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Diachronous appearances of the Pennsylvanian fusulinid Profusulinella in Eurasia and North America

Published online by Cambridge University Press:  14 July 2015

John R. Groves
Affiliation:
Department of Earth Science, University of Northern Iowa, Cedar Falls 50614-0335,
Elena I. Kulagina
Affiliation:
Institute of Geology, Ufimian Research Centre, Russian Academy of Science, K. Marx St., 16/2, 450000 Ufa,
Elisa Villa
Affiliation:
Departamento de Geologia, Universidad de Oviedo, Jesus Arias de Velasco s/n, 33005 Oviedo, Spain,

Abstract

The Pennsylvanian fusulinid genus Profusulinella appeared in sub-Arctic North America in Medial Atokan (=Early Moscovian) time, roughly 4–5 My later than its oldest known occurrence in the Eurasian-Arctic province. the genus originated in the latter area in late Early Bashkirian time and then underwent significant diversification, so that by Early Moscovian time a range of shell morphologies existed. the first sub-Arctic North American species in the genus are interpreted as immigrants from Eurasia, with their migration through the Franklinian corridor having been facilitated by generally east-to-west currents during a glacio-eustatic flooding event. Previous work suggested that North American Profusulinella spp. may have derived from a local ancestor such as Eoschubertella. This possibility seems unlikely given that early North American species in Profusulinella are very similar to age-equivalent Eurasian forms, that they differ from North American Eoschubertella in a number of morphologic features, and that there are no known North American intermediates between Eoschubertella and Profusulinella. Fusulinoidean faunas apparently migrated from Eurasia to North America on multiple occasions during Pennsylvanian time. These migrations were an important source of North American diversity, and their recurrence is a dominant theme in fusulinoidean biogeography.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Aisenverg, D. E., Brazhnikova, N. E., Vassilyuk, N. P., Vdovenko, M. V., Gorak, S. V., Dunaeva, N. N., Zernetskaya, N. V., Poletaev, V. I., Potievskaya, P. D., Rotai, A. P., and Sergeeva, M. T. 1979. The Carboniferous sequence of the Donetz Basin: A standard section for the Carboniferous System, p. 197224. In Wagner, R. H., Higgins, A. C., and Meyen, S. V. (eds.), The Carboniferous of the USSR. Yorkshire Geological Society Occasional Publication, No. 4.Google Scholar
Alekseev, A. S., Kononova, L. I., and Nikishin, A. M. 1996. The Devonian and Carboniferous of the Moscow Syneclise (Russian Platform): Stratigraphy and sea-level changes. Tectonophysics, 268:149168.Google Scholar
Brazhnikova, N. E., Vakartchuk, G. I., Vdovenko, M. V., and Viniitchenko, L. V. 1967. Marker Microfaunal Horizons of the Carboniferous and the Permian of the Dniepr-Donets Basin. Akademiya Nauk Ukrainskoi SSR, Trudy Geologicheskikh Nauk, 224 p. (In Russian) Google Scholar
Clopine, W. M. 1992. Lower and Middle Pennsylvanian fusulinid biostratigraphy of southern New Mexico and westernmost Texas. New Mexico Bureau of Mines and Mineral Resources Bulletin, 143, 67 p.Google Scholar
Crowell, J. C. 1978. Gondwanan glaciation, cyclothems, continental positioning, and climate change. American Journal of Science, 278:13451372.Google Scholar
