Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-07T21:04:06.752Z Has data issue: false hasContentIssue false
  • English
  • Français

Upper Cretaceous (upper Santonian) Boehmoceras fauna from the Gulf Coast region of the United States

Published online by Cambridge University Press:  01 May 2009

W. J. Kennedy  and
W. A. Cobban
W. J. Kennedy
Affiliation:
Geological Collections, University Museum, Parks Road, Oxford OX1 3PW, U.K.
W. A. Cobban
Affiliation:
U.S. Geological Survey, Mail Stop 919, Box 25046, Federal Center, Denver, Colorado 80225, U.S.A.
Get access Rights & Permissions [Opens in a new window]

Abstract

An upper Santonian fauna dominated by the curved baculitid Boehmoceras Riedel, 1931, occurs as phosphatic moulds in the Tombigbee Sand Member of the Eutaw Formation in Mississippi and Alabama, and also is reworked into the base of the Mooreville Chalk; a similar assemblage is present in the middle part of the Pen Formation of the Big Bend area, Texas. The assemblage is: Pseudoschloenbachia (Pseudoschloenbachia) mexicana (Renz, 1936), Placenticeras syrtale (Morton, 1834), Reginaites leei (Reeside, 1927a), Reginaites exilis sp. nov., Texanites (Texanites) sp. juv. cf. gallicus Collignon, 1948, Texanites (Plesiotexanites) shiloensis Young, 1963, Texanitinae incertae sedis, Hyphantoceras (?) amapondense (van Hoepen, 1921).Glyptoxoceras spp., Boehmoceras arculus (Morton, 1834) and Scaphites (Scaphites) leei Reeside, 1927a, form I. The assemblage is referred to the uppermost Santonian Texanites (Plesiotexanites) shiloensis zone of the Gulf Coast sequence. Common occurrence of Scaphites (S.) leei I and Reginaites leei suggest correlation with the Upper Santonian Desmoscaphites erdmanni zone of the U.S. Western Interior; common occurrence of Boehmoceras arculus (= B. loescheri of European authors) suggests correlation with the Marsupites–granulata zone at the top of the North German Santonian. These data strengthen intercontinental correlation of the Santonian–Campanian boundary sequence. They also provide a biostratigraphic link to a numerical age of 84.2±0.9 Ma from a bentonite at a slightly lower level in the Tombigbee Sand Member of the Eutaw Formation in Mississippi.

Type
Articles
Information
Geological Magazine , Volume 128 , Issue 2 , March 1991 , pp. 167 - 189
Copyright
Copyright © Cambridge University Press 1991

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

Adams, G. I., Butts, C., Stephenson, L. W. & Cooke, C. W. 1926. Geology of Alabama. Geological survey of Alabama Special Report no. 14, 312 pp., 96 pls.Google Scholar
Adkins, W. S. 1929. Some Upper Cretaceous Taylor ammonites from Texas. University of Texas Bulletin 2901, 203–11, pls. 5, 6.Google Scholar
Arnaud, H. 1878. Parallélisme de la craie supérieur dans le Nord et le Sud-Ouest de la France. Bulletin de la Société Géologique de France 6 (3), 205–11.Google Scholar
Baily, W. H. 1855. Description of some Cretaceous fossils from South Africa. Collected by Capt. Garden of the 45th Regiment. Quarterly Journal of the Geological Society of London 11, 454–65, pls. 11–13.CrossRefGoogle Scholar
Böhm, J. 1909. Ueber Inoceramus crippsi auct. Abhandlungen der Königlich Preussischen Geologischen Landesanstalt N.F. 56, 3958, pls. 9–14.Google Scholar
