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Lower Ordovician (Tremadocian) lingulate brachiopods from the House and Fillmore formations, Ibex area, western Utah, USA

Published online by Cambridge University Press:  20 May 2016

Lars E. Holmer ,
Leonid E. Popov ,
Michael Streng  and
James F. Miller
Lars E. Holmer
Affiliation:
Institute of Earth Sciences, Paleobiology, Uppsala University, SE-752 36 Uppsala, Sweden, ,
Leonid E. Popov
Affiliation:
Department of Geology, National Museum of Wales, Cathays Park, Cardiff CF10 3NP, Wales, United Kingdom,
Michael Streng
Affiliation:
Institute of Earth Sciences, Paleobiology, Uppsala University, SE-752 36 Uppsala, Sweden, ,
James F. Miller
Affiliation:
Geography, Geology, & Planning Department, Missouri State University, Springfield 65804, USA,
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Abstract

Seven genera and eight species of lingulate brachiopods were recovered from the House Limestone and lower Fillmore Formation, Ibex area, Utah, USA. These strata are assigned to the upper Skullrockian Stage and lower Stairsian Stage of the Ibexian Series (Iapetognathus Conodont Zone to Low Diversity Interval) and are correlated with the Tremadocian Series of the Acado–Baltic Faunal Province. The fauna includes two new linguloid species, Spinilingula prisca and Wahwahlingula sevierensis, one new siphonotretoid species, Schizambon obtusus, and two new acrotretoid species, Eurytreta fillmorensis and Ottenbyella ibexiana. The last species is the first record of the genus in North America and suggests a correlation of the basal Fillmore Formation with the Ceratopyge Limestone in Sweden. A Siphonobolus? covered by long hollow spines may be one of the oldest siphonotretides with such ornament. This fauna and those described previously from older Utah strata document the biodiversification of the Cambrian–Ordovician lingulate brachiopods and demonstrate their potential for regional and intercontinental correlation.

Type
Research Article
Information
Journal of Paleontology , Volume 79 , Issue 5 , September 2005 , pp. 884 - 906
Copyright
Copyright © The Paleontological Society 

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References

Aceñolaza, F. G., and Aceñolaza, G. F. 1992. The genus Jujuyaspis as a world reference fossil for the Cambrian–Ordovician boundary, p. 115120. In Webby, B. D. and Laurie, J. R. (eds.), Global Perspectives on Ordovician Geology. Balkema, Rotterdam.Google Scholar
Barnes, C. R. 1988. The proposed Cambro–Ordovician global boundary stratotype and point (GSSP) in western Newfoundland, Canada. Geological Magazine, 125(4):381414.Google Scholar
Barrande, J. 1879. Systême Silurien du centre de la Bohême. Recherches paléontologiques, Classe des Mollusques. Ordre des Brachiopodes. Prague, 226 p.Google Scholar
Conway Morris, S., Whittington, H. B., Briggs, D. E. G., Hughes, C. P., and Bruton, D. L. 1982. Atlas of the Burgess Shale. Palaeontological Association, London, 31 p.Google Scholar
Cooper, G. A. 1956. Chazyan and related brachiopods. Smithsonian Miscellaneous Collections, 127(I–II):11245.Google Scholar
Cooper, R. A. 1999. Ecostratigraphy, zonation and global correlation of earliest planktic graptolites. Lethaia, 32:116.Google Scholar
Cooper, R. A., Nowlan, G. S., and Williams, S. H. 2001. Global stratotype section and point for base of Ordovician System. Episodes, 24(1):1928.Google Scholar
