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Early Permian colonial rugose corals from the Stikine River area, British Columbia, Canada

Published online by Cambridge University Press:  19 May 2016

Calvin H. Stevens
Affiliation:
San Jose State University, San Jose, California 95192
Barbara Rycerski
Affiliation:
San Jose State University, San Jose, California 95192

Abstract

Twenty-two species of Early Permian colonial rugose corals belonging to 12 genera from 10 locations in the Stikine River area in northwestern British Columbia, Canada, are described. These include three new species of Fomichevella (F. magna, F. southeri, F. bamberi); two species of Heintzella; five species of Heritschioides, of which three are new (H. bagleyae, H. garvinae, H. hoganae); two new species of Paraheritschioides (P. jennyi, P. wickenae); one new species questionably assigned to Kleopatrina (K.? stikinensis); two new species of Petalaxis (P. guaspariniae, P. neriae); and two new species of Lytvophyllum (L.? mongeri, L. wersoni). In addition, five new species assigned to five new genera are here named Eastonastraea complexa, Fedorowskiella simplex, Pararachnastraea lewisi, Stikineastraea thomasi, and Wilsonastraea rigbyi.

These corals occur in rocks forming part of the Stikine terrane, the largest tectonostratigraphic unit in western Canada. This coral fauna shows a very close affinity with that of the Lower Permian McCloud Limestone of the eastern Klamath Mountains of northern California, and there is some similarity to the Coyote Butte fauna of central Oregon. Several species compare most closely with species from Spitsbergen, but there are few similarities with any cratonal North American faunas and none with Tethyan faunas.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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References