Bottjer, D. J. 1985. Trace fossils and paleoenvironments of two Arkansas Upper Cretaceous discontinuity surfaces. Journal of Paleontology 59, 282–98.Google Scholar
Brunnschweiler, R. O. 1966. Upper Cretaceous ammonites from the Carnavon Basin of Western Australia. 1. The heteromorph Lytoceratina. Bulletin of the Bureau of Mineral Resources, Geology and Geophysics 58, 58 pp., 8 pls.Google Scholar
Chiplonkar, G. W. & Ghare, M. A. 1976. Palaeontology of the Bagh Beds – Part VII: Ammonoidea. Bulletin of Earth Science (for 1976), 4 and 5, 110, 2 pls.Google Scholar
Cobban, W. A. 1952. Scaphitoid cephalopods of the Colorado group. United States Geological Survey Professional Paper no. 239, 39 pp., 21 pls. (1951 imprint).CrossRefGoogle Scholar
Cobban, W. A. 1955. Some guide fossils from the Colorado Shale and Telegraph Creek formation, northwestern Montana. Billings Geological Society Guidebook,6th Annual Field Conference;Sweetgrass arch. – Disturbed belt,Montana, 198207, pls. 1–4.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. United States Geological Survey Professional Paper no. 619, 127.Google Scholar
Cobban, W. A. 1976. Ammonite record from the Mancos Shale of the Castle Valley – Woodside area, east-central Utah. Brigham Young University Geology Studies 22, 117–26, 2 pls.Google Scholar
Cobban, W. A. & Reeside, J. B. Jr. 1952. Correlation of the Cretaceous formations of the Western Interior of the United States. Bulletin of the Geological Society of America 63, 1011–44.CrossRefGoogle Scholar
Collignon, M. 1948. Ammonites néocrétacées du Menabe (Madagascar). I. Les Texanitidae. Annales Géologiques du Services des mines de Madagascar 13, 49107 (1–63), pls. 7–20 (1–14); 7–101 (64–120), pls. 15–23.Google Scholar
Dane, C. H. 1929. Upper Cretaceous formations of southwestern Arkansas. Arkansas Geological Survey Bulletin 1, 215 pp., 29 pls.Google Scholar
Dekay, J. E. 1828. Report on several fossil multilocular shells from the state of Delaware: with observations on a second specimen of the new fossil genus Eurypterus. Annals of the Lyceum of Natural History of New York, 2, 273–9, pl. 5, figs 2–5 only.Google Scholar
Dhont, A. V. 1987. Bivalves from the Hochmoos Formation (Gosau Group Oberösterreich, Austria). Annales der Naturhistorisches Museum Wien, 88A, 41101, 6 pls.Google Scholar
Douvillé, H. 1890. Sur la classification des Cératites de la Craie. Bulletin de la Société Géologique de France 18 (13), 275–92.Google Scholar
Dujardin, F. 1837. Mémoire sur les couches du sol en Touraine et déscription des coquilles de la craie et des Faluns. Mémoires de la Société Géologique de France 2, 211311, pls. 15–20.Google Scholar
Easton, W. H. 1960. Invertebrate Paleontology, xii + 701 pp. New York: Harper.Google Scholar
Ernst, G. & Schmid, F. 1979. Multistratigraphische Untersuchungen in der Oberkreide des Raumes Braunschweig – Hannover. Aspekte der Kreide Europas, IUGS Series A, 6, 1146.Google Scholar
Forbes, E. 1846. Report on the fossil Invertebrata from South India, collected by Mr. Kaye and Mr. Cunliffe. Transactions of the Geological Society of London 7 (2), 97174, pls. 7–19.CrossRefGoogle Scholar
