Timeline of the development of tectonophysics (after 1952)

The evolution of tectonophysics is closely linked to the history of the continental drift and plate tectonics hypotheses. The continental drift/ Airy-Heiskanen isostasy hypothesis had many flaws and scarce data. The fixist/ Pratt-Hayford isostasy, the contracting Earth and the expanding Earth concepts had many flaws as well.

The idea of continents with a permanent location, the geosyncline theory, the Pratt-Hayford isostasy, the extrapolation of the age of the Earth by Lord Kelvin as a black body cooling down, the contracting Earth, the Earth as a solid and crystalline body, is one school of thought. A lithosphere creeping over the asthenosphere is a logical consequence of an Earth with internal heat by radioactivity decay, the Airy-Heiskanen isostasy, thrust faults and Niskanen's mantle viscosity determinations.

Making sense of the puzzle pieces

Map of the later North Atlantic region after the closing of the Iapetus Ocean and the Caledonian/Acadian orogenies (Wilson 1966). Animals: Trilobites and graptolites.^[1][2]

Euramerica in the Devonian (416 to 359 Ma) with Baltica, Avalonia (Cabot Fault, Newfoundland and Great Glen Fault, Scotland; cited in Wilson 1962) and Laurentia (Other parts: Iberian Massif and Armorican terrane).

• 1953, the Great Global Rift, running along the Mid-Atlantic Ridge, was discovered by Bruce Heezen (Lamont Group) (Puzzle pieces: Seismic-refraction and Sonar survey of the rifts). (Ewing & Ewing 1959), (Heezen 1960), (Heezen & Tharp 1961), (Heezen & Tharp 1964), (Heezen & Tharp 1966)
  • Their world ocean floor map was published 1977. Austrian painter Heinrich Berann worked on it.
  • Nowadays the seafloor maps have a better resolution by the SEASAT, Geosat/ERM and ERS-1/ERM (European Remote-Sensing Satellite/Exact Repeat Mission) missions. (McAdoo 2006)
• World map of earthquake epicenters, oceanic ones mainly (Rothé 1954).
• 1954–1963: Alfred Rittmann was elected IAV President (IAV at that time) for three periods.
• 1956, S. K. Runcorn becomes a drifter. (Frankel 1987, p. 221), (Runcorn 1956)
  • Statistics by Ronald Fisher. (Frankel 1987, p. 221), (Runcorn 1956)
  • Jan Hospers work (magnetic poles and geographical poles coincide the last 23 Ma).
  • Self-exciting dynamo theory of Elsasser-Bullard.
• S. W. Carey, plate tectonics (Carey 1958). But he believed here in an Expanding Earth.
• 1958, Henry William Menard notes that most mid-ocean ridges are halfway between the two continental edges ((Menard 1958) cited in (Bullard 1975)).
• 1959, analysis of Vanguard satellite orbit suggests "large-scale convection currents in the mantle" (O'Keefe, Eckeis & Squires 1959).
• Seafloor spreading
  • December 1960, Harry H. Hess (preprint and a report for the Navy): Sonar and seafloor spreading (personal communication formally published in 1962 (Puzzle pieces: his World War II seafloor profiles, (Carey 1958), (Vening Meinesz 1948) and the Great Global Rift). (Hess 1962), (Hess 1960b), (Hess 1960a), (Hess 1959)
  • 1961, Robert S. Dietz (Dietz 1961).
• Dott (1961), the Permian tillite at Squantum, Massachusetts, was reclassified as turbidite. It was used as argument by anti-drifters.
• P. M. S. Blakett (1960), Blakett's former lecturer S. K. Runcorn (1962), Runcorn's former student E. Irving: Paleomagnetism.
  • References: (Frankel 1987, p. 221), (Blackett, Clegg & Stubbs 1960), (Runcorn 1959), (Runcorn 1962a), (Irving & Green 1958), (Irving 1960), (Creer, Irving & Runcorn 1957)
• 1962, S.K. Runcorn applies the Rayleigh's theory of convection: convection occurs if viscosity under the crust is less than 10²⁶-10²⁷ CGS units. (Runcorn 1962b)
• 1962, Subduction in the Aleutian Islands, Robert R. Coats (USGS). (Coats 1962)
• Wunderlich, H.G. (March 1962). "50 Jahre Kontinentalverschiebungstheorie – von Wegener bis Runcorn" [50 Years Continental Drift Hypothesis – Wegener to Runcorn]. Geologische Rundschau. 52 (1): 504–513. Bibcode:1962GeoRu..52..504W. doi:10.1007/BF01840095. S2CID 128754334.
  • The uncertainty of the distance between Europe and North America is too great to confirm the continental drift hypothesis. It states wrongly that the lock-and-key form of South America and Africa is less good if the continental shelf is taken into account. Note: the truth is that neither A. Wegener nor C. Schuchert used the east coastline of South America and west coastline of Africa, really; these coastlines don't fit (Bullard 1975).

Plate tectonics

The "Bullard's Fit" of the Iapetus Ocean suture zone.

Approximate location of Mesoproterozoic (older than 1.3 Ga) cratons in South America and Africa. The São Luís and the Luis Alves cratonic fragments are shown (Brazil), but the Arequipa–Antofalla craton, the Saharan Metacraton and some minor African cratons are not. Other versions describe the Guiana Shield separated from the Amazonian shield by a depression.

• Publication of the Vine–Matthews–Morley hypothesis. (Frankel 1987, p. 228), (Vine 1963)
  • Frederick Vine is working under Drummond Matthews, University of Cambridge.
  • Lawrence W. Morley's independent paper was not accepted.
• John Tuzo Wilson, a former fixist/contractionist up to around 1959. (Frankel 1987, p. 231)
  • J. T. Wilson spends much of 1965 in Cambridge and Hess joined him in the second half. Wilson develops the transform fault concept. (Wilson 1962), (Wilson 1963a), (Wilson 1963b), (Wilson 1963c), (Wilson 1965a)
  • Wilson cycle, (Wilson 1966).
  • Frederick Vine, applies the transform fault concept, the Vine–Matthews–Morley hypothesis and the seafloor spreading concept on the Juan de Fuca Ridge. He does not get a constant spreading rate as the Jaramillo reversal (Geomagnetic reversal) is unknown. (Vine & Wilson 1965)
• P.M.S. Blackett; E.C. Bullard; S.K. Runcorn, eds. (1965). "A Symposium on Continental Drift, 28th October, 1965". Philosophical Transactions of the Royal Society A. 258 (1088): i–x, 1–323, A1–A6. (Bullard, Everett & Smith 1965), (Wilson 1965b), (Heezen & Tharp 1965).
• Wells, finds on growth rings of Devonian corals the maximum Earth expansion during this time to be less than 0.6 mm/year (Wells 1963), (Marvin 1966, p. 60). Heezen, abandons the expanding Earth theory as it requires a radial expansion of 4–8 mm/year for the Atlantic Ocean alone (Heezen 1966).
• 1966, East South America and West Africa, rocks and their ages match where they were joint: South Africa / Santa de la Ventana, Argentina; Ghana / São Luís do Maranhão, Brazil.^[3][4]
  • Nowadays, the fit between Africa and South America is based on paleomagnetism, slightly different from the older "Bullard's Fit" (based on least-square fitting of 500 fathom (c. 900 m) contours across the Atlantic). (Bullard, Everett & Smith 1965), (Torsvik et al. 2001)
• Closure:
  • November 1965, Geological Society of America, Brent Dalrymple (Brent Dalrymple, Richard Doell and Allan V. Cox – USGS) brought to Frederik Vine attention that there is the Jaramillo "reversal" (publ. mid-1966 !!!). (Frankel 1987, p. 234), (Doell & Dalrymple 1966)
  • February 1966, Vine visits the Lamont group (Walt Pitman and Neil Opdyke) and tells them that their 'discovered' Emperor reversal was already named as Jaramillo reversal. And shows the reversal on the Walt Pitman's graphik (cm/ vertical), surprising Pitman, Opdyke and even himself (Ninkovich et al. 1966), (Vine 1966). Many anti-drifters changed their mind after the publication of these magnetometer readings of sediment core (Eltanin-19), geomagnetic reversals (Le Grand 1990).
  • The Vine–Matthews–Morley hypothesis is the first scientific test to confirm the seafloor spreading concept. Earth Sciences paradigm shift, from fix continents to plate tectonics (Wilson 1968):
    • Magnetometer readings of sediment cores, geomagnetic reversals: ratio of cm (vertical).
    • Magnetic profiles of seafloor, geomagnetic reversals: ratio of km (horizontal).
    • Radiometric analysis of lava flows, geomagnetic reversals: ratio of Ma (time). (Frankel 1987, p. 235)
• Conference in New York in November 1966, sponsored by NASA ((Phinney 1968) cited in (Bullard 1975)).
  • Maurice Ewing to Edward Bullard: "You don't believe all this rubbish, do you, Teddy?"
• Even Maurice Ewing (Lamont–Doherty Earth Observatory) came to accept seafloor spreading by April 1967 and cited (along with his brother John Ewing) the case for Vine-Matthews-Morley Hypothesis as "strong support for the hypothesis of spreading. (Frankel 1987, p. 230)
  • Ewing, John; Ewing, Maurice (23 June 1967). "Sediment Distribution on the Mid-Ocean Ridges with Respect to Spreading of the Sea Floor". Science. 156 (3782): 1590–1592. Bibcode:1967Sci...156.1590E. doi:10.1126/science.156.3782.1590. PMID 17797640. S2CID 8687894.
• Around 1967, Marshall Kay becomes a drifter. (Frankel 1987, p. 230)
• In 1967, W. Jason Morgan proposed that the Earth's surface consists of 12 rigid plates that move relative to each other (Morgan 1968). Two months later, in 1968, Xavier Le Pichon published a complete model based on 6 major plates with their relative motions (Le Pichon (1968), received 2 January 1968). The Englishmen Dan McKenzie and Robert Parker published the quantitative principles for plate tectonics (Euler's rotation theorem: Individual aseismic areas move as rigid plates on the surface of a sphere, quote: "a block on a sphere can be moved to any other conceivable orientation by a single rotation about a properly chosen axis.") (McKenzie & Parker 1967).
  • Note I: although Morgan (1968) (received 30 August 1967, revised 30 November 1967 and published 15 March 1968) was published later than McKenzie & Parker (1967) (published 30 December 1967), priority belongs to Morgan. It is based on a presentation at the American Geophysical Union's 1967 meeting (title: Rises, Trenches, Great Faults, and Crustal Blocks).
  • Note II: W. Jason Morgan shared with Fred Vine an office in the Princeton University for two years, and a scientific paper from H. W. Menard drifted his attention to plate tectonics. It was probably the long faults on Menard (1967) (cited in Morgan 1968) and the Euler's rotation theorem that gave him the idea.^[5][6]
• End of the continental drift controversy in the USA: North Atlantic – Geology and Continental Drift, a Symposium (1969); American Association of Petroleum Geologists (AAPG) ((Kay 1969) cited in (Krill 2011)).

