Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-11-22T04:35:28.114Z Has data issue: false hasContentIssue false

A poorly known rodentlike mammal (Pachyrukhinae, Hegetotheriidae, Notoungulata) from the Deseadan (Late Oligocene) of Argentina. Paleoecology, biogeography, and radiation of the rodentlike ungulates in South America

Published online by Cambridge University Press:  14 July 2015

Marcelo A. Reguero
Affiliation:
División Paleontología de Vertebrados, Museo de La Plata, B1900FWA La Plata, Argentina,
María Teresa Dozo
Affiliation:
Laboratorio de Paleontología, Centro Nacional Patagonico, Consejo Nacional de Investigaciones Cientificas y Técnicas, 9120 Puerto Madryn, Chubut, Argentina,
Esperanza Cerdeño
Affiliation:
Departamento de Geología y Paleontología, Instituto Argentino de Nivología, Glaciología, y Ciencias Ambientales, Centro Regional de Investigaciones Científicas y Técnicas, Consejo Nacional de Investigaciones Científicas y Técnicas, Avda. Ruiz Leal s/n, 5500 Mendoza, Argentina,

Abstract

The cranial anatomy of the Deseadan species Medistylus dorsatus (Ameghino, 1903) is described based on new and complete material from Cabeza Blanca (Chubut, Argentina). Medistylus is the largest of the Pachyrukhinae and the specimen described here is probably the best-preserved pachyrukhine skull known in the Paleogene of South America. Previously, the validity of the species and its phylogenetic affinities with Interatheriidae (Notoungulata, Typotheria) were ambiguous and not conclusive. The syntypes, now reported lost, were isolated teeth poorly described by Ameghino in 1903. This almost complete skull with teeth provides more diagnostic features in order to complete the knowledge of genus. Details about cranial and dental morphology allow the reassessment of Medistylus dorsatus and its inclusion within the subfamily Pachyrukhinae (Hegetotheriidae, Notoungulata). Its cranial and dental specializations and the apparent sympatry with its close relatives Prosotherium garzoni Ameghino, 1897 and Propachyrucos smithwoodwardi Ameghino, 1897 all imply a narrow niche partitioning among the Pachyrukhinae during the Deseadan (late Oligocene). The occurrence of three euhypsodont genera of Pachyrukhinae in the Deseadan of Patagonia reflects the major radiation of the rodentlike ungulates in the Cenozoic of South America and suggests a great paleoenvironmental difference between the late Oligocene faunas of Patagonia and those from Bolivia and Uruguay, where they did not live.

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

Ameghino, F. 1885. Nuevos restos de mamíferos fósiles oligocenos recogidos por el Profesor Pedro Scalabrini y pertenecientes al Museo Provincial de la ciudad de Paraná. Boletín de la Academia Nacìonal de Ciencias de Córdoba, 8:5207.Google Scholar
Ameghino, F. 1887a. Enumeración sistemática de las especies de mamíferos fósiles coleccionados por Carlos Ameghino en los terrenos eocenos de Patagonia austral y depositados en el Museo La Plata. Boletín del Museo La Plata, 1, 26 p. (from reprint)Google Scholar
Ameghino, F. 1887b. Apuntes preliminares sobre algunos mamíferos extinguidos del yacimiento de “Monte Hermoso” existentes en el “Museo La Plata.” Boletín del Museo La Plata, 1, 20 p. (from reprint)Google Scholar
Ameghino, F. 1887c. Observaciones generales sobre el orden de mamíferos extinguidos Sud-Americanos llamados toxodontes (Toxodontia) y sinopsis de los géneros y especies hasta ahora conocidos. Anales del Museo La Plata, (Entrega especial, 1936), 66 p.Google Scholar
Ameghino, F. 1888. Lista de las especie de mamíferos fósiles del Mioceno superior de Monte-Hermoso, hasta ahora conocidas. P.E. Coni, Buenos Aires, 21 pGoogle Scholar
