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Middle Albian (Lower Cretaceous) Gastroplitinid ammonites and dinoflagellates from the Christopher Formation (Dragon Mountain, Axel Heiberg Island, Canadian Arctic Islands) and a revision of the genus Pseudogastroplites Jeletzky, 1980

Published online by Cambridge University Press:  20 May 2016

Russell L. Hall ,
R. Andrew Macrae  and
L. V. Hills
Russell L. Hall
Affiliation:
Department of Geology and Geophysics, University of Calgary, Alberta T2N 1N4, Canada,
R. Andrew Macrae
Affiliation:
Department of Geology, Saint Mary's University, Halifax, Nova Scotia B3H 3C3, Canada,
L. V. Hills
Affiliation:
Department of Geology and Geophysics, University of Calgary, Alberta T2N 1N4, Canada,
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Abstract

A large sample of excellently preserved ammonites from concretions concentrated at a single horizon near the base of the Macdougall Point Member of the Christopher Formation (Aptian–Albian age; Early Cretaceous) is the basis for recognizing a new species of the boreal ammonite genus Pseudogastroplites (P. draconensis). The dimorphic nature of the genus is established, two variants are recognized (P. draconensis var. robusta and P. draconensis var. gracile), and the generic diagnosis is emended. Retention of the genus Pseudogastroplites Jeletzky, 1980 as distinct from Gastroplites McLearn, 1930 is proposed. The concretions also yield Pseudopulchellia flexicostata (Imlay, 1961), inoceramid bivalves, fish remains, and a palynological flora, and are dated as late middle Albian.

Type
Research Article
Information
Journal of Paleontology , Volume 79 , Issue 2 , March 2005 , pp. 219 - 241
Copyright
Copyright © The Paleontological Society 

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References

Aguirre-Urreta, M. B., and Rawson, P. F. 1993. The Lower Cretaceous Paraspiticeras from the Neuquen Basin, west-central Argentina. Neues Jahrbuch für Geologie und Paläontologie. Abhandlungen, 188:5169.Google Scholar
Alberti, G. 1961. Zur Kenntnis mesozoischer und alttertiärer Dinoflagellaten und Hystrichosphaerideen von Nord- und Mitteldeutschland sowie einigen anderen europäischen Gebieten. Palaeontographica, Abteilung A, 116:158, pls. 1, 2.Google Scholar
Bardhan, S., Gangopadhyay, T. K., and Mandal, U. 2002. How far did India drift during the Late Cretaceous? Placenticeras kaffrarium Etheridge, 1904 (Ammonoidea) used as a measuring tape, p. 193217. In Bose, P. K., Sarkar, S., and Eriksson, P. G. (eds.), Rift Basins: Sedimentology and Palaeontology. Elsevier, Amsterdam.Google Scholar
Barss, M. S., and Williams, G. L. 1973. Palynology and nannofossil processing techniques. Geological Survey of Canada Paper, 73–26, 25 p.Google Scholar
Bint, A. N. 1986. Fossil Ceratiaceae: a restudy and new taxa from the mid-Cretaceous of the Western Interior, U.S.A. Palynology, 10:135180.Google Scholar
Birkelund, T. 1965. Ammonites from the Upper Cretaceous of West Greenland. Meddelelser om Grønland, 179, 192 p.Google Scholar
Bloch, J. D., Schröder-Adams, C. J., Leckie, D. A., Craig, J., and Mcintyre, D. J. 1999. Sedimentology, micropaleontology, geochemistry and hydrocarbon potential of shale from the Cretaceous lower Colorado Group in western Canada. Geological Survey of Canada Bulletin, 531, 133 p.Google Scholar
Braunberger, W. F., and Hall, R. L. 2001. Ammonoid faunas from the Cardium Formation (Turonian–Coniacian, Upper Cretaceous) and contiguous units, Alberta, Canada. I. Scaphitidae. Canadian Journal of Earth Sciences, 38:333346.Google Scholar
Brideaux, W. W. 1971. Palynology of the Lower Colorado Group, central Alberta, Canada. I. Introductory remarks. Geology and microplankton studies. Palaeontographica, Abteilung B, 135:53114.Google Scholar
Brideaux, W. W., and Mcintyre, D. J. 1975. Miospores and microplankton from Aptian–Albian rocks along Horton River, District of Mackenzie. Geological Survey of Canada Bulletin, 252, 85 p.Google Scholar
Bujak, J. P., and Davies, E. H. 1983. Modern and fossil Peridiniineae. American Association of Stratigraphic Palynologists Contributions, 13, 203 p.Google Scholar
