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Systematics, Phylogenetic Relationships, and Dispersal of the Chamois (Rupicapra spp.)

Published online by Cambridge University Press:  20 January 2017

Federico Masini  and
Sandro Lovari
Federico Masini
Affiliation:
Dip. di Scienze della Terra, Univ. Firenze, V. La Pira 4, 50121 Firenze, Italy
Sandro Lovari
Affiliation:
Cattedra di Zoologia, Dip. di Biologia Cellulare-Zoologia, Via F. Camerini 2, 62032 Camerino (MC), Italy
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Abstract

The Rupicaprini originated during the Miocene in Asia and dispersed during the late Miocene-early Pliocene, the Villafranchian, and the middle Pleistocene. Rupicapra and Oreamnos spread respectively to Europe and to North America in the middle Pleistocene. The Villafranchian Procamptoceras may be considered to be the closest known form to Rupicapra's ancestor. Rupicapra evolved during the middle and late Pleistocene in west Eurasia. At the beginning of the Würm glaciation the two closely related species R. pyrenaica and R. rupicapra were in existence. The former was already geographically split into Spanish-Pyrenean and central-southern Apennines groups, while the latter species ranged from the Caucasus to the Alpine Arch. R. pyrenaica shows more conservative features and possibly differentiated directly in western Europe from older representatives of the genus that migrated to western Europe in the middle Pleistocene. The cold-adapted Alpine chamois may have differentiated in eastern Europe and then migrated west-ward because of the advent of dry climates in the east Mediterranean and Pontic regions. The Alpine chamois failed to spread to the warmer southernmost regions of Europe that became a refugium area for R. pyrenaica. This dispersal hypothesis explains the morphologic, biometric, electrophoretic, and behavioral differences among modern chamois populations.

Type
Research Article
Information
Quaternary Research , Volume 30 , Issue 3 , November 1988 , pp. 339 - 349
Copyright
University of Washington