Ameghino, F. 1889. Contribución al conocimiento de los mamíferos fósiles de la República Argentina. Actas de la Academia Nacional de Ciencias de Córdoba, 8:1207.Google Scholar
Ameghino, F. 1894. Enumération synoptique des espèces de mammifères fossiles des formations éocènes de Patagonie. Boletín de la Academia Nacional de Ciencias de Córdoba, 13:259445.Google Scholar
Ameghino, F. 1897. Mammifères crétacés de l'Argentine. (Deuxième contribution à la connaissance de la faune mammalogique des couches à Pyrotherium). Boletín del Instituto Geográfico Argentino, 18:405521.Google Scholar
Ameghino, F. 1903. Nuevas especies de mamíferos cretáceos y terciarios de la República Argentina. Anales de la Sociedad Científica Argentina, 56:193208.Google Scholar
Ameghino, F. 1904. Rechérchès de morphologie phylogénétique sur les molaires supérieures des ongulés. Anales del Museo Nacional de Buenos Aires, 9 (ser. 3a, 3), 541 p.Google Scholar
Berry, E. W. 1925. Miocene flora from Patagonia. John Hopkins University, Studies in Geology, 6:183233.Google Scholar
Barreda, V. and Bellosi, E. 2003. Ecosistemas terrestres del Mioceno temprano de la Patagonia central, Argentina: Primeros avances. Revista del Museo Argentino de Ciencias Naturales, n.s., 5(2):125134.CrossRefGoogle Scholar
Bond, M. 1986. Los ungulados fósiles de Argentina: evolución y paleoambientes. IV Congreso Argentino de Paleontología y Bioestratigrafía, Mendoza, Actas 2:173185.Google Scholar
Bonino, N., Sbriller, A., Manacorda, M. M., and Larosa, F. 1997. Food partitioning between the mara (Dolichotis patagonum) and the introduced hare (Lepus europaeus) in the Monte Desert, Argentina. Studia Neotropica Fauna and Environment, 32:129134.CrossRefGoogle Scholar
Castro, P. 2001. Los Hegetotheriidae (Mammalia: Notoungulata: Hegetotheria) del Paleógeno de Patagonia, Argentina: sistemática, filogenia y paleoecología. A thesis presented to the graduate school of the Universidad Nacional of Patagonia “San Juan Bosco,” Chubut.Google Scholar
Cerdeño, E. and Bond, M. 1998. Taxonomic revision and phylogeny of Paedotherium and Tremacyllus (Pachyrukhinae, Hegetotheriidae, Notoungulata) from the Late Miocene to the Pleistocene of Argentina. Journal of Vertebrate Paleontology, 18:799811.CrossRefGoogle Scholar
Cifelli, R. L. 1985. South American ungulate evolution and extinction. The great American biotic interchange, p. 249266. In Stehli, F. G. and Webb, S. D. (eds.), The Great American Biotic Interchange. Plenum Press, New York.CrossRefGoogle Scholar
Cifelli, R. L. 1993. The phylogeny of the native South American Ungulates. Mammal phylogeny. Placentals, p. 195216. In Szalay, F. S., Novacek, M. J., and McKenna, M. C. (eds.), Mammal Phylogeny: Placentals. Springer-Verlag, New York.Google Scholar
Croft, D. A. 1999. Placentals: South American ungulates, p. 890906. In Singer, R. (ed.), The Encyclopedia of Paleontology. Fitzroy-Dearborn Publishers, Chicago, Illinois.Google Scholar
Croft, D. A. 2000. Archaeohyracidae (Mammalia, Notoungulata) from the Tinguiririca Fauna, central Chile, and the evolution and paleoecology of South American mammalian herbivores. Unpublished Ph.D. dissertation, The University of Chicago.Google Scholar
Croft, D. A. and Anaya, F. 2004. A new hegetotheriid from the middle Miocene of Quebrada Honda, Bolivia, and a phylogeny of the Hegetotheriidae. Journal of Vertebrate Paleontology, 24 (3 Suppl.):4849A.Google Scholar
Croft, D. A., Flynn, J. J., and Wyss, A. R. 2004. Notoungulata and Litopterna of the early Miocene Chucal Fauna, northern Chile. Fieldiana: Geology (New Series), 50:152.Google Scholar
Dompierre, H. and Churcher, C. S. 1996. Premaxillary shape as an indicator of the diet of seven extinct Late Cenozoic New World camels. Journal of Vertebrate Paleontology, 16(1):141148.CrossRefGoogle Scholar
