Hostname: page-component-8448b6f56d-wq2xx Total loading time: 0 Render date: 2024-04-19T19:55:11.873Z Has data issue: false hasContentIssue false
  • English
  • Français

Cretaceous Esocoidei (Teleostei): early radiation of the pikes in North American fresh waters

Published online by Cambridge University Press:  20 May 2016

Mark V. H. Wilson ,
Donald B. Brinkman  and
Andrew G. Neuman
Mark V. H. Wilson
Affiliation:
1Department of Zoology and Laboratory for Vertebrate Paleontology, University of Alberta, Edmonton, Alberta T6G 2E9, Canada
Donald B. Brinkman
Affiliation:
2Royal Tyrrell Museum of Palaeontology, Alberta Culture and Multiculturalism, P.O. Box 7500, Drumheller, Alberta T0J 0Y0, Canada
Andrew G. Neuman
Affiliation:
2Royal Tyrrell Museum of Palaeontology, Alberta Culture and Multiculturalism, P.O. Box 7500, Drumheller, Alberta T0J 0Y0, Canada
Get access Rights & Permissions [Opens in a new window]

Abstract

Contrary to ideas that Cretaceous fresh waters contained few teleosts, there were several taxa of Esocoidei (pikes and relatives) in North American Cretaceous rivers. Dentaries and palatines of Campanian to Maastrichtian age all have C-shaped tooth bases and other distinctive features of shape and foramina. The fossils include at least three distinct kinds, two of which are described here as new genera and species in the Esocidae: Estesesox foxi n. gen. and sp. and Oldmanesox canadensis n. gen. and sp.

These old, diverse, and apparently primitive specimens show that pikes radiated when Eurasia and North America were still joined. Some references in the literature to the Cretaceous fish Platacodon Marsh are based on referred dentaries that are here identified as esocoid fossils. The Esocidae are the first example of a family of Recent North American freshwater teleosts that has been shown to have speciated in Cretaceous fresh waters and survived the terminal Cretaceous extinction.

Type
Research Article
Information
Journal of Paleontology , Volume 66 , Issue 5 , September 1992 , pp. 839 - 846
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

