Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-20T00:47:42.246Z Has data issue: false hasContentIssue false

New turtles (Chelonia) from the late Eocene through late Miocene of the Panama Canal Basin

Published online by Cambridge University Press:  20 May 2016

Edwin Cadena
Affiliation:
Florida Museum of Natural History, Dickinson Hall, Gainesville, FL 32611, USA, ; ; Smithsonian Tropical Research Institute, Panama, AA 34002-0948, Panama,
Jason R. Bourque
Affiliation:
Florida Museum of Natural History, Dickinson Hall, Gainesville, FL 32611, USA, ; ;
Aldo F. Rincon
Affiliation:
Florida Museum of Natural History, Dickinson Hall, Gainesville, FL 32611, USA, ; ;
Jonathan I. Bloch
Affiliation:
Florida Museum of Natural History, Dickinson Hall, Gainesville, FL 32611, USA, ; ;
Carlos A. Jaramillo
Affiliation:
Smithsonian Tropical Research Institute, Panama, AA 34002-0948, Panama,
Bruce J. Macfadden
Affiliation:
Florida Museum of Natural History, Dickinson Hall, Gainesville, FL 32611, USA, ; ;

Abstract

Four distinct fossil turtle assemblages (Chelonia) are recognized from the Panama Canal Basin. The oldest, from the late Eocene–early Oligocene Gatuncillo Formation, is dominated by podocnemidid pleurodires. The early Miocene Culebra Formation includes both podocnemidids and trionychids. The early to middle Miocene Cucaracha Formation includes taxa classified in Geoemydidae (including Rhinoclemmys panamaensis n. sp.), Kinosternidae (represented by Staurotypus moschus n. sp.), large testudinids, trionychids, and podocnemidids, and finally, the late Miocene Gatun Formation records cheloniid sea turtles. These fossils include the oldest known representatives of Rhinoclemmys, the oldest record of kinosternids in Central America with a more extensive southern paleodistribution for Staurotypus and staurotypines in general, early occurrences of giant tortoises in the Neotropics, the oldest occurrence of soft-shell turtles in the tropics, the oldest late Eocene–early Oligocene Neotropical occurrences of podocnemidids. The Panamanian fossil turtles represent clades that are primarily endemic to North America, showing their very early arrival into the Neotropics prior to the complete emergence of the Isthmus of Panama, as well as their first contact with Caribbean-South American pleurodires by the early Miocene.

