Hostname: page-component-586b7cd67f-g8jcs Total loading time: 0 Render date: 2024-11-28T00:09:03.810Z Has data issue: false hasContentIssue false
  • English
  • Français

Middle Ordovician Lophospira (Archaeogastropoda) from the Upper Mississippi Valley

Published online by Cambridge University Press:  14 July 2015

Jane Evans Tofel  and
Peter W. Bretsky
Jane Evans Tofel
Affiliation:
Department of Earth and Space Sciences, State University of New York, Stony Brook 11794
Peter W. Bretsky
Affiliation:
Department of Earth and Space Sciences, State University of New York, Stony Brook 11794
Get access Rights & Permissions [Opens in a new window]

Abstract

A detailed morphological study of over 2,500 Middle Ordovician (Black Riveran) lophospirid archaeogastropods from the lower half of the Platteville Formation (Pecatonica Member and Mifflin Submember of the McGregor Member), principally as it is exposed in southern Wisconsin, has permitted the definition of five species of Lophospira. Lophospira perangulata (Hall), L. milleri (Hall), L. serrulata (Salter), L. helicteres (Salter), and L. delicata (n. sp.) are preserved throughout a three-meter interval of fine-grained, heavily bioturbated carbonates, now dolomitized. Deposition took place on a broad, shallow tropical shelf, which was characterized by low rates of deposition and low physical energy. The sampled interval represents about 500,000 years. The benthic marine invertebrate fauna is well preserved, diverse, and characteristic of an environment of normal marine salinity.

Of the five Lophospira species, only one, L. perangulata, has been positively identified in older strata (late Whiterockian, eastern North America). The other four species were endemic to the interior seas, and apparently at least two of these, L. serrulata and L. helicteres, did not survive into post-Platteville (post-Black Riveran) environments. Changes in the proportions of lophospirid species from the Pecatonica into the Mifflin strata probably reflect subtle changes in the distribution of carbonate shelf habitats but no major alteration in the kinds of habitats available for colonization.

Type
Research Article
Information
Journal of Paleontology , Volume 61 , Issue 4 , July 1987 , pp. 700 - 723
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

