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Continental drift

February 16, 2024

This article is about the development of the continental drift hypothesis before 1958. For the contemporary theory, see Plate tectonics.
Not to be confused with Continental Drift (novel), Continental Drift (film), or Continental drip.

Continental drift is the hypothesis, originating in the early 20th century, that Earth's continents move or drift relative to each other over geologic time.[1] The hypothesis of continental drift has since been validated and incorporated into the science of plate tectonics, which studies the movement of the continents as they ride on plates of the Earth's lithosphere.[2]

The speculation that continents might have "drifted" was first put forward by Abraham Ortelius in 1596. A pioneer of the modern view of mobilism was the Austrian geologist Otto Ampferer.[3][4] The concept was independently and more fully developed by Alfred Wegener in his 1915 publication, "The Origin of Continents and Oceans".[5] However, at that time the hypothesis was rejected by many for lack of any motive mechanism. The English geologist Arthur Holmes later proposed mantle convection for that mechanism.

History edit

Further information: Timeline of the development of tectonophysics (before 1954)

Early history edit

See also: Early modern Netherlandish cartography and geography
 
Abraham Ortelius by Peter Paul Rubens, 1633

Abraham Ortelius (Ortelius 1596),[6] Theodor Christoph Lilienthal (1756),[7] Alexander von Humboldt (1801 and 1845),[7] Antonio Snider-Pellegrini (Snider-Pellegrini 1858), and others had noted earlier that the shapes of continents on opposite sides of the Atlantic Ocean (most notably, Africa and South America) seem to fit together.[8] W. J. Kious described Ortelius' thoughts in this way:[9]

Abraham Ortelius in his work Thesaurus Geographicus ... suggested that the Americas were "torn away from Europe and Africa ... by earthquakes and floods" and went on to say: "The vestiges of the rupture reveal themselves if someone brings forward a map of the world and considers carefully the coasts of the three [continents]."

In 1889, Alfred Russel Wallace remarked, "It was formerly a very general belief, even amongst geologists, that the great features of the earth's surface, no less than the smaller ones, were subject to continual mutations, and that during the course of known geological time the continents and great oceans had, again and again, changed places with each other."[10] He quotes Charles Lyell as saying, "Continents, therefore, although permanent for whole geological epochs, shift their positions entirely in the course of ages."[11] and claims that the first to throw doubt on this was James Dwight Dana in 1849.

 
Antonio Snider-Pellegrini's Illustration of the closed and opened Atlantic Ocean (1858)[12]

In his Manual of Geology (1863), Dana wrote, "The continents and oceans had their general outline or form defined in earliest time. This has been proved with regard to North America from the position and distribution of the first beds of the Lower Silurian, – those of the Potsdam epoch. The facts indicate that the continent of North America had its surface near tide-level, part above and part below it (p.196); and this will probably be proved to be the condition in Primordial time of the other continents also. And, if the outlines of the continents were marked out, it follows that the outlines of the oceans were no less so".[13] Dana was enormously influential in America—his Manual of Mineralogy is still in print in revised form—and the theory became known as the Permanence theory.[14]

This appeared to be confirmed by the exploration of the deep sea beds conducted by the Challenger expedition, 1872–1876, which showed that contrary to expectation, land debris brought down by rivers to the ocean is deposited comparatively close to the shore on what is now known as the continental shelf. This suggested that the oceans were a permanent feature of the Earth's surface, rather than them having "changed places" with the continents.[10]

Eduard Suess had proposed a supercontinent Gondwana in 1885[15] and the Tethys Ocean in 1893,[16] assuming a land-bridge between the present continents submerged in the form of a geosyncline, and John Perry had written an 1895 paper proposing that the Earth's interior was fluid, and disagreeing with Lord Kelvin on the age of the Earth.[17]

Wegener and his predecessors edit

 
Alfred Wegener

Apart from the earlier speculations mentioned above, the idea that the American continents had once formed a single landmass with Eurasia and Africa was postulated by several scientists before Alfred Wegener's 1912 paper.[5] Although Wegener's theory was formed independently and was more complete than those of his predecessors, Wegener later credited a number of past authors with similar ideas:[18][19] Franklin Coxworthy (between 1848 and 1890),[20] Roberto Mantovani (between 1889 and 1909), William Henry Pickering (1907)[21] and Frank Bursley Taylor (1908).[22]

The similarity of southern continent geological formations had led Roberto Mantovani to conjecture in 1889 and 1909 that all the continents had once been joined into a supercontinent; Wegener noted the similarity of Mantovani's and his own maps of the former positions of the southern continents. In Mantovani's conjecture, this continent broke due to volcanic activity caused by thermal expansion, and the new continents drifted away from each other because of further expansion of the rip-zones, where the oceans now lie. This led Mantovani to propose a now-discredited Expanding Earth theory.[23][24][25]

Continental drift without expansion was proposed by Frank Bursley Taylor,[26] who suggested in 1908 (published in 1910) that the continents were moved into their present positions by a process of "continental creep",[27][28] later proposing a mechanism of increased tidal forces during the Cretaceous dragging the crust towards the equator. He was the first to realize that one of the effects of continental motion would be the formation of mountains, attributing the formation of the Himalayas to the collision between the Indian subcontinent with Asia.[29] Wegener said that of all those theories, Taylor's had the most similarities to his own. For a time in the mid-20th century, the theory of continental drift was referred to as the "Taylor-Wegener hypothesis".[26][29][30][31]

Alfred Wegener first presented his hypothesis to the German Geological Society on 6 January 1912.[5] His hypothesis was that the continents had once formed a single landmass, called Pangaea, before breaking apart and drifting to their present locations.[32]

Wegener was the first to use the phrase "continental drift" (1912, 1915)[5][18] (in German "die Verschiebung der Kontinente" – translated into English in 1922) and formally publish the hypothesis that the continents had somehow "drifted" apart. Although he presented much evidence for continental drift, he was unable to provide a convincing explanation for the physical processes which might have caused this drift. He suggested that the continents had been pulled apart by the centrifugal pseudoforce (Polflucht) of the Earth's rotation or by a small component of astronomical precession, but calculations showed that the force was not sufficient.[33] The Polflucht hypothesis was also studied by Paul Sophus Epstein in 1920 and found to be implausible.