Barron, E. J. 1987. Cretaceous plate tectonic reconstructions. Palaeogeography, Palaeoclimatology, Palaeoecology, 59:329.CrossRefGoogle Scholar
Bleeker, P. 1859. Enumeratio specierum piscium hucusque in Archipelago Indico observatarum, habitationibus citationibusque, ubi descriptiones earum recentiores reperiuntur, nec non speciebus Musei Bleekeriani Bengalensibus, Japonicis, Capensibus Tasmanicisque. Acta Societatis Scientiarum Indo-Neerlandica, 6:1276.Google Scholar
Breithaupt, B. H. 1982. Paleontology and paleoecology of the Lance Formation (Maastrichtian), east flank of Rock Springs Uplift, Sweetwater County, Wyoming. University of Wyoming, Contributions to Geology, 21:123151.Google Scholar
Breithaupt, B. H. 1985. Nonmammalian vertebrate faunas from the Late Cretaceous of Wyoming. Wyoming Geological Association, Thirty-Sixth Annual Field Conference, Guidebook:159176.Google Scholar
Brinkman, D. B. 1990. Paleoecology of the Judith River Formation (Campanian) of Dinosaur Provincial Park, Alberta, Canada: evidence from vertebrate microfossil localities. Palaeogeography, Palaeoclimatology, Palaeoecology, 78:3754.Google Scholar
Bryant, L. J. 1985. Non-dinosaurian lower vertebrates across the Cretaceous–Tertiary boundary, northeastern Montana. Unpubl. Ph.D. dissertation, University of California, Berkeley, 274 p.Google Scholar
Cavender, T. 1969. An Oligocene mudminnow (family Umbridae) from Oregon with remarks on relationships within the Esocoidei. Museum of Zoology, University of Michigan, Occasional Papers, 660:133.Google Scholar
Cavender, T. 1977. A new Tertiary fish fauna from southwestern Montana. Geological Society of America, Abstracts, 9:715.Google Scholar
Cavender, T. 1986. Review of the fossil history of North American freshwater fishes, p. 699724. In Hocutt, C. H. and Wiley, E. O. (eds.), The Zoogeography of North American Freshwater Fishes. John Wiley and Sons, New York.Google Scholar
Cavender, T., Lundberg, J. G., and Wilson, R. L. 1970. Two new fossil records of the genus Esox (Teleostei, Salmoniformes) in North America. Northwest Science, 44:176183.Google Scholar
Crossman, E. J., and Harington, C. R. 1970. Pleistocene pike, Esox lucius, and Esox sp., from the Yukon Territory and Ontario. Canadian Journal of Earth Sciences, 7:11301138.Google Scholar
Cuvier, G. 1817. Le Règne Animal Distribué d'après son Organisation Pour Servir de Base à L'histoire Naturelle des Animaux et D'introduction à L'anatomie Comparée. Les Reptiles, les Poissons, les Mollusques et les Annélides. (1 ed.) P. F. Didot le jeune, Paris, 532 p.Google Scholar
Eberth, D. A. 1990. Stratigraphy and sedimentology of vertebrate microfossil sites in the uppermost Judith River Formation (Campanian), Dinosaur Provincial Park, Alberta, Canada. Palaeogeography, Palaeoclimatology, Palaeoecology, 78:136.Google Scholar
Estes, R. 1964. Fossil vertebrates from the Late Cretaceous Lance Formation, eastern Wyoming. Publications in Geological Science, University of California, 49:1180.Google Scholar
Estes, R. 1970. Origin of the Recent North American lower vertebrate fauna: an inquiry into the fossil record. Forma et Functio, 3:139163.Google Scholar
Estes, R., Berberian, P., and Meszoely, C. A. M. 1969. Lower vertebrates from the Late Cretaceous Hell Creek Formation, McCone County, Montana. Breviora, 337:135.Google Scholar
Estes, R., and Hutchison, J. H. 1980. Eocene lower vertebrates from Ellesmere Island, Canadian Arctic Archipelago. Palaeogeography, Palaeoclimatology, Palaeoecology, 30:325347.CrossRefGoogle Scholar
Filipski, G. T., and Wilson, M. V. H. 1984. Sudan Black B as a nerve stain for whole cleared fishes. Copeia, 1984:204208.Google Scholar
Filipski, G. T., and Wilson, M. V. H. 1986. Nerve staining using Sudan Black B and its potential use in comparative anatomy, p. 3336. In Waddington, J. and Rudkin, D. M. (eds.), Proceedings of the 1985 Workshop on Care and Maintenance of Natural History Collections. Life Sciences Miscellaneous Publications, Royal Ontario Museum, Toronto.Google Scholar
Fink, W. L. 1981. Ontogeny and phylogeny of tooth attachment modes in actinopterygian fishes. Journal of Morphology, 167:167184.Google Scholar
