Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-27T22:35:27.832Z Has data issue: false hasContentIssue false
  • English
  • Français

Brachiopod Synecology in a Time of Crisis (Late Ordovician-Early Silurian)

Published online by Cambridge University Press:  25 May 2016

Peter M. Sheehan
Peter M. Sheehan*
Affiliation:
Département de Géologie, Université de Montréal, C.P. 6128, Montréal, Canada H3C 3J7.
Get access Rights & Permissions [Opens in a new window]

Abstract

The extinction of endemic brachiopods in North America at the end of the Ordovician and recolonization by European species has been related to glacio-eustatic lowering of sea level which disrupted conditions in epicontinental seas. North American species may have been narrowly adapted to relatively stable conditions of broad, tropical shallow seas. European invaders may have been less specialized because they were adapted to conditions in both the open ocean and in narrow European epicontinental seas. Being less narrowly adapted, European species probably were better able to cope with changing environmental conditions than were North American species.

During the Lower and Middle Llandovery, shallow water, low diversity communities of Pentamerus Community depth were unstable and characterized by repeated extinctions and invasions. Following the crisis at the Ordovician-Silurian boundary 3 to 5 million years were needed to reestablish communities that were persistent in geologic time.

Type
Research Article
Information
Paleobiology , Volume 1 , Issue 2 , Spring 1975 , pp. 205 - 212
Copyright
Copyright © The Paleontological Society 

