Abstract
Time series of global diversity and extinction intensity measured from data on stratigraphic ranges of marine animal genera show the impact of bio-events on the fauna of the world ocean. Measured extinction intensities vary greatly, from major mass extinctions that eradicated 39 to 82% of generic diversity to smaller events that had substantially less impact on the global fauna. Many of the smaller extinction events are clearly visible only after a series of filters are applied to the data. Still, most of these extinction events are also visible in a smaller set of data on marine families. Although many of the episodes of extinction seen in the global data are well known from detailed biostratigraphic investigations, some are unstudied and require focused attention for confirmation or refutation.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
References
Ager, D.V., 1988. Extinctions and survivals in the Brachiopoda and the dangers of data bases. In: Larwood, G.P. (ed.), Extinction and Survival in the Fossil Record. pp. 89–97. Oxford University Press, Oxford.
Bardhan, S., Shome, S., Bose, P.K. and Ghosh, G., 1988. Faunal crisis and marine regression across the Jurassic-Cretaceous boundary in Kutch, India. Mesozoic Research 2, 1–10.
Barron, J.A., 1986. The end of the Middle Miocene: hiatuses and polar cooling and their consequences. Geological Society of America Abstracts with Program 18, 535–536.
Bayer, U. and McGhee, G.R., 1986. Cyclic patterns in the Paleozoic and Mesozoic: implications for time scale calibrations. Paleoceanography 1, 383–402.
Bengtson, S., 1992. Proterozoic and earliest Cambrian skeletal metazoans. In: Schopf, J.W. and Klein, C. (eds.), The Proterozoic Biosphere. A Multi-disciplinary Study. pp. 1017–1033. Cambridge University Press, Cambridge.
Benton, M.J., 1986. More than one event in the Late Triassic mass extinction. Nature 321, 857–861.
Benton, M.J., 1991. What really happened in the Late Triassic? Historical Biology 5, 263–278.
Boucot, A.J., 1975. Evolution and Extinction Rate Controls. Elsevier, Amsterdam.
Boucot, A.J., 1978. Community evolution and rates of cladogenesis. Evolutionary Biology 11, 545–654.
Boucot, A.J., 1990. Phanerozoic extinctions: how similar are they to each other? In: Kauffman, E.G. and Walliser, O.H. (eds.), Extinction Events in Earth History. pp. 5–30. Springer, Berlin Heidelberg New York.
Bowring, S.A., Grotzinger, J.P., Isachsen, C.E., Knoll, A.H., Pelechaty, S.M. and Kolosov, P., 1993. Calibrating rates of Early Cambrian evolution. Science 261, 1293–1298.
Boyajian, G.E., 1986. Phanerozoic trends in background extinction: consequence of an aging fauna. Geology 14, 955–958.
Boyajian, G.E., 1991. Taxon age and selectivity of extinction. Paleobiology 17, 49–57.
Boyajian, G.E., 1992. Taxon age, origination, and extinction through geologic time. Historical Biology 6, 281–291.
Briggs, D.E.G., Fortey, R.A. and Clarkson, E.N.K., 1988. Extinction and the fossil record of arthropods. In: Larwood, G.P. (ed.), Extinction and Survival in the Fossil Record. Systematics Association Special Volume 34, 171–209.
Brochwicz-Lewinski, W., Gasiewicz, A., Suffczynski, S., Szatkowski, K. and Zbik, M., 1984. Luki i kondensacje na pograniczu jury srodkowej i gornej. Prezeglad Geologiczny 31, 285–290.
Brochwicz-Lewinski, W., Gasiewicz, A., Krumbein, W.E., Melendez, G., Sequeiros, L., Suffczynski, S., Szatkowski, K., Tarkowski, R. and Zbik, M., 1986. Anomalia irydowa na granicy jury srodkowej i gorney. Prezeglad Geologiczny 2 (394), 83–88.
Corliss, B.H., Aubry, M.-P., Berggren, W.A., Fenner, J.M., Keigwin, L.D., Jr. and Keller, G., 1984. The Eocene/Oligocene boundary event in the deep sea. Science 226, 806–810.
Debrenne, F., 1991. Extinction of the Archaeocyatha. Historical Biology 5, 95–106.
Debrenne, F. and Zhuravlev, A., 1992. Irregular Archaeocyaths. Morphology, Ontogeny, Systematics, Biostratigraphy, Palaeoecology. Cahiers de Paléontologie, CNRS Editions, Paris.
Debrenne, F., Rozanov, A.Yu. and Zhuravlev, A., 1990. Regular Archaeocyaths. Morphology, Systematics, Biostratigraphy, Palaeogeography, Biological Affinity. Cahiers de Paléontologie, CNRS Editions, Paris.