Fürsich, F. T., Kennedy, W. J. & Palmer, T. J. 1981. Trace fossils at a regional discontinuity surface: the Austin–Taylor (Upper Cretaceous) contact in central Texas. Journal of Paleontology 55, 537–51, 4 pls.Google Scholar
Gill, T. 1871. Arrangement of the families of mollusks. Smithsonian Miscellaneous Collections no. 227, xvi + 49 pp.CrossRefGoogle Scholar
Grossouvre, A. De 1894. Recherches dur la craie supérieure, 2, Paléontologie. Les ammonites de la craie supérieure. Mémoires de la Carte Géologique Détaillée de la France, 264 pp., 39 pls. (1893 imprint).Google Scholar
Hoepen, E. C. N. van 1921. Cretaceous Cephalopoda from Pondoland. Annals of the Transvaal Museum 8, 148, pls. 1–11.Google Scholar
Hoepen, E. C. N. van 1968. New ammonites from Zululand. Annals of the Geological Survey of South Africa 4, 183–6, 7 pls. (1965).Google Scholar
Hupsch, J. W. C. A. F. 1768. Neue in der Naturgeschichte des Niederdeutschlands gemachte Entdeckungen einiger selten und wenig bekanten versteinerlen Schaalthiere, 159 pp., 9 pls. Frankfurt, Leipzig: der Metternichisschen Buchhandlung.Google Scholar
Hyatt, A. 1889. Genesis of the Arietidae. Smithsonian Contributions to Knowledge 673, xi + 239 pp., 14 pls.Google Scholar
Hyatt, A. 1900. Cephalopoda In Textbook of Palaeontology, (ed. von Zittel, K. A., 1896–1900, transl. Eastman, C. R.), pp. 502604. London, New York: Macmillan.Google Scholar
Hyatt, A. 1903. Pseudoceratites of the Cretaceous. Monographs of the United States Geological Survey 44, 351 pp., 47 pls.Google Scholar
Johnson, D. W. 1903. The geology of the Cerillos Hills, New Mexico. Contributions from the Department of Geology of Columbia University 10, 221 pp., pls. A-U, 1–14.Google Scholar
Kauffman, E. G. 1977. Illustrated guide to biostratigraphically important Cretaceous macrofossils, western interior basin, USA. Mountain Geologist 14, 225–74, 32 pls.Google Scholar
Kawada, M. 1929. On some new species of ammonites from the Naibuchi district, South Saghalien. Journal of the Geological Society of Tokyo 36, 16, pl. 14.CrossRefGoogle Scholar
Kennedy, W. J. 1985. Ammonite faunas of the Coniacian, Santonian and Campanian Stages in the Aquitaine Basin. Géologie Méditerranéenne 10, 103–13.CrossRefGoogle Scholar
Kennedy, W. J. 1987. Ammonites from the type Santonian and adjacent parts of northern Aquitaine, western France. Palaeontology 30, 765–82, pls. 80–82.Google Scholar
Kennedy, W. J. & Garrison, R. 1975. Morphology and genesis of nodular phosphates in the Cenomanian Glauconitic Marl of southeast England. Lethaia 8, 339–60.CrossRefGoogle Scholar
Kennedy, W. J. & Wright, C. W. 1983. Ammonites polyopsis Dujardin, 1837 and the Cretaceous ammonite family Placenticeratidae Hyatt, 1900. Palaeontology 26, 855–73, pls. 85–87.Google Scholar
Kennedy, W. J. & Wright, C. W. 1985. Evolutionary patterns in Late Cretaceous ammonites. Palaeontology 33, 131–43.Google Scholar
Klinger, H. C. 1985. Upper Cretaceous cephalopods from offshore deposits off the Natal south coast, South Africa. Palaeontologia Africana 26, 111.Google Scholar
Klinger, H. C. & Kennedy, W. J. 1977. Upper Cretaceous ammonites from a borehole near Richards Bay, South Africa. Annals of the South African Museum 72, 69107.Google Scholar
Klinger, H. C. & Kennedy, W. J. 1980. Cretaceous faunas from Zululand and Natal, South Africa. The ammonite family Texanitinae Collignon, 1948. Annals of the South African Museum 80, 1357.Google Scholar