Davydov, V. I., Nilsson, I., and Stemmerik, L. 2001. Fusulinid zonation of the Upper Carboniferous Kap Jungersen and Foldedal formations, southern Amdrup Land, eastern North Greenland. Bulletin of the Geological Society of Denmark, 48:3177.Google Scholar
Deprat, J. 1912. Étude géologique du Yun-Nan Oriental, Pt. 3, Étude des fusulinidés de Chine et d'Indochine et classification des calcaires á fusulines. Mémoires du Service Géologique de l'Indo-Chine, 1:176.Google Scholar
Douglass, R. C. 1987. Fusulinid biostratigraphy and correlations between the Appalachian and Eastern Interior basins. U.S. Geological Survey Professional Paper, 1451:195.Google Scholar
Dutkevich, G. A. 1934. On the stratigraphy of the Middle Carboniferous of the Urals. Neftiyanoi Geologo-Razvedochnii Institut, Trudy, Leningrad, seriya A, fasc. 55:141. (In Russian) Google Scholar
Dzhenchuraeva, A. V. 1979. Stratigraphy and Foraminifers from the Middle Carboniferous Deposits of the Northern Part of Turkestan-Alaya. Akademiya Nauk Kirgizskoi SSR, Ordena Trudovogo Krasnogo Znameni, Institut Geologii im. M. M. Adysheva, Ministerstvo Geologii SSSR, Upravlenie Geologii Kirgizskoi SSR, Izdatelstvo “Ilim” Frunze, 184 p. (In Russian) Google Scholar
García-Bellido, D. C., and Rodriguez, S. 2005. Palaeobiogeographical relationships of poriferan and coral assemblages during the Late Carboniferous and the closure of the western Palaeotethys Sea-Panthalassan Ocean connection. Palaeogeography, Palaeoclimatology, Palaeoecology, 219:321331.Google Scholar
Girty, G. H. 1904. Triticites, a new genus of Carboniferous foraminifera. American Journal of Science, series 4, 17:234240.Google Scholar
Golonka, J., and Ford, D. 2000. Pangean (Late Carboniferous–Middle Jurassic) paleoenvironments and lithofacies. Palaeogeography, Palaeoclimatology, Palaeoecology, 161:134.Google Scholar
Goreva, N. V., and Alekseev, A. S. 2001. Conodonts, p. 3354. In Alekseev, A. S. and Shik, S. M. (eds.), Middle Carboniferous of the Moscow Syneclise (southern part), 2. Paleontological Characteristics. Ministerstvo Prirodn'kh Resursov RF, Departament Prirodn'kh Resursov po Tsentral'nomu Regionu, Rossiyskaya Akademiya Nauk, Geologicheskiy Institut—Paleontologicheskii Institut, Moskva. (In Russian) Google Scholar
Groves, J. R. 1984. On the origin and distribution of the primitive fusulinid Pseudostaffella: Implications for North American biostratigraphy. Geological Society of America, South-Central Section Meeting, Abstracts With Programs, 16:86.Google Scholar
Groves, J. R. 1986. Foraminiferal characterization of the Morrowan–Atokan (lower Middle Pennsylvanian) boundary. Geological Society of America Bulletin, 97:346353.Google Scholar
Groves, J. R. 1988. Calcareous foraminifers from the Bashkirian stratotype (Middle Carboniferous, south Urals) and their significance for intercontinental correlations and the evolution of the Fusulinidae. Journal of Paleontology, 62:368399.Google Scholar
Groves, J. R. 1991. Fusulinacean biostratigraphy of the Marble Falls Limestone (Pennsylvanian), western Llano region, central Texas. Journal of Foraminiferal Research, 21:6795.Google Scholar
Groves, J. R. 2005. Fusulinid wall structure in the Profusulinella–Fusulinella evolutionary transition, p. 199218. In Barrick, J. E. and Lane, H. R. (eds.), A Standing Ovation: Papers in Honor of Gilbert Klapper. Bulletins of American Paleontology, 369.Google Scholar
