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Amphibian and reptilian distribution patterns in the transitional zone between the Euro-Siberian and Central Asia Subrealms |
ZHOU Lu, SHI Lei* |
College of Animal Science, Xinjiang Agricultural University, Urumqi 830052, China |
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Abstract There exist some controversies over the larger zoogeographic divisions of the arid areas of Central Asia, whose characteristics include complex ecological environments, complex fauna origins and unique patterns of animal distribution. The aim of this study was to determine, using quantitative analysis, the distribution patterns of amphibians and reptiles in the arid areas of Central Asia, whose various physiographical regions were divided into 17 Operative Geographical Units (OGUs). Based on the presence or absence of 52 amphibian and reptile genera in the 17 OGUs, and by making use of the Czekanowski Similarity Index, the Baroni-Urbani and Buser’s Similarity Index, and the strong and weak boundary test, we studied the biotic boundaries within these contested regions. In accordance with our results, the classification dendrogram was divided into two main branches. One branch is composed of the northern OGUs of the Altai Mountains which are a part of the Euro-Siberian Subrealm. The other branch includes all of the OGUs south of the Altai Mountains, which belong to the Central Asia Subrealm. There is a significantly weak biotic boundary (DW>0, GW>GS, P<0.01) between the Euro-Siberian Subrealm and the Central Asia Subrealm that corresponded to the transitional zones. The boundary between the two subrealms runs along the Altai Mountains, the Sayan Mountains, the Hangai Mountains and the Mongolian Dagurr Mountains. The boundaries between the main branches in the Central Asia Subrealm are weak, reflecting the widespread existence of transitional zones in the arid areas of Central Asia. The Tianshan Mountains should be elevated to form its own separate region, “the Middle Asian Mountain Region”, which, due to its special fauna and environment, would be classified at the same level as the Mongolia-Xinjiang Region. With the approach of creating a cluster analysis dendogram based upon the genera of amphibians and reptiles, the relationship of these higher level zoogeographical divisions was successfully resolved and the error of long-branch attraction was also avoided. With our clustering dendrogram as the foundation, the independence test was applied to strong and weak boundaries, and this resolved the problem of where to attribute the transition areas and revealed as well the barrier effect that physical, geographic boundaries have upon amphibians and reptiles. The approach of combining genera clustering analysis with a statistical boundary test should be applicable not only to the distribution patterns of other animal groups, but also to delineating large-scale zoogeographical divisions.
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Received: 16 September 2014
Published: 10 August 2015
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Fund: This project was supported by International Science & Technology Cooperation Program of China (2010DFA92720) and the National Natural Science Foundation of China (31260511, 30360014). |
Corresponding Authors:
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Ablimit A, Sun M J, Shao M Q. 2003. Diversity and fauna characteristics of the birds and mammals in mountain areas of Xinjiang. Journal of Arid Land Resources and Environment, 17(3): 117?122.Anan’eva N B, Orlov N L, Khalikov R G, et al. 2006. The Reptiles of Northern Eurasia: Taxonomic Diversity, Distribution, Conservation Status. Sofia: Pensoft Publishers.Baroni-Urbani C, Busher M W. 1976. Similarity of binary data. Systematic Biology, 25: 251?259.Bobrov V V. 2000. Conservation of reptile biodiversity in biosphere reserves of Russia. In: Final Scientific Report, UNESCO. Moscow: MAB Young Scientists Research Award.Bobrov V V, Aleshchenko G M. 2001. Herpetogeographical regionalization of Russia and adjacent countries. Russian Journal of Herpetology, 8: 223.Burke R L, Ner S E. 2005. Seasonal and dial activity patterns of Italian wall Lizards, Podarcis sicula campestris, in New York. Northeastern Naturalist, 12(3): 349?360.Chen X, Li B L, Li Q, et al. 2012. Spatio-temporal pattern and changes of