Hostname: page-component-848d4c4894-nmvwc Total loading time: 0 Render date: 2024-06-16T17:49:24.534Z Has data issue: false hasContentIssue false
  • English
  • Français

Size trends in Holarctic anchitherines (Mammalia, Equidae)

Published online by Cambridge University Press:  14 July 2015

Ann Forsten
Ann Forsten*
Affiliation:
Zoological Museum, P. Rautatiekatu 13, SF-00100, Helsinki, Finland
Get access Rights & Permissions [Opens in a new window]

Abstract

Size increase in European Miocene Anchitherium was described early in the century. Increase in size, particularly of the teeth, was common to the middle and late Miocene Eurasian Anchitherium and North American Hypohippus, including Megahippus, over the whole Holarctic range of these anchitherines. In this paper, size trends are described and interpreted against the background of simultaneous climatic change.

Type
Research Article
Information
Journal of Paleontology , Volume 65 , Issue 1 , January 1991 , pp. 147 - 159
Copyright
Copyright © The Journal of Paleontology 

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

Abusch-Siewert, S. 1983. Gebissmorphologische Untersuchungen an eurasiatischen Anchitherien (Equidae, Mammalia) unter besonderer Berücksichtigung der Fundstelle Sandelzhausen. Courir Forschungsinstitut Senckenberg, 62:1361.Google Scholar
Alberdi, M. T., Cerdeno, E., and Herraez, E. 1985. Perissodactyla de la Provincia de Madrid, p. 6178. In Alberdi, M. T. (coord.), Geologia y paleontologia del terciario continental de la Provincia de Madrid. Museo Nacional de Ciencias Naturales, 8, 106 p.Google Scholar
Ananova, E. N., and Rybakova, N. O. 1979. Sarmatian and Meotian pollen complexes of the East Paratethys and their correlation with Transcarpatia. Annales Géologique des Pays Hélléniques, Tome hors séries 1979, 1:18.Google Scholar
Atalay, Z. 1981. Çankiri (Ankara) orta miyoseninde “Anchitherium aurelianense Cuvier” in kulumnasi hakkinda. Türkiye Jeoloji Kurumu Bülteni, C 24:7577 [Turkish with English abstract].Google Scholar
Becker-Platen, J. D., Sickenberg, O., and Tobien, H. 1975. Vertebraten-Lokalfaunen der Türkei und ihre Alterstellung. Geologische Jahrbuch, Reihe B, H. 15:47100.Google Scholar
Belâeva, E. J. 1954. O nahodkah anhiteria v Kazahstane. Trudy paleontologičeskogo instituta Akademia Nauk SSSR, 47:5560 [in Russian].Google Scholar
Belâeva, E. J., and Pidopličko, J. G. 1960. New finds of Anchitherium remains in the Ukraine. Dopovidi Akademii Nauk Ukrainskoi RSR, 7:950954 [Ukrainian, English summary].Google Scholar
Bell, R. H. V. 1971. A grazing ecosystem in the Serengeti. Scientific American, 225:8693.Google Scholar
Berger, W. 1953. Flora und Klima im Jungtertiär des Wiener Beckens. Zeitschrift der Deutschen Geologischen Gesellschaft, 105:228233.Google Scholar
Bernor, R. L. 1981. Geochronology and zoogeographic relationships of Miocene Hominoidea, p. 2164. In Ciochon, R. L. and Corruccini, R. S. (eds.), New Interpretations of Ape and Human Ancestry. Plenum Press, New York and London.Google Scholar
Boné, E., Alberdi, M. T., Hoyos, M., and Lopez-Martinez, N. 1980. Prospection paléontologique de la region de Torralba de Ribota (Burdigalien du Bassin de Calatayud, Prov. de Zaragoza, Espagne). Palaeovertebrata, 9:233247.Google Scholar
Borissiak, A. A. 1937. O Paranchitherium karpinskii, gen. et spec. n.—novom predstavitele Equidae iz srednemiozenovyh otloženij Kavkaza. Izvestia Akademii Nauk SSSR, ser. geol. 1937:789793 [in Russian].Google Scholar
