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4 - Molecular and morphological evidence for Ailuridae and a review of its genera

Published online by Cambridge University Press:  05 July 2014

Michael Morlo
Affiliation:
Forschungsinstitut Senckenberg, Frankfurt am Main
Stéphane Peigné
Affiliation:
Museúm National d’Histoire Naturelle, Paris
Anjali Goswami
Affiliation:
University College London
Anthony Friscia
Affiliation:
University of California, Los Angeles
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Summary

Introduction

The red panda, Ailurus fulgens, is a peculiar recent carnivoran whose systematic relationships have been disputed since its first description in 1825 (Figure 4.1). While occurring with a single species today, Ailuridae was represented by several genera in the past. Flynn and Nedbal (1998) were the first to place Ailurus in its own family based on molecular evidence. While subsequent analyses of molecular data have confirmed this, paleontological findings of the last 10 years shed much more light on the natural history of Ailuridae and the morphology of its members. Before 1997, Ailuridae consisted of 5 genera with about 16 species. Only two genera belonged to Ailurinae (Ailurus and Parailurus). Today, the family contains 9 genera (5 of which are considered to be ailurines) with about 26 species. It now is agreed that the earliest ailurid is Amphictis, the earliest species of which are known from the Late Oligocene (MP 28, about 25 Mya) of Europe. Even though Ailurus today is restricted to Southeast Asia, it is apparent that ailurids were once present in all Northern continents and were most diverse in Europe throughout most of their history.

In this chapter, we examine the recent and fossil evidence supporting the assignment of Ailurus fulgens and its ancestors (including Amphictis) to a distinct family, Ailuridae. We find such an assignment fully justified and corroborated by morphological data. We review all molecular and morphological studies in which Ailurus has been included. While new molecular studies continue to support a family Ailuridae, a review of the morphology of A. fulgens led to the identification of a number of characters which could be traced within the fossil relatives of Ailurus. This survey led to the development of emended diagnoses of all included genera. We also include a list of all ailurid species and resolve some outstanding issues concerning the taxonomy or systematic relationships of several taxa. Finally, we briefly recapitulate the natural history of Ailuridae. We follow Smith and Dodson (2003) for anatomical notation and orientation of dentitions.

Type
Chapter
Information
Carnivoran Evolution
New Views on Phylogeny, Form and Function
, pp. 92 - 140
Publisher: Cambridge University Press
Print publication year: 2010

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References

Antón, M., Salesa, M. J., Pastor, J. F., Peigné, S. and Morales, J. (2006). Implications of the functional anatomy of the hand and forearm of Ailurus fulgens (Carnivora, Ailuridae) for the evolution of the ‘false-thumb’ in pandas. Journal of Anatomy, 209, 757–64.CrossRefGoogle ScholarPubMed
Bardenfleth, K. S. (1914). On the systematic position of Aeluropus melanoleucus. Mindeskrift i anledning af hundredaaret for Japetus Steenstrups Fødsel udgivet af en kreds af naturforskere, 1(17), 1–15.Google Scholar
Baskin, J. A. (1998). Procyonidae. In Evolution of Tertiary Mammals of North America. Volume 1: Terrestrial Carnivores, Ungulates, and Ungulatelike Mammals, ed. Janis, C. M., Scott, K. M. and Jacobs, L. L.. Cambridge: Cambridge University Press, pp. 144–51.Google Scholar
Baskin, J. A. (2003). New Procyonines from the Hemingfordian and Barstovian of the Gulf Coast and Nevada, including the first fossil record of the Potosini. Bulletin of the American Museum of Natural History, 279, 125–46.2.0.CO;2>CrossRefGoogle Scholar
Baskin, J. A. (2004). Bassariscus and Probassariscus (Mammalia, Carnivora, Procyonidae) from the early Barstovian (middle Miocene). Journal of Vertebrate Paleontology, 24, 709–20.CrossRefGoogle Scholar
Beaumont, G. (1964). Essai sur la position taxonomique des genres Alopecocyon Viret et Simocyon Wagner (Carnivora). Eclogae geologicae Helvetiae, 57, 829–36.Google Scholar
Beaumont, G. (1968). Note sur l'ostéologie crânienne de Plesiogale Pomel (Mustelidae, Carnivora). Archives des Sciences, 21, 27–34.Google Scholar
Beaumont, G. (1976). Remarques préliminaires sur le genre Amphictis Pomel (Carnivore). Bulletin de la Société vaudoise de Sciences naturelles, 73, 171–80.Google Scholar