Geodynamics

Euler rotational pole.

Spreading at a mid-ocean ridge (the image has a flaw though, the seafloor gets thicker with age).

Approximate world distribution of living Cycadales

A distribution map of Gnetophyta colour-coded by genus:
Green – Welwitschia
Blue – Gnetum
Red – Ephedra
Purple – Gnetum and Ephedra range overlap

• John F. Dewey applies Plate tectonics (Dewey 1970).
• Plate tectonics:
  • Mantle plume controversy (Cowen & Lipps 1975, Jordan 2007): The relationship between subducted seafloor, flood basalts and continental rifting is uncovered. (Morgan 1971), (Morgan 1972), (Rampino & Stothers 1988), (Silver, Carlson & Olson 1988), (White 1989), (Segev 2002)
    • Plume tectonics: (Dziewonski & Woodhouse 1987), (Fukao et al. 1992), (Maruyama 1994)
  • Slab pull force, Slab suction force (Back-arc basin) and Ridge push force:
    • Back-arc basin (Molnar & Atwater 1978), (Barker & Hill 1980), (Martinez et al. 1995)
    • Similar to a landslide, seafloor sinks and subducts (Forsyth & Uyeda 1975), (Hager & O'Connell 1981), (Kerr 1995), (Anderson 2001), (Conrad & Lithgow-Bertelloni 2002)
  • Wilson cycle: slab pull/ subduction opens a space on western South America and the sliding seafloor away from the Mid-Atlantic Ridge on eastern South America occupies the new available space.
  • Overview: viscous resistance, slab thickness, slab bending, trench migration and seismic coupling, slab width, slab edges and mantle return flow:
    • Clinton P. Conrad; Susan Bilek; Carolina Lithgow-Bertelloni (2004). "Great earthquakes and slab pull: interaction between seismic coupling and plate-slab coupling" (PDF). Earth and Planetary Science Letters. 218 (1): 109–122. Bibcode:2004E&PSL.218..109C. CiteSeerX 10.1.1.506.2266. doi:10.1016/S0012-821X(03)00643-5.
    • Lallemand, S.; Heuret, A.; Boutelier, D. (2005). "On the relationships between slab dip, back-arc stress, upper plate absolute motion, and crustal nature in subduction zones". Geochemistry, Geophysics, Geosystems. 6 (9): Q09006. Bibcode:2005GGG.....6.9006L. doi:10.1029/2005GC000917.
    • W. P. Schellart; D. R. Stegman; R. J. Farrington; J. Freeman & L. Moresi (16 July 2010). "Cenozoic Tectonics of Western North America Controlled by Evolving Width of Farallon Slab". Science. 329 (5989): 316–9. Bibcode:2010Sci...329..316S. doi:10.1126/science.1190366. PMID 20647465. S2CID 12044269.
• Current plate motions. (Demets et al. 1990), (Argus et al. 2010), (Demets, Gordon & Argus 2010)
• Pacific Plate, lower mantle has a greater viscosity (Monastersky 1996a)
• Tibetan Plateau, collision generates heat (Nelson 1996), (Monastersky 1996b)
• Paleogeography (Irving (2005) and Krill (2011)):
  • Order Cycadales, genus Bowenia
  • Family Araucariaceae found in Norfolk Island, Australia, Vanuatu, New Caledonia, Papua New Guinea, Indonesia, Malaysia, Philippines, New Guinea, Argentina, Chile, and southern Brazil. Coal fossils found on the British Isles.
  • Magnolia, subgenus Magnolia:
    • Section Magnolia, found in the Neotropical realm
    • Section Gwillimia, found in Asia including Borneo
    • Section Blumiana, found in Asia, including Sumatra and Borneo
    • Section Talauma, found in the Neotropical realm
    • Section Manglietia, found in Asia
    • Section Kmeria, found in Asia
    • Section Rhytidospermum, found in Asia and Magnolia tripetala (L.) L. in Southeast USA
    • Section Auriculata, Magnolia fraseri Walt. found in Southeast USA
    • Section Macrophylla, Magnolia macrophylla Michx. found in Southeast USA
  • Magnolia, subgenus Yulania:
    • Section Yulania, found in Asia and Magnolia acuminata (L.) L. found in East USA
    • Section Michelia, found in Asia including the Indomalayan realm
  • Note: a bee fossil of the genus Melittosphex, is considered "an extinct lineage of pollen-collecting Apoidea sister to the modern bees", and dates from the early Cretaceous (c. 100 Ma).^[7] Insect-pollinated flowering plants need bees (unranked taxon Anthophila, of the superfamily Apoidea). Beetles may have originated during the Lower Permian, up to 299 Ma.^[8] Flies evolved c. 250 Ma, moths and wasps evolved c. 150 Ma.^[9]
• Lockwood, John P.; Hazlett, Richard W. (2010). Volcanoes: Global Perspectives. Wiley. p. 552. ISBN 978-1-4051-6250-0.^[10]
  • Total estimated radiogenic heat release (from neutrino research): 19 Terawatts
  • Total directly observed heat release through Earth's surface: 31 Terawatts
• Seismic anisotropy (Becker 2008), (Kreemer 2009), (Conrad & Behn 2010)
• Plate reconstruction: Torsvik, Trond Helge and Gaina, Carmen, Center for Geodynamics at NGU (Geological Survey of Norway), PGP (Physics of Geological Processes, University of Oslo, Norway); Müller, R. Dietmar, EarthByte Group, University of Sydney; Scotese, C.R., Ziegler, A.M. and Van der Voo, R., University of Michigan, University of Chicago and University of Texas, Arlington; Ziegler, P.A. and Stampfli, Gérard, University of Basel and University of Lausanne.^[11][12][13]
  • (Torsvik et al. 2010), (Ziegler 1990), (Stampfli & Borel 2004)
  • Global plate reconstructions with velocity fields from 150 Ma to present in 10 Ma increments.

