Hostname: page-component-78c5997874-8bhkd Total loading time: 0 Render date: 2024-11-17T14:02:10.580Z Has data issue: false hasContentIssue false

Maastrichtian inoceramid bivalves from central Chiapas, southeastern México

Published online by Cambridge University Press:  20 May 2016

Gloria Alencáster
Affiliation:
Institute of Geology, National Autonomous University of México, Ciudad Universitaria, 04510 México D. F., México
Lourdes Omaña
Affiliation:
Institute of Geology, National Autonomous University of México, Ciudad Universitaria, 04510 México D. F., México

Abstract

In central Chiapas (southeastern México) the last occurrence of inoceramid bivalves was recorded in strata of the predominantly terrigenous Ocozocoautla Formation. The inoceramids are associated with foraminifers of the Gansserina gansseri Zone (Late Campanian to Early Maastrichtian). The described species are: Cataceramus? cf. barabini (Morton, 1834), Cataceramus? cf. subcircularis (Meek, 1876), Trochoceramus aff. costaecus (Khalafova, 1966), Trochoceramus nahorianensis (Kociubynskij, 1968), and Trochoceramus tricostatus n. sp. Based on the inoceramid and foraminifer species present, the assemblage is assigned to the Early Maastrichtian. This age is important because at this level most of the typical inoceramids globally disappeared. This is the first report of the genus Trochoceramus in México, which is a good index fossil for the Early Maastrichtian and has a cosmopolitan distribution.

Type
Research Article
Copyright
Copyright © The Paleontological Society 

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

Abdel-Gawad, G. I. 1986. Maastrichtian non-cephalopod mollusks of the Middle Vistula Valley, central Poland. Acta Geologica Polonica, 36:69224.Google Scholar
Antunes, M. T., and Sornay, J. 1969. Contributions a la connaissance du Crétacé Supérieur de Barra do Dande, Angola. Revista da Facultade de Ciencias, Universidade de Lisboa. Ciencias Naturais, 16:65103.Google Scholar
Bengtson, P. 1988. Open nomenclature. Palaeontology, 31:223227.Google Scholar
Böhm, J. 1909. Ueber Inoceramus Cripsi auctorum. Abhandlungen der Preussischen Geologischen Landesanstalt, 56:3958.Google Scholar
Böhm, J. 1914. Zusammentellung der Inoceramen Kreideformation (Nachtrag). Jahrbuch Preussischen Geologischen Landesanstalt, 35:595599.Google Scholar
Bolaños, L., and Buitrón, B. E. 1984. Contribución al conocimiento de los Inocerámidos de México, p. 406414. In Perrilliat, C. (ed.), Memoria del Tercer Congreso Latinoamericano de Paleontología. México.Google Scholar
Bolli, H. M. 1951. The genus Globotruncana in Trinidad. B. W. I. Journal of Paleontology, 25:187199.Google Scholar
Bolli, H. M., Beckmann, J. P., and Saunders, J. B. 1994. Benthic Foraminiferal Biostratigraphy of the South Caribbean Region. Cambridge University Press, Great Britain, 408 p.Google Scholar
Böse, E. 1913. Algunas faunas del Cretácico Superior de Coahuila y regiones limítrofes. Instituto Geológico de México Boletín, 30, 56 p.Google Scholar
Böse, E. 1923. Algunas faunas cretácicas de Zacatecas, Durango y Guerrero. Instituto Geológico de México Boletín, 42, 129 p.Google Scholar
Brönnimann, P. 1952. Globigerinidae from the Upper Cretaceous (Cenomanian–Maastrichtian) of Trinidad. B. W. I. Bulletin of American Paleontology, 34:571.Google Scholar
Burckhardt, C. 1930. Etude synthétique sur le Mesozoique Mexicain. Societé Paléontologique Suisse Mémoire, 49, 50, 280 p.Google Scholar
Carsey, D. O. 1926. Foraminifera of the Cretaceous of Central Texas. Texas University Bulletin, 2612, 56 p.Google Scholar