Edgecombe, G.D., 1992. Trilobite phylogeny and the Cambrian-Ordovician “event”: cladistic reappraisal. In: Novacek, M.J. and Wheeler, Q.E. (eds.), Extinction and Phylogeny. pp. 144–177. Columbia University Press, New York.
Erwin, D.H., 1993. The Great Paleozoic Crisis. Columbia University Press, New York.
Feist, R., 1991. The Late Devonian trilobite crisis. Historical Biology 5, 197–214.
Flessa, K.W., Erben, H.K., Hallam, A., Hsü, K.J., Hüssner, H.M., Jablonski, D., Raup, D.M., Sepkoski, J.J., Jr., Soulé, M.E., Sousa, W., Stinnesbeck, W. and Vermeij, G.J., 1986. Causes and consequences of extinction. In: Raup, D.M. and Jablonski, D. (eds.), Patterns and Processes in the History of Life. pp. 235–257. Springer, Berlin Heidelberg New York.
Fortey, R.A., 1989. There are extinctions and extinctions: examples from the lower Palaeozoic. Philosophical Transactions of the Royal Society of London B 325, 327–355.
Hallam, A., 1976. Stratigraphic distribution and ecology of European Jurassic Bivalves. Lethaia 9, 245–259.
Hallam, A., 1977. Jurassic bivalve biogeography. Paleobiology 3, 58–73.
Hallam, A., 1986. The Pliensbachian and Tithonian extinction events. Nature 319, 765–768.
Hallam, A., 1987. Radiations and extinctions in relation to environmental change in the marine Lower Jurassic of northwest Europe. Paleobiology 13, 152–168.
Hansen, T.A., 1987. Extinction of Late Eocene to Oligocene molluscs: relationship to shelf area, temperature changes, and impact events. Palaios 2, 69–75.
Harland, W.B., Armstrong, R., Cox, A.V., Craig, L.E., Smith, A.G. and Smith, D.G., 1990. A Geologic Time Scale 1989. Cambridge University Press, Cambridge.
Harries, P.J. and Kauffman, E., 1990. Patterns of survival and recovery following the Cenomanian-Turonian (Late Cretaceous) mass extinction in the Western Interior Basin, United States. In: Kauffman, E.G. and Walliser, O.H. (eds.), Extinction Events in Earth History. pp. 277–298. Springer, Berlin Heidelberg New York.
Hoffman, A., 1985. Patterns of family extinction: dependence on definition and geologic time scale. Nature 315, 659–662.
Hoffman, A., 1988. Arguments on Evolution. Oxford University Press, New York.
House, M.R., 1985. Correlation of mid-Palaeozoic ammonoid evolutionary events with global sedimentary perturbations. Nature 313, 17–22.
House, M.R., 1989. Ammonoid extinction events. Philosophical Transactions of the Royal Society of London B 325, 307–325.
Johnson, A.L.A. and Simms, M.J., 1989. The timing and cause of the Late Triassic marine invertebrate extinctions: evidence from scallops and crinoids. In: Donovan, S.K. (ed.), Mass Extinctions: Processes and Evidence. pp. 174–194. Columbia University Press, New York.
Kaljo, D. and Märss, T., 1991. Patterns of some Silurian bioevents. Historical Biology 5, 145–152.
Keller, G., 1986. Stepwise mass extinctions and impact events: Late Eocene to Early Oligocene. Marine Micropaleontology 10, 267–294.
Kitchell, J.A. and Pena, D., 1984. Periodicity of extinction in the geologic past: deterministic versus stochastic explanations. Science 226, 689–692.
Koch, C.F., 1978. Bias in the published fossil record. Paleobiology 4, 367–372.
Leckie, R.M., 1989. A paleoceanographic model for the early evolutionary history of planktonic foraminifera. Palaeogeography, Palaeoclimatology, Palaeoecology 73, 107–138.
Maxwell, W.D., 1989. The end Permian mass extinction. In: Donovan, S.K. (ed.), Mass Extinctions: Processes and Evidence. pp. 152–173. Columbia University Press, New York.
McGhee, G.R., 1991. Extinction and diversification in the Devonian Brachiopoda of New York State: no correlation with sea level? Historical Biology 5, 215–227.
McKinney, M.L., 1989. Periodic mass extinctions; product of biosphere growth dynamics? Historical Biology 2, 273–287.
McLaren, D.J., 1983. Bolides and biostratigraphy. Geological Society of America Bulletin 94, 313–324.
Moore, R.C., Teichert, C., Robison, R.A. and Kaesler, R.L. (eds.), 1953–1992. Treatise on Invertebrate Paleontology. Geological Society of America and University of Kansas Press, Lawrence, Kansas.
Palmer, A.R., 1965. Biomere — a new kind of biostratigraphic unit. Journal of Paleontology 39, 149–153.