Rejection of Wegener's theory, 1910s–1950s edit

Although now accepted, the theory of continental drift was rejected for many years, with evidence in its favor considered insufficient. One problem was that a plausible driving force was missing.[1] A second problem was that Wegener's estimate of the speed of continental motion, 250 cm/year, was implausibly high.[34] (The currently accepted rate for the separation of the Americas from Europe and Africa is about 2.5 cm/year).[35] Furthermore, Wegener was treated less seriously because he was not a geologist. Even today, the details of the forces propelling the plates are poorly understood.[1]

The English geologist Arthur Holmes championed the theory of continental drift at a time when it was deeply unfashionable. He proposed in 1931 that the Earth's mantle contained convection cells which dissipated heat produced by radioactive decay and moved the crust at the surface.[36] His Principles of Physical Geology, ending with a chapter on continental drift, was published in 1944.[37]

Geological maps of the time showed huge land bridges spanning the Atlantic and Indian oceans to account for the similarities of fauna and flora and the divisions of the Asian continent in the Permian period, but failing to account for glaciation in India, Australia and South Africa.[38]

The fixists edit

Hans Stille and Leopold Kober opposed the idea of continental drift and worked on a "fixist"[39] geosyncline model with Earth contraction playing a key role in the formation of orogens.[40][41] Other geologists who opposed continental drift were Bailey Willis, Charles Schuchert, Rollin Chamberlin, Walther Bucher and Walther Penck.[42][43] In 1939 an international geological conference was held in Frankfurt.[44] This conference came to be dominated by the fixists, especially as those geologists specializing in tectonics were all fixists except Willem van der Gracht.[44] Criticism of continental drift and mobilism was abundant at the conference not only from tectonicists but also from sedimentological (Nölke), paleontological (Nölke), mechanical (Lehmann) and oceanographic (Troll, Wüst) perspectives.[44][45] Hans Cloos, the organizer of the conference, was also a fixist[44] who together with Troll held the view that excepting the Pacific Ocean continents were not radically different from oceans in their behaviour.[45] The mobilist theory of Émile Argand for the Alpine orogeny was criticized by Kurt Leuchs.[44] The few drifters and mobilists at the conference appealed to biogeography (Kirsch, Wittmann), paleoclimatology (Wegener, K), paleontology (Gerth) and geodetic measurements (Wegener, K).[46] F. Bernauer correctly equated Reykjanes in south-west Iceland with the Mid-Atlantic Ridge, arguing with this that the floor of the Atlantic Ocean was undergoing extension just like Reykjanes. Bernauer thought this extension had drifted the continents only 100–200 km apart, the approximate width of the volcanic zone in Iceland.[47]

David Attenborough, who attended university in the second half of the 1940s, recounted an incident illustrating its lack of acceptance then: "I once asked one of my lecturers why he was not talking to us about continental drift and I was told, sneeringly, that if I could prove there was a force that could move continents, then he might think about it. The idea was moonshine, I was informed."[48]

As late as 1953—just five years before Carey[49] introduced the theory of plate tectonics—the theory of continental drift was rejected by the physicist Scheidegger on the following grounds.[50]

  • First, it had been shown that floating masses on a rotating geoid would collect at the equator, and stay there. This would explain one, but only one, mountain building episode between any pair of continents; it failed to account for earlier orogenic episodes.
  • Second, masses floating freely in a fluid substratum, like icebergs in the ocean, should be in isostatic equilibrium (in which the forces of gravity and buoyancy are in balance). But gravitational measurements showed that many areas are not in isostatic equilibrium.
  • Third, there was the problem of why some parts of the Earth's surface (crust) should have solidified while other parts were still fluid. Various attempts to explain this foundered on other difficulties.

Road to acceptance edit

Main article: Plate tectonics

From the 1930s to the late 1950s, works by Vening-Meinesz, Holmes, Umbgrove, and numerous others outlined concepts that were close or nearly identical to modern plate tectonics theory. In particular, the English geologist Arthur Holmes proposed in 1920 that plate junctions might lie beneath the sea, and in 1928 that convection currents within the mantle might be the driving force.[51] Holmes' views were particularly influential: in his bestselling textbook, Principles of Physical Geology, he included a chapter on continental drift, proposing that Earth's mantle contained convection cells which dissipated radioactive heat and moved the crust at the surface.[52][53]  Holmes' proposal resolved the phase disequilibrium objection (the underlying fluid was kept from solidifying by radioactive heating from the core). However, scientific communication in the 1930s and 1940s was inhibited by World War II, and the theory still required work to avoid foundering on the orogeny and isostasy objections. Worse, the most viable forms of the theory predicted the existence of convection cell boundaries reaching deep into the Earth, that had yet to be observed.[citation needed]

 
Fossil patterns across continents (Gondwanaland)

In 1947, a team of scientists led by Maurice Ewing confirmed the existence of a rise in the central Atlantic Ocean, and found that the floor of the seabed beneath the sediments was chemically and physically different from continental crust.[54][55]  As oceanographers continued to bathymeter the ocean basins, a system of mid-oceanic ridges was detected.  An important conclusion was that along this system, new ocean floor was being created, which led to the concept of the "Great Global Rift".[56]

