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Abstrakty
A long-term eustatic cycle (fall and subsequent rise of the global sea level) embraced the late Silurian-Middle Devonian time interval. Potentially, these sea-level changes could drive global biodiversity. The stratigraphic ranges of 204 bivalve genera and 279 gastropod genera included into the famous Sepkoski database allow reconstructing changes in the total diversity and the number of originations and extinctions of these important groups of marine benthic macro- -invertebrates during this interval. None of the recorded parameters coincided with the long-term global sea-level cycle. It cannot be not excluded, however, that the global sea-level changes did not affect the regions favourable for bivalve and gastropod radiation because of regional tectonic mechanisms; neither can it be excluded that the eustatic control persisted together with many other extrinsic and intrinsic controls. Interestingly, the generic diversity of gastropods increased together with a cooling trend, and vice versa. Additionally, the Ludlow, Eifelian, and Givetian biotic crises affected, probably, both fossil groups under study. There was also a coincidence of the relatively high bivalve generic diversity, initial radiation of gastropods and the entire biota, and the diversification of brachiopods with the Early Devonian global sea-level lowstand, and this may be interpreted as evidence of a certain eustatic control on the marine biodiversity.
Czasopismo
Rocznik
Tom
Strony
193--200
Opis fizyczny
Bibliogr. 58 poz.
Twórcy
autor
- Division of Mineralogy and Petrography, Geology and Geography Faculty, Southern Federal University, Zorge Street 40, Rostov-na-Donu, 344090, Russian Federation; postal address: P.O. Box 7333, Rostov-na-Donu, 344056, Russian Federation
Bibliografia
- Aberhan, M. & Kiessling, W., 2012. Phanerozoic marine biodiversity - a fresh look at data, methods, patterns and processes. [In:] J.A. Talent (Ed.): Earth and life: global biodiversity, extinction intervals and biogeographic perturbations through time. Springer, Dordrecht, 3-22.
- Alroy, J., Aberhan, M., Bottjer, D.J., Foote, M., Fürsich, F.T., Harries, P.J., Hendy, A.J.W., Holland, S.M., Ivany, L.C., Kiessling, W., Kosnik, M.A., Marshall, C.R., McGowan, A.J., Miller, A.I., Olszewski, T.D., Patzkowsky, M.E., Peters, S.E., Viller, L., Wagner, P.J., Bonuso, N., Borkow, P.S., Brenneis, B., Clapham, M.E., Fall, L.M., Ferguson, C.A., Hanson, V.L., Krug, A.Z., Layou, K.M., Leckey, E.H., Nürnberg, S., Powers, C.M., Sessa, J.A., Simpson, C., Tomašových, A. & Visaggi, C.C., 2008. Phanerozoic trends in the global diversity of marine invertebrates. Science 321, 97-100.
- Baird, G.C., Zambito IV, J.J. & Brett, C.E., 2012. Genesis of unusual lithologies associated with the Late Middle Devonian Taghanic biocrisis in the type Taghanic succession of New York State and Pennsylvania. Palaeogeography, Palaeoclimatology, Palaeoecology 367/368, 121-136.
- Bambach, R.K., 2006. Phanerozoic biodiversity and mass extinctions. Annual Review of Earth and Planetary Sciences 34, 127-155.
- Benton, M.J., 1995. Diversification and extinction in the history of life. Science 268, 52-58.
- Benton, M.J., 2001. Biodiversity on land and in the sea. Geological Journal 36, 211-230.
- Benton, M.J. & Emerson, B.C., 2007. How did life become so diverse? The dynamics of diversification according to the fossil record and molecular phylogenetics. Palaeontology 50, 23-40.
- Blodgett, R.B., Rohr, D.M. & Boucot, A.J., 1990. Early and Middle Devonian gastropod biogeography. [In:] W.S. McKerrow & C.R. Scotese (Eds): Palaeozoic Palaeogeography and Biogeography. Geological Society Memoir 12, 277-284.
- Calner, M., 2005a. Silurian carbonate platforms and extinction events - ecosystem changes exemplified from Gotland, Sweden. Facies 51, 584-591.
- Calner, M., 2005b. A Late Silurian extinction event and anachronistic period. Geology 33, 305-308.
- Catuneanu, O., 2006. Principles of sequence stratigraphy. Elsevier, Amsterdam, 375 pp.
- Conrad, C.P. & Husson, L., 2009. Influence of dynamic topography on sea level and its rate of change. Lithosphere 1, 110-120.
- Curry, G.B. & Brunton, C.H.C., 2007. Stratigraphic distribution of brachiopods. [In:] P.A. Selden (Ed.): Treatise on invertebrate paleontology 6-H. Brachiopoda. Revised. Geological Society of America, Boulder/University of Kansas, Lawrence, 2901-3081.
- Foote, M., 2003. Origination and extinction through the Phanerozoic - a new approach. Journal of Geology 111, 125-148.
- Foote, M., 2007. Extinction and quiescence in marine animal genera. Paleobiology 33, 261-272.
