Hostname: page-component-586b7cd67f-t7czq Total loading time: 0 Render date: 2024-11-22T21:39:13.477Z Has data issue: false hasContentIssue false

Mixed Tethyan and McCloud Belt rugose corals and fusulinids in an Upper Triassic conglomerate, central Oregon

Published online by Cambridge University Press:  20 May 2016

Merlynd K. Nestell
Affiliation:
Department of Earth and Environmental Sciences, The University of Texas at Arlington, Arlington, Texas 76019, USA,
Calvin H. Stevens
Affiliation:
Department of Geology, San Jose State University, San Jose, California 95192-0102, USA,

Abstract

Colonial rugose corals ranging in age from Carboniferous to Late Triassic and Early Permian (Cisuralian) fusulinids have been recovered from cobbles in a conglomerate in the Upper Triassic Brisbois Member of the Vester Formation in the Izee terrane in central Oregon. Early Permian (late Sakmarian or early Artinskian) fusulinids typical of those present in the Coyote Butte Limestone in the nearby Grindstone terrane (part of the allochthonous McCloud Belt) include Eoparafusulina, Pseudofusulinella, Chalaroschwagerina, and Schwagerina. The presence of these fusulinid genera and the Pennsylvanian coral Heritschioides?, which is mostly restricted to the McCloud Belt, suggest these particular cobbles were derived from limestone in that belt. The Early Permian fusulinids Changmeia bostwicki new species and Changmeia bigflatensis new species, and the Early Permian corals Yokoyamaella? oregonensis new species and Yokoyamaella? sp. 1, all of which have Tethyan affinities, occur rarely in other cobbles. The presence of definitive fossils from the two different realms in a conglomerate associated with beds containing Late Triassic ammonoids indicates that by Late Triassic time a fragment of a Tethyan terrane was close to or had been amalgamated with a terrane belonging to the McCloud Belt.