Meanwhile, scientists began recognizing odd magnetic variations across the ocean floor using devices developed during World War II to detect submarines.[57]  Over the next decade, it became increasingly clear that the magnetization patterns were not anomalies, as had been originally supposed. In a series of papers in 1959–1963, Heezen, Dietz, Hess, Mason, Vine, Matthews, and Morley collectively realized that the magnetization of the ocean floor formed extensive, zebra-like patterns: one stripe would exhibit normal polarity and the adjoining stripes reversed polarity.[58][59][60]  The best explanation was the "conveyor belt" or Vine–Matthews–Morley hypothesis.  New magma from deep within the Earth rises easily through these weak zones and eventually erupts along the crest of the ridges to create new oceanic crust.  The new crust is magnetized by the Earth's magnetic field, which undergoes occasional reversals.  Formation of new crust then displaces the magnetized crust apart, akin to a conveyor belt – hence the name.[61]

Without workable alternatives to explain the stripes, geophysicists were forced to conclude that Holmes had been right: ocean rifts were sites of perpetual orogeny at the boundaries of convection cells.[62][63] By 1967, barely two decades after discovery of the mid-oceanic rifts, and a decade after discovery of the striping, plate tectonics had become axiomatic to modern geophysics.

In addition, Marie Tharp, in collaboration with Bruce Heezen, who was initially sceptical of Tharp's observations that her maps confirmed continental drift theory, provided essential corroboration, using her skills in cartography and seismographic data, to confirm the theory.[64][65][66][67][68]

Modern evidence edit

Geophysicist Jack Oliver is credited with providing seismologic evidence supporting plate tectonics which encompassed and superseded continental drift with the article "Seismology and the New Global Tectonics", published in 1968, using data collected from seismologic stations, including those he set up in the South Pacific.[69][70] The modern theory of plate tectonics, refining Wegener, explains that there are two kinds of crust of different composition: continental crust and oceanic crust, both floating above a much deeper "plastic" mantle. Continental crust is inherently lighter. Oceanic crust is created at spreading centers, and this, along with subduction, drives the system of plates in a chaotic manner, resulting in continuous orogeny and areas of isostatic imbalance.

Evidence for the movement of continents on tectonic plates is now extensive. Similar plant and animal fossils are found around the shores of different continents, suggesting that they were once joined. The fossils of Mesosaurus, a freshwater reptile rather like a small crocodile, found both in Brazil and South Africa, are one example; another is the discovery of fossils of the land reptile Lystrosaurus in rocks of the same age at locations in Africa, India, and Antarctica.[71] There is also living evidence, with the same animals being found on two continents. Some earthworm families (such as Ocnerodrilidae, Acanthodrilidae, Octochaetidae) are found in South America and Africa.

 
Mesosaurus skeleton, MacGregor, 1908

The complementary arrangement of the facing sides of South America and Africa is obvious but a temporary coincidence. In millions of years, slab pull, ridge-push, and other forces of tectonophysics will further separate and rotate those two continents. It was that temporary feature that inspired Wegener to study what he defined as continental drift although he did not live to see his hypothesis generally accepted.

The widespread distribution of Permo-Carboniferous glacial sediments in South America, Africa, Madagascar, Arabia, India, Antarctica and Australia was one of the major pieces of evidence for the theory of continental drift. The continuity of glaciers, inferred from oriented glacial striations and deposits called tillites, suggested the existence of the supercontinent of Gondwana, which became a central element of the concept of continental drift. Striations indicated glacial flow away from the equator and toward the poles, based on continents' current positions and orientations, and supported the idea that the southern continents had previously been in dramatically different locations that were contiguous with one another.[18]

See also edit

Citations edit

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  64. ^ Barton, Cathy (2002). "Marie Tharp, oceanographic cartographer, and her contributions to the revolution in the Earth sciences". Geological Society, London, Special Publications. 192 (1): 215–228. Bibcode:2002GSLSP.192..215B. doi:10.1144/gsl.sp.2002.192.01.11. S2CID 131340403.
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  68. ^ Wills, Matthew (8 October 2016). "The Mother of Ocean Floor Cartography". JSTOR. Retrieved 14 October 2016. While working with the North Atlantic data, she noted what must have been a rift between high undersea mountains. This suggested earthquake activity, which then [was] only associated with [the] fringe theory of continental drift. Heezen infamously dismissed his assistant's idea as "girl talk." But she was right, and her thinking helped to vindicate Alfred Wegener's 1912 theory of moving continents. Yet Tharp's name isn't on any of the key papers that Heezen and others published about plate tectonics between 1959–1963, which brought this once-controversial idea to the mainstream of earth sciences.
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General and cited sources edit

  • Frankel, Henry R. (2012). The Continental Drift Controversy. Vol. I: Wegener and the Early Debate. Cambridge.
  • Le Grand, Homer Eugene (1988). Drifting Continents and Shifting Theories. Cambridge University. ISBN 978-0-521-31105-2.
  • Oreskes, Naomi (1999). The Rejection of Continental Drift. Oxford University Press. ISBN 978-0-19-511732-5. (pb: 0-19-511733-6)
  • Oreskes, Naomi (2002). (PDF). In Munn, Ted; MacCracken, Michael C.; Perry, John S. (eds.). Encyclopedia of Global Environmental Change. Vol. 1. Chichester, West Sussex: John Wiley & Sons. pp. 321–325. ISBN 978-0-471-97796-4. OCLC 633880622. Archived from the original (PDF) on 4 February 2012.
  • Ortelius, Abraham (1596) [1570]. Thesaurus Geographicus (in Latin) (3 ed.). Antwerp: Plantin. OCLC 214324616. (First edition published 1570, 1587 edition online)
  • Şengör, Celâl (1982). "Classical theories of orogenesis". In Miyashiro, Akiho; Aki, Keiiti; Şengör, Celâl (eds.). Orogeny. John Wiley & Sons. ISBN 978-0-471-103769.
  • Snider-Pellegrini, Antonio (1858). La Création et ses mystères dévoilés. Paris: Frank and Dentu..