Bassler, R. S. 1909. The cement resources of Virginia, west of the Blue Ridge. Virginia Geological Survey Bulletin II-A, 309 p.Google Scholar
Bassler, R. S. 1919. Cambrian and Ordovician deposits of Maryland. Johns Hopkins and Maryland Geological Survey, Baltimore, 424 p.Google Scholar
Billings, E. 1859. Fossils of the Chazy limestones with descriptions of new species. Canadian Naturalist and Quarterly Journal of Science, 4:426470.Google Scholar
Billings, E. 1863. The Geology of Canada. Canadian Geological Survey, Report of Progress to 1863; Dawson Bros., Montreal, 983 p.Google Scholar
Billings, E. 1865. Paleozoic Fossils, Vol. 1, Containing Descriptions and Figures of New or Little Known Species of Organic Remains from the Silurian Rocks, 1861–1865. Geological Survey of Canada. Dawson Bros., Montreal, 426 p.CrossRefGoogle Scholar
Bork, K. B., and Perry, T. G. 1967. Bryozoa (Ectoprocta) of Champlainian age (Middle Ordovician) from northwestern Illinois and adjacent parts of Iowa and Wisconsin. Part I. Amplexopora, Monotrypella, Hallopora and Batostoma. Journal o. Paleontology, 41:13651392.Google Scholar
Bork, K. B., and Perry, T. G. 1968a. Bryozoa (Ectoprocta) of Champlainian age (Middle Ordovician) from northwestern Illinois and adjacent parts of Iowa and Wisconsin. Part II. Bythopora, Diplotrypa, Hemiphragma, Heterotrypa, Stigmatella, Eridotrypa and Nicholsonella. Journal o. Paleontology, 42:337355.Google Scholar
Bork, K. B., and Perry, T. G. 1968b. Bryozoa (Ectoprocta) of Champlainian age (Middle Ordovician) from northwestern Illinois and adjacent parts of Iowa and Wisconsin. Part III. Homotrypa, Orbignyella, Prasopora, Monticulipora and Cyphotrypa. Journal o. Paleontology, 42:10421065.Google Scholar
Bretsky, P. W. 1970. Upper Ordovician ecology of the central Appalachians. Peabody Museum of Natural History Bulletin 34, 150 p.Google Scholar
Bretsky, P. W., Bretsky, S. S., and Schaefer, P. J. 1977. Molluscan and brachiopod dominated biofacies in the Platteville Formation (Middle Ordovician), Upper Mississippi Valley. Bulletin Geological Society of Denmark, 26:115132.Google Scholar
Bretsky, P. W., and Tofel, J. E. 1987. Short-term success, long-term failure in the Middle Ordovician archaeogastropod Lophospira serrulata . In review.Google Scholar
Byers, C. W. 1983. Trace fossils in Platteville and Galena (Ordovician) carbonates of the Upper Mississippi Valley, p. B1B4. In Delgado, D. J. (ed.), Ordovician Galena Group of the Upper Mississippi Valley—Deposition, Diagenesis and Paleoecology. Guidebook for 13th Annual Field Conference, Great Lakes Section of the Society of Economic Paleontologists and Mineralogists, Tulsa, Oklahoma.Google Scholar
Byers, C. W. and Gavlin, S. 1979. Two contemporaneous equilibrium communities in the Ordovician of Wisconsin. Lethaia, 12:297305.Google Scholar
Byers, C. W. and Stasko, L. E. 1978. Trace fossils and sedimentologic interpretation — McGregor Member of Platteville Formation (Ordovician) of Wisconsin. Journal of Sedimentary Petrology, 48:13031310.Google Scholar
Chamberlin, T. C. 1883. Part I. Historical Geology, p. 45300. In Geology of Wisconsin, Survey of 1873–1879, Vol. 1, Madison, Wisconsin.Google Scholar
Cisne, J. L., Glidner, R. F., and Rabe, B. D. 1984. Epeiric sedimentation and sea level: synthetic ecostratigraphy. Lethaia, 17:267288.Google Scholar
Cumings, E. R. 1908. The stratigraphy and paleontology of the Cincinnati series of Indiana. Indiana Department of Geology and Natural Resources, Annual Report 32, p. 6051189.Google Scholar
DeMott, L. L. 1963. Middle Ordovician trilobites of the Upper Mississippi Valley. Unpubl. Ph.D. thesis, Harvard University, 236 p.Google Scholar
Fischer, P. 1880–1887. Manuel de Conchyliologie et de Paleontologie Conchyliologique ou Histoire Naturelle des Mollusques Vivants et Fossiles. Librairie F. Savy, Paris, 1, 369 p.Google Scholar
Fraser, G. S. 1976. Sedimentology of a Middle Ordovician quartz arenite–carbonate transition in the Upper Mississippi Valley. Geological Society of America Bulletin, 86:833845.Google Scholar
Gilinsky, N. L. 1984. Does archaeogastropod respiration fail in turbid water? Paleobiology, 10:459468.Google Scholar
Grabau, A.W., and Shimer, H. W. 1909. North American Index Fossils—Invertebrates, Vol. 1. A. G. Seiler & Co., New York, 853 p.Google Scholar
Hall, J. 1847. Natural History of New York–Paleontology of New York. New York Geological Survey, Vol. 1, 338 p.Google Scholar
Hall, J. 1862. Physical geography and general geology; remarks upon the condition of the fossils, etc., p. 172, 425–448. In Hall, J. and Whitney, J. D., Report of the Geological Survey of Wisconsin, Vol. 1.Google Scholar
Hickman, C. S. 1980. Gastropod radulae and the assessment of form in evolutionary paleontology. Paleobiology, 6:276294.Google Scholar
Knight, J. B. 1941. Paleozoic gastropod genotypes. Geological Society of America Special Paper 32, 510 p.Google Scholar
Knight, J. B. et al. 1960. Mollusca 1. In Moore, R. C. (ed.), Treatise on Invertebrate Paleontology, Pt. I. University of Kansas and Geological Society of America, Lawrence, Kansas, 351 p.Google Scholar
Knight, J. B. et al. 1944. Paleozoic Gastropoda, p. 437479. In Shimer, H. W. and Shrock, R. R., Index Fossils of North America. John Wiley, New York.Google Scholar
Kolata, D. R. 1975. Middle Ordovician echinoderms from northern Illinois and southern Wisconsin. Paleontological Society Memoir 7, 74 p.Google Scholar
