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Middle Mississippian disparid crinoids from the midcontinental United States

Published online by Cambridge University Press:  20 May 2016

William I. Ausich
Affiliation:
Department of Geological Sciences, The Ohio State University, Columbus 43210
Thomas W. Kammer
Affiliation:
Department of Geology and Geography, P.O. Box 6300, West Virginia University, Morgantown 26506-6300
David L. Meyer
Affiliation:
Department of Geology, University of Cincinnati, Cincinnati, Ohio 45221

Abstract

Systematic restudy of Lower Mississippian disparid crinoids from the midcontinental United States results in the recognition of nine valid species and one left in open nomenclature. Although disparid crinoids are not diverse, they may be locally abundant and be the dominant crinoids in certain settings. The following species are considered valid: Catillocrinus tennesseeae Shumard, Catillocrinus wachsmuthi (Meek and Worthen), Eucatillocrinus bradleyi (Meek and Worthen), Halysiocrinus bradleyi (Meek and Worthen), Halysiocrinus cumberlandensis new species, Halysiocrinus springeri Brower, Halysiocrinus tunicatus (Hall), Synbathocrinus blairi Miller, and Synbathocrinus swallovi Hall. Several species are placed into synonymy. Catillocrinus shumardi Springer and C. turbinatus are considered junior synonyms of C. tennesseeae. Halysiocrinus granuliferus and H. perplexus are regarded as junior synonyms of H. tunicatus. Synbathocrinus angularis Miller and Gurley, S. granulatus (Wood), S. granuliferus Wetherby, S. robustus Shumard, and S. troosti (Wood) are deemed junior synonyms of S. swallovi. The youngest (Meramecian) North American calceocrinids, Halysiocrinus sp., are reported, herein, from the Harrodsburg and Salem Limestones of Indiana.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Ausich, W. I. 1978. Community organization, paleontology, and sedimentology of the Lower Mississippian delta platform (Edwardsville Formation, southern Indiana). Unpublished Ph.D. dissertation, Indiana University, Bloomington, Indiana, 433 p.Google Scholar
Ausich, W. I. 1980. A model for niche differentiation in Lower Mississippian crinoid communities. Journal of Paleontology, 54:273288.Google Scholar
Ausich, W. I. 1983. Component concept for the study of paleocommunities with an example from the Early Carboniferous of southern Indiana. Palaeogeography, Palaeoclimatology, Palaeoecology, 44:251282.Google Scholar
Ausich, W. I. 1986. Palaeoecology and history of the Calceocrinidae (Palaeozoic Crinoidea). Palaeontology, 29:8599.Google Scholar
Ausich, W. I., and Kammer, T. W. 1990. Systematics and phylogeny of the late Osagean and Meramecian crinoids Platycrinites and Eucladocrinus from the Mississippian stratotype region. Journal of Paleontology, 64:759778.Google Scholar
Ausich, W. I., and Kammer, T. W. 1991a. Late Osagean and Meramecian Actinocrinites from the Mississippian stratotype region (Echinodermata: Crinoidea). Journal of Paleontology, 65:485499.CrossRefGoogle Scholar
Ausich, W. I., and Kammer, T. W. 1991b. Systematic revisions to Aorocrinus, Dorycrinus, Macrocrinus, Paradichocrinus, Strotocrinus, and Uperocrinus: Mississippian camerate crinoids (Echinodermata) from the stratotype region. Journal of Paleontology, 65:936944.Google Scholar
Ausich, W. I., and Lane, N. G. 1980. Platform communities and rocks of the Borden Siltstone delta (Mississippian) along the south shore of Monroe Reservoir, Monroe County, Indiana, p. 3667. In Shaver, R. H. (ed.), Field Trips 1980 from the Indiana University Campus, Bloomington. Indiana University, Bloomington.Google Scholar
Ausich, W. I., and Lane, N. G. 1982. Crinoids from the Edwardsville Formation (Lower Mississippian) of Southern Indiana. Journal of Paleontology, 56:13431461.Google Scholar