Callomon, J. H. 1984. A review of the biostratigraphy of the post-Lower Bajocian Jurassic ammonites of western and northern North America, p. 143174. In Westermann, G. E. G. (ed.), Jurassic–Cretaceous Biochronology and Paleogeography of North America. Geological Association of Canada Special Paper, 27.Google Scholar
Cobban, W. A. 1951. Scaphitoid cephalopods of the Colorado Group. U.S. Geological Survey Professional Paper, 239, 42 p.Google Scholar
Cobban, W. A. 1969. The Late Cretaceous ammonites Scaphites leei Reeside and Scaphites hippocrepis (DeKay) in the Western Interior of the United States. U.S. Geological Survey Professional Paper, 619, 29 p.Google Scholar
Cobban, W. A., and Hook, S. C. 1980. The Upper Cretaceous (Turonian) ammonite family Coilopoceratidae Hyatt in the western interior of the United States. U.S. Geological Survey Professional Paper, 1192, 28 p.Google Scholar
Cobban, W. A., and Kennedy, W. J. 1993. The Upper Cretaceous ammonite Menuites in the western interior of the United States. U.S. Geological Survey Professional Paper, 1533, 14 p.Google Scholar
Cookson, I. C., and Eisenack, A. 1958. Microplankton from Australian and New Guinea Upper Mesozoic sediments. Proceedings of the Royal Society of Victoria, 70:1979.Google Scholar
Cookson, I. C., and Eisenack, A. 1960. Microplankton from Australian Cretaceous sediments. Micropaleontology, 6:118.Google Scholar
Costa, L. I., and Davey, R. J. 1992. Chapter 3: dinoflagellate cysts of the Cretaceous system, p. 99153. In Powell, A. J. (ed.), A Stratigraphic Index of Dinoflagellate Cysts. Chapman and Hall, London.Google Scholar
Davey, R. J. 1969. Non-calcareous microplankton from the Cenomanian of England, northern France and North America, Pt. I. British Museum (Natural History) Geology Bulletin, 17:103180.Google Scholar
Davey, R. J. 1970. Non-calcareous microplankton from the Cenomanian of England, northern France and North America, Pt. II. British Museum (Natural History) Geology Bulletin, 18:333397.Google Scholar
Davey, R. J. 1979. Marine Apto–Albian palynomorphs from Holes 400A and 402A, IPOD Leg 48, northern Bay of Biscay, p. 547577. In Montadert, L. et al. (eds.), Deep Sea Drilling Project, Washington, Initial Reports, 48.Google Scholar
Davey, R. J., and Verdier, J.-P. 1971. An investigation of microplankton assemblages from the Albian of the Paris Basin. Verhandelingen der Koninklijke Nederlandse Akademie van Wetenschappen, Afdeeling Natuurkunde, Eerste Reeks, 26:158.Google Scholar
Davis, R. A., Landman, N. H., Dommergues, J.-L., Marchand, D., and Bucher, H. 1996. Mature modifications and dimorphism in Ammonoid Cephalopods, p. 463539. In Landman, N. H., Tanabe, K., and Davis, R. A. (eds.), Ammonoid Paleobiology. Plenum, New York.Google Scholar
Deflandre, G., and Courteville, H. 1939. Note préliminaire sur les microfossiles des silex crétacés du Cambrésis. Bulletin de la société française de microscopie, 8:95106.Google Scholar
Doerenkamp, A., Jardine, S., and Moreau, P. 1976. Cretaceous and Tertiary palynomorph assemblages from Banks Island and adjacent areas (N.W.T.). Bulletin of Canadian Petroleum Geology, 24:372417.Google Scholar
Douvillé, H. 1890. Sur la classification des Cératites de la Craie. Bulletin de la Societe Geologique de France, series 3, 18:275292.Google Scholar
Duxbury, S. 1980. Barremian phytoplankton from Speeton, east Yorkshire. Palaeontographica, Abteilung B, 173:107146.Google Scholar
Eisenack, A. 1958. Mikroplankton aus dem norddeutschen Apt, nebst einigen Bemerkungen über fossile Dinoflagellaten. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen, 106:383422.Google Scholar
Eisenack, A., and Cookson, I. C. 1960. Microplankton from Australian Lower Cretaceous sediments. Proceedings of the Royal Society of Victoria, 72:111.Google Scholar
Embry, A. F. 1985. Stratigraphic subdivision of the Isachsen and Christopher formations (Lower Cretaceous), Arctic Islands, p. 239246. In Current Research, Pt. B. Geological Survey of Canada Paper, 85–1B.Google Scholar
Embry, A. F. 1991. Mesozoic history of the Arctic Islands, p. 370432. In Trettin, H. P. (ed.), Geology of the Innuitian Orogen and Arctic Platform of Canada and Greenland. Geological Survey of Canada, Geology of Canada, no. 3.Google Scholar
