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Upper Campanian (Cretaceous) ammonites from the Shinarish Formation, Djebel Sinjar, northwest Iraq

Published online by Cambridge University Press:  14 July 2015

W. J. Kennedy  and
G. Lunn
W. J. Kennedy
Affiliation:
Geological Collections, University Museum of Natural History, Parks Road, Oxford OX1 3PW, UK
G. Lunn
Affiliation:
Petroleum Geological Analysis Limited, 107 London Road, Reading, RG1 4QA, UK
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Abstract

The lower part of the Shinarish Formation of Djebel Sinjar, northwest Iraq, yields an ammonite assemblage of Upper Campanian age dominated by heteromorph taxa: Nostoceras (Nostoceras) ellipticum new species, N. (N.)(?) budanyi Foldyna and Vašiček, 1977, N. (N.) cf. hyatti Stephenson, 1941, Exiteloceras(?) etequense Lewy, 1969, Didymoceras sp., unassigned nostoceratid fragments, Solenoceras reesidei Stephenson, 1941, and Lewyites oronensis (Lewy, 1969), together with the normally coiled Hauericeras (Gardeniceras) sp. Several of the species present also occur in the lower part of the Mishash Formation in Israel, in the Gulf Coast region of the United States, and as rarities in the U.S. Western Interior. All occurrences are compatible with an Upper Campanian attribution.

Type
Research Article
Information
Journal of Paleontology , Volume 74 , Issue 3 , May 2000 , pp. 464 - 473
Copyright
Copyright © The Paleontological Society 2000