Cusack, M., Williams, A., and Buckman, J. O. 1999. Chemico-structural evolution of linguloid brachiopod shells. Palaeontology, 42(5):799840.Google Scholar
Evans, K. R., Miller, J. F., and Dattilo, B. F. 2003. Sequence stratigraphy of the Sauk Sequence: 40th anniversary field trip in western Utah, p. 1735. In Swanson, T. W. (ed.), Western Cordillera and Adjacent Areas. Geological Society of America Field Guide 4. Boulder, Colorado.Google Scholar
Golonka, J., and Kiesling, W. 2002. Phanerozoic time scale and definition of time slices, p. 1120. In Kiessling, W., Flügel, E., and Golonka, J. (eds.), Phanerozoic Reef Patterns. Society for Sedimentary Geology Special Publication, 72.Google Scholar
Gorjansky, V. Yu., and Popov, L. E. 1985. Morfologiya, systematicheskoye polozheniye i proiskhozhdeniye bezzamkovykh brakhiopod s karbonatnoy rakovinoy. Paleontologicheskiy Zhurnal, 3:314.Google Scholar
Gray, J. E. 1840. Synopsis of the Contents of the British Museum (forty-second edition). British Museum, London, 370 p.Google Scholar
Havlíček, V. 1982. Lingulacea, Paterinacea, and Siphonotretacea (Brachiopoda) in the Lower Ordovician sequence of Bohemia. Sborník Geologickych Ved: Paleontologie, 25:982.Google Scholar
Hintze, L. F. 1951. Lower Ordovician detailed stratigraphic sections for western Utah. Utah Geological and Mineralogical Survey Bulletin, 39, 99 p.Google Scholar
Hintze, L. F. 1953. Lower Ordovician trilobites from western Utah. Utah Geological and Mineralogical Survey Bulletin, 48, 249 p.Google Scholar
Hintze, L. F. 1973. Lower and Middle Ordovician stratigraphic sections in the Ibex area, Millard County, Utah. Brigham Young University Geology Studies, 20(4):336.Google Scholar
Hintze, L. F. 1974a. Preliminary geologic map of The Barn Quadrangle, Millard County, Utah. U.S. Geological Survey Miscellaneous Field Studies Map, MF-633.Google Scholar
Hintze, L. F. 1974b. Preliminary geologic map of the Notch Peak Quadrangle, Millard County, Utah. U.S. Geological Survey Miscellaneous Field Studies Map, MF-636.Google Scholar
Hintze, L. F. 1988. Geologic history of Utah. Brigham Young University Geology Studies, Special Publication, 7, 202 p.Google Scholar
Hintze, L. F., and Davis, F. D. 2002a. Geologic map of the Wah Wah Mountains North 30' X 60' Quadrangle and part of the Garrison 30' X 60' Quadrangle, southwest Millard County and part of Beaver County, Utah. Utah Geological Survey Map, 182, 2 sheets.Google Scholar
Hintze, L. F., and Davis, F. D. 2002b. Geologic map of the Tule Valley 30' × 60' Quadrangle and parts of the Ely, Fish Springs, and Kern Mountains 30' × 60' Quadrangles, northwest Millard County, Utah. Utah Geological Survey Map, 186, 2 sheets.Google Scholar
Hintze, L. F., and Davis, F. D. 2003. Geology of Millard County, Utah. Utah Geological Survey Bulletin, 133, 305 p.Google Scholar
Holmer, L. E. 1989. Middle Ordovician phosphatic inarticulate brachiopods from Västergotland and Dalarna, Sweden. Fossils and Strata, 26:1172.Google Scholar
Holmer, L. E., and Biernat, G. 2002. Lingulate Brachiopods from Lower Ordovician (Tremadoc) Chalcedonites, Holly Cross Mountains, Poland. Acta Palaeontologica Polonica, 47(1):141156.Google Scholar