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References

Alcover, J.A., Moya'-Sola, S., Pons-Moya', J., (1981). Les quimeres del passat. Moll, Mallorca.Google Scholar
Alessio, M., Bella, F., Bachechi, F., Cortesi, C., (1967). University of Rome Carbon-14 dates. 5. Serie della Grotta del Romito. Radiocarbon. 9, 401-412.CrossRefGoogle Scholar
Altuna, J., (1972). Fauna de mammiferos de los yacimientos prehistoricos de Guipuzcoa. 1-464, MU-NIBE.Google Scholar
Arambourg, C., (1949). Numidocapra crassicornis Nov. Gen. Nov. sp. un Ovicapriné nouveau du Villafranchien constantinois. Compte Rendu Sommaire de la Société Géologique de France. 13, 290-291.Google Scholar
Boule, M., (1910). Paleontologie. Les Grottes de Grimaldi (Baoussé Roussé). Impr. de Monaco, 1-222, Tome 1.Google Scholar
Camerano, L., Ricerche intorno ai camosci. Memorie della Regia Accademia di Scienze di Torino (Classe Scienze Fisiche Matematiche Naturali). 64 4 1-82, (Parte Ia) Camerano, L., Ricerche intorno ai camosci. Memorie della Regia Accademia di Scienze di Torino (Classe Scienze Fisiche Matematiche Naturali). 64 12 1-88, (Parte IIa) Camerano, L., (1914). Ricerche intorno ai camosci. Memorie della Regia Accademia di Scienze di Torino (Classe Scienze Fisiche Matematiche Naturali). 65 14 1-82, (Parte IIIa).Google Scholar
Chaline, J., Mein, P., (1979). Les Rongeurs et l'Evolution. Doin, Paris.Google Scholar
Clot, A., Marsan, G., (1986). La Grotte du Cap de la Bielle à Nestier (Hautes-Pyrenées) Fouilles M. Debenaux (1960). Gallia Préhistoire. 29, 63-141.CrossRefGoogle Scholar
Colbert, E.H., Hoojer, D.A., (1953). Pleistocene mammals from the limestone fissures of Szechwan, China. Bulletin of the American Museum of Natural History. 1, 1-134.Google Scholar
Couturier, M.A.J., (1938). Le Chamois. Arthaud, Grenoble.Google Scholar
Cregut, E., Guerin, G., (1979). Première découverte de Praeovibos priscus (Mammalia, Artiodactyla, Ovibovinae) dans le Gisement Pléistocène Moyen ante rissien de la Caune de l'Arago (Tautavel, Pyrenées Orientales, France). Geobios. 12, 459-465.CrossRefGoogle Scholar
Delpech, F., Heintz, E., Les Artiodactyles: Bovidés. De Lumley, H., (1976). La Préhistoire Francaise 1. 384-394.Google Scholar
De Lumley-Woodyear, H., (1969). Le paléolitique inférieur et moyen du Midi méditerranéen dans son cadre géologique. Vol. 1 Ed. CNRS, Paris, V Supplément “Gallia Préhistoire”.Google Scholar
Dolan, J.M., (1963). Beitrag zur systematischen Gliederung des Tribus Rupicaprini Simpson 1945. Zeitschrift fur Zoologische Systematik und Evolutionsforschung. 1, 311-407.CrossRefGoogle Scholar
Dubois, A., Stehlin, H.G., (1933). La Grotte de Cotencher. Mémoires de la Société Paléontologique Suisse. 52, 133-136.Google Scholar
Fernandez-Lopez, J.M., Garcia-Gonzalez, R., (1986). Craniométrie comparée entre le chamois pyrénéen et cantabrique. Mammalia. 50, 87-97.CrossRefGoogle Scholar
Frechkop, S., . Bovides. Grassé, P.P., (1955). Traité de Zoologie. 17 Masson, Paris, 33-178.Google Scholar
Gentry, A.W., . The Bovidae of the Fort Ternan fossil fauna. Leakey, L.S.B., Savage, R.J.G., (1970). Fossil Vertebrates of Africa. Vol. 2 Academic Press, New York, 243-323.Google Scholar
Gentry, A.W., Bovidae. Maglio, V.J., Cooke, H.B.S., (1978). Evolution of African Mammals. Harvard Univ. Press, Cambridge, MA, 540-572.Google Scholar
Gentry, A.W., (1980). Fossil Bovidae (Mammalia) from Langebaanweg, South Africa. Annals of the South African Museum. 79, 213-337.Google Scholar
Geraads, D., (1981). Bovidae et Giraffidae du Pleistocene de Ternifine (Algérie). Bulletin du Muséum national d'Histoire Naturelle, Paris. 4C, 47-86.Google Scholar
Gliozzi, E., Malatesta, A., (1980). The Quaternary Goat of Capo Figari (Northeastern Sardinia). Geologica Romana. 19, 295-347.Google Scholar
Guerin, C., (1965). Gallogoral (nov. gen.) meneghinii (Rutimeyer, 1878), un Rupicaprinè du Villafranchien d'Europe Occidentale. Documents du Laboratoire Géologique de la Faculté de Sciences de Lyon. 11, 1-375.Google Scholar
Hamilton, W.J., (1973). Life's Color Code. McGraw-Hill, New York.Google Scholar
Harington, C.R., (1971). A Pleistocene mountain goat from British Columbia and comments on the dispersal history of Oreamnos . Canadian Journal of Earth Sciences. 8, 1081-1093.CrossRefGoogle Scholar
Harlé, H., é, 1896. Le chamois quaternaire des Pyrénées. Bulletin de la Societé Géologique de France. 24, 12-713.Google Scholar
Heintz, E., Guerin, C., Martin, R., Prat, F., (1971). Principaux gisements villafranchiens de France: Listes fauniques et biostratigraphie. Mémoires Bureau Recherches Géologiques et Minières. 78, 169-182.Google Scholar
