PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Phanerozoic paleoenvironment and paleolithofacies maps : Mesozoic

Autorzy
Treść / Zawartość
Identyfikatory
Warianty tytułu
PL
Mapy paleośrodowiska i paleolitofacji fanerozoiku : mezozoik
Języki publikacji
EN
Abstrakty
EN
The paper presents the detailed plate tectonic, paleogeographic, paleoenvironment and paleolithofacies maps for eight Mesozoic time intervals. The most significant Triassic convergent event was the Indosinian orogeny, the collision of Indochina and Indonesia with South China, and consolidation of Chinese blocks. The continued northward drift of the Cimmerian continents corresponded with the closing of the Paleotethys and opening of the Neotethys Ocean. Plate tectonic activity around the Triassic-Jurassic boundary caused paleogeographic and paleoclimatic change, which triggered mass extinction. The rifting in the Atlantic during the Early Jurassic was followed by Middle and Late Jurassic spreading. Cretaceous was the time of the farther spreading of Central Atlantic, as well as origin of South Atlantic and Indian oceans. These events were leading to the maximum dispersion of continents during Phanerozoic times.
PL
Artykuł przedstawia szczegółowe mapy obrazujące tektonikę płyt, paleogeografię, paleośrodowisko i paleolitofacje ośmiu mezozoicznych przedziałów czasowych. Mapy te dotyczą przedziałów czasowych w obrębie triasu, jury i kredy. Głównym konwergentnym wydarzeniem w okresie późnego triasu była orogeneza indochińska, czyli kolizja Indochin i Indonezji z południowymi Chinami, oraz konsolidacja bloków chińskich. Postępujący w kierunku północnym dryft płyt kimeryjskich spowodował zamykanie oceanu Paleotetyda i otwieranie się oceanu Neotetyda. Aktywna tektonika płyt na granicy triasu i jury spowodowała zmiany paleogeograficzne i paleoklimatyczne, które wywołały masowe wymieranie gatunków fauny i flory. Rifting Atlantyku centralnego w okresie wczesnej jury poprzedził środkowojurajski i późnojurajski spreding tego oceanu. W kredzie nastąpił dalszy spreding Atlantyku centralnego, jak również narodziny Atlantyku południowego i Oceanu Indyjskiego. Wydarzenia te prowadziły do największego w fanerozoiku rozproszenia kontynentów.
Wydawca
Rocznik
Strony
211--264
Opis fizyczny
Bibliogr. 146 poz., rys.
Twórcy
autor
  • Akademia Górniczo-Hutnicza, Wydział Geologii, Geofizyki i Ochrony Środowiska, al. Mickiewicza 30, 30-059 Kraków
Bibliografia
  • Alsharhan A.S. & Magara K., 1994. The Jurassic of the Arabian Gulf Basin: Facies, Depositional Setting and Hydrocarbon Habitat. In: Embry A.F., Beauchamp B. & Glass D.J. (eds), Pangea: Global environment and resources, Canadian Society of Petroleum Geologists Memoir, 397–412.
  • Bazhenov M.L., Burtman V.S. & Tsyganova I.V., 1991. Reconstruction of the Mesozoic Tethys in the Caucasus. Geotectonics, 25, 37–45.
  • Beck M.E., Jr., 1992. Tectonic significance of paleomagnetic results for the western conterminous United States. In: Burchfiel B.C., Lipman P.W. & Zoback M.L. (eds), The Geology of North America, G-3, The Cordilleran Orogen: Conterminous U.S., 683–697, Geological Society of America, Boulder, Colorado.
  • Belasky P., Stevens C.H. & Hanger R.A., 2002. Early Permian location of western North American terranes based on brachiopod, fusulinid, and coral biogeography. Palaeogeography, Palaeoclimatology, Palaeoecology, 179, 245–266.
  • Bill M., O’Dogherty L., Guex J., Baumgartner P.O. & Masson H., 2001. Radiolarite ages in Alpine-Mediterranean ophiolites: Constraints on the oceanic spreading and the Tethys-Atlantic connection. Geological Society of America Bulletin, 113, 129–143.
  • Bird D.E., Burke K., Hall S.A. & Casey J.F., 2005. Gulf of Mexico tectonic history: Hotspot tracks, crustal boundaries, and early salt distribution. American Association Petroleum Geologists Bulletin, 89, 311–328.
  • Brunet M.-F., Korotaev M.V., Ershov A.V. & Nikishin A.M., 2002. The South Caspian basin: a review of the evolution with the approach of the subsidence modelling. In: Brunet M.-F. & Cloetingh S. (eds), Integrated PeriTethyan Basins Studies, Sedimentary Geology, 156, 119–148.
  • Cadle A.B., Cairncross B., Christie A.D.M. & Roberts D.L., 1993. The Karoo Basin of South Africa – type basin for the coal-bearing deposits of southern Africa. International Journal of Coal Geology, 23, 117–157.
  • Chen Bin, Jahn Bor-Minh, Wilde S. & Xu Bei, 2000. Two contrasting Paleozoic magmatic belts in northern Inner Mongolia, China: petrogenesis and tectonic implications. Tectonophysics, 328, 157–182.