Groves, J. R., and Sanderson, G. A. 1990. Systematics of the North American species of Profusulinella (Middle Pennsylvanian Fusulinidae). Micropaleontology, 36:105140.Google Scholar
Groves, J. R., Nemyrovska, T. I., and Alekseev, A. S. 1999. Correlation of the type Bashkirian Stage (Middle Carboniferous, South Urals) with the Morrowan and Atokan series of the midcontinental and western United States. Journal of Paleontology, 73:529539.Google Scholar
Groves, J. R., Nassichuk, W. W., Lin, Rui, and Pinard, S. 1994. Middle Carboniferous fusulinacean biostratigraphy, northern Ellesmere Island (Sverdrup Basin, Canadian Arctic Archipelago). Geological Survey of Canada Bulletin, 469, 55 p.Google Scholar
Grozdilova, L. P., and Lebedeva, N. S. 1950. Some staffellid species from the Middle Carboniferous of the western slope of the Urals. Trudy Vsesoyuzhnogo Neftiyanogo Nauchno-Issledovatel'skogo Geologo-Razvedochnogo Instituta (VNIGRI), Novaya Seriya, Vypusk 50, Sbornik 3:446. (In Russian) Google Scholar
Grozdilova, L. P., and Lebedeva, N. S. 1954. Foraminifers of the Lower Carboniferous and Bashkirian Stage of the Middle Carboniferous of the Kolvo-Vishera region. Trudy Vsesoyuzhogo Neftyanogo Nauchno-Issledovatel'skogo Geologo-Razvedochnogo Instituta (VNIGRI), Mikrofauna SSSR, Sbornik 7, Novaya Seriya 81:4235. (In Russian) Google Scholar
Grubbs, R. K. 1984. Conodont platform elements from the Wapanucka and Atoka formations (Morrowan–Atokan) of the Mill Creek Syncline, central Arbuckle Mountains, Oklahoma, p. 6579. In Sutherland, P. K. and Manger, W. L. (eds.), The Atokan Series (Pennsylvanian) and its boundaries—A symposium. Oklahoma Geological Survey Bulletin, 136.Google Scholar
Heckel, P. H. 2002. Observations and constraints on radiometric dating of the Pennsylvanian succession in North America and its correlation with dates from Europe. IUGS Subcommission on Carboniferous Stratigraphy, Newsletter on Carboniferous Stratigraphy, 20:1016.Google Scholar
Hedberg, H. D. (ed.). 1976. International Stratigraphic Guide (a guide to stratigraphic classification, terminology and procedure). Wiley Interscience, New York, 200 p.Google Scholar
Igo, H. 1972. Fusulinacean fossils from Thailand, part VI: Fusulinacean fossils from North Thailand, p. 63116. In Kobayashi, T. and Toriyama, R. (eds.), Geology and Palaeontology of Southeast Asia, 10.Google Scholar
Ivanova, R. M. 1999. The Sokol section as a hypostratotype for the Bashkirian Stage of the Middle Carboniferous of the Urals, p. 2137. In Chuvashov, B. I. (ed.), Materials on the Stratigraphy and Paleontology of the Urals. Rossiskaya Akademiya Nauk, Urals Branch of the Russian Academy of Sciences Publishing House, Ekaterinburg, 2. (In Russian) Google Scholar
Ivanova, R. M. 2000. New taxa of foraminifera from the Bashkirian of the Urals. Paleontological Journal, 34:147154.Google Scholar
Kulagina, E. I., and Sinitsyna, Z. A. 2003. Evolution of the Pseudostaffellidae in the Bashkirian Stage (Middle Carboniferous). Rivista Italiana di Paleontologia e Stratigrafia, 109:213224.Google Scholar