Palmer, A.R., 1984. The biomere problem: evolution of an idea. Journal of Paleontology 58, 599–611.
Patterson, C. and Smith, A.B., 1987. Is the periodicity of extinctions a taxonomic artefact? Nature 330, 248–251.
Patterson, C. and Smith, A.B., 1989. Periodicity in extinction; the role of systematics. Ecology 70, 802–811.
Petuch, E.J., 1993. Patterns of diversity and extinction in Transmarian muricacean, buccinacean, and conacean gastropods. The Nautilus 106, 155–173.
Phillips, J., 1860. Life on Earth: Its Origin and Succession. Macmillan, Cambridge.
Quinn, J.F., 1983. Mass extinctions in the fossil record [discussion]. Science 219, 1239–1240.
Ramsbottom, W.H.C., 1981. Eustatic control in Carboniferous ammonoid biostratigraphy. In: House, M.R. and Senior, J.R. (eds.), The Ammonoidea. pp. 369–388. Academic Press, New York.
Raup, D.M. 1978. Cohort analysis of generic survivorship. Paleobiology 4, 1–15.
Raup, D.M., 1979a; Size of the Permo-Triassic bottleneck and its evolutionary implications. Science 206, 217–218.
Raup, D.M., 1979b. Biases in the fossil record of species and genera. Carnegie Museum of Natural History Bulletin 13, 85–91.
Raup, D.M., 1991. A kill curve for Phanerozoic marine species. Paleobiology 17, 37–48.
Raup, D.M. and Boyajian, G.E., 1988. Patterns of generic extinction in the fossil record. Paleobiology 14, 109–125.
Raup, D.M. and Sepkoski, J.J., Jr., 1982. Mass extinctions in the marine fossil record. Science 215, 1501–1503.
Raup, D.M. and Sepkoski, J.J., Jr., 1984. Periodicity of extinction in the geologic past. Proceedings of the National Academy of Sciences USA 81, 801–805.
Raup, D.M. and Sepkoski, J.J., Jr., 1986. Periodic extinction of families and genera. Science 231, 833–836.
Raymond, A., Kelly, P.H. and Lutken, C.B., 1990. Dead by degrees: articulate brachiopods, paleo-climate and the mid-Carboniferous extinction event. Palaios 5, 111–123.
Ross, C.A. and Ross, J.P., 1985. Carboniferous and Early Permian biogeography. Geology 13, 27–30.
Roth, P.H., 1986. Mesozoic paleoceanography of the North Atlantic and Tethys Oceans. In: Summerhayes, C.P. and Shackleton, N.J. (eds.), North Atlantic Paleoceanography. Geological Society of America Special Publication 21, 299–320.
Schindler, E., 1990. The late Frasnian (Upper Devonian) Kellwasser crisis. In: Kauffman, E.G. and Walliser, O.H. (eds.), Extinction Events in Earth History. pp. 151–160. Springer, Berlin Heidelberg New York.
Schutter, S.R. and Heckel, P.H., 1985. Missourian (early late Pennsylvanian) climate in Midcontinent North America. International Journal of Coal Geology 5, 111–140.
Scrutton, C.T., 1988. Patterns of extinction and survival in Palaeozoic corals. In: Larwood, G.P. (ed.), Extinction and Survival in the Fossil Record. Systematics Association Special Volume 34, 65–88.
Senowbari-Daryan, B., 1990. Die systematische Stellung der thalamiden Schwämme und ihre Bedeutung in der Erdgeschichte. Münchner Geowissen-schaftliche Abhandlungen Reihe A, Geologie und Paläontologie 21, 1–326.
Sepkoski, J.J., Jr., 1978. A kinetic model of Phanerozoic taxonomic diversity. I. Analysis of marine orders. Paleobiology 4, 223–251.
Sepkoski, J.J., Jr., 1979. A kinetic model of Phanerozoic taxonomic diversity. II. Early Phanerozoic families and multiple equilibria. Paleobiology 5, 222–251.
Sepkoski, J.J., Jr., 1982. A compendium of fossil marine families. Milwaukee Public Museum Contributions in Biology and Geology 51, 1–125.
Sepkoski, J.J., Jr., 1986a. Phanerozoic overview of mass extinction. In: Raup, D.M. and Jablonski, D. (eds.), Patterns and Processes in the History of Life. pp. 277–295. Springer, Berlin Heidelberg New York.
Sepkoski, J.J., Jr., 1986b. Global bioevents and the question of periodicity. In: Walliser, O.H. (ed.), Global Bio-Events. pp. 47–61. Springer, Berlin Heidelberg New York.
Sepkoski, J.J., Jr., 1989. Periodicity in extinction and the problem of catastrophism in the history of life. Journal of the Geological Society London 146, 7–19.
