Hostname: page-component-cd9895bd7-dzt6s Total loading time: 0 Render date: 2024-12-26T04:59:41.508Z Has data issue: false hasContentIssue false

Revision, distribution, and extinction of the Middle and early Late Devonian archaeogastropod genera Floyda and Turbonopsis

Published online by Cambridge University Press:  14 July 2015

Jed Day*
Affiliation:
Department of Geology, University of Iowa, Iowa City 52242

Abstract

Large palaeotrochid gastropods of the genera Floyda Webster (1905a) and Turbonopsis Grabau and Shimer (1909) occur in the late Frasnian Lime Creek Formation of Iowa. Floyda concentrica was designated as the type species of Floyda by earlier workers (Webster, 1905a; Knight, 1941), but is a junior synonym of F. gigantea (Hall and Whitfield, 1873). Three of five species and subspecies of Floyda described from the Lime Creek (Floyda concentrica, F. concentrica multisinuata, and F. gigantea depressa) are considered synonyms of the type species F. gigantea; the fifth species, F. gigantea hackberryensis, is here reassigned to the closely related genus Turbonopsis. Both F. gigantea and T. hackberryensis are redescribed using the original types and additional hypotype material from the collections of Charles Belanski.

Floyda, first known from late Givetian rocks of the Rhenish Slate Mountains in Germany, is widespread in the United States Midcontinent and western North America by early Late Devonian time. Turbonopsis was endemic to the Appohimchi Subregion of the Eastern Americas Realm prior to the Taghanic Onlap, and appears to have remained so until late Frasnian time when it migrated to western North America.

Eustatic sea-level highstands during the Middle and Late Devonian are thought to have breached barriers to migration, allowing both Floyda and Turbonopsis to disperse by prevailing oceanic currents from the United States Midcontinent into western North America during the late Frasnian. The expected oceanic current patterns of the Middle and Late Devonian paleogeographic reconstructions of Heckel and Witzke (1979, figs. 3, 5) adequately account for the known distribution and dispersal of Devonian palaeotrochid gastropods.

The Palaeotrochidae underwent extinction prior to the latest Frasnian. Floyda, Turbonopsis, and Westerna became extinct during the onset of the last eustatic deepening event prior to the close of the Frasnian. The extinction of the palaeotrochid gastropods as well as other invertebrate groups may have been the result of restriction or near elimination of shallow warm-water, well-oxygenated shelf habitats by the onlap of cold anoxic bottom waters prior to latest Frasnian time.