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References

Al-Rawi, D. 1973. A contribution to the geology and structure of Djebel Sinjar. Zeitschrift für Geologische Wissenschaften, 1:14411447.Google Scholar
Al-Shaibani, S. K., Al-Hashimi, H. A. J., and Ghafour, I. M. 1993. Biostratigraphy of the Cretaceous-Tertiary boundary in well Tel Hajar no. 1, Sinjar area, northwest Iraq. Iraqi Geological Journal, 26:7797.Google Scholar
Baily, W. H. 1855. Description of some Cretaceous fossils from South Africa. Quarterly Journal of the Geological Society of London, 11:454465.CrossRefGoogle Scholar
Cobban, W. A. 1974. Ammonites from the Navesink Formation at Atlantic Highlands, New Jersey. United States Geological Survey, Professional Paper, 845, 21 p.Google Scholar
Cobban, W. A., and Kennedy, W. J. 1994. Upper Cretaceous ammonites from the Coon Creek Tongue of the Ripley Formation at it's type locality in McNairy County, Tennessee. United States Geological Survey, Bulletin, 2073:B1B12.Google Scholar
Cobban, W. A., Kennedy, W. J., and Scott, G. R. 1992. Upper Cretaceous heteromorph ammonites from the Baculites compressus Zone, Pierre Shale in north-central Colorado. United States Geological Survey Bulletin, 2024:A1A11.Google Scholar
Conrad, T. A. 1855. Descriptions of eighteen new Cretaceous and Tertiary fossils. Proceedings of the Philadelphia Academy of Natural Sciences, 7:265268.Google Scholar
Conrad, T. A. 1860. Descriptions of new species of the Cretaceous and Eocene fossils of Mississippi and Alabama. Journal of the Academy of Natural Sciences of Philadelphia, (2), 4:275298.Google Scholar
Diener, C. 1925. Ammonoidea neocretacea. Fossilium Catalogus (1: Animalia), 29:1244.Google Scholar
Douvillé, H. 1929. Les Ammonites de la Craie supérieure en Egypte et au Sinaï. Mémoires de l'Academie des Sciences de l'Institut de France, 60, 44 p. (Misdated 1928)Google Scholar
Dunnington, H. B., Wetzel, R., and Morton, D. M. 1959. Mesozoic, p. 269274. In Lexique stratigraphique International 3, Asie, fascicule 10a, Iraq. Centre Nationale de le Recherche Scientifique, Paris, 333 P.Google Scholar
El-Anabaawy, M. I. H., and Sadek, A. 1979. Palaeoecology of the Shinarish Formation (Maestrichtian) in northern Iraq by means of microfacies analysis and clay mineral investigation. Palaeogeography, Palaeoclimatology, Palaeoecology, 26:173180.CrossRefGoogle Scholar
Foldyna, J., and Vašiček, Z. 1977. Contribution to the biostratigraphy of the Shiranisch Formation in the region of Jebel Sinjar, NW Iraq. Sborník vědeckých praci Vyoské; šklody báňské; v Ostravě Ročnik rok 1976, 22:117130.Google Scholar
Forbes, E. 1846. Report on the Fossil Invertebrata from southern India, collected by Mr. Kaye and Mr. Cunliffe. Transactions of the Geological Society of London, 7:97174.Google Scholar
Gill, J. R., and Cobban, W. A. 1973. Stratigraphy and geologic history of the Montana Group and equivalent rocks, Montana, Wyoming and North and South Dakota. United States Geological Survey, Professional Paper, 776, 37 p.Google Scholar
Gill, T. 1871. Arrangement of the Families of Mollusks. Smithsonian Miscellaneous Collections, 227, xvi + 49 p.Google Scholar
Giudichi, P., and Pallini, G. 1993. Nostoceratidae (Ammonoidea) del Campaniano superiore nel Salento (Lecce-Italia meridionale). Palaeopelagos, 3:311320.Google Scholar
de Grossouvre, A. 1894. Recherches sur la craie supérieure, 2, Paléontologie. Les ammonites de la craie supérieure. Mémoires du Service de la Carte Géologique déaille de la France, 264 p. (misdated 1893).Google Scholar
Hamama, H. H., and Kassab, A. S. 1990. Upper Cretaceous ammonites of the Duwi Formation in Gabal Abu Had and Wadi Hamama, Eastern Desert, Egypt. Journal of African Earth Sciences, 3:453464.CrossRefGoogle Scholar
Hyatt, A. 1889. Genesis of the Arietidae. Smithsonian Contributions to Knowledge, 673, xi + 239 p.Google Scholar
Hyatt, A. 1894. Phylogeny of an acquired characteristic. Proceedings of the American Philosophical Society, 32:349647.Google Scholar
Hyatt, A. 1900. Cephalopoda, p. 502604. In Von Zittel, K. A., 1896-1900, Textbook of Palaeontology, translated by Eastman, C. R. Macmillan, London and New York.Google Scholar
Kennedy, W. J. 1986. Campanian and Maastrichtian ammonites from northern Aquitaine, France. Palaeontological Association of London. Special Papers in Palaeontology, 36, 145 p.Google Scholar
Kennedy, W. J., and Christensen, W. K. 1997. Santonian to Maastrichtian ammonites from Scania, southern Sweden. Fossils and Strata, 44:75128.Google Scholar
Kennedy, W. J., and Cobban, W. A. 1993. Ammonites from the Saratoga Chalk (Upper Cretaceous) Arkansas. Journal of Paleontology, 67:404434.CrossRefGoogle Scholar
Kennedy, W. J., and Cobban, W. A. 1999. Campanian (late Cretaceous) ammonites from the Bergstrom Formation in central Texas. Acta Geological Polonica, 49:6780.Google Scholar