Fox, R. C. 1972. A primitive therian mammal from the Upper Cretaceous of Alberta. Canadian Journal of Earth Sciences, 9:14791494.Google Scholar
Gaudant, J. 1978. Découverte du plus ancien représentant connu du genre Esox L. (Poisson Téléostéen, Esocoidei) dans le Stampien moyen du bassin d'Apt (Vaucluse). Géologie Mediterranéenne, 5:257268.Google Scholar
Gilbert, C. R. 1976. Composition and derivation of the North American freshwater fish fauna. Florida Scientist, 39:104111.Google Scholar
Grande, L. 1984. Paleontology of the Green River Formation, with a review of the fish fauna (2nd ed.) Bulletin, Geological Survey of Wyoming, 63:1333.Google Scholar
Grande, L. 1986. The first articulated freshwater teleost fish from the Cretaceous of North America. Palaeontology, 29:365371.Google Scholar
Grande, L. 1988. A well preserved paracanthopterygian fish (Teleostei) from freshwater Lower Paleocene deposits of Montana. Journal of Vertebrate Paleontology, 8:117130.Google Scholar
Grande, L., and Cavender, T. M. 1991. Description and phylogenetic reassessment of the monotypic Ostariostomidae (Teleostei). Journal of Vertebrate Paleontology, 11:405416.Google Scholar
Langston, W. Jr. 1975. The ceratopsian dinosaurs and associated lower vertebrates from the St. Mary River Formation. Canadian Journal of Earth Sciences, 12:15761608.Google Scholar
Marsh, O. C. 1889. Discovery of Cretaceous Mammalia. Part II. American Journal of Science, 38:177180.Google Scholar
Marsh, O. C. 1892. Discovery of Cretaceous Mammalia. Part III. American Journal of Science, 43:249262.Google Scholar
Müller, J. 1846. Über den Bau und die Grenzen der Ganioden und über das natürliche System der Fische. Abhandlungen der Königlichen Akademie der Wissenschaften zu Berlin, 1846:117216.Google Scholar
Nelson, G. J. 1972. Cephalic sensory canals, pitlines, and the classification of esocoid fishes, with notes on galaxiids and other teleosts. American Museum Novitates, 2492:149.Google Scholar
Patterson, C. 1975. The distribution of Mesozoic freshwater fishes. Muséum National d'Histoire Naturelle, Mémoires, Série A, Zoologie, 88:156174.Google Scholar
Russell, L. S. 1964. Cretaceous Non-marine Faunas of Northwestern North America. Life Sciences Contributions, Royal Ontario Museum, 61:124.Google Scholar
Scott, W. B., and Crossman, E. J. 1973. Freshwater fishes of Canada. Bulletin, Fisheries Research Board of Canada, 184:1966.Google Scholar
Sytchevskaya, E. C. 1976. The fossil esocoid fishes of the USSR and Mongolia. Trudy Paleontologicheskogo Instituta, Akademiya Nauk USSR, 156:1116.Google Scholar
Sytchevskaya, E. C. 1986. Palaeogene freshwater fish fauna of the USSR and Mongolia. Trudy Sovmestnaya Sovetsko-Mongol'skaya Paleontologicheskaya Ekspeditsiya, 29:1157.Google Scholar
Williams, R. R. G. 1987. The phylogenetic relationships of the salmoniform fishes based on the suspensorium and its muscles. Unpubl. Ph.D. thesis, University of Alberta, Edmonton, Alberta, 752 p.Google Scholar
Wilson, M. V. H. 1980. Oldest known Esox (Pisces: Esocidae), part of a new Paleocene teleost fauna from western Canada. Canadian Journal of Earth Sciences, 17:307312.Google Scholar
Wilson, M. V. H. 1981. Eocene freshwater fishes from the Coalmont Formation, Colorado. Journal of Paleontology, 55:671674.Google Scholar
Wilson, M. V. H. 1984. Osteology of the Palaeocene teleost Esox tiemani. Palaeontology, 27:597608.Google Scholar
Wilson, M. V. H., and Veilleux, P. 1982. Comparative osteology and relationships of the Umbridae (Pisces: Salmoniformes). Zoological Journal of the Linnean Society, 76:321352.Google Scholar
Wilson, M. V. H., and Williams, R. R. G. 1991. New Paleocene genus and species of smelt (Teleostei: Osmeridae) from freshwater deposits of the Paskapoo Formation, Alberta, Canada, and comments on osmerid phylogeny. Journal of Vertebrate Paleontology, 11:434451.Google Scholar
Wilson, M. V. H., and Williams, R. R. G.In press. Phylogenetic, biogeographic, and ecological significance of early fossil records of North American freshwater teleostean fishes. In Mayden, R. L. (ed.), Systematics, Historical Ecology, and North American Freshwater Fishes. Stanford University Press, Stanford, California.Google Scholar