Ausich, W. I., and Lane, N. G. 1985. Crinoid assemblages and geographic endemism in the Lower Mississippian (Carboniferous) of the United States Continental Interior, p. 216224. In Dutro, J. T. Jr., and Pferfferkorn, H. W. (eds.), Neuvième Congrés International de Stratigraphie et de Géologie du Carbonifère, Compte Rendu, Volume 5, Paleontology/Paleoecology/Paleogeography.Google Scholar
Ausich, W. I., and Meyer, D. L. 1988. Blastoids from the late Osagean Fort Payne Formation (Kentucky and Tennessee). Journal of Paleontology, 62:269283.Google Scholar
Ausich, W. I., and Meyer, D. L. 1990. Origin and composition of carbonate buildups and associated facies in the Fort Payne Formation (Lower Mississippian, south-central Kentucky): An integrated sedimentologic and paleoecologic analysis. Geological Society of America Bulletin, 102:129146.Google Scholar
Ausich, W. I., and Meyer, D. L. 1992. Crinoidea Flexibilia (Echinodermata) from the Fort Payne Formation (Lower Mississippian; Kentucky and Tennessee). Journal of Paleontology, 66:825838.Google Scholar
Ausich, W. I., Kammer, T. W., and Lane, N. G. 1979. Fossil communities of the Borden (Mississippian) delta in Indiana and northern Kentucky. Journal of Paleontology, 53:11811196.Google Scholar
Ausich, W. I., Kammer, T. W., and Baumiller, T. K. 1994. Demise of the Middle Paleozoic crinoid fauna: A single extinction event or rapid faunal turnover? Paleobiology, 20:345361.Google Scholar
Bassler, R. S., and Moodey, M. W. 1943. Bibliographic and faunal index of Paleozoic pelmatozoan echinoderms. Geological Society of America Special Paper 45, 734 p.Google Scholar
Bather, F. A. 1893. The Crinoidea of Gotland, Part I, The Crinoidea Inadunata. Konglelige Svenska Vetenskapsakademiens, Handlingar, 25, 182 p.Google Scholar
Beede, J. W. 1906. Fauna of the Salem Limestone of Indiana, Echinodermata. Indiana Department of Geology and Natural Resources for 1905, 1906, Annual Report, 30:12431270.Google Scholar
Brower, J. C. 1966. Functional morphology of Calceocrinidae with descriptions of some new species. Journal of Paleontology, 40:613643.Google Scholar
Brower, J. C. 1987. The relations between allometry, phylogeny, and functional morphology in some calceocrinid crinoids. Journal of Paleontology, 61:9991032.Google Scholar
Brower, J. C. 1990. Ontogeny and phylogeny of the dorsal cup in calceocrinid crinoids. Journal of Paleontology, 64:300318.Google Scholar
Carpenter, P. H., and Etheridge, R. Jr. 1881. Contributions to the study of the British Paleozoic crinoids.—No. 1. On Allagecrinus, the representative of the Carboniferous limestone series. Annals and Magazine of Natural History, series 5, 7:281298.Google Scholar
Cunénot, L. 1948. Anatomie, éthologie et systématique des échinodermes, p. 3275. In Grassé, P.-P. (ed.), Traitedé Zoologie. Masson, Paris.Google Scholar
Feldman, H. R. 1989. Echinoderms of the Somerset Shale Member, Salem Limestone (Mississippian), in Indiana and Kentucky. Journal of Paleontology, 63:900912.Google Scholar
Hall, J. 1858. Report on the Geological Survey of Iowa, embracing the results of investigations made during portions of the years 1855, 1856, 1857. Geological Survey of Iowa 1(1 and 2), 724 p.Google Scholar
Hall, J. 1860. Contributions to the palaeontology of Iowa: being descriptions of new species of Crinoidea and other fossils. Iowa Geological Survey, 1(2) supplement, 94 p.Google Scholar
Hall, J. 1872. Description of new species of Crinoidea and other fossils from strata of the age of the Hudson-River group and Trenton Limestone. New York State Museum of Natural History Annual Report, 24:205224.Google Scholar
Hall, J. 1882. Descriptions of the species of fossils found in the Niagara group at Waldron, Indiana. Indiana Department of Geology and Natural History Annual Report, 11:217345.Google Scholar