Overview

Many concepts had to be changed:

• Uniformitarianism instead of catastrophism.
• Empirical science instead of creationism.
• Plutonism instead of neptunism, but hydrothermal secondary mineralization occurs.
• Seafloor of sima instead of sial.
• Baron Kelvin got the age of the Earth too short.
• The concept of Earth crust and mantle.
• Airy-Heiskanen isostasy model instead of the Pratt-Hayford model.
• Thrust faults had to be accepted.
• The expanding Earth and the contracting Earth concept had to be given up.

The shifting and evolution of knowledge and concepts, were from:

• Eduard Suess (alpine geology: theory of thrusting as a modification of the geosyncline hypothesis), (Suess 1875);
• then to Alfred Wegener (continental drift), (Wegener 1912a), (Wegener 1929);
• then to Arthur Holmes (a model with convection), (Holmes 1944);
• then to Felix Andries Vening Meinesz (gravity anomalies along the oceanic trenches implied that the crust was moving) and A. Rittmann (subduction), (Vening Meinesz 1959), (Rittmann 1951);
• then to Samuel Warren Carey (plate tectonics), (Carey 1958); Harry Hammond Hess and Robert S. Dietz (seafloor spreading), (Hess 1962), (Dietz 1961);
• then to John Tuzo Wilson (seafloor spreading), (Wilson 1963b), (transform faults), (Wilson 1965a) and (Wilson cycle), (Wilson 1966);
• then to the confirmation of the Vine–Matthews–Morley hypothesis, (Vine 1963) and paradigm shift, (Vine 1966) and (Wilson 1968);
• then to Jason Morgan, Dan McKenzie and Robert Parker (quantification of plate tectonics), (Morgan 1968), (McKenzie & Parker 1967); its uncertainty was quantified by Theodore C. Chang;
• and then to computer simulation with slab pull and "ridge-push" (Forsyth & Uyeda 1975), (Hager & O'Connell 1981), (Kerr 1995) and (Conrad & Lithgow-Bertelloni 2002) with nice works published by the Scripps Institution of Oceanography, the EarthByte Group (R. Dietmar Müller) and the Center for Geodynamics (Trond Helge Torsvik and Carmen Gaina).^[12][13]

Profile of the East Swiss Alps (1880, from Northeast to Southwest) by Albert Heim, before he accepted the theory of thrusting. Key: #a Gneiss, schist and so on, #b Jura, #c Cretaceous and #d Eocene; Walensee, Schaechental, Windgaelle and Finsteraarhorn.

Actually, there were two main "schools of thought" that pushed plate tectonics forward:

• The "alternative concepts to e.g. Harold Jeffreys group", James Hutton, Eduard Suess, Alfred Wegener, Alexander du Toit, Arthur Holmes and Felix Andries Vening Meinesz (together with J.H.F. Umbgrove, B.G. Escher and Ph.H. Kuenen). Holmes, Vening Meinesz and Umbgrove had some experience in Burma or Indonesia (Pacific Ring of Fire).
  • The alpine geology "school of thought": Suess (1875), Argand (1916), Argand (1922), Ampferer (1920), Schwinner (1941) and Rittmann (1951). With the theory of thrusting, nappes, thrust faults and subductions.
• The "Princeton University" group around H. H. Hess: Felix Andries Vening Meinesz, Harry Hammond Hess, John Tuzo Wilson, W. Jason Morgan and Frederick Vine. Overview of plate tectonics in: Kearey, Klepeis & Vine 2009.
  • Vening Meinesz (together with J.H.F. Umbgrove, B.G. Escher and Ph.H. Kuenen) had more evidence that the established paradigm and the reality do not match. But as all geophysicists he could not really believe in crust motions in such a large scale and he knew Wegener's Continental drift hypothesis fate too. Hess (1962) accumulated even more evidence, but he prudently introduced them as geopoetry, quote: "Little of Umbgrove (1947) brilliant summary remains pertinent when confronted by the relatively small but crucial amount of information collected in the intervening years. Like Umbgrove, I shall consider this paper an essay in geopoetry."
• The IAV/ IAVEI board (i.e., B.G. Escher and A. Rittmann) probably never dumped the idea that the South Atlantic is under extension.
• And the anti-drifters were in a way right as well. Although convection would mix up the mantle and make it homogeneous. The seafloor cycle with subduction and upwelling is something between conduction and convection, it allows for its inhomogeneity in a quasi-steady state. The mantle and the continents are in a way passive, the heat sink of the earth is the seafloor. So that the heat generated in the earth gets neutralised.

Wegener's continental drift hypotheses is a logical consequence of: the theory of thrusting (alpine geology), the isostasy, the continents forms resulting from the supercontinent Gondwana break up, the past and present-day life forms on both sides of the Gondwana continent margins, and the Permo-Carboniferous moraine deposits in South Gondwana.

Graphics

Plate tectonics map, Digital Tectonic Activity Map^[14]

Global plate tectonic movement^[15]

See also

• Timeline of the development of tectonophysics (before 1954) – Chronological listing of significant events in the history of tectonophysics

References

Notes

1. Windley 1996.
2. Ziegler 1990.
3. Hurley et al. 1966.
4. Hurley et al. 1967.
5. McPhee 1998.
6. Bill Bonini; Laurie Wanat, eds. (Fall 2003). "Jason Morgan Retires" (PDF). The Smilodon: The Princeton Geosciences Newsletter. 44 (2). Fortuitously, he was assigned as well an office that he shared for two years with Fred Vine,... This insight was fundamental to the revolutionary theory then developing, and sharing that office with Fred Vine drew Morgan into the subject — as he puts it — "with a bang." A paper written by H.W. Menard caused him to begin musing on his own about great faults and fracture zones, and how they might relate to theorems on the geometry of spheres Passages about W. Jason Morgan from McPhee, John (1998) Annals of the Former World, New York: Farrar, Straus, Giroux.
7. Poinar GO, Danforth BN (October 2006). "A fossil bee from Early Cretaceous Burmese amber" (PDF). Science. 314 (5799): 614. CiteSeerX 10.1.1.627.551. doi:10.1126/science.1134103. PMID 17068254. S2CID 28047407. Archived from the original (PDF) on 2012-12-04.
8. Dave Mosher (December 26, 2007). "Modern beetles predate dinosaurs". Live Science. Retrieved June 24, 2010.
9. Wiegmann, Brian M.; Trautwein, Michelle D.; Winkler, Isaac S.; Barr, Norman B.; Kim, Jung-Wook; Lambkin, Christine; Bertone, Matthew A.; Cassel; Bayless, Brian K.; Heimberg, Alysha M.; Wheeler, Benjamin M.; Peterson, Kevin J.; Pape, Thomas; Sinclair, Bradley J.; Skevington, Jeffrey H.; Blagoderov, Vladimir; Caravas, Jason; Kutty, Sujatha Narayanan; Schmidt-Ott, Urs; Kampmeier, Gail E.; Thompson, F. Christian; Grimaldi, David A.; Beckenbach, Andrew T.; Courtney, Gregory W.; Friedrich, Markus; Meier, Rudolf; Yeates, David K. (2011). "Episodic radiations in the fly tree of life". Proceedings of the National Academy of Sciences. 108 (14): 5690–5695. Bibcode:2011PNAS..108.5690W. doi:10.1073/pnas.1012675108. PMC 3078341. PMID 21402926.
10. Araki et al. 2005.
11. Scotese, Christopher. "The Paleomap Project".
12. "Center for Geodynamics, Geological Survey of Norway".
13. "EarthByte Group, University of Sydney". Archived from the original on 2012-06-28.
14. The Digital Tectonic Activity Map (DTAM) was produced by Paul Lowman and colleagues at NASA GSFC, 1998.
15. NASA/JPL Archived 2011-07-21 at the Wayback Machine, courtesy of Michael B. Heflin, 2007.9. See Bird (2003) and Dr. Ron Blakey Archived 2012-08-07 at the Wayback Machine, Northern Arizona University.