  • Coffin M.F. & Rabinowitz P.D., 1988. Evolution of the conjugate East African-Madagascar margin and the western Somali Basin. Geological Society of America Special Paper, 226, 1–78.
  • Cook P.I., 1990. Australia – Evolution of a continent. Australian Government Publishing Service, Canberra, 1–97.
  • Cox K.G., 1992. Karoo igneous activity, and the early stages of the break-up of Gondwanaland. In: Storey B.C., Alabaster T. & Pankhurst R.J. (eds), Magmatism and the Causes of Continental Break-up, Geological Society Special Publication, 68, 137–148.
  • Cox A., Debiche M.G. & Engebretson D.C., 1992. Terrane trajectories and plate interaction along continental margins in the north Pacific basin. In: Ben-Avraham Z. (ed.), The evolution of the Pacific Ocean margins, 20–40, Oxford University Press, New York.
  • Csontos L. & Voros A., 2004. Mesozoic plate tectonic reconstruction of the Carpathian region. Palaeogeography, Palaeoclimatology, Palaeoecology, 210, 1–56.
  • Debiche M.G., Cox A. & Engebretson D., 1987. The motion of allochthonous terranes across the North Pacific basin. Geological Society of America Special Paper, 207, 49.
  • Dercourt J., Zonenshain L.P., Ricou L.E., Kazmin V.G., Le Pichon X., Knipper A.L., Grandjacquet C., Sborshnikov I.M., Geyssant J., Lepvrier C., Pechersky D.H., Boulin J., Sibuet J.C., Savostin L.A., Soroktin O., Westphal M., Bazhenov M.L., Lauer J.P. & Biju-Duval B., 1986. Geological evolution of the Tethys belt from the Atlantic to Pamir since the Lias. Tectonophysics, 123, 241–315.
  • Dercourt J., Ricou L.E. & Vrielynck B. (eds), 1993. Atlas Tethys Paleoenvironmental maps. Gauthier-Villars, Paris, 1–307.
  • Dercourt J., Gaetani M., Vrielynck B., Barrier E., Biju-Duval B., Brunet M.-F., Cadet J.P., Crasquin S. & Sandulescu M. (eds), 2000. Atlas Peri-Tethys Paleoegeographical maps. CCGM/CGMW, Paris, 24 maps and explanatory note, I–XX, 1–269.
  • Dore A.G., 1991. The structural foundation and evolution of Mesozoic seaways between Europe and the Arctic. Palaeogeography, Palaeoclimatology, Palaeoecology, 87, 441–492.
  • Dypvik H., 1985. Jurassic and Cretaceous black shales of the Janusfjellet Formation, Svalbard, Norway. Sedimentary Geology, 41, 235–248.
  • Engebretson D.C., Cox A. & Gordon R.G., 1985. Relative motions between oceanic and continental plate in the Pacific basin. Geological Society of America Special Paper, 206, 1–59.
  • Ettensohn F.R., 1994. Marine, Organic-rich, Dark Shale Deposition on North American Parts of Pangea, Carboniferous to Jurassic: Effect of Supercontinent Reorganization. In: Embry A.F., Beauchamp B. & Glass D.J. (eds), Pangea: Global environment and resources, Canadian Society of Petroleum Geologists Memoir, 17, 743–762.
  • Ettensohn F.R., 1997. Assembly and dispersal of Pangea: Large-scale tectonic effects on coeval deposition of North American, marine, epicontinental, black shales. Journal of Geodynamics, 23, 287–309.
  • Fan P.F., 2000. Accreted terranes and mineral deposits of Indochina. Journal of Asian Earth Sciences, 18, 342–350.
  • Faryad S.W., 1997. Petrological model for blueschist facies metamorphism in the Pieniny Klippen Belt. In: Grecula P., Hovorka D. & Putis M. (eds), Geological evolution of the Western Carpathians, Mineralia Slovaca – Monograph, 155–162, Bratislava.
  • Filipova I.B., 1998. Formation of the East Asia Accretionary margin in the Mesozoic. 6th Zonenshain Conference on Plate Tectonics & Europrobe Workshop on Uralides. Programme and Abstracts, Moscow, 118–119.
  • Flugel E., 2002. Triassic Reef Patterns. In: Kiessling W., Flugel E. & Golonka J. (eds), Phanerozoic reef patterns, SEPM (Society for Sedimentary Geology) Special Publication, 72, 391–464.
  • Flugel E. & Kiessling W., 2002, Patterns of Phanerozoic reef crises. In: Kiessling W., Flugel E. & Golonka J. (eds), Phanerozoic reef patterns, SEPM (Society for Sedimentary Geology) Special Publication, 72, 691–733.
  • Ford D. & Golonka J., 2003. Phanerozoic paleogeography, paleoenvironment and lithofacies maps of the circum-Atlantic margins. In: Golonka J. (ed.), Thematic set on paleogeographic reconstruction and hydrocarbon basins: Atlantic, Caribbean, South America, Middle East, Russian Far East, Arctic, Marine and Petroleum Geology, 20, 249–285.
  • Franzese J., Spalletti L., Gomez Perez I. & Macdonald D., 2003. Tectonic and paleoenvironmental evolution of Mesozoic sedimentary basins along the Andean foothills of Argentina (32 degrees–54 degrees S). Journal of South American Earth Sciences, 16, 81–90.
