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Middle to Late Eocene Basilosaurines and Dorudontines

  • Mark D. Uhen
Part of the Advances in Vertebrate Paleobiology book series (AIVP, volume 1)

Abstract

The study of Eocene whales in North American began when Dr. Richard Harlan described some bones from Louisiana near the Ouachita River (Harlan, 1834). Harlan compared the bones, which included a very large and strange vertebra, with other large extinct creatures known at the time and concluded that it was a very large reptile of sorts and named it Basilosaurus or “king lizard.”

Keywords

Hind Limb Type Specimen Lumbar Vertebra Cervical Vertebra Middle Eocene 
These keywords were added by machine and not by the authors. This process is experimental and the keywords may be updated as the learning algorithm improves.

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References

  1. Abel, O. 1901. Les daupins longirostres du Boldérien (Miocène supérieur) des environs d’Anvers. Mem. Mus. R. Hist. Nat. Belg. 1:1–95.Google Scholar
  2. Abel, O. 1906. Ueber den als Beckengürtel von Zeuglodon beschriebenen Schultergürtel eines Vogels aus dem Eocän von Alabama. Zentralbl Mineral. Geol. Paläontol. 15:450–458.Google Scholar
  3. Abel, O. 1914. Die vorfahren der bartenwale. Denkschr. Kaiserlichen Akad. Wiss. Math. Naturwiss. Kl. 90:155–224.Google Scholar
  4. Andrews, C. W. 1904. Further notes on the mammals of the Eocene of Egypt. Geol. Mag. London Ser. 5. 1:211–215.CrossRefGoogle Scholar
  5. Andrews, C. W. 1906. A Descriptive Catalogue of the Tertiary Vertebrata of Fayum, Egypt. British Museum of Natural History, London.Google Scholar
  6. Barnes, L. G. 1984. Whales, dolphins and porpoises: origin and evolution of the Cetacea, in: T. W. Broadhead (ed.), Mammals, Notes for a Short Course, pp. 139-154. University of Tennessee Department of Geological Sciences, Studies in Geology 8(1–4).Google Scholar
  7. Barnes, L. G., and Mitchell, E. 1978. Cetacea, in: V. J. Maglio and H. B. S. Cooke (eds.), The Evolution of African Mammals, pp. 582–602. Harvard University Press, Cambridge, MA.Google Scholar
  8. Barnes, L. G., and Sanders, A. E. 1996. The transition from archaeocetes to mysticetes: late Oligocene toothed mysticetes from near Charleston, South Carolina. Sixth North American Paleontological Convention Abstracts of Papers. Paleontolog. Soc. Spec. Pub. 8:24.Google Scholar
  9. Barnes, L. G., Domning, D. P., and Ray, C. E. 1985. Status of studies on fossil marine mammals. Mar. Mammal Sci. 1:15–53.CrossRefGoogle Scholar
  10. Bonaparte, C. L. 1849. [Classification of Havapatedyrene i Pinnipedia, Cete og Sirenia]. Forhandlinger ved de skandinaviske Naturforskeres femte Møde Kjøbenhaven 1847:618.Google Scholar
  11. Brandt, J. F. 1873. Untersuchungen über die fossilen und subfossilen cetaceen Europa’s. Mem. Acad. Imp. Sci. Saint-Petersbourg, Ser. 7 20:1–372.Google Scholar
  12. Carus, C. G. 1847. Resultate geologischer, anatomischer und zoologischer Untersuchungen über das unter dem Namen Hydrarchos von Dr. A. C. Koch, zuerst nach Europa gebrachte und in Dresden ausgestellte grofse fossile Skelett, pp. 1–15. Arnoldische Buchhandlung, Dresden.Google Scholar
  13. Carus, C. G. 1849. Das Kopfskelet des Zeuglodon hydrarchos. Nova Acta Leopold. 22:371–390.Google Scholar
  14. Cope, E. D. 1867 (1868). An addition to the VERTEBRATE FAUNA of the Miocene period, with a synopsis of the extinct CETACEA of the United States. Proc. Acad. Nat. Sci. Philadelphia 19:138–156.Google Scholar
  15. Dames, W. B. 1883a. Über eine tertiäre Wirbelthierfauna von der westlichen Insel des Birket-el-Qunin im Fajum (Aegypten). Sitzungsber. K. Preuss. Akad. Wiss. 6:129–153.Google Scholar