evapotranspiration in arid Central Asia and Xinjiang of China. Journal of Arid Land, 4(1): 105?112. Crick R E. 1980. Integration of paleobiogeography and paleogeography: evidence from Arenigian nautiloid biogeography. Journal of Paleontology, 54: 1218–1236.Czekanowski J. 1932. Coefficient of species similarity and average difference. Anthropologischer Anzeiger, 9: 227–249. (in Russian)Fei L, Hu S Q, Ye C Y, et al. 2006. Fauna Sinica, Amphibia (Vol. 1): General Accounts of Amphibia, Gymnophiona and Urodela. Beijing: Science Press. (in Chinese) Fei L, Hu S Q, Ye C Y, et al. 2009a. Fauna Sinica, Amphibia (Vol. 2): Anura. Beijing: Science Press. (in Chinese)Fei L, Hu S Q, Ye C Y, et al. 2009b. Fauna Sinica, Amphibia (Vol. 3): Anura Ranidae. Beijing: Science Press. (in Chinese)Gao X Y, Zhou Y H, Gu J H, et al. 2000. The Investigation and Study of Birds Resources in Xinjiang. Urumqi: Xinjiang Health Science and Technology Publishing House, 49–59. (in Chinese)Guo Z L, Cui G F. 2014. The comprehensive geographical regionalization of China supporting natural conservation. Acta Ecologica Sinica, 34(5): 1284–1294. (in Chinese)Hijmans R J, Cameron S E, Parra J L, et al. 2005. Very high resolution interpolated climate surfaces for global land areas. International Journal of Climatology, 25: 1965–1978.Holt B G, Lessard J P, Borregaard M K, et al. 2013. An update of Wallace’s zoogeographic regions of the world. Science, 339: 74–77.How R A, Kitchener D J. 1997. Biogeography of Indonesian snakes. Journal of Biogeography, 24: 725–735.Hu R J. 2004. Physical Geography of the Tianshan Mountains in China. Beijing: China Environmental Science Press. (in Chinese)Hu S Q, Zhao E M, Jiang Y M, et al. 1987. Amphibians-Reptiles of Tibet. Beijing: Science Press, 1–55. (in Chinese)Huang R X. 2005. The Fauna of the Desert Insects of Xinjiang and its Formation and Evolution. Urumqi: Xinjiang Science and Technology Publishing House, 161–182. (in Chinese)Huang W, Xia L, Feng Z J, et al. 2007. Distribution pattern and zoogeographical discussion of mammals in Xinjiang. Acta Theriologica Sinica, 27(4): 325–337. (in Chinese)Ji X, Wang Y Z, Wang Z. 2009. New species of Phrynocephalus (Squamata, Agamidae) from Qinghai, Northwest China. Zootaxa, 1988: 61–68.Krivokhatsky V A, Emeljanov A F. 2000. Use of general zoogeo-graphical subdivisions in particular zoogeographical researches for the example of the Palaearctic antlion fauna (Neuroptera, Myrmeleontidae). Entomological Review, 80(9): 1042–1056.Lan Y C, Wu S F, Zhong Y J, et al. 2007. Characteristics and trends of changes on water cycle factors in the Tianshan Mountainous area since 1960s. Journal of Mountain Science, 25(2): 177–183. Li D H. 1989. Resourceful Vertebrate Fauna of Qinghai. Xining: Qinghai People’s Publishing House, 1–35. (in Chinese)Li P P, Zhao E M, Dong B J. 2008. Amphibians and Reptiles of Tibet. Beijing: Science Press, 1–44. (in Chinese)Li W D, Zhang X, Zhang H B, et al. 2013. Comprehensive Scien-tific Investigation of the National Natural Conservation in Xinjiang Altai Mountain. Urumqi: Xinjiang Science and Technology Press, 12–38. (in Chinese)Li Y W, Yu L, Zhang Y P. 2007. “Long-branch Attraction” artifact in phylogenetic reconstruction. Hereditas, 29(6): 659–667. (in Chinese)Liu X T, Liu X G, Shen Q, et al. 2013. Comparison of merged and non-merged similarity clustering analysis methods. Acta Ecologica Sinica, 33(11): 3480–3487. (in Chinese)Ma M. 2011. A Checklist on the Distribution of the Birds in Xinjiang. Beijing: Science Press, 1–11. (in Chinese)Ma Y, Wang F G, Jin S K, et al. 1987. Glires (Rodents and Lagomorphs) of Northern Xinjiang and their Zoogeographical Distribution. Beijing: Science Press, 34–38. (in Chinese) Magurran A E. 2004. Measuring Biological Diversity. Malden: Blackwell Science, 172–175.Márquez A L, Real R, Vargas J M, et al. 1997. On identifying common distribution patterns and their causal factors: a probabilistic method applied to pteridophytes in the Iberian Peninsula. Journal of Biogeography, 24: 613–631.McCoy E D, Bell S S, Walters K. 1986. Identifying biotic boundaries along environmental gradients. Ecology, 67(3): 749–759.Proche? S. 2005. The world’s biogeographical regions: cluster analyses based on bat distributions. Journal of Biogeography, 32: 607–614.Proche? S, Ramdhani S. 2012. The world’s zoogeographical regions confirmed by cross-taxon analyses. Bioscience, 