The facts and fictions of the Oceanic Tethys concept
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Abstract
: Tethys is believed to be a wide ocean which closed, reopened, and then closed again, and referred as Proto-Tethys, Paleo-Tethys, Neo-Tethys and Para-Tethys subducting some 5000 km of oceanic crust before disappearing completely. Tethys Ocean continued to expand dividing Pangaea into the two large continents of Laurasia in the north and Gondwana in the south, creating an oceanic extension, which today forms the Central Atlantic Ocean. Suess’s Tethys connecting eastern and southern Asia with Middle East and Europe through the Himalayas persisted from mid-Permian (250 Ma) and vanished in the Paleocene (50 Ma). It was an epicontinental Sea, transgressed and regressed frequently, covering northern India to southern Siberia and from the present Pacific coastal area to perhaps Italy, in its former position besides Spain. It apparently continued into the Appalachian geo-syncline and through it extended from eastern to western Panthalassa Sea –precursor to the modern Pacific Ocean. It was thus, a truly intra-Pangaea Sea. This paleontological, paleoclimate and Paleogeographic evidences do not support the existence of the Proto-Tethys, Paleo-Tethys and Neo-Tethys. Indeed, India was continuous with the rest of Asia, and therefore it could not have collided with it. The Himalaya is an inter-platform type of mountain range formed by vertical uplift and gravity gliding and not by continent-continent collision as believed today. Rejection of a vast Tethyan Ocean, the apparent small size of an Arctic Ocean and the questionable validity of vast Pacific Ocean lend support to concept of expanding Earth. Although, objections are raised against Earth expansion, but if there was no Tethyan Ocean, and if the Arctic Ocean was smaller than now, the Earth should have been deformed and smaller.
Keywords
Tethys, Expanding Earth, Himalaya
Cite this paper
Zahid A. Khan, Ram Chandra Tewari,
The facts and fictions of the Oceanic Tethys concept
, SCIREA Journal of Geosciences.
Volume 1, Issue 1, October 2016 | PP. 12-41.
References
[ 1 ] | Acharyya, S. K., and 3 others. 1975. The continental Gondwana group and associated marine sequence of Arunachal Pradesh and Eastern Himalayas. Himalayan Geology, 5, 60-82. |
[ 2 ] | Ahmad, F., 1960. Glaciations and Gondwanaland. Rec. Geological Survey India, 86, 637-674. |
[ 3 ] | Ahmad, F., 1983. Late Paleozoic to Early Mesozoic paleogeography of the Tethys region. In: Carey, S.W. (Ed).Expanding Earth Symposium, University of Tasmania, 131-145. |
[ 4 ] | Ahmad, F., 1988. Estimates of paleodiameters of the Earth through geological time. Jour. Geological Society of India, 31, 386-397. |
[ 5 ] | Archangelsky, S., 1990. Plant distribution in Gondwana during the Late Paleozoic. In: Taylor, T. N. and Taylor, E. L. (Eds) Antarctic Paleobotany; Its role in the reconstruction of Gondwana. Springer, New York, 102-107. |
[ 6 ] | Archangelsky, S. and Arrondo, D. C., 1969. The Permian Taphofloras of Argentina with some considerations about the presence of northern elements and their possible significance. 1st. Gondwana Symposium, Buenos Aires, 71-90. |
[ 7 ] | Asama, K., 1969. Parallelism in Paleozoic plants between Gondwanaland and Cathaysia. 1st. Gondwana Symposium, Buenos Aires, 127-136. |
[ 8 ] | Bandyopadhyay, S., 1999. Gondwana vertebrate faunas of India. Proc. Indian National Science Academy, 65A, 285-313. |