  16. Dames, W. B. 1883b. Ein Epistropheus von Zeuglodon sp. Sitzungsber. Ges. Naturforsch. Freunde 1883:3.Google Scholar
  17. Dames, W. B. 1894. Über Zeuglodonten aus Aegypten und die Beziehungen der Archaeoceten zu den übrigen Cetaeeen. Paläontol. Abh. Jena N. F. 1:189–222.Google Scholar
  18. Dart, R. A. 1923. The brain of the Zeuglodontidae (Cetacea). Proc. Zool. Soc. London 42:615–654.Google Scholar
  19. DeKay, J. E. 1842. Zoology of New York, Natural History of New York. B. Appleton & Co. and Wiley & Putnam, New York.Google Scholar
  20. Domning, D. P., Morgan, G. S., and Ray, C. E. 1982. North American Eocene sea cows (Mammalia, Sirenia). Smithson. Contrib. Paleobiol. 52:1–69.CrossRefGoogle Scholar
  21. Fisher, D. C. 1992. Stratigraphie parsimony, in: W. P. Maddison and D. R. Maddison, MacClade 3.0 Manual, pp. 124–129. Sinauer Associates, Sunderland, MA.Google Scholar
  22. Flower, W. H. 1876. An Introduction to the Osteology of the Mammalia. Macmillan & Co., London.Google Scholar
  23. Fordyce, R. E. 1982. Dental anomaly in a fossil squalodont dolphin from New Zealand, and the evolution of polydonty in whales. N. Z. J. Zool. 9:419–426.CrossRefGoogle Scholar
  24. Fordyce, R. E. 1985. Late Eocene archaeocete whale (Archaeoceti: Dorudontinae) from Waihao, South Canterbury, New Zealand. N. Z. J. Geol. Geophys. 28:351–357.CrossRefGoogle Scholar
  25. Frazier, W. J., and Schwimmer, D. R. 1987. Regional Stratigraphy of North America. Plenum Press, New York.CrossRefGoogle Scholar
  26. Gibbes, R. W. 1845. Description of the teeth of a new fossil animal found in the Green Sand of South Carolina. Proc. Acad. Nat. Sci. Philadelphia 2:254–256.Google Scholar
  27. Gibbes, R. W. 1847. On the fossil genus Basilosaurus, Harlan, (Zeuglodon, Owen) with a notice of specimens from the Eocene Green Sand of South Carolina. J. Acad. Nat. Sci. Philadelphia 1:2–15.Google Scholar
  28. Gill, T. 1872. Arrangement of the families of mammals. Smithson. Misc. Collect. 11:1–97.Google Scholar
  29. Gingerich, P. D. 1992. Marine mammals (Cetacea and Sirenia) from the Eocene of Gebel Mokattam and Fayum, Egypt: stratigraphy, age and paleoenvironments. Univ. Michigan Mus. Paleontol. Pap. Paleontol. 30:1–84.Google Scholar
  30. Gingerich, P. D., and Uhen, M. D. 1996. Ancalecetus simonsi, a new dorudontine archaeocete (Mammalia, Cetacea) from the early late Eocene of Wadi Hitan, Egypt. Contrib. Mus. Paleontol. Univ. Michigan 29:359–401.Google Scholar
  31. Gingerich, P. D., Wells, N. A., Russell, D. E., and Shah, S. M. I. 1983. Origin of whales in epicontinental remnant seas: new evidence from the early Eocene of Pakistan. Science 220:403–406.PubMedCrossRefGoogle Scholar
  32. Gingerich, P. D., Smith, B. H., and Simons, E. L. 1990. Hind limbs of Eocene Basilosaurus isis: evidence of feet in whales. Science 229:154–157.CrossRefGoogle Scholar
  33. Gingerich, P. D., Raza, S. M, Arif, M., Anwar, M., and Zhou, X. 1994. New whale from the Eocene of Pakistan and the origin of cetacean swimming. Nature 368:844–847.CrossRefGoogle Scholar
  34. Gingerich, P. D., Arif, M., and Clyde, W. C. 1995. New archaeocetes (Mammalia, Cetacea) from the middle Eocene Domanda Formation of the Sulaiman Range, Punjab (Pakistan). Contrib. Mus. Paleontol. Univ. Michigan 29(11):291–330.Google Scholar
  35. Gingerich, P. D., Arif, M., Bhatti, M. A., Anwar, M., and Sanders, W. J. 1997. Basilosaurus drazindai and Basiloterus hussaini, new Archaeoceti (Mammalia, Cetacea) from the middle Eocene Drazinda Formation, with a revised interpretation of ages of whale-bearing strata in the Kirthar Group of the Sulaiman Range, Punjab (Pakistan). Contrib. Mus. Paleontol. Univ. Michigan 30:291–330.Google Scholar
