Epipubic bones in eutherian mammals from the Late Cretaceous of Mongolia (original) (raw)

References

  1. Leche, W. Zur Morphologie der Beutelknochen. Biol. Fören. Förhandl. (Stockh.) 3, 120–126 (1891).
    Google Scholar
  2. Fourie, S. Notes on a new tritylodontid from the Cave Sandstone of South Africa. Navors. Nasion. Mus. 2, 7–19 (1962).
    Google Scholar
  3. Lillegraven, J. A. Latest Cretaceous mammals of upper part of Edmonton Formation of Alberta, Canada, and review of marsupial-placental dichotomy in mammalian evolution. Univ. Kansas Paleontol. Contrib. 50, 1–122 (1969).
    Google Scholar
  4. Vaughn, P. P. The phylogenetic migrations of the ambiens muscle. J. Elisha Mitchell Sci. Soc. 72, 243–262 (1956).
    Google Scholar
  5. White, T. D. An analysis of epipubic bone function in mammals using scaling theory. J. Theor. Biol. 139, 343–357 (1989).
    Article CAS Google Scholar
  6. Lillegraven, J. A., Thompson, S. D., McNab, B. K. & Patton, J. L. The origin of eutherian mammals. Biol. J. Linn. Soc. 32, 281–336 (1987).
    Article Google Scholar
  7. Kielan-Jaworowska, Z. Possible occurrence of marsupial bones in Cretaceous eutherian mammals. Nature 255, 698–699 (1975).
    Article ADS Google Scholar
  8. Novacek, M. J., Norell, M., McKenna, M. C. & Clark, J. Fossils of the Flaming Cliffs. Sci. Am. 271, 60–69 (1994).
    Article Google Scholar
  9. Dashzeveg, D. et al. Extraordinary preservation in a new vertebrate assemblage from the Late Cretaceous of Mongolia. Nature 374, 446–449 (1995).
    Article ADS Google Scholar
  10. Norell, M. A. et al. Atheropod dinosaur embryo and the affinities of the Flaming Cliffs dinosaur eggs. Science 266, 779–782 (1994).
    Article ADS CAS Google Scholar
  11. Norell, M. A., Clark, J. M., Chiappe, L. M. & Dashzeveg, D. Anesting dinosaur. Nature 378, 774–776 (1995).
    Article ADS CAS Google Scholar
  12. Gregory, W. K. & Simpson, G. G. Cretaceous mammal skulls from Mongolia. Am. Mus. Novit. 225, 1–20 (1926).
    Google Scholar
  13. Kielan-Jaworowska, Z. Preliminary description of two new eutherian genera from the Late Cretaceous of Mongolia. Palaeontol. Pol. 33, 5–16 (1975).
    Google Scholar
  14. Novacek, M. J. The skull of leptictid insectivorans and the higher-level classification of eutherian mammals. Bull. Am. Mus. Nat. Hist. 183, 1–111 (1986).
    Google Scholar
  15. Kielan-Jaworowska, Z. Evolution of the therian mammals in the Late Cretaceous of Asia. Part IV. Skull structure in Kennalestes and Asioryctes. Palaeontol. Pol. 42, 25–78 (1981).
    Google Scholar
  16. MacPhee, R. D. E. & Novacek, M. J. in Mammal Phylogeny, Placentals (eds Szalay, F. S., Novacek, M. J. & McKenna, M. C.) 13–31 (Springer, New York, (1993)).
    Book Google Scholar
  17. Kielan-Jaworowska, Z. Evolution of the therian mammals in the Late Cretaceous of Asia. Part II. Postcranial skeleton in Kennalestes and Asioryctes. Palaeontol. Pol. 37, 55–83 (1977).
    Google Scholar
  18. McKenna, M. C. in Phylogeny of the Primates: a Multidisciplinary Approach (eds Luckett, W. P. & Szalay, F. S.) 21–46 (Plenum, New York, (1975)).
    Book Google Scholar
  19. Krause, D. W. & Jenkins, F. A. J The postcranial skeleton of North American multituberculates. Bull. Mus. Comp. Zool. 150, 199–246 (1983).
    Google Scholar
  20. Kielan-Jaworowska, Z. & Gambaryan, P. P. Postcranial anatomy and habits of Asian multituberculate mammals. Fossils Strata 36, 1–92 (1994).
    Google Scholar
  21. Krebs, B. Das Skelett von Henkelotherium guimorotae gen. et sp. nov. (Eupantotheria, Mammalia) aus dem Oberen Jura von Portugal. Berl. Geowiss. Abh. A 133, 1–121 (1991).
    Google Scholar
  22. Rougier, G. W. Vincelestes neuquenianus Bonaparte (Mammalia, Theria). Un primitivo mamífero del Cretácico Inferior de la Cuenca Neuquina.Dissertation, Univ. Buenos Aires (1993).
  23. Jellison, W. L. Asuggested homolog of the os penis or baculum of mammals. J. Mammal. 26, 146–147 (1945).
    Article Google Scholar
  24. Marshall, L. G. Evolution of the metatherian and eutherian (mammalian) characters: a review based on cladistic methodology. Zool. J. Linn. Soc. 66, 369–410 (1979).
    Article Google Scholar
  25. Tyndale-Biscoe, C. H. & Renfree, M. B. Reproductive Physiology of Marsupials (Cambridge Univ. Press, (1987)).
    Book Google Scholar
  26. Renfree, M. B. in Mammal Phylogeny, Mesozoic Differentiation, Multituberculates Monotremes, Early Therians and Marsupials (eds Szalay, F. S., Novacek, M. J. & McKenna, M. C.) 4–20 (Springer, New York, (1993)).
    Google Scholar
  27. Reig, O. A., Kirsch, J. A. W. & Marshall, L. G. in Possums and Opossums: Studies in Evolution (ed. Archer, M.) 1–90 (Surrey Beatty, Chipping Norton, (1987)).
    Google Scholar
  28. Springer, M. S., Kirsch, J. A. W. & Case, J. A. in Molecular Evolution and Adaptative Radiations (eds Givnish, T. J. & Sytsma, K.) 129–161 (Cambridge Univ. Press, New York, (1997)).
    Google Scholar
  29. Novacek, M. J. Mammalian phylogeny: shaking the tree. Nature 356, 121–125 (1992).
    Article ADS CAS Google Scholar

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