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Upper Paleozoic cephalopod mandibles: frequency of occurrence, modes of preservation, and paleoecological implications

Published online by Cambridge University Press:  19 May 2016

Royal H. Mapes*
Affiliation:
Department of Geological Sciences, Ohio University, Athens 45701

Abstract

Thirty localities in the Upper Paleozoic (Mississippian–Permian) of North America have yielded more than 1,000 cephalopod mandibles preserved as carbon films, pyrite/limonite internal molds, and as nuclei in phosphate, carbonate, and ironstone concretions. With occasional exceptions, cephalopod mandibles, as part of either the microfauna or macrofauna, are rare despite the fact that co-occurring cephalopods may be extremely abundant. Without exception, the mandibles recovered co-occur with ammonoids and very frequently with bactritoids. Localities containing only nautiloids, either coiled or orthoconic, have not yet yielded cephalopod mandibles. Also, nekroplanktic accumulations of cephalopods have not yielded mandibles. Except for Lagerstätten deposits (two occurrences), the cephalopod mandibles were always recovered from molluscan-dominated communities; these communities have been interpreted as being in relatively offshore, “deeper” water in normal marine salinities with relatively low to anoxic oxygen conditions.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Baird, G. C. 1979. Lithology and fossil distribution, Francis Creek Shale in northeastern Illinois, p. 4167. In Nitecki, M. H. (ed.), Mazon Creek Fossils. Academic Press, New York.Google Scholar
Baird, G. C., Shabica, C. W., and Kuecher, G. J. 1984. Depositional events recorded in the Francis Creek Shale: taphonomy of the Pennsylvanian Mazon Creek locality in Illinois. Geological Society of America Abstracts with Programs, 16:124.Google Scholar
Beghtel, F. N. 1962. Desmoinesian ammonoids of Oklahoma. Unpubl. Ph.D. dissertation, University of Iowa, 390 p.Google Scholar
Boardman, D. R., et al. 1984. A new model for the depth-related allogenic community succession within North America Pennsylvanian cyclothems and implications on the black shale problem, p. 141182. In Hyne, N. J. (ed.), Limestones of the Mid-Continent. Tulsa Geological Society Special Paper No. 2.Google Scholar
Bohm, J. 1912. Temnocheilus (Conchorhynchus) Freieslebeni Geinitz sp. Centralblat Mineralogie, Geologie und Palaeontologie, 22:68702.Google Scholar
Brady, L. F. 1955. Possible nautiloid mandibles from the Permian of Arizona. Journal of Paleontology, 29:102104.Google Scholar
Chatelain, E. L. 1984. Ammonoids of the Marmaton Group, Middle Pennsylvanian (Desmoinesian), Arkoma Basin, Oklahoma. Unpubl. Ph.D. dissertation, University of Iowa, 295 p.Google Scholar
Cooper, C. L. 1932. A crustacean fauna from the Woodford Formation of Oklahoma. Journal of Paleontology, 6:346352.Google Scholar
Cox, R. S. 1986. Preliminary report on the age and palynology of the Bear Gulch Limestone (Mississippian, Montana). Journal of Paleontology, 60:952956.Google Scholar
Closs, D. 1967. Goniatiten mit Radula and Kieferapparat in der Itarare-Formation von Uruguay. Palaeontologische Zeitschrift, 41:1937.Google Scholar
Furnish, W. M., and Beghtel, F. W. 1961. A new Desmoinesian ammonoid genus from Oklahoma. Oklahoma Geology Notes, 21:289293.Google Scholar
Girty, G. H. 1909. The fauna of the Caney Shale of Oklahoma. United States Geological Survey, Bulletin 377, 106 p.Google Scholar
Girty, G. H. 1915. Fauna of the Wewoka Formation of Oklahoma. United States Geological Survey, Bulletin 544, 353 p.Google Scholar
Heckel, P. H. 1977. Origin of phosphatic black shale fades in Pennsylvanian cyclothems of Mid-Continent North America. American Association of Petroleum Geologists Bulletin, 21:10451068.Google Scholar
Kidder, D. L. 1982. Distribution and origin of Mid-Continent Pennsylvanian phosphorites. Unpubl. M.S. thesis, University of Iowa, 82 p.Google Scholar
King, R. E., et al. 1944. Geology and paleontology of the Permian area northwest of Las Delicias, southwestern Coahuila, Mexico. Geological Society of America Special Paper 52, 172 p.Google Scholar
Knight, W. V. 1972. Coal and coal mining in the Tulsa area, p. 243251. In Bennison, A. P. (ed.), Tulsa's Physical Environment. Tulsa Geological Society Digest, Vol. 37, 489 p.Google Scholar
Macurda, B. D., and Mapes, R. H. 1982. The enigma of Pennsylvanian blastoids. Proceedings of the Third North American Paleontological Convention, 2:343345.Google Scholar
Malinky, J. M. 1980. Depositional environment of the Eudora Shale (Missourian, Upper Pennsylvanian) near Tyro, Kansas. Unpubl. M.S. thesis, Ohio University, 94 p.Google Scholar
