PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
2012 | 57 | 1 |

Tytuł artykułu

Therian femora from the Late Cretaceous of Uzbekistan

Treść / Zawartość

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Femora referable to metatherians and eutherians recovered from the Bissekty Formation, Dzharakuduk, Kyzylkum Desert, Uzbekistan (90 Mya), are described. Fourteen isolated specimens were sorted based on size and morphology into groups that likely correspond to the species level or higher. Groups were then tentatively assigned to taxa known from teeth, petrosals, and/or other postcrania at these localities. One distal femur of a small arboreal metatherian, and several eutherian distal femora that probably represent zhelestids and/or zalambdalestids were identified. With the exception of one proximal femur that is similar in some aspects to the zalambdalestid Barunlestes, and a previously described multituberculate specimen, all other proximal femora from the Bissekty Formation exhibit a metatherian−like morphology. The dental record currently suggests the presence of twelve eutherian species and only one metatherian at Dzharakuduk, whereas the humeral and crurotarsal evidence supports the presence of at least two or four metatherian species, respectively. Given the sample size of the proximal femora, the morphological diversity present, and the overwhelming presence of eutherians at these localities, it is highly unlikely that the overwhelming majority of proximal femora actually represent metatherians. Therefore, this sample may suggest that the metatherian proximal femoral condition is primitive for Theria and that some eutherian taxa (probably including Zhelestidae, which are dentally most abundant at these localities) retain this condition.

Wydawca

-

Rocznik

Tom

57

Numer

1

Opis fizyczny

p.53-64,fig.,ref.

Twórcy

  • Department of Anthropology, Yale University, P.O.Box 208277, New Haven, CT 06520, USA
autor
autor