Beaumont, G. (1982). Qu'est-ce que le Plesictis leobensis Redlich (mammifère, carnivore)?Archives des Sciences, 35, 143–52.Google Scholar
Beaumont, G. (1988). Contributions à l’étude du gisement Miocène supérieur de Montredon (Hérault) – les grands mammifères, 2 – Les carnivores. Palaeovertebrata, Mémoire extraordinaire, 1988, 15–42.Google Scholar
Bien, M. N. and Chia, L. P. (1938). Cave and rock-shelter deposits in Yunnan. Bulletin of the Geological Society of China, 18, 325–47.CrossRefGoogle Scholar
Blainville, H. M. D. (1841). Ostéographie ou description iconographique comparée du squelette et du système dentaire des cinq classes d'animaux vertebras récents et fossils pour servir de base à la zoologie et à la géologie. Mammifères. Carnassiers: Vespertilio. Talpa. Sorex. Erinaceus. Phoca. Ursus. Subursus. – Des petits-ours (G. Subursus). Paris: Arthus Bertrand.Google Scholar
Bonis, L. (1976). Découverte d'un crane d’Amphictis (Mammalia, Carnivora) dans l'Oligocène supérieur des Phosphorites du Quercy (Lot). Comptes rendus de l'Académie des Sciences, série D, 283, 327–30.Google Scholar
Bowdich, T. E. (1821). An Analysis of the Natural Classifications of Mammalia, for the use of Students and Travellers. Paris: J. Smith.Google Scholar
Bruijn, H., Daams, R., Daxner-Höck, G., et al. (1992). Report of the RCMNS working group on fossil mammals, Reisensburg 1990. Newsletters on Stratigraphy, 26, 65–118.CrossRefGoogle Scholar
Bugge, J. (1978). The cephalic arterial system in carnivores, with special reference to the systematic classification. Acta Anatomica, 101, 45–61.CrossRefGoogle ScholarPubMed
Camp, C. L. and Vanderhoof, V. L. (1940). Bibliography of fossil vertebrates 1928–1933. Geological Society of America Special Papers, 27, 1–503.CrossRefGoogle Scholar
Chen, D. Z. and Qi, G. (1978). Human remains and mammals accompanied in Xi Chuo, Yunnan. Vertebrata PalAsiatica, 16, 35–46.Google Scholar
Choudhury, A. (2001). An overview of the status and conservation of the red panda Ailurus fulgens in India, with reference to its global status. Oryx, 35, 250–59.CrossRefGoogle Scholar
Cirot, E. and Bonis, L. (1993). Le crâne d’Amphictis ambiguus (Carnivora, Mammalia): son importance pour la compréhension de la phylogénie des mustéloïdes. Comptes rendus de l'Académie des Sciences, Série II, 316, 1327–33.Google Scholar
Cirot, E. and Wolsan, M. (1995). Late Oligocene amphictids (Mammalia: Carnivora) from La Milloque, Aquitaine Basin, France. Geobios, 28, 757–67.CrossRefGoogle Scholar
Crusafont-Pairó, M. and Kurtén, B. (1976). Bears and bear-dogs from the Vallesian of the Vallés-Penedés Basin, Spain. Acta Zoologica Fennica, 144, 1–29.Google Scholar
Davis, D. D. (1964). The giant panda. A morphological study of evolutionary mechanisms. Fieldiana: Zoology Memoirs, 3, 1–339.Google Scholar
Dawkins, W. B. (1868). Fossil animals and geology of Attica, by Albert Gaudry. (Critical summary). Quarterly Journal of the Geological Society of London, 24, 1–7.Google Scholar
Dawkins, W. B. (1888). On Ailurus anglicus, a new carnivore from Red Crag. Quarterly Journal of the Geological Society of London, 44, 228–31.CrossRefGoogle Scholar
Degnan, S. M. (1993). The perils of single gene trees – mitochondrial versus single-copy nuclear DNA variation in white-eyes (Aves: Zosteropidae). Molecular Ecology, 2, 219–25.CrossRefGoogle Scholar
Dehm, R. (1950). Die Raubtiere aus dem Mittel-Miocän (Burdigalium) von Wintershof-West bei Eichstätt in Bayern. Abhandlungen der Bayerischen Akademie der Wissenschaften, Mathematisch-naturwissenschaftliche Klasse, Neue Folge, 58, 1–141.Google Scholar
Delisle, I. and Strobeck, C. (2005). A phylogeny of the Caniformia (order Carnivora) based on 12 complete protein-coding mitochondrial genes. Molecular Phylogenetics and Evolution, 37, 192–201.CrossRefGoogle ScholarPubMed
Domingo-Roura, X., López-Giráldez, F., Saeki, M. and Marmi, J. (2005). Phylogenetic inference and comparative evolution of a complex microsatellite and its flanking region in carnivores. Genetical Research, 85, 223–33.CrossRefGoogle ScholarPubMed
Fejfar, O. and Sabol, M. (2004). Pliocene carnivores (Carnivora, Mammalia) from Ivanovce and Hajnáča (Slovakia). Courier Forschungsinstitut Senckenberg, 246, 15–53.Google Scholar
Filhol, H. (1883). Notes sure quelques mammifères fossiles de l’époque Miocène. Archives du Muséum d'Histoire Naturelle de Lyon, 3, 1–97.Google Scholar