  • Froitzheim N., Schmid S.M. & Frey M., 1996. Mesozoic paleogeography and the timing of eclogite facies metamorphism in the Alps: a working hypothesis. Eclogae Geologicae Helvetiae, 89, 81–110.
  • Geiger M., Clark D.N. & Mette W., 2004. Reappraisal of the timing of the breakup of Gondwana based on sedimentological and seismic evidence from the Morondava Basin, Madagascar. Journal of African Earth Sciences, 38, 363–381.
  • Golonka J., 2000. Cambrian-Neogene Plate Tectonic Maps. Wydawnictwa Uniwersytetu Jagiellońskiego, Kraków, 1–125.
  • Golonka J., 2002. Plate-tectonic maps of the Phanerozoic. In: Kiessling W., Flügel E. & Golonka J. (eds), Phanerozoic reef patterns, SEPM (Society for Sedimentary Geology) Special Publication, 72, 21–75.
  • Golonka, J., 2004. Plate tectonic evolution of the southern margin of Eurasia in the Mesozoic and Cenozoic. Tectonophysics, 381, 235–273.
  • Golonka J., 2007. Late Triassic and Early Jurassic paleogeography of the world. Palaeogeography, Palaeoclimatology, Palaeoecology, 244, 297–307.
  • Golonka J. & Bocharova N.Y., 2000. Hot spot activity and the break-up of Pangea. In: Stemmerik L.S. & Trappe J. (eds), Pangea: The Late Carboniferous to Late Triassic interval, Palaeogeography, Palaeoclimatology, Palaeoecology, 161, 49–69.
  • Golonka J. & Ford D.W., 2000. Pangean (Late Carboniferous-Middle Jurassic) paleoenvironment and lithofacies. In: Stemmerik L.S. & Trappe J. (eds), Pangea: The Late Carboniferous to Late Triassic interval, Palaeogeography, Palaeoclimatology, Palaeoecology, 161, 1–34.
  • Golonka J. & Krobicki M., 2001. Upwelling regime in the Carpathian Tethys: a Jurassic-Cretaceous palaeogeographic and paleoclimatic perspective. Geological Quarterly, 45, 15–32.
  • Golonka J. & Krobicki M., 2004. Jurassic paleogeography of the Pieniny and Outer Carpathian basins. Rivista Italiana di Paleontologia e Stratigrafia, 110, 5–14.
  • Golonka J. & Sikora W., 1981. Microfacies of the Jurassic and Lower Cretaceous sedimentarily thinned deposits of the Pieniny Klippen Belt in Poland [in Polish, English abstract]. Biuletyn Instytutu Geologicznego, 31, 7–37.
  • Golonka J., Ross M.I. & Scotese C.R., 1994. Phanerozoic, paleogeographic and paleoclimatic modeling maps. In: Embry A.F., Beauchamp B. & Glass D.J. (eds), Pangea: Global environment and resources, Canadian Society of Petroleum Geologists Memoir, 17, 1–47.
  • Golonka J., Oszczypko N. & Ślączka A., 2000. Late Carboniferous-Neogene geodynamic evolution and paleogeography of the circum-Carpathian region and adjacent areas. Annales Societatis Geologorum Poloniae, 70, 107–136.
  • Golonka J., Bocharova N.Y., Ford D., Edrich M.E., Bednarczyk J. & Wildharber J., 2003a. Paleogeographic reconstructions and basins development of the Arctic. In: Golonka J. (ed.), Thematic set on paleogeographic reconstruction and hydrocarbon basins: Atlantic, Caribbean, South America, Middle East, Russian Far East, Arctic, Marine and Petroleum Geology, 20, 211–248.
  • Golonka J., Krobicki M., Oszczypko N., Ślączka A. & Słomka T., 2003b. Geodynamic evolution and palaeogeography of the Polish Carpathians and adjacent areas during Neo-Cimmerian and preceding events (latest Triassic-earliest Cretaceous). In: McCan T. & Saintot A. (eds), Tracing tectonic deformation using the sedimentary record, Geological Society Special Publications, 208, 138–158.
  • Golonka J., Krobicki M., Oszczypko N., Słaby E., Popadyuk I. & Netchepurenko A., 2004. Mesozoic volcanism associated with triple-junction zone of the Eastern Carpathians (Ukraine). Mineralogical Society of Poland – Special Papers, 24, 45–50.
  • Golonka J., Krobicki M., Pająk J., Nguyen Van Giang & Zuchiewicz W., 2006. Global plate tectonics and paleogeography of Southeast Asia. Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Arkadia, Kraków, 1–128.
  • Grantz A., May S.D., Taylor P. & Lawver L.A., 1990. Canada Basin. In: Grantz A., Johnson L. & Sweeney J.F. (eds), The Arctic Ocean region. The Geology of North America, L, 379–402, Geological Society of America, Boulder, Colorado.
  • Grantz A., Clark D.L., Phillips R.L. & Shrivastava S.P., 1998. Phanerozoic stratigraphy of Northwind Ridge, magnetic anomalies in the Canada basin, and the geometry and timing of rifting in the Amerasia basin, Arctic Ocean. Geological Society of America Bulletin, 110, 801–820.