Chauris, H., Le Rousseau, J., Beaudoin, B., Propson, S., and Montanari, A. 1998. Inoceramid extinction in the Gubbio Basin (NE Apennines of Italy) and relations with mid-Maastrichtian environmental changes. Palaeogeography, Palaeoclimatology, Palaeoecology, 139:177193.Google Scholar
Chubb, L. J. 1959. Upper Cretaceous of Central Chiapas, México. Bulletin American Association of Petroleum Geologists, 43:725756.Google Scholar
Cushman, J. A. 1926. Some foraminifera from the Méndez Shale of eastern México. Contributions from the Cushman Laboratory for Foraminiferal Research, 2:1626.Google Scholar
Dalbiez, F. 1955. The genus Globotruncana in Tunisia. Micropaleontology, 1:161171.Google Scholar
de Klasz, I. 1953. Einige neue oder wenig bekannte Foraminiferen aus der helvetischen Oberkreide der bayerischen Alpen, südlich Traunstein (Oberbayern). Geologica Bavarica, 17:223224.Google Scholar
de Lapparent, J. 1918. Etude lithologique des terrains crétacés de la région d'Hendaye. Service de la Carte Géologique de France Mémoire, 153 p.Google Scholar
Dhondt, A. V. 1983a. Tegulated inoceramids and Maastrichtian biostratigraphy. Newsletters Stratigraphy, 12:4353.Google Scholar
Dhondt, A. V. 1983b. Campanian and Maastrichtian inoceramids: A review. Zitteliana, 10:689701.Google Scholar
Dhondt, A. V. 1992. Cretaceous Inoceramid biogeography: A review. Palaeogeography, Palaeoclimatology, Palaeoecology, 92:217232.Google Scholar
Dhondt, A. V. 1993. Upper Cretaceous Bivalves from Tercis, Landes, SW France. Bulletin de l'Institut des Sciences Naturelles de Belgique. Sciences de la Terre, 63:211259.Google Scholar
D'orbigny, A. 1840. Mémoire sur les Foraminifères de la craie blanche du Bassin de Paris. Société Géologique de France Mémoire, 4:14.Google Scholar
Egger, J. G. 1899. Foraminiferen und Ostrakoden aus den Kreidemergeln der Oberbayerischen Alpen. Abhandlungen königlichen bayerischen Akademie der Wissenschaften zu München, Mathematischen-naturwissenschaftliche Classe, 21:1230.Google Scholar
El-Naggar, Z. R. 1966. Stratigraphy and planktonic foraminifera of Upper Cretaceous–Lower Tertiary succession in the Esna-Idfu region, Nile Valley, Egypt. U. A. R. Bulletin British Museum (Natural History), Geology ser. 2, 129 p.Google Scholar
Esker, G. C. 1968. A new species of Pseudoguembelina from the Upper Cretaceous of Texas. Contributions from the Cushman Foundation for Foraminiferal Research, 19:168169.Google Scholar
Etayo-Serna, F. 1985. Trochoceramus del Campaniano Maastrichtiano de la Formación Espinal de la Cordillera Occidental de Colombia. Geología Norandina, 9:2730.Google Scholar
Fourcade, E., Piccioni, L., Escribá, J., and Roselo, E. 1999. Cretaceous stratigraphy and paleoenvironments of the southern Petén Basin, Guatemala. Cretaceous Research, 20:793811.Google Scholar
Franke, A. 1914. Die foraminiferen und Ostracoden des Emschers, besonders von Obereving und Derne nördlich Dortmund. Zeitschrift der Deutschen Geologischen Gesellschaft, 66:428443.Google Scholar
Gandolfi, F. 1955. The genus Globotruncana in northeastern Colombia. Bulletin of American Paleontology, 36:7118.Google Scholar
Gardin, S., Del Panta, F., Moneche, S., and Pozzi, M. 2001. A Tethyan reference record for the Campanian and Maastrichtian stages: The Bottacione section (Central Italy); review of data and new calcareous nannofossil results, p. 745757. In Odin, G. S. (ed.), The Campanian–Maastrichtian Boundary: Characterization at Tercis les Bains (France) and correlation with Europe and other continents. International Union Geological Sciences Special Publication, 36.Google Scholar
Giers, R. 1964. Die Grossfauna der Mukronatenkreide (unteres Obercampan). Östlichen Münsterland. Fortschritte der Geologie von Rheinland und Westfalen, 7:213294.Google Scholar