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

Armstrong, A. K. 1972. Pennsylvanian carbonates, paleoecology, and rugose colonial corals, north flank, eastern Brooks Range, arctic Alaska. U.S. Geological Survey Professional Paper 747, 19p.CrossRefGoogle Scholar
Belasky, P. and Stevens, C. H. 2006. Permian faunas of westernmost North America: Paleobiogeographic constraints on the Permian positions of Cordilleran terranes, p. 7180. InHaggart, J. W., Enkin, R. J., and Monger, J. W. H.(eds.), Paleogeography of the North American Cordillera: Evidence For and Against Large-Scale Displacements. Geological Association of Canada, Special Paper 46:7180.Google Scholar
Blome, C. D. 1984. Upper Triassic Radiolarians and radiolarian zonation from western North America. Bulletins of American Paleontology, 85 (318):188.Google Scholar
Blome, C. D. and Nestell, M. K. 1991. Paleontologic and tectonic significance of the Grindstone terrane, east-central Oregon. Geological Society of America Bulletin, 103:12801296.Google Scholar
Blome, C. D. and Nestell, M. K. 1992. Field guide to the geology and paleontology of pre-Tertiary volcanic arc and mélange rocks, Grindstone, Izee, and Baker terranes, east-central Oregon. Oregon Geology, 54:123141.Google Scholar
Blome, C. D and Reed, K. M. 1992. Permian and Early(?) Triassic radiolarian faunas from the Grindstone terrane, central Oregon. Journal of Paleontology, 66:351383.Google Scholar
Bostwick, D. A. and Nestell, M. K. 1965. A new species of Polydiexodina from Oregon. Journal of Paleontology, 39:611614.Google Scholar
Bourne, G. C. 1900. The Anthozoa. InLankester, R.(ed.), Treatise on Zoology, II, Chapter VI, 84p.Google Scholar
Coogan, A. H. 1960. Stratigraphy and paleontology of the Permian Nosoni and Dekkas Formations (Bollibokka Group). University of California, Publications in Geological Sciences, 36 (5):243316.Google Scholar
Cuif, J. P. 1976. Recherches sur les Madréporaires du Trias IV. Formes cériomeandroides et thamnastérioides du Trias des Alpes et du Taurus sud-anatolien. Bulletin du Muséum National d'Histoire Naturelle, Paris, serie 3, no. 381, Sciences de la Terre, 53:65194.Google Scholar
Davydov, V. I., Belasky, P., and Karavayeva, N. I. 1996. Permian fusulinids from the Koryak terrane, northeastern Russia, and their paleobiogeographic affinity. Journal of Foraminiferal Research, 26:213243.Google Scholar
Deprat, J. 1914. Étude des fusulinidés de Chine et d'Indochine. Étude comparative des fusulinidés d'Akasaka (Japon) et des fusulinidés de Chine et d'Indochine. Mémories du Service Géologique de l'Indochine 3:145.Google Scholar
Dickinson, W. R. and Thayer, T. P. 1978. Paleogeographic and paleotectonic implications of Mesozoic stratigraphy and structure in the John Day inlier of central Oregon, p. 147161. InHowell, D. G. and McDougall, K. A.(eds.), Mesozoic Paleogeography of the Western United States (Pacific Coast Paleogeography Symposium 2). Society of Economic Paleontologists and Mineralogists, Pacific Section, Publication 8.Google Scholar
Dickinson, W. R. and Vigrass, L. W. 1964. Pre-Cenozoic history of the Suplee-Izee district, Oregon: implications for geosynclinal theory. Geological Society of America Bulletin, 75:10371044.CrossRefGoogle Scholar
Dickinson, W. R. and Vigrass, L. W. 1965. Geology of the Suplee-Izee area, Crook, Grant, and Harney Counties, Oregon. Oregon Department of Geology and Mineral Industries, Bulletin 58, 109p.Google Scholar
Dorsey, R. J. and Lamaskin, T. A. 2007. Stratigraphic record of Triassic–Jurassic collisional tectonics in the Blue Mountains province, northeastern Oregon. American Journal of Science, 307:11671193.Google Scholar
Dorsey, R. J. and Lamaskin, T. A. 2008. Mesozoic collision and accretion of oceanic terranes in the Blue Mountains province of northeastern Oregon: new insights from the stratigraphic record, p. 325332. InSpencer, J. E. and Titley, S. R.(eds.), Ores and Orogenesis: Circum-Pacific tectonics, Geologic Evolution, and Ore Deposits. Arizona Geological Society Digest 22:325332.Google Scholar
Dunbar, C. O. 1944. Permian and Pennsylvanian(?) fusulines, p. 3548. InCloud, P. E. Jr., Dunbar, C. O., King, R. E. and Miller, A. K.(eds.), Geology and Paleontology of the Permian Area Northwest of Las Delecias, Southwestern Coahuila, Mexico, Part II. Geological Society of America Special Paper 52.Google Scholar
Dunbar, C. O. and Condra, G. E. 1928. The Fusulinidae of the Pennsylvanian system in Nebraska. Bulletin of the Nebraska Geological Survey, series 2, 2:1135.Google Scholar
Dunbar, C. O. and Henbesth, L. G. 1930. The fusulinid genera Fusulina, Fusulinella, and Wedekindellina. American Journal of Science, series 5, 20:357364.CrossRefGoogle Scholar