Kammer, T. W. 1982. Fossil communities of the prodeltaic New Providence Shale Member of the Borden Formation (Mississippian), north-central Kentucky and southern Indiana. Unpublished Ph. D. dissertation, Indiana University, Bloomington, Indiana, 303 p.Google Scholar
Kammer, T. W. 1984. Crinoids from the New Providence Shale Member of the Borden Formation (Mississippian) in Kentucky and Indiana. Journal of Paleontology, 58:115130.Google Scholar
Kammer, T. W. 1985a. Aerosol filtration theory applied to Mississippian deltaic crinoids. Journal of Paleontology, 59:551560.Google Scholar
Kammer, T. W. 1985b. Paleoecology of a delta slope community from the Lower Mississippian Borden Formation in Central Kentucky. Southeastern Geology, 26:3946.Google Scholar
Kammer, T. W., and Ausich, W. I. 1987. Aerosol suspension feeding and current velocities: distributional controls for late Osagean crinoids. Paleobiology, 13:379395.Google Scholar
Kammer, T. W., and Ausich, W. I. 1993. Advanced cladid crinoids from the middle Mississippian of the East-Central United States: Intermediate-grade calyces. Journal of Paleontology, 67:614639.Google Scholar
Kammer, T. W., and Ausich, W. I. 1996. Primitive cladid crinoids from the Middle Mississippian of the east-central United States. Journal of Paleontology, 70:835866.Google Scholar
Kammer, T. W., Ausich., W. I. and Lane, N. G. 1983. Paleontology and stratigraphy of the Borden delta of southern Indiana and northern Kentucky, p. 3771. In Shaver, R. H., and Sunderman, J. A. (eds.), Field Trips in Midwestern Geology, Volume 1, Indiana University, Bloomington.Google Scholar
Kammer, T. W., Brenckle, P. L., Carter, J. L., and Ausich, W. I. 1990. Redefinition of the Osagean-Meramecian boundary in the Mississippian stratotype region. Palaios, 5:414431.Google Scholar
Kesling, R. V., and Smith, R. N. 1963. The crinoid Synbathocrinus in the Middle Devonian Traverse Group of Michigan. University of Michigan Museum of Paleontology Contributions, 18:185196.Google Scholar
Keyes, C. R. 1894. Paleontology of Missouri, Part 1. Missouri Geological Survey, 4:143225.Google Scholar
Meek, F. B., and Worthen, A. H. 1866. Contributions to the palaeontology of Illinois and other western states. Proceedings of the Philadelphia Academy of Natural Science for 1866:251275.Google Scholar
Meek, F. B., and Worthen, A. H. 1868a. Paleontology: Lower Silurian species; Upper Silurian species; Devonian species; Carboniferous species. Illinois Geological Survey, 3:291565.Google Scholar
Meek, F. B., and Worthen, A. H. 1868b. Remarks on some types of Carboniferous crinoids with descriptions of new genera and species of the same, and of one echinoid. Proceedings of the Philadelphia Academy of Natural Science, 20:335359.Google Scholar
Meek, F. B., and Worthen, A. H. 1869. Descriptions of new Crinoidea and Echinoidea from the Carboniferous rocks of the western states, with a note on the genus Onychaster. Proceedings of the Philadelphia Academy of Natural Science, 21:6783.Google Scholar
Meek, F. B., and Worthen, A. H. 1873. Palaeontology. Descriptions of invertebrates from Carboniferous system. Illinois Geological Survey, 5:323619.Google Scholar
Meyer, D. L., and Ausich, W. I. 1983. Biotic Interactions among Recent and among fossil crinoids, p. 377427. In Tevesz, M. J. S. and McCall, P. L. (eds.), Biotic Interactions in Recent and Fossil Benthic Communities. Plenum Publishing Corporation, New York.Google Scholar
Meyer, D. L., and Ausich, W. I. 1992. Fort Payne carbonate facies (Mississippian) of south-central Kentucky. Ohio Geological Survey Miscellaneous Report 4, 20 p.Google Scholar
Meyer, D. L., Ausich., W. I. and Terry, R. E. 1990. Comparative taphonomy of echinoderms in carbonate facies: Fort Payne Formation (Lower Mississippian) of Kentucky and Tennessee. Palaios, 4:533552.Google Scholar
