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Middle Jurassic bryozoans from the Carmel Formation of southwestern Utah

Published online by Cambridge University Press:  14 July 2015

Paul D. Taylor  and
Mark A. Wilson
Paul D. Taylor
Affiliation:
Department of Palaeontology, The Natural History Museum, London SW7 5BD, England
Mark A. Wilson
Affiliation:
Department of Geology, The College of Wooster, Wooster, Ohio 44691
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Abstract

Very few Jurassic bryozoan faunas are known outside Europe. Here we describe seven species of calcareous cyclostome bryozoans and one bioimmured soft-bodied ctenostome bryozoan (Simplicidium sp.) from the Middle Jurassic (?Bathonian) Carmel Formation of Utah. Three of the cyclostomes are placed in open nomenclature due to inadequate preservation and/or the lack of key reproductive polymorphs. A new genus, Patulopora, is established for Diastopora cutleri Cuffey and Ehleiter, 1984, following the discovery of gonozooids that place this species in the Multisparsidae rather than in the Plagioeciidae. Another of Cuffey and Ehleiter's (1984) species—Berenicea duofluvina—is reassigned to Microeciella on the basis of the gonozooids, and a similar but distinctly smaller form is described as M. pollostos new species. A second new species—Hyporosopora nielsoni—is a rare colonist of hardground undersurfaces. The Carmel bryozoan fauna is compared with better-known faunas from the northern European Middle Jurassic. Species richness and colony-form diversity fall well within the expected values for bryozoan faunas of this age, and endemism is detectable only at relatively low taxonomic levels. Evolutionary patterns based on studies of contemperaneous European bryozoan faunas during this time of cyclostome evolutionary radiation are reinforced by the palaeogeographically distant Carmel bryozoan fauna.

Type
Research Article
Information
Journal of Paleontology , Volume 73 , Issue 5 , September 1999 , pp. 816 - 830
Copyright
Copyright © The Paleontological Society 