Kulagina, E. I., Pazukhin, V. N., Kochetkova, N. M., Sinitsyna, Z. A., and Kochetova, N. N. 2001. The stratotype and key sections of the Bashkirian Stage (Carboniferous) in the Southern Urals. Rossiiskaya Akademiya Nauk, Ufimskii Nauchnyy Tsentr, Institut Geologii, Upravlenie po Nedram Respubliki Bashkortostan, Akademiya Nauk Respubliki Bashkortostan, Otdelenie Nauk o Zemle, Izdatelstvo “Gilem,” Ufa, 138 p. (In Russian) Google Scholar
Lane, H. R., Sanderson, G. A., and Verville, G. J. 1972. Uppermost Mississippian-basal Pennsylvanian conodonts and fusulinids from several exposures in the south-central and southwestern United States. Proceedings of the 24th International Geological Congress, Montréal, 7:549555.Google Scholar
Lee, J. S., Chen, S., and Chu, S. 1930. The Huanglung Limestone and its fauna. Academica Sinica, Memoirs of the National Research Institute of Geology, 9:85143.Google Scholar
Loeblich, A. R. Jr., and Tappan, H. 1964. Sarcodina, chiefly “Theocamoebians” and Foraminiferida, p. C1C900. In Moore, R. C. (ed.), Treatise on Invertebrate Paleontology. Pt. C. Protista (2). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Mamet, B. L., and Skipp, B. 1970. Preliminary foraminiferal correlations of Early Carboniferous strata in the North American cordillera. Congrès et Colloques, Colloque sur la Stratigraphie du Carbonifère, Université de Liège, 55:327348.Google Scholar
Manger, W. L., and Sutherland, P. K. 1984. Preliminary conodont biostratigraphy of the Morrowan–Atokan boundary (Pennsylvanian), eastern Llano Uplift, central Texas, p. 115122. In Sutherland, P. K. and Manger, W. L. (eds.), The Atokan Series (Pennsylvanian) and its Boundaries—A Symposium. Oklahoma Geological Survey Bulletin, 136.Google Scholar
Manukalova-Grebeniuk, M. F., Il'ina, M. T., and Serezhnikova, T. D. 1969. An atlas of foraminifers from the Middle Carboniferous of the Dniepr-Donets Basin. Ministerstvo Geologii SSSR, Ukrainskii Nauchno-Issledovatel'skii Geologo-Razvedochnii Institut (UkrNIGRI), Trudy, vypusk 20, 287 p. (In Russian) Google Scholar
Marshall, F. C. 1969. Lower and Middle Pennsylvanian fusulinids from the Bird Spring Formation near Mountain Springs Pass, Clark County, Nevada. Brigham Young University Geology Studies, 16:97154.Google Scholar
Maslo, A., and Vachard, D. 1997. Reappraisal of the Carboniferous eostaffellinids. Revue de Micropaléontologie, 40:3969.Google Scholar
McCaleb, J. A. 1968. Lower Pennsylvanian ammonoids from the Bloyd Formation of Arkansas and Oklahoma. Geological Society of America Special Paper, 96, 123 p.Google Scholar
Myers, D. A. 1988. Stratigraphic distribution of some Pennsylvanian fusulinids from the Sandia Formation and the Los Moyos Limestone, Manzano Mountains, New Mexico. U.S. Geological Survey Professional Paper, 1446-A, 21 p.Google Scholar
Nassichuk, W. W. 1975. Carboniferous ammonoids and stratigraphy in the Canadian Arctic Archipelago. Geological Survey of Canada Bulletin, 237, 240 p.Google Scholar
Nemirovskaya, T. I., and Alekseev, A. S. 1995. The Bashkirian conodonts of the Askyn section, Bashkirian Mountains, Russia. Bulletin de la Société Beige de la Géologie, 103:109133.Google Scholar
Nemyrovska, T. I. 1999. Bashkirian conodonts of the Donets Basin, Ukraine. Scripta Geologica, 119:1115.Google Scholar
Popova, E. G., and Reitlinger, E. A. 1973. Foraminifers, p. 4876. In Einor, O. L. (ed.), The Stratigraphy and Fauna of the Carboniferous of the Shartym River (southern Urals). Ural'skoye Geologicheskoye Upravlenie, Kievskii Ordena Lenina, Gosudarstvennii Universitet, “Vishcha Shkola,” Lvov. (In Russian) Google Scholar