Flower, W. H. (1869). On the value of the characters of the base of the cranium in the classification of the Order Carnivora, and on the systematic position of Bassaris and other disputed forms. Proceedings of the Scientific Meetings of the Zoological Society of London, 1869, 4–37.Google Scholar
Flower, W. H. (1870). On the anatomy of Aelurus fulgens, Fr. Cuv. Proceedings of the Scientific Meetings of the Zoological Society of London, 1870, 752–69.Google Scholar
Flower, W. H. and Lydekker, R. (1891). An Introduction to the Study of Mammals Living and Extinct. London: Adam and Charles Black.Google Scholar
Flynn, J. J. and Nedbal, M. A. (1998). Phylogeny of the Carnivora (Mammalia): congruence vs incompatibility among multiple data sets. Molecular Phylogenetics and Evolution, 9, 414–26.CrossRefGoogle ScholarPubMed
Flynn, J. J., Finarelli, J. A., Zehr, S., Hsu, J. and Nedbal, M. A. (2005). Molecular phylogeny of the Carnivora (Mammalia): assessing the impact of increased sampling on resolving enigmatic relationships. Systematic Biology, 54, 317–37.CrossRefGoogle ScholarPubMed
Flynn, J. J., Nedbal, M. A., Dragoo, J. W. and Honeycutt, R. L. (2000). Whence the red panda?Molecular Phylogenetics and Evolution, 17, 190–99.CrossRefGoogle ScholarPubMed
Flynn, J. J., Neff, N. A. and Tedford, R. H. (1988). Phylogeny of the Carnivora. In The Phylogeny and Classification of the Tetrapods, Volume 2: Mammals, ed. Benton, M. J.. Oxford: Clarendon Press, Systematics Association Special Volume 35B, pp. 73–116.Google Scholar
Fulton, T. L. and Strobeck, C. (2006). Molecular phylogeny of the Arctoidea (Carnivora): effect of missing data on supertree and supermatrix analyses of multiple gene data sets. Molecular Phylogenetics and Evolution, 41, 165–81.CrossRefGoogle ScholarPubMed
Fulton, T. L. and Strobeck, C. (2007). Novel phylogeny of the raccoon family (Procyonidae: Carnivora) based on nuclear and mitochondrial DNA evidence. Molecular Phylogenetics and Evolution, 43, 1171–77.CrossRefGoogle ScholarPubMed
Gaudry, A. (1862–1867). Animaux fossiles et géologie de l'Attique. Paris: F. Savy Editeur.Google Scholar
Geoffroy Saint-Hilaire, E. and Cuvier, F. (1825). Histoire naturelle des Mammifères, avec des figures originales, coloriées, dessinées d'après des animaux vivans. Tome troisième. Livraison 50e. Paris: A. Belin.Google Scholar
Gervais, P. (1870). Mémoire sur les formes cérébrales propres aux carnivores vivants et fossiles suivi de remarques sur la classification de ces animaux. Nouvelles Archives du Muséum d'Histoire naturelle de Paris, 6, 103–62.Google Scholar
Gervais, P. (1872). Sur les Mammifères dont les ossements accompagnent les dépôts de chaux phosphatée de départements du Tarn-et-Garonne et du Lot. Journal de Zoologie, 1, 261–68.Google Scholar
Gervais, P. (1875). De l’Ursus melanoleucus de l'Abbé Arman David. Journal de Zoologie, 4, 79–87.Google Scholar
Gill, T. (1872). Arrangement of the families of mammals. With analytical tables. Prepared for the Smithsonian Institution. Smithsonian Miscellaneous Collections, 11, 1–98.Google Scholar
Ginsburg, L. (1961). La faune des carnivores miocènes de Sansan (Gers). Mémoires du Muséum National d'Histoire Naturelle, Séries C, 9, 1–190.Google Scholar
Ginsburg, L. (1963). Les mammifères fossiles récoltés à Sansan au cours du XIXe siècle. Bulletin de la Société géologique de France, 7e série, 5, 3–15.Google Scholar
Ginsburg, L. (1972). Sur l’âge des Mammifères des faluns miocènes du Nord de la Loire. Comptes-rendus de l'Académie des Sciences de Paris, Série D, 274, 3345–47.Google Scholar
Ginsburg, L. (1974). Les faunes de Mammifères burdigaliens et vindoboniens des bassins de la Loire et de la Garonne. Mémoires du B.R.G.M., 78, 153–67.Google Scholar
Ginsburg, L. (1980). Paléogéographie et âge de la mer des faluns d'après les Mammifères. Mémoires de la Société d'Etudes scientifiques de l'Anjou, 4, 69–77.Google Scholar
Ginsburg, L. (1982). Sur la position systématique du petit panda, Ailurus fulgens (Carnivora, Mammalia). Geobios, mémoire spécial 6, 247–58.CrossRefGoogle Scholar
Ginsburg, L. (1990a). Les quatre faunes de Mammifères miocènes des faluns du synclinal d'Esvres (Val-de-Loire, France). Comptes-rendus de l'Académie des Sciences de Paris, Série II, 310, 89–93.Google Scholar
Ginsburg, L. (1990b). The faunas and stratigraphical subdivisions of the Orleanian in the Loire Basin (France). In European Neogene Mammal Chronology, ed. Lindsay, E. H., Fahlbusch, V. and Mein, P.. New York, NY: Plenum Press, pp. 157–78.CrossRefGoogle Scholar
Ginsburg, L. (1999). Order Carnivora. In The Miocene Land Mammals of Europe, ed. Rössner, G. and Heissig, K.. Munich: Verlag Dr F. Pfeil, pp. 109–48.Google Scholar