  36. Hammerschmidt, C. E. 1848. Resultate geologischer, anatomischer and zoologischer Untersuchungen [über Hydrarchos, Koch]. Haidingercs Ber. Mitt. Freunden Naturwiss. Wien 3:322–327.Google Scholar
  37. Haq, B. U., Hardenbol, J., and Vail, P. R. 1987. Chronology of fluctuating sea levels since the Triassic. Science 235:1156–1167.PubMedCrossRefGoogle Scholar
  38. Harlan, R. 1834. Notice of fossil bones found in the Tertiary formation of the state of Louisiana. Trans. Am. Philos. Soc. Philadelphia 4:397–403.CrossRefGoogle Scholar
  39. Hazel, J. E., Bybell, L. M., Christopher, R. A., Fredericksen, N. O., May, F. E., McLean, D. M., Poore, R. Z., Smith, C. C., Sohl, N. F., Valentine, P. C., and Witmer, R. J. 1977. Biostratigraphy of the deep corehole (Clubhouse Crossroads corehole 1) near Charleston, South Carolina. U. S. Geol. Surv. Prof. Pap. 1028:71–89.Google Scholar
  40. Hulbert, R. C. 1994. Phylogenetic analysis of Eocene whales (“Archaeoceti”) with a diagnosis of a new North American protocetid genus. J. Vertebr. Paleontol. 14:30A.Google Scholar
  41. Hulbert, R. C. 1996. Dental and basicranial anatomy of a late middle Eocene protocetid cetacean from the southeastern United States. Sixth North American Paleontological Convention Abstracts of Papers. Paleontol. Soc. Spec. Pap. 8:186.Google Scholar
  42. Hulbert, R. C., and Petkewich, R. M. 1991. Innominate of a middle Eocene (Lutetian) protocetid whale from Georgia. J. Vertebr. Paleontol. 11:36A.Google Scholar
  43. Hulbert, R. C., Petkewich, R. M., Bishop, G. A., Bukry, D., and Aleshire, D. P. 1998. A new middle Eocene protocetid whale (Mammalia: Cetacea: Archaeoceti) and associated biota from Georgia. J. Paleontol. 72:905–925.Google Scholar
  44. Huner J. J. 1939. Geology of Caldwell and Winn Parishes. State of Louisiana Department of Conservation Geological Bulletin 15:1–356.Google Scholar
  45. Karlsen, K. 1962. Development of tooth germs and adjacent structures in the whalebone whale (Balaenoptera physalus (L.)). Hvalradets Skr. Sci. Results Mar. Biol. Res. 45:1–56.Google Scholar
  46. Kellogg, R. 1928. The history of whales—their adaptation to life in the water. Q. Rev. Biol. 3:29–76.CrossRefGoogle Scholar
  47. Kellogg, R. 1936. A review of the Archaeoceti. Carnegie Inst. Washington Publ. 482:1–366.Google Scholar
  48. Kellum, L. B. 1926. Paleontology and stratigraphy of the Castle Hayne and Trent Marls in North Carolina. U. S. Geol. Surv. Prof. Pap. 143:1–56.Google Scholar
  49. Koch, A. C. 1845a.Description of the Hydrarchos harlani: (Koch). B. Owen, New York.Google Scholar
  50. Koch, A. C. 1845b. Description of the Hydrargos sillimanii: (Koch) gigantic fossil reptile, or sea serpent. A. C. Koch, New York.Google Scholar
  51. Koch, A. C. 1846. Kurze Beschreibung des Hydrarchos harlani (Koch) eines reisenmässigen Meerungeheuers und dessen Entdeckung in Alabama in Nordamerika im Frühjahr 1845. Druck der Königl. Hofbuchdruckerei von C. C. Meinhold and Söhnen, Dresden.Google Scholar
  52. Kumar, K., and Sahni, A. 1986. Remingtonocetus harudiensis, new combination, a middle Eocene archaeocete (Mammalia, Cetacea) from western Kutch, India. J. Vertebr. Paleontol. 6:326–349.CrossRefGoogle Scholar
  53. Leidy, J. 1852. [Description of Pontogeneus priscus]. Proc. Acad. Nat. Sci. Philadelphia 6:52.Google Scholar
  54. Lucas, F. A. 1900. The pelvic girdle of zeuglodon Basilosaurus cetoides (Owen), with notes on other portions of the skeleton. Proc. U. S. Nat. Mus. 23:327–331.CrossRefGoogle Scholar
  55. McKenna, M. C. 1975. Toward a phylogenetic classification of the Mammalia, in: W. P. Luckett and F. S. Szalay (eds.), Phylogeny of the Primates, pp. 21–46. Plenum Press, New York.CrossRefGoogle Scholar