[ 9 ] | Banks, H. P., 1972. The stratigraphic occurrence of early land plants. Paleontology, 15, 365-377. |
[ 10 ] | Barale, G., Bassoullet, J.P. and Bose, M. N., 1978. On a collection of Mesozoic plants from Kagbeni-Muktinath, Thakkhola valley, Nepal. Paleobotanist, 25, 32-38. |
[ 11 ] | Barrett, C. F., 1974. Plate tectonics and the fusion of Asia. Earth and Planetary Science Letters, 21, 181-189. |
[ 12 ] | Barrett, P. and 3 others. 2008. Pterosaur distribution in time and space: an atlas. Zitteliana B 28, 61-107. |
[ 13 ] | Burrett, C. Long, J. and Stait, B., 1990. Early-Middle Paleozoic biogeography of Asian terranes derived from Gondwana. In: Mckerrow, W. S. and Scotese, C. R. (Eds), Paleozoic Paleogeography and Biogeography. Memoir Geological Society, 12, 163-174. |
[ 14 ] | Beloussov, V.V., 1979. Why do I not accept plate tectonics? Earth and Space Science News, 60, 207-211 |
[ 15 ] | Bhatia, S.B. Prasad, S. V. R. and Rane, R.S., 1996. Maastrictian non-marine ostracode from peninsular India: Paleogeographic and age implications. Memoir Geological Society India, 37, 297-311 |
[ 16 ] | Boucot, A. J. and Gray, J., 1987. The Tethyan concept during the Paleozoic. In: McKenzie, K. G (Ed). Shallow Tethys 2, A. A. Balkema, 31-50. |
[ 17 ] | Carey, S. W. 1976. The Expanding Earth, Elsevier, Amsterdam, 1-488. |
[ 18 ] | Chang, W. T., 1987. Tethys in the early Paleozoic, In: McKenzie, K. G (Ed). Shallow Tethys 2, A. A. Balkema, 61-64. |
[ 19 ] | Cisneros, J.C. and 8 others. New Permian fauna from tropical Gondwana, Nature Communications, DOI 10.1038/n comms 9676. |
[ 20 ] | Colbert, E.H., 1979. Gondwana vertebrates. 4th.Gondwana Symposium, Calcutta, 135-143. |
[ 21 ] | Colchen, M., 1975. Plaeogeography and structural evolution of the Tibetan area of Nepal Himalayas. Himalayan Geology, 5, 83-103. |
[ 22 ] | Crawford, A. R., 1974. A Greater Gondwanaland. Science, 184, 1179-1181. |
[ 23 ] | Crowell, J.C. 1979. Problems concerning the Late Paleozoic glaciations of Gondwanaland. 4th.Gondwana Symposium, Calcutta, 347-352. |
[ 24 ] | Dean, W. T., 1975. The distribution of the Ordovician Shelly faunas in the Tethyan region, In: Adams, C.G. and Ager, D. V. (Eds). Aspects of Tethyan Biogeography. Systematic Assoc. London, 11-44. |
[ 25 ] | Desio, A., 1979. Geological evolution of the Karakorum. In: Farah, A. and DeJong, K. A. (Eds). Geodynamics of Pakistan. Pakistan Geological Survey, 103-110. |
[ 26 ] | Dhital, M. R., 2015. Geology of Nepal Himalaya. Springer, 1-487. |
[ 27 ] | Dickins, J. M., 2001. Tethys and the relationship of Southeast Asia and Gondwanaland in the Lower Permian, In: Weiss, R. S. (Ed). Contributions to Geology and Paleontology of Gondwana, University of Cologne, Germany, 127-136. |
[ 28 ] | Dickins, J. M. and 5 others. 1993. Some climatic and tectonic implications of the Permian marine faunas of Peninsular India, Himalayas and Tibet. In: Findlay, R. H. et al. (Eds), Gondwana Eight. A. A. Balkema, 333-343. |
[ 29 ] | Dietz, R. S. and Holden, J.C., 1970. The breaking-up of Pangaea, American Science, 223, 30-41. |
[ 30 ] | Dewey, J.F. and Bird, J. M., 1970. Plate tectonics and geosynclines, Tectonophysics, 10, 625-638. |
[ 31 ] | Du Toit, A. L., 1937. Our Wandering Continents. Oliver and Boyd, Edinburg, 1-366. |
[ 32 ] | Ghosh, S. C. and Dutta, A., 1996. A critical review of fossil Conchostraca of Permian-Triassic periods in Gondwana realm. Gondwana Nine, Geological survey of India, Calcutta. |