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

Acuña, R. L. 1996. Nueva especie de Rhinoclemmys Fitzinger, 1836 (Chelonii, Cryptodira) del Cenozoic tardio de Costa Rica. Ameghiniana, 33:217278.Google Scholar
Barley, A. J., Spinks, P. Q., Thomson, R. C., and Shaffer, H. B. 2010. Fourteen nuclear genes provide phylogenetic resolution for difficult nodes in the turtle tree of life. Molecular Phylogenetics and Evolution, 55:11891194.Google Scholar
Batsch, A. J. 1788. Versuch einter Anleitung, zur Kinntniss und Geschichte der Thiere und Mineralien, Jena, 528 p.Google Scholar
Baur, G. 1893. Notes on the classification of the Cryptodira. American Naturalist, 27:672675.Google Scholar
Bocourt, F. 1868. Description de quelques cheloniens nouveaux appartenant a la faune Mexicaine. Annales Sciences Naturalles and Zoology, 5:121122.Google Scholar
Bonin, F., Devaux, B., and Dupré, A. 2006. Toutes les tortues du monde. Delachaux et Niestlé, Paris.Google Scholar
Boulenger, G. 1902. Descriptions of new batrachians and reptiles from north-western Ecuador. Annales Natural History, 9:5157.CrossRefGoogle Scholar
Brinkman, D. B. and de La Rosa, R. Rodriguez. 2006. Non-Marine turtles from the Cerro del Pueblo Formation (Camapanian). New Mexico Museum of Natural History and Science Bulletin, 35:229233.Google Scholar
Cadena, E. A., Bloch, J. I., and Jaramillo, C. A. 2010. New podocnemidid turtle (Testudines: Pleurodira) from the Middle-Upper Paleocene of South America. Journal of Vertebrate Paleontology, 30(2):367382.Google Scholar
Cadena, E. A., Ksepka, D. T., Jaramillo, C. A., and Bloch, J. I. In press. New pelomedusoid turtles (Testudines, Panpleurodira) from the late Palaeocene Cerrejón Formation of Colombia and implications for phylogeny and body size evolution. Journal of Systematics Palaeontology.Google Scholar
Carr, J. 1991. Phylogenetic analysis of the neotropical turtle genus Rhinoclemmys Fitzinger (Testudines: Emydidae), Southern Illinois University, 635 p.Google Scholar
Claude, J. and Tong, H. 2004. Early Eocene testudinoid turtle from Saint-Papoul, France, with comments on the early evolution of modern Testudinoidea. Oryctos, 5:345.Google Scholar
Coates, A. 1999. Lithostratigraphy of the Neogene strata of the Caribbean coast from Limon, Costa Rica, to Colon, Panama, p. 1738. InCollins, L. and Coates, A. (eds.), A paleobiotic survey of Caribbean faunas from the Neogene of the Isthmus of Panama.Vol. 357.Google Scholar
Coates, A., Collins, L., Aubry, M., and Berggren, W. 2004. The geology of the Darien, Panama, and the late Miocene–Pliocene collision of the Panama arc with northwestern South America. Geological Society of American Bulletin, 116:13271344.Google Scholar
Coates, A. and Obando, J. 1996. The geologic evolution of the Central American isthmus, p. 2156. InJackson, J. B., Budd, A. F., and Coates, A. (eds.), Evolution and environment in tropical America. University of Chicago, Chicago.Google Scholar
Cope, E. 1868. On the origin of genera. Proceedings of the Academy of Natural Sciences of Philadelphia, 20:242300.Google Scholar
Cope, E. 1870. Seventh contribution to the herpetology of tropical America. Proceedings of the Academy of Natural Sciences of Philadelphia, 11:147149.Google Scholar
Cope, E. 1874. On the limits and relations of the Raniformes. Proceedings of the Academy of Natural Sciences, 16:181183.Google Scholar
Cope, E. 1875. On the batrachia and reptilia of Costa Rica. Journal of the Academy of Natural Sciences of Philadelphia, 2:93154.Google Scholar
Daudin, F. 1801. Histoire Naturelle, Generale et particuliere, des Reptiles, Paris, 1, 432 p.Google Scholar
Duméril, A. M., Bibron, G., and Duméril, A. 1851. Catalogue methodique de la collection des reptiles du Museum d'Histoire Naturelle. Gide and Boudry, Paris, 224 p.Google Scholar
Dunn, E. 1930. A new Geoemyda from Costa Rica. Proceeding New England Zoology, 12:3134.Google Scholar
