Hostname: page-component-8448b6f56d-jr42d Total loading time: 0 Render date: 2024-04-23T06:45:23.340Z Has data issue: false hasContentIssue false
  • English
  • Français

Shark-bitten protostegid turtles from the Upper Cretaceous Mooreville Chalk, Alabama

Published online by Cambridge University Press:  20 May 2016

Kenshu Shimada  and
G. E. Hooks III
Kenshu Shimada
Affiliation:
1Environmental Science Program and Department of Biological Sciences, DePaul University, 2325 North Clifton Avenue, Chicago, Illinois 60614, 2Sternberg Museum of Natural History, Fort Hays State University, Hays, Kansas 67601
G. E. Hooks III
Affiliation:
3Department of Natural Sciences, Longwood University, 201 High Street, Farmville, Virginia 23909,
Get access Rights & Permissions [Opens in a new window]

Extract

Protostegids are Cretaceous marine turtles. Fossil materials assignable to the family Protostegidae range from early Albian to Late Campanian in age and have been described from all continents except Antarctica (Hirayama, 1995). The group includes two gigantic forms, Archelon Wieland and Protostega Cope, that reached maximum carapace lengths in excess of 2 m and rank among the largest turtles that ever lived.

In this paper, we describe two specimens of Protostega gigas Cope housed in the Field Museum of Natural History (FMNH), Chicago, Illinois: FMNH P27452 and FMNH PR58. Both are from the Mooreville Chalk (Upper Santonian to Lower Campanian: Mancini et al., 1995) in Greene County, Alabama, and are noteworthy because they show tooth marks from at least one large shark. One of the specimens also exhibits five embedded teeth of the Late Cretaceous cretoxyrhinid shark Cretoxyrhina mantelli (Agassiz). This note constitutes the first report of protostegid turtles bitten by C. mantelli.

Type
Research Article
Information
Journal of Paleontology , Volume 78 , Issue 1 , January 2004 , pp. 205 - 210
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

