河北磁县九龙口中中新世动物群中真犀的再研究
收稿日期: 2023-04-11
网络出版日期: 2023-06-30
基金资助
中国科学院战略性先导科技专项(XDB26000000);中国科学院战略性先导科技专项(XDA20070203);国家自然科学基金(42102001)
Restudy of Rhinocerotini fossils from the Miocene Jiulongkou Fauna of China
Received date: 2023-04-11
Online published: 2023-06-30
现代犀牛都属于犀科中的真犀族,目前中国最早的真犀族动物化石记录是来自河北磁县九龙口中中新世的磁县“双角犀”, 化石材料为幼年头骨和下颌。分析研究认为:这个物种与现生的双角犀Dicerorhinus的确存在相似之处,但也存在一些头骨结构上的差异,不应该被归入现生属。九龙口的真犀其实更加接近欧洲中中新世的拉尔泰犀Lartetotherium, 尤其是西班牙La Retama中中新世的材料,并应该归入该属。这一发现指示此时在欧亚大陆两端存在生物迁徙交流。九龙口动物群是中国中中新世目前唯一记录有真犀族动物的化石点,说明其环境相对湿润封闭,和当时中国更靠西北的化石点存在差异。研究发现鼻切迹位置是真犀族动物演化中具有较好演化水平指示意义的特征。现生苏门犀鼻切迹相对靠前以及其整体与磁县拉尔泰犀的相似性,指示这个属在与史蒂芬犀、披毛犀等更特化的双角犀分化后超过1000万年的演化历史中,只经历了比较小的形态学变化,这可能和南亚/东南亚地区环境相对稳定,选择压力较低有关。
李世杰 , 邓涛 . 河北磁县九龙口中中新世动物群中真犀的再研究[J]. 古脊椎动物学报, 2023 , 61(3) : 198 -211 . DOI: 10.19615/j.cnki.2096-9899.230630
All the extant rhino species belong to Rhinocerotini and either have one horn (a nasal horn) or two horns (a nasal horn and frontal horn). So far, the earliest Rhinocerotini to have been identified in China is the “Dicerorhinus” cixianensis, which was based on a juvenile skull with an associated mandible from the Middle Miocene locality of Jiulongkou in Cixian County, Hebei Province of northern China. Our analyses suggest that there are similarities between this specimen and the modern genus, Dicerorhinus, but it differs in several cranial traits and therefore cannot be assigned to the modern genus. Instead, it is closer to the Middle Miocene Lartetotherium from Europe, especially the specimen from La Retama in Spain and should be assigned to that genus, indicating the presence of intracontinental dispersal at this time. The Jiulongkou fauna is the only Middle Miocene fauna with Rhinocerotini in China, and, together with the faunal composition, this implies a more humid and closed environment, in contrast to those found in western China. We suggest that the position of the posterior border of the nasal notch is a good indication of the specimen’s evolutionary level in Rhinocerotini. The anterior position of the nasal notch as seen in modern Dicerorhinus, together with its certain similarities to L. cixianensis as well as its differences with more specialized species of the Dihoplus-Pliorhinus-Stephanorhinus -Coelodonta lineage, supports the conclusion that Dicerorhinus experienced little change during a nearly 10 Myr evolutionary history, possibly due to the low selection pressure seen in the tropical/subtropical forests in southeastern Asia.
[1] | Antoine P O, Sara? G, 2005. Rhinocerotidae (Mammalia, Perissodactyla) from the late Miocene of Akkasdagi, Turkey. Geodiversitas, 27: 601-632 |
[2] | Antoine P O, Bulot C, Ginsburg L, 2000. Les rhinocerotides (Mammalia, Perissodactyla) de l'Orleanien des bassins de la Garonne et de la loire (France): interet biostratigraphique. Ser IC R Acad Sci, Ser IIA: Earth Planet Sci, 330: 571-576 |
[3] | Antoine P O, Reyes M C, Amano N et al., 2022. A new rhinoceros clade from the Pleistocene of Asia sheds light on mammal dispersals to the Philippines. Zool J Linn Soc Lond, 194: 416-430 |
[4] | Cerde?o E, 1996a. Lartetotherium (Rhinocerotidae) en la fauna con Hispanotherium del Mioceno Medio de La Retama, Cuenca, Espa?a. Span J Paleontol, 11: 193-197 |
[5] | Cerde?o E, 1996b. Rhinocerotidae from the middle Miocene of the Tung-gur formation, Inner Mongolia (China). Am Mus Novit, 3184: 1-43 |
[6] | Chen G F, Wu W Y, 1976. Mammalian fossils from the Miocene Jiulongkou locality, Cixian County, Heibei Province. Vert PalAsiat, 14: 6-15 |
[7] | Chen S K, Liu Y, 2013. The taxonomic status of “Macrotherium cf. M. brevirostris” from the Middle Miocene of Jiulongkou, Cixian County, Hebei Province. Vert PalAsiat, 51: 205-210 |
[8] | Chen S K, Pang L B, Yan Y L et al., 2021. First discovery of Dicerorhinus sumatrensis from Yanjinggou provides insights into the Pleistocene Rhinocerotidae of South China. Acta Geol Sin - Engl, 95: 1065-1072 |
