亚洲最古老鸽子(Columbidae)物种有效性再检验:北京周口店早更新世丛氏原鸽(Columba congi)
收稿日期: 2020-12-07
网络出版日期: 2021-07-20
基金资助
国家自然科学基金(NSFC41772013)
Reexamination of the oldest pigeon (Aves: Columbidae) from Asia: Columba congi from the Early Pleistocene of Zhoukoudian, Beijing, China
Received date: 2020-12-07
Online published: 2021-07-20
沈韦, Thomas A. STIDHAM, 李志恒 . 亚洲最古老鸽子(Columbidae)物种有效性再检验:北京周口店早更新世丛氏原鸽(Columba congi)[J]. 古脊椎动物学报, 2021 , 59(3) : 245 -256 . DOI: 10.19615/j.cnki.1000-3118.210304
Columba congi is an extinct species that was described as part of the Early Pleistocene (~1.7 Ma) fauna from locality 12 of the UNESCO Zhoukoudian or “Peking Man” site in Beijing, China. Only four partial humeri of the original type series of 11 bones can be located, and the features present in those specimens do not support the original diagnosis. However, our study and redescription shows that the straight and flat margin of the pneumotricipital fossa rim (in ventral view) and the relative distal position of the dorsal supracondylar tubercle may support the continued recognition of C. congi as a valid extinct species. Columba congi appears to be the oldest fossil of Columba in Asia, and it lived during a warmer and wetter period of time of the Pleistocene with a forested Zhoukoudian. Further study of pigeons from all localities at Zhoukoudian should help to resolve questions about pigeon biogeography and evolution, including possibly the time and center of origin of the globally distributedC. livia.
Key words: Zhoukoudian; Early Pleistocene; Columba; Columba congi; humerus
[1] | Abbazzi L, Angelone C, Arca M et al., 2004. Plio-Pleistocene fossil vertebrates of Monte Tuttavista (Orosei, E. Sardinia, Italy), an overview. Riv Ital Paleontol S, 110:681-706 |
[2] | Baptista L F, Martínez-Gómez J E, Horblit H M, 2009. Darwin’s pigeons and the evolution of the columbiforms: recapitulation of ancient genes. Acta Zool Mex, 25:719-741 |
[3] | Baumel J J, Witmer L M, 1993. Osteologia. In: Baumel J J, King A S, Breazile J E et al. eds. Nomina Anatomica Avium, a Handbook of Avian Anatomy, 2nd ed. Cambridge, Massachusetts: The Nuttall Ornithological Club. 45-131 |
[4] | Bedetti C, Pavia M, 2007. Reinterpretation of the Late Pleistocene Ingarano cave deposits based on the fossil bird associations (Apulia, South-Eastern Italy). Riv Ital Paleontol S, 113:487-507 |
[5] | Blasco R, Finlayson C, Rosell J et al., 2014. The earliest pigeon fanciers. Sci Rep, 4:5971 |
[6] | Cheng J, 1997. Climate cycle indicated by mammals. Front Earth Sci, 4(2):275-279 |
[7] | Cheng J, Tian M Z, Cao B X et al., 1996. Newly Discovered Quaternary Mammalian Fauna and its Environmental Changes in Zhoukoudian. Wuhan: China University of Geosciences Press. 1-114 |
[8] | Cheng J, Wang H Z, Zhang X J et al., 2002. A review of the Quaternary geology and environmental change in Zhoukoudian, Beijing. J Geomechan, 8(4):347-353 |
[9] | Gibbs D, Barnes E, Cox J, 2001. Pigeons and Doves: a Guide to the Pigeons and Doves of the World. London: A&C Black. 1-560 |
[10] | Gill F, Donsker D, Rasmussen P, 2020. IOC World Bird List (v10.2), doi: 10.14344/IOC.ML.10.2 |
[11] | Goodwin D, Gillmor R, 1983. Pigeons and Doves of the World. London: British Museum (Natural History). 1-363 |
[12] | Hou L H, 1982. Avian fossils in Zhoukoudian. Vert PalAsiat, 20(4):366-368 |
[13] | Hou L H, 1993. Avian fossils of Pleistocene from Zhoukoudian. Mem Inst Vert Paleontol Paleoanthropol Acad Sin, 19:165-297 |