Cited books

• Bacon, Francis (1620). s:en:Novum Organum. Translated by Wood, Devey, Spedding, et al. England.
• P.M.S. Blackett, E.C. Bullard and S.K. Runcorn (ed). A Symposium on Continental Drift, held on 28 October 1965. pp. 323:
  • Bullard, E; Everett, J. E; Smith, A. G (1965). "The Fit of the Continents around the Atlantic". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 258 (1088): 41–51. Bibcode:1965RSPTA.258...41B. doi:10.1098/rsta.1965.0020. PMID 17801943. S2CID 27169876.
  • Heezen, B. C; Tharp, M (1965). "Tectonic Fabric of the Atlantic and Indian Oceans and Continental Drift". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 258 (1088): 90–106. Bibcode:1965RSPTA.258...90H. doi:10.1098/rsta.1965.0024. S2CID 121476006.
  • Wilson, J. T (1965b). "Evidence from Ocean Islands Suggesting Movement in the Earth". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 258 (1088): 145–167. Bibcode:1965RSPTA.258..145W. doi:10.1098/rsta.1965.0029. JSTOR 73340. S2CID 202574604.
• Carey, S. W. (1958). "The tectonic approach to continental drift". In Carey, S. W. (ed.). Continental Drift—A symposium, held in March 1956. Hobart: Univ. of Tasmania. pp. 177–363. Expanding Earth from pp. 311–349.
• Coats, Robert R. (1962). "Magma type and crustal structure in the Aleutian arc". The Crust of the Pacific Basin. American Geophysical Union Monograph. Vol. 6. pp. 92–109.
• Cowen, R.; Lipps, J.H., eds. (1975). Controversies in the Earth sciences. St. Paul, MN: West Publishing Co. pp. 439. ISBN 978-0-8299-0044-6.
• Dana, James Dwight (1863). Manual of Geology: Treating of the Principles of the Science with Special Reference to American Geological History. Bliss. p. 805.
• Flint, R. F. (1947). Glacial Geology and the Pleistocene Epoch. New York: John Wiley and Sons. p. 589. ISBN 978-1-4437-2173-8.
• Frankel, H. (1987). "The Continental Drift Debate". In H.T. Engelhardt Jr; A.L. Caplan (eds.). Scientific Controversies: Case Solutions in the resolution and closure of disputes in science and technology. Cambridge University Press. ISBN 978-0-521-27560-6.
• W.A.J.M. van Waterschoot van der Gracht; Bailey Willis; Rollin T. Chamberlin; John Joly; G.A.F. Molengraaff; J.W. Gregory; Alfred Wegener; Charles Schuchert; Chester R. Longwell; Frank Bursley Taylor; William Bowie; David White; Joseph T. Singewald, Jr.; Edward W. Berry (1928). W.A.J.M. van Waterschoot van der Gracht (ed.). Theory of Continental Drift: a symposium on the origin and movement of land masses both intercontinental and intracontinental as proposed by Alfred Wegener, A Symposium of the American Association of Petroleum Geologists (AAPG, 1926). Tulsa, OK. p. 240.
• Le Grand, H. E. (1990). "Is one picture worth a thousand experiments?". In Le Grand, H. E. (ed.). Experimental Inquiries: Historical, Philosophical and Social Studies of Experimentation in Science. Dordrecht: Kluwer. pp. 241–270.
• Hallam, A. (1983). Great Geological Controversies. Oxford: Oxford University Press. pp. x+182. ISBN 978-0-19-854430-2.
• Hellman, Hal (1998a). "Lord Kelvin versus Geologists and Biologists – The Age of the Earth". Great Feuds in Science: Ten of the Liveliest Disputes Ever. New York: John Wiley & Sons. pp. 105–120. ISBN 978-0-471-35066-8.
• Hellman, Hal (1998b). "Wegener versus Everybody – Continental Drift". Great Feuds in Science: Ten of the Liveliest Disputes Ever. New York: John Wiley & Sons. pp. 141–158. ISBN 978-0-471-35066-8.
• Hess, H. H. (November 1962). "History of Ocean Basins" (PDF). In A. E. J. Engel; Harold L. James; B. F. Leonard (eds.). Petrologic studies: a volume to honor of A. F. Buddington. Boulder, CO: Geological Society of America. pp. 599–620.
• Holmes, Arthur (1944). Principles of Physical Geology (1 ed.). Edinburgh: Thomas Nelson & Sons. ISBN 978-0-17-448020-4.
• Holmes, Arthur (1929b). The Origin of Continents and Oceans.
• Hopkins, Evan (1844). On the connection of geology with terrestrial magnetism. R. Taylor. p. 129.
• Jeffreys, H. (1924). The Earth – its Origin, History and Physical Constitution (1 ed.). Cambridge University Press. p. 429.
  • Jeffreys, H. (1952). The Earth – its Origin, History and Physical Constitution (3 ed.). Cambridge University Press. p. 574. ISBN 978-0-521-20648-8.
• Kay, Marshall, ed. (1969). North Atlantic: geology and continental drift, a symposium. Tulsa, OK: American Association of Petroleum Geologists (AAPG).
• Keary, P; Vine, F. J. (1990). Global Tectonics. Oxford: Blackwell Scientific Publications. pp. 302.
  • Kearey, Philip; Klepeis, Keith A.; Vine, Frederik J. (2009). Global tectonics (3 ed.). Wiley-Blackwell. p. 482. ISBN 978-1-4051-0777-8.
• Kious, W. Jacquelyne; Tilling, Robert 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. Retrieved 2008-01-29. Abraham Ortelius in his work Thesaurus Geographicus... suggested that the Americas were 'torn away from Europe and Africa... by earthquakes and floods... 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].'
  • W. Jacquelyne Kious; Robert I. Tilling (1996). This Dynamic Earth: The Story of Plate Tectonics. DIANE Publishing. p. 3. ISBN 978-0-7881-3318-3.
• Krill, Allan (2011). Fixists vs. Mobilists: In the Geology Contest of The Century, 1844–1969. ISBN 978-82-998389-1-7.
• Lilienthal, T. (1756). Die Gute Sache der Göttlichen Offenbarung. Königsberg: Hartung. This is also likely owing to the fact that the coasts of certain lands, situated opposite each other though separated by sea, have a corresponding shape, so that they would be congruent with one another were they to stand side by side; for example, the southern part of America and Africa. For this reason one supposes that perhaps both of these continents were previously attached to each other, either directly, or through the sunken island of Atlantis;...
• Lyell, Charles (1875). Principles of Geology (12th ed.).
• Machamer, Peter; Pera, Marcella; Baltas, Aristides, eds. (2000). Scientific Controversies. Oxford University Press. pp. 278. ISBN 978-0-19-511987-9. Wegener pp. 72–75.
• Marvin, Ursula B. (1973). Continental Drift: The Evolution of a Concept ((Dissertation)). Smithsonian Institution Press. p. 239. ISBN 978-0-87474-129-2.
• McPhee, John (1998). Annals of the Former World. New York: Farrar, Straus & Giroux. ISBN 978-0-374-10520-4.
• Oreskes, Naomi (1999). The rejection of continental drift: theory and method in American earth science. Oxford University Press. ISBN 978-0-19-511733-2.
• Naomi Oreskes; Homer Le Grand, eds. (December 2001). Plate Tectonics: An Insider's History of the Modern Theory of the Earth. Westview Press. p. 448. ISBN 978-0-8133-3981-8.
• Ortelius, Abraham (1596). Thesaurus Geographicus (3 ed.). Antwerp: Plantin. 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 (Europe, Africa and Americas)]
• Pepper, John Henry (1861). The Playbook of Metals. Routledge, Warne, and Routledge. pp. 502.
• Phinney, R. A. (1968). The History of the Earth's Crust. Princeton, NJ: Princeton Univ. Press. p. 244.
• Revelle, R. R. (1944). Marine bottom samples collected in the Pacific Ocean by the Carnegie on its Seventh Cruise. Pub. 556, Part 1. Washington: Carnegie Inst.
• Runcorn, S. K., ed. (1962b). Continental Drift. New York and London: Academic Press. p. 338.
• Snider-Pellegrini, Antonio (1858). La Création et ses mystères dévoilés. Paris: Frank and Dentu.
• Stampfli, G.M.; Borel, G.D. (2004). "The TRANSMED Transects in Space and Time: Constraints on the Paleotectonic Evolution of the Mediterranean Domain". In Cavazza W.; Roure F.; Spakman W.; Stampfli G.M.; Ziegler P (eds.). The TRANSMED Atlas: the Mediterranean Region from Crust to Mantle. Springer Verlag. ISBN 978-3-540-22181-4.
• Suess, E. (1875). Die Entstehung der Alpen [The Origin of the Alps]. W. Braumüller. A mass movement, more or less horizontal and progressive, should be the cause underlying the formation of our mountain systems.
• Suess, Eduard (1885-08-19). Das Antlitz der Erde [The Face of the Earth]. Translated by Sollas, H.B.C. Vienna: F. Tempsky.
• Sullivan, Walter (1991). Continents in Motion: The New Earth Debate (1 ed.). American Inst. of Physics. p. 425. ISBN 978-0-88318-703-6.
• du Toit, Alexander (1937). Our wandering continents: an hypothesis of continental drifting. Edinburgh: Oliver and Boyd. ISBN 978-0-8371-5982-9.
• Umbgrove, J.H.F. (1947). The Pulse of the Earth (2 ed.). The Hague, NL: Martinus Nyhoff. p. 359.
• Vening Meinesz, F.A. (1948). Gravity expeditions at sea 1923–1938. Vol. IV. Complete results with isostatic reduction, interpretation on the results. Delft: Nederlandse Commissie voor Geodesie 9. p. 233. ISBN 978-90-6132-015-9. Archived from the original on 2011-07-22.
• Wallace, Alfred Russel (2007). Darwinism: An Exposition of the Theory of Natural Selection With Some of Its Applications. Cosimo, Inc. p. 516. ISBN 978-1-60206-453-9.
• Wegener, A. (1929). Die Entstehung der Kontinente und Ozeane (in German) (4 ed.). Braunschweig: Friedrich Vieweg & Sohn Akt. Ges. ISBN 978-3-443-01056-0.
  • Wegener, A. (1966) [1929]. The Origin of Continents and Oceans. Courier Dover Publications. ISBN 978-0-486-61708-4.
• Windley, B.F. (1996). The Evolving Continents (3 ed.). John Wiley & Sons. ISBN 978-0-471-91739-7.
• Ziegler, P.A. (1990). Geological Atlas of Western and Central Europe (2 ed.). Bath: Shell Internationale Petroleum Maatschappij BV, Geological Society Publishing House. p. 239. ISBN 978-90-6644-125-5.