Kullman, J. & Wiedmann, J. 1970. Significance of sutures in phylogeny of Ammonoidea. Palaeontological Contributions, University of Kansas 44, 132.Google Scholar
Lamarck, J. P. B. A. De M. de 1799. Prodrome d'une nouvelle classification des coquilles. Mémoires de la Société d'Histoire Naturelle de Paris (1799), 6390.Google Scholar
Lamarck, J. P. B. A. de M. de 1801. Systéme des Animaux sans vertébres, vii + 432 pp. Chez Déterville, Paris: The author.Google Scholar
Lasswitz, R. 1904. Die Kreide-Ammoniten von Texas (Collectio F. Roemer). Geologische und Palaeontologische Abhandlungen n.s. 6 (10), 221–59, pls. 13–20.Google Scholar
Lewy, Z. 1983. A well-preserved upper Santonian heteromorph ammonite from Israel. Geological Survey of Israel, Current Research 1982, 24–7.Google Scholar
Lewy, Z. 1984. Reginaites Reyment, 1957 in Santonian chalk in Israel. Geological Survey of Israel, Current Research 1983–1984, 3741.Google Scholar
McLearn, F. H. 1929. Cretaceous invertebrates. In Mesozoic palaeontology of Blairmore region, Alberta. National Museum of Canada Bulletin 58, 73–9, pls. 13–19.Google Scholar
Matsumoto, T. 1959. Upper Cretaceous ammonites of California. Part 1, Memoirs of the Faculty of Science, Kyushu University, Series D, Geology 8, 91171, pls. 30–45.CrossRefGoogle Scholar
Matsumoto, T. 1965. A monograph of the Collignoniceratidae from Hokkaido, Part 2. Memoirs of the Faculty of Science, Kyushu University, Series D, Geology 16, 209–43, pls. 36–43.CrossRefGoogle Scholar
Matsumoto, T. 1970. A monograph of the Collignoniceratidae from Hokkaido. Part IV. Memoirs of the Faculty of Science, Kyushu University, Series D, Geology 20, 115204, pls. 29–47.Google Scholar
Matsumoto, T. & Obata, I. 1963. A monograph of the Baculitidae from Japan. Memoirs of the Faculty of Science, Kyushu University, Series D, Geology 13, 1116, pls. 1–27.CrossRefGoogle Scholar
Maxwell, R. A., Lonsdale, J. T., Hazzard, R. T. & Wilson, J. A. 1967. Geology of Big Bend National Park, Brewster County, Texas. University of Texas Publication no. 6711, 320 pp., maps.Google Scholar
Meek, F. B. 1876. A report on the invertebrate Cretaceous and Tertiary fossils of the upper Missouri country. In Report of the United States Geological Survey of the Territories, vol. 9, (Hayden, F. V.), xiv + 629 pp., 45 pls.Google Scholar
Meek, F. B. & Hayden, F. V. 1862. Description of new Cretaceous fossils from Nebraska Territory, collected by the expedition sent out by the Government under the command of Lieut. John Mullan, U.S. Topographical Engineers, for the location and construction of a waggon road from the sources of the Missouri to the Pacific Ocean. Proceedings of the Academy of Natural Sciences of Philadelphia, for 1862, 21–8.Google Scholar
Morton, S. G. 1830. Synopsis of the Organic Remains of the Ferruginous Sand Formation of the United States, with Geological Remarks. American Journal of Science 18 (1), 243–50, 2 pls.Google Scholar
Morton, S. G. 1834. Synopsis of the organic remains of the Cretaceous groups of the United States. Illustrated by nineteen plates, to which is added an appendix containing a tabular view of the Tertiary fossils discovered in America, 88 pp., 18 pls. Philadelphia: Key and Biddle.Google Scholar
