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Late Kinderhookian (Early Mississippian) Ammonoids of the Western United States

Published online by Cambridge University Press:  11 August 2017

Mackenzie Gordon Jr.*
Affiliation:
U.S. Geological Survey, Rm. E-501, U.S. National Museum of Natural History, Washington, D.C. 20560

Abstract

Ammonoid faunas of late Kinderhookian (Early Mississippian) age, virtually unknown previously in the American West, are described from several localities in New Mexico, Nevada, Utah, Idaho, and Montana. This study is based upon approximately 130 specimens from 33 collections. These specimens are variously assigned to at least 15 species in the following taxa: Protocanites, Imitoceras, Gattendorfia (Gattendorfia), Kazakhstania, Pericyclus (Goniocyclus), Rotopericyclus (Rotopericyclus), and R. (Hammatocyclus). The genus Muensteroceras, once widely regarded as appearing in the Kinderhookian, is unrepresented in these collections.

The western faunas are characterized by the predominance of the pericyclids and relative scarcity of Imitoceras. Midcontinent faunas of the same age are characterized by the predominance of Imitoceras, scarcity of Pericyclus (Goniocyclus), and presence of Prodromites. Ammonoid faunas of early Osagean age differ in the presence of abundant Muensteroceras and rare Pericyclus (Pericyclus) and in the absence of Prodromites and Pericyclus (Goniocyclus).

Most of the late Kinderhookian ammonoids, both in the West and in the Midcontinent, are assignable to the Siphonodella isosticha–Upper S. crenulata Conodont Zone of Sandberg et al. (1978). A few are referable to the Lower Siphonodella crenulata Zone of the same authors. No ammonoids have been described from equivalent beds in Europe which are included in the Siphonodella crenulata Zone of Voges (1960), despite the fact that Voges regarded this conodont zone as equivalent to the ammonoid Zone CuIIa of Schmidt (1925, p. 493). Based upon conodont correlations, the American Pericyclus (Goniocyclus) fauna is middle Tournaisian (Tn2b, c) in age and, with its Midcontinent equivalents, represents a part of the section between the Gattendorfia and the Pericyclus zones of Europe, from which ammonoids are as yet undescribed.

One new subgenus is described in this paper: Pericyclus (Goniocyclus), its type species Goniatites blairi Miller and Gurley, 1896. New species described include Pericyclus (Goniocyclus) cooperi, P. (G.) costulatus, P. (G.) antelopensis, P. (G.) rockymontanus, P. (G.) filaris, P. (G.)? decipiens, Rotopericyclus (Rotopericyclus) pinyonensis, and R. (Hammatocyclus) brazerensis.

Type
Research Article
Copyright
Copyright © 1986 by The Paleontological Society, Inc. 