Dunbar, C. O. and Skinner, J. W. 1931. New fusulinid genera from the Permian of west Texas, American Journal of Science, series 5, 22:252268.Google Scholar
Dunbar, C. O. and Skinner, J. W. 1936. Schwagerina versus Pseudoschwagerina and Paraschwagerina. Journal of Paleontology, 10:8391.Google Scholar
Dutkevich, G. A. 1934. O nekotorykh novykh vidakh fusulinid iz verkhnego i srednego karbona Verkhne-Chusovskikh Gorodkov na r. Chusovoy (zapadnyy sklon Srednego Urala. Trudy Neftyanogo geologo-razvedochnogo institute, Series A, 36:398. (In Russian)Google Scholar
Dybowski, W. H. 1873. Monographie der Zoantharia Sclerodermata Rugosa aus der Silurformation Estlands, Nord-Livlands und der Insel Gotland: Archiv Naturkunde, Liv-Ehst-Kurlands, series 1, 5:257414.Google Scholar
Fedorowski, J., Bamber, E. W., and Stevens, C. H. 2007. Lower Permian colonial rugose corals, western and northwestern Pangaea: Taxonomy and distribution. NRC Research Press, Ottawa, Ontario, Canada, 231p.Google Scholar
Fursenko, A. V. 1958. Osnovnye etapy razvitiya faun foraminifer v geologicheskom proshlom. Trudy Instituta Geologicheskikh Nauk Akademii Nauk Belorusskoy SSR, 1:1029. (In Russian)Google Scholar
Hall, J.1858. InHall, J. and Whitney, J. D. 1858. Report on the geological survey of the State of Iowa, Paleontology, 1 (2):473724.Google Scholar
Hanzawa, S. 1949. A new type of fusulinid foraminifera from central Japan. Journal of Paleontology, 23:205209.Google Scholar
Hudson, R. G. S. 1958. Permian corals from northern Iraq. Palaeontology, 1:174192.Google Scholar
Kawamura, T. and Stevens, C. H. 2012. Middle Pennsylvanian rugose corals from the Baird Formation, Klamath Mountains, northwestern California. Journal of Paleontology, 86:513520.CrossRefGoogle Scholar
Kobayashi, F. 1997. Middle Permian fusulinacean faunas and paleogeography of exotic terranes in the Circum-Pacific, p. 7780. InRoss, C. A., Ross, J. R. P., and Brenckle, P. L.(eds.), Late Paleozoic Foraminifera, their Biostratigraphy, Evolution, and Paleoecology, and the Mid-Carboniferous Boundary. Cushman Foundation for Foraminiferal Research, Special Publication 36.Google Scholar
Lamaskin, T. A., Vervoot, J. D, Dorsey, R. J., and Wright, J. E. 2011. Early Mesozoic paleogeography and tectonic evolution of the western United States: insights from detrital zircon U-Pb geochronology, Blue Mountains Province, northeastern Oregon. Geological Society of America Bulletin, 123:19391965.Google Scholar
Leven, E.Ya, . 1970. O proiskhozhdenii vysshikh fusulinid. Paleontologicheskii Zhurnal, 3:1825. (In Russian)Google Scholar
Leven, E.Ya, . 1997. InStevens, C. H. and Baars, D.(eds.), Permian stratigraphy and Fusulinida of Afghanistan with their paleogeographic and paleotectonic implications. Geological Society of America Special Paper 316, 144p.Google Scholar
Leven, E.Ya, . 2009. Systematic description of fusulinids, in Section of Permian deposits and fusulinids in the Halvan Mountains, Yazd Province, central Iran. Stratigraphy and Geological Correlation, 17:155172.Google Scholar
McCoy, F. 1849. On some new genera and species of Palaeozoic corals and Foraminifera. Annals and Magazine of Natural History, 2 (3):119136.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
Merriam, C. W. 1942. Carboniferous and Permian corals from central Oregon. Journal of Paleontology, 16:372381.Google Scholar
Miklukho-Maklay, A. D. 1959. Novye fusulinidy verkhnego paleozoya SSSR. Materialy k osnovam paleontologii, 3:36. (In Russian)Google Scholar
Miller, M. M. 1987. Dispersed remnants of a northeast Pacific fringing arc: upper Paleozoic terranes of Permian McCloud faunal affinity, western U.S. Tectonics, 6:807830.Google Scholar
Minato, M. and Kato, M. 1965. Waagenophyllidae. Journal of the Faculty of Science, Hokkaido University, Series 4, Geology and Mineralogy, 12 (3–4):1241.Google Scholar
Mojsisovics, E. von. 1893. Die Cephalopodan der Hallstatter Kalde. Abhandlungen der Geologischen Reichanstalt 6, 835p.Google Scholar
Möller, V. von. 1877. Ueber Fusulinen und ähnliche Foraminiferen-Formen des russischen Kohlenkalkes. Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, 1877:139146.Google Scholar
Morikawa, R. and Isomi, H. 1960. A new genus Biwaella. Schwagerina-like Schubertella. Science reports of the Saitama University, Urawa, Japan, series B (Biology and Earth Sciences) 3:301305.Google Scholar
Nestell, M. K. 1983. Permian foraminiferal faunas of Central and Eastern Oregon. Symposium: Pre-Tertiary Evolution of northeast Oregon and Western Idaho, Cordilleran-Rocky Mountain Section Meeting, Geological Society of America, Salt Lake City. Abstracts with Programs, 15:371.Google Scholar
Nestell, M. K. 1998. Correlation of Middle and Upper Permian Tethyan-related fusulinaceans in the United States. International Symposium: Upper Permian Stratotypes of the Volga Region, Kazan State University, Kazan, Tartarstan, Russia, Abstracts Volume, p. 129143.Google Scholar