Malinky, J. M. and Mapes, R. H. 1982. A test of the lagoonal versus offshore depositional models for Midcontinent Pennsylvanian black and dark gray shales. Proceedings of the Third North American Paleontological Convention, 2:347352.Google Scholar
Malinky, J. M. and Mapes, R. H. 1983. First occurrences of Hyolitha (Mollusca) in the Pennsylvanian of North America. Journal of Paleontology, 57:347353.Google Scholar
Mapes, R. H. 1979. Carboniferous and Permian Bactritoidea (Cephalopoda) in North America. University of Kansas, Paleontological Contribution, article 64, 75 p.Google Scholar
Mapes, R. H. and Furnish, W. M. 1981. The Pennsylvanian ammonoid family Welleritidae. Journal of Paleontology, 55:317330.Google Scholar
Miller, A. K., and Owen, J. B. 1934. Cherokee nautiloids of the northern Midcontinent region. Iowa University Studies in Natural History, n.s., 16:185272.Google Scholar
Miller, A. K., and Owen, J. B. 1939. An ammonoid fauna from the Lower Pennsylvanian Cherokee Formation of Missouri. Journal of Paleontology, 13:141162.Google Scholar
Newell, N. D. 1957. Supposed Permian tillites in northern Mexico are submarine slide deposits. Geological Society of America Bulletin, 68:15691576.Google Scholar
Nigrini, C., and Nitecki, M. H. 1968. Occurrence of Radiolaria in the Mississippian of Arkansas. Fieldiana, 16:255268.Google Scholar
Roemer, F. A. 1852. Beiträge zur geologischen Kenntnis des norwestlichen Harzgebirges. Palaeontographica 3, 67 p.Google Scholar
Saunders, W. B., and Richardson, E. S. 1979. Middle Pennsylvanian (Desmoinesian) cephalopods of the Mazon Creek Fauna, northwestern Illinois, p. 333359. In Nitecki, M. H. (ed.), Mazon Creek Fossils. Academic Press, New York.Google Scholar
Saunders, W. B., and Spinosa, C. 1974. Unusual fossil cephalopod jaws from Nevada. Geological Society of America Abstracts with Programs, 6:248.Google Scholar
Saunders, W. B., et al. 1978. The jaw apparatus of Recent Nautilus and its palaeontological implications. Palaeontology, 21:129141.Google Scholar
Schram, F. R. 1979. The Mazon Creek biotas in the context of a Carboniferous faunal continuum, p. 159190. In Nitecki, M. H. (ed.), Mazon Creek Fossils. Academic Press, New York.Google Scholar
Schwarz, M. E. B. 1975. Cephalopods of the Barnet Formation, central Texas. Unpubl. M.S. thesis, University of Texas at Austin, 74 p.Google Scholar
Spinosa, C. 1968. The Xenodiscidae, Permian otoceratacean ammonoids. Unpubl. Ph.D. dissertation, University of Iowa, 148 p.Google Scholar
Stevens, C. H. 1977. Permian oppositional provinces and tectonics, western United States, p. 113135. In Stewart, J. H., Stevens, C. H., and Fritsche, A. E. (eds.), Paleozoic Paleogeography of the Western United States. Society of Economic Paleontologists and Mineralogists, Pacific Section, Pacific Coast Paleogeography Symposium 1.Google Scholar
Stevens, C. H. 1979. Lower Permian of the central Cordilleran miogeosyncline. Geological Society of America Bulletin, 90:140142.Google Scholar
Tomastic, T. E. 1981. The geology of the southern part of Buck Mountain, White Pine County, Nevada. Unpubl. M.S. thesis, Ohio University, 240 p.Google Scholar
Tucker, J. K., and Mapes, R. H. 1978. Coiled nautiloid cephalopods from the Wolf Mountain Shale (Pennsylvanian), north-central Texas. Journal of Paleontology, 52:596604.Google Scholar
Tucker, J. K., and Mapes, R. H. and Aronoff, S. W. 1978. New coiled nautiloids from the Wewoka Formation (Pennsylvanian) of Oklahoma. Journal of Paleontology, 52:6772.Google Scholar
Williams, L. A. 1981. The sedimentational history of the Bear Gulch Limestone (Middle Carboniferous), Central Montana. Unpubl. Ph.D. dissertation, Princeton University, 251 p.Google Scholar
Yancey, T. E. 1971. Biostratigraphy, paleoecology and paleontology of the Arcturus Group (Permian; eastern Nevada and western Utah). Unpubl. Ph.D. dissertation, University of California at Berkeley, 148 p.Google Scholar
Yochelson, E. L. 1971. The Permian nautiloid mandible Rhynchoteuthis kiababensis reinterpreted as a polyplacophoran. Journal of Paleontology, 45:130133.Google Scholar
Zakharov, Y. D., and Lominadze, T. A. 1983. New data on the jaw apparatus of fossil cephalopods. Lethaia, 16:6778.Google Scholar
Zangerl, R., and Richardson, E. S. 1963. The paleoecological history of two Pennsylvanian black shales. Fieldiana Geological Memoirs, 4, 352 p.Google Scholar
Zangerl, R., et al. 1968. Early diagenetic phenomena in the Fayetteville black shale (Mississippian) of Arkansas. Sedimentary Geology, 3:87119.Google Scholar