Gangopadhyay, T. K., and Bardhan, S. 2000. Dimorphism and a new record of Barroisiceras De Grossouvre (Ammonoidea) from the Coniacian of Bagh, central India. Canadian Journal of Earth Sciences, 37:13771387.CrossRefGoogle Scholar
Gocht, H. 1957. Mikroplankton aus dem nordwestdeutschen Neokom (Teil I). Paläontologische Zeitschrift, 31:163185.CrossRefGoogle Scholar
Gocht, H. 1959. Mikroplankton aus dem nordwestdeutschen Neokom (Teil II). Paläontologische Zeitschrift, 33:5089.Google Scholar
Grossouvre, A. De. 1894. Recherches sur la Craie supérieure. Duexième partie: Paléontologie. Les ammonites de la Craie supérieure. Memoires du Service de la Carte Geologique Detaillee de la France 1893, 264 p.Google Scholar
Haas, O. 1946. Intraspecific variation in, and ontogeny of, Prionotropis woollgari and Prionocyclus wyomingensis. Bulletin of the American Museum of Natural History, 86:141224.Google Scholar
Heywood, W. W. 1957. Isachsen area, Ellef Ringnes Island, District of Franklin, Northwest Territories. Geological Survey of Canada Paper, 56–8, 36 p.Google Scholar
Hyatt, A. 1867. The fossil cephalopods of the Museum of Comparative Zoology. Bulletin of the Museum of Comparative Zoology, Harvard, 5:71102.Google Scholar
Hyatt, A. 1903. Pseudoceratites of the Cretaceous. United States Geological Survey Monograph, 44, 352 p.Google Scholar
Imlay, R. W. 1961. Characteristic Lower Cretaceous megafossils from northern Alaska. U.S. Geological Survey Professional Paper, 335, 74 p.Google Scholar
Jeletzky, J. A. 1980. New or poorly known, biochronologically and paleobiogeographically important Gastroplitinid and Cleoniceratinid (Ammonitida) taxa from Middle Albian rocks of mid-western and Arctic Canada. Geological Survey of Canada Paper, 79–22, 63 p.Google Scholar
Jeletzky, J. A., and Waage, K. M. 1978. Revision of Ammonites conradi Morton 1834, and the concept of Discoscaphites Meek 1870. Journal of Paleontology, 52:11191132.Google Scholar
Kennedy, W. J., and Hancock, J. M. 1970. Ammonites of the genus Acanthoceras from the Cenomanian of Rouen, France. Palaeontology, 13:462490.Google Scholar
Kennedy, W. J., and Wright, C. W. 1984. The Cretaceous ammonite Ammonites requienianus d'Orbigny, 1841. Palaeontology, 27:281293.Google Scholar
Kennedy, W. J., Cobban, W. A., and Landman, N. H. 2001. A revision of the Turonian members of the ammonite subfamily Collignoniceratinae from the United States western interior and Gulf coast. Bulletin of the American Museum of Natural History, 267, 148 p.2.0.CO;2>CrossRefGoogle Scholar
Kennedy, W. J., Wright, C. A., and Hancock, J. M. 1980. The European species of the Cretaceous ammonite Romaniceras with a revision of the genus. Palaeontology, 23:325362.Google Scholar
Kilian, C. C. C. W. 1910. Sur l'origine du groupe de l'Ammonites percevali Uhlig du Barremien. Bulletin de la Societe Geologique de France, series 4, 10:7.Google Scholar
Koenen, A. Von. 1898. Nachtrag zu Über Fossilien der unteren Kreide am Ufer des Mungo in Kamerun. Abhandlungen der Koeniglichen Gesellschaft der Wissenschaften zu Goettingen, n.s., 1:5165.Google Scholar
Landman, N. H. 1987. Ontogeny of the Upper Cretaceous (Turonian–Santonian) scaphitid ammonites from the Western Interior of North America: systematics, developmental patterns, and life history. Bulletin of the American Museum of Natural History, 185:117241.Google Scholar
Landman, N. H. 1989. Iterative progenesis in Upper Cretaceous ammonites. Paleobiology, 15:95117.Google Scholar
Lehmann, U. 1981. The Ammonites. Their Life and their World. Cambridge University Press, Cambridge, U.K., 246 p.Google Scholar
Lentin, J. K., and Williams, G. L. 1976. A monograph of fossil peridinioid dinoflagellate cysts. Bedford Institute of Oceanography, Report Series, BI-R-75-16, 237 p.Google Scholar
Lentin, J. K., and Williams, G. L. 1985. Fossil dinoflagellates: index to genera and species (1985 edition). Canadian Technical Report of Hydrography and Ocean Sciences, 60, 451 p.Google Scholar
Lucas-Clark, J. 1987. Wigginsiella n. gen., Spongodinium, and Apteodinium as members of the Aptiana–Ventriosum complex (fossil Dinophyceae). Palynology, 11:155184.Google Scholar