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References

Bogoslovskiy, B. I., Librovitch, L. S. and Ruzhentsev, V. E. 1962. Nadotryad Ammonoidei, Sistematicheskaya chast', p. 334409. In Orlov, Yu. A., Osnovy Paleontologii, Molliuski—Golovonogie I.Google Scholar
Canis, W. F. 1968. Conodonts and biostratigraphy of the Lower Mississippian of Missouri. Journal of Paleontology, 42:525555.Google Scholar
Chaplin, J. R. 1982. Field guidebook to the paleoenvironments and biostratigraphy of the Borden and parts of the Newman and Breathitt formations (Mississippian–Pennsylvanian) in northeastern Kentucky. Society of Economic Paleontologists and Mineralogists, 12th Annual Field Conference, 196 p.Google Scholar
Chaplin, J. R. and Mason, C. E. 1979. STOP 2: Nancy and Cowbell members of the Borden Formation, p. 147152. In Ettensohn, F. R. and Dever, G. R. Jr. (eds.), Carboniferous Geology from the Appalachian Basin to the Illinois Basin Through Eastern Ohio and Kentucky. Ninth International Congress of Carboniferous Stratigraphy and Geology, Field Trip No. 4, University of Kentucky Guidebook.Google Scholar
Collinson, C., Rexroad, C. B. and Thompson, T. L. 1971. Conodont zonation of the North American Mississippian. Geological Society of America Memoir, 127:353394.Google Scholar
Conil, R., Mortelmans, G. and Pirlet, H. 1971. Le Dinantien, p. 134. In Bouckaert, J. et al., Apercu géologique des formations du Carbonifère beige. Service Géologique de Belgique, Professional Paper 1971 No. 2 [in cooperation with 7. Internationaler Kongress für Stratigraphie und Geologie des Karbons].Google Scholar
Conkin, J. E. and Conkin, B. M. 1975. The Devonian–Mississippian and Kinderhookian-Osagean boundaries in the east-central United States are paracontinuities. University of Louisville Studies in Paleontology and Stratigraphy, 4:154.Google Scholar
Craig, L. C. et al. 1979. Paleotectonic investigations of the Mississippian system in the United States. U.S. Geological Survey Professional Paper 1010, 559 p.Google Scholar
Crick, G. C. 1899. On some new or little known goniatites from the Carboniferous limestone of Ireland. Annals and Magazine of Natural History, ser. 7, 3:429454.CrossRefGoogle Scholar
Delépine, G. 1940. Les goniatites du Dinantien de la Belgique. Mémoires du Musée royal d'Histoire Naturelle de Belgique, 91:191.Google Scholar
Frech, F. 1899. Lethea Geognostica, I Theil, Lethea Paleozoica, Bd. II, No. 2, Die Steinkohlen-formation.Google Scholar
Frech, F. 1902. Ueber Devonischen Ammoneen. Beiträge zur Paläontologie von Osterreich-Un-garns, p. 2783.Google Scholar
Furnish, W. M. and Manger, W. L. 1973. Type Kinderhook ammonoids. Iowa Academy of Science, Proceedings, 80(I): 1524.Google Scholar
Furnish, W. M., Miller, A. K. and Youngquist, W. 1955. Discovery of the Early Mississippian goniatite Protocanites in northeastern Nevada. Journal of Paleontology, 29:186.Google Scholar
Gordon, Mackenzie Jr. 1964 [1965]. Carboniferous cephalopods of Arkansas. U.S. Geological Survey Professional Paper, 460:1322.Google Scholar
Gordon, Mackenzie Jr. and Mason, C. E. 1985. Progradation of the Borden Formation in Kentucky, U.S.A., demonstrated by successive Early Mississippian (Osagean) ammonoid faunas. Decimo Congreso Internacional de Estratigrafia y Geologia del Carbonifero, Madrid, 1983, Comte rendu, p. 191198.Google Scholar
Grabau, A. W. and Shimer, H. W. 1910. North American Index Fossils, 2:1909.Google Scholar
Groessens, E. 1974. Distribution de conodontes dans le Dinantien de la Belgique—Preliminary range chart of conodont biozonation in the Belgian Dinantian. Geological Survey of Belgium, International Symposium on Belgian Micropaleontological Limits, Publication, 17:1193.Google Scholar
Gründel, J. 1961. Zür Biostratigraphie und Fazies der Gattendorfia-Stufe in Mitteldeutschland unter besonderer Berücksichtigung der Ostracoda. Freiberger Forschungshefte, Heft C, 111: 53173.Google Scholar
Gutschick, R. C., Sandberg, C. A. and Sando, W. J. 1980. Mississippian shelf margin and carbonate platform from Montana to Nevada, p. 111128. In Fouch, T. D. and Magathan, E. R. (eds.), Paleozoic Paleogeography of the West-central United States. Society of Economic Paleontologists and Mineralogists, Rocky Mountain Section, Rocky Mountain Paleogeography Symposium I.Google Scholar