Ginsburg, L. (2000). Chronologie des dépôts miocènes du Blésois à la Bretagne. Symbioses, nouvelle série, 2, 3–16.Google Scholar
Ginsburg, L. (2001). Les faunes de mammifères terrestres du Miocène moyen des Faluns du bassin de Savigné-sur-Lathan (France). Geodiversitas, 23, 381–94.Google Scholar
Ginsburg, L. (2002). Un Amphicyonidae (Carnivora, Mammalia) nouveau du Miocène moyen de Vieux-Collonges (Rhône). Symbioses, nouvelle série, 7, 55–57.Google Scholar
Ginsburg, L., Huin, J. and Locher, J.-P. (1981). Les Carnivores du Miocène inférieur des Beilleaux à Savigné-sur-Lathan (Indre-et-Loire). Bulletin du Muséum national d'Histoire naturelle, Paris, 4e série, 3 C, 183–94.Google Scholar
Ginsburg, L., Morales, J., Soria, D. and Herraez, E. (1997). Découverte d'une forme ancestrale du Petit Panda dans le Miocène moyen de Madrid (Espagne). Comptes-Rendus de l'Académie des Sciences de Paris, Sciences de la Terre et des planètes, 325, 447–51.Google Scholar
Ginsburg, L., Maridet, O. and Mein, P. (2001). Un Ailurinae (Mammalia, Carnivora, Ailuridae) dans le Miocène moyen de Four (Isère, France). Geodiversitas, 23, 81–85.Google Scholar
Goldman, D., Giri, P. R. and O'Brien, S. J. (1989). Molecular genetic-distance estimates among the Ursidae as indicated by one- and two-dimensional protein electrophoresis. Evolution, 43, 282–95.CrossRefGoogle ScholarPubMed
Gould, S. J. (1978). The Panda's peculiar thumb. Natural History, 87, 20–30.Google Scholar
Gray, J. E. (1843). List of the Specimens of Mammalia in the Collection of the British Museum. London: British Museum (Natural History) Publications.Google Scholar
Greaves, W. S. (1983). A functional analysis of carnassial biting. Biological Journal of the Linnean Society, 2, 353–63.CrossRefGoogle Scholar
Greaves, W. S. (1985). The generalized carnivore jaw. Zoological Journal of the Linnean Society, 85, 267–74.CrossRefGoogle Scholar
Gregory, W. K. (1936). On the phylogenetic relationships of the giant panda (Ailuropoda) to other arctoid Carnivora. American Museum Novitates, 878, 1–29.Google Scholar
Helbing, H. (1928). Carnivoren des oberen Stampien. Abhandlungen der Schweizerischen Palaeontologischen Gesellschaft, 50, 1–36.Google Scholar
Heizmann, E. P. J. and Morlo, M. (1994). Amphictis schlosseri n. sp. – eine neue Carnivoren-Art (Mammalia) aus dem Unter-Miozän von Südwestdeutschland. Stuttgarter Beiträge zur Naturkunde B, 216, 1–25.Google Scholar
Hunt, R. H.. (1974). The auditory bulla in Carnivora: an anatomical basis for reappraisal of Carnivore evolution. Journal of Morphology, 143, 21–76.CrossRefGoogle ScholarPubMed
Jourdan, C. (1862). La description de restes fossiles de grands mammifères. Revue des sociétés savantes. Sciences mathémathiques, physiques et naturelles, 1, 126–30.Google Scholar
Kadic, O. and Kretzoi, N. (1927). Vorläufiger Bericht über die Ausgrabungen in der Csákvárer Höhlung. Barlankutatás, 14–15, 1–21.Google Scholar
Kaup, J. J. (1832). Vier neue Arten urweltlicher Raubthiere, welche im zoologischen Museum zu Darmstadt aufbewahrt werden. Archiv für Mineralogie, Geognosie, Bergbau− und Hüttenkunde, 5, 150–58.Google Scholar
Kormos, T. (1935). Beiträge zur Kenntnis der Gattung Parailurus. Mitteilungen aus dem Jahrbuch der Königlich-Ungarischen Geologischen Anstalt, 30, 1–39.Google Scholar
Kretzoi, M. (1947). New names for mammals. Annales historico-naturales musei nationalis Hungarici, 40, 285–87.Google Scholar
Kullmer, O., Morlo, M., Sommer, J., et al. (2008). The second specimen of Simocyon diaphorus (Kaup, 1832) (Mammalia, Carnivora, Ailuridae) from the type-locality Eppelsheim (early Late Miocene, Germay). Journal of Vertebrate Paleontology, 28, 928–32.CrossRefGoogle Scholar
Lankester, E. R. (1901). On the affinities of Aeluropus melanoleucus, A. Milne-Edwards. Transactions of the Linnean Society of London, 2nd series, 8, Zoology, part 6, 163–72.CrossRefGoogle Scholar
Ledje, C. and Arnason, U. (1996a). Phylogenetic analyses of complete cytochrome b genes of the Order Carnivora with particular emphasis on the Caniformia. Journal of Molecular Evolution, 42, 135–44.CrossRefGoogle ScholarPubMed
Ledje, C. and Arnason, U. (1996b). Phylogenetic relationships within caniform Carnivores based on analyses of the mitochondrial 12S rRNA. Journal of Molecular Evolution, 43, 641–49.CrossRefGoogle ScholarPubMed
Li, M., Wei, F., Goossens, B., et al. (2005). Mitochondrial phylogeography and subspecific variation in the red panda (Ailurus fulgens): implications for conservation. Molecular Phylogenetics and Evolution, 36, 78–89.CrossRefGoogle ScholarPubMed