Bourlière, F. 1973. The comparative ecology of rain forest mammals in Africa and tropical America: some introductory remarks, p. 279292. In Meggers, B. J., Ayensu, E. S., and Duckworth, W. D. (eds.), Tropical Forest Ecosystems in Africa and South America: A comparative Review. Smithsonian Institution Press, Washington, D.C. Google Scholar
Camp, C. L., and Smith, N. 1942. Phylogeny and function of the distal ligaments of the horse. Memoirs University of California, 13(2):69124.Google Scholar
Chêne, R. J. du. 1974. Étude palynologique du néogène et du pléistocène inférieur de Bresse. Bulletin du Bureau de Recherches Geologiques et Miniere, (deuxième série), 1:209235.Google Scholar
Minchen, Chow, and Hu, Chang-Kang. 1956. The occurrence of Anchitherium aurelianense at Fangshan, Nanking. Acta Palaeontologica Sinica, 4:531558.Google Scholar
Čirič, A. M. 1960. O hioskoj fauni iz Prebreze. Vesnik Geologija, Ser. A, kn. 18:109131 [in Serbian].Google Scholar
Čirič, A. M. 1962. “Stajerska” fauna sisara iz Lozovika kod Svetozareva. Vesnik Geologija, Ser. A, kn. 20:107120 [in Serbian].Google Scholar
Colbert, E. H. 1939. New anchitheriine horse from Mongolia. American Museum Novitates, 1019:19.Google Scholar
Crusafont-Pairo, M., and Golpe, J. M. 1971. Hallazgo del género Anchitherium Meyer, 1844, en el Vindoboniense terminal del Vallés-Pénédés. Boletin de la Real Sociedad de Historia Naturales (Geologica), 69:297298.Google Scholar
Crusafont-Pairo, M., and Golpe, J. M. 1974. Asociación de Anchitherium Mey. 1834 con Hipparion Christ. 1832, en el alto mioceno de Vallés. Boletin de la Real Sociedad de Historia Naturales (Geologica), 72:7593.Google Scholar
Demarcq, G. 1987. Palaeothermic evolution during the Neogene in Mediterranean through the marine fauna. Annales Instituti Geologici Publici Hungarici, 70:371375.Google Scholar
Demment, M. W., and Van Soest, A. P. J. 1985. A nutritional explanation for body-size patterns of ruminant and non-ruminant herbivores. American Naturalist, 125:641672.Google Scholar
Devâtkin, E. V., and Žegallo, V. J. 1974. Novye dannye o mestonahoždeniâh neogenovyh faun severo-zapadnoj Mongolii. Trudy sovmestnoj sovetsko-mongolskoj paleontologičeskoj ekspedicii, vyp. 1:330356 [in Russian].Google Scholar
Dorofeyev, P. I. 1966. Flora of Hipparion epoch. International Geology Review, 8(9):11091117 (Translation from “O flore epohi gippariona” in Paleontologičeskij Zurnal, 1:124–134).Google Scholar
Eisenmann, V. 1980. Les chevaux (Equus sensu lato) fossiles et actuels: crânes et dents jugales supérieures. Cahiers de Paléontologie 1980, 186 p.Google Scholar
Eisenmann, V. 1981. Étude des dents jugales inférieures des Equus (Mammalia, Perissodactyla) actuels et fossiles. Palaeovertebrata, 10(3–4):127226.Google Scholar
Erdbrink, D. P. 1959. Un nouvel Anchitherium découvert en Hollande comme fossile erratique. Mammalia, 23:542558.Google Scholar
Flohn, H. 1983. Climatic evolution in the southern hemisphere and the equatorial region during the late Cenozoic, p. 520. In Vogel, J. C. (ed.), Late Cainozoic Paleoclimates of the Southern Hemisphere. Balkema, Rotterdam/Boston.Google Scholar
Forsten, A. 1973. Size and shape evolution in the teeth of fossil horses. Acta Zoologica Fennica, 137:131.Google Scholar
Forsten, A. 1982. The taxonomic status of the Miocene horse genus Sinohippus . Palaeontology, 25:673679.Google Scholar
Forsten, A. 1990. Anchitherium from Paşalar. Journal of Human Evolution, 19:471478.Google Scholar
