Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-26T04:46:23.580Z Has data issue: false hasContentIssue false

New occurrences of the Pennsylvanian index ammonoid Dunbarites from the North American midcontinent

Published online by Cambridge University Press:  14 July 2015

David M. Work
Affiliation:
1Maine State Museum, 83 State House Station, Augusta 04333-0083,
Royal H. Mapes
Affiliation:
2Department of Geological Sciences, 316 Clippinger Laboratories, Ohio University, Athens 45701,

Abstract

Ten newly recovered Dunbarites specimens significantly extend the known stratigraphic range of Dunbarites. These include the first documented Midcontinent Basin records of the Missourian type species Dunbarites rectilateralis (Miller, 1930) from north-central Oklahoma. Additional species of Dunbarites from south-central Oklahoma and north-central and West Texas are described as Dunbarites wewokensis n. sp. and Dunbarites boardmani n. sp. Although Dunbarites is an extremely rare component (~0.025 percent) of Middle and Upper Pennsylvanian ammonoid assemblages, Ruzhencev and Bogoslovskaya (1971, 1978) suggested that Dunbarites and Parashumardites Ruzhencev, 1939 be used as genozone markers for the Kasimovian [Zhigulevian] Stage (Missourian in North America). As demonstrated by this report, the range of Dunbarites is not confined to the Kasimovian, thereby precluding its use as a Kasimovian Stage indicator.