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References

Balson, P. S., and Taylor, P. D. 1982. Palaeobiology and systematics of large cyclostome bryozoans from the Pliocene Coralline Crag of Suffolk. Palaeontology, 25:529554. Bassler, R. S. 1935. Bryozoa. Fossilium Catalogus (Animalia), 67:1-229.Google Scholar
Borg, F. 1940. On the genus Tubiporella and a new boring bryozoan. Zoologiska Bidrag från Uppsala, 18:415438.Google Scholar
Bronn, H. G. 1825. System der urweltlichten Pflanzenthiere durch Diagnose, Analyse und Abbildung der Geschlechter erläutert. Heidelberg, 47 p.CrossRefGoogle Scholar
Busk, G. 1852. An account of the Polyzoa and Sertularian Zoophytes collected in the voyage of the Rattlesnake on the coast of Australia and the Louisiade Archipelago, p. 343402. In MacGillivray, J. (ed.), Narrative of the Voyage of H.M.S. Rattlesnake, commanded by the late Captain Owen Stanley, during the years 1846-1850. Boone, London.Google Scholar
Canu, F. 1918. Les ovicelles des bryozoaires cyclostomes. Études sur quelques families nouvelles et anciennes. Bulletin de la Société Géologique de France, Série 4, 16 [for 1916]:324335.Google Scholar
Canu, F., and Bassler, R. S. 1929. Etude sur les ovicelles des Bryozoaires jurassiques. Bulletin de la Société Linnéernne de Normandie, 8 série, 2:113131.Google Scholar
Cragin, F. W. 1905. Paleontology of the Malone Jurassic Formation of Texas. U.S. Geological Survey Bulletin, 266:1172.Google Scholar
Cuffey, R. J., and Ehleiter, J. E. 1984. New bryozoan species from the Mid-Jurassic Twin Creek and Carmel Formations of Wyoming and Utah. Journal of Paleontology, 58:668682.Google Scholar
d'Orbigny, A. 1850. Prodrome de Paléontologie stratigraphique Universelle. 1. Masson, Paris, 394 p.Google Scholar
Feldman, H. R., and Brett, C. E. 1998. Epi- and endobiontic organisms on Late Jurassic crinoid columns from the Negev Desert, Israel: implications for co-evolution. Lethaia, 31:5771.CrossRefGoogle Scholar
Fürsich, F. T., Pandey, D. K., Oschmann, W., Jaitly, A. K., and Singh, I. B. 1994. Ecology and adaptive strategies of corals in unfavourable environments: Examples from the Middle Jurassic of the Kachchh Basin, Western India. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 194:269303.CrossRefGoogle Scholar
Gardiner, A. R., and Taylor, P. D. 1982. Computer modelling of branching growth in the bryozoan Stomatopora. Neues Jahrbuch für Geologie und Paläontologie Abhandlungen, 163:389416.Google Scholar
Gradstein, F. M., and Ogg, J. G. 1996. A Phanerozoic time scale. Episodes, 19:35.CrossRefGoogle Scholar
Haime, J. 1854. Description des bryozoaires fossiles de la formation Jurassique. Mémoires Société Géologique de France, series 2, 5:156218.Google Scholar
Hara, U., and Taylor, P. D. 1996. Jurassic bryozoans from Baltów, Holy Cross Mountains, Poland. Bulletin of The Natural History Museum, London, Geology Series, 52:91102.Google Scholar
Harmelin, J.-G. 1974. A propos d'une forme stomatoporienne typique, Stomatopora gingrina Jullien, 1882 (Bryozoaires Cyclostomes) et son gonozöide. Journal of Natural History, 8:19.CrossRefGoogle Scholar
Harmer, S. F. 1926. The Polyzoa of the Siboga Expedition. Part 2. Cheilostomata Anasca. Uitkomsten op Zoologisch, Botanisch, Oceanographisch en Geologisch Gebied versameld in Nederlansch Oost-Indië, 1899-1900, 28b:181501.Google Scholar
Hayward, P. J., and Ryland, J. S. 1985. Systematic notes on some British Cyclostomata (Bryozoa). Journal of Natural History, 19:10731078.CrossRefGoogle Scholar
Henderson, C. M., and Perry, D. G. 1981. A Lower Jurassic heteroporid bryozoan and associated biota, Turnagain Lake, British Columbia. Canadian Journal of Earth Sciences, 18:457468.CrossRefGoogle Scholar
Hincks, T. 1877. On British Polyzoa, Pt. 1, Annals and Magazine of Natural History, (4), 20:212218.CrossRefGoogle Scholar
Illies, G. 1976. Budding and branching patterns in the genera Stomatopora Bronn, 1825 and Voigtopora Bassler, 1952. Oberrheinische Geologische Abhandlungen, 25:97110.Google Scholar
Imlay, R. W. 1956. Paleogeographic maps of the United States during the Jurassic Period. In McKee, E. D. et al. (eds.), Paleotectonic Maps of the Jurassic System: U.S. Geological Survey Miscellaneous Geologic Investigations, Map I-175.Google Scholar
Imlay, R. W. 1980. Jurassic paleobiogeography of the conterminous United States and its continental setting. United States Geological Survey Professional Paper, 1062:1134.Google Scholar
Jablonski, D., Lidgard, S., and Taylor, P. D. 1997. Comparative ecology of bryozoan radiations: origin of novelties in cyclostomes and cheilostomes. Palaios, 12:505523.CrossRefGoogle Scholar
Kowallis, B. J., Christiansen, E. H., Everett, B. H., Crowley, K. D., Naeser, C. W., Miller, D. S., and Deino, A. L. 1993. Possible secondary apatite fission track age standard from altered volcanic ash beds in the Middle Jurassic Carmel Formation, southwestern Utah. Nuclear Tracks and Radiation Measurements, 21:519524.CrossRefGoogle Scholar
Lagaaij, R. 1952. The Pliocene bryozoa of the low countries. Mededelingen van de Geologische Stichting, Serie C-V-No. 5, 233 p.Google Scholar
Lamouroux, J. 1821. Exposition méthodique des genres de l'ordre des polpiers. Agasse, Paris, 115 p.Google Scholar
McKinney, F. K., and Taylor, P.D. 1997. Life histories of some Mesozoic encrusting cyclostome bryozoans. Palaeontology, 40:515556.Google Scholar