Holmer, L. E., and Popov, L. E. 2000. Subphylum Linguliformea, p. H30H146. In Kaesler, R. L. (ed.), Treatise on Invertebrate Paleontology, Pt. H (Brachiopoda). Geological Society of America and University of Kansas Press, Lawrence.Google Scholar
Holmer, L. E., Popov, L. E., and Wrona, R. 1996. Early Cambrian brachiopods from King George Island (South Shetland Islands), West Antarctica. Palaeontologica Polonica, 55:3750.Google Scholar
Holmer, L. E., Popov, L. E., Koneva, S. P., and Bassett, M. G. 2001. Cambrian–Early Ordovician Brachiopods from Malyi Karatau, the western Balkhash Region, and Tien Shan, central Asia. Special Papers in Palaeontology, 46:1180.Google Scholar
James, N. P., and Stevens, R. K. 1986. Stratigraphy and correlation of the Cambro–Ordovician Cow Head Group, western Newfoundland. Geological Survey of Canada Bulletin, 366, 143 p.Google Scholar
Jensen, R. G. 1967. Ordovician brachiopods from the Pogonip Group of Millard County, western Utah. Brigham Young University Geology Studies, 14:67100.Google Scholar
Jeremejew, P. 1856. Geognostische Beobachtungen an den Ufern des Wolchow. Russisch-Kaiserliche Mineralogische Gesellschaft zu St. Petersbourg, Verhandlungen, 10:6384.Google Scholar
King, W. 1846. Remarks on certain genera belonging to the class Palliobranchiata. Annals and Magazine of Natural History (London), 18:2642.Google Scholar
Kobayashi, T. 1955. The Ordovician fossils from the McKay Group in British Columbia, western Canada, with a note on the Early Ordovician Palaeography. Journal of the Faculty of Science of the University of Tokyo, section II, IX:355493.Google Scholar
Koneva, S. P. 1986. Novoje semeistvo kembriiskikh bezzamkovykh brakhiopod. Paleontologicheskii Zhurnal, 1:4955.Google Scholar
Koneva, S. P., and Popov, L. E. 1988. Akrotretidy (bezzamkovye brakhiopody) iz pogranichnykh otlozhenii kembriia–ordovika khrebta Malyi Karatau (iuzhnyi Kazakhstan). Ezhegodnik Vsesoiuznogo Paleontologicheskogo Obshchestva (St. Petersburg), 31:5272.Google Scholar
Kowalewski, M., Dulai, A., and Fursich, F. T. 1998. A fossil record full of holes: The Phanerozoic history of drilling predation. Geology, 26:12, 1091–1094.Google Scholar
Krause, F. F., and Rowell, A. J. 1975. Distribution and systematics of the inarticulate brachiopods of the Ordovician carbonate mud mound Meiklejohn Peak, Nevada. The University of Kansas Paleontological Contributions, Paper 61, 74 p.Google Scholar
Kuhn, O. 1949. Lehrbuch der Paläozoologie. Schweizerbart, Stuttgart, 326 p.Google Scholar
Kutorga, S. S. 1848. Über die Brachiopoden-Familie der Siphonotretaeae. Russisch-Kaiserliche Mineralogische Gesellschaft zu St. Petersbourg, Verhandlungen, 1847:250286.Google Scholar
Lenz, A. C. 1993. A Silurian sponge—inarticulate brachiopod life? association. Journal of Paleontology, 67:138139.CrossRefGoogle Scholar
Lermontova, E. V., and Razumovskii, N. K. 1933. O drevneishikh otlozhenijakh Urala (nizhnii silur i kembrii v okrestnostjakh derevni kidryasovo na Juzhnom Urale). Zapiski Rossiiskogo mineralogicheskogo obstchestva, 62:1, 185–217.Google Scholar
Ludvigsen, R. 1974. A new Devonian acrotretid (Brachiopoda, Inarticulata) with unique protegular ultrastructure. Neues Jahrbuch für Geologie und Paläontologie Monatshefte, 3:133148.Google Scholar
Matthew, G. F. 1901. New species of Cambrian fossils from Cape Breton. New Brunswick Natural History Society Bulletin, 4:269286.Google Scholar