Cited articles

• Ampferer, O. (1921). "Bemerkung zu der Arbeit von R. Schwinner "Vulkanismus und Gebirgsbildung"". Verh. Geol. Staatsanst. Vienna: 101–124.
• Ampferer, O. (1920). "Geometrische Erwägungen über den Bau der Alpen". Mitt. Geol. Ges. Wien. 12. Vienna: 135–174.
• Anderson, D.L. (14 Sep 2001). "Perspective: Geophysics: Top-down tectonics?". Science. 293 (5537): 2016–2018. doi:10.1126/science.1065448. PMID 11557870. S2CID 19972709.
• Araki T; Enomoto S; Furuno K; Gando Y; Ichimura K; Ikeda H; Inoue K; Kishimoto Y; Koga M; Koseki Y; Maeda T; Mitsui T; Motoki M; Nakajima K; Ogawa H; Ogawa M; Owada K; Ricol JS; Shimizu I; Shirai J; Suekane F; Suzuki A; Tada K; Takeuchi S; Tamae K; Tsuda Y; Watanabe H; Busenitz J; Classen T; Djurcic Z; Keefer G; Leonard D; Piepke A; Yakushev E; Berger BE; Chan YD; Decowski MP; Dwyer DA; Freedman SJ; Fujikawa BK; Goldman J; Gray F; Heeger KM; Hsu L; Lesko KT; Luk KB; Murayama H; O'Donnell T; Poon AW; Steiner HM; Winslow LA; Mauger C; McKeown RD; Vogel P; Lane CE; Miletic T; Guillian G; Learned JG; Maricic J; Matsuno S; Pakvasa S; Horton-Smith GA; Dazeley S; Hatakeyama S; Rojas A; Svoboda R; Dieterle BD; Detwiler J; Gratta G; Ishii K; Tolich N; Uchida Y; Batygov M; Bugg W; Efremenko Y; Kamyshkov Y; Kozlov A; Nakamura Y; Karwowski HJ; Markoff DM; Nakamura K; Rohm RM; Tornow W; Wendell R; Chen MJ; Wang YF; Piquemal F (28 July 2005). "Experimental investigation of geologically produced antineutrinos with KamLAND". Nature. 436 (7050): 499–503. Bibcode:2005Natur.436..499A. doi:10.1038/nature03980. PMID 16049478. S2CID 4367737.
• Argand, E. (1916). "Sur l'arc des Alps Occidentales". Eclogae Geologicae Helveticae. 14. Lausanne: 145–192.
• Argand, E. (1924). "La Tectonique de l'Asie". Extrait du Compte-rendu du XIIIe Congrès Géologique International 1922 (13th International Geological Congress) (in French). 1 (5). Liège: 171–372.
• Argus, Donald F.; Gordon, Richard G.; Heflin, Michael B.; Ma, Chopo; Richard J. Eanes; Pascal Willis; W. Richard Peltier; Susan E. Owen (February 2010). "The angular velocities of the plates and the velocity of Earth's centre from space geodesy". Geophysical Journal International. 180 (3): 913–960. Bibcode:2010GeoJI.180..913A. doi:10.1111/j.1365-246X.2009.04463.x.
• Barker, P.F.; Hill, I.A. (1980). "Asymmetric spreading in back-arc basins". Nature. 285 (5767): 652–654. Bibcode:1980Natur.285..652B. doi:10.1038/285652a0. S2CID 4233630.
• Barrel, J. (1914). "The strength of the Earth's crust". Journal of Geology. 22 (1): 28–48. Bibcode:1914JG.....22...28B. doi:10.1086/622131.
• Becker, T.W. (2008). "Azimuthal seismic anisotropy constrains net rotation of the lithosphere". Geophysical Research Letters. 35 (5): L05303. Bibcode:2008GeoRL..35.5303B. doi:10.1029/2007GL032928.
• Bird, P. (2003). "An updated digital model of plate boundaries" (PDF). Geochemistry, Geophysics, Geosystems. 4 (3): 1027. Bibcode:2003GGG.....4.1027B. doi:10.1029/2001GC000252.
• Blackett, P. M. S.; Clegg, J. A.; Stubbs, P. H. S. (July 5, 1960). "An Analysis of Rock Magnetic Data". Proceedings of the Royal Society A. 256 (1286): 291–322. Bibcode:1960RSPSA.256..291B. doi:10.1098/rspa.1960.0110. JSTOR 2413827. S2CID 130514212.
• Bullard, Edward (1975). "The Emergence of Plate Tectonics: A Personal View". Annu. Rev. Earth Planet. Sci. 3: 1–31. Bibcode:1975AREPS...3....1B. doi:10.1146/annurev.ea.03.050175.000245.
• Brusatte, Stephen (2004). "Continents Adrift and Sea-Floors Spreading: The Revolution of Plate Tectonics" (PDF). Archived from the original (PDF) on 2016-06-16.
• Conrad, CP; Lithgow-Bertelloni, C (2002). "How Mantle Slabs Drive Plate Tectonics". Science. 298 (5591): 207–9. Bibcode:2002Sci...298..207C. doi:10.1126/science.1074161. PMID 12364804. S2CID 36766442.
• Conrad, Clinton P.; Behn, Mark D. (May 2010). "Constraints on lithosphere net rotation and asthenospheric viscosity from global mantle flow models and seismic anisotropy" (PDF). Geochemistry, Geophysics, Geosystems. 11 (5): Q05W05. Bibcode:2010GGG....11.5W05C. doi:10.1029/2009GC002970. hdl:1912/3890. ISSN 1525-2027.
• Cox, A.; Dalrymple, G.; Doell, R. R. (1967). "Reversals of the Earth's Magnetic Field". Scientific American. 216 (2): 44–54. Bibcode:1967SciAm.216b..44C. doi:10.1038/scientificamerican0267-44.
• Coxworthy, F. (1924) [1848]. Coxworthy, J. (ed.). Electrical Condition or How and Where our Earth was created. London: W. J. S. Phillips.
• Creer, K. M.; Irving, E.; Runcorn, S. K. (1957). "Geophysical interpretation of palaeomagnetic directions from Great Britain". Philosophical Transactions of the Royal Society A. 250 (144): 144–156. Bibcode:1957RSPTA.250..144C. doi:10.1098/rsta.1957.0017. JSTOR 91599. S2CID 120636158.
• Demets, Charles; Gordon, Richard G.; Argus, Donald F.; Stein, S. (May 1990). "Current plate motions". Geophysical Journal International. 101 (2): 425–478. Bibcode:1990GeoJI.101..425D. doi:10.1111/j.1365-246X.1990.tb06579.x.
• Demets, Charles; Gordon, Richard G.; Argus, Donald F. (April 2010). "Geologically current plate motions" (PDF). Geophysical Journal International. 181 (1): 1–80. Bibcode:2010GeoJI.181....1D. doi:10.1111/j.1365-246X.2009.04491.x.
• Demhardt, Imre Josef (2005). "Alfred Wegener's Hypothesis on Continental Drift and Its Discussion in Petermanns Geographische Mitteilungen (1912–1942)" (PDF). Polarforschung. 75 (1): 29–35. Archived from the original (PDF) on 2010-07-05.
• Dewey, John F.; Bird, John M. (1970). "Mountain Belts and the New Global Tectonics". Journal of Geophysical Research. 75 (14): 2625–2647. Bibcode:1970JGR....75.2625D. doi:10.1029/JB075i014p02625.
• Dietz, Robert S. (June 1961). "Continent and Ocean Basin Evolution by Spreading of the Sea Floor". Nature. 190 (4779): 854–857. Bibcode:1961Natur.190..854D. doi:10.1038/190854a0. S2CID 4288496.
• Doell, R. R.; Dalrymple, G. B. (May 1966). "Geomagnetic polarity epochs: a new polarity event and the age of the Brunhes-Matuyama boundary". Science. 152 (3725): 1060–1061. Bibcode:1966Sci...152.1060D. doi:10.1126/science.152.3725.1060. PMID 17754815. S2CID 34452863.
• Dott, R. H., Jr. (1961). "Squantum "tillite", Massachusetts – evidence of glaciation or subaqueous mass movement?". Bull. Geol. Soc. Am. 72 (9): 1289–1305. Bibcode:1961GSAB...72.1289D. doi:10.1130/0016-7606(1961)72[1289:STMOGO]2.0.CO;2. ISSN 0016-7606.