Dybowski, W. N. 1873. Monographic der Zoantharia Sclerodermata Rugosa aus der Silurformation Estlands, Nord-Livlands und der Insel Gotland. Archiv fuer die Naturkunde Liv-, Est-, und Kurlands, ser. 1, 5:257414.Google Scholar
Easton, W. H. 1960. Permian corals from Nevada and California. Journal of Paleontology, 34:570583.Google Scholar
Fedorowski, J. 1964. On late Paleozoic Rugosa from Hornsund, Vestspitsbergen (preliminary communication). Studia Geologica Polonica, 11:139146.Google Scholar
Fedorowski, J. 1965. Lower Permian Tetracoralla of Hornsund, Vestspitsbergen. Studia Geologica Polonica, 17:1173.Google Scholar
Fedorowski, J. 1967. The Lower Permian Tetracoralla and Tabulata from Treskelodden, Vestspitsbergen. Norsk Polarinstitutt Skrifter, Oslo, 142:144.Google Scholar
Fedorowski, J. 1975. On some Upper Carboniferous Coelenterata from Bjornoya and Spitsbergen. Acta Geologica Polonica, 25:2776.Google Scholar
Fedorowski, J. 1980. Geological results of the Polish Spitsbergen expeditions. Studia Geologica Polonica, Pt. 11B, 66:1127.Google Scholar
Fomichev, V. D. 1953. Korally Rugosa i stratigrafiya sredne—i verkhnekamennougolnykh i permskikh otlozheniy Donetskogo basseyna. Vsesoyuznyy Nauchno-issledovatel'skiy Geologicheskiy Institut (VSEGEI), Trudy, 622 p.Google Scholar
Gorskiy, I. I. 1932. Korally iz nizhnekamennougolnykh otlozheniy Kirgizskoy stepi. Glavnogo Geologo-Razvedochnogo Upravleniiya; Izvestiya; Trudy, VSNK, 51:194.Google Scholar
Heritsch, F. 1941. Clisiophyllum“ aus dem Oberkarbon. Zentralblatt fur Mineralogie, Geologie, und Palaontologie Abteilung B, Jahrgang, 5:129138.Google Scholar
Holtedahl, O. 1913. Zur kenntniss der Karbonablagerungen des westlichen Spitzbergens, II: Allgemeine stratigraphische und tektonische Beobachtungen. Norsk Videnskaps-Akademi, Mathematisk-naturvidenskabelig Klasse, Skrifter, I, 23:233. Kristiania.Google Scholar
Kerr, F. A. 1948. Lower Stikine and western Iskut River areas, British Columbia. Canada Department of Mines and Resources, Geological Survey Memoir 246, 85 p.Google Scholar
Luken, M., Stevens, C. H., and Magginetti, R. 1985. Permian faunal relationships across California. Geological Society of America, Abstracts with Programs, 17(6):367.Google Scholar
McCoy, F. 1849. On some new genera and species of Paleozoic corals and foraminifera. Annals and Magazine of Natural History, Ser. 2, 3:120, 119–136.Google Scholar
McCutcheon, V. A., and Wilson, E. C. 1963. Kleopatrina, new name for Ptolemaia McCutcheon and Wilson. Journal of Paleontology, 37:299.Google Scholar
Meek, F. B. 1864. Descriptions of the Carboniferous fossils, p. 316. In Meek, F. B. and Gabb, W. M., Palaeontology of California. Caxton Press, Philadelphia.Google Scholar
Merriam, C. W. 1942. Carboniferous and Permian corals from central Oregon. Journal of Paleontology, 16:372381.Google Scholar
Milne-Edwards, H., and Haime, J. 1850. A monograph of the British fossil corals. Palaeontographical Society Monograph, London, 71 p.Google Scholar
Minato, M., and Kato, M. 1965. Durhaminidae (tetracoral). Hokkaido University, Journal of the Faculty of Science, Ser. 4, 13:1186.Google Scholar
Monger, J. W. H. 1977. Upper Paleozoic rocks of the western Canadian Cordillera and their bearing on Cordilleran evolution. Canadian Journal of Earth Sciences, 14:18321859.Google Scholar
Monger, J. W. H., and Berg, H. C. 1987. Lithotectonic terrane map of western Canada and southeastern Alaska. U.S. Geological Survey Miscellaneous Field Studies Map MF–1874-B.Google Scholar
Monger, J. W. H., Price, R. A., and Tempelman-Kluit, D. J. 1982. Tectonic accretion and the origin of the two major metamorphic and plutonic welts in the Canadian Cordillera. Geology, 10:7175.Google Scholar
Monger, J. W. H., and Ross, C. A. 1971. Distribution of fusulinaceans in the western Canadian Cordillera. Canadian Journal of Earth Sciences, 8:259278.Google Scholar
Pitcher, M. G. 1960. Fusulinids of the Cache Creek Group, Stikine River area, Cassiar District, British Columbia. Brigham Young University Research Studies, Geology Series, 7:164.Google Scholar
Ross, C. A., and Ross, J. R. P. 1983. Late Paleozoic accreted terranes of western North America, p. 722. In Stevens, C. H. (ed.), Pre-Jurassic Rocks in Western North American Suspect Terranes. Pacific Section, Society of Economic Paleontologists and Mineralogists, Los Angeles, California.Google Scholar
Rowett, C. L. 1969. Upper Palaeozoic stratigraphy and corals from the east-central Alaska Range, Alaska. Arctic Institute of North America, Technical Paper 23, 120 p.Google Scholar
Rycerski, B. A. 1985. Wolfcampian colonial rugose corals from the Stikine terrane, north-central British Columbia. Unpubl. , San Jose State University, San Jose, California, 138 p.Google Scholar
Sando, W. J. 1985. Paraheritschioides, a new rugose coral genus from the Upper Pennsylvanian of Idaho. Journal of Paleontology, 59:979985.Google Scholar
Smith, S. 1935. Two anthracolithic corals from British Columbia and related species from the Tethys. Journal of Paleontology, 9:3042.Google Scholar
Soshkina, E. D., Dobrolyubova, T. A., and Porfiriev, G. 1941. Permskie Rugosa evropeiskoy chasti SSSR. Paleontologia SSSR, Moskva-Leningrad, 5(3:1), 304 p.Google Scholar
Souther, J. G. 1971. Telegraph Creek map-area, British Columbia (104G). Geological Survey of Canada Paper, 71–44, 68 p.CrossRefGoogle Scholar
Spasskiy, N. Ya., and Kachanov, E. I. 1971. Novye primitivnye rannekamennougolnye korally Altaya i Urala. Leningrad Gornyy Institut, Zapiski, 59:4864.Google Scholar
Stuckenberg, A. 1895. Korallen und Bryozoen der Steinkohlenablagerungen des Ural und Timan. Trudy Geol. Kom., Petersburg, 10(3):1244.Google Scholar
Verrill, A. C. 1865. Classification of polyps (extract condensed from a synopsis of the polypi of the North Pacific Exploring Expedition under captains Ringgold and Rodgers, U.S.N.). Essex Institute Proceedings, 4:145149.Google Scholar
Wang, H. C. 1950. A revision of the Zoantharia Rugosa in the light of their minute skeletal structures. Royal Society of London, Philosophical Transactions Ser. B, 611:175246.Google Scholar
Wilson, E. C. 1982. Wolfcampian rugose and tabulate corals (Coelenterata: Anthozoa) from the Lower Permian McCloud Limestone of northern California. Contributions in Science, Natural History Museum of Los Angeles County, California, 337, 90 p.Google Scholar
Wilson, E. C. 1985. Rugose corals (Coelenterata, Anthozoa) from the Lower Permian McCloud Limestone at Tombstone Mountain, northern California. Contributions in Science, Natural History Museum of Los Angeles County, California, 366:111.Google Scholar
Wilson, E. C., and Langenheim, R. L. Jr. 1962. Rugose and tabulate corals from Permian rocks in the Ely quadrangle, White Pine County, Nevada. Journal of Paleontology, 36:495519.Google Scholar
Wang-Shi, Wu, Stevens, C. H., and Bamber, E. W. 1985. New Carboniferous and Permian Tethyan and Boreal corals from northwestern British Columbia, Canada. Journal of Paleontology, 59:14891504.Google Scholar
Yabe, H. 1950. Permian corals resembling Waagenophyllum and Corwenia: Japan Academy, Proceedings, 26:7479.Google Scholar
Yale, H., and Hayasaka, I. 1916. Paleozoic corals from Japan. Geological Society of Tokyo Journal, 23:5775.Google Scholar
Yoh, S. S., and Huang, T. K. 1932. The coral fauna of the Chihsia Limestone of the lower Yangtze Valley. Palaeontologia Sinica, Ser. B, 8:172.Google Scholar