Miller, J. S. 1821. A Natural History of the Crinoidea or Lily-Shaped Animals, with Observation on the genera Asteria, Euryale, Comatula, and Marsupites. Bryan and Company, Bristol, England, 150 p.Google Scholar
Miller, S. A. 1883. Glyptocrinus redefined and restricted, Gaurocrinus, Pycnocrinus and Compsocrinus established, and two new species described. Cincinnati Society of Natural History Journal, 6:217234.Google Scholar
Miller, S. A. 1889. North American Geology and Paleontology. Western Methodist Book Concern, Cincinnati, Ohio, 664 p.Google Scholar
Miller, S. A. 1891. Lower Carboniferous crinoids. Missouri Geological Survey Bulletin 4, 40 p.Google Scholar
Miller, S. A., and Gurley, W. F. E. 1894. Descriptions of new species of invertebrates from the Palaeozoic rocks of Illinois and adjacent states. Illinois State Museum of Natural History Bulletin 3, 81 p.Google Scholar
Moore, R. C. 1962. Revision of the Calceocrinidae. University of Kansas Paleontological Contributions, Echinodermata Article 4, 40 p.Google Scholar
Moore, R. C., and Lane, N. G. 1978a. Superfamily Calceocrinacea, p. T524T533. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(2). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Moore, R. C., and Lane, N. G. 1978b. Superfamily Belemnocrinacea, p. T557T562. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(2). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Moore, R. C., and Laudon, L. R. 1943. Evolution and classification of Paleozoic crinoids. Geological Society of America Special Paper 46, 167 p.Google Scholar
Moore, R. C., and Laudon, L. R. 1944. Class Crinoidea, p. 137209. In Shimer, H. W., and Shrock, R. R. (eds.), Index Fossils of North America. John Wiley and Sons, Inc., New York.Google Scholar
Moore, R. C., and Strimple, H. L. 1978. Superfamily Allagecrinacea, p. T537T548. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(2). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Moore, R. C., and Teichert, C. (eds.). 1978. Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(2). Geological Society of America and University of Kansas Press, Lawrence, 1027 p.Google Scholar
Phillips, J. 1836. Illustration of the geology of Yorkshire, or a description of the strata and organic remains, Pt. 2, The Mountain Limestone Districts. John Murray, London, 253 p.Google Scholar
Roemer, C. F. 1860. Die Silurische Fauna des westlichen Tennessee. E. Trewendt, Breslau, Poland, 100 p.Google Scholar
Rowley, R. R. 1903. Calceocrinus granuliferus, n. sp., p. 114. In Greene, G. K., Contribution to Indiana Palaeontology, pt. 12. Ewing and Zeller, New Albany, Indiana.Google Scholar
SAS User's Guide. 1985. Statistics. SAS Institute, Cary, North Carolina, 96 p.Google Scholar
Shumard, B. F. 1865. A catalogue of the Palaeozoic fossils of North America: Part I. Paleozoic Echinodermata. St. Louis Academy of Sciences Transactions, 2:334394.Google Scholar
Shumard, B. F. 1866. A catalogue of the Palaeozoic fossils of North America: Part I. Paleozoic Echinodermata. St. Louis Academy of Sciences Transactions, 2:395407.Google Scholar
Simms, M. J., and Sevastopulo, G. D. 1993. The origin of articulate crinoids. Palaeontology, 36:91109.Google Scholar
Springer, F. 1911. The crinoid fauna of the Knobstone formation. U. S. National Museum Proceedings, 41:175208.Google Scholar
Springer, F. 1923. On the crinoid family Catillocrinidae. Smithsonian Miscellaneous Collection 76, 41 p.Google Scholar
Springer, F. 1926. American Silurian crinoids. Smithsonian Institution Publication 2871, 239 p.Google Scholar
Strimple, H. L., Allison, R. C., and Kline, G. L. 1971. Pennsylvanian crinoids from Alaska. University of Kansas Paleontological Contributions, 56:915.Google Scholar
Troost, G. 1849. (List of echinoderms from the State of Tennessee). American Journal of Sciences Proceedings, series 2, 8:419420.Google Scholar