Michelin, H. 1841-1848. Iconographie Zoophytologique. Bertrand, Paris, 348 p.Google Scholar
Milne Edwards, H. 1838. Mémoire sur les Crisies, les Hornères et plusieurs autres Polypes. Annales des Sciences Naturelles, Paris, 9:193238.Google Scholar
Newton, R. B. 1921. On a marine Jurassic fauna from Central Arabia. Annals and Magazine of Natural History, Series 9, 7:389403.CrossRefGoogle Scholar
Nielson, D. R. 1990. Stratigraphy and sedimentology of the Middle Jurassic Carmel Formation in the Gunlock area, Washington County, Utah. Brigham Young University Geology Studies, 36:153192.Google Scholar
Pergens, E., and Meunier, A. 1886. La faune des Bryozoaires garumniens de Faxe. Annales de la Société Royale Malacologique de Belgique, 12:181242.Google Scholar
Phillips, J. 1829. Illustrations of the Geology of Yorkshire, Pt. 1. The Yorkshire Coast. Printed privately, York, 192 p.Google Scholar
Pitt, L. J., and Taylor, P. D. 1990. Cretaceous Bryozoa from the Faringdon Sponge Gravel (Aptian) of Oxfordshire. Bulletin of the British Museum (Natural History), Geology Series, 46:61152.Google Scholar
Tang, C.M., and Bottjer, D.J. 1996. Long-term faunal stasis without evolutionary coordination: Jurassic benthic marine paleocommunities, Western Interior, United States. Geology, 24:815818.2.3.CO;2>CrossRefGoogle Scholar
Tang, C.M., and Bottjer, D.J. 1997a. Triassic and Jurassic macroinvertebrate faunas of Utah: Field relationships and paleobiologic significances. Brigham Young University Geology Studies, 42(2):15.Google Scholar
Tang, C.M., and Bottjer, D.J. 1997b. Low-diversity faunas of the Middle Jurassic Carmel Formation and their paleobiological implications. Brigham Young University Geology Studies, 42(2):1014.Google Scholar
Tate, R. 1867. On some secondary fossils from South Africa. Quarterly Journal of the Geological Society, London, 23:139175.CrossRefGoogle Scholar
Taylor, D. W. 1981. Carbonate petrology and depositional environments of the limestone member of the Carmel Formation, near Carmel Junction, Kane County, Utah. Brigham Young University Geology Studies, 28:117133.Google Scholar
Taylor, P. D. 1978. The spiral bryozoan Terebellaria from the Jurassic of southern England and Normandy. Palaeontology, 21:357391.Google Scholar
Taylor, P. D. 1979. Functional significance of contrasting colony form in two Mesozoic encrusting bryozoans. Palaeogeography, Palaeoecology, Palaeoecology, 26:151158.CrossRefGoogle Scholar
Taylor, P. D. 1990a. Preservation of soft-bodied and other organisms by bioimmuration—a review. Palaeontology, 33:117.Google Scholar
Taylor, P. D. 1990b. Bioimmured ctenostomes from the Jurassic and the origin of the cheilostome Bryozoa. Palaeontology, 33:1934.Google Scholar
Taylor, P. D., and Larwood, G. P. 1990. Major evolutionary radiations in the Bryozoa, p. 209233. In Taylor, P. D. and Larwood, G. P. (eds.), Major evolutionary radiations. Systematics Association Special Volume, 42.Google Scholar
Taylor, P. D. and Sequeiros, L. 1982. Toarcian bryozoans from Belchite in north-east Spain. Bulletin of the British Museum (Natural History), Geology Series, 36:117129.Google Scholar
Todd, J. A., Taylor, P. D., and Favorskaya, T. A. 1997. A bioimmured ctenostome bryozoan from the Early Cretaceous of the Crimea and the new genus Simplicidium. Geobios, 30:205213.CrossRefGoogle Scholar
Vine, G. R. 1881. Further notes on the family Diastoporidae Busk, species from the Lias and Oolite. Quarterly Journal of the Geological Society, London, 37:381390.CrossRefGoogle Scholar
Voigt, E. 1957. Harmeriella? cretacea n. sp., ein fragliches parasitiches Bryozoon aus der Screibkreide von Rügen. Senckenbergiana Lethaea, 38:345357.Google Scholar
Waagen, W. 1867. Über die Zone des Ammonites sowerbyi. Geognostisch-Paläontologische Beitrage von Dr. E. W. Benecke, München, 1:507668.Google Scholar
Walter, B. 1970. Les bryozoaires jurassiques en France. Documents des Laboratoires de Géologie de la Faculté des Sciences de Lyon, 35 [for 1969]:1328.Google Scholar
Walter, B. 1989. Les Diastoporidae bereniciformes Neocomiens du Jura Franco-Suisse. Etude systematique et parallelisme entre leurs genreset ceux des “diastopores” et “mesenteripores.” Palaeontographica Abt. A, 207:107145.Google Scholar
Walter, B., and Powell, H. P. 1973. Exceptional preservation in cyclostome Bryozoa from the Middle Lias of Northamptonshire. Palaeontology, 16:219221.Google Scholar
Whitehouse, F. W. 1924. Some Jurassic fossils from Western Australia. Journal of the Royal Society of Western Australia, 11:113.Google Scholar
Wilson, M. A. 1997. Trace fossils, hardgrounds and ostreoliths in the Carmel Foramtion (Middle Jurassic) of southwestern Utah. Brigham Young University Geology Studies, 42(2):69.Google Scholar
Wilson, M. A. 1998. Succession in a Jurassic marine cavity community and the evolution of cryptic marine faunas. Geology, 26:379381.2.3.CO;2>CrossRefGoogle Scholar
Wilson, M. A., and Palmer, T. J. 1994. A carbonate hardground in the Carmel Formation (Middle Jurassic, SW Utah, U.S.) and its associated encrusters, borers and nestlers. Ichnos, 3:7987.CrossRefGoogle Scholar
Wilson, M. A., Ozanne, C. R., and Palmer, T. J. 1998. Origin and paleoecology of free-rolling oyster accumulations (ostreoliths) in the Middle Jurassic of southwestern Utah, U.S. Palaios, 13:6876.CrossRefGoogle Scholar