Dozo, M. T. 1997. Paleoneurología de Dolicavia minuscula (Rodentia, Caviidae) y Paedotherium insigne (Notoungulata, Hegetotheriidae) del Plioceno de Buenos Aires, Argentina. Ameghiniana, 34(4):427435.Google Scholar
Dozo, M. T., Reguero, M. A., and Cerdeño, E. 2000. Medistylus dorsatus (Ameghino, 1903), un Hegetotheriidae Pachyrukhinae (Mammalia, Notoungulata) del Deseadense de la provincia de Chubut, Argentina. Ameghiniana, Resúmenes, 37(4):24R.Google Scholar
Elissamburu, A. 2004. Análisis morfométrico y morfofuncional del esqueleto apendicular de Paedotherium (Mammalia, Notoungulata). Ameghiniana, 41(3):363380.Google Scholar
Flynn, J. J., Wyss, A. R., Croft, D. A., and Charrier, R. 2003. The Tinguiririca Fauna, Chile: biochronology, paleoecology, biogeography, and a new earliest Oligocene South American Land Mammal “Age.” Palaeogeography, Palaeoclimatology, Palaeoecology, 195:229259.CrossRefGoogle Scholar
Genise, J. F. 1989. Las cuevas de Actenomys (Rodentia, Octodontidae) de la Formación Chapadmalal (Plioceno superior de Mar del Plata y Miramar (provincia de Buenos Aires). Ameghiniana, 26:3342.Google Scholar
Hitz, R., Reguero, M. A., Wyss, A. R., and Flynn, J. J. 2000. New inter-atheriines (Interatheriidae, Notoungulata) from the Paleogene of central Chile and southern Argentina. Fieldiana: Geology (New Series), 42:126.Google Scholar
Janis, C. M. 1988. An estimation of tooth volume and hypsodonty indices in ungulates mammals, and the correlations of these factors with dietary preference, p. 367387. In Russelll, D., Santoro, J. P., and Sigogneau-Russell, D. (eds.), Teeth Revisited: Proceedings of the VIIth International Symposium on Dental Morphology. Mémoires de Muséum national d'histoire Naturelle (serie C), 53. Editions du Muséum, Paris.Google Scholar
Janis, C. M. 1995. Correlations between craniodental morphology and feeding behavior in ungulates: reciprocal illumination between living and fossil taxa, p. 7698. In Thomason, J. J. (ed.), Functional Morphology in Vertebrate Paleontology. Cambridge University Press, New York.Google Scholar
Janis, C. M. 1997. Ungulate teeth, diets, and climatic changes at the Eocene/Oligocene boundary. Zoology, 100(3):203220.Google Scholar
Janis, C. M. and Ehrhardt, D. 1988. Correlation of relative muzzle width and relative incisor width with dietary preference in ungulates. Zoological Journal of the Linnean Society, 92:267284.CrossRefGoogle Scholar
Janis, C. M., Damuth, J., and Theodor, J. M. 2000. Miocene ungulates and terrestrial primary productivity: Where have all the browsers gone? Proceedings of the National Academy of Sciences of the United States of America, 97(14):78997904.CrossRefGoogle ScholarPubMed
Jarman, P. J. 1974. The social organization of antelopes in relation to their ecology. Behaviour, 48:213267.CrossRefGoogle Scholar
Kay, R., Madden, R. H., Vucetich, M. G., Carlini, A. A., Mazzoni, M. M., Re, G. H., Heizler, M., and Sandeman, H. 1999. Revised geochronology of the Casamayoran South American Land Mammal Age: Climatic and biotic implications. Proceedings of the National Academy of Sciences of the United States of America, 96:1323513240.CrossRefGoogle ScholarPubMed
Kohn, M. J., Josef, J. A., Madden, R., Kay, R., Vucetich, G., and Carlini, A. A. 2004. Climate stability across the Eocene-Oligocene transition, southern Argentina. Geology, 32:621624.CrossRefGoogle Scholar
Kraglievich, L. 1926. Sobre el conducto humeral en las vizcachas y paquirucos chapadmalenses con descripción del Paedotherium imperforatum. Anales del Museo de Historia Natural Bernardino Rivadavia, 34:4588.Google Scholar