  • Guiraud R. & Bellion Y., 1996. Late Carboniferous to Recent Geodynamic Evolution of the West Gondwanian Cratonic Tethyan Margin. In: Nairn A.E.M., Ricou L.-E., Vrielynck B. & Dercourt J. (eds), The Oceans Basins and Margin, Vol. 8, The Tethys Ocean, 101–124, Plenum Press, New York and London.
  • Gustavsen F.B., Dypvik H. & Solheim A., 1997. Shallow geology of the northern Barents Sea: Implications for petroleum potential. American Association Petroleum Geologists Bulletin, 81, 1827–1842.
  • Haas J. & Pero C., 2004. Mesozoic evolution of the Tisza Mega-unit. International Journal Earth Sciences, 93, 297–313.
  • Hallam A., 1990. The end-Triassic mass extinction event. In: Sharpton V.L. & Ward P.D. (eds), Global catastrophes in Earth history: an interdisciplinary conference on impacts, volcanism and mass mortality, Geological Society of America Special Papers, 247, 577–583.
  • Hallam A., 1995. Major bio-events in the Triassic and Jurassic. In: Walliser O.H. (ed.), Global events and event stratigraphy in the Phanerozoic, 265–283, Springer, Berlin.
  • Hallam A. & Wignall P.B., 1997. Mass extinctions and their aftermath. Oxford University Press, Oxford, 1–320.
  • Hallam A. & Wignall P.B., 1999. Mass extinctions and sea-level changes. Earth-Science Reviews, 48, 217–250.
  • Hamilton W.B., 1989. Crustal geologic process of the United States. In: Pakiser L.C. & Meeney W.D. (eds), Geophysical framework of the continental United States, Geological Society of America Memoir, 172, 743–781.
  • Harbert W., 1990. Paleomagnetic data from Alaska; reliability. Interpretation and terrane trajectories. Tectonophysics, 184, 111–135.
  • Harbert W., Kepezhinskas P., Krylov K., Grigoriev V., Sokolov S., Aleksutin M., Heiphetz A. & Layer P., 1998. Paleomagnetism and tectonics of the Kamchatka region, north-eastern Russia: Implications for the development and evolution of the northwest Pacific basin. Polarforschung, 68, 297–308.
  • Harbert W., Alexutin M., Sokolov S., Krlov K., Grigoriev Heiphetz A. & Graham R., 2001. Paleomagnetism of the Mametchinskiy Peninsula, Kuyul region, northeastern Russia: Implications for development and evolution of the northwest Pacific basin. Tectonophysics, 340, 215–231.
  • Harbert W., Sokolov S., Krylov K., Alexutin M., Grigoriev V. & Heiphetz A., 2003. Reconnisance Paleomagnetism of Late Triassic Blocks, Kuyul Region, Northern Kamchatka Peninsula, Russia. Tectonophysics, 361, 215–227.
  • Huynh T.T. &. Poulsen C.J., 2005. Rising atmospheric CO2 as a possible trigger for the end-Triassic mass extinction. Palaeogeography, Palaeoclimatology, Palaeoecology, 21, 223–242.
  • Ineson J.R. & Surlyk F., 2003. The Jurassic of Denmark and Greenland: key elements in the reconstruction of the North Atlantic Jurassic rift system. In: Ineson J.R. & Surlyk F. (eds), The Jurassic of Denmark and Greenland, Geological Survey of Denmark and Greenland Bulletin, 1, 9–20.
  • Johansen S.E., Ostisty B.K., Birkeland _., Federovsky Y.F., Martirosjan V.N., Christensen O.B., Cheredeev S.I., Ignatenko E.A. & Margulis L.S., 1993. Hydrocarbon potential in the Barents Sea region: play distribution and potential. In: Vorren T.O., Bergsear E., Dahl-Stammes O.A., Holter E., Johansen B., Lie E. & Lund T.B. (eds), Arctic geology and petroleum potential, Norwegian Petroleum Geology Special Publication, 2, 273–320.
  • Johnston S.T., 2001. The Great Alaskan Terrane Wreck: Oroclinal Orogeny and reconciliation of paleomagnetic and geological data in the northern Cordillera. Earth & Planetary Science Letters, 193, 259–272.
  • Jolivet M., Brunel M., Seward D., Xu Z., Yang J., Roger F., Tapponnier P., Malavieille J., Arnaud N. & Wu C., 2001. Mesozoic and Cenozoic tectonics of the northern edge of the Tibetan plateau: fission-track constraints. Tectonophysics, 343, 111–134.
  • Kazmin V.G., 1991. Collision and rifting in the Tethys Ocean: geodynamic implications. Tectonophysics, 123, 371–384.
  • Keppie J.D. & Dostal J., 2001. Evaluation of the Baja controversy using paleomagnetic and faunal data, plume magmatism, and piercing points. Tectonophysics, 339, 427–442.
  • Kiessling W. & Flügel E., 2000. Late Paleozoic and Late Triassic Limestones from North Palawan Block (Philippines): Microfacies and Paleogeographical Implications. Facies, 43, 39–78.