Müller, G. & Wollemann, A. 1906. Die mollusken Fauna des Untersenon von Braunschweig und Ilsede. II. Die Cephalopoden. Abhandlungen der Preussischen Geologischen Landesanstalt 47, 130, pls. 1–11.Google Scholar
Nowak, J. 1911. Untersuchungen über die Cephalopden der oberen Kreide in Polen. II. Teil. Die Skaphiten. Bulletin de I'Academie des Sciences de Cracovie. Classe des Sciences Mathematiques el Naturelles, Série B, Sciences Naturelles, for 1911, 547–89, pls. 32, 33.Google Scholar
Obradovich, J. D. 1988. A different perspective on glauconite as a chronometer for geologic time scale studies. Palaeoceanography 3, 757–70.CrossRefGoogle Scholar
Orbigny, A. d' 1850. Prodrome de paléontologie strati-graphique universelle des animaux mollusques el rayonnés 2, 428 pp., Paris: Masson.Google Scholar
Parkinson, J. 1811. Organic Remains of a Former World, Vol. 3, xvi + 479 pp., 22 pls., London: Sherwood, Neily and Jones.Google Scholar
Perch-Nielsen, K. 1979. Calcareous nannofossils from the Cretaceous between the North Sea and the Mediterranean. Aspekte der Kreide Europas, IUGS Series A, 6, 335–50.Google Scholar
Petrascheck, W. 1906. Ueber Inoceramen aus der Gosau und dem Flysch der Nordalpen. Jahrbuch der Kaiserlich-Königlichen Geologischen Reichsanstalt 56, 155–68, pl. 6.Google Scholar
Redtenbacher, A. 1873. Die Cephalopodenfauna der Gosauschichten in den nordöstlichen Alpen. Abhandlungen der Kaiserlich-Königlichen Geologischen Reichsanstalt 5, 91140, pls. 22–30.Google Scholar
Reeside, J. B. Jr 1927 a. The cephalopods of the Eagle sandstone and related formations in the western interior of the United States. United States Geological Survey Professional Paper no. 151, 40 pp., 45 pls.Google Scholar
Reeside, J. B. Jr, 1927 b. Cephalopods from the lower part of the Cody shale of Oregon Basin, Wyoming. United States Geological Survey Professional Paper no. 150-A, 119, pls. 1–8.Google Scholar
Renz, H. H. 1936. Neue Cephalopoden aus der oberen Kreide von Rio Grande del Norte (Mexico und Texas). Abhandlungen der Schweizerische Paläontologische Gesellschaft 57, 116, pls. 1–4.Google Scholar
Reyment, R. A. 1957. Über einige wirbellose Fossilien aus Nigeria und Kamerun, Westafrika. Palaeontographica 109–A, 41–70, pls. 7–11.Google Scholar
Richards, H. G. 1968. Catalogue of invertebrate fossil types at the Academy of Natural Sciences, Philadelphia. Academy of Natural Sciences of Philadelphia, Special Publication no. 8, 222 pp.Google Scholar
Riedel, L. 1931. Zur Stratigraphie und Faciesbilding im Oberemscher und Untersenon am Südrande des Beckens von Münster. Jahrbuch der Preussischen Geologischen Landesanstalt und Bergakademie, Münster 51, 605713, pls. 72–79.Google Scholar
Roemer, A. 18401841. Die Versteinerungen des norddeutschen Kreidegebirges, 145 pp., 16 pls. Hannover: Hahn'schen Hofbuchhandlung. (1–48, pls. 1–7, 1840; 49–145, pls. 8–16, 1841.)CrossRefGoogle Scholar
Roemer, F. A. 1852. Die Kreidebidungen von Texas und ihre organischen Einschlüsse, 100 pp., 10 pls. Bonn: Adolph Marcus.CrossRefGoogle Scholar