[14] | Huang W B, 1960. Brief description of the deposition in Zhoukoudian. Chinese J Geol, 3:85-90 |
[15] | Hume J P, 2011. Systematics, morphology, and ecology of pigeons and doves (Aves: Columbidae) of the Mascarene Islands, with three new species. Zootaxa, 3124:1-62 |
[16] | Johnson K P, Kort S D, Dinwoodey K et al., 2001. A molecular phylogeny of the dove genera Streptopelia and Columba. Auk, 118(4):874-887 |
[17] | Jones M E H, Button D J, Barrett P M et al., 2019. Digital dissection of the head of the rock dove (Columba livia) using contrast-enhanced computed tomography. Zool Lett, 5:17 |
[18] | Li F, Bae C J, Ramsey C B et al., 2018. Re-dating Zhoukoudian Upper Cave, northern China and its regional significance. J Hum Evol, 121:170-177 |
[19] | Li Z H, Stidham T A, Deng T et al., 2020. Evidence of Late Miocene peri-Tibetan aridification from the oldest Asian species of sandgrouse (Aves: Pteroclidae). Front Ecol Evol, 8:59 |
[20] | MacKinnon J, Phillipps K, 2000. A Field Guide to the Birds of China. London: Oxford Press. 1-586 |
[21] | Martynovich N, 2002. Pleistocene birds from Tsagan-Agui Cave (Gobian Altai). Acta Zool Cracov, 45:283-292 |
[22] | Pavia M, 1999. The Middle Pleistocene avifauna of the Spinagallo Cave (Sicily, Italy): preliminary report. Smithson Contrib Paleobiol, 89:125-127 |
[23] | Petronio C, Bellardini F, Arzarello M et al., 2008. The deposit of the Late Pleistocene from Avetrana (Taranto, Southern Italy): biochronology and palaeoecology. Il Quaternario, 21(2):409-422 |
[24] | Rich P V, Hou L H, Ono K et al., 1986. A review of the fossil birds of China, Japan, and Southeast Asia. Geobios, 19:755-772 |
[25] | Sardella R, Bedetti C, Bellucci L et al., 2005. The Late Pleistocene vertebrate fauna from Avetrana (Taranto, Apulia, Southern Italy): preliminary report. Geol Alp, 2:25-29 |
[26] | Schepelmann K, 1990. Erythropoietic bone marrow in the pigeon: development of its distribution and volume during growth and pneumatization of bones. J Morph, 203(1):21-34 |
[27] | Shapiro B, Sibthorpe D, Rambaut A et al., 2002. Flight of the dodo. Science, 295:1683 |
[28] | Shapiro M D, Domyan E T, 2013. Domestic pigeons. Curr Biol, 23(8):R302-R303 |
[29] | Shapiro M D, Kronenberg Z, Li C et al., 2013. Genomic diversity and evolution of the head crest in the rock pigeon. Science, 339:1063-1067 |
[30] | Soares A E R, Novak B J, Haile J et al., 2016. Complete mitochondrial genomes of living and extinct pigeons revise the timing of the columbiform radiation. BMC Evol Biol, 16:230 |
[31] | Teilhard de Chardin P, 1938. The fossils from locality 12 of Choukoutian. Palaeont Sin, New Ser C, 5:1-47 |
[32] | Tyrberg T, 1998. Pleistocene Birds of the Palearctic: a Catalogue. Cambridge, Massachusetts: Publications of the Nuttall Ornithological Club. 1-720 |
[33] | Watanabe J, Matsuoka H, Hasegawa Y, 2018. Pleistocene non-passeriform landbirds from Shiriya, northeast Japan. Acta Palaeontol Pol, 63(3):469-491 |
[34] | Weesie P D M, 1984. On some Pleistocene bird fossils from the south Aegean island of Karpathos (Greece). Geobios, 17(6):845-849 |
[35] | Worthy T H, 2012. A phabine pigeon (Aves: Columbidae) from Oligo-Miocene Australia. Emu, 112(1):23-31 |
[36] | Zelenkov N, 2015. Mesozoic and Cenozoic avian faunas of Asia (the history of the formation of the modern communities). XIV International Ornithological Conference of Northern Eurasia (Almaty). Vol II. Oral Presentations. Oral Presentations. Almaty: Menzbier Ornithological Society. 37-74 |
/
〈 | 〉 |