Meek, F. B. 1873. Preliminary paleontological report, consisting of lists and descriptions of fossils, with remarks on the ages of the rocks in which they were found, etc. Sixth Annual Report of the United States Geological Survey of Montana, Idaho, Wyoming and Utah, 1872:429518.Google Scholar
Menke, C. T. 1828. Synopsis methodica Molluscorum generum omnium et specierum earum, quae in Museo Menkeano Adservantur. Pyrmonti, 91 p.Google Scholar
Mergl, M. 2002. Linguliformean and craniiformean brachiopods of the Ordovician (Třenice to Dobrotivá formations) of the Barrandian, Bohemia. Acta Musei Nationalis Praguae, series B, Natural History, 58(1/2):182.Google Scholar
Miller, J. F., and Flokstra, B. R. 1999. Graphic correlation of important Cambrian–Ordovician boundary sections. Quo vadis Ordovician—Short papers of the Eighth International Symposium on the Ordovician System. Acta Universitatis Carolinae, Geologica, 43(1/2):8184.Google Scholar
Miller, J. F., Evans, K. R., Loch, J. D., Ethington, R. L., and Stitt, J. H. 2001. New lithostratigraphic units in the Notch Peak and House Formations (Cambrian–Ordovician), Ibex area, Millard County, Utah. Brigham Young University Geology Studies, 46:3569.Google Scholar
Miller, J. F., Evans, K. R., Loch, J. D., Ethington, R. L., Stitt, J. H., Holmer, L. E., and Popov, L. E. 2003. Stratigraphy of the Sauk III interval (Cambrian–Ordovician), Ibex area, western Millard County, Utah and central Texas. Brigham Young University Geology Studies, 47:23118, plus CD-ROM.Google Scholar
Miller, J. F., Evans, K. R., Loch, J. D., Ripperdan, R. L., Ethington, R. L., Stitt, J. H., Popov, L. E., and Holmer, L. E. 1998a. The stratigraphic record of multiple Cambrian–Ordovician boundary horizons: You pays your money and you takes your choice: North-Central Section. Geological Society of America, Abstracts with Programs, 30(2):62.Google Scholar
Miller, J. F., Evans, K. R., Loch, J. D., Repetski, J. E., Ripperdan, R. L., Stitt, J. H., and Taylor, J. F. 1998b. Mixed-age redeposited conodonts and trilobites in the proposed global stratotype for the base of the Ordovician System at Green Point, western Newfoundland, Canada. Geological Society of America Annual Meeting, Abstracts with Programs, 30(7):A-144.Google Scholar
Miller, J. F., Loch, J. D., Stitt, J. H., Ethington, R. L., Popov, L. E., Evans, K. R., and Holmer, L. 1999. Origins of the great Ordovician biodiversification: The record at Lawson Cove, Ibex area, Utah, USA. Quo vadis Ordovician—Short papers of the Eighth International Symposium on the Ordovician System. Acta Universitatis Carolinae, Geologica, 43(1/2):459462.Google Scholar
Moberg, J. C., and Segerberg, C. O. 1906. Bidrag till kännedomen om ceratopygeregionen med särskild hänsyn till dess utveckling i Fogelsängstrakten. Lunds Universitets Årsskrift (Lund), serie 2, 2(7):1113.Google Scholar
Nicoll, R. S., Miller, J. F., Nowlan, G. S., Repetski, J. E., and Ethington, R. L. 1999. Iapetonudus (New genus) and Iapetognathus Landing, unusual earliest Ordovician multielement conodont taxa and their utility for biostratigraphy. Brigham Young University Geology Studies, 44:27101.Google Scholar
Percival, I. E., Engelbretsen, M. J., and Brock, G. 1999. Distribution of Middle to Late Ordovician lingulate brachiopods in New South Wales. Acta Universitatis Carolinae, Geologica 43(1/2):347350.Google Scholar