[ 33 ] | Gokarn, S. G., and 3 others. 2002. Electrical structure across the Indus-Tsangpo Suture and Shyok Suture Zones in NW Himalayas using Magneto-telluric studies. Geophysical Research Letters, 29, 90-93. |
[ 34 ] | Goodwin, A.M., 1978. Giant impacting and development of continental crust. In: Windley, W. B. (Ed).The early history of the Earth. John Wiley, 77-95. |
[ 35 ] | Gupta, V. J., 1976. Conodonts from Himalaya and their stratigraphic implications. Proc. 3rd. Indian Colloquium Micropaleontology Stratigraphy, 99-121. |
[ 36 ] | Haddoumi and 4 others. 2015. First continental flora and fauna including mammals from the Middle Jurassic of Africa. Gondwana Research, DOI 10.1016, 2014.12.004. |
[ 37 ] | Hsu, J., 1976. On the discovery of a Glossopteris flora in the southern Xizang and its significance in Geology and paleogeography, Scientia Geology Sinica, 4, 323-331. |
[ 38 ] | Hurrell, S. W. 2011. Dinosaurs and the Expanding Earth. Third edition. Oneoff Publishing,com. |
[ 39 ] | Just, T., 1952. Fossil floras of the southern hemisphere. Bulletin American Museum Natural History, 99, 188-197. |
[ 40 ] | Kamen Kaye, M., 1972. Permian Tethys and Indian Ocean. Bull. American Assoc. Petroleum Geologists, 56, 1984-1999. |
[ 41 ] | Kerp, H., and 3 others. 2006. Typical Triassic Gondwanian floral elements in the Upper Permian of the paleo-tropics. Geological Society America, 34, 265-268. |
[ 42 ] | Klootwijk, C. T., 1979. A review of paleomagnetic data from Indo-Pakistan fragment of Gondwanaland. In: Farah, A. and DeJong, K. A. (Eds). Geodynamics of Pakistan. Pakistan Geological Survey, 41-80. |
[ 43 ] | Knoll, F., 2005. The tertapods fauna of the Upper Elliot and Clarens formations in the main Karoo basin, South Africa. Bulletin Societe Geologique France, 176, 81-91. |
[ 44 ] | LePichon, X., 1968. Sea floor spreading and continental drift. Journal Geophysical Research, 73, 3661-3697. |
[ 45 ] | Lin Baoyu and Webby, B. D., 1989. Biogeographic relationships of Australian and Chinese Ordovician corals and stromatoporoids. Memoirs Assoc. Australian Paleontologists, 8, 207-217. |
[ 46 ] | Li Xiang-Xue, Wu Yi-Ming and Fu Zai-Bin, 1985. Preliminary study on a mixed Permian flora from Xiangangjiang of Gerze District, Xizang and its paleogeographic significance. Acta Paleontology Sinica, 24, 150-170. |
[ 47 ] | Maxlow, K. 2015. Modelling the Earth: A new way of understanding our physical world. Turrella Press www.expansiontectonics.com |
[ 48 ] | McElhinny, M. W. and McWilliams, M. D., 1977. Precambrian geodynamics- a paleomagnetic review. In: McElhinny, M. W. (Ed). The past distribution of continents. Tectonophysics, 40, 137-159. |
[ 49 ] | Metcalfe, I., 2001. Warm Tethys and Cold Gondwana: East and SE Asia in Greater Gondwana during the Phanerozoic. In: Weiss, R. S. (Ed). Contributions to Geology and Paleontology of Gondwana, University of Cologne, Germany, 333-348. |
[ 50 ] | Metcalfe, I., 2013. Gondwana dispersion and Asian accretion: tectonic and paleogeographic evolution of eastern Tethys. Journal Asian Earth Science, 66, 1-33. |
[ 51 ] | Meyen, S. V., 1971. On the origin and relationship of the main Carboniferous and Permian floras and their bearing on the general paleogeography of this period of time. 2nd. Gondwana Symposium, South Africa, 551-555. |
[ 52 ] | Meyen, S. V., 1979. Relation of Angara and Gondwana floras: A century of controversies. 4th. Gondwana Symposium, India, 45-50. |
