths of the shrunken oceans of a cold
-period. Hence because of such conditions the fauna of the
-tropical seas were preserved from the destructive rigor which
-beset the earth during the frigid epochs.</p>
-
-<div class="chapter"><div class="transnote">
-<h2 id="Transcribers_Notes" class="nobreak p1">Transcriber’s Notes</h2>
-
-<p>Punctuation, hyphenation, and spelling were made
-consistent when a predominant preference was found
-in the original book; otherwise they were not changed.</p>
-
-<p>Simple typographical errors were corrected; unbalanced
-quotation marks were remedied when the change was
-obvious, and otherwise left unbalanced.</p>
-</div></div>
-
-
-
-
-
-
-
-
-<pre>
-
-
-
-
-
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generated by cgit v1.2.3 (git 2.25.1) at 2026-02-18 22:09:44 +0000