Marmi, J., López-Giráldez, J. F. and Domingo-Roura, X. (2004). Phylogeny, evolutionary history and taxonomy of the Mustelidae on sequences of the cytochrome b gene and a complex repetitive flanking region. Zoologica Scripta, 33, 481–99.CrossRefGoogle Scholar
Mayr, E. (1986). Uncertainty in science: is the giant bear a bear or a raccoon?Nature, 323, 769–71.CrossRefGoogle ScholarPubMed
Mein, P. (1958). Les mammifères de la faune sidérolitique de Vieux-Collonges. Nouvelles Archives du Muséum d'Histoire naturelle de Lyon, 5, 1–118.Google Scholar
Mein, P. (1989). Updating of MN zones. In European Neogene Mammal Chronology, ed. Lindsay, E. H., Fahlbusch, V., and Mein, P.. New York, NY: Plenum Press, pp. 73–90.Google Scholar
Milne-Edwards, H. (1868–1874). Recherches pour servir à l'histoire naturelle des Mammifères comprenant des considerations sur la classification de ces animaux. Paris: G. Masson.Google Scholar
Mivart, St., George (1885). On the anatomy, classification, and distribution of the Arctoidea. Proceedings of the Scientific Meetings of the Zoological Society of London, 1885, 340–404.Google Scholar
Mödden, C. (1991). Bavarictis gaimersheimensis n. gen. n. sp., ein früher Mustelide aus der oberoligozänen Spaltenfüllung Gaimersheim bei Ingolstadt. Mitteilungen aus der Bayerischen Staatssammlung für Paläontologie und Historische Geologie, 31, 125–47.Google Scholar
Morales, J., Alcalá, L., Álvarez-Sierra, M. A., et al. (2004). Paleontología del sistema de yacimientos de mamíferos miocenos del Cerro de los Batallones, Cuenca de Madrid. Geogaceta, 35, 139–42.Google Scholar
Morlo, M. (1996). Carnivoren aus dem Unter-Miozän des Mainzer Beckens. Senckenbergiana lethaea, 76, 193–249.CrossRefGoogle Scholar
Morlo, M. (1997). Die Raubtiere (Mammalia, Carnivora) aus dem Turolium von Dorn−Dürkheim 1 (Rheinhessen). Teil 1: Mustelida, Hyaenidae, Percrocutidae, Felidae. Courier Forschungsinstitut Senckenberg, 197, 11–47.Google Scholar
Morlo, M. and Kundrát, M. (2001). The first carnivoran fauna from the Ruscinium (MN 15) of Germany. Paläontologische Zeitschrift, 75, 163–87.CrossRefGoogle Scholar
Morlo, M. and Nagel, D. (2007). The carnivore guild of the Taatsiin Gol area: Hyaenodontidae (Creodonta), Carnivora, and Didymoconida from the Oligocene of Central Mongolia. Annalen des Naturhistorischen Museums Wien, 108A, 217–31.Google Scholar
Nagel, D. (2003). Carnivora from the middle Miocene hominoid locality of Çandir (Turkey). Courier Forschungsinstitut Senckenberg, 240, 113–31.Google Scholar
Nowak, R. M. (2005). Walker's Carnivores of the World. Baltimore, MD: The Johns Hopkins University Press.Google Scholar
O'Brien, S. J., Nash, W. G., Wildt, D. E., Bush, M. E. and Benveniste, R. E. (1985). A molecular solution to the riddle of the giant panda's phylogeny. Nature, 317, 140–44.CrossRefGoogle ScholarPubMed
Pecon Slattery, J. and O'Brien, S. J. (1995). Molecular phylogeny of the red panda (Ailurus fulgens). Journal of Heredity, 86, 413–22.CrossRefGoogle Scholar
Peigné, S., Salesa, M. J., Antón, M. and Morales, J. (2005). Ailurid carnivoran mammal Simocyon from the late Miocene of Spain and the systematics of the genus. Acta Palaeontologica Polonica, 50, 219–38.Google Scholar
Pocock, R. I. (1921). The external characters and classification of the Procyonidae. Proceedings of the General Meetings for Scientific Business of the Zoological Society of London, 1921, 389–422.Google Scholar
Pocock, R. I. (1928a). The structure of the auditory bulla in the Procyonidae and the Ursidae, with a note on the bulla of Hyaena. Proceedings of the General Meetings for Scientific Business of the Zoological Society of London, 1928, 963–74.CrossRefGoogle Scholar
Pocock, R. I. (1928b). Some external characters of the giant panda (Ailuropoda melanoleuca). Proceedings of the General Meetings for Scientific Business of the Zoological Society of London, 1928, 975–81.CrossRefGoogle Scholar
Pomel, A. (1853). Catalogue des vertébrés fossils (suite). Annales scientifiques, littéraires et industrielles de l'Auvergne, 26, 81–229.Google Scholar
Pradhan, S., Saha, G. K. and Khan, J. A. (2001). Ecology of the red panda Ailurus fulgens in the Singhalila National Park, Darjeeling, India. Biological Conservation, 98, 11–18.CrossRefGoogle Scholar
Raven, H. C. (1936). Notes on the anatomy of the viscera of the giant panda (Ailuropoda melanoleuca). American Museum Novitates, 877, 1–23.Google Scholar
Roberts, M. S. and Gittleman, J. L. (1984). Ailurus fulgens. Mammalian Species, 222, 1–8.