  56. Miller, C. S. J. 1923. The telescoping of the cetacean skull. Smithson. Misc. Collect. 76:1–71.Google Scholar
  57. Mitchell, E. D. 1989. A new cetacean from the late Eocene La Meseta Formation, Seymour Island, Antarctic Peninsula. Can. J. Fish. Aquat. Sci. 46:2219–2235.CrossRefGoogle Scholar
  58. Moustafa, Y. S. 1954. Additional information on the skull of Prozeuglodon isis and the morphological history of the Archaeoceti. Proc. Egypt. Acad. Sci. 9:80–89.Google Scholar
  59. Müller, J. 1849. Über die fossilen Reste der Zeuglodonten von Nordamerica. Berlag von G. Reimer, Berlin.Google Scholar
  60. Müller, J. 1851. Neue Beiträge zur Kenntniss der Zeuglodonten. Ber. Bekanntmach. Verh. Königlichen Preufs. Akad. Wiss. Berlin April 28:236-246.Google Scholar
  61. ’Leary, M. A., and Rose, K. D. 1995. Postcranial skeleton of the early Eocene mesonychid Pachyaena (Mammalia: Mesonychia). J. Vertebr. Paleontol. 15:401–430.CrossRefGoogle Scholar
  62. Owen, R. 1839. Geological Society. The Athenaeum 585:35–36.Google Scholar
  63. Owen, R. 1842a. Observations on the teeth of the Zeuglodon, Basilosaurus of Dr. Harlan. Proc. Geol. Soc. London 3:23–28.Google Scholar
  64. Owen, R. 1842b. Observations on the Basilosaurus of Dr. Harlan (Zeuglodon cetoides, Owen). Trans. Geol. Soc. London 6:69–79.Google Scholar
  65. Pilleri, G. 1985. Record of Dorudon osiris (Archaeoceti) from Wadi-el-Nuturn, lower Nile Valley. Invest. Cetacea 17:35–37.Google Scholar
  66. Randazzo, A. F., Kosters, M., Jones, D. S., and Portell, R. W. 1990. Paleoecology of shallow-marine carbonate environments, middle Eocene of peninsular Florida. Sediment. Geol. 66:1–11.CrossRefGoogle Scholar
  67. Reichenbach, L. 1847. Systematisches, in: C. G. Cams, Resultate geologischer, anatomischer und zoologischer Untersuchungen über das unter den Namen Hydrarchos von Dr. A. C. Koch zuerst nach Eurpa gebrachte und in Dresden augestelte grofse fossile Skelett. Arnoldische Buchhandlung, Dresden.Google Scholar
  68. Sahni, A., and Mishra, V. P. 1972. A new species of Protocetus (Cetacea) from the middle Eocene of Kutch, western India. Palaeontology 15:490–495.Google Scholar
  69. Sahni, A., and Mishra, V. P. 1975. Lower Tertiary vertebrates from western India. Monogr. Palaeontol. Soc. India 3:1–48.Google Scholar
  70. Sanders, A. E. 1974. A paleontological survey of the Cooper Marl and Santee Limestone near Harleyville, South Carolina preliminary report. Geol. Notes 18:4–12.Google Scholar
  71. Schweinfurth, G. A. 1886. Reise in das Depressionsgebiet im Umkreise des Fajum im Januar 1886. Z. Ges. Erdkurde Berlin 21:96–149.Google Scholar
  72. Scudder, S. H. 1882. Universal index to genera in zoology. Bull. U.S. Nat. Mus. 19:1–340.Google Scholar
  73. Seeley, H. G. 1876. Notice of the occurrence of remains of a British fossil zeuglodon (Z. wanklyni, Seeley) in the Barton Clay of the Hampshire coast. Q. J. Geol. Soc. London 32:428–432.CrossRefGoogle Scholar
  74. Seeley, H. G. 1881. Note on the caudal vertebra of a cetacean discovered by Prof. Judd in the Brockenhurst beds, indicative of a new type allied to Balaenoptera (Balaenoptera juddi). Q. J. Geol. Soc. London 37:709–712.CrossRefGoogle Scholar
  75. Slijper, E. J. 1936. Die Cetacean. Capita Zool. 7:1–590.Google Scholar
  76. Slijper, E. J. 1946. Comparative biologic-anatomical investigations on the vertebral column and spinal musculature of mammals. Verh. K. Ned Akad. Wet. Afd. Natuurkd. 42:1–128.Google Scholar
  77. Slijper, E. J. 1979. Whales (2nd ed.). Cornell University Press, Ithaca, NY.Google Scholar