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Literature Cited

Amsden, T. W. 1971. Late Ordovician-Early Silurian brachiopods from the central United States. Colloque Ordovician-Silurian, Brest. Bur. Recherches Géol. Minières Mém. 73:1925.Google Scholar
Barnes, C. R., Rexroad, C. B., and Miller, J. F. 1973. Lower Paleozoic conodont provincialism. Geol. Soc. America Spec. Paper 141:157190.Google Scholar
Bergström, S. M. 1973. Ordovician conodonts. In, Hallam, A., ed. Atlas of Palaeobiogeography. Elsevier; Amsterdam. pp. 4758.Google Scholar
Berry, W. B. N., and Boucot, A. J. 1972. Silurian graptolite depth zonation. 24th Int. Geol. Congress. 7:5965.Google Scholar
Berry, W. B. N., and Boucot, A. J. 1973. Glacioeustatic control of Late Ordovician-Early Silurian platform sedimentation and faunal changes. Geol. Soc. America Bull. 84:275284.2.0.CO;2>CrossRefGoogle Scholar
Beuf, S., Biju-Duval, B., Decharpal, O., Rognon, P., Gariel, O., and Bennacef, A. 1971. Les grès du Paléozoique inférieur Sahara—sédimentation et discontinués, évolution structurale d'un craton. Inst. Française Pétrole—Science et Tech. Pétrol. 18:1464.Google Scholar
Bird, J. M., and Dewey, J. F. 1970. Lithospheric plate—continental margin tectonics and the evolution of the Appalachian Orogen. Geol. Soc. America Bull. 81:10311059.CrossRefGoogle Scholar
Boucot, A. J. 1968. Origins of the Silurian Fauna. Geol. Soc. America Spec. Paper. 121:3334.Google Scholar
Boucot, A. J. 1970. Practical taxonomy, zoogeography, paleoecology paleogeography and stratigraphy for Silurian and Devonian brachiopods. Proc. North American Paleontological Convent. F:566611.Google Scholar
Boucot, A. J. 1975. Evolution and Extinction Rate Controls. Elsevier; Amsterdam.Google Scholar
Boucot, A. J., and Johnson, J. G. 1973. Silurian Brachiopods. In, Hallam, A., ed. Atlas of Palaeobiogeography. Elsevier; Amsterdam. pp. 5965.Google Scholar
Boucot, A. J., Johnson, J. G., and Rubel, M. 1971. Descriptions of brachiopod genera of Subfamily Virgianinae Boucot et Amsden, 1963. EESTI NSV Tead. Akad. Keema Geol. 20:271280.Google Scholar
Boucot, A. J., Johnson, J. G., and Talent, J. A. 1969. Early Devonian brachiopod zoogeography. Geol. Soc. America Spec. Paper. 119:1113.CrossRefGoogle Scholar
Brabb, E. E. 1967. Stratigraphy of the Cambrian and Ordovician rocks of East-Central Alaska. U. S. Geological Survey Prof. Paper. 559a:129.Google Scholar
Bretsky, P. W., and Lorenz, D. M. 1970a. Adaptive response to environmental stability. A unifying concept in paleoecology. Proc. North American Paleontological Convent. E:522550.Google Scholar
Bretsky, P. W., and Lorenz, D. M. 1970b. An essay on genetic-adaptive strategies and mass extinctions. Bull. Geol. Soc. America. 81:24492456.Google Scholar
Brinkman, R. 1960. Geologic Evolution of Europe. 161 pp. Enke; Stuttgart.Google Scholar
Burrett, C. 1973. Ordovician biogeography and continental drift. Palaeogeography, Paleoclimatology, Paleoecology. 13:161201.Google Scholar
Burrett, C., and Griffiths, J. In press. A case for a mid-European ocean. In, Cogne, J., La Chaine varisque d'Europe Moyenne et Occidental. Bur. Recherches Géol. Minières. Mém.Google Scholar
Clark, J. H., and Stearn, C. W. 1966. Geological Evolution of North America, 2nd Edit. 570 pp. Ronald Press; New York.Google Scholar
Cocks, L. R. M., and McKerrow, W. S. 1973. Brachiopod distributions and faunal provinces in the Silurian and Lower Devonian. In, Hughes, N. F., ed. Organisms and continents through time. Palaeontological Assoc. Sp. Paper in Palaeont. 12:291304.Google Scholar
Cooper, G. A. 1930. New Species from the Upper Ordovician of Percé. Amer. Jour. Science. 20:265392.Google Scholar
Cooper, G. A., and Kindle, C. H. 1936. New brachiopods and trilobites from the Upper Ordovician of Percé, Québec. J. Paleontology. 10:348372.Google Scholar
Dewey, J. F. 1969. Evolution of the Appalachian Caledonian Orogen. Nature. 222:124129.Google Scholar
Gooch, J. L., and Schopf, T. J. M. 1973. Genetic variability in the deep sea: relation to environmental variability. Evolution. 26:545552.Google Scholar
Jaanusson, V. 1973. Ordovician articulate brachiopods. In, Hallam, A., ed. Atlas of Palaeobiogeography. Elsevier; Amsterdam. pp. 2025.Google Scholar
Johnson, J. G., and Boucot, A. J. 1973. Devonian brachiopods. In, Hallam, A., ed. Atlas of Palaeobiogeography. Elsevier; Amsterdam. pp. 8996.Google Scholar
Johnson, J. G., and Dasch, E. J. 1972. Origin of the Appalachian Faunal Province of the Devonian. Nature Physical Sci. 2:125126.Google Scholar
MacArthur, R. H. 1972. Geographical Ecology. 269 pp. Harper and Row; New York.Google Scholar
MacArthur, R., and Wilson, E. O. 1967. The Theory of Island Biogeography. 203 pp. Princeton Univ. Press; Princeton, N. J.Google Scholar
McElhinny, M. W., and Opdyke, N. D. 1973. Remagnetization hypothesis discounted. A paleomagnetic study of the Trenton Limestone, New York State. Bull. Geol. Soc. America. 84:36973708.Google Scholar