Kureshy, A. A. 1970. The biostratigraphy of Sinjar, Iraq. Bulletin of the College of Science, Baghdad, 11:98104.Google Scholar
Larson, N. L., Jorgensen, S. D., Farrar, R. A., and Larson, P. L. 1997. Ammonites and the other cephalopods of the Pierre Seaway. Geoscience Press, Tucson, xi + 148 p.Google Scholar
Lewy, Z. 1967. Some late Campanian nostoceratid ammonites from southern Israel. Israel Journal of Earth Sciences, 16:165173.Google Scholar
Lewy, Z. 1969. Late Campanian heteromorph ammonites from southern Israel. Israel Journal of Earth Sciences, 18:109135.Google Scholar
Lüger, P., and Gröschke, M. 1989. Late Cretaceous ammonites from the Wadi Quena area in the Egyptian Desert. Palaeontology, 32:355407.Google Scholar
Matsumoto, T. 1938. A biostratigraphic study of the Cretaceous deposits of the Naibuchi valley, south Karahuto. Proceedings of the Imperial Academy of Japan, 14:190194.CrossRefGoogle Scholar
Matsumoto, T., and Miyauchi, T. 1984. Some Campanian ammonites from the Soya area. Special Paper, Palaeontographical Society of Japan, 27:3391.Google Scholar
Matsumoto, T., and Obata, I. 1955. Some Upper Cretaceous Desmoceratids from Hokkaido and Saghalien. Memoirs of the Faculty of Science, Kyushu University, Series D, Geology, 5:119151.CrossRefGoogle Scholar
Matsumoto, T., Toshimitsu, S. T., and Kawashita, Y. 1990. On Hauericeras de Grossouvre, 1894, a Cretaceous ammonite genus. Transactions and Proceedings of the Palaeontological Society of Japan, N.S., 158:439458.Google Scholar
Meek, F. B., and Hayden, F. V. 1856. Descriptions of new species of Gasteropoda and Cephalopoda from the Cretaceous formation of Nebraska Territory. Proceedings of the Academy of Natural Sciences of Philadelphia, 8 (for 1856):7072.Google Scholar
Morton, S. G. 1842. Description of some new species of organic remains of the Cretaceous Group of the United States; with a tabular view of the fossils hitherto discovered in this formation. Journal of the Academy of Natural Sciences of Philadelphia, 8:207227.Google Scholar
Naoum, A. A., Atiya, M. S., and Al-Ubaidi, M. F. 1981. Mesoscopic structures associated with Sinjar Anticline. Journal of the Geological Society of Iraq, 14:7180.Google Scholar
Odin, G. S. 1996. Definition of a Global Boundary Stratotype Section and Point for the Campanian/Maastrichtian boundary. Bulletin de l'Institut Royal des Sciences Naturelles de Belgique, Sciences de la Terre, 66 (Supplément):111117.Google Scholar
Roemer, F. A. 1840-1841. Die Versteinerungen des norddeutschen Kreidegebirges. Hahn'schen Hofbuchhandlung, Hannover, 145 p.Google Scholar
Schlüter, C. 1871-1876. Cephalopoden der oberen deutschen Kreide. Palaeontographica, 21, 124, (1871); 21, 25-120, (1872); 24, 1-144 (121-264) + x (1876).Google Scholar
Shumard, B. F. 1861. Descriptions of new Cretaceous fossils from Texas. Transactions of the Academy of Sciences of St. Louis , 1:590610.Google Scholar
Spath, L.F. 1926. On new ammonites from the English Chalk. Geological Magazine, 63:7783.CrossRefGoogle Scholar
Stephenson, L. W. 1941. The larger invertebrate fossils of the Navarro Group of Texas (exclusive of corals and crustaceans and exclusive of the fauna of the Escondido Formation). University of Texas Publication, 4101, 641 p.Google Scholar
Whitfield, R. P. 1877. Preliminary report on the paleontology of the Black Hills, containing descriptions of new species of fossils from the Potsdam, Jurassic, and Cretaceous formations of the Black Hills of Dakota. United States Geographical and Geological Survey of the Rocky Mountain Region, 49 p.Google Scholar
Whitfield, R. P. 1880. Paleontology of the Black Hills of Dakota, p. 325468. In Newton, H. and Jenney, W. P. (eds.), Report on the geology and resources of the Black Hills of Dakota. United States Geographic and Geological Survey of the Rocky Mountain Region.Google Scholar
Wiedmann, J. 1966. Stammesgeschichte und System der posttriadischen Ammonoideen; ein Überblick. Neues Jahrbuch fur Geologie und Paläontologie Abhandlungen, 125:4979; 127:13-81.Google Scholar
Wright, C. W. 1996. Treatise on Invertebrate Paleontology, Part L, Mollusca 4: Cretaceous Ammonoidea (with contributions by J.H. Calloman (sic) and M.K. Howarth). Geological Survey of America and University of Kansas, Boulder, Colorado, and Lawrence, Kansas, 362 p.Google Scholar
Youash, Y. Y., and Nacum, A. A. 1970. General geology of Sinjar area. Bulletin of the College of Science, Baghdad, 11:137151.Google Scholar
von Zittel, K. A. 1884. Handbuch der Palaeontology, 1, p. 329522, Abt. 2, Lief 3, Cephalopoda. R. Oldenbourg, Munich and Leipzig.Google Scholar
von Zittel, K. A. 1895. Grundzüge der Palaeontologie (Palaeozoologie). R. Oldenbourg, Munich and Leipzig, vii + 972 p.Google Scholar