Troost, G. 1850. A list of the fossil crinoids of Tennessee. American Association for the Advancement of Sciences Proceedings, series 2, 8:419420.Google Scholar
Ubaghs, G. 1953. Classe des Crinoides, p. 658773. In Piveteau, J. (ed.), Traité de paléontologie, volume 3. Masson and Cie Paris.Google Scholar
Ubaghs, G. 1978. Skeletal morphology of fossil crinoids, p. T58T216. In Moore, R. C. and Teichert, C., (eds.), Treatise on Invertebrate Paleontology, Pt. T, Echinodermata 2(2). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Ulrich, E. O. 1886. Remarks on the names Cheirocrinus and Calceocrinus, with descriptions of three new generic terms and one new species. Minnesota Geology and Natural History Survey Annual Report, 14:104113.Google Scholar
Van Sant, J. F. 1964. Crawfordsville crinoids, p. 34136. In Van Sant, J. F., and Lane, N. G., Crawfordsville crinoid studies. University of Kansas Paleontological Contributions Article, 7.Google Scholar
Wachsmuth, C., and Springer, F. 1885. Revision of the Palaeocrinidae, pt. 3, Sec. 1. Discussion of the classification and relations of the brachiate crinoids, and conclusions of the generic descriptions. Proceedings of the Academy of Natural Sciences, Philadelphia, 223364(1-62).Google Scholar
Wachsmuth, C., and Springer, F. 1886. Revision of the Palaeocrinidae, pt. 3, sec. 2. Discussion of the classification and relations of the brachiate crinoids, and conclusion of the generic descriptions. Proceedings of the Academy of Natural Sciences, Philadelphia, 64226(140-302).Google Scholar
Wachsmuth, C., and Springer, F. 1897. The North American Crinoidea Camerata. Harvard College Museum of Comparative Zoology, Memoir 20, 21. 897 p.Google Scholar
Webster, G. D. 1973. Bibliography and index of Paleozoic crinoids 1942-1968. Geological Society of America Memoir 137, 341 p.Google Scholar
Webster, G. D. 1976. A new genus of calceocrinid from Spain with comments on mosaic evolution. Palaeontology, 19:681688.Google Scholar
Webster, G. D. 1977. Bibliography and index of Paleozoic crinoids 1969-1973. Geological Society of America Microform Publication 8, 235 p.Google Scholar
Webster, G. D. 1986. Bibliography and index of Paleozoic crinoids 1974-1980. Geological Society of America Microform Publication 16, 405 p.Google Scholar
Webster, G. D. 1988. Bibliography and index of Paleozoic crinoids 1981-1985. Geological Society of America Microform Publication 18, 236 p.Google Scholar
Weller, S. 1898. A bibliographic index of Carboniferous invertebrates. United States Geological Survey Bulletin 153, 653 p.Google Scholar
Wetherby, A. G. 1880. Descriptions of new crinoids from the Cincinnati Group of the Lower Silurian and the Subcarboniferous of Kentucky. Journal of the Cincinnati Society of Natural History, 2:245253.Google Scholar
Wilson, C. W. Jr. 1948. The geology of Nashville, Tennessee. Tennessee Division of Geology Bulletin 53, 179 p.Google Scholar
Wolf, R. 1979. Hunting Iowa's crinoids. Earth Science, 32:149151.Google Scholar
Wood, E. 1909. A critical summary of Troost's unpublished manuscript on the crinoids of Tennessee. U. S. National Museum Bulletin 64, 115 p.Google Scholar
Worthen, A. H. 1890. Description of fossil invertebrates. Illinois Geological Survey, 8:69154.Google Scholar
Worthen, A. H., and Meek, F. B. 1875. Descriptions of invertebrates. Illinois Geological Survey, 6:489532.Google Scholar
Yakovlev, N. N. 1964. Klass Krinoidea. Morskie lilii. Obshchaya chast p. 5474. Vkn Orlov, Yu. A., ed., Osnovy paleontologii, Iglokozhi, Gemikhordovye, Pogonofory, i Shchetinkocheltustny [Class Crinoidea, crinoids, general part, characteristics, and morphology, in Fundametals of Paleontology, Echinodermata, Hemichordata, Pogonophora, and Chaetognatha].Izdatel'stvo Nedra, Moscow.Google Scholar