Kraglievich, L. 1934. La antigüedad pliocena de las faunas de Monte Hermoso y Chapadmalal, deducidas de su comparación con las que le precedieron y sucedieron. Imprenta EI Siglo Ilustrado. Montevideo Obras Completas, 3:293433.Google Scholar
Linnaeus, C. 1758. Systema Naturae per regna tria Naturae, secumdum Classes, Ordines, Genera, Species cum Characteribus, Differentiis, Synonymis, Locis. Volume 1 (Tenth edition) L. Salvii, Uppsala, 824 p.Google Scholar
Loomis, F. B. 1914. The Deseado Formation of Patagonia. The Rumford Press, Concord, New Hampshire, 232 p.Google Scholar
MacFadden, B. J., Cerling, T. E., and Prado, J. 1996. Cenozoic terrestrial ecosystem evolution in Argentina: Evidence from carbon isotopes of fossil mammal teeth. Palaios, 11:319327.CrossRefGoogle Scholar
Marshall, L. G. and Cifelli, R. L. 1989. Analysis of changing diversity patterns in Cenozoic land mammal age faunas, South America. Palaeovertebrata, 19:169210.Google Scholar
Mazzoni, M. M. 1979. Contribución al conocimiento petrográfico de la Formación Sarmiento. Barranca sur del lago Colhue Huapi, provincia de Chubut. Revista de la Asociación Argentina de Mineralogía, Petrología y Sedimentología, 10(3-4):3353.Google Scholar
Mazzoni, M. M. 1985. La Formación Sarmiento y el vulcanismo paleógeno. Revista de la Asociación Geológica Argentina, 40(1-2):6068.Google Scholar
Mckenna, M. C. and Bell, S. K. 1997. Classification of mammals above the species level. New York: Columbia University Press. p. 1631.Google Scholar
Minoprio, J. L. 1947. Fósiles de la Formación del Divisadero Largo. Anales de la Sociedad Científica Argentina, 146:365378.Google Scholar
Moreno, F. P. 1882. Patagonia, resto de un antiguo continente hoy sumergido. Anales de la Sociedad Científica Argentina, 14:97131.Google Scholar
Patterson, B. 1934. Trachytherus, a typotherid from the Deseado beds of Patagonia. Field Museum of Natural History, Geological Series, 6:91111.Google Scholar
Patterson, B. 1952. Un nuevo y extraordinario marsupial Deseadiano. Museo Municipal de Ciencias Naturales y Tradicional de Mar del Plata, revista, 1(1):944.Google Scholar
Patterson, B. and Pascual, R. 1972. The fossil mammal fauna of South America, p. 247309. In Keast, A., Erk, F. C., and Glass, B. (eds.), Evolution, Mammals and Southern Continents. University of New York State Press, Albany.Google Scholar
Pascual, R. and Ortiz Jaureguizar, E. 1990. Evolving climates and mammal fauna in Cenozoic South America. Journal of Human Evolution, 19:2360.CrossRefGoogle Scholar
Pascual, R., Carlini, A. A., Bond, M., and Goin, F. J. 2002. Mamíferos cenozoicos, p. 533544. In Haller, M. J. (ed.), Geología y Recursos Naturales de Santa Cruz. Relatorio del XV Congreso Geológico Argentino, El Calafate.Google Scholar
Pérez-Barberia, F. J. and Gordon, I. J. 2001. Relationships between oral morphology and feeding style in the Ungulata: A phylogenetically controlled evaluation. Proceedings of the Royal Society of London, 268:10211030.Google ScholarPubMed
Reguero, M. A. 1993. Los Typotheria y Hegetotheria (Mammalia, Notoungulata) eocenos de la localidad Cañadón Blanco, Chubut. Ameghiniana, 30(3):336.Google Scholar
Reguero, M.A. 1999. El problema de las relaciones sistemáticas y filogenéticas de los Typotheria y Hegetotheria (Mammalia, Notoungulata): análisis de los taxones de Patagonia de la Edad-mamífero Deseadense (Oligoceno). Ph.D. dissertation, Departamento de Ciencias Biológicas, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Buenos Aires.Google Scholar
Reguero, M. A. and Castro, P. 2004. Un nuevo Trachytheriinae (Mammalia, Notoungulata) del Deseadense (Oligoceno tardío) de Patagonia, Argentina: implicancias en la filogenia, biogeografía y bioestratigrafía de los Mesotheriidae. Revista Geológica de Chile, 31(1):4564.CrossRefGoogle Scholar
