Hostname: page-component-8448b6f56d-sxzjt Total loading time: 0 Render date: 2024-04-18T13:47:26.463Z Has data issue: false hasContentIssue false
  • English
  • Français

An enigmatic blastozoan echinoderm fauna from central kentucky

Published online by Cambridge University Press:  14 July 2015

Colin D. Sumrall ,
Carlton E. Brett ,
Troy A. Dexter  and
Alexander Bartholomew
Colin D. Sumrall
Affiliation:
1Department of Earth and Planetary Sciences, University of Tennessee, Knoxville 37996,
Carlton E. Brett
Affiliation:
2Department of Geology, University of Cincinnati, OH 45221
Troy A. Dexter
Affiliation:
1Department of Earth and Planetary Sciences, University of Tennessee, Knoxville 37996, 3Department of Geosciences, Virginia Polytechnic Institute, Blacksburg, 24061
Alexander Bartholomew
Affiliation:
2Department of Geology, University of Cincinnati, OH 45221 4Department of Geology, State University of New York at New Paltz, New Paltz, 12561
Get access Rights & Permissions [Opens in a new window]

Abstract

A series of small road cuts of lower Boyle Formation (Middle Devonian: Givetian) near Waco, Kentucky, has produced numerous specimens of three blastozoan clades, including both “anachronistic” diploporan and rhombiferan “cystoids” and relatively advanced Granatocrinid blastoids. This unusual assemblage occurs within a basal grainstone unit of the Boyle Limestone, apparently recording a local shoal deposit. Diploporans, the most abundant articulated echinoderms, are represented by a new protocrinitid species, Tristomiocystis globosus n. gen. and sp. Glyptocystitoid rhombiferans are represented by isolated thecal plates assignable to Callocystitidae. Three species of blastoids, all previously undescribed, include numerous thecae of the schizoblastid Hydroblastus hendyi n. gen. and sp., the rare nucleocrinid Nucleocrinus bosei n. sp., and an enigmatic troosticrinid radial. The blastoid Nucleocrinus is typical for the age; however, the callocystitid, schizoblastid, and protocrinitid are not. Hydroblastus is the oldest known schizoblastid. Middle and Upper Devonian callocystitids have been previously reported only from Iowa and Michigan USA with unpublished reports from Missouri USA and the Northwest Territories, Canada. This occurrence is thus the first report of a Middle Devonian rhombiferan from the Appalachian foreland basin. Tristomiocystis is the first known protocrinitid in North America and the only protocrinitid younger than Late Ordovician. This occurrence thus represents a range extension of nearly 50 million years for protocrinids. This extraordinary sample of echinoderms in a Middle Devonian limestone from a well-studied area of North America highlights the incompleteness of the known fossil record, at least in fragile organisms such as echinoderms.