Gingerich, P. D. 1974. Size variability of the teeth of living mammals and the diagnosis of closely related sympatric fossil species. Journal of Paleontology, 48:895903.Google Scholar
Ginsburg, L. 1968. L'evolution du climat au cours du Miocène, en France. Bulletin l'Association des Naturalistes Orléanais et de la Loire Moyenne, N.S., 41:313.Google Scholar
Ginsburg, L., Janvier, P., Mornard, J., and Pouit, D. 1979. Découverte d'un faune de mammifères terrestres d'age vallésien dans le falun miocène de Doué-la-Fontaine (Maine-et-Loire). Compte rendu sommaire des séances de la Société géologique de France, 1979, 5–6:223227.Google Scholar
Glasser, J. W. 1983. Variation in niche breadth with trophic position: on the disparity between expected and observed species packing. American Naturalist, 122:542548.Google Scholar
Gregor, H.-J., and Velitzelos, E. 1987. Evolution of Neogene Mediterranean vegetation and the question of a dry upper Miocene period (salinity crisis). Annales Instituti Geologici Publici Hungarici, 70:489496.Google Scholar
Gromova, V. I. 1952. Novye nahodki anhiteria v Mongolii. Trudy paleontologičeskogo instituta Akademiâ Nauk SSSR, 41:8797 [in Russian].Google Scholar
Guthrie, R. D. 1985. Alaskan megabucks, megabulls, and megarams: the issue of Pleistocene gigantism, p. 482510. In Genoways, H. H. and Dawson, M. R. (eds.), Contributions in Quaternary Vertebrate Paleontology. Carnegie Museum of Natural History Special Publication 8.Google Scholar
Herraez, E., and Alberdi, M. T. 1983. Anchitherium aurelianense del yacimiento del Puente de Vallecas. Estudios Geologicos, 39:409415.Google Scholar
Janis, C. 1976. The evolutionary strategies of the Equidae and the origins of rumen and cecal digestion. Evolution, 30:757774.Google Scholar
Janis, C. 1982. Evolution of horns in ungulates: ecology and paleoecology. Biological Reviews, 57:261378.Google Scholar
Kretzoi, M. 1941. Anchitherium aurelianense im ungarischen miozän. Annales Musei Nationalis Hungarici, 1941, pars mineralogica, geologica et paleontologica, 34:140145.Google Scholar
Kubiak, H. 1981. Equidae and Rhinocerotidae (Perissodactyla, Mammalia) from the Miocene of Przeworno in Lower Silesia. Acta Geologica Polonia, 31:7179.Google Scholar
Lander, E. B. 1978. A review of the Oreodonta (Mammalia, Artiodactyla), Parts I, II and III. Dissertation Abstracts International, 38(8):3607-B.Google Scholar
Laskarev, V. 1949. O novim nalaszima fosilnih sisam kod Despotovca sa kratkim predlegom terzijarnih fauna sisara nacenih u Srbija. Glasnik CAN-a 192, odeljenje prirodnomatematičkih nauk, nova serija, 11:4562 [in Serbian].Google Scholar
Leopold, E. B. 1969. Late Cenozoic palynology, p. 377438. In Tschudy, R. H. and Scott, R. A. (eds.), Aspects of Palynology. John Wiley & Sons, New York.Google Scholar
Lindstedt, S. L., and Boyce, M. S. 1985. Seasonality, fasting endurance, and body size in mammals. American Naturalist, 125:873878.Google Scholar
Lopez-Martinez, N., Agusti, J., Cabrera, L., Calvo, J. P., Civis, J., Corrochano, A., Daams, R., Diaz, M., Elizaga, E., Hoyos, M., Martinez, J., Morales, J., Portero, J. M., Robles, F., Santisteban, C., and Torres, T. 1987. Approach to the Spanish continental Neogene: synthesis and paleoclimatic interpretation. Annales Instituti Geologici Publici Hungarici, 70:383391.Google Scholar
MacFadden, B. J. 1986. Fossil horses from “Eohippus” (Hyracotherium) to Equus: scaling, Cope's Law, and the evolution of body size. Paleobiology, 121:355369.Google Scholar