Reguero, M. A. and Cerdeño, E. 2001. New Hegetotheriidae (Notoungulata) from the Deseadan (Late Oligocene) of Salla (Bolivia). Ameghiniana, suplemento, resúmenes, 38(4):17R.Google Scholar
Reguero, M. A. and Cerdeño, E. 2005. New late Oligocene Hegetotheriidae (Mammalia, Notoungulata) from Salla, Bolivia. Journal of Vertebrate Paleontology, 25(3):674684.CrossRefGoogle Scholar
Reguero, M. A., Ubilla, M., and Perea, D. 1998. A new species of Archaeohyracidae (Mammalia, Notoungulata) from Fray Bentos Formation (Deseadan) of Uruguay. Acta Geológica Lilloana, 18:178179.Google Scholar
Reguero, M. A., Ubilla, M., and Perea, D. 2002. A new species of Eopachyrucos (Mammalia, Notoungulata, Interatheriidae) from the late Oligocene of Uruguay. Journal of Vertebrate Paleontology, 23(2):445457.CrossRefGoogle Scholar
Reig, O. A. 1981. Teoría del origen y desarrollo de la fauna de mamíferos de América del Sur. Monographiae Naturae, 1. 162p.Google Scholar
Roth, S. 1903. Noticias preliminares sobre algunos nuevos mamíferos fósiles. Revista del Museo de La Plata, p. 126.Google Scholar
Scott, W. B. 1937. A history of land mammals in the Western Hemisphere (second edition). Macmillan, New York, 786 p.Google Scholar
Shockey, B. J. 1997. Two new notoungulates (Family Notohippidae) from the Salla beds of Bolivia (Deseadan: Late Oligocene): systematics and functional morphology. Journal of Vertebrate Paleontology, 17(3):584599.CrossRefGoogle Scholar
Simpson, G. G. 1945a. The principles of classification and a classification of mammals. Bulletin of the American Museum of Natural History, 85:1350.Google Scholar
Simpson, G. G. 1945b. A Deseado hegetothere from Patagonia. American Journal of Science, 243:550564.CrossRefGoogle Scholar
Sinclair, W. J. 1909. Mammalia of the Santa Cruz beds. I. Typotheria. Reports of the Princeton University Expeditions to Patagonia, 1896-1899, 6:1110.Google Scholar
Solounias, N. and Moelleken, S. M. C. 1993. Dietary adaptation of some extinct ruminants determined by premaxillary shape. Journal of Mammalogy, 74(4):10591071.CrossRefGoogle Scholar
Solounias, N., Moelleken, S. M. C., and Plavcan, J. M. 1995. Predicting the diet of extinct bovids using masseteric morphology. Journal of Vertebrate Paleontology, 15(4):795805.CrossRefGoogle Scholar
Spalletti, L. and Mazzoni, M. 1979. Estratigrafía de la Formación Sarmiento en la Barranca Sur del Lago Colhue Huapi, Provincia de Chubut. Asociación Geológica Argentina, Revista, 34(4):271281.Google Scholar
Stirton, R. A. 1947. Observations on evolutionary rates of hypsodonty. Evolution, 1:3241.CrossRefGoogle Scholar
Stirton, R. A. 1952. Medistylus, new name for Phanophilus Ameghino, not Sharp. Journal of Paleontology, 26(3):351.Google Scholar
Strömberg, C. A. E. 2002. The origin and spread of grass-dominated eco-systems in the late Tertiary of North America: preliminary results concerning the evolution of hypsodonty. Palaeogeography, Palaeoclimatology, Palaeoecology, 177:5975.CrossRefGoogle Scholar
Williams, S. H. and Kay, R. F. 2001. A comparative test of adaptive explanations for hypsodonty in ungulates and rodents. Journal of Mammalian Evolution, 8(3):207229.CrossRefGoogle Scholar
ZimmermannE. A. W., von. E. A. W., von. 1778-1783. Geographische Geschichte des Menschen, und der allgemein verbreiteten vierfüssigen Thiere, nebsit einer hieher gehörigen zoologischen Weltkarte. Volume 2. Geographische Geschichte des Menschen, und der vierfüssigen Thiere Zweiter Band. Enthält ein vollständiges Verzeichniss aller bekannten Quadrupeden. Weygandschen Buchhandlung, Leipzig.Google Scholar
Zittel, K. A., Von, . 1893. Handbuch der Palaeontologie. Abteilung I. Palaeozoologie. Band IV, Vertebrata (Mammalia). Munich, R. Oldenbourg, xi + 799 p.Google Scholar