External links edit

 
The Wikibook Historical Geology has a page on the topic of: Continental drift
  • Benjamin Franklin (1782) and Ralph Waldo Emerson (1834) noted Continental Drift
  • A brief introduction to Plate Tectonics, based on the work of Alfred Wegener
  • Animation of continental drift for last 1 billion years
  • Maps of continental drift, from the Precambrian to the future
  • 3D visualization of what did Earth look like from  750 million years ago to present (at present location of your choice)

February 16, 2024
continental, drift, this, article, about, development, continental, drift, hypothesis, before, 1958, contemporary, theory, plate, tectonics, confused, with, continental, drift, novel, continental, drift, film, continental, drip, hypothesis, originating, early,. This article is about the development of the continental drift hypothesis before 1958 For the contemporary theory see Plate tectonics Not to be confused with Continental Drift novel Continental Drift film or Continental drip Continental drift is the hypothesis originating in the early 20th century that Earth s continents move or drift relative to each other over geologic time 1 The hypothesis of continental drift has since been validated and incorporated into the science of plate tectonics which studies the movement of the continents as they ride on plates of the Earth s lithosphere 2 The speculation that continents might have drifted was first put forward by Abraham Ortelius in 1596 A pioneer of the modern view of mobilism was the Austrian geologist Otto Ampferer 3 4 The concept was independently and more fully developed by Alfred Wegener in his 1915 publication The Origin of Continents and Oceans 5 However at that time the hypothesis was rejected by many for lack of any motive mechanism The English geologist Arthur Holmes later proposed mantle convection for that mechanism Contents 1 History 1 1 Early history 1 2 Wegener and his predecessors 1 3 Rejection of Wegener s theory 1910s 1950s 1 3 1 The fixists 1 4 Road to acceptance 1 4 1 Modern evidence 2 See also 3 Citations 4 General and cited sources 5 External linksHistory editFurther information Timeline of the development of tectonophysics before 1954 Early history edit See also Early modern Netherlandish cartography and geography nbsp Abraham Ortelius by Peter Paul Rubens 1633Abraham Ortelius Ortelius 1596 6 Theodor Christoph Lilienthal 1756 7 Alexander von Humboldt 1801 and 1845 7 Antonio Snider Pellegrini Snider Pellegrini 1858 and others had noted earlier that the shapes of continents on opposite sides of the Atlantic Ocean most notably Africa and South America seem to fit together 8 W J Kious described Ortelius thoughts in this way 9 Abraham Ortelius in his work Thesaurus Geographicus suggested that the Americas were torn away from Europe and Africa by earthquakes and floods and went on to say The vestiges of the rupture reveal themselves if someone brings forward a map of the world and considers carefully the coasts of the three continents In 1889 Alfred Russel Wallace remarked It was formerly a very general belief even amongst geologists that the great features of the earth s surface no less than the smaller ones were subject to continual mutations and that during the course of known geological time the continents and great oceans had again and again changed places with each other 10 He quotes Charles Lyell as saying Continents therefore although permanent for whole geological epochs shift their positions entirely in the course of ages 11 and claims that the first to throw doubt on this was James Dwight Dana in 1849 nbsp Antonio Snider Pellegrini s Illustration of the closed and opened Atlantic Ocean 1858 12 In his Manual of Geology 1863 Dana wrote The continents and oceans had their general outline or form defined in earliest time This has been proved with regard to North America from the position and distribution of the first beds of the Lower Silurian those of the Potsdam epoch The facts indicate that the continent of North America had its surface near tide level part above and part below it p 196 and this will probably be proved to be the condition in Primordial time of the other continents also And if the outlines of the continents were marked out it follows that the outlines of the oceans were no less so 13 Dana was enormously influential in America his Manual of Mineralogy is still in print in revised form and the theory became known as the Permanence theory 14 This appeared to be confirmed by the exploration of the deep sea beds conducted by the Challenger expedition 1872 1876 which showed that contrary to expectation land debris brought down by rivers to the ocean is deposited comparatively close to the shore on what is now known as the continental shelf This suggested that the oceans were a permanent feature of the Earth s surface rather than them having changed places with the continents 10 Eduard Suess had proposed a supercontinent Gondwana in 1885 15 and the Tethys Ocean in 1893 16 assuming a land bridge between the present continents submerged in the form of a geosyncline and John Perry had written an 1895 paper proposing that the Earth s interior was fluid and disagreeing with Lord Kelvin on the age of the Earth 17 Wegener and his predecessors edit nbsp Alfred WegenerApart from the earlier speculations mentioned above the idea that the American continents had once formed a single landmass with Eurasia and Africa was postulated by several scientists before Alfred Wegener s 1912 paper 5 Although Wegener s theory was formed independently and was more complete than those of his predecessors Wegener later credited a number of past authors with similar ideas 18 19 Franklin Coxworthy between 1848 and 1890 20 Roberto Mantovani between 1889 and 1909 William Henry Pickering 1907 21 and Frank Bursley Taylor 1908 22 The similarity of southern continent geological formations had led Roberto Mantovani to conjecture in 1889 and 1909 that all the continents had once been joined into a supercontinent Wegener noted the similarity of Mantovani s and his own maps of the former positions of the southern continents In Mantovani s conjecture this continent broke due to volcanic