Type
Research Article
Information
Journal of Paleontology , Volume 83 , Issue 5 , September 2009 , pp. 739 - 749
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. and Moodey, M. W. 1943. Bibliographic and faunal index of Paleozoic pelmatozoan echinoderms, 743 p.CrossRefGoogle Scholar
Barnett, S. and Ettensohn, F. R. 1992. The Carpenter Fork Graben and its implications, p. 4455. In Ettensohn, F. R. (ed.), Changing Interpretations of Kentucky Geology: Layer Cake, Facies, Flexure, and Eustasy: Ohio Division of Geological Survey, Miscellaneous Report 5.Google Scholar
Barnett, S., Ettensohn, F. R., and Norby, R. 1993. Carpenter Fork bed, a new and older black shale unit at the base of the New Albany Shale in central Kentucky. Southeastern Geology, 351:187210.Google Scholar
Bather, F. A. 1899. A phylogenetic classification of the Pelmatozoa. British Association for the Advancement of Science, Report, 68th Meeting section D (Bristol, 1898):916923.Google Scholar
Bernard, F. 1895. Éléments de Paléontologie. J. B. Baillière and Fils, Paris, 612 p.Google Scholar
Boucot, A. J. 1957. Revision of some Silurian and early Devonian spiriferid genera and erection of Kozlowskiellinae, new subfamily. Senckenbergiana Lethaea, 38:311334.Google Scholar
Brett, C. E., Baird, G. C., and Alexander, A. J. 2004. Sequence stratigraphy of highly variable Middle Devonian strata in central Kentucky: Implications for regional correlations and depositional environments, p. 3554. In Schieber, J. and Lazar, R. (eds.), Devonian Black Shales of the Eastern U.S. New Insights into Sedimentology and Stratigraphy from the Subsurface and Outcrops in the Illinois and Appalachian Basins. Field Guide for the 2004 Annual Field Conference of the Great Lakes Section of SEPM. Indiana Geological Survey Open-File Report, 04-05.Google Scholar
Chauvel, J. 1978. Compléments sur les Echinodermes du Paléozoïque marocain (Diploporites, Eocrinoïdes, Edrioastéeoïdés). Notes Service géologique Maroc. 39:2778.Google Scholar
Conkin, J. E., Conkin, B. M., and Lipchinsky, Z. L. 1973. Middle Devonian (Hamiltonian) stratigraphy and bone beds on the east side of the east side of the Cincinnati Arch in Kentucky: Pt. 1. Clark, Madison, and Casey Counties. University of Louisville Studies in Paleontology and Stratigraphy, no. 2, 45 p.Google Scholar
Conkin, J. E., Conkin, B. M., and Lipchinsky, Z. L. 1976. Middle Devonian (Hamiltonian) stratigraphy and bone beds on the east side of the Cincinnati Arch in Kentucky: Pt. 2. The Kidds Store section, Casey County. University of Louisville Studies in Paleontology and Stratigraphy, no. 6, 34 p.Google Scholar
Conrad, T. A. 1842. Observations on the Silurian and Devonian systems of the United States, with descriptions of new organic remains. Journal of the Philadelphia Academy of Natural Sciences, 8:183190.Google Scholar
Davidson, T. 1858. A Monograph of the British Fossil Brachiopoda, Pt. 5, 2d part. Palaeontographical Society, 11:4980.CrossRefGoogle Scholar
Dexter, T., Sumrall, C. D., and Brett, C. E. 2004. A new and unusual Middle Devonian echinoderm fauna from the Boyle Formation in Madison County, Kentucky that extends the range for diploporan cystoids. Geological Society of America, Abstracts with Programs, 152–5.Google Scholar
Duncan, P. M. 1879. On some spheroidal lithistid Spongida from the Upper Silurian Formation of new Brunswick. Annals and Magazine of Natural History (series 5), 4:8491.CrossRefGoogle Scholar
Etheridge, R. and Carpenter, P. H. 1886. Catalogue of the Blastoidea in the Geological Department of the British Museum, British Museum Catalogue, London, 322 p.Google Scholar
Ettensohn, F. R. 1987. Rates of relative plate motion during the Acadian Orogeny based on the spatial distribution of black shales. Journal of Geology, 95:572582.CrossRefGoogle Scholar
Ettensohn, F. R. 1991. Flexural interpretation of relationships between Ordovician tectonism and stratigraphic sequences, central and southern Appalachians, U.S.A. p. 213224. In Barnes, C. R. and Williams, S. H. (eds.), Advances in Ordovician Geology. Geological Survey of Canada Paper 90-9.Google Scholar
Ettensohn, F. R. 1992a. Changing Interpretations of Kentucky Geology: Layer Cake, Facies, Flexure, and Eustasy. Ohio Division of Geological Survey, Miscellaneous Report 5, 184 p.Google Scholar
Ettensohn, F. R. 1992b. Basic flexural models, p. 912. In Ettensohn, F. R. (ed.), Changing Interpretations of Kentucky Geology: Layer Cake, Facies, Flexure, and Eustasy. Ohio Division of Geological Survey, Miscellaneous Report 5.Google Scholar
Ettensohn, F. R. 1994. Tectonic control on the formation and cyclicity of major Appalachian unconformities and associated stratigraphic sequences, p. 217242. In Dennison, J. and Ettensohn, F. R. (eds.), Tectonic and Eustatic Controls on Sedimentary Cycles. SEPM Concepts in Sedimentology and Paleontology, v. 4.Google Scholar
Ettensohn, F. R. 2004. Modeling the nature and development of major Paleozoic clastic wedges in the Appalachian Basin, U.S.A. Journal of Geodynamics, 37:657681.CrossRefGoogle Scholar