Potievskaya, P. D. 1964. Some fusulinids and small foraminifers of the Bashkir sediments of the greater Donets Basin. Akademiya Nauk Ukrainskoi RSR, Trudy Instituta Geologicheskikh Nauk, Seriya Stratigrafii i Paleontologii, 48:3159. (In Russian) Google Scholar
Putrya, F. S. 1948. Protriticites, a new fusulinid genus. Trudy L'vovskogo Geologicheskogo Obshchestva pri Gosudarstvennom Universitete im. Ivana Franko, Paleontologicheskaya Seriya, 1:97101. (In Russian) Google Scholar
Putrya, F. S. 1956. Stratigraphy and foraminifera of the Middle Carboniferous deposits of the greater Donbass. Vsesoyuznii Neftianoi Nauchno-Issledovatel'skii Geologorazvedochnii Institut (VNIGRI), Trudy, Mikrofauna SSSR, sbornik 8, vypusk 98:333485. (In Russian) Google Scholar
Ramsbottom, W. H. C., and Saunders, W. B. 1984. Carboniferous ammonoid zonation, p. 5264. In Sutherland, P. K. and Manger, W. L. (eds.), Neuvième Congrés International de Stratigraphie et de Géologie du Carbonifère, compte rendu, 2, Biostratigraphy. Southern Illinois University Press, Carbondale.Google Scholar
Rauser-Chernousova, D. M. 1938. The Upper Paleozoic foraminifera of the Samara Bend and Trans-Volga region. Akademiya Nauk SSSR, Geologicheskii Institut, Trudy, 7:69167. (In Russian) Google Scholar
Rauser-Chernousova, D. M. 1948. Material and foraminiferal fauna from the Carboniferous deposits of central Kazakhstan. Akademiya Nauk SSSR, Trudy Instituta Geologicheskikh Nauk, vypusk 66, Geologicheskaya Seriya, 21:127. (In Russian) Google Scholar
Rauser-Chernousova, D. M. 1949. On the ontogenesis of some Paleozoic foraminifers. Akademiya Nauk SSSR, Trudy Paleontologicheskogo Instituta, 20:339353. (In Russian) Google Scholar
Rauser-Chernousova, D. M., Belyaev, G., and Reitlinger, E. A. 1936. Upper Paleozoic foraminifera of the Petschoria-lands. Akademiya Nauk SSSR, Trudy Poliyarnoi Komissii, 28:159232. (In Russian with German summary) Google Scholar
Rauser-Chernousova, D. M., Gryslova, N. D., Kireeva, G. D., Leontovich, G. E., Safonova, T. P., and Chernova, E. I. 1951. Middle Carboniferous fusulinids of the Russian Platform and adjacent regions. Akademiya Nauk SSSR, Institut Geologicheskikh Nauk, Ministerstvo Neftiyanoi Promyshlennosti SSSR, Trudy, 380 p. (In Russian) Google Scholar
Rauser-Chernousova, D. M., Bensh, F. R., Vdovenko, M. V., Gibshman, N. B., Leven, E. Ya., Lipina, O. A., Reitlinger, E. A., Solov'eva, M. N., and Chediya, I. O. 1996. Reference book on the systematics of Paleozoic foraminifera (Endothyroida, Fusulinoida). Rossiiskaya Akademiya Nauk, Geologicheskii Institut, Moskva “Nauka,” 204 p. (In Russian) Google Scholar
Reitlinger, E. A. 1961. Stratigraphy of Middle Carboniferous deposits of the Borehole No. 1 Krasnaya Polyana section of the Middle Trans-Volga. Akademiya Nauk SSSR, Geologicheskii Institut, Regionalnaya Stratigrafiya SSSR, 5:218260. (In Russian) Google Scholar
Reitlinger, E. A. 1971. Some problems of systematics in the light of evolutionary stages of Upper Paleozoic foraminifers. Voprosy Mikropaleontologii, 14:316. (In Russian with English summary) Google Scholar
Ross, C. A. 1967. Development of fusulinid (Foraminiferida) faunal realms. Journal of Paleontology, 41:13411354.Google Scholar