McKerrow, W. S., and Ziegler, A. M. 1971. The Lower Silurian palaeogeography of New Brunswick and adjacent areas. J. Geology. 79:635646.Google Scholar
McKerrow, W. S., and Ziegler, A. M. 1972. Silurian paleogeographic development of the Proto-Atlantic Ocean. 24th Int. Geological Cong. 6:410.Google Scholar
Moore, R. C. 1954. Evolution of late Paleozoic invertebrates in response to major oscillations of shallow seas. Harvard Univ. Mus. Comp. Zool. Bull. 112:259286.Google Scholar
Neuman, R. B. 1968. Paleogeographic implications of Ordovician shelly fossils in the Magog Belt of the northern Appalachian Region. In, Zen, E-An, White, W. S. and Hadley, J. B., eds., Studies of Appalachian Geology. Northern and Maritime. Interscience; New York. pp. 3548.Google Scholar
Newell, N. D. 1967. Revolutions in the history of life. In, Albriton, C. C., ed. Uniformity and Simplicity: a symposium on the uniformity of nature. Geol. Soc. America Spec. Paper. 89:6391.Google Scholar
Newell, N. D. 1971. An outline of tropical organic reefs. American Museum Novitates. 2465:137.Google Scholar
Potter, A. W., and Boucot, A. J. 1971. Ashgillian, Late Ordovician brachiopods from the eastern Klamath Mountains, California. Geol. Soc. America Abst. Prog. 3:180181.Google Scholar
Ross, J. J., and Dutro, J. T. 1966. Silicified Ordovician brachiopods from east-central Alaska. Smithsonian Misc. Coll. 149:122.Google Scholar
Roughgarden, R. 1972. Evolution of niche width. American Naturalist. 106:952957.Google Scholar
Rozman, Kh. S. 1970. Biostratigraphical areas and problems of the Upper Ordovician stage correlation. In, Rozman, Kh. S., Ivanova, V. A., Krasilova, I. N. and Modzalevskaja, E. A., eds., Upper Ordovician biostratigraphy of the USSR northeast (in Russian). Akad. Nauk SSSR. Geol. Inst. Trans. 205:264270.Google Scholar
Rutten, M. G. 1969. The Geology of Western Europe. 520 pp. Elsevier; New York.Google Scholar
Sanders, H. L. 1968. Marine benthic diversity. A comparative study. American Naturalist. 102:243282.Google Scholar
Schopf, T. J. M. 1974. Permo-Triassic extinctions: Relation to sea-floor spreading. J. Geology. 82:129143.Google Scholar
Schuchert, C., and Cooper, G. A. 1930. Upper Ordovician and Lower Devonian stratigraphy and paleontology of Percé, Quebec. Part. I. Stratigraphy and faunas. American J. Sci. 20:161176.Google Scholar
Sheehan, P. M. 1973. The relation of Late Ordovician glaciation to the Ordovician-Silurian changeover in North American brachiopod faunas. Lethaia. 6:147154.Google Scholar
Simberloff, D. S. 1972. Models in biogeography. In, Schopf, T. J. M., ed. Models in Paleobiology. Freeman, Cooper & Co.; San Francisco. pp. 161191.Google Scholar
Simberloff, D. S. 1974. Permo-Triassic extinctions: Effects of area on biotic equilibrium. J. Geology. 82:267274.Google Scholar
Slobodkin, L. B., and Sanders, H. L. 1969. On the contribution of environmental predictability to species diversity. Brookhaven Symposium Biol. 22:8295.Google Scholar
Spjeldnaes, N. 1967. The palaeogeography of the Tethyan Region during the Ordovician. Systematics Assoc. Pub. 7:4557.Google Scholar
Thorslund, P. 1935. Uber den Brachiopoden schiefer und den Jungeren riffkalk in Dalarne. Nova Acta Reg. Soc. Scien. Upsaliensis Sev. 4, 9:151.Google Scholar
Thorslund, P. 1960. Notes on the geology and stratigraphy of Davana. In, P. Thorslund and V. Jaanusson. The Cambrian, Ordovician, and Silurian in Vastergotland, Narke, Dalarna, and Jamptland, central Sweden. 21st Internat. Geol. Cong. Guide A. 23:151.Google Scholar
Valentine, J. W. 1971. Resource supply and species diversity patterns. Lethaia. 4:5161.Google Scholar
Valentine, J. W. 1972. Conceptual models of ecosystem evolution. In, Schopf, T. J. M., ed. Models in Paleobiology. Freeman, Cooper & Co.; San Francisco. pp. 192215.Google Scholar
Watkins, R., Berry, W. B. N., and Boucot, A. J. 1973. Why “communities”? Geology. 1:5558.Google Scholar
Weber, J. 1975. Magnitude of global sea level changes over the past 17,000 years. Geol. Soc. Amer. Abst. Prog. 7:132.Google Scholar
Williams, A. 1969a. Ordovician of the British Isles. In, Kay, M., ed. North Atlantic—geology and continental drift. Amer. Assoc. Petrol. Geol. Mem. 12:236264.Google Scholar
Williams, A. 1969b. Ordovician faunal provinces with reference to brachiopod distribution. In, Wood, A., ed. The Pre-Cambrian and Lower Paleozoic Rocks of Wales. Univ. Wales Press; Cardiff. pp. 117154.Google Scholar
Williams, A. 1973. Distribution of brachiopod assemblages in relation to Ordovician palaeogeography. In, Hughes, N. F., ed. Organisms and continents through time. Palaeontological Assoc. Spec. Paper in Palaeont. 12:241269.Google Scholar
Wilson, J. T. 1966. Did the Atlantic close and then re-open? Nature. 211:676681.Google Scholar
Ziegler, A. M., and Boucot, A. J. 1970. North American Silurian animal communities. In, W. B. N. Berry and A. J. Boucot. Correlation of the North American Silurian rocks. Geol. Soc. America Spec. Paper. 102:95106.Google Scholar