Roth, J. and Wagner, A. (1854). Die fossilen Knochenüberreste von Pikermi in Griechenland. Abhandlungen der mathematisch−physikalischen Classe der Königlich Bayerischen Akademie der Wissenschaften, 7, 371–464.Google Scholar
Roussiakis, S. J. (2002). Musteloids and feloids (Mammalia, Carnivora) from the late Miocene locality of Pikermi (Attica, Greece). Geobios, 35, 699–719.CrossRefGoogle Scholar
Salesa, M. J., Antón, M., Peigné, S. and Morales, J. (2006). Evidence of a false thumb in a fossil carnivore clarifies the evolution of pandas. Proceedings of the National Academy of Sciences of the USA, 103, 379–82.CrossRefGoogle Scholar
Salesa, M. J., Antón, M., Peigné, S. and Morales, J. (2008). Functional anatomy and biomechanics of the postcranial skeleton of Simocyon batalleri (Viret, 1929) (Carnivora, Ailuridae) from the late Miocene of Spain. Zoological Journal of the Linnean Society, 152, 593–621.CrossRefGoogle Scholar
Sarich, V. M. (1973). The giant panda is a bear. Nature, 245, 218–20.CrossRefGoogle Scholar
Sasagawa, I., Takahashi, K., Sakumoto, T., Nagamori, H., Yabe, H. and Katoh, S. (2003). Discovery of the extinct red panda Parailurus (Mammalia, Carnivora) in Japan. Journal of Vertebrate Paleontology, 23, 895–900.CrossRefGoogle Scholar
Sato, J. J., Wolsan, M., Suzuki, H., et al. (2006). Evidence from nuclear DNA sequences sheds light on the phylogenetic relationships of Pinnipedia: single origin with affinity to Musteloidea. Zoological Science, 23, 125–46.CrossRefGoogle ScholarPubMed
Schlosser, M. (1899). Parailurus anglicus and Ursus böckhi aus den Ligniten von Baróth-Köpecz, Comitat Háromszék in Ungard. Mittheilungen aus dem Jahrbuche der Königlich Ungarischen Geologischen Anstalt, 13, 66–95.Google Scholar
Schmidt-Kittler, N. (1981). Zur Stammesgeschichte der marderverwandten Raubtiergruppen (Musteloidea, Carnivora). Ecologae geologicae Helvetiae, 74, 753–801.Google Scholar
Segall, W. (1943). The auditory region of the arctoid carnivores. Zoological Series of Field Museum of Natural History, 29, 33–59.Google Scholar
Simpson, G. G. (1945). The principles of classification and a classification of mammals. Bulletin of the American Museum of Natural History, 85, 1–350.Google Scholar
Smith, J. B. and Dodson, P. (2003). A proposal for a standard terminology of anatomical notation and orientation in fossil vertebrate dentitions. Journal of Vertebrate Paleontology, 23, 1–12.CrossRefGoogle Scholar
Sotnikova, M. V. (2008). A new species of lesser panda Parailurus (Mammalia, Carnivora) from the Pliocene of Transbaikalia (Russia) and some aspects of ailurine phylogeny. Paleontological Journal, 42(1), 90–99.Google Scholar
Stock, C. (1947). A peculiar new carnivore from the Cuyama Miocene, California. Bulletin of the Southern California Academy of Sciences, 46, 84–89.Google Scholar
Su, B., Fu, Y., Wang, Y., Jin, L. and Chakraborty, R. (2001). Genetic diversity and population history of the red panda (Ailurus fulgens) as inferred from mitochrondrial DNA sequence variations. Molecular Biology and Evolution, 18, 1070–76.CrossRefGoogle Scholar
Tagle, D. A., Miyamoto, M. M. and Goodman, M. (1986). Hemoglobin of pandas: phylogenetic relationships of Carnivores as ascertained with protein sequence data. Naturwissenschaften, 73, 512–14.CrossRefGoogle ScholarPubMed
Tedford, R. H. and Gustafson, E. P. (1977). First North American record of the extinct panda Parailurus. Nature, 265, 621–23.CrossRefGoogle Scholar
Tedrow, A. R., Baskin, J. A. and Robison, S. F. (1999). An additional occurrence of Simocyon (Mammalia, Carnivora, Procyonidae) in North America. In Vertebrate Paleontology in Utah, ed. Gillette, D.. Salt Lake City, UT: Utah Geological Survey Miscellaneous Publications 99–1, pp. 487–93.Google Scholar
Teilhard de Chardin, P. (1915). Les Carnassiers des Phosphorites du Quercy. Annales de Paléontologie, 9, 89–191.Google Scholar