  • Kiessling W., Flugel E. & Golonka J., 1999. Paleo Reef Maps: Evaluation of a comprehensive database on Phanerozoic reefs. American Association Petroleum Geologists Bulletin, 83, 1552–1587.
  • Kiessling W., Flugel E. & Golonka J., 2003. Patterns of Phanerozoic carbonate platform sedimentation. Lethaia, 36, 195–226.
  • Koppen A. & Carter A., 2000. Constraints on provenance of the central European Triassic using detrital zircon fission track data. Palaeogeography, Palaeoclimatology, Palaeoecology, 161, 193–204.
  • Kravchinsky V.A., Cogne J.-P., Harbert W. & Kuzmin M.I., 2002. Evolution of the Mongol-Okhotsk Ocean as constrained by new paleomagnetic data from the Mongol--Okhotsk suture zone, Siberia. Geophysical Journal International, 148, 34–57.
  • Krobicki M., 1996. Neo-Cimmerian uplift of intraoceanic Czorsztyn pelagic swell (Pieniny Klippen Belt, Polish Carpathians) indicated by the change of brachiopod assemblages. In: Riccardi A.C. (ed.), Advances in Jurassic research, 4th international congress on Jurassic stratigraphy and geology, GeoResearch Forum, 1–2, 255–264.
  • Kutek J., 2001. The Polish Permo-Mesozoic Rift Basin. In: Ziegler P.A, Cavazza W., Robertson A.H.F. & Crasquin-Soleau S. (eds), Peri-Tethys Memoir 6: Peri-Tethyan Rift/Wrench Basins and Passive margins, Mémoires du Muséum national d’Histoire naturelle, Paris, 186, 213–236.
  • LaBrecque J.L. & Barker P.F., 1981. The age of the Weddell Basin. Nature, 290, 489–492.
  • Lawver L.A. & Gahagan L.M., 1993. Subduction zones, magmatism, and the breakup of Pangea. In: Stone D.B. & Runcorn S.K. (eds), Flow and Creep in the Solar System: Observations, Modeling and Theory, NATO ASI Series. Series C: Mathematical and Physical Sciences, 308, 225–247.
  • Lawver L.A., Gahagan L.M. & Coffin M.F., 1992, The development of paleoseaways around Antarctica. In: Kennett J.P. & Baron J. (eds), The Antarctic Paleoenvironment: A perspective on global change, American Geophysical Union, Antarctic Research Series, 56, 7–30.
  • Leinfelder R.R., Schmid D.U., Nose M. & Werner W., 2002. Jurassic reef patterns – The expression of a changing globe. In: Kiessling W., Flügel E. & Golonka J. (eds), Phanerozoic reef patterns, SEPM (Society for Sedimentary Geology) Special Publication, 72, 465–520.
  • Leith T.L., Weiss H.M., M_rk A., Arhus N., Elvebakk N., Embry A.F., Brooks P.W., Stewart K.R., Pchelina T.M., Bro E.G., Verba M.L., Danushevskaya A. & Borisov A.V., 1993. Mesozoic hydrocarbon source rocks of the Arctic region. In: Vorren T.O., Bergsear E., Dahl-Stammes O.A., Holter E., Johansen B., Lie E. & Lund T.B. (eds), Arctic geology and petroleum potential, Norwegian Petroleum Geology Special Publication, 2, 1–25.
  • Lewandowski M., Krobicki M., Matyja B.A. & Wierzbowski A., 2004. Palaeogeographic evolution of the Pieniny Klippen Basin: history of opening during the Mid and Late Jurassic from palaeomagnetic data of Veliky Kamenets section. Palaeogeography, Palaeoclimatology, Palaeoecology, 216, 53–72.
  • Macdonald D., Gomez-Perez I., Francese J., Spalletti L., Lawver L., Gahagan L., Dalziel I., Thomas C., Trewin N., Hole M. & Paton D., 2003. Mesozoic break-up of SW Gondwana: implications for regional hydrocarbon potential of the soutern South Atlantic. In: Golonka J. (ed.), Thematic set on paleogeographic reconstruction and hydrocarbon basins: Atlantic, Caribbean, South America, Middle East, Russian Far East, Arctic, Marine and Petroleum Geology, 20, 287–308.
  • Marchant R.H. & Stampfli G.M., 1997. Subduction of continental crust in the Western Alps. Tectonophysics, 269, 217–235.
  • Marton G. & Buffler R.T., 1994. Jurassic reconstruction of the Gulf of Mexico Basin. International Geology Review, 36, 545–586.
  • May P.R., 1991. The Eastern Mediterranean Mesozoic Basin: Evolution and Oil Habitat (1). American Association Petroleum Geologists Bulletin, 75, 1215–1232.
  • McRoberts C.A. & Newton C.R., 1995. Selective extinction among end-Triassic European bivalves. Geology, 23, 102–104.
  • Metcalfe I., 1994. Late Paleozoic and Mesozoic Paleogeography of Eastern Pangea and Tethys. In: Embry A.F., Beauchamp B. & Glass D.J. (eds), Pangea: Global environment and resources, Canadian Society of Petroleum Geologists Memoir, 17, 97–111.