Popov, L. E., and Holmer, L. E. 1994. Cambrian–Ordovician lingulate brachiopods from Scandinavia, Kazakhstan, and South Ural Mountains. Fossils and Strata, 35:1156.Google Scholar
Popov, L. E., Holmer, L. E., and Miller, J. F. 2002. Lingulate brachiopods from the Cambrian–Ordovician boundary beds in Utah. Journal of Paleontology, 76:211228.Google Scholar
Popov, L. E., Nolvak, J., and Holmer, L. E. 1994. Late Ordovician brachiopods from Estonia. Palaeontology, 37:627650.Google Scholar
Popov, L. E., Khazanovitch, K. K., Borovko, N. G., Sergeeva, S. P., and Sobolevskaya, R. F. 1989. Opornye razrezy i stratigrafiya kembro—ordovikskoj fosforitonosnoj obolovoj tolshch na severo-zapade Russkoj platformy. AN SSSR, Ministerstvo Geologii SSSR, Mezhvedomstvennym stratigraficheskij komitet SSSR, Trudy, 18, 1222. Nauka, Leningrad.Google Scholar
Ripperdan, R. L., and Miller, J. F. 1995. Carbon isotope ratios from the Cambrian–Ordovician boundary section at Lawson Cove, Wah Wah Mountains, Utah, p. 129132. In Cooper, J. D. (ed.), Ordovician Odyssey: Short Papers for the Seventh International Symposium on the Ordovician System. Pacific Section of Society for Sedimentary Geology (SEPM), Book 77, 498 p.Google Scholar
Ross, R. J. Jr., Hintze, L. F., Ethington, R. L., Miller, J. F., Taylor, M. E., and Repetski, J. E. 1997. The Ibexian, lowermost series in the North American Ordovician. U.S. Geological Survey Professional Paper, 1579-A, 50 p.Google Scholar
Rowell, A. J. 1966. Revision of some Cambrian and Ordovician inarticulate brachiopods. University of Kansas Paleontological Contributions, Paper 7, 36 p.Google Scholar
Ruedemann, R. 1937. A new North American graptolite faunule. American Journal of Science, fifth series, 33(193):5762.Google Scholar
Schuchert, C. 1893. A classification of the Brachiopoda. American Geologist, 11(3):141167.Google Scholar
Stitt, J. H. 1983. Trilobites, biostratigraphy, and lithostratigraphy of the McKenzie Hill Limestone, (Lower Ordovician), Wichita and Arbuckle Mountains, Oklahoma. Oklahoma Geological Survey Bulletin, 134, 54 p.Google Scholar
Waagen, W. 1885. Salt Range Fossils, Pt. 4(2), Brachiopoda. Memoirs, Palaeontologia Indica, series 13, 1, part 5:729770.Google Scholar
Walcott, C. D. 1884. Paleontology of the Eureka District. United States Geological Survey Monographs, 8:1298.Google Scholar
Walcott, C. D. 1889. Description of a new genus and species of inarticulate brachiopod from the Trenton Limestone. United States National Museum Proceedings (Washington, DC), 12(775):365366.Google Scholar
Walcott, C. D. 1902. Cambrian Brachiopoda: Acrotreta, Linnarssonella, Obolus, with descriptions of new species. Proceedings of the United States National Museum, 28:227337.Google Scholar
Walcott, C. D. 1908. Cambrian geology and paleontology, Pt. 3, Cambrian Brachiopoda, descriptions of new genera and species. Smithsonian Miscellaneous Collections, 53(3):53137.Google Scholar
Walcott, C. D. 1920. Middle Cambrian Spongiae. Smithsonian Miscellaneous Collections, 67:261364.Google Scholar
Williams, A. 2003. Microscopic imprints on the juvenile shells of Palaeozoic linguliform brachiopods. Palaeontology, 46(1):6792.Google Scholar
Williams, A., Holmer, L. E., and Cusack, M. 2004. Chemico-structure of the organophosphatic shells of siphonotretide brachiopods. Palaeontology, 47(5):125.Google Scholar