Chilotherium
Chilotherium Temporal range:
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Scientific classification | |
Domain: | Eukaryota |
Kingdom: | Animalia |
Phylum: | Chordata |
Class: | Mammalia |
Order: | Perissodactyla |
Family: | Rhinocerotidae |
Subfamily: | †Aceratheriinae |
Genus: | †Chilotherium Ringström 1924 |
Type species | |
†Chilotherium anderssoni Ringström, 1924
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Species | |
See text |
Chilotherium is an extinct genus of rhinocerotids endemic to Eurasia during the Miocene through Pliocene living for 13.7—3.4 mya, existing for approximately 10.3 million years.[1]
Description
[edit]It was a large, robust animal reaching 1.5-1.8 m in height and a weight between 1 and 2.5 tons, depending on the species.[2]
Both sexes are hornless. The lower jaw has a widened symphysial part and large tusk-like second incisors separated by a broad diastema. The dental formula is 0.0.3.31(2).0.3.3. The limbs are very short and the body stout; the feet are tridactyl with diverging metapodials.[3] At least in C. wimani, there is a significant sexual dimorphism in the tusks and mandible, most notably the length of the tusks in males.<[4]
Some features in Chilotherium, such as second incisors, mandible, cheek-teeth and other cranial features, may be plesiomorphic, while some features in the tusks are apomorphic: the dorsal surface of the tusks in primitive species is turned latero-dorsally in more derived species while the medial edge has become very sharp and sickle-like and rotated dorsally, and thus a more effective cutting tool.[5]
Chilotherium were a group of grazing animals that radiated into several subgenera and species. Their feet were tridactyl and their legs shorter than in related groups. A few of them remained browsers, but most of them were adapted to a grass-based diet, hence the short legs. Their heads were horn-less but equipped with tusk-like lower incisors and were held in a horizontal position, in contrast to modern rhinos. They inhabited the so-called sub-Paratethyan or Greek-Iranian province during the late Miocene when this region was invaded by advanced rhinos from Africa, such as Ceratotherium (modern white rhinos). Like them, Chilotherium gradually evolved into specialised grazers, including hypsodont teeth and shortened metapodials.[6] Recent studies have confirmed the grazing nature of C. schlosseri.[7]
Taxonomy
[edit]Chilotherium was named by Ringström in 1924.[8] It was assigned to Rhinocerotidae by Carroll (1988); to Aceratheriini by Antoine and Saraç (2005); and to Chilotheriini by Deng (2005).[1]
Species
[edit]Twelve species of Chilotherium have been described and 19 other species have been assigned the genus. Nine are considered valid: four from Europe, one from Iran, and four from China.[9]
Aprotodon differs from Chilotherium in its proportionally larger and wider symphysis; the horizontal mandibular ramus is curved both in side view and in dorsal view, unlike most rhinocerotids; and the premolars are semi-molariform, unlike the fully molariform premolars in Chilotherium. In Subchilotherium the mandibular symphysis is much more narrow than in Chilotherium. Acerorhinus has a strongly constricted nasal base and a mandibular symphysis that is narrow compared to that in Chilotherium.[9]
Named species | Revised species | Location |
---|---|---|
C. blanfordi (Lydekker, 1884) | Aprotodon blanfordi (Lydekker, 1884) | Siwalik |
C. fatehjangense (Pilgrim, 1910) | Aprotodon fatehjangense (Pilgrim, 1910) | Siwalik |
C. smith-woodwardi (Foster-Cooper, 1915) | Aprotodon smith-woodwardi Foster-Cooper, 1915 | Siwalik |
C. ibericum Antunes, 1972 | Hispanotherium matritense (Prado, 1863) | Portugal |
C. quintanelensis Zbyszewski, 1952 | ||
C. zernowi (Borissiak, 1915) | Acerorhinus zernowi (Borissiak, 1915) | Odessa |
C. palaeosinense (Ringström, 1924) | Acerorhinus palaeosinensis (Ringström, 1924) | China |