Ross, C. A. 1973. Carboniferous foraminifera, p. 127133. In Hallam, A. (ed.), Atlas of Palaeobiogeography. Elsevier, New York.Google Scholar
Ross, C. A. 1979. Carboniferous, p. A254A290. In Robison, R. A. and Teichert, C. (eds.), Treatise on Invertebrate Paleontology. Pt. A. Introduction. Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Ross, C. A. 1999. Classification of the upper Paleozoic superorders Endothyroida and Fusulinoida as part of the class Foraminifera. Journal of Foraminiferal Research, 29:291305.Google Scholar
Ross, C. A., and Dunbar, C. O. 1962. Faunas and correlation of the Late Paleozoic rocks of northeast Greenland. Fusulinidae, Pt. 2. Meddelelser om Grønland, 167:155.Google Scholar
Ross, C. A., and Ross, J. R. P. 1981. Biogeographical influences on Late Paleozoic faunal distributions, p. 199212. In Larwood, G. P. and Nielsen, C. (eds.), Recent and Fossil Bryozoa. Olsen and Olsen Printers, Fredensborg.Google Scholar
Ross, C. A., and Ross, J. R. P. 1985. Carboniferous and Early Permian biogeography. Geology, 13:2730.Google Scholar
Ross, C. A., and Ross, J. R. P. 1987. Late Paleozoic sea levels and depositional sequences, p. 137149. In Ross, C. A. and Haman, D. (eds.), Timing and Depositional History of Eustatic Sequences: Constraints on Seismic Stratigraphy. Cushman Foundation for Foraminiferal Research, Special Publication 24.Google Scholar
Ross, C. A., and Ross, J. R. P. 1988. Late Paleozoic transgressive-regressive deposition, p. 227247. In Wilgus, C. K., Hastings, B. S., Kendall, C. G. St. C., Posamentier, H. W., Ross, C. A., and Van Wagoner, J. C. (eds.), Sea-level Changes: An Integrated Approach. Society of Economic Paleontologists and Mineralogists, Special Publication 42.Google Scholar
Ross, C. A., and Ross, J. R. P. 1990. Late Palaeozoic bryozoan biogeography, p. 353362. In McKerrow, W. S. and Scotese, C. R. (eds.), Palaeozoic Palaeogeography and Biogeography. The Geological Society of London Memoir, 12.Google Scholar
Ross, C. A., and Sabins, F. F. Jr. 1965. Early and Middle Pennsylvanian fusulinids from southeast Arizona. Journal of Paleontology, 39:173209.Google Scholar
Rozovskaya, S. E. 1975. Composition, phylogeny and systematics of the order Fusulinida. Akademiya Nauk SSSR, Trudy Paleontologicheskogo Instituta, 149, 267 p. (In Russian) Google Scholar
Rui, Lin. 1983. Fusulinacean fauna from the Quanwangtou Limestone (early Upper Carboniferous) in Jiawang Coal-Field, northern Jiangsu. Acta Palaeontologica Sinica, 22:170181. (In Chinese with English summary) Google Scholar
Rui, Lin, Ross, C. A., and Nassichuk, W. W. 1991. Upper Moscovian (Desmoinesian) fusulinaceans from the type section of the Nansen Formation, Ellesmere Island, Arctic Archipelago. Geological Survey of Canada Bulletin, 418, 121 p.Google Scholar
Rumyantseva, Z. S. 1974. Stratigraphy and foraminifers of the Middle Carboniferous of Kyzylkum. Ministerstvo Geologii Uzbekskoi SSR, 138 p. (In Russian) Google Scholar
Sada, K. 1961. Profusulinella of Atetsu Limestone. Journal of Science of Hiroshima University, ser. C, 4:95116.Google Scholar
Saurin, E. 1970. Foraminifères du Carbonifère moyen du Laos et du Nord Viet-Nam (1: Fusulinida). Archives Géologique de Viet-Nam, 13:101197.Google Scholar
Scotese, C. R. 2000. Paleomap Project. The Late Carboniferous. http://www.scotese.com/late.Google Scholar