• Dziewonski, A.M.; Woodhouse, J.H. (3 April 1987). "Global images of the Earth's interior". Science. 236 (4797): 37–48. Bibcode:1987Sci...236...37D. doi:10.1126/science.236.4797.37. PMID 17759204. S2CID 31488210.
• Ewing, John; Ewing, Maurice (March 1959). "Seismic-refraction measurements in the Atlantic Ocean basins, in the Mediterranean Sea, on the Mid-Atlantic Ridge, and in the Norwegian Sea". Geological Society of America Bulletin. 70 (3): 291–318. Bibcode:1959GSAB...70..291E. doi:10.1130/0016-7606(1959)70[291:SMITAO]2.0.CO;2. ISSN 0016-7606.
• Forsyth, D.W.; Uyeda, S. (1975). "On the relative importance of the driving forces of plate motion". Geophysical Journal of the Royal Astronomical Society. 43 (1): 163–200. Bibcode:1975GeoJ...43..163F. doi:10.1111/j.1365-246x.1975.tb00631.x.
• Fukao, Y; Obayashi, M; Inoue, H; Nenbai, M (1992). "Subducting slabs stagnant in the mantle transition zone". Journal of Geophysical Research. 97 (B4): 4809–22. Bibcode:1992JGR....97.4809F. doi:10.1029/91JB02749.
• Hager, Bradford H.; O'Connell, Richard J. (1981). "A Simple Global Model of Plate Dynamics and Mantle Convection". Journal of Geophysical Research. 86 (B6): 4843–4867. Bibcode:1981JGR....86.4843H. doi:10.1029/JB086iB06p04843.
• Heezen, B. C. (1960). "The rift in the ocean floor". Scientific American. 203 (4): 98–110. Bibcode:1960SciAm.203d..98H. doi:10.1038/scientificamerican1060-98.
• Heezen, B. C.; Tharp, M. (1961). Physiographic diagram of the South Atlantic, the Caribbean, the Scotia Sea, and the eastern margin of the South Pacific Ocean. Boulder, CO: The Geological Society of America.
• Heezen, B. C.; Tharp, M. (1964). Physiographic diagram of the Indian Ocean, the Red Sea, the South China Sea, the Sulu Sea, and the Celebes Sea. Boulder, CO: The Geological Society of America.
• Heezen, B. C; Tharp, M (1966). "A discussion concerning the floor of the northwest Indian Ocean – Physiography of the Indian Ocean". Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences. 259 (1099): 137–149. doi:10.1098/rsta.1966.0003. S2CID 202574464.
• Heezen, B. C. (October 1966). Lecture at the conference 'What's New on Earth'. New Brunswick, NJ: Rutgers University.
• Hess, H. H. (1959). "The AMSOC hole to the earth's mantle". Transactions of the American Geophysical Union. 40 (4): 340–345. Bibcode:1959TrAGU..40..340H. doi:10.1029/tr040i004p00340.
• Hess, H.H. (1960a). "Nature of great oceanic ridges". Preprints of the 1st International Oceanographic Congress (New York, August 31-September 12, 1959). Washington: American Association for the Advancement of Science. (A). pp. 33–34.
• Hess, H.H. (1960b). Evolution of ocean basins: Report to Office of Naval Research. Contract No. 1858(10), NR 081-067 (Report). p. 38.
• Holmes, Arthur (April 1929a). "A review of the continental drift hypothesis" (PDF). Mining Magazine: 2–15.
• Holmes, Arthur (1929c). "Radioactivity and Earth movements". Geological Society of Glasgow Transactions. XVIII: 573–580.
• Hurley, P.M.; Melcher, G.C.; Rand, J.R.; Fairbairn, H.W.; Pinson, W.H. (1966). "Rb-Sr whole rock analyses in Northern Brazil correlated with ages in West Africa". Geol. Soc. Am. Progr., Ann. Meetings San Francisco (1966). pp. 100–101 (abstract).
• Hurley, P.M.; Rand, J.R.; Pinson Jr, W.H.; et al. (1967). "Test of continental drift by comparison of radiometric ages". Science. 157 (3788): 495–500. Bibcode:1967Sci...157..495H. doi:10.1126/science.157.3788.495. PMID 17801399. S2CID 206566099.
• Ippolito, F.; Marinelli, G. (September 1981). "Alfred Rittmann". Bulletin of Volcanology. 44 (3): 217–221. Bibcode:1981BVol...44..217I. doi:10.1007/BF02600560. S2CID 198137898.
• Irving, E.; Green, R. (March 1958). "Polar Movement Relative to Australia". Geophysical Journal of the Royal Astronomical Society. 7 (347): 64. Bibcode:1958GeoJ....1...64I. doi:10.1111/j.1365-246X.1958.tb00035.x.
• Irving, E. (1960). "Paleomagnetic pole positions, a survey and analysis". Geophys. J. 3 (1): 51–79. Bibcode:1959GeoJ....2...51I. doi:10.1111/j.1365-246X.1959.tb05781.x.
• Irving, Edward (February 8, 2005). "The Role of Latitude in Mobilism Debates". PNAS. 102 (6): 1821–1828. Bibcode:2005PNAS..102.1821I. doi:10.1073/pnas.0408162101. PMC 548542. PMID 15684058.
• Jacoby, W. R. (January 1981). "Modern concepts of earth dynamics anticipated by Alfred Wegener in 1912". Geology. 9 (1): 25–27. Bibcode:1981Geo.....9...25J. doi:10.1130/0091-7613(1981)9<25:MCOEDA>2.0.CO;2. ISSN 0091-7613. the Mid-Atlantic Ridge ... zone in which the floor of the Atlantic, as it keeps spreading, is continuously tearing open and making space for fresh, relatively fluid and hot sima [rising] from depth.
• Jordan, Brennan T. (2007). "The mantle plume debate in undergraduate geoscience education: Overview, history, and recommendations" (PDF). In Foulger, Gillian R.; Jurdy, Donna M. (eds.). Plates, Plumes and Planetary Processes. Geological Society of America Special Papers. Vol. 430. pp. 933–944. doi:10.1130/2007.2430(43). ISBN 978-0-8137-2430-0.
• Kerr, Richard A. (September 1995). "Earth's Surface May Move Itself". Science. 269 (5228): 1214–1215. Bibcode:1995Sci...269.1214K. doi:10.1126/science.269.5228.1214. PMID 17732101. S2CID 5538344.
• Köppen, W. (1921a). "Polwanderungen, Verschiebungen der Kontinente und Klimageschichte". Dr. A. Petermanns Mitteilungen. 67: 1–8, 57–63.
• Köppen, W. (1921b). "Ursachen und Wirkungen der Kontinentalverschiebungen und Polwanderungen". Dr. A. Petermanns Mitteilungen. 67: 145–149, 191–194.
• Köppen, W. (1925). "Muß man neben der Kontinentalverschiebung noch eine Polwanderung in der Erdgeschichte annehmen?". Dr. A. Petermanns Mitteilungen. 71: 160–162.
• Kreemer, C. (2009). "Absolute plate motions constrained by shear wave splitting orientations with implications for hot spot motions and mantle flow". Journal of Geophysical Research. 114 (B10405): B10405. Bibcode:2009JGRB..11410405K. doi:10.1029/2009JB006416.
• Le Pichon, Xavier (15 June 1968). "Sea-floor spreading and continental drift". Journal of Geophysical Research. 73 (12): 3661–3697. Bibcode:1968JGR....73.3661L. doi:10.1029/JB073i012p03661.
• Martinez, F.; Fryer, P.; Baker, N.A.; Yamazaki, T. (1995). "Evolution of backarc rifting: Mariana Trough, 20-24N". Journal of Geophysical Research. 100 (B3): 3807–3827. Bibcode:1995JGR...100.3807M. doi:10.1029/94JB02466.