activity caused by thermal expansion and the new continents drifted away from each other because of further expansion of the rip zones where the oceans now lie This led Mantovani to propose a now discredited Expanding Earth theory 23 24 25 Continental drift without expansion was proposed by Frank Bursley Taylor 26 who suggested in 1908 published in 1910 that the continents were moved into their present positions by a process of continental creep 27 28 later proposing a mechanism of increased tidal forces during the Cretaceous dragging the crust towards the equator He was the first to realize that one of the effects of continental motion would be the formation of mountains attributing the formation of the Himalayas to the collision between the Indian subcontinent with Asia 29 Wegener said that of all those theories Taylor s had the most similarities to his own For a time in the mid 20th century the theory of continental drift was referred to as the Taylor Wegener hypothesis 26 29 30 31 Alfred Wegener first presented his hypothesis to the German Geological Society on 6 January 1912 5 His hypothesis was that the continents had once formed a single landmass called Pangaea before breaking apart and drifting to their present locations 32 Wegener was the first to use the phrase continental drift 1912 1915 5 18 in German die Verschiebung der Kontinente translated into English in 1922 and formally publish the hypothesis that the continents had somehow drifted apart Although he presented much evidence for continental drift he was unable to provide a convincing explanation for the physical processes which might have caused this drift He suggested that the continents had been pulled apart by the centrifugal pseudoforce Polflucht of the Earth s rotation or by a small component of astronomical precession but calculations showed that the force was not sufficient 33 The Polflucht hypothesis was also studied by Paul Sophus Epstein in 1920 and found to be implausible Rejection of Wegener s theory 1910s 1950s edit Although now accepted the theory of continental drift was rejected for many years with evidence in its favor considered insufficient One problem was that a plausible driving force was missing 1 A second problem was that Wegener s estimate of the speed of continental motion 250 cm year was implausibly high 34 The currently accepted rate for the separation of the Americas from Europe and Africa is about 2 5 cm year 35 Furthermore Wegener was treated less seriously because he was not a geologist Even today the details of the forces propelling the plates are poorly understood 1 The English geologist Arthur Holmes championed the theory of continental drift at a time when it was deeply unfashionable He proposed in 1931 that the Earth s mantle contained convection cells which dissipated heat produced by radioactive decay and moved the crust at the surface 36 His Principles of Physical Geology ending with a chapter on continental drift was published in 1944 37 Geological maps of the time showed huge land bridges spanning the Atlantic and Indian oceans to account for the similarities of fauna and flora and the divisions of the Asian continent in the Permian period but failing to account for glaciation in India Australia and South Africa 38 The fixists edit Hans Stille and Leopold Kober opposed the idea of continental drift and worked on a fixist 39 geosyncline model with Earth contraction playing a key role in the formation of orogens 40 41 Other geologists who opposed continental drift were Bailey Willis Charles Schuchert Rollin Chamberlin Walther Bucher and Walther Penck 42 43 In 1939 an international geological conference was held in Frankfurt 44 This conference came to be dominated by the fixists especially as those geologists specializing in tectonics were all fixists except Willem van der Gracht 44 Criticism of continental drift and mobilism was abundant at the conference not only from tectonicists but also from sedimentological Nolke paleontological Nolke mechanical Lehmann and oceanographic Troll Wust perspectives 44 45 Hans Cloos the organizer of the conference was also a fixist 44 who together with Troll held the view that excepting the Pacific Ocean continents were not radically different from oceans in their behaviour 45 The mobilist theory of Emile Argand for the Alpine orogeny was criticized by Kurt Leuchs 44 The few drifters and mobilists at the conference appealed to biogeography Kirsch Wittmann paleoclimatology Wegener K paleontology Gerth and geodetic measurements Wegener K 46 F Bernauer correctly equated Reykjanes in south west Iceland with the Mid Atlantic Ridge arguing with this that the floor of the Atlantic Ocean was undergoing extension just like Reykjanes Bernauer thought this extension had drifted the continents only 100 200 km apart the approximate width of the volcanic zone in Iceland 47 David Attenborough who attended university in the second half of the 1940s recounted an incident illustrating its lack of acceptance then I once asked one of my lecturers why he was not talking to us about continental drift and I was told sneeringly that if I could prove there was a force that could move continents then he might think about it The idea was moonshine I was informed 48 As late as 1953 just five years before Carey 49 introduced the theory of plate tectonics the theory of continental drift was rejected by the physicist Scheidegger on the following grounds 50 First it had been shown that floating masses on a rotating geoid would collect at the equator and stay there This would explain one but only one mountain building episode between any pair of continents it failed to account for earlier orogenic episodes Second masses floating freely in a fluid substratum like icebergs in the ocean should be in isostatic equilibrium in which the forces of gravity and buoyancy are in balance But gravitational measurements showed that many areas are not in isostatic equilibrium Third there was the problem of why some parts of the Earth s surface crust should have solidified while other parts were still fluid Various attempts to explain this foundered on other difficulties Road to acceptance edit Main article Plate tectonics From