Gutschick, R. C., Sandberg, C. A. and Treckman, J. F. 1957. Lower Mississippian cephalopods form the Rockford Limestone of northern Indiana. Journal of Paleontology, 31:11481153.Google Scholar
Hall, J. 1860. Notes and observations upon the fossils of the goniatite limestone in the Marcellus shale of the Hamilton group, in the eastern and central parts of the State of New York, and those of the goniatite beds of Rockford, Indiana: with some analogous forms from the Hamilton group proper. New York State Cabinet Natural History, Annual Report, 13:95112, 125.Google Scholar
Hall, J. 1876. Illustrations of Devonian fossils; Cephalopoda. New York Geological Survey, Paleontology, plates and explanations.Google Scholar
Hall, J. 1879. Gastropoda, Pteropoda and Cephalopoda of the Upper Helderberg, Hamilton, Portage and Chemung groups. Paleontology of New York, 5(2): 1492.Google Scholar
Haug, E. 1898. Etudes sur les goniatites. Société géologique de France, Mémoires, Paléontologie, 7:1112.Google Scholar
Herrick, C. L. 1888. The geology of Licking County, Ohio, Part IV. The Subcarboniferous and Waverly groups. Bulletin of the Scientific Laboratories of Denison University, 3:13110; 4:11–60, 97–123.Google Scholar
Herrick, C. L. 1895. Observations upon the so-called Waverly Group of Ohio. Geological Survey of Ohio, 7:495515. (Date on title page, 1893.).Google Scholar
Hodson, F. and Ramsbottom, W. H. C. 1973. The distribution of Carboniferous goniatite faunas in relation to suggested continental reconstructions for the period, p. 321329. In Organisms and Continents Through Time. Palaeontological Association (Great Britain) Special Papers in Palaeontology 12, Systematics Association Publication 9.Google Scholar
Hose, R. K. et al. 1982. Devonian and Mississippian rocks of the northern Antelope Range, Eureka County, Nevada. U.S. Geological Survey Professional Paper, 1182:119.Google Scholar
Klapper, G. 1966. Upper Devonian and Lower Mississippi conodont zones in Montana, Wyoming, and South Dakota. The University of Kansas Paleontological Contributions, Paper, 3: 143.Google Scholar
Klapper, G. 1971. Patrognathus and Siphonodella (Conodonts) from the Kinderhookian (Lower Mississippian) of western Kansas and southwestern Nebraska. Kansas Geological Survey Bulletin, 202(3): 114.Google Scholar
de Koninck, L. G. 1842–1844. Description des animaux fossiles qui se trouvent dans le terrain carbonifère de Belgique, Liege, 650 p.Google Scholar
de Koninck, L. G. 1880. Faune du calcaire Carbonifère de la Belgique, II. Genres: Gyroceras, Cyrtoceras, Gomphoceras, Subclymenia, et Goniatites . Musée royal d'Histoire Naturelle de Belgique, Annales, 5:1133.Google Scholar
Kusina, L. F. 1980. Saurskie ammonoidei. Akademiya Nauk SSSR, Trudy Paleontologicheskogo Instituta, 181:1108.Google Scholar
Lane, H. R. 1974. Mississippian of southeastern New Mexico and west Texas—a wedge-on-wedge relation. American Association of Petroleum Geologists Bulletin, 58:269282.Google Scholar
Lane, H. R., Sandberg, C. A. and Ziegler, W. 1980. Taxonomy and phylogeny of some Lower Carboniferous conodonts and preliminary standard post-Siphonodella zonation. Geologica et Palaeontologica, 14:117164.Google Scholar
Laudon, L. L. and Bowsher, A. L. 1949. Mississippian formations of southwestern New Mexico. Geological Society of America Bulletin, 60:188.Google Scholar
Librovitch, L. S. 1940. Ammonoidea iz kamennougol'nykh otlozhenii severnogo Kazakhstana [Carboniferous ammonoids of north Kazakhstan]. Akademiya Nauk SSSR, Paleontologicheskii Institut, Paleontologiya SSSR, 4:1392.Google Scholar
Lineback, J. A. 1963. Age of the Rockford cephalopod fauna (Mississippian) of southern Indiana. Journal of Paleontology, 37:939942.Google Scholar
MacQueen, R. W. and Sandberg, C. A. 1970. Stratigraphy, age and inter-regional correlation of the Exshaw Formation, Alberta Rocky Mountains. Bulletins of Canadian Petroleum Geology, 18:3266.Google Scholar
Manger, W. L. 1971. The Mississippian ammonoids Karagandoceras and Kazakhstania from Ohio. Journal of Paleontology, 45:3339.Google Scholar
Manger, W. L. 1979. Lower Carboniferous ammonoid assemblages from North America. 8me Congrès International de Stratigraphie et Géologie du Carbonifère, compte rendu, 3:211221.Google Scholar