• Marvin, Ursula B. (1966). "Continental Drift". SAO Special Report. 236: 31–74. Bibcode:1966SAOSR.236...31M.
• Maruyama, Shigenori (1994). "Plume tectonics". Journal of the Geological Society of Japan. 100: 24–49. doi:10.5575/geosoc.100.24.
• McAdoo, David (2006). "Marine Geoid, Gravity and Bathymetry: An Increasingly Clear View with Satellite Altimetry" (PDF). Symposium on "15 Years of Progress in Radar Altimetry", held on 13 to 18 of March 2006, Venice. p. 7. Archived from the original (PDF) on 2012-03-03.
• McKenzie, Dan; Parker, Robert L. (30 December 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.
• Menard, H.W. (1958). "Development of median elevations in the ocean basins". Geol. Soc. Am. Bull. 69 (9): 1179–1186. Bibcode:1958GSAB...69.1179M. doi:10.1130/0016-7606(1958)69[1179:domeio]2.0.co;2.
• Menard, H.W. (6 Jan 1967). "Extension of northeastern-pacific fracture zones". Science. 155 (3758): 72–4. Bibcode:1967Sci...155...72M. doi:10.1126/science.155.3758.72. PMID 17799148. S2CID 12492853.
• Molnar, P.; Atwater, T. (1978). "Interarc spreading and Cordilleran tectonics as alternates related to the age of subducted oceanic lithosphere". Earth and Planetary Science Letters. 41 (3): 330–340. Bibcode:1978E&PSL..41..330M. doi:10.1016/0012-821X(78)90187-5.
• Monastersky, Richard (5 October 1996a). "Why is the Pacific so Big? Look Down Deep". Science News: 213.
• Monastersky, Richard (7 December 1996b). "Tibet Reveals Its Squishy Underbelly". Science News: 356.
• Morgan, W. Jason (1968). "Rises, Trenches, Great Faults, and Crustal Blocks" (PDF). Journal of Geophysical Research. 73 (6): 1959–1982. Bibcode:1968JGR....73.1959M. doi:10.1029/JB073i006p01959.
• Morgan, W. Jason (1971). "Convection plumes in the lower mantle". Nature. 230 (5288): 42–43. Bibcode:1971Natur.230...42M. doi:10.1038/230042a0. S2CID 4145715.
• Morgan, W. J. (February 1972). "Plate motions and deep mantle convection" (PDF). The American Association of Petroleum Geologists Bulletin. 56 (2): 203–213. doi:10.1306/819A3E50-16C5-11D7-8645000102C1865D.
• Nelson, K. Douglas; Zhao, W.; Brown, L. D.; Kuo, J.; Che, J.; Liu, X.; Klemperer, S. L.; Makovsky, Y.; Meissner, R. (December 1996). "Partially Molten Middle Crust beneath Southern Tibet: Synthesis of Project INDEPTH Results". Science. 274 (5293): 1684–1687. Bibcode:1996Sci...274.1684N. CiteSeerX 10.1.1.709.2846. doi:10.1126/science.274.5293.1684. PMID 8939851. S2CID 252669.
• Ninkovich, Dragoslav; Opdyke, Neil; Heezen, Bruce C.; Forster, John H. (November 1966). "Paleomagnetic stratigraphy, rates of deposition and tephrachronology in North Pacific deep-sea sediments". Earth and Planetary Science Letters. 1 (6): 476–492. Bibcode:1966E&PSL...1..476N. doi:10.1016/0012-821X(66)90052-5.
• O'Keefe, J. A.; Eckeis, Ann; Squires, R. K. (1959). "Vanguard Measurements Give Pear-Shaped Component of Earth's Figure". Science. 129 (3348): 566. doi:10.1126/science.129.3348.565.
• Oreskes, Naomi (2002). "Continental Drift" (PDF). San Diego: University of California. Archived from the original (PDF) on 2012-02-04.
• Pickering, W.H (1907). "The Place of Origin of the Moon – The Volcani Problems". Popular Astronomy. 15: 274–287. Bibcode:1907PA.....15..274P.
• Rampino, Michael R.; Stothers, Richard B. (5 Aug 1988). "Flood Basalt Volcanism During the Past 250 Million Years". Science. 241 (4866): 663–668. Bibcode:1988Sci...241..663R. doi:10.1126/science.241.4866.663. PMID 17839077. S2CID 33327812.
• Rittmann, Alfred (1939). "Bemerkungen zur 'Atlantis-Tagung' in Frankfurt im Januar 1939" [Comments about the 'Atlantis Conference', Frankfurt, January 1939]. Geologische Rundschau. 30 (3): 284. Bibcode:1939GeoRu..30..284R. doi:10.1007/BF01804845. S2CID 129572224.
• Rittmann, Alfred (1951). "Orogénèse et volcanisme". Archives des Sciences (4–5). Géneve: 273–314.
• Rodney H. Grapes (2012). Barry J. Cooper (ed.). "Wegener and continental drift re-examined" (PDF). INHIGEO Newsletter. No. 44. pp. 75–77. ISSN 1028-1533. Retrieved 2022-02-27. Review of Allan Krill, Fixists vs. Mobilists in the Geology Contest of the Century, 1844–1969.
• 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.
• Rothé, J. P. (1954). "La zone seismique mediane Indo-Atlantique". Proceedings of the Royal Society A. 222 (1150): 387–397. Bibcode:1954RSPSA.222..387R. doi:10.1098/rspa.1954.0081. S2CID 128489455.
• Runcorn, S.K. (1956). "Paleomagnetic comparisons between Europe and North America". Proceedings, Geological Association of Canada. 8 (1088): 7785. Bibcode:1965RSPTA.258....1R. doi:10.1098/rsta.1965.0016. S2CID 122416040.
• Runcorn, S. K. (March 1959). "On the Permian Climatic Zonation and Paleomagnetism". American Journal of Science. 257 (3): 235–240. Bibcode:1959AmJS..257..235R. doi:10.2475/ajs.257.3.235.
• Runcorn, S. K. (January 1962a). "Towards a Theory of Continental Drift". Nature. 193 (4813): 311–314. Bibcode:1962Natur.193..311R. doi:10.1038/193311a0. S2CID 4180062.
• Ruud, I. (1930). "Die Ursache der Kontinentalverschiebung und der Gebirgsbildung". Dr. A. Petermanns Mitteilungen. 76: 119–124, 174–180.
• Scheidegger, Adrian E. (1953). "Examination of the physics of theories of orogenesis". Geological Society of America Bulletin. 64 (2): 127–150. Bibcode:1953GSAB...64..127S. doi:10.1130/0016-7606(1953)64[127:EOTPOT]2.0.CO;2. ISSN 0016-7606.
• Schwinner, R. (1920). "Vulkanismus und Gebirgsbildung. Ein Versuch". Z. Vulkanologie. 5. Berlin: 175–230.
• Schwinner, R. (1941). "Seismik und tektonische Geologie der Jetztzeit". Z. Geophys. 17: 103–113.
• Segev, A (2002). "Flood basalts, continental breakup and the dispersal of Gondwana: evidence for periodic migration of upwelling mantle flows (plumes)". EGU Stephan Mueller Special Publication Series. 2: 171–191. Bibcode:2002SMSPS...2..171S. doi:10.5194/smsps-2-171-2002.
• Silver, P.G.; Carlson, R.W.; Olson, P. (1988). "Deep slabs, geochemical heterogeneity, and the large-scale structure of mantle convection: Investigation of an enduring paradox". Annual Review of Earth and Planetary Sciences. 16: 477–541. Bibcode:1988AREPS..16..477S. doi:10.1146/annurev.ea.16.050188.002401.
• Staub, R. (1924). "Der Bau der Alpen". Beitr. Z. Geolog. Karte der Schweiz, N. F. 52. Bern: 272.