[9] | Colbert E H, 1934. A new rhinoceros from the Siwalik beds of India. Am Mus Novit, 749: 1-14 |
[10] | Colbert E H, 1935. Siwalik mammals in the American Museum of Natural History. Trans Am Philos Soc, New Ser, 26: 1-401 |
[11] | Deng T, 2003. New material of Hispanotherium matritense (Rhinocerotidae, Perissodactyla) from Laogou of Hezheng County (Gansu, China), with special reference to the Chinese Middle Miocene elasmotheres. Geobios-Lyon, 36: 141-150 |
[12] | Deng T, 2004. A new species of the rhinoceros Alicornops from the Middle Miocene of the Linxia Basin, Gansu, China. Palaeontology, 47: 1427-1439 |
[13] | Deng T, 2006. Chinese Neogene mammal biochronology. Vert PalAsiat, 44: 143-163 |
[14] | Deng T, 2015. Chinese Neogene Rhinoceroses. Shanghai: Shanghai Scientific and Technical Publishers. 1-154 |
[15] | Deng T, Wang X, Fortelius M et al., 2011. Out of Tibet: Pliocene wooly rhino suggests high-plateau origin of ice age megaherbivores. Science, 333: 1285-1288 |
[16] | Filhol H, 1891. études sur les mammifères fossiles de Sansan. Ann Sci Geol, 21: 1-319 |
[17] | Fjeldsa J, Lovett J, 1997. Geographical patterns of old and young species in African forest biota: the significance of specific montane areas as evolutionary centers. Biodivers Conserv, 6: 325-346 |
[18] | Geraads D, 2010. Rhinocerotidae. In: Werdelin L, Sanders W J eds. Cenozoic Mammals of Africa. Oakland: University of California Press. 675-690 |
[19] | Giaourtsakis I X, 2022. The fossil record of rhinocerotids (Mammalia: Perissodactyla: Rhinocerotidae) in Greece. In: Vlachos E ed. Fossil Vertebrates of Greece Vol 2. Cham: Springer, Cham. 409-500 |
[20] | Ginsburg L, 1974. Les Rhinocérotidés du Miocène de Sansan (Gers). C R Acad Sci, 278: 597-600 |
[21] | Ginsburg L, Bulot C, 1984. Les Rhinocerotidae (Perissodactyla, Mammalia) du Miocène de Bézian à La Romieu (Gers). Bull Mus Natl Hist Nat, 6: 353-377 |
[22] | Heissig K, 1972. Pal?ontologische und geologische Untersuchungen im Terti?r von Pakistan - 5. Rhinocerotidae (Mammalia) aus den unteren und mittleren Siwalik-Schichten. Abh Akad Wiss Math-Phys Kl, Folge, 152: 1-112 |
[23] | Heissig K, 1999. Family Rhinocerotidae. In: R?ssner G E, Heissig K eds. The Miocene Land Mammals of Europe. München: Verlag Dr. Friedrich Pfeil. 175-188 |
[24] | Heissig K, 2012. Les Rhinocerotidae (Perissodactyla) de Sansan. Mém Mus Natl Hist Nat, 203: 317-485 |
[25] | Hooijer D A, 1966. Miocene rhinoceroses of East Africa. Bull Br Mus (Nat Hist), Geol, 13: 119-190 |
[26] | Hwang Y T, Larivière S, 2003. Mydaus javanensis. Mamm Species: 1-3 |
[27] | Hwang Y T, Larivière S, 2004. Mydaus marchei. Mamm Species: 1-3 |
[28] | Jiangzuo Q G, Wang S, Li C et al., 2019. New material of Gobicyon (Carnivora, Amphicyonidae, Haplocyoninae) from northern China and a review of Aktaucyonini evolution. Pap Palaeontol, 7: 307-327 |
[29] | Jiangzuo Q G, Sun D H, Flynn J J, 2020. Paleobiogeographic implications of additional Felidae (Carnivora, Mammalia) specimens from the Siwaliks. Hist Biol, 33: 1767-1780 |
[30] | Kaya F, Bibi F, Zliobaite I et al., 2018. The rise and fall of the Old World savannah fauna and the origins of the African savannah biome. Nat Ecol Evol, 2: 241-246 |
[31] | Khan A M, Cerde?o E, Akhtar M et al., 2014. New fossils of Gaindatherium (Rhinocerotidae, Mammalia) from the Middle Miocene of Pakistan. Turk J Earth Sci, 23: 452-461 |
[32] | Lartet E, 1851. Notice sur la colline de Sansan, suivie d’une récapitulation des diverses espèces d’animaux vertébrés fossiles, trouvés soit à Sansan, soit dans d’autres gisements du terrain tertiaire miocène dans le bassin souspyrénéen. Auch: J A Portes. 1-45 |
[33] | Liu J, Li J J, Song C H et al., 2016. Palynological evidence for late Miocene stepwise aridification on the northeastern Tibetan Plateau. Clim Past, 12: 1473-1484 |