Bibliografia

  • Archibald, J.D. and Averianov, A.O. 2005. Mammalian faunal succession in the Cretaceous of the Kyzylkum Desert. Journal of Mammalian Evolution 12: 9–22.
  • Argot, C. 2002. Functional−adaptive analysis of the hindlimb anatomy of extant marsupials and the paleobiology of the Paleocene marsupials Mayulestes ferox and Pucadelphys andinus. Journal of Morphology 253: 76–108.
  • Argot, C. 2004. Functional−adaptive analysis of the postcranial skeleton of a Laventan borhyaenoid, Lycopsis longirostris (Marsupialia, Mammalia). Journal of Vertebrate Paleontology 24: 689–708.
  • Averianov, A.O., Archibald, J.D., and Ekdale, E.G. 2010. New material of the Late Cretaceous deltatheroidan mammal Sulestes from Uzbekistan and phylogenetic reassessment of the metatherian−eutherian dichotomy. Journal of Systematic Paleontology 8: 301–330.
  • Chester, S.G.B., Sargis, E.J., Szalay, F S., Archibald, J.D., and Averianov, A.O. 2010. Mammalian distal humeri from the Late Cretaceous of Uzbekistan. Acta Palaeontologica Polonica 55: 199–211.
  • Ekdale, E.G., Archibald, J.D., and Averianov, A.O. 2004. Petrosal bones of placental mammals from the Late Cretaceous of Uzbekistan. Acta Palaeontologica Polonica 49: 161–176.
  • Gebo, D.L. and Sargis, E.J. 1994. Terrestrial adaptations in the postcranial skeletons of guenons. American Journal of Physical Anthropology 93: 341–371.
  • Horovitz, I. 2003. Postcranial skeleton of Ukhaatherium nessovi (Eutheria, Mammalia) from the Late Cretaceous of Mongolia. Journal of Vertebrate Paleontology 23: 857–868.
  • Horovitz, I., Ladeveze, S., Argot, C., Macrini, T.E., Martin, T., Hooker, J.J., Kurz, C., Muizon, C., and Sanchez−Villagra, M.R. 2008. The anatomy of Herpetotherium cf. fugax COPE, 1873, a metatherian from the Oligocene of North America. Palaeontographica Abteilung A 284: 109–141.
  • Hu, Y.−M., Wang, Y.−Q., Luo, Z.−X., and Li, C.−K. 1997. A new symmetrodont mammal from China and its implications for mammalian evolution. Nature 390: 137–142.
  • Jenkins, F.A. Jr. 1971. Limb posture and locomotion in the Virginia opossum (Didelphis marsupialis) and in other non−cursorial mammals. Journal of Zoology, London 165: 303–315.
  • Ji, Q., Luo, Z.−X., Yuan, C.−X., Wible, J.R., Zhang, J.−P., and Georgi, J.A. 2002. The earliest known eutherian mammal. Nature 416: 816–822.
  • Kappelman, J. 1988. Morphology and locomotor adaptations of the bovid femur in relation to habitat. Journal of Morphology 198: 119–130.
  • Kielan−Jaworowska, Z. 1975. Possible occurrence of marsupial bones in Cretaceous eutherian mammals. Nature 255: 698–699.
  • Kielan−Jaworowska, Z. 1978. Evolution of the therian mammals in the Late Cretaceous of Asia. Part III. Postcranial skeleton in Zalambdalestidae. Palaeontologia Polonica 38: 3–41.
  • Kielan−Jaworowska, Z. and Nessov, L.A. 1992. Multituberculate mammals from the Cretaceous of Uzbekistan. Acta Palaeontologica Polonica 37: 1–17.
  • Krebs, B. 1991. Das Skelett von Henkelotherium guimarotae gen. et sp. nov. (Eupantotheria, Mammalia) aus dem Oberen Jura von Portugal. Berliner geowissenschaftliche Abhandlungen A 133: 1–110.
  • Li, G. and Luo, Z.−X. 2006. A Cretaceous symmetrodont therian with some monotreme−like postcranial features. Nature 439: 195–200.
  • Luo, Z.−X. and Ji, Q. 2005. New study on dental and skeletal features of the Cretaceous mammal Zhangheotherium. Journal of Mammalian Evolution 12: 337–357.
  • Luo, Z.−X., Ji, Q., Wible, J.R., and Yuan, C.−X. 2003. An Early Cretaceous tribosphenic mammal and metatherian evolution. Science 302: 1934–1940.
  • Muizon, C. 1998. Mayulestes ferox, a borhyaenoid (Metatheria, Mammalia) from the early Palaeocene of Bolivia. Phylogenetic and palaeobiologic implications. Geodiversitas 20: 19–142.
  • Muizon, C. and Argot, C. 2003. Comparative anatomy of the Tiupampa Didelphimorphs; an approach to locomotory habits of early marsupials. In: M. Jones, C.R. Dickman, and M. Archer (eds.), Predators with Pouches: the Biology of Carnivorous Marsupials, 43–62. CSIRO Publishing, Collingwood.
  • Novacek, M.J., Rougier, G.W., Wible J.R., McKenna, M.C., Dashzeveg, D., and Horovitz, I. 1997. Epipubic bones in eutherian mammals from the Late Cretaceous of Mongolia. Nature 389: 483–486.
  • Rougier, G.W., Ji, Q., and Novacek, M.J. 2003. A new symmetrodont mammal with fur impressions from the Mesozoic of China. Acta Geologica Sinica 77: 7–14.
  • Salton, J.A. and Sargis, E.J. 2009. Evolutionary morphology of the Tenrecoidea (Mammalia) hindlimb skeleton. Journal of Morphology 270: 367–387.
  • Sargis, E.J. 2002. Functional morphology of the hindlimb of tupaiids (Mammalia, Scandentia) and its phylogenetic implications. Journal of Morphology 254: 149–185.
  • Szalay, F.S. 1984. Arboreality: is it homologous in metatherian and eutherian mammals? Evolutionary Biology 18: 215–258.
  • Szalay, F.S. 1994. Evolutionary History of the Marsupials and an Analysis of Osteological Characters. 481 pp. Cambridge University Press, New York.
  • Szalay, F.S. and Sargis, E.J. 2001. Model−based analysis of postcranial osteology of marsupials from the Palaeocene of Itaboraí (Brazil) and the phylogenetics and biogeography of Metatheria. Geodiversitas 23: 139–302.
  • Szalay, F.S. and Sargis, E.J. 2006. Cretaceous therian tarsals and the metatherian−eutherian dichotomy. Journal of Mammalian Evolution 13: 171–210.
  • Szalay, F.S. and Trofimov, B.A. 1996. The Mongolian Late Cretaceous Asiatherium, and the early phylogeny and paleobiogeography of Metatheria. Journal of Vertebrate Paleontology 23: 857–868.
  • Taylor, M.E. 1976. The functional anatomy of the hindlimb of some African Viverridae (Carnivora). Journal of Morphology 148: 227–254.

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

bwmeta1.element.agro-8fe2f993-784c-4d28-8753-4677b6bf70e9
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.