Scotese, C. R., and McKerrow, W. S. 1990. Revised world maps and introduction, p. 121. In McKerrow, W. S. and Scotese, C. R. (eds.), Palaeozoic Palaeogeography and Biogeography. The Geological Society of London Memoir, 12.Google Scholar
Semikhatova, S. V., Einor, O. L., Kireeva, G. D., and Vassilyuk, N. P. 1979. The Bashkirian Stage as a global stratigraphic unit, p. 99116. In Wagner, R. H., Higgins, A. C., and Meyen, S. V. (eds.), The Carboniferous of the USSR. Yorkshire Geological Society Occasional Publication, No. 4.Google Scholar
Sinitsyna, Z. A., and Sinitsyn, I. I. 1987. Biostratigraphy of the Bashkirian Stage at its stratotype. Akademiya Nauk SSSR, Bashkirskii Filial, Institut Geologii, Ufa, 71 p. (In Russian) Google Scholar
Skinner, J. W., and Wilde, G. L. 1954. Fusulinid wall structure. Journal of Paleontology, 28:445451.Google Scholar
Smith, J. P. 1896. Marine fossils from the coal measures of Arkansas. Proceedings of the American Philosophical Society, 35(152):213285.Google Scholar
Solov'eva, M. N. 1974. Paleobiogeographical area of marine divisions of the Middle Carboniferous (on fusulinaceans). Izvestiya Akademii Nauk SSSR, Geologicheskikaya Seriya, 11:123127. (In Russian) Google Scholar
Solov'eva, M. N. 1977. Zonal stratigraphy of the Middle Carboniferous based on the fauna of the Fusulinacea. Voprosy Mikropaleontologii, 19:4367. (In Russian) Google Scholar
Solov'eva, M. N. 1986. Fusulinid zonal scale of the Moscovian Stage based on restudy of stratotypes of intrastadial subdivisions. Voprosy Mikropaleontologii, 28:323. (In Russian) Google Scholar
Sutherland, P. K., and Manger, W. L. 1983. The Morrowan–Atokan (Pennsylvanian) boundary problem. Geological Society of America Bulletin, 94:543548.Google Scholar
Teodorovich, G. I., Grozdilova, L. P., and Lebedeva, N. S. 1956. Subdivision of the Bashkirian Stage of Mountainous Bashkiria on the fauna of foraminifera. Doklady Akademii Nauk SSSR, 111:434437. (In Russian) Google Scholar
Teodorovich, G. I., Grozdilova, L. P., and Lebedeva, N. S. 1959. Some data on the subdivision of the Bashkirian Stage of Mountainous Bashkiria according to the fauna of foraminifera. Byulletin Moskovskogo Obshchestva Ispytatelei Prirody, Otdel Geologicheskii, 34:103115. (In Russian) Google Scholar
Thompson, M. L. 1935. Fusulinids from the Lower Pennsylvanian Atoka and Boggy formations of Oklahoma. Journal of Paleontology, 9:291306.Google Scholar
Thompson, M. L. 1937. Fusulinids of the subfamily Schubertellinae. Journal of Paleontology, 11:118125.Google Scholar
Thompson, M. L. 1942. New genera of Pennsylvanian fusulinids. American Journal of Science, 240:403420.Google Scholar
Thompson, M. L. 1945. Pennsylvanian rocks and fusulinids of east Utah and northwest Colorado correlated with Kansas section. State Geological Survey of Kansas Bulletin, 60:1784.Google Scholar
Thompson, M. L. 1947. Stratigraphy and fusulinids of pre-Desmoinesian Pennsylvanian rocks, Llano Uplift, Texas. Journal of Paleontology, 21:147164.Google Scholar
Thompson, M. L. 1948. Studies of American fusulinids. University of Kansas Paleontological Contributions, Protozoa, Article 1, 184 p.Google Scholar
Thompson, M. L. 1960. Stratigraphic distribution of American Pennsylvanian fusulinid foraminifera. Science Reports of the Tohoku University, Sendai, Japan, second series (Geology), special volume, 4:109116.Google Scholar