Gray, J. E. 1847. On the arrangement of the Brachiopoda. Magazine Natural History Annals, 2:435440.Google Scholar
Gutierrez-Gil, R. 1956. Geología del Mesozoico y estratigrafía pérmica del Estado de Chiapas. Congreso Geológico Internacional, 20 sesión, México. Guidebook, Excursión C-15, 82 p.Google Scholar
Harries, P. J., Kauffman, E. G., and Crampton, J. S. 1996. Lower Turonian Euramerican Inoceramidae: A morphologic, taxonomic and biostratigraphic overview. Mitteilungen aus dem Geologisch-Paläontologischen Institut der Universität Hamburg, 77:641671.Google Scholar
Heinz, R. 1932. Aus der neuen Systematik der Inoceramen. Beiträge zur Kenntnis der Inoceramen. XIV. Mitteilungen aus dem Mineralogisch Geologischen Staatinstitut Hamburg, 13:126.Google Scholar
Imlay, R. W. 1944. Cretaceous formations of Central America and México. American Association of Petroleum Geologists Bulletin, 28:10771185.Google Scholar
Kauffman, E. G. 1977. Systematic, biostratigraphic and biogeographic relationships between Mid-Cretaceous Euramerican and North Pacific Inoceramidae. Paleontologic Society of Japan Special Papers (Mid-Cretaceous events, Hokkaido Symposium), 21:169212.Google Scholar
Kauffman, E. G. 1986. High-resolution event stratigraphy, regional and global bio-events, p. 279335. In Walliser, O. (ed.), Global Bio-Events. Lecture Notes in Earth Sciences. Springer Verlag, Berlin.Google Scholar
Khalafova, R. A. 1966. New species of Inoceramidae from Senonian deposits of Daghestan. Doklady Akademii Nauk Azerbaijanskoy SSR, 22:5256. (In Russian) Google Scholar
Kociubynskij, S. P. 1968. Inoceramidae, p. 115148. In Pasternak, S. I. (ed.), Fauna of the Cretaceous Deposits of the Western Ukraine. Naukovaya Dumka, Kiev. (In Ukrainian) Google Scholar
Lucas, S. P. 1986. Proper syntax when using aff. and cf. in taxonomic statements. Journal of Vertebrate Paleontology, 6:202.Google Scholar
MacLeod, K. G. 1994a. Bioturbation, inoceramid extinction and mid Maastrichtian ecological change. Geology, 22:139142.Google Scholar
MacLeod, K. G. 1994b. Extinction of inoceramid bivalves in Maastrichtian strata of the Bay of Biscay of France and Spain. Journal of Paleontology, 68:10481066.Google Scholar
MacLeod, K. G., and Hoppe, K. A. 1992. Evidence that Inoceramid bivalves were benthic and harbored chemosynthetic symbionts. Geology, 20:117120.Google Scholar
MacLeod, K. G., and Orr, W. N. 1993. The taphonomy of Maastrichtian inoceramids in the Basque region of France and Spain and the pattern of their decline and disappearance. Paleobiology, 19:235250.Google Scholar
MacLeod, K. G., and Ward, P. D. 1990. Extinction pattern in Inoceramid (Bivalvia) based on shell fragment biostratigraphy, p. 509518. In Sharpton, V. L. and Ward, P. D. (eds.), Global Catastrophes in Earth history. Geological Society of America Special Paper, 247.Google Scholar
Marsson, T. 1878. Die Foraminiferen der Weissen Schreibkreide der Inseln Rügen. Mitteilungen des Naturwissenschaftlichen Vereins für Neu-Vorpommen und Rügen in Greifswald, 10:115196.Google Scholar
Meek, F. B. 1876. A report on the invertebrate Cretaceous and Tertiary fossils of the Upper Missouri County. Report U.S. Geological Survey Territories, 9:3863.Google Scholar
Michaud, F. 1984. Algunos fósiles de la Formación Ocozocuautla, Cretácico Superior de Chiapas, México, p. 425429. In Perrilliat, M. C. (ed.), Memorias del Tercer Congreso Latinoamericano de Paleontología. México.Google Scholar
Michaud, F., and Fourcade, E. 1989. Stratigraphie et paléogéographie du Jurassique et du Crétacé du Chiapas (Sud-Est du Mexique). Bulletin Societé Géologique de France, ser. 8, 5:639650.Google Scholar