  • Metcalfe I., 1998. Paleozoic and Mesozoic geological evolution of the SE Asian region, multidisciplinary constraints and implications for biogeography. In: Hall R. & Holloway J.D. (eds), Biogeography and Geological Evolution of SE Asia, 25–41, Backhuys Publishers, Amsterdam.
  • Mohajjel M., Fergusson C.L. & Sahand M.R., 2003. Cretaceous–Tertiary convergence and continental collision, Sanandaj-Sirjan Zone, western Iran. Journal of Asian Earth Sciences, 21, 397–412.
  • Moore T.E., Wallace W.K., Bird K.J., Mul C.G. & Dillon J.T., 1994. Geology of northern Alaska. In: Plafker G. & Berg H.C. (eds), The Geology of Alaska. DNAG: The Geology of North America, G-1, 49–140, Geological Society of America, Boulder, Colorado.
  • Nadirov R.S., Bagirov B.E., Tagiyev M. & Lerche I., 1997. Flexural plate subsidence, sedimentation rates, and structural development of the super-deep South Caspian Basin. Tectonophysics, 14, 383–400.
  • Neugebauer J., Greiner B. & Appel E., 2001. Kinematics of the Alpine-West Carpathian orogen and palaeogeographic implications. Journal of the Geological Society, London, 158, 97–110.
  • Nikishin A.M., Ziegler P.A., Cloething S., Stephenson R.A., Furne A.V., Fokin P.A., Ershov A.V., Bolotov S.N., Koraev M.V., Alexeev A.S., Gorbachev V.I., Shipilov E.V., Lankrejer A. & Shalimov I.V., 1996. Late Precambrian to Triassic history of the East European Craton: dynamics of sedimentary basin evolution. Tectonophysics, 268, 23–63.
  • Nikishin A.M., Cloetingh S., Bolotov S.N., Baraboshkin E.Y., Kopaevich L.F., Nazarevich B.P., Panov D.I., Brunet M.-F., Ershov A.V., Il’ina V.V., Kosova S.S. & Stephenson R.A., 1998a. Scythian platform: chronostratigraphy and polyphase stages of tectonic history. In: Crasquin-Soleau S. & Barrier E. (eds), Peri-Tethys Memoir 3: Stratigraphy and Evolution of Peri-Tethyan Platforms, Mémoires du Muséum national d’Histoire naturelle, Paris, 177, 151–162.
  • Nikishin A.M., Cloetingh S., Brunet M.-F., Stephenson R.A., Bolotov S.N. & Ershov A.V., 1998b. Scythian Platform and Black Sea region: Mesozoic-Cenozoic tectonic and dynamics. In: Crasquin-Soleau S. & Barrier E. (eds), Peri-Tethys Memoir 3: Stratigraphy and Evolution of Peri-Tethyan Platforms, Mémoires du Muséum national d’Histoire naturelle, Paris, 177, 163–176.
  • Nikishin A., Ziegler P.A., Panov D.I., Nazarevich B.P., Brunet M.-F., Stephenson R.A., Bolotov S.N., Korotaev M.V. & Tikhomirov P.L., 2001. Mesozoic and Cenozoic evolution of the Scythian Platform – Black-Sea – Caucasus domain. In: Ziegler P.A., Cavazza W., Robertson A.H.F. & Crasquin-Soleau S. (eds), Peri-Tethys Memoir 6: Peri-Tethyan Rift/Wrench Basins and Passive Margins, Mémoires du Muséum national d’Histoire naturelle, Paris, 186, 295–346.
  • Nikishin A.M., Ziegler P.A., Abbott D., Brunet M.F. & Cloetingh S. 2002. Permo-Triassic intraplate magmatism and rifting in Eurasia: implications for mantle plumes and mantle dynamics. Tectonophysics, 351, 3–39.
  • Nurnberg D. & Muller R.D., 1991. The tectonic evolution of the South Atlantic from Late Jurassic to present. Tectonophysics, 191, 27–53.
  • Oldow J.S., Lallemant H.G.A. & Leeman W.P., 1989. Phanerozoic evolution of the North American Cordillera, United States and Canada. In: Bally A.W. & Palmer A.R. (eds), The Geology of North America, A., 139–232, Geological Society of America, Boulder, Colorado.
  • Otto S.C., Tull S.J., Macdonald D., Voronova D.L. & Blackbourn G., 1997. Mesozoic-Cenozoic history of deformation and petroleum systems in sedimentary basins of Central Asia; implications of collisions on the Eurasian margin. Thematic set; habitat of oil and gas in the former Soviet Union. Petroleum Geoscience, 3, 327–341.
  • Palfy J., Carter E.S., Smith P.L., Friedman R.M. & Tipper H.W., 2000. Timing the end--Triassic mass extinction: First on land, then in the sea? Geology, 28, 39–42.
  • Panuska B.C., 1985. Paleomagnetic evidence for a post-Cretaceous accretion of Wrangellia. Geology, 13, 880–883.
  • Panuska B.C. & Stone D.B., 1985. Latitudinal motion of the Wrangellia and Alexander terranes and Southern Alaska Supeneffane. In: Howel D.G. (ed.), Tectonostratigraphic Terranes of the Circum-Pacific Region, Circum-Pacific Council for Energy and Mineral Resources. Earth Science Series, 1, 109–120.