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

Andrianov, V. N. 1985. Permian and some Upper Carboniferous ammonoids from northeastern Asia. Akademiya Nauk SSSR, Novosibirsk, 168 p. (In Russian)Google Scholar
Barrick, J. E., Lambert, L. L., Heckel, P. H., and Boardman, D. R. 2004. Pennsylvanian conodont zonation for Midcontinent North America. Revista Española de Micropaleontología, 36:231250.Google Scholar
Beghtel, F. W. 1962. Desmoinesian ammonoids of Oklahoma. Unpublished Ph.D. dissertation, University of Iowa, Iowa City, 390 p.Google Scholar
Boardman, D. R., Mapes, R. H., and Work, D. M. 1989. Ammonoids from the Colony Creek Shale (Caddo Creek Formation, Canyon Group) with implications for correlation of the position of the Missourian–Virgilian boundary in north-central Texas, p. 201220. In Boardman, D. R., Barrick, J. E., Cocke, J., and Nestell, M. K. (eds.), Middle and Late Pennsylvanian Chronostratigraphic Boundaries in North-Central Texas: Glacial-Eustatic Events, Biostratigraphy, and Paleoecology. Texas Tech University Studies in Geology, 2.Google Scholar
Boardman, D. R., Work, D. M., Mapes, R. H., and Barrick, J. E. 1994a. Biostratigraphy of Middle and Late Pennsylvanian (Desmoinesian–Virgilian) ammonoids. Kansas Geological Survey Bulletin 232, 121 p.Google Scholar
Boardman, D. R., Work, D. M., and Mapes, R. H. 1994b. Revision of the family Shumarditidae Plummer & Scott, 1937, p. 4856. In Boardman, D. R., Work, D. M., Mapes, R. H., and Barrick, J. E. (eds.), Biostratigraphy of Middle and Late Pennsylvanian (Desmoinesian–Virgilian) Ammonoids. Kansas Geological Survey Bulletin 232.Google Scholar
Bogoslovskaya, M. F., Kusina, L. F., and Leonova, T. B. 1999. Classification and distribution of Late Paleozoic ammonoids, p. 89124. In Rozanov, A. Yu. and Shevyrev, A. A. (eds.), Fossil Cephalopods: Recent Advances in Their Study. Paleontological Institute, Russian Academy of Sciences, Moscow. (In Russian)Google Scholar
Böse, E. 1919. The Permo-Carboniferous ammonoids of the Glass Mountains, West Texas, and their stratigraphical significance. Texas University Bulletin 1762, 241 p. (Imprinted 1917)Google Scholar
Chatelain, E. E. 1984. Ammonoids of the Marmaton Group, Middle Pennsylvanian (Desmoinesian), Arkoma Basin, Oklahoma. Unpublished Ph.D. dissertation, University of Iowa, Iowa City, 295 p.Google Scholar
Chernykh, V. V. and Reshetkova, N. P. 1987. Biostratigraphy and conodonts of the Carboniferous–Permian boundary beds of the western slope of the southern and central Urals. Akademiya Nauk SSSR, Sverdlovsk, 53 p. (In Russian)Google Scholar
Frest, T. J., Glenister, B. F., and Furnish, W. M. 1981. Pennsylvanian–Permian cheiloceratacean ammonoid families Maximitidae and Pseudohaloritidae. Paleontological Society Memoir 11, Journal of Paleontology, 55(3) supplement, 46 p.Google Scholar
Furnish, W. M. and Beghtel, F. W. 1961. A new Desmoinesian ammonoid genus from Oklahoma. Oklahoma Geology Notes, 21:289293.Google Scholar
Gemmellaro, G. G. 1887. La fauna dei calcari con Fusulina della valle del Fiume Sosionella provincia di Palermo. Giornale di Scienze Naturali et Economiche Palermo, 19:1106.Google Scholar
Girty, G. H. 1911. On some new genera and species of Pennsylvanian fossils from the Wewoka Formation of Oklahoma. Annals of the New York Academy of Science, 21:119156.CrossRefGoogle Scholar
Glenister, B. F. and Furnish, W M. 1981. Permian ammonoids, p. 4964. In House, M. R. and Senior, J. R. (eds.), The Ammonoidea. Academic Press, London.Google Scholar
Heckel, P. H. 2008. Carboniferous Period, p. 7383. In Ogg, J. G., Ogg, G., and Gradstein, F. M. (eds.), The Concise Geologic Time Scale. Cambridge University Press, Cambridge.Google Scholar
Heckel, P. H., Alekseev, A. S., Barrick, J. E., Boardman, D. R., Goreva, N. V., Nemyrovska, T. I., Ueno, K., Villa, E., and Work, D. M. 2007. Cyclothem (“digital”) correlation and biostratigraphy across global Moscovian-Kasimovian-Gzhelian Stage boundary interval (Middle-Upper Pennsylvanian Series) in North America and eastern Europe. Geology, 35:607610.CrossRefGoogle Scholar
Heckel, P. H., Alekseev, A. S., Barrick, J. E., Boardman, D. R., Goreva, N. V., Isakova, T. N., Nemyrovska, T. I., Ueno, K., Villa, E., and Work, D. M. 2008. Choice of conodont Idiognathodus simulator [sensu stricto] as the event marker for the base of the global Gzhelian Stage (Upper Pennsylvanian Series, Carboniferous System). Episodes, 31:319325.CrossRefGoogle Scholar
Hyatt, A. 1884. Genera of fossil cephalopods. Boston Society of Natural History Proceedings, 22:253338.Google Scholar
King, P. B. 1938. Geology of the Marathon region, Texas. U.S. Geological Survey Professional Paper 187, 148 p.CrossRefGoogle Scholar
Librovitch, L. S. 1938. Carboniferous ammonoids of the southern island of Novaya Zemlya. Paleontologiya Sovetskoi Arktiki, No. 3. Trudy Arkticheskogo Instituta, 101:47107. (In Russian with English summary)Google Scholar