Russell, E. E., Keady, D. M., Mancini, E. A. & Smith, C. E. 1982. Upper Cretaceous in the lower Mississippi embayment of Tennessee and Mississippi: lithostratigraphy and biostratigraphy. Field Trip Guidebook for the 1982 Annual Meeting of the Geological Society of America, New Orleans, Louisiana, October 1982, 50 pp. Louisiana: Earth Enterprises, Inc.Google Scholar
Schönfeld, J. 1985. Zur Lithologie, Biostratigraphie und Fossilführung des Ober-Santon Mergels von Westerwiehe (Östwestfalen). Geologie und Paläontologie Westfalens 5, 720, 2 pls.Google Scholar
Scott, G. R. & Cobban, W. A. 1962. Clioscaphites saxitonianus (McLearn), a discrete ammonite zone in the Niobrara Formation at Pueblo, Colorado. United States Geological Survey Professional Paper no. 450-C, p. C 85.Google Scholar
Scott, G. R. & Cobban, W. A. 1964. Stratigraphy of the Niobrara Formation at Pueblo, Colorado. United States Geological Survey Professional Paper no. 454-L, 30 pp., 11 pls.Google Scholar
Scott, G. R., Cobban, W. A. & Merewether, E. A. 1986. Stratigraphy of the Upper Cretaceous Niobrara Formation in the Raton basin, New Mexico. New Mexico Bureau of Mines and Mineral Resources Bulletin 115, 34 pp.Google Scholar
Sissingh, W. 1977. Biostratigraphy of Cretaceous calcareous nannoplankton. Geologie en Mijnbouw 56, 3765.Google Scholar
Sohl, N. F. & Smith, C. C. 1980. Notes on Cretaceous stratigraphy. In Upper Cretaceous and lower Tertiary geology of the Chattahoochee River Valley, western Georgia and eastern Alabama, vol. 2 (ed. Reinhard, J. & Gibson, T. G., volume editor Frey, R. W.), pp. 392402. Geological Society of America Annual Meeting, Atlanta. American Geological Institute.Google Scholar
Sowerby, J. 18121822. The Mineral Conchology of Great Britain. Vol. 1, pls. 1–9 (1812), pls. 10–44 (1813), pls. 45–78 (1814), pls. 79–102 (1815); vol. 2, pls. 103–114 (1815), pls. 115–150 (1816, pls. 151–186 (1917), pls. 187–203 (1818); vol.3, pls. 204–221 (1818), pls. 222–253 (1819), pls. 254–271 (1820), pls. 272–306 (1821); vol. 4, pls. 307–318 (1821), pls. 319–383 (1822). London: The author.Google Scholar
Sowerby, J. De C. 1823. The Mineral Conchology of Great Britain (continued) vol. 4, pls. 384–407. London: The author.Google Scholar
Snelling, N. 1985. An interim time scale. Geological Society of London Memoir no. 10, 261–5.Google Scholar
Spath, L. F. 1921. On Cretaceous Cephalopoda from Zululand. Annals of the South African Museum 12, 217321, pls.19–26.Google Scholar
Spath, L. F. 1925. On Senonian Ammonoidea from Jamaica. Geological Magazine 62, 2832, pl. 1.CrossRefGoogle Scholar
Spath, L. F. 1926. On new ammonites from the English Chalk. Geological Magazine 63, 7783, table.CrossRefGoogle Scholar
Spath, L. F. 1932. A monograph of the Ammonoidea of the Gault. Palaeontographical Society Monographs, Part 9, 379410.CrossRefGoogle Scholar
Stephenson, L. W. 1929. Unconformities in the Upper Cretaceous Series of Texas. Bulletin of the American Association of Petroleum Geologists 13, 1323–34.Google Scholar
Stephenson, L. W. 1937. Stratigraphic relations of the Austin, Taylor, and equivalent formations in Texas. United States Geological Survey Professional Paper no. 186-G, 133–46.Google Scholar
Stephenson, L. W. 1956. Fossils from the Eutaw Formation, Chattahoochee River Region, Alabama-Georgia. United States Geological Survey Professional Paper no. 247-J, 227–50, pls. 38–45.Google Scholar