  • Philip J., 2003. Peri-Tethyan neritic carbonate areas: distribution through time and driving factors. Palaeogeography, Palaeoclimatology, Palaeoecology, 196, 19–37.
  • Philip J., Masse J.-P. & Camoin G., 1996. Tethyan Carbonate Platforms. In: Nairn A.E.M., Ricou L.-E., Vrielynck B. & Dercourt J. (eds), The Oceans Basins and Margin, Vol. 8, The Tethys Ocean, 239–266, Plenum Press, New York and London.
  • Pindell J.L. & Tabbutt K.D., 1995. Mesozoic-Cenozoic Andean Paleogeography and Regional Controls on Hydrocarbon Systems. In: Tankard A.J., Suarez S. & Welsink H.J. (eds), Petroleum basins of South America, American Association of Petroleum Geologists Memoir, 62, 101–128.
  • Puchkov N., 1997. Structure and geodynamics of the Uralian Orogen. In: Burg J.-P. & Ford M. (eds), Orogeny through time, Geological Society Special Publications, 121, 201–236.
  • Rabinowitz P.D., Coffin M.F. & Falvey D.A., 1983. The separation of Madagascar and Africa. Science, 220, 67–69.
  • Ren J.Y., Tamaki K., Li S. & Junxia Z., 2002. Late Mesozoic and Cenozoic rifting and its dynamic setting in Eastern China and adjacent areas. Tectonophysics, 171, 139–152.
  • Rezanov I.A. & Chamo S.S., 1969. Reasons for absence of a ‘granitic’ layer in basins of the South Caspian and Black Sea type. Canadian Journal of Earth Sciences, 6, 671–678.
  • Richards P.C. & Hiller B.V., 2000. Post-drilling analysis of the North Falkland basin – Part 1: Tectonostratigraphic framework. Journal of Petroleum Geology, 23, 253–272.
  • Ricou L.-E., 1996. The Plate Tectonic History of the Past Tethys Ocean. In: Nairn A.E.M., Ricou L.-E., Vrielynck B. & Dercourt J. (eds), The Oceans Basins and Margin, Vol. 8, The Tethys Ocean, 3–70, Plenum Press, New York and London.
  • Robertson A.H.F., 1998. Mesozoic-Tertiary Tectonic Evolution of the Easternmost editerranean Area: Integration of the Marine and Land Evidence. In: Robertson A.H.F., Richter C. & Camerlenghi C.A. (eds), Proceedings of the Ocean Drilling Program, Scientific Results, 60, 723–782.
  • Robertson A.H.F., Clift P.D., Degnanand P. & Jones G., 1991. Paleogeographic and paleotectonic evolution of Eastern Mediterranean Neotethys. Palaeogeography, Palaeoclimatology, Palaeoecology, 87, 289–344.
  • Robertson A.H.F., Dixon J.E., Brown S., Collins A., Morris A., Pickett E. A., Sharp I. & Ustaomer T., 1996. Alternative tectonic models for the Late Palaeozoic-Early Tertiary development of Tethys in the Eastern Mediterranean region. In: Morris A. & Tarling D.H. (eds), Paleomagnetism and Tectonics of the Mediterranean Region, Geological Society Special Publication, 105, 239–263.
  • Ronov A., Khain V. & Balukhovski A., 1989. Atlas of Lithological Paleogeographical Maps of the World: Mesozoic and Cenozoic of the Continents. USSR Academy of Sciences, Leningrad, 1–79.
  • Ross M.I. & Scotese C.R., 1988. A hierarchical tectonic model of the Gulf of Mexico and Caribbean region. Tectonophysics, 155, 139–168.
  • Scotese C.R., 1991. Jurassic and Cretaceous plate tectonic reconstructions. Palaeogeography, Palaeoclimatology, Palaeoecology, 87, 493–501.
  • Sengor A.M.C., 1984. The Cimmeride orogenic system and the tectonics of Eurasia. Geological Society of America Special Paper, 195, 1–82.
  • Sengor A.M.C. & Natalin B.A., 1996. Paleotectonics of Asia: fragment of a synthesis. In: An Yin & Harrison T.M. (eds), The Tectonic Evolution of Asia, 486–640, Cambridge University Press, Cambridge.
  • Simms M.J. & Ruffell A.H., 1989. Synchroneity of climatic change and extinctions in the late Triassic. Geology, 17, 265–268.
  • Simms M.J. & Ruffell A.H., 1990. Climatic and biotic change in the late Triassic. Journal of the Geological Society, 147, 321–327.
  • Sinclair I.K., Shannon P.M., Williams B.P.J., Harkers S.D. & Moore J.G., 1993. Tectonic control on sedimentary evolution of the three North Atlantic borderland Mesozoic basins. Basin Research, 6, 193–217.
  • Sobornov K.O., 1994. Structure and Petroleum Potential of the Dagestan Thrust Belt. Canadian Society of Petroleum Geologists Bulletin, 42, 352–364.
  • Stampfli G.M., 1993. Le Brianconnais, terrain exotique dans les Alpes? Eclogae Geologicae Helvetiae, 86, 1–45.