the 1930s to the late 1950s works by Vening Meinesz Holmes Umbgrove and numerous others outlined concepts that were close or nearly identical to modern plate tectonics theory In particular the English geologist Arthur Holmes proposed in 1920 that plate junctions might lie beneath the sea and in 1928 that convection currents within the mantle might be the driving force 51 Holmes views were particularly influential in his bestselling textbook Principles of Physical Geology he included a chapter on continental drift proposing that Earth s mantle contained convection cells which dissipated radioactive heat and moved the crust at the surface 52 53 Holmes proposal resolved the phase disequilibrium objection the underlying fluid was kept from solidifying by radioactive heating from the core However scientific communication in the 1930s and 1940s was inhibited by World War II and the theory still required work to avoid foundering on the orogeny and isostasy objections Worse the most viable forms of the theory predicted the existence of convection cell boundaries reaching deep into the Earth that had yet to be observed citation needed nbsp Fossil patterns across continents Gondwanaland In 1947 a team of scientists led by Maurice Ewing confirmed the existence of a rise in the central Atlantic Ocean and found that the floor of the seabed beneath the sediments was chemically and physically different from continental crust 54 55 As oceanographers continued to bathymeter the ocean basins a system of mid oceanic ridges was detected An important conclusion was that along this system new ocean floor was being created which led to the concept of the Great Global Rift 56 Meanwhile scientists began recognizing odd magnetic variations across the ocean floor using devices developed during World War II to detect submarines 57 Over the next decade it became increasingly clear that the magnetization patterns were not anomalies as had been originally supposed In a series of papers in 1959 1963 Heezen Dietz Hess Mason Vine Matthews and Morley collectively realized that the magnetization of the ocean floor formed extensive zebra like patterns one stripe would exhibit normal polarity and the adjoining stripes reversed polarity 58 59 60 The best explanation was the conveyor belt or Vine Matthews Morley hypothesis New magma from deep within the Earth rises easily through these weak zones and eventually erupts along the crest of the ridges to create new oceanic crust The new crust is magnetized by the Earth s magnetic field which undergoes occasional reversals Formation of new crust then displaces the magnetized crust apart akin to a conveyor belt hence the name 61 Without workable alternatives to explain the stripes geophysicists were forced to conclude that Holmes had been right ocean rifts were sites of perpetual orogeny at the boundaries of convection cells 62 63 By 1967 barely two decades after discovery of the mid oceanic rifts and a decade after discovery of the striping plate tectonics had become axiomatic to modern geophysics In addition Marie Tharp in collaboration with Bruce Heezen who was initially sceptical of Tharp s observations that her maps confirmed continental drift theory provided essential corroboration using her skills in cartography and seismographic data to confirm the theory 64 65 66 67 68 Modern evidence edit Geophysicist Jack Oliver is credited with providing seismologic evidence supporting plate tectonics which encompassed and superseded continental drift with the article Seismology and the New Global Tectonics published in 1968 using data collected from seismologic stations including those he set up in the South Pacific 69 70 The modern theory of plate tectonics refining Wegener explains that there are two kinds of crust of different composition continental crust and oceanic crust both floating above a much deeper plastic mantle Continental crust is inherently lighter Oceanic crust is created at spreading centers and this along with subduction drives the system of plates in a chaotic manner resulting in continuous orogeny and areas of isostatic imbalance Evidence for the movement of continents on tectonic plates is now extensive Similar plant and animal fossils are found around the shores of different continents suggesting that they were once joined The fossils of Mesosaurus a freshwater reptile rather like a small crocodile found both in Brazil and South Africa are one example another is the discovery of fossils of the land reptile Lystrosaurus in rocks of the same age at locations in Africa India and Antarctica 71 There is also living evidence with the same animals being found on two continents Some earthworm families such as Ocnerodrilidae Acanthodrilidae Octochaetidae are found in South America and Africa nbsp Mesosaurus skeleton MacGregor 1908The complementary arrangement of the facing sides of South America and Africa is obvious but a temporary coincidence In millions of years slab pull ridge push and other forces of tectonophysics will further separate and rotate those two continents It was that temporary feature that inspired Wegener to study what he defined as continental drift although he did not live to see his hypothesis generally accepted The widespread distribution of Permo Carboniferous glacial sediments in South America Africa Madagascar Arabia India Antarctica and Australia was one of the major pieces of evidence for the theory of continental drift The continuity of glaciers inferred from oriented glacial striations and deposits called tillites suggested the existence of the supercontinent of Gondwana which became a central element of the concept of continental drift Striations indicated glacial flow away from the equator and toward the poles based on continents current positions and orientations and supported the idea that the southern continents had previously been in dramatically different locations that were contiguous with one another 18 See also editGeological history of Earth The sequence of major geological events in Earth s past Israel C WhiteCitations edit a b c Historical perspective This Dynamic Earth USGS pubs usgs gov Archived from the original on 27 July 2018 Retrieved 29 January 2008 