Heptner, V.G., Nasimovic, A.A., Bannikov, A.G., (1966). Die saugetiere der Sowjetunion. 1 Fischer Verlag, Jena.Google Scholar
Hrabe, V., Koubek, P., Zima, J., The present status and Research on Wild Caprinae in Czecoslovakia. Hoefs, M., (1985). Wild Sheeps, Special Report. North. Wild Sheep and Goat Council, Whitehorse.Google Scholar
Janossy, D., (1986). Pleistocene Vertebrate Faunas of Hungary. Elsevier, Amsterdam.Google Scholar
Koby, F.E., (1964). Ostéologie de Rupicapra Pyrenaica d'après les restes de la caverne de la Vache. Bulletin de la Société Préhistoire de l'Ariège. 19, 1-30.Google Scholar
Kurtén, B., én, 1968. Pleistocene Mammals of Europe. Weidenfeld & Nicolson, London.Google Scholar
Ladini, F., (1986). Il camoscio delle Alpi. Ghedina e Tassotti, Bassano del Grappa.Google Scholar
Lovari, S., (1984). Il popolo delle rocce. Rizzoli, Milano.Google Scholar
Lovari, S., (1985). Behavioural repertoire of the Abruzzo Chamois (Rupicapra pyrenaica ornata). Saugetierkundliche Mitteilungen. 32, 113-136.Google Scholar
Lovari, S., Evolutionary aspects of the biology of Chamois, Rupicapra spp. (Bovidae, Caprinae). Soma, H., (1987). The Biology and Management of Capricornis and Related Mountain Antelopes. Croom Helm, London, 51-61.Google Scholar
Lovari, S., Scala, C., (1980). Revision of Rupicapra genus. I. A statistical re-evaluation of Couturier's data on the morphometry of six chamois subspecies. Bollettino di Zoologia. 47, 113-124.CrossRefGoogle Scholar
Lovari, S., Scala, C., (1984). Revision of Rupicapra Genus. IV. Horn biometrics of Rupicapra rupicapra asiatica and its relevance to the taxonomic position of Rupicapra rupicapra caucasica . Zeitschrift fur Saugetierkunde. 49, 246-253.Google Scholar
Lydekker, R., (1913). Catalogue of the Ungulate Mammals of British Museum (Natural History). London.Google Scholar
Masini, F., (1983). I camosci sub-fossili del Monte Sumbra (Alpi Apuane). Unpublished dissertation. University of Florence.Google Scholar
Masini, F., Würmian and Holocene Chamois of Italy. Lovari, S., (1985). The Biology and Management of Mountain Ungulates. Croom Helm, London, 31-44.Google Scholar
Mikulic, Z., Stahan, Z., (1982). Razgovory o divokozama. Zagreb.Google Scholar
Mottl, M., . A lerokodasok allatvilage. A Mussolinibarlang. Bartucz, F., Danzca, G., (1938). Geologica Hungarica (Paleontological Series). 17, 207-315.Google Scholar
Nascetti, G., Lovari, S., Lanfranchi, P., Berducou, C., Matiucci, S., Rossi, L., Bullini, L., Revision of Rupicapra Genus. III. Electrophoretic studies demonstrating species distinction of chamois populations of the Alps from those of the Apennines and Pyrenees. Lovari, S., (1985). The Biology and Management of Mountain Ungulates. Croom Helm, London, 56-62.Google Scholar
Nei, M., (1972). Genetic distance between populations. American Naturalist. 106, 283-292.CrossRefGoogle Scholar
Palma di Cesnola, A., (1976). Considerazioni sulla posizione cronostratigrafica dei fanerantropi della Grotta dei Fanciulli. Archivio per l'Antropologia e l'Etnologia. 106, 171-191.Google Scholar
Pitti, C., Tozzi, C., (1971). La Grotta del Capriolo e la Buca della Jena presso Mommio, (Camaiore, Lucca). Rivista di Scienze Preistoriche. 26, 213-258.Google Scholar
Sala, B., (1980). Interpretazione crono-bio-stratigrafica dei depositi pleistocenici della Grotta del Brojon (Vicenza). Geografia Fisica e Dinamica del Quaternario. 3, 66-71.Google Scholar
Sala, B., (1983). Les faunes ongles de Badanj et leurs indications paleoclimatiques. Actes Colloque International: La position taxonomique et chronologique des industries a pointes a dos autour de le Mediterranee Europeenne. Siena.Google Scholar
Schaller, G.B., (1977). Mountain Monarchs. Wild sheeps and Goats of the Himalaya. Univ. of Chicago Press, Chicago.Google Scholar
Schaub, S., (1923). Neue und wenig bekannte cavicornier von Seneze. Eclogae Geologicae Helvetiae. 18, 281-295.Google Scholar
Schaub, S., (1932). Die Ruminanter der ungarischen praeglacials. Eclogae Geologicae Helvetiae. 25, 319-330.Google Scholar
Simpson, G.G., (1945). The Principles of Classification and a Classification of Mammals. Bulletin American Museum Natural History. 85, 1-350.Google Scholar
Terzea, E., (1986). Chronologie des faunes Pléistocenès Superiéures du Sud Ouest de la Roumanie. Travaux de l'Institut de Speologie “Emile Racowitza”. 25, 85-101.Google Scholar
Thenius, E., (1969). Stammesgeschichte der Saugetiere: Handbuch der Zoologie. Vol. 8 de Gruyter, Berlin.Google Scholar
Thenius, E., Hofer, H., (1960). Stammesgeschichte der Saugetiere. Springer-Verlag, Berlin.CrossRefGoogle Scholar
Vereschagin, N.K., (1967). The mammals of Caucasus. Moscow/Leningrad.Google Scholar