Ernst, C. 1978. A revision of the Neotropical turtle genus Callopsis (Testudines: Emydidae: Batagurinae). Herpetologica, 34:113134.Google Scholar
Fitzinger, L. 1836. Neue Classification der Reptilien nach ihren natürlichen Verwandtschaften. In V. J. G. and Heubner, G. (eds.), Wien.Google Scholar
Gaffney, E. S. 1990. The comparative osteology of the Triassic turtle Proganochelys. Bulletin of the American Museum of Natural History, 194:1263.Google Scholar
Gaffney, E. S. and Jenkins, F. 2010. The cranial morphology of Kayentachelys, an Early Jurassic cryptodire, and the early history of turtles. Acta Zoologica, 91:335368.Google Scholar
Gaffney, E. S., Meylan, P. A., Wood, R. C., Simons, E., and Campos, D. D. 2011. Evolution of the side-necked turtles: the family Podocnemididae. Bulletin of the American Museum of Natural History, 350:1237.CrossRefGoogle Scholar
Gaffney, E. S., Tong, H. Y., and Meylan, P. A. 2006. Evolution of the side-necked turtles: The families Bothremydidae, Euraxemydidae, and Araripemydidae. Bulletin of the American Museum of Natural History, 300:1700.Google Scholar
Graham, A. 1985. Studies in neotropical paleobotany, IV, The Eocene communities of Panama. Annales of the Missouri Botanical Garden, 72:504534.Google Scholar
Gray, J. E. 1825. A synopsis of the genera of saurian reptiles and amphibia, with a description of some new species of reptiles. Annales of Philosophy, 10:193217.Google Scholar
Gray, J. E. 1855. Catalogue of shield reptiles in the collectin of the British Museum. Part I. Testudinata (Tortoises). London, 79 p.Google Scholar
Gray, J. E. 1860. Description of new species of Geoclemmys from Ecuador. Proceedings of the Zoological Society of London, 1860:231232.Google Scholar
Gray, J. E. 1861. On a new species of water-tortoise (Geoclemmys melanosterna) from Darien. Proceedings of the Zoological Society of London, 1861:204205.Google Scholar
Hay, O. 1892. The batrachians and reptiles of the State of Indiana. Annual Report of the Indiana Department of Geology and Natural Resources., 22:2731.Google Scholar
Head, J., Aguilera, O., and Sanchez-Villagra, M. R. 2006. Past colonization of South America by Trionychid turtles: fossil evidence from the Neogene of Margarita Island, Venezuela. Journal of Herpetology, 40:380383.Google Scholar
Herrera, A., Dick, M., Sanner, J., and Jackson, J. B. 2008. Neogene Cupuladriidae of tropical America, II: taxonomy of recent Discoporella from opposite side of the Isthmus of Panama. Journal of Paleontology, 82:279298.Google Scholar
Hirayama, R. 1984. Cladistic analysis of batagurine turtles (Batagurinae: Emydidae: Testudinidae): a preliminary result. Studia Geologica Salmanticensia, 1:141157.Google Scholar
Hutchinson, H. 1991. Early Kinosterninae (Reptilia: Testudines) and their phylogenetic significance. Journal of Vertebrate Paleontology, 11:145167.Google Scholar
Hutchinson, H. 2006. Bridgeremys (Geoemydidae,Testudines), a new genus from the middle Eocene of NorthAmerica. Fossil Turtle Research, 1:6383.Google Scholar
Iverson, J. B. 1985. Staurotypus. Catalogue of American Amphibians and Reptiles, 362:12.Google Scholar
Kirby, M., Jone, D., and MacFadden, B. J. 2008. Lower Miocene stratigraphy along the Panama Canal and its bearing on the Central American Peninsula. PlosOne, 3:114.Google Scholar
Laurito, C., Valerio, A., Goméz, L., Mead, J., Pérez, E., and Pérez, L. 2005. A trionychidae (Reptilia: Testudines, Cryptodira) from the Pliocene of Costa Rica, Southern Central America. Revista Geológica de América Central, 32:711.Google Scholar
Le, M. and McCord, M. 2008. Phylogenetic relationships and biogeographical history of the genus Rhinoclemmys Fitzinger, 1835 and the monophyly of the turtle family Geoemydidae (Testudines:Testudinoidea). Zoological Journal of Linnean Society, 153:751767.Google Scholar
Lourenco, J. M., Claude, J., Galtier, N., and Chiari, Y. 2012. Dating cryptodiran nodes: origin and diversification of the turtle superfamily Testudinoidea. Molecular Phylogenetics and Evolution, 62:496507.Google Scholar