Mapes, R. H. and Boardman, D. R. 1988. The Upper Paleozoic (Pennsylvanian–Permian) ammonoid Emilites. Journal of Paleontology, 62:6975.CrossRefGoogle Scholar
Miller, A. K. 1930. A new ammonoid fauna of Late Paleozoic age from western Texas. Journal of Paleontology, 4:383412.Google Scholar
Miller, A. K. 1934. Pseudoparalegoceras, a new genus of Carboniferous ammonoids. Journal of Paleontology, 8:1820.Google Scholar
Miller, A. K. and Cline, L. 1934. The cephalopod fauna of the Pennsylvanian Nellie Bly Formation of Oklahoma. Journal of Paleontology, 8:171185.Google Scholar
Miller, A. K. and Downs, H. R. 1950. Ammonoids of the Pennsylvanian Finis Shale of Texas. Journal of Paleontology, 24:185218.Google Scholar
Miller, A. K. and Furnish, W. M. 1940a. Permian ammonoids of the Guadalupe Mountain region and adjacent areas. Geological Society of America Special Paper 26, 242 p.CrossRefGoogle Scholar
Miller, A. K. and Furnish, W. M. 1940b. Studies of Carboniferous ammonoids: Parts 5-7. Journal of Paleontology, 14:521543.Google Scholar
Miller, A. K. and Furnish, W. M. 1940c. Studies of Carboniferous ammonoids: Parts 1-4. Journal of Paleontology, 14:356377.Google Scholar
Miller, A. K. and Furnish, W. M. 1957. Paleozoic Ammonoidea [Anarcestina, Goniatitina, Prolecanitina], p. 1136, 47-79. In Moore, R. C. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology, Pt. L, Mollusca 4. Cephalopoda, Ammonoidea. Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Miller, S. A. and Faber, C. L. 1892. Descriptions of some Subcarboniferous and Carboniferous Cephalopoda. Journal of the Cincinnati Society of Natural History, 14:164168.Google Scholar
Morton, S. G. 1836. Being a notice and description of the organic remains embraced in the preceding paper [Hildreth, S. P., Observations on the Bituminous coal deposits of the Valley of the Ohio]. American Journal of Science, 29:149154.Google Scholar
Nassichuk, W. W. 1995. Permian ammonoids in the Arctic regions of the world, p. 210235. In Scholle, P. A., Peryt, T. M., and Ulmer-Scholle, D. S. (eds.), The Permian of Northern Pangea. Volume 1. Paleogeography. Paleoclimates, Stratigraphy. Springer-Verlag, New York.CrossRefGoogle Scholar
Nassichuk, W. W. and Rui, L. 1992. Ammonoids and fusulinaceans near the Carboniferous-Permian boundary in the Canadian Arctic Archipelago. Permophiles, 21:1115.Google Scholar
Newell, N. D. 1936. Some mid-Pennsylvanian invertebrates from Kansas and Oklahoma: III Cephalopoda. Journal of Paleontology, 10:481489.Google Scholar
Plummer, F. B. and Scott, G. 1937. Upper Paleozoic ammonites in Texas. The geology of Texas, Volume 3. Pt. 1, Texas University Bulletin 3701, 516 p.Google Scholar
Ruzhencev, V. E. 1936. Paleontological notes on Carboniferous and Permian ammonoids. Problemy Sovetskoi Geologii, 12:10721088. (In Russian)Google Scholar
Ruzhencev, V. E. 1938. Ammonoids of the Sakmarian Stage and their stratigraphic significance. Problemy Paleontologii, 4:187285. (In Russian)Google Scholar
Ruzhencev, V. E. 1939. Parashumardites, a new ammonoid genus from the Upper Carboniferous of North America. Akademiya Nauk SSSR, Doklady, 23:850852. (In Russian)Google Scholar
Ruzhencev, V. E. 1941. A new Upper Carboniferous genus Daixites of the family Medlicottiidae Karpinsky. Akademiya Nauk SSSR, Doklady, 30:874877. (In Russian)Google Scholar
Ruzhencev, V. E. 1960. Principles of systematics, classification, and phylogeny of the Paleozoic Ammonoidea. Trudy Paleontologicheskogo Instituta, Akademiya Nauk SSSR, 83, 331 p. (In Russian)Google Scholar
Ruzhencev, V. E. 1962. Superorder Ammonoidea, p. 243409. In Orlov, Yu. A. (ed.), Fundamentals of Paleontology, Volume 5, 438 p. (English Translation, Israel Program for Scientific Translations, Jerusalem, 1974)Google Scholar
Ruzhencev, V. E. 1974. Late Carboniferous ammonoids of the Russian Platform and Cisuralia. Paleontologicheskii Zhurnal, 1974(3):3246. (In Russian)Google Scholar
Ruzhencev, V. E. and Bogoslovskaya, M. F. 1971. Namurian time in ammonoid evolution: Early Namurian ammonoids. Trudy Paleontologicheskogo Instituta, Akademiya Nauk SSSR, 133, 382 p. (In Russian)Google Scholar
Ruzhencev, V. E. and Bogoslovskaya, M. F. 1978. Namurian time in ammonoid evolution: Late Namurian ammonoids. Trudy Paleontologicheskogo Instituta, Akademiya Nauk SSSR, 167, 336 p. (In Russian)Google Scholar
Saunders, W. B. and Work, D. M. 1996. Shell morphology and suture complexity in Upper Carboniferous ammonoids. Paleobiology, 22:189218.CrossRefGoogle Scholar
Smith, J. P. 1903. Carboniferous ammonoids of America. U.S. Geological Survey Monograph 42, 211 p.Google Scholar
Work, D. M. and Boardman, D. R. 2003. Mapesites, a new Upper Pennsylvanian (lower Virgilian) ammonoid from Kansas. Journal of Paleontology, 77:11951197.2.0.CO;2>CrossRefGoogle Scholar