[ 53 ] | Meyerhoff, A. A., 1970. Continental Drift II: high latitude evaporite deposits and geologic history of Arctic and North Atlantic Oceans. Jour Geology, 78, 406-444. |
[ 54 ] | Meyl, K, 2015. Earth expansion by Neutrino Power. J. Geology Geophysics, 4 (5), 1-5. Doi:10.4172/jgg.1000219. |
[ 55 ] | Mu En-Zhi, and 3 others. Correlation of the Chinese Silurian rocks, Geological Society America. Special Paper 202, 1-80. |
[ 56 ] | Murray, A. M. and 4 others. 2015. A Late Jurassic freshwater fish (Ginglymondi, Lepisoteiformes) from Qijang, Chongqing, China. Journal Vertebrate Paleontology, 35, |
[ 57 ] | Najman, Y., and 9 others. 2010. Timing of India-Asia collision: Geological, biostratigraphic and paleomagnetic constraints. Journal Geophysical Research, 115, 1978-2012. |
[ 58 ] | Nicoll, R. S. and Metcalfe, I., 1999. Cambrian to Permian conodonts biogeography in East Asia- Australasia. In: Metcalfe, I. (Ed).Where Worlds Collide: faunal and floral migrations and evolution in SE Asia-Australasia, 62-64 (abstract). |
[ 59 ] | Norin, E., 1946. Geological expedition in Western Tibet. Report Sino-Swedish Expedition, Stockholm, 1-229 |
[ 60 ] | Owen, H.G., 1976. Continental displacement and expansion of the Earth during the Mesozoic and Cenozoic. Phil. Trans Royal Society, 281, 223-291. |
[ 61 ] | Pascoe, E.H., 1975. Manual of the Geology of India and Burma, Geological Society India, 485-1338. |
[ 62 ] | Piper, J. D.A., 1976. Paleomagnetic evidence for Proterozoic supercontinent. Trans Royal Society London, A280, 469-490. |
[ 63 ] | Prasad, G. V. R. and Manhas, B. K., 2002. Triconodont mammals from the Jurassic Kota Formation of India. Geodiversitas, 24, 445-464. |
[ 64 ] | Rao, G. V. S. P. and Rao, J. M., 2006. Tectonics of Shillong plateau from a paleomagnetic study of Late Cretaceous-Tertiary sediments. Indian Association of Sedimentologists, 25, 83-92. |
[ 65 ] | Riek, E.F., 1971. Origin of the Australian insect fauna, 2nd. Gondwana Symposium, South Africa, 593-598. |
[ 66 ] | Romer, A. S., 1973. Intercontinental correlation of Triassic Gondwana vertebrate faunas. 3rd. Gondwana Symposium, Canberra, Australia, 469-472. |
[ 67 ] | Read, C. B. and Mamy, S. H., 1964. Upper Paleozoic floral zones and floral provinces of U.S.A. U.S. Geological Survey, Professional Paper 454K, 1-35. |
[ 68 ] | Sahni, A. and Bajpai, S., 1991. Eurasiatic elements in the Upper Cretaceous non marine biota’s of Peninsular India. Cretaceous Research, 12, 177-183. |
[ 69 ] | Scotese, C. R. and Mckerrow, W. S., 1990. Revised world maps and introduction. In: Mckerrow, W. S. and Scotese, C. R (Eds). Paleozoic Paleogeography and Biogeography. Memoir Geological Society London, 12, 1-21. |
[ 70 ] | Sdzuy, K., 1967. The Tethys in Cambrian times. In: Adams, C. G. and Ager, D. V. (Eds). Aspects of Tethyan Biogeography. Systematic Assoc. London, 5-9. |
[ 71 ] | Sharma, R. K. Gupta, R. K. and Sah, S. C. D., 1980. Discovery of upper Gondwana plants north of Indus Suture Zone, Ladakh, India. Current Science, 49, 470-471. |
[ 72 ] | Shi, G.R. Fang Zongie and Archbold, N.W., 1996. An Early Permian brachiopod fauna of Gondwanian affinity from the Boashan block, western Yunnan, China. Alcheringa, 20, 81-101. |
[ 73 ] | Sinha, A. K., 2002. Tectonics and subduction mechanism across the India-Asia collision zone in Ladakh and Karakorum. Presidential Address. 89th. Indian Science Congress. Lucknow, 1-16. |