Macfadden, B. J. 2006. North American Miocene land mammals from Panama. Journal of Vertebrate Paleontology, 26:720734.Google Scholar
Macfadden, B. J. 2009. Three-toed browsing horse Anchitherium (Equidae) from the Miocene of Panama. Journal of Paleontology, 83:489492.CrossRefGoogle Scholar
Macfadden, B. J., Kirby, M., Rincon, A. F., Montes, C., Strong, N., and Jaramillo, C. A. 2010. Extinct Peccary “Cynorca” occidentale (Tayassuidae, Tayassuinae) from the Miocene of Panama and correlations to North America. Journal of Paleontology, 84:288298.Google Scholar
Mertens, R. 1954. Zur Kenntnis der Schildkrötenfauna Venezuela. Senckenbergiana Biologica, 35:37.Google Scholar
Meylan, P. 1987. The phylogenetic relationships of soft-shelled turtles (family Trionychidae). Bulletin of the American Museum of Natural History, 186.Google Scholar
Meylan, P. A. and Sterrer, W. 2000. Hesperotestudo (Testudines: Testudinidae) from the Pleistocene of Bermuda, with comments on the phylogenetic position of the genus. Zoological Journal of Linnean Society, 128:5176.Google Scholar
Montes, C., Cardona, A., Mcfadden, R. R., Moron, S., Silva, C. A., Restrepo-Moreno, S., Ramirez, D., Hoyos, N., Wilson, J., Farris, D. W., Bayona, G., Jaramillo, C., Valencia, V., Bryan, J., and Flores, J. A. In press. Evidence for middle Eocene and younger emergence in Central Panama: implications for Ishtmus closure. Geological Society of America Bulletin.Google Scholar
Mosimann, J. and Rabb, G. 1953. A new subspecies of the turtle Geoemyda rubida (Cope) from western Mexico. Occasional Papers of the Museum of Zoology University of Michigan, 548:17.Google Scholar
Paolillo, O. 1985. Description of a new subspecies of the turtles Rhinoclemmys punctularia (Daudin) (Testudines: Emydidae) from southern Venezuela. Amphibia-Reptilia, 6:293305.Google Scholar
Pritchard, P. 1984. Evolution and zoogeography of South American turtles. Studia Geologica Salmanticensia, 1:225233.Google Scholar
Sanchez-Villagra, M. R., Asher, R., Rincon, A., Carlini, A., Meylan, P., and Purdy, M. 2004. New faunal reports from the Cerro La Cruz locality (lower Miocene), north-western Venezuela, p. 105112. InSanchez-Villagra, M. R. and Clack, J. A. (eds.), Fossils of the Miocene Castillo Formation, Venezuela. Contributions on Neotropical Paleontology, 71.Google Scholar
Scheyer, T. M., Brullmann, B., and Sanchez-Villagra, M. R. 2008. The ontogeny of the shell in side-necked turtles, with emphasis on the homologies of costal and neural bones. Journal of Morphology, 269:10081021.Google Scholar
Segura, A. 1944. Estudio de la primera especie nueva de tortuga fósil de Costa Rica, con algunas generalidades sobre el orden testudines. La Escuela de Farmacia, 77–78:1314.Google Scholar
Theobald, W. 1868. Catalogue of reptiles in the museum of the Asiatic Society of Bengal. Journal of the Asiatic Society, p. 888.Google Scholar
Valenzuela, N. 2001. Maternal effects on life-history traits in the Amazonian Giant River turtle Podocnemis expansa. Journal of Herpetology, 35:368378.Google Scholar
Wagler, J. 1830. Natürliches System der Amphibien, mit Vorangehender Classification der Säugethiere und Tübingen. Cotta'schen München.Google Scholar
Webb, D. 1985. Late Cenozoic mammal dispersals between the Americas, p. 357386. InStehli, F. G. and Webb, D. (eds.), The Great American Biotic Interchange. Plenum Press, New York.Google Scholar
Webb, D. and Perrigo, S. 1984. Late Cenozoic vertebrates from Honduras and El Salvador. Journal of Vertebrate Paleontology, 4:237254.CrossRefGoogle Scholar
Weems, R. 2009. An Oligocene side-neck turtle (Bairdemys ) (Suborder: Pleurodira, Family: Podocnemididae) from the Chandler Bridge Formation (lower Chattian) of South Carolina. Gaffney Symposium Turtle, Royal Tyrell Museum, Drumheller, Canada.Google Scholar
Whitmore, C. and Stewart, H. 1965. Miocene mammals and Central American Seaways. Science, 148:180185.Google Scholar