MacFadden, B. J. 1988. Fossil horses from “Eohippus” (Hyracotherium) to Equus, 2: rates of dental evolution revisited. Biological Journal of the Linnean Society, 35:3748.Google Scholar
Marshall, L. G., and Corruccini, R. S. 1978. Variability, evolutionary rates, and allometry in dwarfing lineages. Paleobiology, 4:101119.Google Scholar
Matsumoto, H. 1921. Description of some new fossil mammals from Kani District, Prov. of Mino, with revisions of some Asiatic fossil Rhinocerotids. Science Report Tohoku Imperial University, Sendai, Japan, Geology, 5(3):7591.Google Scholar
Mattson, W. J. Jr. 1980. Herbivory in relation to plant nitrogene content. Annual Review of Ecology and Systematics, 11:119161.Google Scholar
Mayet, L. 1908. Étude des mammifères miocènes des sables de l'Orleanais et des faluns de la Touraine. Annales l'Université de Lyon, n.s. I, science et médécin, 24:1336.Google Scholar
McGrew, P. O. 1938. The Burge fauna, a lower Pliocene mammalian assemblage from Nebraska. University of California Publications, Bulletin of the Department of Geology, 24(11):309328.Google Scholar
Mein, P. 1975. Biozonation du neogène Mediterranee a partir des mammifères. Proceedings of the VI Congress of the Regional Committee on Mediterranean Neogene Stratigraphy, Bratislava:7781.Google Scholar
Meon-Vilain, H. 1970. Palynologie des formations miocènes supérieures et pliocènes du Bassin du Rhone (France). Documents du Laboratoire Géologique, Faculté des Sciences Lyon, 38, 167 p.Google Scholar
Nagy, E. 1979. Changes in paleoenvironment and paleoclimate during the Miocene of Hungary. Annales Géologiques du Pays Helléniques, Tome hors séries, Fasc. II:879888.Google Scholar
Orgetta, M. 1979. Erste Ergebnisse einer palynologischen Untersuchung der Lignite von Pikermi/Attika. Annales Géologiques des Pays Hélléniques, tome hors séries 1979, 2:909921.Google Scholar
Osborn, H. F. 1918. Equidae of the Oligo-, Mio- and Pliocene of North America, iconographic type revision. Memoirs of the American Museum of Natural History, N.S., 2:330.Google Scholar
Pantic, N. K. 1956. Biostratigrafija terzijarne flore Srbije. Annales Géologiques de la Péninsule Balkanique, 24:199321 [Serbian, French summary].Google Scholar
Pavlovic, M. B. 1969. Miozenski sisasri Toplicke kotline. Annales Géologiques de la Péninsule Balkanique, 34:269394 [Serbian, German summary].Google Scholar
Pavlovic, M. B. 1976. Novi nalasci Anchitherium aurelianense Cuvier u sredn'em miozenu Srbije. Annales Géologiques de la Péninsule Balkanique, 40:137147 [Serbian, English summary].Google Scholar
Pavlovic, M. B. 1982. Miozenski sisari iz Prebreze i srodne faune. Annales Géologiques de la Péninsule Balkanique, 46:245252 [Serbian, German summary].Google Scholar
Pavlovic, M. B., and Čipovic, V. 1964. O fosilnim sisarima iz terzijarnog basena Kriva Reka kod Rujanovza (Srbija). Annales Géologiques de la Péninsule Balkanique, 31:149160 [Serbian, German summary].Google Scholar
Peters, R. H. 1983. The Ecological Implications of Body Size. Cambridge University Press, Cambridge, 329 p.Google Scholar
Schlosser, M. 1903. Die fossilen Säugetiere Chinas. Abhandlungen der königlichen bayerischen Akademie der Wissenschaften II, Cl. 22, 1:1221.Google Scholar
Shikama, T., and Yoshida, S. 1961. On an equid fossil from Hinamaki Formation. Transactions and Proceedings of the Palaeontological Society of Japan, N.S., 44:171174.Google Scholar
Simpson, G. G. 1944. Tempo and Mode in Evolution. Columbia University Press, New York, 237 p.Google Scholar