• Summerhayes, C. P. (1990). "Palaeoclimates". Journal of the Geological Society, London. 147 (2): 315–320. Bibcode:1990JGSoc.147..315S. doi:10.1144/gsjgs.147.2.0315. S2CID 219542489.
• Du Toit, A. (1944). "Tertiary Mammals and Continental Drift". American Journal of Science. 242 (3): 145–63. Bibcode:1944AmJS..242..145D. doi:10.2475/ajs.242.3.145.
• Torsvik, T.H.; Van der Voo, R.; Meert, J.G.; Mosar, J.; Walderhaug, H.J. (2001). "Reconstructions of the Continents Around the North Atlantic at About the 60th Parallel" (PDF). Earth and Planetary Science Letters. 187 (1–2): 55–69. Bibcode:2001E&PSL.187...55T. doi:10.1016/S0012-821X(01)00284-9. Archived from the original (PDF) on 2012-07-03.
• Torsvik, Trond Helge; Steinberger, Bernhard; Gurnis, Michael; Gaina, Carmen (2010). "Plate tectonics and net lithosphere rotation over the past 150 My" (PDF). Earth and Planetary Science Letters. 291 (1–4): 106–112. Bibcode:2010E&PSL.291..106T. doi:10.1016/j.epsl.2009.12.055. hdl:10852/62004. Archived from the original (PDF) on 16 May 2011. Retrieved 18 June 2010.
• Vening Meinesz, F. A. (1952a). "The Formation of the Continents by Convection". Kon. Ned. Akad. Weten. 55 (527).
• Vening Meinesz, F. A. (1952b). "The Origin of Continents and Oceans". Geologie en Mijnbouw. New Series. 14: 373–384.
• Vening Meinesz, F. A. (1955). "Plastic Buckling of the Earth's Crust: the Origin of Geosynclines". Crust of the earth: A symposium. Geological Society of America.
• Vening Meinesz, F. A. (1959). "The results of the development of the Earth's topography in spherical harmonics up to the 31st order; provisional conclusions". Koninkl. Ned. Akad. Van Wetenschappen Amsterdam. Proc. Ser. B., Phys. Sciences. 62: 115–136.
• Vine, F. J. (16 December 1966). "Spreading of the Ocean Floor: New Evidence" (PDF). Science. 154 (3755): 1405–1415. Bibcode:1966Sci...154.1405V. doi:10.1126/science.154.3755.1405. PMID 17821553. S2CID 44362406.
• Vine, F. J.; Matthews, D. H. (7 September 1963). "Magnetic Anomalies Over Oceanic Ridges" (PDF). Nature. 199 (4897): 947–949. Bibcode:1963Natur.199..947V. doi:10.1038/199947a0. S2CID 4296143.
• Vine, F. J.; Wilson, J. Tuzo (October 1965). "Magnetic Anomalies over a Young Oceanic Ridge off Vancouver Island" (PDF). Science. 150 (3695): 485–9. Bibcode:1965Sci...150..485V. CiteSeerX 10.1.1.473.7395. doi:10.1126/science.150.3695.485. PMID 17842754. S2CID 41107379.
• Wegener, Alfred (1912a). "Die Herausbildung der Grossformen der Erdrinde (Kontinente und Ozeane), auf geophysikalischer Grundlage". Petermanns Geographische Mitteilungen. 63: 185–195, 253–6, 305–9. Diese (gemeint sind "relative geringfuegige Niveaudifferenzen der grossen ozeanischen Becken untereinander") scheinen es auch nahezulegen, die mittelatlantische Bodenschwelle als diejenige Zone zu betrachten, in welche bei der noch immer fortschreitenden Erweiterung des atlantischen Ozeans der Boden desselben fortwaehrend aufreisst und frischem, relativ fluessigen und hochtemperiertem Sima aus der Tiefe Platz macht [This (meaning the "relatively minor differences in level of the large oceanic basin with each other") seem to suggest also to consider the Mid-Atlantic Rift as the zone in which the expansion of the Atlantic Ocean is still ongoing, and its seafloor tears open constantly to make space to fresh, relatively fluid and tempered Sima]
• Wegener, A. (July 1912b). "Die Entstehung der Kontinente". Geologische Rundschau. 3 (4): 276–292. Bibcode:1912GeoRu...3..276W. doi:10.1007/BF02202896. S2CID 129316588. Just an overview of the article in Petermanns Geographische Mitteilungen.
• Wegener, K. (1925). "Die Kontinentalschollen". Dr. A. Petermanns Mitteilungen. 71: 51–53.
• Wegener, K. (1941). "Geophysik und Geographie". Dr. A. Petermanns Mitteilungen. 87: 98–100.
• Wegener, K. (1942). "Die Theorie Alfred Wegeners über die Entstehung der Kontinente und Ozeane". Dr. A. Petermanns Mitteilungen. 88: 178–182. He gives reasons for the paleo connection of the Americas and Eurasia-Africa by naming paleontological similarities, parallelism of coastal forms and the recently researched submarine Atlantic mountain range as ideal seam of continental splits (p. 181).
• Wells, J. W. (1963). "Coral Growth and Geochronometry". Nature. 197 (4871): 948–950. Bibcode:1963Natur.197..948W. doi:10.1038/197948a0. S2CID 36696148.
• White, R.; McKenzie, D. (1989). "Magmatism at rift zones: The generation of volcanic continental margins and flood basalts". Journal of Geophysical Research. 94: 7685–7729. Bibcode:1989JGR....94.7685W. doi:10.1029/JB094iB06p07685. S2CID 140181589.
• Wilson, J. Tuzo (July 1962). "Cabot Fault, an Appalachian Equivalent of San Andreas and Great Glen Faults and Some Implications for Continental Displacement". Nature. 195 (4837): 135–138. Bibcode:1962Natur.195..135W. doi:10.1038/195135a0. S2CID 4289725.
• Wilson, J. Tuzo (February 1963a). "Evidence from Islands on the Spreading of Ocean Floors". Nature. 197 (4867): 536–538. Bibcode:1963Natur.197..536W. doi:10.1038/197536a0. S2CID 4255932.
• Wilson, J. Tuzo (1963b). "A possible origin of the Hawaiian Islands" (PDF). Canadian Journal of Physics. 41 (6): 863–870. Bibcode:1963CaJPh..41..863W. doi:10.1139/p63-094.
• Wilson, J. Tuzo (February 1963c). "Pattern of Uplifted Islands in the Main Ocean Basins". Science. 139 (3555): 592–594. Bibcode:1963Sci...139..592T. doi:10.1126/science.139.3555.592. PMID 17788294. S2CID 10792214.
• Wilson, J. Tuzo (July 1965a). "A new class of faults and their bearing on continental drift" (PDF). Nature. 207 (4995): 343–347. Bibcode:1965Natur.207..343W. doi:10.1038/207343a0. S2CID 4294401. Archived from the original (PDF) on August 6, 2010.
• Wilson, J. Tuzo (13 August 1966). "Did the Atlantic close and then re-open?" (PDF). Nature. 211 (5050): 676–681. Bibcode:1966Natur.211..676W. doi:10.1038/211676a0. S2CID 4226266.^{[permanent dead link]}
• Wilson, J. Tuzo (December 1968). "A Revolution in Earth Science". Geotimes. 13 (10). Washington DC: 10–16.

Further reading

• Gohau, Gabriel (1990). A History of Geology. New Brunswick, NJ: Rutgers University Press. ISBN 978-0-8135-1665-3.
• Wessel, P.; Müller, R. D. (2007). "Plate Tectonics". In Anthony B. Watts (ed.). Treatise on Geophysics: Crust and Lithosphere Dynamics. Vol. 6. Elsevier. pp. 49–98.
• "NYC Regional Geology: Mesozoic Basins". USGS.
• "Wilson Cycle: and A Plate Tectonic Rock Cycle". Lynn S. Fichter.