  • Stampfli G.M., 1996. The Intra-Alpine terrain; a Paleotethyan remnant in the Alpine Variscides. In: Schmid S.M., Frey M., Froitzheim N., Heilbronner R. & Stuenitz H. (eds), Alpine geology, Proceedings of the Second Workshop: 2nd Workshop on Alpine Geology, Eclogae Geologicae Helvetiae, 89, 13–42.
  • Stampfli G.M., Mosar J., Favre P., Pillevuit A. & Vannay J.-C., 2001. Late Palaeozoic to Mesozoic evolution of the Western Tethyan realm: the Neotethys-East Mediterranean basin connection. In: Ziegler P.A., Cavazza W., Robertson A.H.F. & Crasquin-Soleau S. (eds), Peri-Tethys Memoir 6: Peri-Tethyan Rift/Wrench Basins and Passive Margins, Mémoires du Muséum national d’Histoire naturelle, Paris, 186, 51–108.
  • Stemmerik L., 2000. Late Paleozoic evolution of the North Atlantic margin of Pangea. In: Stemmerik L. & Trappe J. (eds), Pangea: The Late Carboniferous to Late Triassic interval, Palaeogeography, Palaeoclimatology, Palaeoecology, 161, 95–126.
  • Tanner L.H., Lucas S.G. & Chapman M.G., 2005. Assessing the record and causes of Late Triassic extinctions. Earth-Science Reviews, 65, 103–139.
  • Taylor D.G., Callomon J.H., Hall R., Smith P.L., Tipper H.W. & Westermann G.E.G., 1984. Jurassic ammonite biogeography of western North America, the tectonic implications. In: Westermann G.E.G. (ed.), Jurassic-Lower Cretaceous Biochronology and Biogeography of North America, Geological Association of Canada Special Paper, 27, 121–124.
  • Tong J. & Yin H., 2002. The Lower Triassic of South China. Journal of Asian Earth Sciences, 20, 803–815.
  • Torsvik T.H. & Anderson T.B., 2002. The Taimyr fold belt, Arctic Siberia: timing of prefold remagnetisation and regional tectonics. Tectonophysics, 352, 335–348.
  • Ulmishek G.F. & Klemme H.D., 1990. Depositional Controls, Distribution, and Effectiveness of World’s Petroleum Source Rocks. United States Geological Survey Bulletin, 1931, 1–59.
  • Veevers J.J., 1994. Pangea. Evolution of a supercontinent and its consequences for Earth’s paleoclimate and sedimentary environments. In: Klein G.D. (ed.), Pangea: Paleoclimate, Tectonics and Sedimentation during Accretion, Zenith and Breakup of a Supercontinent, Geological Society of America Special Paper, 228, 13–23.
  • Veevers J.J., 2004. Gondwanaland from 650–500 Ma assembly through 320 Ma merger in Pangea to 185–100 Ma breakup: supercontinental tectonics via stratigraphy and radiometric dating. Earth-Science Reviews, 68, 1–132.
  • Wignall P.B., 2001. Large igneous provinces and mass extinctions. Earth-Science Reviews, 53, 1–33.
  • Winterer E.L., 1991. The Tethyan Pacific during Late Jurassic and Cretaceous times. Palaeogeography, Palaeoclimatology, Palaeoecology, 87, 253–265.
  • Withjack M.O., Schlische R.W. & Olsen P.O., 1998. Diachronous rifting, drifting, and inversion on the passive margin of central eastern North America: an analog for other passive margins. American Association Petroleum Geologists Bulletin, 82, 817–835.
  • Wu Fu-yuan, Sun De-you, Li Huimin, Jahn Bor-ming & Wilde S., 2002. A-type granites in northeastern China: age and geochemical constraints on their petrogenesis. Chemical Geology, 187, 143–173.
  • Yin A. & Nie S., 1996. A Phanerozoic palinspastic reconstruction of China and its neighboring regions. In: Yin An & Harrison T.M. (eds), The Tectonic Evolution of Asia, 442–485, Cambridge University Press, Cambridge.
  • Zharkov M.A. & Chumakov N.M., 2001. Paleogeography and sedimentation settings during Permian-Triassic reorganization in biosphere. Stratigraphy and Geological Correlation, 9, 340–363.
  • Ziegler P.A., 1982. Geological Atlas of Western and Central Europe. Shell Internationale Petroleum Mij. B. V., The Hague, 1–130.
  • Ziegler P.A., 1988. Evolution of the Arctic-North Atlantic and the Western Tethys. American Association of Petroleum Geologists Memoir, 43, 1–198.
  • Zonenshain L.P. & Le Pichon X., 1986. Deep Basins of the Black Sea and Caspian Sea as remnants of Mesozoic Back-Arc Basins. Tectonophysics, 123, 181–211.
  • Zonenshain L.P., Kuzmin M.L. & Natapov L.N., 1990. Geology of the USSR: A Plate--Tectonic Synthesis. In: Page B.M. (ed.), Geodynamics Series, American Geophysical Union, 21, 1–242.
  • Zorin Y.A., 1999. Geodynamics of the western part of the Mongolia-Okhotsk collisional belt, Trans-Baikal region (Russia) and Mongolia. Tectonophysics, 306, 33–56.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-AGH5-0014-0139
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.