Thenius, E. (1949). Zur Herkunft der Simocyoniden (Canidae, Mammalia). Sitzungsberichten der Österreichischen Akademie der Wissenschaften, Mathematisch–Naturwissenschaftliche Klasse, Abteilung 1, 158, 799–810.Google Scholar
Thenius, E. (1977). Zur systematischen Stellung von Protursus (Carnivora, Mammalia). Anzeiger der Österreichischen Akademie der Wissenschaften, Mathematisch–Naturwissenschaftliche Klasse, 3, 37–41.Google Scholar
Thenius, E. (1979a). Die taxonomische und stammesgeschichtliche Position des Bambousbären (Carnivora, Mammalia). Anzeiger der Österreichischen Akademie der Wissenschaften, Mathematisch-naturwissenschaftliche Klasse, 1979, 67–78.Google Scholar
Thenius, E. (1979b). Zur systematischen und phylogenetischen Stellung des Bambusbären: Ailuropoda melanoleuca David (Carnivora, Mammalia). Zeitschrift für Säugetierkunde, 44, 286–305.Google Scholar
Todd, N. B. and Pressman, S. R. (1968). The karyotype of the lesser panda (Ailurus fulgens) and general remarks on the phylogeny and affinities of the panda. Carnivore Genetics Newsletter, 5, 105–08.Google Scholar
Toula, F. (1884). Ueber einige Säugethierreste von Göriach bei Turnau (Bruck a.M.), Nord Steiermark. Jahrbuch der kaiserlich-königlichen geologischen Reichsanstalt, 34, 385–401.Google Scholar
Trouessart, E.-L. (1899). Catalogus mammalium tam viventium quam fossilium. Nova editio (Prima completa). Tomus I. Primates, Prosimiae, Chiroptera, Insectivora, Carnivora, Rodentia, Pinnipedia. Berolini: R. Friedländer and Sohn.Google Scholar
Trouessart, E.-L. (1904). Catalogus mammalium tam viventium quam fossilium. Nova editio (Prima completa). Quinquennale supplementum. Berolini: R. Friedländer and Sohn.Google Scholar
Turner, H. N. (1848). Observations relating to some of the foramina at the base of the skull in Mammalia, and on the classification of the order Carnivora. Proceedings of the Zoological Society of London, 1848, 63–88.Google Scholar
Veron, G. (1995). La position systématique de Cryptoprocta ferox (Carnivora). Analyse cladistique des caractères morphologiques de carnivores Aeluroidea actuels et fossiles. Mammalia, 59, 551–82.CrossRefGoogle Scholar
Viret, J. (1929a). Cephalogale batalleri carnassier du Pontien de Catalogne. Bulletin de la Société d'Histoire Naturelle de Toulouse, 58, 567–68.Google Scholar
Viret, J. (1929b). Les faunes de mammifères de l'Oligocène supérieur de la Limagne Bourbonnaise. Annales de l'Université de Lyon n.s., Sciences, Médecine, 47, 1–328.Google Scholar
Viret, J. (1951). Catalogue critique de la faune des mammifères miocènes de La Grive Saint-Alban (Isère). 1. Chiroptères, Carnivores, Édentés, Pholidotes. Nouvelles Archives du Muséum d'Histoire naturelle de Lyon, 4, 1–197.Google Scholar
Vrana, P. B., Milinkovitch, M. C., Powell, J. R. and Wheeler, W. C. (1994). Higher level relationships of the arctoid Carnivora based on sequence data and ‘total evidence’. Molecular Phylogenetics and Evolution, 3, 47–58.CrossRefGoogle Scholar
Wagner, A. (1858). Geschichte der Urwelt, mit besonderer Berücksichtigung der Menschenrassen und des mosaischen Schöpfungsberichtes, 2nd ed. Leipzig: Leopold Voss.Google Scholar
Wallace, S. C. and Wang, X. (2004). Two new carnivores from an unusual late Tertiary forest biota in eastern North America. Nature, 431, 556–59.CrossRefGoogle ScholarPubMed
Wallace, S. and Wang, X. (2007). First mandible and lower dentition of Pristinailurus bristoli with comments on life history and phylogeny. Journal of Vertebrate Paleontology, 27, supplement to 3, 162A.Google Scholar
Wang, X. (1997). New cranial material of Simocyon from China, and its implications for phylogenetic relationships to the red panda (Ailurus). Journal of Vertebrate Paleontology, 17, 184–98.CrossRefGoogle Scholar
Wang, X., Ye, J., Meng, J., Wu, W., Liu, L. and Bi, S. (1998). Carnivora from middle Miocene of Northern Junggar Basin, Xinjiang autonomous region, China. Vertebrata PalAsiatica, 36, 218–43.Google Scholar