Mason, C. E. and Chaplin, J. R. 1979. Nancy and Cowbell members of the Borden Formation, p. 147151. In Ettensohn, F. R. and Dever, G. R. Jr. (eds.), Carboniferous geology from the Appalachian Basin to the Illinois Basin through eastern Ohio and Kentucky. Ninth International Congress of Carboniferous Stratigraphy and Geology, Field Trip No. 4, Guidebook.Google Scholar
Meek, F. B. and Worthen, A. H. 1860. Descriptions of new Carboniferous fossils from Illinois and other western states. Proceedings of the Academy of Natural Science of Philadelphia, 1860:447472.Google Scholar
Meek, F. B. and Worthen, A. H. 1866. Descriptions of invertebrates from the Carboniferous System. Geological Survey of Illinois, 2:143411.Google Scholar
Miller, A. K. 1936. A Mississippian goniatite from Virginia. Journal of Paleontology, 10:6972.Google Scholar
Miller, A. K. and Collinson, C. 1951. Lower Mississippian ammonoids of Missouri. Journal of Paleontology, 25:454487.Google Scholar
Miller, A. K. and Garner, H. F. 1955. Lower Mississippian cephalopods of Michigan. Part III. Ammonoids and summary. University of Michigan, Contributions from the Museum of Paleontology, 12(8): 113173.Google Scholar
Miller, A. K. and Unklesbay, A. G. 1943. The siphuncle of late Paleozoic ammonoids. Journal of Paleontology, 17:125.Google Scholar
Miller, A. K. and Youngquist, W. 1947. The discovery and significance of a cephalopod fauna in the Mississippian Caballero Formation of New Mexico. Journal of Paleontology, 21:113117.Google Scholar
Miller, S. A. and Gurley, W. F. 1896. New species of Paleozoic invertebrates from Illinois and other states. Illinois State Museum of Natural History Bulletin, 11:150.Google Scholar
Mojsisovics, E. 1882. Die Cephalopoden der Mediterranen Triasprovinz. K. K. geologische Reichanstalt, 10:1322.Google Scholar
Moore, R. C. 1948. Paleontological features of Mississippian rocks in North America and Europe, p. 373402. In Weller, J. M. (ed.), Symposium on Problems of Mississippian Stratigraphy and Correlation. Journal of Geology, 56.Google Scholar
Münster, G. G. zu. 1843. Ueber die Clymenien und Goniatiten im Ueberganskalk des Fichtelgebirges. Beiträge der Petrefacten-Kunde, Heft 1:130.Google Scholar
Nolan, T. B. 1974. Stratigraphic evidence on the age of the Roberts Mountains thrust, Eureka and White Pine counties, Nevada. U.S. Geological Survey Journal of Research, 2:411416.Google Scholar
Paeckelmann, W. 1922. Ueber das Oberdevon und Untercarbon des Südflugels der Herzkammer Mulde auf Blatt Elberfeld. Jahrbuch der Preussischen geologischen Landesanstalt (1921), 42:257306.Google Scholar
Pareyn, C. 1961. Les massifs Carbonifères du Sahara Sud-Oranais. France, Centre de Recherches Sahariennnes, Série Géologie No. 1, 2: 15244.Google Scholar
Paull, R. A. et al. 1972. Stratigraphy of Copper Basin Group, Pioneer Mountains, south-central Idaho. American Association of Petroleum Geologists Bulletin, 56:13701401.Google Scholar
Pfeiffer, H. 1954. Der Bohlen bei Saalfeld/Thur. Deutschen Demokratischen Republik, Geologie, Berlin, Beih. no. 11:188.Google Scholar
Rexroad, C. B. and Scott, A. J. 1964. Conodont zones in the Rockford Limestone and the lower part of the New Providence Shale (Mississippian) in Indiana. Indiana Geological Survey Bulletin, 30:154.Google Scholar
Ruzhentsev, V. E. (in Orlov, Yu. A.). 1962. Akademiya Nauk SSSR, Osnovy paleontologii, Superorder Ammonidea. General Section, 5:243334.Google Scholar
Sandberg, C. A. and Klapper, G. 1967. Stratigraphy, age, and paleotectonic significance of the Cottonwood Canyon Member of the Madison Limestone in Wyoming and Montana. U.S. Geological Survey Bulletin, 1251-B:170.Google Scholar
Sandberg, C. A. et al. 1978. Phylogeny, speciation, and zonation of Siphonodella (Conodonta, Upper Devonian and Lower Carboniferous). Newsletter on Stratigraphy, 7:102120.Google Scholar
Sandberg, C. A. et al. 1982. Middle Devonian to Late Mississippian geologic history of the overthrust belt region, western United States, p. 691719. In Powers, R. B. (ed.), Geologic Studies of the Cordilleran Thrust Belt. Rocky Mountain Association of Geologists, 2.Google Scholar
Sando, W. J. 1976. Mississippian history of the northern Rocky Mountains region. U.S. Geological Survey Journal of Research, 4:317338.Google Scholar