Makowski, H. 1962. Problem of sexual dimorphism in ammonites. Palaeontologia Polonica, 12, 92 p.Google Scholar
Matsumoto, T. 1965. A monograph of the Collignoniceratidae from Hokkaido, Pt. 1. Memoir, Faculty of Science, Kyushu University, series D (Geology), 14, 80 p.Google Scholar
Matsumoto, T., Saito, R., and Fukada, A. 1957. Some acanthoceratids from Hokkaido, Pt. 1. Memoir, Faculty of Science, Kyushu University, series D (Geology), 6, 45 p.Google Scholar
McLearn, F. H. 1930. Notes on some Canadian Mesozoic faunas. Transactions of the Royal Society of Canada, series 3, 24:17.Google Scholar
McLearn, F. H. 1931. The Gastroplites and other Lower Cretaceous faunas of the northern Great Plains. Transactions of the Royal Society of Canada, series 3, 25:17.Google Scholar
Meek, F. B. 1871. Preliminary paleontological report, consisting of lists of fossils, with descriptions of some new types, etc. United States Geological and Geographical Surveys of the Territories, Annual Report, 4(1870):287318.Google Scholar
Meek, F. B. 1876. A report on the invertebrate Cretaceous and Tertiary fossils of the Upper Missouri Country. F. V. Hayden, Report of the United States Geological and Geographical Surveys of the Territories, 9, lxiv + 629 p.Google Scholar
Neumayr, M. 1875. Die Ammoniten der Kreide und die Systematik der Ammonitiden. Zeitschrift der Deutschen Geologischen Gesellschaft, 27:854942.Google Scholar
Nøhr-Hansen, H. 1993. Dinoflagellate cyst stratigraphy of the Barremian to Albian, Lower Cretaceous, North East Greenland. Grønlands Geologiske Undersøgelse Bulletin, 166, 171 p.Google Scholar
Nøhr-Hansen, H., and Mcintyre, D. J. 1998. Upper Barremian to Upper Albian (Lower Cretaceous) dinoflagellate cyst assemblages, Canadian Arctic Archipelago. Palynology, 22:143166.Google Scholar
Pocock, S. A. J. 1962. Microfloral analysis and age determination of strata at the Jurassic–Cretaceous boundary in the western Canada plains. Palaeontographica, Abteilung B, 111:195.Google Scholar
Reeside, J. B., and Cobban, W. A. 1960. Studies of the Mowry Shale and contemporary formations in the United States and Canada. U.S. Geological Survey Professional Paper, 355, 126 p.Google Scholar
Reyment, R. A. 1988. Does sexual dimorphism occur in Upper Cretaceous ammonites? Senckenbergiana Lethaea, 69:109119.Google Scholar
Singh, C. 1971. Lower Cretaceous microfloras of the Peace River area, northwestern Alberta. Research Council of Alberta Bulletin, 28:301542.Google Scholar
Singh, C. 1983. Cenomanian microfloras of the Peace River area, northwestern Alberta. Research Council of Alberta Bulletin, 44, 322 p.Google Scholar
Spath, L. F. 1922. On the Senonian ammonite fauna of Pondoland. Transactions of the Royal Society of South Africa, 10:113148.Google Scholar
Stelck, C. R. 1995. Stelckiceras and other Gastroplitinae (Ammonitina), from the Albian (Lower Cretaceous) Fort St. John Group, Peace River area, northeastern British Columbia. Canadian Journal of Earth Sciences, 32:977992.Google Scholar
Stover, L. E., and Evitt, W. R. 1978. Analyses of pre-Pleistocene organic-walled dinoflagellates. Stanford University Publications, Geological Sciences, 15, 300 p.Google Scholar
Whiteaves, J. F. 1885. Description of a new species of ammonite from the Cretaceous rocks of Fort St. John on the Peace River. Proceedings and Transactions of the Royal Society of Canada, section 4, 2:239240.Google Scholar
Whiteaves, J. F. 1893. Notes on the ammonites of the Cretaceous rocks of the District of Athabaska, with descriptions of four new species. Transactions of the Royal Society of Canada (1892), section 4, 10:111121.Google Scholar
Williams, G. L., Lentin, J. K., and Fensome, R. A. 1998. The Lentin and Williams Index of Fossil Dinoflagellates (1998 edition). American Association of Stratigraphic Palynologists Contributions Series, No. 34, 817 p.Google Scholar
Wright, C. W. 1952. A classification of the Cretaceous ammonites. Journal of Paleontology, 26:213222.Google Scholar
Wright, C. W., Callomon, J. H., and Howarth, M. K. 1996. Treatise on Invertebrate Paleontology, Pt. L, Mollusca 4 (revised). Geological Society of America and University of Kansas, Lawrence, 362 p.Google Scholar