Morton, S. G. 1834. Synopsis of the Organic Remains of the Cretaceous Group in the United States. Key and Biddle, 88 p.Google Scholar
Nakkady, S. 1950. A new foraminiferal fauna from the Esna Shales and Upper Cretaceous Chalk of Egypt. Journal of Paleontology, 24:675692.Google Scholar
Newell, N. D. 1965. Classification of the Bivalvia. American Museum Novitates, 2206, 25 p.Google Scholar
Odin, G. S. 2001. Inoceramid bivalves in the Campanian–Maastrichtian of Tercis-Baines (Landes, France), p. 452461. In Odin, G. S. (ed.), The Campanian–Maastrichtian boundary: Characterization at Tercis les Bains (France) and correlation with Europe and other continents. International Union Geological Sciences Special Publication, 36.Google Scholar
Odin, G. S., and Walaszczyk, I. 2003. Sur les inocérams de Tercis (Landes, France): Le meilleur outil corrélatif entre Europe et Amérique du Nord autour de le limite Campanien Maastrichtien. C. R. Geoscience, 335:239246.Google Scholar
Petraschek, W. 1903. Ueber Inoceramen aus der Kreide Böhmens und Sachsen. Jahrbuch der Kaiserlich–Königlichen Reichsanstalt, 53:153168.Google Scholar
Plummer, H. J. 1927. Foraminifers of the Midway Formation in Texas. Texas University Bulletin, 2644:1206.Google Scholar
Plummer, H. J. 1931. Some Cretaceous foraminifera in Texas. Texas University Bulletin, 3101:109203.Google Scholar
Premoli-Silva, I., and Sliter, W. V. 1995. Cretaceous planktonic foraminiferal biostratigraphy and evolutionary trends from the Bottaccione section, Gubbio, Italy. Paleontographia Italica, 82:189.Google Scholar
Quaas, A. 1902. Beitrag zur Kenntnis der Fauna der obersten Kreidebildungen in der libyschen Wüste (Overwegischichten und Blätterthon). Palaeontographica, 30:153336.Google Scholar
Reuss, A. E. 1851. Die Foraminiferen und Entomostraceen des Kreidemergels von Lemberg. Haidinger's Naturwiss Abhandlungen, 4:1752.Google Scholar
Reuss, A. E. 1860. Die Foraminiferen der Westphaelischen Kreideformation. Sitzungsberichte der Ósterreichischen Akademie der Wissenschaften, Mathematisch-Naturwissenschaftliche Klasse, 40:147238.Google Scholar
Robaszynski, F., and Caron, M. 1995. Foraminiferes planctoniques du Crétacé: Commentaire de la zonation Europe-Méditerranée. Bulletin Societé Géologique de France, 166:681692.Google Scholar
Roemer, F. A. 1841. Die Versteinerungen des Norddeutschen Kreidegebirges. 145 p.Google Scholar
Roemer, F. 1852. Die Kreidebildungen von Texas und Ihre Organischen Einschlüsse. Adolph Marcus, Bonn, 100 p.Google Scholar
Rzehak, A. 1891. Die foraminiferenfauna der alttertiären Ablagerungen von Brudendorf in Niederösterreich mit Berücksichtigung des angeglicken Kreidevorkommens von Leitzerdof. Annalen des Kaiserlich-Königlichen Naturhistorischen Hofmuseums, 6:213230.Google Scholar
Sánchez-Montes de Oca, R. 1969. Estratigrafía y paleogeografía del Mesozoico de Chiapas. Seminario sobre la exploración petrolera. Mesa redonda 5. Instituto Mexicano del Petróleo, 31 p.Google Scholar
Sánchez-Montes de Oca, R. 1973. Informe geológico Num. 581, Zona Sur. Proyecto Mesozoico arrecifal, Sierra de Chiapas, 60 p.Google Scholar
Schlotheim, E. F. 1813. Leonhards min. Tanschenb, 7:93.Google Scholar
Seibertz, E. 1986. Paleogeography of the San Felipe Formation (Mid-Cretaceous, NE México) and facial effects upon the Inoceramids of the Turonian–Coniacian transition. Zentralblatt für Geologie und Paläontologie, 9–10:11711181.Google Scholar
Seitz, O. 1970. Über einige Inoceramen aus der oberen Kreide. 2. Die Muntigler Inoceramenfauna und ihre Verbreitung im Ober-Campan und Maastricht. Beihefte zum Geologischen Jahrbuch, 86:105171.Google Scholar