Sando, W. J. 1977. Significance of coiled protocoralla in some Mississippian horn corals. Palaeontology, 20(1):4758.Google Scholar
Sando, W. J. 1980. The paleoecology of Mississippian corals in the western conterminous United States. Acta Palaeontologica Polonica, 25:621631.Google Scholar
Sando, W. J., Bamber, E. W. and Armstrong, A. K. 1977. The zoogeography of North American Mississippian corals. Second International Symposium on Corals and Fossil Coral Reefs, Bureau de Recherches géologiques et minières, Mémoire, 89:175184.Google Scholar
Schindewolf, O. H. 1922. Über eine Unterkarbonfauna aus Ostthüringen. Senckenbergiana, 4:820.Google Scholar
Schindewolf, O. H. 1926. Beiträge zur Kenntnis der Cephalopodenfauna des oberfränkisch-ostthüringischen Unterkarbons. Senckenbergiana, 8:6396.Google Scholar
Schindewolf, O. H. 1951a. Über ein neues Vorkommen unterkarbonischer Pericyclus-Schichten im Oberharz. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 93:23116.Google Scholar
Schindewolf, O. H. 1951b. Zur Gliederung der Pericyclus-Gruppe (Cephalopoden Goniatiten). Neues Jahrbuch für Geologie und Paläontologie, Monatsheften, 1951:305310.Google Scholar
Schindewolf, O. H. 1952. Über das Oberdevon und Unterkarbon von Saalfeld in Ostthüringen. Eine Nachlese zur Stratigraphie und Ammoneen-fauna. Senckenbergiana, 32:281306.Google Scholar
Schindewolf, O. H. 1959. Adolescent cephalopods from the Exshaw Formation of Alberta. Journal of Paleontology, 33:971976.Google Scholar
Schmidt, H. 1924. Zwei Cephalopoden an der Devon-Carbongrenze im Sauerland. Jahrbuch der Preussischen Geologischen Landesanstalt für 1923, 44:98171.Google Scholar
Schmidt, H. 1925. Die Carbonischen Goniatiten Deutschlands. Jahrbuch der Preussischen Geologischen Landesanstalt für 1924, 45:489609.Google Scholar
Schmidt, H. 1929. Tierische Leitfossilien des Karbon, p. 5777. In Gürich, Leitfossilien, Berlin, Lief 6.Google Scholar
Shimanskiy, V. I. and Kusina, L. F. 1977. Ran-nekamennougol'nye golovonogie pripolyarnogo Urala [Early Carboniferous cephalopods of the arctic Urals]. Biulletin' Moskovskogo Obshchestva Ispytatelei, otdel geologicheskii, 52:7990.Google Scholar
Shimer, H. W. and Shrock, R. R. 1944. Index Fossils of North America. New York, John Wiley & Sons, 837 p.Google Scholar
Smith, J. F. Jr. and Ketner, K. B. 1968. Devonian and Mississippian rocks and the date of the Roberts Mountains thrust in the Carlin-Pinyon Range area, Nevada. U.S. Geological Survey Bulletin, 1251-I:117.Google Scholar
Smith, J. P. 1903. The Carbonifierous ammonoids of America. U.S. Geological Survey Monographs, 42:5206.Google Scholar
Straka, J. J. 1968. Conodont zonation of the Kinderhookian Series, Washington County, Iowa. Iowa University Studies in Natural History, 21:71.Google Scholar
Thompson, T. L. and Fellows, L. D. 1970. Stratigraphy and conodont biostratigraphy of Kinderhookian and Osagean (Lower Mississippian) rocks of southwestern Missouri and adjacent areas. Missouri Geological Survey and Water Resources Report of Investigation, 39:188.Google Scholar
Turner, J. S. 1948. Mid-Dinantian reef limestone of Dublin and Cork. Leeds Geological Association Transactions, 6:4456.Google Scholar
Voges, A. 1959. Conodonten aus dem Unterkarbon I und II (Gattendorfia- und Pericyclus-Stufe) des Sauerlandes. Paläontologische Zeitschrift, 33:266314.Google Scholar
Voges, A. 1960. Die Bedeutung der Conodonten für die Stratigraphie des Unterkarbons I und II (Gattendorfia- und Pericyclus-Stufe) im Sauerland. Fortschritte in der Geologie von Rheinland und Westfalen (Landesamt Nordrhein-Westfalen), 3:132.Google Scholar
Vöhringer, E. 1960. Die Goniatiten der unterkarbonischen Gattendorfia-Stufe im Hönnetal (Sauerland). Fortschritte in der Geologie von Rheinland und Westfalen, 3:107195.Google Scholar
Weyer, D. 1965. Zur Ammonoideen-Fauna der Gattendorfia-Stufe von Dzikowiec (Ebersdorf) in Dolny Slask (Niederschlesien), Polen. Deutschen Demokratischen Republik, Berichte der Geologischen Gesellschaft, 10:443464.Google Scholar
Weyer, D. 1977. Ammonoideen aus dem Untertournai von Schleiz (Ostthüringisches Schieferge-birge). Zeitschrift für geologische Wissenschaften, Beiträge zur Paläontologie, Jahrgang 5(2):167185.Google Scholar