Sepkoski, J.J., Jr., 1990. The taxonomic structure of periodic extinction. In: Sharpton, V. and Ward, P. (eds.), Global Catastrophes in Earth History. Geological Society of America Special Paper 247, 33–44.
Sepkoski, J.J., Jr., 1992. A compendium of fossil marine animal families, 2nd edition. Milwaukee Public Museum Contributions in Biology and Geology 83, 1–156.
Sepkoski, J.J., Jr., 1993a. Ten years in the library: new data confirm paleontological patterns. Paleobiology 19, 43–51.
Sepkoski, J.J., Jr., 1993b. Phanerozoic diversity at the genus level: problems and prospects. Geological Society of America Abstracts with Program 25.
Sepkoski, J.J., Jr., 1994. What I did with my research career: or how research on biodiversity yielded data on extinction. In: Glen, W. (ed.), Mass Extinction Debates: How Science Works in a Crisis. pp. 132–144. Stanford University Press, Stanford, California.
Sepkoski, J.J., Jr. and Kendrick, D.C., 1993. Numerical experiments with model monophyletic and paraphyletic taxa. Paleobiology 19, 168–184.
Sepkoski, J.J., Jr. and Raup, D.M., 1986. Periodicity in marine extinction events. In: Elliott, D.K. (ed.), Dynamics of Extinction. pp. 3–36. Wiley, New York
Signor, P.W., 1985. Real and apparent trends in speies richness through time. In: Valentine, J.W. (ed.), Phanerozoic Diversity Patterns: Profiles in Macroevolution. pp. 129–150. Princeton University Press, Princeton, New Jersey.
Signor, P.W., 1992. Taxonomic diversity and faunal turnover in the Early Cambrian: did the most severe mass extinction of the Phanerozoic occur in the Botomian Stage? In: Lidgard, S. and Crane, P.R. (eds.), Fifth North American Paleontological Convention Abstracts and Program. Paleontological Society Special Publication 6, p. 272. University of Tennessee, Knoxville, Tennessee.
Signor, P.W. and Lipps, J.H., 1982. Sampling bias, gradual extinction patterns, and catastrophes in the fossil record. In: Silver, L.T. and Schultz, P.H. (eds.), Geological Implications of Impacts of Large Asteroids and Comets on the Earth. Geological Society of America Special Paper 190, 291–296.
Simms, M.J. and Ruffell, A.H., 1989. Synchroneity of climate change and extinctions in the Late Triassic. Geology 17, 265–268.
Simms, M.J. and Ruffell, A.H., 1990. Climatic and biotic change in the Late Triassic. Journal of the Geological Society London 147, 321–327.
Smith, A.B. and Patterson, C., 1988. The influence of taxonomic method on the perception of patterns of evolution. Evolutionary Biology 23, 127–216.
Stanley, S.M., 1982. Glacial refrigeration and Neo-gene regional mass extinction of marine bivalves. In: Gallitelli, E.M. (ed.), Paleontology, Essential of Historical Geology. pp. 179–191. S.T.E.M. Mucchi, Modena, Italy.
Stanley, S.M., 1986. Anatomy of a regional mass extinction: Plio-Pleistocene decimation of the Western Atlantic bivalve fauna. Palaios 1, 17–36.
Stanley, S.M., 1990. Delayed recovery and the spacing of major extinctions. Paleobiology 16, 401–414.
Ujiie, H., 1984. A Middle Miocene hiatus in the Pacific region: its stratigraphic and paleoceano-graphic significance. Palaeogeography, Palaeoclimatology, Palaeoecology 46, 143–164.
Valentine, J.W., 1969. Patterns of taxonomic and ecological structure of the shelf benthos during Phanerozoic time. Palaeontology 12, 684–709.
Van Valen, L.M., 1984. A resetting of Phanerozoic community evolution. Nature 307, 50–52.
Walliser, O.H., Lottman, J. and Schindler, E., 1988. Global events in the Devonian of Kellerwald and Harz Mountains. Courier Forschungs-Institut Senckenberg 102, 190–193.
Westermann, G., 1984. Gauging the duration of stages: a new appraisal for the Jurassic. Episodes 7, 26–28.
Westrop, S.R., 1989. Trilobite mass extinction near the Cambrian-Ordovician boundary in North America. In: Donovan, S.K. (ed.), Mass Extinctions: Processes and Evidence. pp. 89–103. Columbia University Press, New York.
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1996 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Sepkoski, J.J. (1996). Patterns of Phanerozoic Extinction: a Perspective from Global Data Bases. In: Walliser, O.H. (eds) Global Events and Event Stratigraphy in the Phanerozoic. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-79634-0_4
Download citation
DOI: https://doi.org/10.1007/978-3-642-79634-0_4
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-79636-4
Online ISBN: 978-3-642-79634-0
eBook Packages: Springer Book Archive