Sigal, J. 1952. Apercu stratigraphique sur la Micropaléontologie de Crétacé. Alger, 19th International Geological Congress, Monographs Région Algérie, 26:145.Google Scholar
Sliter, W. V. 1968. Upper Cretaceous foraminifera from Southern California and northwestern Baja California, México. The University of Kansas Paleontological Contributions Article, 7, 88 p.Google Scholar
Sornay, J. 1966. Idées actuelles sur les Inocérames d' après divers travaux récents. Annales de Paléontologie (Invertebrés), 52:5992.Google Scholar
Sornay, J. 1976. La faune d'inocérames de Dau (région de Royan, Charente-Maritime) et remarques sur deux espèces de d'Orbigny, I. regularis et I. goldfussi . Annales de Paléontologie (Invertebrés), 62:118.Google Scholar
Sornay, J., and Bilotte, M. 1978. Faunes d'Inocerames du Campanien et du Maastrichtien des Pyrénées. Annales de Paléontologie (Invertebrés), 69:2745.Google Scholar
Stephenson, L. W. 1955. Owl Creek (Upper Cretaceous) fossils from Crowleys Ridge, southeastern Missouri. U.S. Geological Survey Professional Paper, 274-E:97140, pls. 14–24.Google Scholar
Vogler, J. 1941. Ober-Jura und Kreide von Misol, p. 243293. In Boehm, G. and Wanner, J. (eds.), Beitrage zur Geologie von Niederlandisch-Indien. Paleontographica Supplement, 4.Google Scholar
Walaszczyk, I., Cobban, W. A., and Harries, P. J. 2001. Inoceramids and inoceramid biostratigraphy of the Campanian and Maastrichtian of the United States Western Interior Basin. Revue Paléobiologie de Geneve, 20:117234.Google Scholar
Walaszczyk, I., Odin, G. S., and Dhondt, A. V. 2002a. Inoceramids from the Upper Campanian and Lower Maastrichtian of the Tercis section and Point for the Campanian-Maastrichtian boundary; taxonomy, biostratigraphy and correlation potential. Acta Geologica Polonica, 52:269305.Google Scholar
Walaszczyk, I., Cobban, W. A., and Odin, G. S. 2002b. The inoceramid succession across the Campanian–Maastrichtian boundary. Bulletin of the Geological Society of Denmark, 49:5360.Google Scholar
Walaszczyk, I., Smirnov, J. P., and Tröger, K. A. 1996. Trochoceramid bivalves (Inoceramidae) from the Lower Maastrichtian from Daghestan (Aimaki section, NE Caucasus) and south-central Poland. Acta Geologica Polonica, 46:141164.Google Scholar
Ward, P., Wiedmann, J., and Mount, J. F. 1986. Maastrichtian molluskan biostratigraphy and extinction patterns in a Cretaceous Tertiary boundary section exposed at Zumaya, Spain. Geology, 14:899903.Google Scholar
Ward, P., Kennedy, W. J., MacLeod, K. G., and Mount, J. F. 1991. Ammonite and inoceramid bivalve extinction patterns in Cretaceous Tertiary boundary sections of the Biscay region (SW France, N Spain). Geology, 19:11811184.Google Scholar
Waterhouse, J. B. 1970. Permoceramus, a new inoceramid bivalve from the Permian of Eastern Australia. New Zealand Journal Geology and Geophysics, 13:760766.Google Scholar
White, M. P. 1928. Some index foraminifera from the Tampico Embayment area of Mexico. Journal of Paleontology, 2:280317.Google Scholar
Whitfield, R. P. 1885. Brachiopoda and Lamellibranchiata of the Raritan Clays and Greensand Marls of New Jersey. Monographs of the United States Geological Survey, 9, 129 p.Google Scholar
Wilson, J. L. 1975. Cretaceous Facies in Geologic History. Springer Verlag, Berlin, 471 p.Google Scholar
Zittel, K. A. 1866. Die Bivalven der Gosaugebilde in nordöstlichen Alpen. Denkschriften der Kaiserlichen. Akademie der Wissenchaften, Mathematisch-Naturwissenschaftliche Klasse, 25:105177.Google Scholar
Zittel, K. A. 1881. Handbuch der Paläontologie. Abteilung Paläozoologie, 2. München, Leipzig, 893 p.Google Scholar