Sondaar, P. Y. 1969. Some remarks on horse evolution and classification. Zeitschrift für Säugetierkunde, 34:307311.Google Scholar
Sondaar, P. Y., and Staesche, U. 1975. Anchitherium in der Türkei. Geologische Jahrbuch, Reihe B, 15:137138.Google Scholar
Stirton, R. A. 1940. Phylogeny of North American Equidae. University of California Publications, Bulletin of the Department of Geology, 25:165198.Google Scholar
Stuchlik, L. 1979. Chronostratigraphy of the Central Paratethys Neogene deposits in south Poland based on palaeobotanical studies. Annales Géologiques des Pays Hélléniques, tome hors séries 1979, 3:11671180.Google Scholar
Thenius, E. 1960. Die jungtertiären Wirbeltierfaunen und Landfloren des Wiener Beckens und ihre Bedeutung für die Neogenstratigraphie. Mitteilungen des Geologischen Gesellschafts Wien, 52:203209.Google Scholar
Thomas, H. 1984. Les Bovidés (Artiodactyla, Mammalia) du miocène du sous-continent Indien, de la Péninsule Arabique et de l'Afrique: biostratigraphie, biogeographie et ecologie. Palaeogeography, Palaeoclimatology, Palaeoecology, 45:251299.Google Scholar
Tleuberdina, F. 1988. Osnovanye mestonahoždeniâ gipparionovoj fauny Kazahstana i ih biostratigrafičeskaâ korrelazia. Materialy po istorii fauny i flory Kazahstana, T. 10:3873 [in Russian].Google Scholar
Van Couvering, J. A. H. 1980. Community evolution in East Africa during the late Cenozoic, p. 272298. In Behrensmeyer, A. K. and Hill, A. P. (eds.), Fossils in the Making, Vertebrate Taphonomy and Paleoecology. The University of Chicago Press, Chicago.Google Scholar
Van de Veerd, A., and Daams, R. 1979. A review of the Neogene rodent succession in Spain. Annales Géologiques des pays Hélléniques, tome hors séries 1979, 3:12631273.Google Scholar
Wassersug, R. J., Yang, H., Sepkoski, J. J. Jr., and Raup, D. M. 1979. The evolution of body size on islands: a computer simulation. American Naturalist, 114:287295.Google Scholar
Webb, S. D. 1977. A history of savanna vertebrates in the New World. Part I, North America. Annual Review of Ecology and Systematics, 8:355380.Google Scholar
Webb, S. D. 1983. The rise and fall of the late Miocene ungulate fauna of North America, p. 267306. In Nitecki, M. H. (ed.), Coevolution. University of Chicago Press, Chicago and London.Google Scholar
Webb, S. D. 1984. Ten million years of mammal extinctions in North America, p. 189210. In Martin, P. S. and Klein, R. G. (eds.), Quaternary Extinctions—A Prehistoric Revolution. University of Arizona Press, Tucson.Google Scholar
Wehrli, H. 1938. Anchitherium aurelianense Cuv. von Steinheim a. Albuch und seine Stellung im Rahmen der übrigen anchitherienen Pferde. Palaeontographica, supplement Band, 8(7):154.Google Scholar
Westoby, M. 1978. What are the biological bases of varied diets? American Naturalist, 112:627631.Google Scholar
Wolfe, J. A. 1980. Tertiary climates and floristic relationships at high latitudes in the northern hemisphere. Palaeogeography, Palaeoclimatology, Palaeoecology, 30:313323.Google Scholar
Yan, De-Fa. 1979. Einige der fossilen miozänen Säugetiere des Kreis von Fangxian in der Provinz Hupei. Vertebrata Palasiatica, 17:189199 [Chinese, German summary].Google Scholar
Zdansky, O. 1935. Equus und andere Perissodactyla. Palaeontologia Sinica, Ser. C, 6(5):154.Google Scholar
Zhai, R. J. 1962. On the generic character of “Hypohippus zitteli.” Vertebrata Palasiatica, 6:4855 [Chinese, English summary].Google Scholar
Zhai, R. J. 1963. Additional note on Sinohippus zitteli . Vertebrata Palasiatica, 7:168172 [Chinese, English summary].Google Scholar