Stephenson, L. W. & Monroe, W. H. 1938. Stratigraphy of Upper Cretaceous Series in Mississippi and Alabama. Bulletin of the American Association of Petroleum Geologists 22, 1639–57.Google Scholar
Stephenson, L. W. & Monroe, W. H. 1940. The Upper Cretaceous deposits. Bulletin of the Mississippi State Geological Survey 40, 296 pp., 15 pls.Google Scholar
Summesberger, H. 1979. Eine obersantone Ammonitenfauna aus dem Becken von Gosau (Oberösterreich). Annalen der Naturhistorisches Museum, Wien 82, 109–76, 15 pls.Google Scholar
Summesberger, H. 1980. Neue Ammoniten aus der Sandkalkbank der Hochmoosschichten (Obersanton; Gosau, Österreich). Annalen der Naturhistorisches Museum, Wien 83, 275–83, 3 pls.Google Scholar
Summesberger, H. 1985. Ammonite zonation of the Gosau Group (Upper Cretaceous, Austria). Annalen der Naturhistorisches Museum, Wien 87A, 145–66.Google Scholar
Ulbrich, H. 1971. Mitteilungen zur Biostratigraphie des Santon and und Campan des mittleren Teils der Subherzynen Kreidemulde. Freiberger Forschungshefte 267, 4760, 5 pls.Google Scholar
Wedekind, R. 1916. Über Lobus, Suturallobus und Inzision. Zentralblattfür Mineralogie, Geologie und Paläontologie (B) 1916 (B), 185–95.Google Scholar
Wegner, T. 1905. Die Granulatenkreide des westlichen Münsterlandes. Zeitschrift der Deutschen Geologischen Gesellschaft 57, 112232, pls. 7–10.Google Scholar
Wiedmann, J. 1966. Stammesgeschichte und System der posttriadischen Ammonoideen; ein Überblick. Neues Jahrbuch für Geologie und Paläontologie, Abhandlungen 125, 4979, pls. 1–2; B127, 13–81, pls. 3–6.Google Scholar
Wiedmann, J. 1978. Eine paläogeographisch interessante Ammonitenfaunula aus der alpinen Gosau. Eclogae Geologicae Helvetiae 71, 663–75, 2 pls.Google Scholar
Woods, H. 1906. The Cretaceous fauna of Pondoland. Annals of the South African Museum 4, 275350, pls. 33–44.Google Scholar
Wolleben, J. A. 1967. Senonian (Cretaceous) mollusca from Trans-Pecos Texas and northeastern Chihuahua, Mexico. Journal of Paleontology 41, 1150–65, pls. 147–152.Google Scholar
Wright, C. W. 1952. A classification of the Cretaceous ammonites. Journal of Paleontology 26, 213–22.Google Scholar
Wright, C. W. 1957. Cretaceous Ammonoidea. In Treatise on Invertebrate Paleontology, Part L. Mollusca 4, Cephalopoda Ammonoidea (ed. Moore, R. C.). Lawrence: Geological Society of America and University of Kansas Press.Google Scholar
Wright, C. W. & Wright, E. V. 1951. A survey of the fossil Cephalopoda of the Chalk of Great Britain, Palaeontographical Society Monographs, 140.Google Scholar
Yabe, H. & Shimizu, S. 1923. A note on the genus Mortoniceras. Japanese Journal of Geology and Geography 2, 2730.Google Scholar
Yabe, H. & Shimizu, S. 1925. Japanese Cretaceous ammonites belonging to Prionotropidae. 1. Science Reports, Tohoku Umperial University 7 (2), 125138 (1–14), pls. 30–33 (1–4).Google Scholar
Young, K. 1963. Upper Cretaceous ammonites from the Gulf Coast of the United States. University of Texas Bulletin no. 6304, ix + 373pp., 82 pls.Google Scholar
Zittel, K. A. von 1884. Handbuch der Palaeontologie vol. 1, Abt. 2; Lief 3, Cephalopoda, pp. 329522. Munich, Leipzig: R. Oldenbourg.Google Scholar
Zittel, K. A. von 1895. Grundzüge der Palaeontologie {Palaeozoologie). xii + 972 pp. Munich, Leipzig: R. Oldenbourg.Google Scholar