[ 74 ] | Smith, A. G., 1971. Alpine deformation and the oceanic areas of the Tethys, Mediterranean and Atlantic. Bulletin Geological Society America, 82, 2039-2070. |
[ 75 ] | Smith, A. G. and Hallam, A., 1970. The fit of the southern continents. Nature, 225, 139-144. |
[ 76 ] | Stocklin, J., 1968. Structural history and tectonics of Iran; A review: Bulletin American Association Petroleum Geologists, 52, 1345-1360. |
[ 77 ] | Talent, J. A. and Mawson, R., 1979. Paleozoic-Mesozoic Biostratigraphic of Pakistan in relation to Biogeography and the coalescence of Asia. In: Farah, A. and DeJong, K. A. (Eds). Geodynamics of Pakistan. Pakistan Geological Survey, 81-102 |
[ 78 ] | Talent, J. A. Gratsianova, R. T. and Yolkin, E. A., 1987. Proto-Tethys; Fact or phantom? Paleobiogeography in relation to the crustal mosaic for the Asia-Australia hemisphere in Devonian-Early Carboniferous times. In: McKenzie, K. G (Ed). Shallow Tethys 2, A. A. Balkema, 87-112. |
[ 79 ] | Tapponnier, P. Mercier, J. C. and Proust, F., 1981.The Tibetan evidence of India- Eurasia collision. Nature, 244, 410-416. |
[ 80 ] | Tasch, P., 1987. Fossil Conchostraca of the southern hemisphere and continental drift: paleontology, biostratigraphy and dispersal. Memoir Geological Society America, 165, 1-290. |
[ 81 ] | Teichert, C., 1971. Marine fossil invertebrate faunas of the Gondwana region. 2nd.Gondwana Symposium, South Africa, 142-161. |
[ 82 ] | Tewari, R.C. and Khan, Z. A., 2015. Origin of banded structure and coal litho-type cycles in Kargali coal seam of East Bokaro Sub-basin, Jharkhand, India; Environmental implications. Jour. Earth System Science, 124, 643-654. |
[ 83 ] | Tollmann, A. and Kristen Tollmann, E., 1985. Paleogeography the European Tethys from Paleozoic to Mesozoic and the Triassic relations of the eastern part of the Tethys and Panthalassa. In: Nakazawa, K. and Dickins, J.M. (Eds). The Tethys, Her Paleogeography and Biogeography from Paleozoic to Mesozoic. Tokyo University Press, 3-22. |
[ 84 ] | Upadhyay, R. and 6 others. 1999. Discovery of Gondwana plant fossils and palynomorphs of Late Asselian (Early Permian) age in the Karakorum block. Terra Nova, 11, 278-283. |
[ 85 ] | Veevers, J.J. Tewari, R. C. and Mishra, H. K., 1996. Aspects of Late Triassic to Early Cretaceous disruption of the Gondwana coal-bearing fan of East-Central Gondwanaland. 9th.Gondwana Symposium, Calcutta, 637-646. |
[ 86 ] | Waterhouse, J.B. 1987. Aspects of the Permian Tethys: Its definition, interface with Gondwana, original disposition, and subsequent deformation. In: McKenzie, K. G (Ed). Shallow Tethys 2, A. A. Balkema, 131-148. |
[ 87 ] | Waterhouse, J. B. and Bonham-Carter, G., 1975. Global distribution and character of Permian Biomes based on brachiopod assemblages. Canadian Journal Earth Science, 12, 1085-1146. |
[ 88 ] | Wegner, A., 1929. The origin of Oceans and continents. 4th Edition. Vieweg & Sohn. 1-367. |
[ 89 ] | Westermann, C. E.G., 1973. The late Triassic bivalve, Monotis. In: Hallam, A. (Ed) Atlas of Paleogeography. Elsevier, Amsterdam, 251-258. |
[ 90 ] | Zhao, W. and Morgan, W. J., 1987. Injection of Indian crust into Tibetan lower crust: a two –dimensional finite element model study. Tectonics, 6, 489-504. |
[ 91 ] | Zhao, Zhongbao, 2015. Tectonic evolution of the Qiangtang terrane, central Tibetan plateau. Unpublished Ph.D. thesis, Karl’s Universitat, Tubingen, 1-150. |