Fay, R. O. 1961. Blastoid studies. University of Kansas Paleontological Contributions, 3:1147.Google Scholar
Foerste, A. F. 1906. The Silurian-Devonian and Irvine formations of east-central Kentucky. Kentucky Geological Survey Bulletin, 7:1127.Google Scholar
Girty, G. H. 1898. Description of a Devonian fauna found in east-central Kentucky. American Journal of Science, 4th Series, 6:384394.CrossRefGoogle Scholar
Green, J. 1832. A monograph of the trilobites of North America. Philadelphia, 93 pp.CrossRefGoogle Scholar
Hall, J. 1859. Observations on genera of Brachiopoda. New York Cabinet Of Natural History Annual Report 12, 8110.Google Scholar
Hall, J. 1860. Description of new species of fossils from the Hamilton Group of Western New York with notices of others from the same horizon in Iowa and Indiana. New York Cabinet of Natural History Annual Report 15, 7694.Google Scholar
Heckel, P. W. 1973. Nature, origin, and significance of the Tully Limestone. Geological Society of America Special Paper, 139:1244.Google Scholar
Hinde, G. J. 1879. On conodonts from the Chazy and Cincinnati Group of the Cambro-Silurian and from the Hamilton and Genesee-shale divisions of the Devonian, in Canada and the United States. Geological Society of London Quarterly Journal, 35:351369.CrossRefGoogle Scholar
Jaekel, O. 1918. Phylogenie und system der Pelmatozoen. Paläontologische Zeitschrift, 3:1128.CrossRefGoogle Scholar
Johnson, S. 1980. The paragenesis of chert and dolomite in the formation of the Boyle dolomite of east-central Kentucky. Unpublished , , Richmond, KY, 96 p.Google Scholar
Jordan, D. 1977. Trace fossils and stratigraphy of the Devonian black shale in east-central Kentucky. Unpublished , , 227 p.Google Scholar
Kesling, R. V. 1967. Cystoidea, p. s85s267. In Moore, R. C. (ed.), Treatise on Invertebrate Paleontology, Part S Echinodermata 1(1). Geological Society of America and University of Kansas, New York and Lawrence.Google Scholar
Lewis, J. O. 1949. A study of the Geology of the Preston (Boyle) Ore in Bath County, Kentucky. Unpublished , , Lexington, 41 p.Google Scholar
Linney, W. 1882. Report on the geology of Lincoln County, Kentucky. Kentucky Geological Survey Bulletin, 136.Google Scholar
McFarlan, A. C. and White, W. H. 1952. Boyle-Duffin-Ohio Shale relationships. Kentucky Geological Survey Series IX, Bulletin 10:124.Google Scholar
Müller, J. 1854. Über den Bau der Echinodermen. Abhabdl. K. preuss. Akad. Wiss, 123219.Google Scholar
Pieracacos, N. 1983. Conodont biostratigraphy of the Boyle Dolomite (Middle Devonian) of east-central Kentucky. Unpublished , , Richmond, KY227 p.Google Scholar
Pieracacos, N. and Helfrich, H. 1984. Conodont biostratigraphy of the Boyle Dolomite (Middle-Late Devonian) of east-central Kentucky. Geological Society of America, Abstracts with Programs, 16:186.Google Scholar
Roemer, C. F. 1851. Monographie der fossilen Crinoiden - familie der Blastoideen, und der Gattung Pentatrematites in Besondern. Arch Naturgecsh, Jarbuch 17:323397.Google Scholar
Rowley, R. R. 1901. Two new genera and some new species of fossils from the upper Paleozoic rocks of northeastern Missouri. American Geologist, 27:343355.Google Scholar
Runge, I. 1959. An analysis of the microfauna of the Kiddville bone bed of Devonian Boyle Limestone, Marion County, Kentucky. Unpublished , . 86 p.Google Scholar
Savage, T. E. 1930. Devonian rocks of Kentucky. Kentucky Geological Survey, series VI, 33:1161.Google Scholar
Say, T. 1825. On two genera and several species of Crinoidea. Journal of the Academy of Natural Sciences, Philadelphia, ser. 1, 4:289296.Google Scholar
Sprinkle, J. 1973. Morphology and Evolution of Blastozoan Echinoderms. Harvard University Museum of Comparative Zoology, Special Publication, 283 p.Google Scholar
Sprinkle, J. and Parsley, R. L. 1982. “Golf-ball” paracrinoid, p. 224230. In Sprinkle, J. (ed.), Echinoderm Faunas from the Bromide Formation (Middle Ordovician) of Oklahoma. University of Kansas Paleontological contribution monograph 1.Google Scholar
Sloss, L. L. 1963. Sequences in the cratonic interior of North America. Geological Society of America Bulletin, 74:93114.CrossRefGoogle Scholar
Stephenson, J. T. 1979. Petrology, lithofacies, and depositional analysis of the Boyle Dolomite in east-central Kentucky. Unpublished , , 205 p.Google Scholar
Sumrall, C. D. 2001. Endemism and diversification of Middle and Late Devonian rhombiferans. Geological Society of America, Abstracts with Program, 34:104.Google Scholar
Sumrall, C. D. and Deline, B. 2009. A new species of the dual-mouthed paracrinoid Bistomiacystis and a redescription of Edrioaster priscus from the Middle Ordovician Curdsville Member of the Lexington Limestone. Journal of Paleontology, 83:135139.CrossRefGoogle Scholar
Waters, J. A., Horowitz, A. S., and Macurda, D. B. Jr. 1985. Ontogeny and phylogeny of the Carboniferous blastoid Pentremites. Journal of Paleontology, 59:701712.Google Scholar