Applegate, S. P. 1965. A confirmation of the validity of Notorhynchus pectinatus; the second record of the Upper Cretaceous cowshark. Bulletin of Southern California Academy of Sciences, 64:122126.Google Scholar
Applegate, S. P. 1970. The vertebrate fauna of the Selma Formation in Alabama, Pt. VIII, the fishes. Fieldiana Geology Memoirs, 3:385433.Google Scholar
Bigelow, P. K. 1994. Occurrence of a squaloid shark (Chondrichthyes: Squaliformes) with the pinniped Allodesmus from the Upper Miocene of Washington. Journal of Paleontology, 68:680684.Google Scholar
Cappetta, H. 1987. Chondrichthyes II. Mesozoic and Cenozoic Elasmobranchii. Handbook of Paleoichthyology. Volume 3B. Gustav Fischer Verlag, Stuttgart, 193 p.Google Scholar
Cigala-Fulgosi, F. 1990. Predation (or possible scavenging) by a great white shark on an extinct species of bottlenose dolphin in the Italian Pliocene. Tertiary Research, 12:1736.Google Scholar
Cione, A. L., and Medina, F. A. 1987. A record of Notidanodon pectinatus (Chondrichthyes, Hexanchiformes) in the Upper Cretaceous of the Antarctic Peninsula. Mesozoic Research, 1:7988.Google Scholar
Druckenmiller, P. S., Daun, A. J., Skulan, J. L., and Pladziewicz, J. C. 1993. Stomach contents in the Upper Cretaceous shark Squalicorax falcatus. Journal of Vertebrate Paleontology, 13 (supplement to Number 3):33A34A.Google Scholar
Everhart, M. J. 1999. Evidence of feeding on mosasaurs by the Late Cretaceous lamniform shark, Cretoxyrhina mantelli. Journal of Vertebrate Paleontology, 19(supplement to Number 3):43A44A.Google Scholar
Everhart, M. J., Everhart, P. A., and Shimada, K. 1995. A new specimen of shark bitten mosasaur vertebrae from the Smoky Hill Chalk (Upper Cretaceous) in western Kansas. Abstracts 129th Annual Meeting of Kansas Academy of Science, Pittsburg, 14:19.Google Scholar
Fergusson, I. K., Compagno, L. J. V., and Marks, M. A. 2000. Predation by white sharks Carcharodon carcharias (Chondrichthyes: Lamnidae) upon chelonians, with new records from the Mediterranean Sea and a first record of the ocean sunfish Mola mola (Osteichthyes: Molidae) as stomach contents. Environmental Biology of Fishes, 58:447453.CrossRefGoogle Scholar
Hamm, S. A., and Everhart, M. J. 2001. Notes on the occurrence of nodosaurs (Ankylosauridae) in the Smoky Hill Chalk (Upper Cretaceous) of western Kansas. Journal of Vertebrate Paleontology, 21(supplement to Number 3):58A.Google Scholar
Hattin, D. E. 1996. Fossilized regurgitate from Smoky Hill Member of Niobrara Chalk (Upper Cretaceous) of Kansas, USA. Cretaceous Research, 17:443450.Google Scholar
Heithaus, M. R. 2001. The biology of the tiger sharks, Galeocerdo cuvier, in Shark Bay, Western Australia: sex ratio, size distribution, diet, and seasonal changes in catch rates. Environmental Biology of Fishes, 61:2536.Google Scholar
Hirayama, R. 1995. Phylogenetic systematics of chelonioid sea turtles. The Island Arc, 3:270284.Google Scholar
Hirayama, R. 1998. Oldest known sea turtle. Nature, 392:705708.CrossRefGoogle Scholar
Hooks, G. E. III. 1998. Systematic revision of the Protostegidae, with a redescription of Calcarichelys gemma Zangerl, 1953. Journal of Vertebrate Paleontology, 18:8598.Google Scholar
Long, D. J. 1996. Records of white shark-bitten leatherback sea turtles along the central California Coast, p. 317319. In Klimley, A. P. and Ainley, D. G. (eds.), Great White Sharks: The Biology of Carcharodon carcharias. Academic Press, San Diego.Google Scholar
Long, D. J., and Jones, R. E. 1996. White shark predation and scavenging on cetaceans in the eastern North Pacific Ocean, p. 293307. In Klimley, A. P. and Ainley, D. G. (eds.), Great White Sharks: The Biology of Carcharodon carcharias. Academic Press, San Diego.Google Scholar
Mancini, E. A., Puckett, T. M., Tew, B. H., and Smith, C. C. 1995. Upper Cretaceous sequence stratigraphy of the Mississippi-Alabama area. Gulf Coast Association of Geological Societies Transactions, 45:377384.Google Scholar
Pollard, J. E. 1990. Evidence for diet, p. 362367. In Briggs, D. E. G. and Crowther, P. R. (eds.), Palaeobiology: A Synthesis. Blackwell Science, Oxford.Google Scholar
Repenning, C. A., and Packard, E. L. 1990. Locomotion of a desmostylian and evidence of ancient shark predation, p. 199203. In Boucot, A. J. (ed.), Evolutionary Paleobiology of Behavior and Coevolution. Elsevier, New York.Google Scholar
Russell, D. A. 1988. A check list of North American marine Cretaceous vertebrates including fresh water fishes. Royal Tyrrell Museum Palaeontology (Drumheller, Canada), Occasional Paper, 4:157.Google Scholar
Schwimmer, D. R. 1997. Late Cretaceous dinosaurs in eastern USA: a taphonomic and biogeographic model of occurrences. Dinofest International Proceedings, 203211.Google Scholar
Schwimmer, D. R., Stewart, J. D., and Williams, G. D. 1997. Scavenging by sharks of the genus Squalicorax in the Late Cretaceous of North America. Palaios, 12:7183.Google Scholar
Shimada, K. 1994. Jaws of the Late Cretaceous shark, Squalicorax kaupi, from western Kansas. Journal of Morphology, 220:393.Google Scholar
Shimada, K. 1997a. Dentition of the Late Cretaceous lamniform shark, Cretoxyrhina mantelli, from the Niobrara Chalk of Kansas. Journal of Vertebrate Paleontology, 17:269279.Google Scholar
Shimada, K. 1997b. Skeletal anatomy of the Late Cretaceous lamniform shark, Cretoxyrhina mantelli, from the Niobrara Chalk in Kansas. Journal of Vertebrate Paleontology, 17:642652.Google Scholar
Shimada, K. 1997c. Paleoecological relationships of the Late Cretaceous lamniform shark, Cretoxyrhina mantelli (Agassiz). Journal of Paleontology, 71:926933.Google Scholar
Shimada, K. 2002. Dental homologies in lamniform sharks (Chondrichthyes: Elasmobranchii). Journal of Morphology, 251:3872.Google Scholar
Shimada, K., and Everhart, M. J.In press. Shark-bitten Xiphactinus audax (Teleostei: Ichthyodectiformes) from the Niobrara Chalk (Upper Cretaceous) of Kansas. The Mosasaur, 7.Google Scholar
Simpfendorfer, C. A., Goodreid, A. B., and McAuley, R. B. 2001. Size, sex and geographic variation in the diet of the tiger shark, Galeocerdo cuvier, from Western Australian waters. Environmental Biology of Fishes, 61:3746.Google Scholar
Siverson, M. 1992. Biology, dental morphology and taxonomy of lamniform sharks from the Campanian of the Kristianstad Basin, Sweden. Palaeontology, 35:519554.Google Scholar
Siverson, M. 1996. Lamniform sharks of the mid Cretaceous Alinga Formation and Beedagong Claystone, western Australia. Palaeontology, 39:813849.Google Scholar
Stancyk, S. E. 1981. Nonhuman predators of sea turtles and their control, p. 139152. In Bjorndal, K. A. (ed.), Biology and Conservation of Sea Turtles. Smithsonian Institution Press, Washington, D.C.Google Scholar
Stewart, J. D. 1978. Enterospirae (fossil intestines) from the Upper Cretaceous Niobrara Formation of western Kansas. University of Kansas Paleontological Contributions, 89:916.Google Scholar
Welton, B. J., and Farish, R. F. 1993. The Collector's Guide to Fossil Sharks and Rays from the Cretaceous of Texas. Before Time, Lewisville, Texas, 204 p.Google Scholar
Williams, M. E. 1972. The origin of “spiral coprolites.” University of Kansas Paleontological Contributions, 59:119.Google Scholar
Witzell, W. N. 1987. Selective predation on large cheloniid sea turtles by tiger sharks (Galeocerdo cuvier). Japanese Journal of Herpetology, 12:2229.Google Scholar
Zangerl, R. 1953. The vertebrate fauna of the Selma Formation in Alabama., Pt. VIII, the turtles of the family Protostegidae. Fieldiana Geology Memoirs, 3:37133.Google Scholar