  78. Stromer, E. 1903. Zeuglodon-reste aus dem Oberen Mittelocän des Fajum. Beitr. Paläontol. Geol. Österreich-Ungarns Orients 15:65–100.Google Scholar
  79. Stromer, E. 1908. Die Archaeoceti des Ägyptischen Eozäns. Beitr. Paläontol. Geol. Österreich-Ungarns Orients 21:106–177.Google Scholar
  80. Swift, C. C., and Barnes, L. G. 1996. Stomach contents of Basilosaurus cetoides: implications for the evolution of cetacean feeding behavior, and evidence for vertebrate fauna of epicontinental Eocene seas. Sixth North American Paleontological Convention Abstracts of Papers. Paleontol. Soc. Spec. Pap. 8:380.Google Scholar
  81. Thewissen, J. G. M. 1994. Phylogenetic aspects of cetacean origins: a morphological perspective. J. Mamm. Evol. 2:157–184.CrossRefGoogle Scholar
  82. Thewissen, J. G. M., Hussain, S. T., and Arif, M. 1994. Fossil evidence for the origin of aquatic locomotion in archaeocete whales. Science 263:210–212.PubMedCrossRefGoogle Scholar
  83. Thewissen, J. G. M., Madar, S. I., and Hussain, S. T. 1996. Ambulocetus natans, an Eocene cetacean (Mammalia) from Pakistan. Cour. Forsch.-Inst. Senckenberg 191:1–86.Google Scholar
  84. Trofimov, B. A., and Gromova, V. I. 1968. Order Cetacea, in: V. I. Gromova (ed.), Fundamentals of Paleontology: Mammals, pp. 225–241. Israel Program for Scientific Translations, Jerusalem.Google Scholar
  85. True, F. W. 1908. The fossil cetacean, Dorudon serratus GIBBES. Bull. Mus. Comp. Zool. 52:5–78.Google Scholar
  86. Tuomey, M. 1847. Notice of the discovery of a cranium of the Zeuglodon (Basilosaurus). J. Acad. Nat. Sci. Philadelphia 1:16–17.Google Scholar
  87. Uhen, M. D. 1991. Vertebral proportions as indicators of locomotor style in mammals. J. Vertebr. Paleontol. 11:59A.Google Scholar
  88. Uhen, M. D. 1994. Forelimb of late middle Eocene Prozeuglodon atrox (Mammalia, Cetacea) from Fayum, Egypt. J. Vertebr. Paleontol. 14:51A.Google Scholar
  89. Uhen, M. D. 1996a. Dorudon atrox (Mammalia, Cetacea): form, function, and phylogenetic relationships of an archaeocete from the late middle Eocene of Egypt. Ph.D. dissertation, University of Michigan, Ann Arbor, 608 pp.Google Scholar
  90. Uhen, M. D. 1996b. Composition and characteristics of the subfamily Dorudontinae (Archaeoceti, Cetacea). Sixth North American Paleontological Convention Abstracts of Papers. Paleontol. Soc. Spec. Pub. 8:403.Google Scholar
  91. Uhen, M. D. 1996c. New protocetid archaeocete (Mammalia, Cetacea) from the late middle Eocene Cook Mountain Formation of Louisiana. J. Vertebr. Paleontol. 16:70A.Google Scholar
  92. West, R. M. 1980. Middle Eocene large mammal assemblage with tethyan affinities, Ganda Kas region, Pakistan. J. Paleontol. 54:508–533.Google Scholar
  93. Wyman, J. 1845. [Communication on skeleton of Hydrarchos sillimani]. Proc. Boston Soc. Nat. Hist. 2:65–68.Google Scholar
  94. Zhou, X., Sanders, W. J., and Gingerich, P. D. 1992. Functional and behavioral implications of vertebral structure in Pachyaena ossifraga (Mammalia, Mesonychia). Contrib. Mus. Paleontol. Univ. Michigan 28:289–319.Google Scholar
  95. Zhou, X., Zhai, R., Gingerich, P. D., and Chen, L. 1995. Skull of a new mesonychid (Mammalia, Mesonychia) from the late Paleocene of China. J. Vertebr. Paleontol. 15:387–400.CrossRefGoogle Scholar
  96. Zullo, V. A., and Harris, W. B. 1987. Sequence stratigraphy, biostratigraphy, and correlation of Eocene through lower Miocene strata in North Carolina. Cushman Found. Foraminiferal Res. Spec. Pub. 24:197–214.Google Scholar

Copyright information

© Springer Science+Business Media New York 1998

Authors and Affiliations

  • Mark D. Uhen
    • 1
  1. 1.Cranbrook Institute of ScienceBloomfield HillsUSA

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