Thompson, M. L. 1966. The distribution of Profusulinella in North America. Voprosy Mikropaleontologii, 10:126134. (In Russian) Google Scholar
Thompson, M. L., Shaver, R. H., and Riggs, E. A. 1959. Early Pennsylvanian fusulinids and ostracods of the Illinois. Basin. Journal of Paleontology, 33:770792.Google Scholar
Toriyama, R. 1967. The fusulinacean zones of Japan. Memoirs of the Faculty of Science, Kyushu University, series D, Geology, 18:35260.Google Scholar
Vai, G. B. 2003. Development of the palaeogeography of Pangaea from Late Carboniferous to Early Permian. Palaeogeography, Palaeoclimatology, Palaeoecology, 196:125155.Google Scholar
van Ginkel, A. C. 1965. Carboniferous fusulinids from the Cantabrian Mountains (Spain). Leidse Geologische Mededelingen, 34:1225.Google Scholar
van Ginkel, A. C. 1986. Carboniferous fusulinids of the Oued el Hamar Formation (Colomb-Béchar, Algeria). Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen, series B, 89:201241.Google Scholar
van Ginkel, A. C. 1987. Systematics and biostratigraphy of fusulinids of the Lena Formation (Carboniferous) near Puebla de Lillo (Léon, NW Spain). Proceedings of the Koninklijke Nederlandse Akademie van Wetenschappen, series B, 90:189276.Google Scholar
Verville, G. J., and Sanderson, G. A. 1988. Early Atokan fusulinids from the lower Antler overlap sequence, Lander and Humboldt counties, Nevada. Journal of Paleontology, 62:520529.Google Scholar
Villa, E. 1995. Fusulinaceos Carboniferos del Este de Asturias (N de España). Université Claude Bernard-Lyon I, Biostratigraphie du Paléozoique, 13:1261.Google Scholar
Villa, E., and Wahlman, G. P. In press. Late Pennsylvanian fusulinoidean paleobiogeography. Proceedings of the XV International Congress on Carboniferous and Permian. Netherlands Journal of Geoscience.Google Scholar
Villa, E., Dzhenchuraeva, A., Forke, H. C., and Ueno, K. 2002. Distinctive features of Late Carboniferous fusulinoidean faunas from the western Palaeo-Tethyan realm, p. 609615. In Hills, L. V., Henderson, C. M., and Bamber, E. W. (eds.), Carboniferous and Permian of the World. XIV International Congress on the Carboniferous and Permian, Canadian Society of Petroleum Geologists Memoir, 19.Google Scholar
Villa, E., Sánchez de Posada, L. C., Fernández, L. P., Martínez-Chacón, M. L., and Stavros, C. 2001. Foraminifera and biostratigraphy of the Valdeteja Formation stratotype (Carboniferous, Cantabrian Zone, NW Spain). Facies, 45:5986.Google Scholar
von Möller, V. 1877. Ueber Fusulinen und ähnliche Foraminiferen-Formen des russischen Kohlenkalks. Neues Jahrbuch für Mineralogie, Geologie, und Päleontologie, 1877:139146.Google Scholar
Yuferev, O. V. 1973. Carboniferous deposits of the Siberian biogeographical realm. Akademiya Nauk SSSR, Sibirskoye Otdelenie, Institut Geologii i Geofiziki, 162, 278 p. (In Russian) Google Scholar
Zhang, Linxin (ed.). 1987. Carboniferous Stratigraphy in China. Contributions to the 11th International Congress of Carboniferous Stratigraphy and Geology. Science Press, Beijing, 160 p.Google Scholar
Ziegler, A. M., Bambach, R. K., Parrish, J. T., Barrett, S. F., Gierlowski, E. H., Parker, W. C., Raymond, A., and Sepkoski, J. J. 1981. Paleozoic biogeography and climatology, p. 231266. In Niklas, K. J. (ed.), Paleobotany, Paleoecology and Evolution. Praeger, New York.Google Scholar