- Forney, G.G., Boucot, A.J. & Rohr, D.M., 1981. Silurian and Lower Devonian zoogeography of selected moluscan genera. [In:] J. Gray, A.J. Boucot & W.B.N. Berry (Eds): Communities of the past. Hutchinson Ross, Stroudsberg, 119-164.
- Frýda, J., 2012. Phylogeny of Palaeozoic gastropods Inferred from their ontogeny. [In:] J.A. Talent (Ed.): Earth and life - global biodiversity, extinction intervals and biogeographic perturbations through time. Springer, Dordrecht, 395-435.
- Hallam, A. & Wignall, P.B., 1997. Mass extinctions and their aftermath. Oxford University Press, Oxford, 320 pp.
- Hallam, A. & Wignall, P.B., 1999. Mass extinctions and sea-level changes. Earth-Science Reviews 48, 217-250.
- Haq, B.U. & Al-Qahtani, A.M., 2005. Phanerozoic cycles of sea-level change on the Arabian Platform. GeoArabia 10, 127-160.
- Haq, B.U. & Schutter, S.R., 2008. A chronology of Paleozoic sea-level changes. Science 322, 64-68.
- Heildelberger, D., 2001. Mitteldevonische (Givetische) Gastropoden (Mollusca) aus der Lahnmuld (südliches Rheinisches Schiefergebirge). Geologische Abhandlungen Hessen 106, 291 pp.
- House, M.R., 2002. Strength, timing, setting and cause of mid-Palaeozoic extinctions. Palaeogeography, Palaeoclimatology, Palaeoecology 181, 5-25.
- Jeppson, L., Talent, J.A., Mawson, R., Andrew, A., Corradini, C., Simpson, A.J., Wigforss-Lange, J. & Schönlaub, H.P., 2012. Late Ludfordian correlations and the Lau Event. [In:] J.A. Talent (Ed.): Earth and life - global biodiversity, xxtinction intervals and biogeographic perturbations through time. Springer, Dordrecht, 653-675.
- Joachimski, M.M., Breisig, S., Buggisch, W., Talent, J.A., Mawson, R., Gereke, M., Morow, J.R., Day, J. & Weddige, K., 2009. Devonian climate and reef evolution: Insights from oxygen isotopes in apatite. Earth and Planetary Science Letters 284, 599-609.
- Johnson, M.E., 2006. Relationship of Silurian sea-level fluctuations to oceanic episodes and events. GFF 128, 115-121.
- Johnson, M.E., 2010. Tracking Silurian eustasy: alignment of empirical evidence or pursuit of deductive reasoning? Palaeogeography, Palaeoclimatology, Palaeoecology 296, 276-284.
- Jones, R.W., 2011. Applications of palaeontology - techniques and case studies. Cambridge University Press, Cambridge, 406 pp.
- Kříž, J., Degardin, J.M., Ferretti, A., Hansch, W., Gutiérrez Marco, J.C., Paris, F., Piçarra-D-Almeida, J.M., Robardet, M., Schönlaub, H.P. & Serpagli, E., 2003. Silurian stratigraphy and paleogeography of Gondwanan and Perunican Europe. [In:] E. Landing & M.E. Johnson (Eds): Silurian lands and seas - paleogeography outside of Laurentia. New York State Museum Bulletin 493, 105-178.
- Lovell, B., 2010. A pulse in the planet: regional control of high-frequency changes in relative sea level by mantle convection. Journal of the Geological Society, London 167, 637-648.
- McGhee, G.R., 1996. The Late Devonian mass extinction - the Frasnian-Famennian crisis. Columbia University Press, New York, 303 pp.
- McRoberts, C.A. & Aberhan, M., 1997. Marine diversity and sea-level changes: numerical tests for association using Early Jurassic bivalves. International Journal of Earth Sciences 86, 160-167.
- Menning, M., Alekseev, A.S., Chuvashov, B.I., Davydov, V.I., Devuyst, F.-X., Forke, H.C., Grunt, T.A., Hance, L., Heckel, P.H., Izokh, N.G., Jin, Y.-G., Jones, P.J., Kotlyar, G.V., Kozur, H.W., Nemyrovska, T.I., Schneider, J.W., Wang, X.-D., Weddige, K., Weyer, D. & Work, D.M., 2006. Global time scale and regional stratigraphic reference scales of central and West Europe, East Europe, Tethys, South China, and North America as used in the Devonian-Carboniferous-Permian Correlation Chart 2003 (DCP 2003). Palaeogeography, Palaeoclimatology, Palaeoecology 240, 318-372.
- Moucha, R., Forte, A.M., Mitrovica, J.X., Rowley, D.B., Quere, S., Simons, N.A. & Grand, S.P., 2008. Dynamic topography and long-term sea-level variations: there is no such thing as a stable continental platform. Earth and Planetary Science Letters 271, 101-108.