Oreskes 2002 p 324 Kalliope Verbund Ampferer Otto 1875 1947 Helmut W Flugel Die virtuelle Welt des Otto Ampferer und die Realitat seiner Zeit In Geo Alp Vol 1 2004 a b c d Wegener Alfred 6 January 1912 Die Herausbildung der Grossformen der Erdrinde Kontinente und Ozeane auf geophysikalischer Grundlage PDF Petermanns Geographische Mitteilungen 63 185 195 253 256 305 309 archived from the original PDF on 4 October 2011 Romm James 3 February 1994 A New Forerunner for Continental Drift Nature 367 6462 407 408 Bibcode 1994Natur 367 407R doi 10 1038 367407a0 S2CID 4281585 a b Schmeling Harro 2004 Geodynamik PDF in German University of Frankfurt Brusatte Stephen Continents Adrift and Sea Floors Spreading The Revolution of Plate Tectonics PDF archived PDF from the original on 3 March 2016 retrieved 16 May 2016 Kious W J Tilling R I February 2001 1996 Historical perspective This Dynamic Earth the Story of Plate Tectonics Online ed U S Geological Survey ISBN 978 0 16 048220 5 archived from the original on 8 April 2011 retrieved 29 January 2008 a b Wallace Alfred Russel 1889 12 Darwinism Macmillan p 341 Lyell Charles 1872 Principles of Geology 11 ed John Murray p 258 archived from the original on 6 April 2016 retrieved 16 February 2015 Antonio Snider Pellegrini La Creation et ses mysteres devoiles Creation and its mysteries revealed Paris France Frank et Dentu 1858 plates 9 and 10 Archived 5 February 2017 at the Wayback Machine between pages 314 and 315 Dana James D 1863 Manual of Geology Theodore Bliss amp Co Philadelphia p 732 archived from the original on 15 May 2015 retrieved 16 February 2015 Oreskes 2002 Eduard Suess Das Antlitz der Erde The Face of the Earth vol 1 Leipzig Germany G Freytag 1885 page 768 From p 768 Wir nennen es Gondwana Land nach der gemeinsamen alten Gondwana Flora We name it Gondwana Land after the common ancient flora of Gondwana Edward Suess March 1893 Are ocean depths permanent Archived 5 February 2017 at the Wayback Machine Natural Science A Monthly Review of Scientific Progress London 2 180 187 From page 183 This ocean we designate by the name Tethys after the sister and consort of Oceanus The latest successor of the Tethyan Sea is the present Mediterranean Perry John 1895 On the age of the earth Nature 51 224 227 Archived 17 February 2015 at archive today 341 342 582 585 a b c Wegener A 1966 1929 The Origin of Continents and Oceans Courier Dover Publications ISBN 978 0 486 61708 4 Wegener A 1929 Die Entstehung der Kontinente und Ozeane 4 ed Braunschweig Friedrich Vieweg amp Sohn Akt Ges Coxworthy Franklin 1924 Electrical Condition Or How and where Our Earth was Created J S Phillips Retrieved 6 December 2014 Pickering W H 1907 The Place of Origin of the Moon The Volcani Problems Popular Astronomy 15 274 287 Bibcode 1907PA 15 274P Frank Bursley Taylor 3 June 1910 Bearing of the Tertiary mountain belt on the origin of the earth s plan Bulletin of the Geological Society of America 21 179 226 Mantovani R 1889 Les fractures de l ecorce terrestre et la theorie de Laplace Bull Soc Sc Et Arts Reunion 41 53 Mantovani R 1909 L Antarctide Je M instruis La Science Pour Tous 38 595 597 Scalera G 2003 Roberto Mantovani an Italian defender of the continental drift and planetary expansion in Scalera G Jacob K H eds Why expanding Earth A book in honour of O C Hilgenberg Rome Istituto Nazionale di Geofisica e Vulcanologia pp 71 74 hdl 2122 2017 a b Lane A C 1944 Frank Bursley Taylor 1860 1938 Proceedings of the American Academy of Arts and Sciences 75 6 176 178 JSTOR 20023483 Taylor F B 1910 Bearing of the tertiary mountain belt on the origin of the earth s plan PDF GSA Bulletin 21 2 179 226 Bibcode 1910GSAB 21 179T doi 10 1130 GSAB 21 179 archived from the original PDF on 1 June 2018 Henry R Frankel Wegener and Taylor develop their theories of continental drift in The Continental Drift Controversy Volume 1 Wegener and the Early Debate pp 38 80 Cambridge University Press 2012 ISBN 9780521875042 doi 10 1017 CBO9780511842368 004 a b Powell James Lawrence 2015 Four Revolutions in the Earth Sciences From Heresy to Truth Columbia University Press pp 69 70 ISBN 978 0 231 53845 9 Archived from the original on 3 June 2016 Retrieved 20 October 2015 Hansen L T Some considerations of and additions to the Taylor Wegener hypothesis of continental displacement Los Angeles 1946 OCLC 1247437 OCLC R M Wood Coming Apart at the Seams Archived 14 May 2016 at the Wayback Machine New Scientist 24 January 1980 Wegener and his proofs Archived from the original on 5 May 2006 Plate Tectonics The Rocky History of an Idea Archived from the original on 11 April 2011 Retrieved 23 August 2006 Wegener s inability to provide an adequate explanation of the forces responsible for continental drift and the prevailing belief that the earth was solid and immovable resulted in the scientific dismissal of his theories University of California Museum of Paleontology Alfred Wegener 1880 1930 Archived 8 December 2017 at the Wayback Machine accessed 30 April 2015 Unavco Plate Motion Calculator Archived 25 April 2015 at the Wayback Machine accessed 30 April 2015 Holmes Arthur 1931 Radioactivity and Earth Movements PDF Transactions of the Geological Society of Glasgow 18 3 559 606 doi 10 1144 transglas 18 3 559 S2CID 122872384 Archived PDF from the original on 9 October 2019 Retrieved 15 January 2014 Holmes Arthur 1944 Principles of Physical Geology 1st ed Edinburgh Thomas Nelson amp Sons ISBN 978 0 17 448020 4 See map based on the work of the American paleontologist Charles Schuchert in Wells H G Huxley Julian Wells G P 1931 The Science of life p 445 Sengor 1982 p 30 Sengor 1982 p 28 Sengor 1982 p 29 Sengor 1982 p 31 Bremer Hanna 1983 Albrecht Penck 1858 1945 and Walther Penck 1888 1923 two German geomorphologists Zeitschrift fur Geomorphologie 27 2 129 138 Bibcode 1983ZGm 27 129B doi 10 1127 zfg 27 1983 129 a b c d e Frankel 2012 p 403 a b Frankel 2012 p 405 Frankel 2012 p 407 Frankel 2012 p 409 McKie Robin 28 October 2012 David Attenborough force of nature The Observer London Archived from the original on 31 October 2013 Retrieved 29 October 2012 Carey S W 1958 Carey S W ed Continental Drift A symposium Hobart Univ of Tasmania pp 177 363 Scheidegger Adrian