Orbigny d', A. 1849. Note sur des polypiers fossils. Victor Masson, Paris, 12p.Google Scholar
Orbigny d', A. 1852. Cours élémentaire de paléontology et de géologie stratigraphique Victor Masson, Paris, 2:1382.Google Scholar
Ozawa, Y. 1925. On the classification of Fusulinidae. Journal of the College of Science, Imperial University of Tokyo 45 (4):126.Google Scholar
Porfiriev, G. S. 1941. InSoshkina, E. D., Dobrolyubova, T. A., and Porfiriev, G. S., Permskie Rugosa evropeyskoy chasti SSSR: Paleontologiya SSSR. Monograph 5, 3 (1):1304. (In Russian)Google Scholar
Ross, C. A. 1964. Two significant fusulinid genera from the Word Formation (Permian) Texas. Journal of Paleontology, 38:311315.Google Scholar
Sando, W. J. 1983. Revision of Lithostrotionella (Coelenterata, Rugosa) from the Carboniferous and Permian. U.S. Geological Survey Professional Paper 1247:152.Google Scholar
Schwartz, J. J., Snoke, A. W., Frost, C. D., Barnes, C. G., Gromet, L. P., and Johnson, K. 2009. Analysis of the Wallowa-Baker terrane boundary: implications for tectonic accretion in the Blue Mountains province, northeastern Oregon. Geological Society of America Bulletin, 123:20832111.Google Scholar
Schenck, H. G. and Thompson, M. L. 1940. Misellina and Brevaxina, new Permian fusulinid foraminifera. Journal of Paleontology, 14:584589.Google Scholar
Silberling, N. J., Jones, D. L., Blake, M. C. Jr., and Howell, D. G. 1984. Lithotectonic terrane map of the western conterminous United States. U.S. Geological Survey, Open File Report 84–0523:C1–C43.Google Scholar
Silberling, N. J., Jones, D. L., Blake, M. C. Jr., and Howell, D. G. 1987. USGS Miscellaneous Field Studies Map MF-1874-C, scale 1:2,500,000.Google Scholar
Skinner, J. W. 1971. The fusulinid genera Polydiexodina and Skinnerina. University of Kansas Paleontological Contributions, 57:110.Google Scholar
Skinner, J. W. and Wilde, G. L. 1965. Permian biostratigraphy and fusulinid faunas of the Shasta Lake area, northern California. University of Kansas Paleontological Contributions, Special Paper 6:198.Google Scholar
Skinner, J. W. and Wilde, G. L. 1966. Permian fusulinids from Suplee area, east-central Oregon, p. 11–16. In Permian fusulinids from Pacific Northwest and Alaska. The University of Kansas Paleontological Institute, Paleontological Contributions, Special Paper 4 (2):1116.Google Scholar
Smith, S. 1935. Two anthracolithic corals from British Columbia and related species from the Tethys. Journal of Paleontology, 9:3042.Google Scholar
Smith, D. and Ryder, T. A. 1926. The genus Corwenia, gen. nov. Annals and Magazine of Natural History, series 9, 17:149159.Google Scholar
Solovieva, M. N. 1985. InEpshteyn, O. G., Terekhova, T. P., and Solovieva, M. N.Paleozoy Koryakskogo nagor'ya (fauna foraminifer, biostratigrafiya). Voprosy Mikropaleontologii, 27:4777. (In Russian)Google Scholar
Sosnin, M. I. 1956. InKiparisova, L. D., Markovsky, B. P., and Radchenko, G. P.(eds.), Materialy po paleontologii, novye semeystva i rody. Vsesoyuznuy Nauchno-issledovatelskiy Geologicheskiy Institut (VSEGEI), 354p. (In Russian)Google Scholar
Staff, H. and Wedekind, R. 1910. Der Oberkarbone Foraminiferensapropelit Spitzbergens Bulletin of the Geological Institution of the University of Uppsala, 10:81123.Google Scholar
Thompson, M. L. 1951. New genera of fusulinid Foraminifera. Foraminiferal Research, Contributions, 2 (4):115119.Google Scholar
Thompson, M. L. and Wheeler, H. E. 1942. Permian fusulinids from British Columbia, Washington, and Oregon. Journal of Paleontology, 16:700711.Google Scholar
Verrill, A. E. 1865. Classification of polyps (extract condensed from a synopsis of the polyps 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. Philosophical Transactions of the Royal Society of London, Series B, Biological Sciences, 611:175264.Google Scholar
Wilde, G. L. 1975. Fusulinid-defined Permian stages, p. 6783. InPermian Exploration, Boundaries, and Stratigraphy: West Texas Geological Society and Permian Basin Section SEPM, Publication 75–65.Google Scholar
Wu, W. S. and Zhou, K. J. 1982. Upper Carboniferous corals from Kalping and Aksu, Xinjiang. Bulletin of Nanjing Institute of Geology and Palaeontology, Academia Sinica, 4:213239. (In Chinese)Google Scholar
Yabe, H. 1950. Permian corals resembling Waagenophyllum and Corwenia. Japan Academy Proceedings, 26:7479.Google Scholar
Yabe, H. and Hanzawa, S. 1932. Tentative classification of the foraminifera of the Fusulinidae. Proceedings of the Imperial Academy of Japan, 8:4043.Google Scholar
Zhou, J. and Luo, H. 1998. Changmeia, a new fusulinid subgenus of Paraschwagerina. Acta Micropaleontologica Sinica, 15:267271.Google Scholar