- Newell, N.D., 1967. Revolutions in the history of life. Geological Society of America Special Paper 89, 63-91.
- Ogg, J.G., Ogg, G. & Gradstein, F.M., 2008. The concise geologic time scale. Cambridge University Press, Cambridge, 177 pp.
- Peters, S.E. & Foote, M., 2001. Biodiversity in the Phanerozoic: a reinterpretation. Paleobiology 27, 583-601.
- Peters, S.E. & Heim, N.A., 2011. Stratigraphic distribution of marine fossils in North America. Geology 39, 259-262.
- Purdy, E.G., 2008. Comparison of taxonomic diversity, strontium isotope and sea-level patterns. International Journal of Earth Sciences 97, 651-664.
- Racki, G., 2005. Towards understanding Late Devonian global events: few answers, many questions. [In:] D.J. Over, J.R. Morrow & P.B. Wignall (Eds): Understanding Late Devonian and Permian-Triassic biotic and climatic events - towards an integrated approach. Elsevier, Amsterdam, 5-36.
- Ruban, D.A., 2007. Jurassic transgressions and regressions in the Caucasus (northern Neotethys Ocean) and their influences on the marine biodiversity. Palaeogeography, Palaeoclimatology, Palaeoecology 251, 422-436.
- Ruban, D.A., 2010a. Do new reconstructions clarify the relationships between the Phanerozoic diversity dynamics of marine invertebrates and long-term eustatic trends? Annales de Paléontologie 96, 51-59.
- Ruban, D.A., 2010b. Palaeoenvironmental setting (glaciations, sea level, and plate tectonics) of Palaeozoic major radiations in the marine realm. Annales de Paléontologie 96, 143-158.
- Ruban, D.A., 2011a. Do outdated palaeontological data produce just a noise? An assessment of the Middle Devonian-Mississippian biodiversity dynamics in central Asia on the basis of Soviet-time compilations. Geologos 17, 29-47.
- Ruban, D.A., 2011b. Lochkovian (earliest Devonian) transgressions and regressions along the “Tethyan” margin of Gondwana: a review of lithostratigraphical data. Gondwana Research 20, 739-744.
- Ruban, D.A., 2012. Reply to “Comment: Taxonomic diversity structure of Silurian crinoids: Stability versus dynamism” by S.K. Donovan. Annales de Paléontologie 98, 317-320.
- Ruban, D.A. & van Loon, A.J., 2008. Possible pitfalls in the procedure for paleobiodiversity-dynamics analysis. Geologos 14, 37-50.
- Ruban, D.A., Zorina, S.O., Conrad, C. P. & Afanasieva, N.I., 2012. In quest of Paleocene global-scale transgressions and regressions: constraints from a synthesis of regional trends. Proceedings of the Geologists’ Associations 123, 7-18.
- Sandoval, J., O’Dogherty, L. & Guex, J., 2001a. Evolutionary rates of Jurassic ammonites in relation to sea-level fluctuations. Palaios 16, 311-335.
- Sepkoski, J.J., 1993. Ten years in the library: New data confirm paleontological patterns. Paleobiology 19, 43-51.
- Sepkoski, J.J., Jr., 2002. A compendium of fossil marine animal genera. Bulletins of American Paleontology 363, 560 pp.
- Sepkoski, J.J., Bambach, R.K., Raup, D.M. & Valentine, J.W., 1981. Phanerozoic marine diversity and fossil record. Nature 293, 435-437.
- Smith, A.B. & McGowan, A.J., 2011. The ties linking rock and fossil records and why they are important for palaeobiodiversity studies. [In:] A.J. McGowan & A.B. Smith (Eds): Comparing the geological and fossil records - implications for biodiversity studies. Geological Society, London, Special Publications 358, 1-7.
- Stanley, S.M., 2007. An analysis of the history of marine animal diversity. Paleobiology 33 (sp6), 1-55.
- Veeken, P.C.H., 2006. Seismic stratigraphy, basin analysis and reservoir characterisation. Elsevier, Amsterdam, 509 pp.
- Walliser, O.H., 1996. Global events in the Devonian and Carboniferous. [In:] O.H. Walliser (Ed.): Global events and event stratigraphy in the Phanerozoic. Springer, Berlin, 225-250.
- Zambito, J.J., IV, Brett, C.E. & Baird, G.C., 2012. The Late Middle Devonian (Givetian) global Taghanic biocrisis in its type area (Northern Appalachian Basin): geologically rapid faunal transitions driven by global and local environmental changes. [In:] J.A.S. Talent (Ed.): Earth and life - global biodiversity, extinction intervals and biogeographic perturbations through time. Springer, Dordrecht, 677-703.
- Žigaitė, Ž., Joachimski, M., Lehnert, O. & Brazauskas, A., 2010. δ18O composition from conodont apatite indicates climate cooling during the Middle Pridoli. Palaeogeography, Palaeoclimatology, Palaeoecology 294, 242-247.
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-ed949560-f2ac-43fa-982f-8cd381c939a5