[34] | Liu S, Westbury M V, Dussex N et al., 2021. Ancient and modern genomes unravel the evolutionary history of the rhinoceros family. Cell, 184: 4874-4885 |
[35] | Margaryan A, Sinding M H S, Liu S et al., 2020. Recent mitochondrial lineage extinction in the critically endangered Javan rhinoceros. Zool J Linn Soc, 190: 372-383 |
[36] | Mein P, 1999. European Miocene mammal biochronology. In: R?sner G E, Heissig K eds. The Miocene Land Mammals of Europe. München: Verlag Dr. Friedrich Pfeil. 25-38 |
[37] | Pandolfi L, 2018. Evolutionary history of Rhinocerotina (Mammalia, Perissodactyla). Fossilia, 2018: 27-32 |
[38] | Pandolfi L, 2023. Reassessing the phylogeny of Quaternary Eurasian Rhinocerotidae. J Quat Sci, 38(3): 291-294 |
[39] | Pandolfi L, Pierre-Olivier A, Bukhsianidze M et al., 2021. Northern Eurasian rhinocerotines (Mammalia, Perissodactyla) by the Pliocene-Pleistocene transition: phylogeny and historical biogeography. J Syst Palaeontol, 19: 1031-1057 |
[40] | Pocock R I, 1939. The Fauna of British India, Including Ceylon and Burma: Mammalia 1. London: Taylor & Francis. 1-463 |
[41] | Pocock R I, 1941. The Fauna of British India, Including Ceylon and Burma: Mammalia 2. London: Taylor & Francis. 1-503 |
[42] | Qiu Z X, 1990. The Chinese Neogene mammalian biochronology: its correlation with the European Neogene mammalian zonation. In: Lindsay E H, Fahlbusch V, Mein P eds. European Neogene Mammal Chronology. New York: Springer. 527-556 |
[43] | Qiu Z X, Wang B Y, 2007. Paracerathere Fossils of China. Beijing: Science Press. 1-396 |
[44] | Qiu Z X, Ye J, Cao J X, 1988. A new species of Percrocuta from Tongxin, Ningxia. Vert PalAsiat, 26: 116-127 |
[45] | Qiu Z X, Qiu Z D, Deng T et al., 2013. Neogene land mammal stages/ages of China: Toward the goal to establish an Asian land mammal stage/age scheme. In: Wang X M, Flynn L J, Fortelius M eds. Neogene Terrestrial Mammalian Biostratigraphy and Chronology of Asia. New York: Columbia University Press. 29-90 |
[46] | Tong H W, 2012. Evolution of the non-Coelodonta dicerorhine lineage in China. C R Palevol, 11: 555-562 |
[47] | Tong H W, Guérin C, 2009. Early Pleistocene Dicerorhinus sumatrensis remains from the Liucheng Gigantopithecus Cave, Guangxi, China. Geobios-Lyon, 42: 525-539 |
[48] | Van Couvering J A, Delson E, 2020. African land mammal ages. J Vert Paleont, 40: 5, e1803340, doi: 10.1080/02724634.2020.1803340 |
[49] | Wang S Q, Zong L, Yang Q et al., 2016. Biostratigraphic subdividing of the Neogene Dingjiaergou mammalian fauna, Tongxin County, Ningxia Province, and its background for the uplift of the Tibetan Plateau. Quat Sci, 36: 789-809 |
[50] | Wang X M, Qiu Z X, Opdyke N D, 2003. Litho-, bio-, and magnetostratigraphy and paleoenvironment of Tunggur Formation (Middle Miocene) in central Inner Mongolia, China. Am Mus Novit, 3411: 1-31 |
[51] | Werdelin L, Sanders W J, 2010. Rhinocerotidae. In: Werdelin L ed. Cenozoic Mammals of Africa. Oakland: University of California Press. 675-690 |
[52] | Westerhold T, Marwan N, Drury A J et al., 2020. An astronomically dated record of Earth’s climate and its predictability over the last 66 million years. Science, 369: 1383-1387 |
[53] | Xiong W Y, 2022. New species of Percrocuta (Carnivora, Hyaenidae) from the early Middle Miocene of Tongxin, China. Hist Biol, 35(5): 1-22 |
[54] | Zachos J, Pagani M, Sloan L et al., 2001. Trends, rhythms, and aberrations in global climate 65 Ma to present. Science, 292: 686-693 |
[55] | Zhang Z G, Han W, Fang X et al., 2013. Late Miocene-Pleistocene aridification of Asian inland revealed by geochemical records of lacustrine-fan delta sediments from the western Tarim Basin, NW China. Palaeogeogr Palaeoclimatol Palaeoecol, 377: 52-61 |
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