Lesley, J. P. 1889–1890. A dictionary of the fossils of Pennsylvania and neighboring states. Geological Survey of Pennsylvania, Report P-4, 1, 283 p. (Vol. 1, A–M, 1889; Vol. 2, N–R, 1889; Vol. 3, S–Z, 1890).Google Scholar
Lindström, G. 1884. On the Silurian Gastropoda and Pteropoda of Gotland. Kongl. Svenska Vetenskaps-Akademiens Handlingar, Bandet 19, N:06, 250 p.Google Scholar
Linsley, R. M. 1977. Some “laws” of gastropod shell form. Paleobiology, 3:196206.Google Scholar
Linsley, R. M. 1978. Locomotion rates and shell form in the Gastropoda. Malacologia, 17:193206.Google Scholar
M'Coy, F. 1846. A Synopsis of the Characters of the Carboniferous Limestone Fossils of Ireland. Dublin, 72 p.Google Scholar
M'Coy, F. 1862. A Synopsis of the Silurian Fossils of Ireland. Williams and Norgate, London, 56 p.Google Scholar
Meek, F. B., and Worthen, A. H. 1868. p. 289565. In Worthen, A. H., Paleontology of Illinois. Geological Survey of Illinois, v. 3.Google Scholar
Miller, S. A. 1874. Monograph of the Gasteropoda of the Cincinnati Group. Cincinnati Quarterly Journal of Science, 1:302321.Google Scholar
Miller, S. A. 1877. The American Palaeozoic Fossils: A Catalogue of the Genera and Species. Published by the author, First Edition, Cincinnati, Ohio, 253 p.Google Scholar
Perry, T. G. 1962. Spechts Ferry (Middle Ordovician) bryozoan fauna from Illinois, Wisconsin and Iowa. Illinois Geological Survey Circular 326, 36 p.Google Scholar
Raymond, P. E. 1908. The Gastropoda of the Chazy Formation. Carnegie Museum Annals, 4:168225.Google Scholar
Rogers, H. D. 1858. Organic remains of the Palaeozoic strata of Pennsylvania. The Geology of Pennsylvania: A Government Survey, with a General View of the Geology of the United States. J. B. Lippincott, Philadelphia, Vol. 2, Pt. 2, p. 815836.Google Scholar
Rohr, D. M. 1980. Ordovician-Devonian Gastropoda from the Klamath Mountains, California. Palaeontographica, Abteilung A, 171:141199.Google Scholar
Ross, R. J. Jr., et al. 1982. The Ordovician System in the United States. International Union of Geological Sciences, Publication No. 12, 73 p. !Google Scholar
Ruedemann, R. 1901. Trenton Conglomerate of Rysedorph Hill, Rensselaer County, New York, and its fauna. New York State Museum Bulletin 49, Paleontology Paper 2, 114 p.Google Scholar
Salter, J. W. 1859. Canadian organic remains. Geological Survey of Canada, Decade 1, 47 p.Google Scholar
Sepkoski, J. J. Jr., and Sheehan, P. M. 1983. Diversification, faunal change, and community replacement during the Ordovician radiations, p. 673717. In Tevesz, M. J. S. and McCall, P. L. (eds.), Biotic Interactions in Recent and Fossil Benthic Communities. Plenum Press, New York.Google Scholar
Sheppard, C. E. 1982. Stratigraphic, petrographic, and geochemical analysis of the diagenetic phases and processes in the Platteville Formation. Unpubl. M.S. thesis, State University of New York, Stony Brook, 225 p.Google Scholar
Sloss, L. L. 1982. The Midcontinent Province: United States, p. 2739. In Palmer, A. R. (ed.), Perspectives in Regional Geological Synthesis. Geological Society America, D-NAG Special Publication 1.Google Scholar
Stoll, N. R., et al. (eds.). 1964. International Code of Zoological Nomenclature. International Trust for Zoological Nomenclature, London, 176 p.Google Scholar
Twenhofel, W. H. 1938. Geology and paleontology of the Mingan Islands, Quebec. Geological Society of America Special Paper 11, 132 p.Google Scholar
Ulrich, E. O., and Scofield, W. H. 1897. The Lower Silurian Gastropoda of Minnesota. Geology of Minnesota, Vol. 3, Pt. 2 of the Final Report, Chapter 10, p. 8131081.Google Scholar
Walcott, C. D. 1888. The Taconic System of Emmons. American Journal of Science, 3rd Series, 35:229237.Google Scholar
Whiteaves, J. F. 1884. On some new, imperfectly characterized or previously unrecorded species of fossils from the Guelph Formation of Ontario. Palaeozoic Fossils, Geology and Natural History Survey of Canada, Ottawa, Vol. 3, Pt. 1, p. 143.Google Scholar
Whiteaves, J. F. 1893. Notes on the Gasteropoda of the Trenton Limestone of Manitoba, with a description of one new species. Canadian Record of Science, 5:317328.Google Scholar
Whiteaves, J. F. 1895. Revision of the fauna of the Guelph Formation of Ontario, with descriptions of a few new species. Palaeozoic Fossils, Geological Survey of Canada, Ottawa, Vol. 3, Pt. 2, p. 45109.Google Scholar
Whitfield, R. P. 1882. Part III. Palaeontology, p. 163363. In Geology of Wisconsin, Survey of 1873–1879, Vol. 4, Madison.Google Scholar
Whitfield, R. P. 1886. Notice of geological investigations along the eastern shore of Lake Champlain, conducted by Prof. H. M. Seely and Prest. Ezra Brainerd of Middlebury College, with descriptions of the new fossils discovered. Bulletin of the American Museum of Natural History, 1:293345.Google Scholar
Willman, H. B., and Kolata, D. R. 1978. The Platteville and Galena Groups in northern Illinois. Illinois State Survey Circular 502, 75 p.Google Scholar
Wilson, A. E. 1951. Gastropoda and Conularida of the Ottawa Formation of the Ottawa—St. Lawrence Lowland. Geological Survey of Canada Bulletin 17, 149 p.Google Scholar
Witzke, B. J. 1980. Middle and Upper Ordovician paleogeography of the region bordering the Transcontinental Arch, p. 118. In Fouch, T. D. and Magathan, E. R. (eds.), Paleozoic Paleogeography of the West-Central United States. Rocky Mountain Section of the Society of Economic Paleontologists and Mineralogists, Denver, Colorado.Google Scholar