E 1953 Examination of the physics of theories of orogenesis GSA Bulletin 64 2 127 150 Bibcode 1953GSAB 64 127S doi 10 1130 0016 7606 1953 64 127 EOTPOT 2 0 CO 2 Holmes Arthur 1928 Radioactivity and Earth movements Transactions of the Geological Society of Glasgow 18 3 559 606 doi 10 1144 transglas 18 3 559 S2CID 122872384 see also Holmes Arthur 1978 Principles of Physical Geology 3 ed Wiley pp 640 41 ISBN 978 0 471 07251 5 and Frankel Henry July 1978 Arthur Holmes and continental drift The British Journal for the History of Science 11 2 130 50 doi 10 1017 S0007087400016551 JSTOR 4025726 S2CID 145405854 Wessel P Muller R D 2007 Plate Tectonics Treatise on Geophysics vol 6 Elsevier pp 49 98 Vine F J 1966 Spreading of the Ocean Floor New Evidence Science 154 3755 1405 1415 Bibcode 1966Sci 154 1405V doi 10 1126 science 154 3755 1405 PMID 17821553 S2CID 44362406 Lippsett Laurence 2001 Maurice Ewing and the Lamont Doherty Earth Observatory Living Legacies Archived from the original on 12 January 2018 Retrieved 4 March 2008 Lippsett Laurence 2006 Maurice Ewing and the Lamont Doherty Earth Observatory In William Theodore De Bary Jerry Kisslinger Tom Mathewson eds Living Legacies at Columbia Columbia University Press pp 277 97 ISBN 978 0 231 13884 0 Retrieved 22 June 2010 Heezen B 1960 The rift in the ocean floor Scientific American 203 4 98 110 Bibcode 1960SciAm 203d 98H doi 10 1038 scientificamerican1060 98 Victor Vacquier Sr 1907 2009 Geophysicist was a master of magnetics Los Angeles Times B24 24 January 2009 archived from the original on 8 January 2014 retrieved 20 May 2018 Mason Ronald G Raff Arthur D 1961 Magnetic survey off the west coast of the United States between 32 N latitude and 42 N latitude Bulletin of the Geological Society of America 72 8 1259 66 Bibcode 1961GSAB 72 1259M doi 10 1130 0016 7606 1961 72 1259 MSOTWC 2 0 CO 2 ISSN 0016 7606 Korgen Ben J 1995 A voice from the past John Lyman and the plate tectonics story Oceanography 8 1 19 20 doi 10 5670 oceanog 1995 29 Spiess Fred Kuperman William 2003 The Marine Physical Laboratory at Scripps Oceanography 16 3 45 54 doi 10 5670 oceanog 2003 30 See summary in Heirtzler James R Le Pichon Xavier Baron J Gregory 1966 Magnetic anomalies over the Reykjanes Ridge Deep Sea Research 13 3 427 32 Bibcode 1966DSRA 13 427H doi 10 1016 0011 7471 66 91078 3 Le Pichon Xavier 15 June 1968 Sea floor spreading and continental drift Journal of Geophysical Research 73 12 3661 97 Bibcode 1968JGR 73 3661L doi 10 1029 JB073i012p03661 Mc Kenzie D Parker R L 1967 The North Pacific an example of tectonics on a sphere Nature 216 5122 1276 1280 Bibcode 1967Natur 216 1276M doi 10 1038 2161276a0 S2CID 4193218 Barton Cathy 2002 Marie Tharp oceanographic cartographer and her contributions to the revolution in the Earth sciences Geological Society London Special Publications 192 1 215 228 Bibcode 2002GSLSP 192 215B doi 10 1144 gsl sp 2002 192 01 11 S2CID 131340403 Blakemore Erin 30 August 2016 Seeing Is Believing How Marie Tharp Changed Geology Forever Smithsonian Evans R November 2002 Plumbing Depths to Reach New Heights Retrieved 2 June 2008 Doel R E Levin T J Marker M K 2006 Extending modern cartography to the ocean depths military patronage Cold War priorities and the Heezen Tharp mapping project 1952 1959 Journal of Historical Geography 32 3 605 626 doi 10 1016 j jhg 2005 10 011 Wills Matthew 8 October 2016 The Mother of Ocean Floor Cartography JSTOR Retrieved 14 October 2016 While working with the North Atlantic data she noted what must have been a rift between high undersea mountains This suggested earthquake activity which then was only associated with the fringe theory of continental drift Heezen infamously dismissed his assistant s idea as girl talk But she was right and her thinking helped to vindicate Alfred Wegener s 1912 theory of moving continents Yet Tharp s name isn t on any of the key papers that Heezen and others published about plate tectonics between 1959 1963 which brought this once controversial idea to the mainstream of earth sciences Jack Oliver Who Proved Continental Drift Dies at 87 The New York Times 12 January 2011 p A16 Archived from the original on 26 May 2013 Retrieved 6 June 2013 Isacks Bryan Oliver Jack Sykes Lynn R 15 September 1968 Seismology and the New Global Tectonics Journal of Geophysical Research 73 18 5855 5899 Bibcode 1968JGR 73 5855I doi 10 1029 JB073i018p05855 Rejoined continents This Dynamic Earth USGS USGS Archived from the original on 25 August 2010 Retrieved 22 July 2010 General and cited sources editFrankel Henry R 2012 The Continental Drift Controversy Vol I Wegener and the Early Debate Cambridge Le Grand Homer Eugene 1988 Drifting Continents and Shifting Theories Cambridge University ISBN 978 0 521 31105 2 Oreskes Naomi 1999 The Rejection of Continental Drift Oxford University Press ISBN 978 0 19 511732 5 pb 0 19 511733 6 Oreskes Naomi 2002 Continental Drift PDF In Munn Ted MacCracken Michael C Perry John S eds Encyclopedia of Global Environmental Change Vol 1 Chichester West Sussex John Wiley amp Sons pp 321 325 ISBN 978 0 471 97796 4 OCLC 633880622 Archived from the original PDF on 4 February 2012 Ortelius Abraham 1596 1570 Thesaurus Geographicus in Latin 3 ed Antwerp Plantin OCLC 214324616 First edition published 1570 1587 edition online Sengor Celal 1982 Classical theories of orogenesis In Miyashiro Akiho Aki Keiiti Sengor Celal eds Orogeny John Wiley amp Sons ISBN 978 0 471 103769 Snider Pellegrini Antonio 1858 La Creation et ses mysteres devoiles Paris Frank and Dentu External links edit nbsp The Wikibook Historical Geology has a page on the topic of Continental drift Benjamin Franklin 1782 and Ralph Waldo Emerson 1834 noted Continental Drift A brief introduction to Plate Tectonics based on the work of Alfred Wegener Animation of continental drift for last 1 billion years Maps of continental drift from the Precambrian to the future 3D visualization of what did Earth look like from 750 million years ago to present at present location of your choice Retrieved from https en wikipedia org w index php title Continental drift amp oldid 1202354739, wikipedia, wiki, book, books, library,

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