C. hipparionum (Koken, 1885) | Acerorhinus hipparionum (Koken, 1885) | China |
C. tsaidamense (Bohlin, 1937) | Acerorhinus tsaidamensis (Bohlin, 1937) | China |
C. intermedium (Lydekker, 1884) | Subchilotherium intermedium (Lydekker, 1884) | Siwalik |
C. tanggulaense Zheng, 1980 | ||
C. pygmaeum (Ringström, 1927) | Subchilotherium pygmaeum (Ringström, 1927) | China |
C. brancoi (Schlosser, 1903) | Shansirhinus brancoi (Schlosser, 1903) | China |
C. yunnanensis Tang et al., 1974 | ||
C. tianzhuensis Zheng, 1982 | Shansirhinus ringstromi Kretzoi, 1942 | China |
C. cornutum Qiu & Yan, 1982 | ||
C. samium (Weber, 1905) | C. samium (Weber, 1905) | Samos |
C. schlosseri (Weber, 1905) | C. schlosseri (Weber, 1905) | Samos |
C. ponticum (Niezabitowski, 1912) | ||
C. wegneri (Andree, 1921) | ||
C. kowalevskii (Pavlow, 1913) | C. kowalevskii (Pavlow, 1913) | Odessa |
C. angustifrons (Andree, 1921) | Samos | |
C. kiliasi (Geraads & Koufos, 1990) | C. kiliasi (Geraads & Koufos, 1990) | Pentalophos |
C. anderssoni Ringström, 1924 | C. anderssoni Ringström, 1924 | China |
C. planifrons Ringström, 1924 | ||
C. fenhoensis Tung et al., 1975 | ||
C. habereri (Schlosser, 1903) | C. habereri (Schlosser, 1903) | China |
C. gracile Ringström, 1924 | ||
C. wimani Ringström, 1924 | C. wimani Ringström, 1924 | China |
C. xizangensis Ji et al., 1980 | C. xizangensis Ji et al., 1980 | China |
C. persiae (Pohlig, 1885) | C. persiae (Pohlig, 1885) | Maragha |
C. licenti Sun, Li & Deng, 2018 | C. licenti Sun, Li & Deng, 2018 | China |
Pathology
[edit]A female Chilotherium skull bears the distinctive bite marks of Dinocrocuta gigantea on the forehead. Based on the regrowth of bone around the injury, the rhinoceros escaped the predator's attack and later recovered.[10]
Notes
[edit]- ^ a b Chilotherium in the Paleobiology Database. Retrieved 19 May 2013.
- ^ Cerdeño 1998
- ^ Geraads & Spassov 2009, pp. 101–2
- ^ Chen et al. 2010
- ^ Geraads & Spassov 2009, Morphology and taxonomy, p. 117
- ^ Agustí & Antón 2002, pp. 162, 185
- ^ Rivals, Florent; Belyaev, Ruslan I.; Basova, Vera B.; Prilepskaya, Natalya E. (15 May 2024). "A tale from the Neogene savanna: Paleoecology of the hipparion fauna in the northern Black Sea region during the late Miocene". Palaeogeography, Palaeoclimatology, Palaeoecology. 642: 112133. doi:10.1016/j.palaeo.2024.112133. Retrieved 1 September 2024 – via Elsevier Science Direct.
- ^ Ringström 1924
- ^ a b Deng 2006, Discussion, pp. 97–8
- ^ "Giant hyena versus tusked rhino".
References
[edit]- Agustí, Jordi; Antón, Mauricio (2002). Mammoths, Sabertooths, and Hominids: 65 Million Years of Mammalian Evolution in Europe. New York: Columbia University Press. ISBN 0-231-11640-3.
- Cerdeño, Esperanza (1998). "Diversity and evolutionary trends of the family Rhinocerotidae (Perissodactyla)". Palaeo. 141 (1–2): 13–34. Bibcode:1998PPP...141...13C. doi:10.1016/S0031-0182(98)00003-0.
- Chen, Shaokun; Deng, Tao; Hou, Sukuan; Shi, Qinqin; Pang, Libo (2010). "Sexual dimorphism in perissodactyl rhinocerotid Chilotherium wimani from the late Miocene of the Linxia Basin (Gansu, China)" (PDF). Acta Palaeontologica Polonica. 55 (4): 587–97. doi:10.4202/app.2009.0001. S2CID 55978743. Retrieved 19 May 2013.
- Deng, Tao (November 2006). "A primitive species of Chilotherium (Perissodactyla, Rhinocerotidae) from the Late Miocene of the Linxia Basin (Gansu, China)" (PDF). Cainozoic Research. 5 (1–2): 93–102. Retrieved 19 May 2013.
- Geraads, Denis; Spassov, Nikolai (2009). "Rhinocerotidae (Mammalia) from the Late Miocene of Bulgaria" (PDF). Palaeontographica A. 287 (4–6): 99–122. Bibcode:2009PalAA.287...99G. doi:10.1127/pala/287/2009/99. Retrieved 19 May 2013.
- McKenna, M.C.; Bell, S.K. (1997). Classification of mammals above the species level. New York: Columbia University Press. ISBN 978-0-231-11013-6. OCLC 37345734.
- Ringström, T. (1924). "Nashorner der Hipparion-fauna Nord-Chinas". Palaeontologia Sinica. 1 (4): 1–159. OCLC 702555572.