Type
Research Article
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

Anderson, W. I. 1964. Upper Devonian and Lower Mississippian conodonts from north-central Iowa. Unpubl. Ph.D. dissertation, University of Iowa, Iowa City, 215 p.Google Scholar
Anderson, W. I. 1966. Upper Devonian conodonts and the Devonian-Mississippian boundary of north-central Iowa. Journal of Paleontology, 40:395415.Google Scholar
Baker, C., Glenister, B. F., and Levorson, C. O. 1986. Devonian ammonoid Manticoceras from Iowa. The Proceedings of the Iowa Academy of Science, 93:715.Google Scholar
Belanski, C. H. 1931. Introduction: stratigraphy of the Hackberry Stage, p. 17. In C. L. Fenton, The Stratigraphy of the Hackberry Stage. Wagner Free Institute of Science, 2.Google Scholar
Clark, W. B., and Swartz, C. K. 1913. Middle and Upper Devonian. Report on the systematic geology and paleontology of Maryland, 5, 156 p. and 6, 720 p.Google Scholar
Cooper, G. A., and Dutro, T. 1982. The Devonian brachiopods of New Mexico. Bulletins of American Paleontology, 82 and 83, 215 p.Google Scholar
Day, J. E. 1983. Stratigraphy, carbonate petrology, and paleoecology of the Jerome Member of the Martin Formation in east-central Arizona. Unpubl. M.S. thesis, Northern Arizona University, Flagstaff, 147 p.Google Scholar
Day, J. E., and Beus, S. S. 1982. Turbonopsis apachiensis, a new species of archaeogastropod from the Devonian (Frasnian) of Arizona. Journal of Paleontology, 56:11191123.Google Scholar
Ettensohn, F. R. 1985. Controls on development of Catskill Delta complex basin-facies, p. 6578. In Woodrow, D. L. and Sevon, W. D. (eds.), The Catskill Delta. Geological Society of America Special Paper 201.Google Scholar
Fenton, C. L. 1918. Some new brachiopods and gastropods from the Devonian of Iowa. American Midland Naturalist, 5:213224.Google Scholar
Fenton, C. L. 1919. The Hackberry Stage of the Upper Devonian of Iowa. American Journal of Science, 48:355376.CrossRefGoogle Scholar
Fenton, C. L., and Fenton, M. A. 1924. The stratigraphy and fauna of the Hackberry Stage of the Upper Devonian. Contributions from the Museum of Geology, University of Michigan, 1, 260 p.Google Scholar
Grabau, A. W., and Shimer, H. W. 1909. North American Index Fossils. A. G. Seiler, New York, 675 p.Google Scholar
Hall, J. 1879. Natural History of New York. Paleontology, Vol. 5, Pt. II, 492 p.Google Scholar
Hall, J., and Whitfield, R. P. 1873. Descriptions of new species of fossils from the Devonian rocks of Iowa; with a preliminary note on the formations. New York State Cabinet of Natural History, Annual Report 23, p. 223239.Google Scholar
Heckel, P. H., and Witzke, B. J. 1979. Devonian world paleogeography determined from distribution of carbonates and related lithic paleoclimatic indicators, p. 99124. In House, M. R., Scrutton, C. T., and Basset, M. G. (eds.), The Devonian System. The Palaeontological Association, London, Special Papers in Palaeontology, 23.Google Scholar
Johnson, J. G. 1970. Taghanic onlap and the end of North American Devonian provinciality. Geological Society of America Bulletin, 81:20772106.Google Scholar
Johnson, J. G., Klapper, G., and Sandberg, C. A. 1985. Devonian eustatic fluctuations in Euramerica. Geological Society of America Bulletin, 96:567587.Google Scholar
Kent, D. V. 1985. Paleocontinental setting for the Catskill Delta, p. 913. In Woodrow, D. L. and Sevon, W. D. (eds.), The Catskill Delta. Geological Society of America Special Paper 201.Google Scholar
Klapper, G., and Johnson, J. G. 1980. Endemism and dispersal of Devonian conodonts. Journal of Paleontology, 54:400455.Google Scholar
Klapper, G., and Lane, H. R. 1985. Upper Devonian (Frasnian) conodonts of the Polygnathus biofacies, N.W.T., Canada. Journal of Paleontology, 59:904951.Google Scholar
Knight, J. B. 1941. Paleozoic gastropod genotypes. Geological Society of America Special Paper 32, 510 p.Google Scholar
Meader, N. M. 1977. Paleoecology and paleoenvironments of the Upper Devonian Martin Formation in the Roosevelt Dam-Globe area, Gila County, Arizona. Unpubl. M.S. thesis, University of Arizona, Tucson, 124 p.Google Scholar
Müller, K. J., and Müller, E. M. 1957. Early Upper Devonian (Independence) conodonts from Iowa, Pt. I. Journal of Paleontology, 31:10691108.Google Scholar
Scotese, C. R. 1984. Paleozoic paleomagnetism and the assembly of Pangea, p. 110. In Van der Voo, R., Scotese, C. R., and Bonhommet, N. (eds.), Plate Reconstructions from Paleozoic Paleomagnetism. Geodynamics Series, 12.Google Scholar
Scotese, C. R., et al. 1979. Paleozoic base maps. Journal of Geology, 87:217277.CrossRefGoogle Scholar
Sorauf, J. E. 1984. Devonian stratigraphy of the San Andres Mountains, Dona Ana, Sierra, and Socorro Counties, New Mexico. New Mexico Bureau of Mines and Mineral Resources, Circular 189, 32 p.Google Scholar
Spriesterbach, J. 1919. Neue Versteinerungen aus dem Lenneschiefer. Jahrbuch der koniglich pressischen geologischen Landesanslalt zu Berling für das Jahr 1917, 38:434512.Google Scholar
Spriesterbach, J. 1942. Lenneschiefer (stratigraphie, facies, und fauna). Reichsamts für Bodenforschung, Abhandlungen, Neue Folge, 203, 219 p.Google Scholar
Stainbrook, M. A. 1945. Brachiopods of the Independence Shale of Iowa. Geological Society of America Memoir 14, 74 p.CrossRefGoogle Scholar
Strimple, H. L., and Levorson, C. O. 1969. Catalogue of type specimens of the Belanski collection. Bulletins of American Paleontology, 56:259271.Google Scholar
Vermeij, G. J. 1978. Biogeography and Adaption: Patterns of Marine Life. Harvard University Press, Cambridge, 332 p.Google Scholar
Wang, Y., Copper, P., and Rong, J. 1983. Distribution and morphology of the Devonian brachiopod Punctatrypa . Journal of Paleontology, 57:10671089.Google Scholar
Webster, C. L. 1905a. Description of a new genus and species of gastropod from the Hackberry Group of Iowa. Iowa Naturalist, 1:3940.Google Scholar
Webster, C. L. 1905b. Description of a new genus of gastropod from the Hackberry Group of Iowa. Iowa Naturalist, 1:5455.Google Scholar
Webster, C. L. 1906. Description of new species of gastropods from the lower and middle beds of the Hackberry Group. Iowa Naturalist, 2:14.Google Scholar
Webster, C. L. 1909. Illustration and description of some fossil species from the Hackberry Group. Iowa Naturalist, 5:111.Google Scholar
Woodrow, D. L. 1985. Paleogeography, paleoclimate, and sedimentary processes of the Late Devonian Catskill Delta. Geological Society of America Special Paper 201:5164.Google Scholar