Wang, X., McKenna, M. C. and Dashzeveg, D. (2005). Amphicticeps and Amphicynodon (Arctoidea, Carnivora) from Hsanda Gol Formation, Central Mongolia and phylogeny of basal arctoids with comments on zoogeography. American Museum Novitates, 3483, 1–57.CrossRefGoogle Scholar
Wang, X., Choudhry, A., Yonzon, P., Wozencraft, C. and Zaw, Than (2008). Ailurus fulgens. In 2008 IUCN Red List of Threatened Species, ed. IUCN 2008. Cambridge: IUCN ().Google Scholar
Webb, S. D. (1969). The Pliocene Canidae of Florida. Bulletin of the Florida State Museum, 14(4), 273–308.Google Scholar
Weber, M. (1904). Die Säugetiere. Einführung in die Anatomie und Systematik der recenten und fossilen Mammalia. Jena: Verlag von Gustav Fischer.CrossRefGoogle Scholar
Weber, M. (1928). Die Säugetiere. Einführung in die Anatomie und Systematik der recenten und fossilen Mammalia. Band II. Systematische teil. Jena: Verlag von Gustav Fischer.Google Scholar
Wei, F., Feng, Z., Wang, Z. and Hu, J. (2000). Habitat use and separation between the giant panda and the red panda. Journal of Mammalogy, 80, 448–55.2.0.CO;2>CrossRefGoogle Scholar
Wilson, D. E. and Reeder, D. M. (2005). Mammal Species of the World. Baltimore, MD: The Johns Hopkins University Press.Google Scholar
Winge, H. (1895). Jordfundne og nulevende Rovdyr (Carnivora) fra Lagoa Santa, Minas Geraes, Brasilien. Med Udsigt over Rovdyrenes indbyrdes Staegtskab. In E Museo Lundii. En Samling af Afhandlinger om de i det indre Brasiliens Kalkstenshuler af Professor Dr. Peter Vilhelm Lund udgravede og i den Lundske palaeontologiske Afdeling af Kjbenhavns Universitets zoologiske Museum opbevarede Dyre-og Menneskeknogler, Bind 2 (2, 4), ed Lotken, C. F.. Copenhagen: H. Hagerups Boghandel.Google Scholar
Wolsan, M. (1993). Phylogeny and classification of early European Mustelida (Mammalia, Carnivora). Acta Theriologica, 38, 345–84.CrossRefGoogle Scholar
Wolsan, M. and Sato, J. (2007). Pinniped and red panda affinities elucidated using exon nucleotide sequences of five nuclear genes. Journal of Vertebrate Paleontology, 27, supplement to 3, 168A.Google Scholar
Wood-Jones, F. (1939). The forearm and manus of the giant panda, Ailuropoda melanoleuca, M.-Edw. with an account of the mechanism of its grasp. Proceedings of the Zoological Society, Series B, 1939, 113–29.Google Scholar
Wozencraft, W. C. (1989). The phylogeny of the recent Carnivora. In Carnivore Behavior, Ecology, and Evolution, ed. Gittleman, J. L.. Ithaca, NY: Cornell University Press, pp. 495–535.
Wu, W., Ye, J., Meng, J., et al. (1998). Progress of the study of Tertiary biostratigraphy in North Junggar Basin. Vertebrata PalAsiatica, 36, 24–31.Google Scholar
Wyss, A. R. and Flynn, J. J. (1993). A phylogenetic analysis and definition of the Carnivora. In Mammal Phylogeny – Placentals, ed. Szalay, F. S., Novacek, M. J. and McKenna, M. C.. New York, NY: Springer Verlag, pp. 32–52.CrossRefGoogle Scholar
Yu, L. and Zhang, Y.-P. (2006). Phylogeny of the caniform Carnivora: evidence from multiple genes. Genetica, 127, 65–79.CrossRefGoogle ScholarPubMed
Yu, L., Li, Q.-W., Ryder, O. A. and Zhang, Y.-P. (2004). Phylogenetic relationships within mammalian order Carnivora indicated by sequences of two nuclear DNA genes. Molecular Phylogenetics and Evolution, 33, 694–705.CrossRefGoogle ScholarPubMed
Zhang, Y.-P. and Ryder, O. A. (1993). Mitochondrial DNA sequence evolution in the Arctoidea. Proceedings of the National Academy of Sciences of the USA, 90, 9557–61.CrossRefGoogle ScholarPubMed
Zhang, Z., Wei, F., Li, M. and Hu, J. (2006a). Winter microhabitat separation between giant and red pandas in Bashania faberi bamboo forest in Fengtongzhai Nature Reserve. Journal of Wildlife Management, 70, 231–35.CrossRefGoogle Scholar
Zhang, Z., Wei, F., Li, M., Zhang, B., Liu, X. and Hu, J. (2006b). Microhabitat separation during winter among sympatric pandas, red pandas, and tufted deer: the effect of diet, body size, and energy metabolism. Canadian Journal of Zoology, 82, 1451–58.CrossRefGoogle Scholar

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