62(3): 260–270.Ravkin Y S, Bogomolova I N, Chesnokova S V. 2010. Amphibian and reptile biogeographic regions of northern Eurasia, mapped separately. Contemporary Problems of Ecology, 3(5): 562–571.Ravkin Y S, Bogomolova I N, Nikolaeva O N, et al. 2014. Zoning Northern Eurasia based on the fauna of terrestrial vertebrates and their classification by similarity of distribution. Contemporary Problems of Ecology, 7(2): 137–150.Real R, Guerrero J C, Ramírez J M. 1992. Identification of significant biotic boundaries for amphibians in the basin of southern Spain. Acta Vertebr, 19: 53–70. (in Spanish)Ribeiro G C, Santos C M, Olivieri L T, et al. 2014. The world’s biogeographical regions revisited: global patterns of endemism in Tipulidae (Diptera). Zootaxa, 3847(2): 241–258.Rueda M, Rodríguez M Á, Hawkins B A. 2013. Identifying global zoogeographical regions: lessons from Wallace. Journal of Biogeography, 40(12): 2215–2225.Sans-Fuentes M A, Ventura J. 2000. Distribution patterns of the small mammals (Insectivora and Rodentia) in the transitional zone between the Eurosiberian and the Mediterranean. Journal of Biogeography, 27: 755–764.Schults J. 2010. Ecological Zone of the Earth. 4th ed. Beijing: Higher Education Press, 115–158. (in Chinese)Shcherbak N N. 1981. “Fundamentals of Herpetogeographic Zonation of the USSR,” in Problems of Herpetology. Leningrad: Nauka Leningrad Division, 157–158.Shen X C, Liu X T, Ren Y D, et al. 2013a. The multivariate similarity clustering analysis and geographical division of insect fauna in China. Acta Entomologica Sinica, 56(8): 896–906. (in Chinese)Shen X C, Zhang B S, Zhang F, et al. 2013b. Worldwide distribution and multivariate similarity clustering analysis of spiders. Acta Ecologica Sinica, 33(21): 6795–6802. (in Chinese)Shi L, Zhou Y H, Yuan H. 2002. Reptile fauna and zoogeographic division of Xinjiang Uygur Autonomous Region. Sichuan Journal of Zoology, 21(3): 152–157. (in Chinese)Shi L, Zhou Y H, Yuan H. 2005. A new record of toad species from China—Bufo bufo Linnaeus. Acta Zootaxonomica Sinica, 30(2): 444–445. (in Chinese)Shi L, Zhou Y H, Yuan H. 2006a. A new genus and a new species record to China. Acta Zootaxonomica Sinica, 31(4): 912–915. (in Chinese)Shi L, Liu G S, Li Z H, et al. 2006b. An record of Coluber spinalis from Altai Mountain. Journal of Xinjiang Agricultural University, 29(1): 55–57. (in Chinese) Shi L, Yang J, Hou M Z. 2007. Herpetological surveys of Xinjiang Uygur Autonomous Region. Sichuan Journal of Zoology, 26(4): 812–818. (in Chinese)Shi L, Zhao E M. 2008. First record of subspecies from China. Acta Zootaxonomica Sinica, 33(1): 207–211. (in Chinese)Shi L, Zhao E M. 2011. A new gecko in the genus Cyrtopodion Fitzinger, 1843 (Reptilia: Squamata: Gekkonidae) from western China. Herpetologica, 67(2): 186–193.Terbish K H, Munkhbayar K H, Clark E L, et al. 2006. Regional Red List Series (Vol. 5): Mongolian Red List of Reptiles and Amphibians. London: Zoological Society of London, 1–72.Terent’ev P V, Chernov S A. 1949. Guide to Reptiles and Amphibians.Moscow: Sovetskaya Nauka.Wang S J, Yan S. 1987. Cenozoic evolution of geographical environment in north and south sides of the Tianshan Mountains. Acta Geographica Sinica, 42: 211–220. (in Chinese)Wang X L, Ai S, Yuan L, et al. 2006. The progress in the research of Xinjiang amphibian animals. Journal of Xinjiang Normal University: Natural Sciences Edition, 25(2): 50–53. (in Chinese)Xiang Z F, Liang X C, Huo S, et al. 2004. Quantitative analysis of land mammal zoogeographical regions in China and adjacent regions. Zoological Studies, 1: 142–160.Xie Y, Li D M, John M. 2002. Preliminary researches on bio-geographical divisions of China. Acta Ecologica Sinica, 22(10): 1599–1615. (in Chinese)Xu R G, Xin L L, Yang G S, et al. 2001. Fauna Inner Mongolia (Ⅱ): Amphibian and Reptile. Hohhot: Inner Mongolia University Press. (in Chinese)Yao J Q, Yang Q, Zhao L. 2012. Research on change of surface water vapor in the Tianshan Mountains under global warming. Arid Zone Research, 29(2): 320–327. (in Chinese)Zhang M W, Zong Y, Ma J P. 1998. Fauna Sinica, Reptilia (Vol. 1): General Accounts of Reptilia, Testudoformes and Crocodiliformes. Beijing: Science Press. (in Chinese)Zhang R Z. 2009. Zoogeography of China. Beijing: Science Press, 137–179. (in Chinese)Zhao C C, Ding Y J, Ye B S, et al. 2011. Spatial distribution of precipitation in Tianshan Mountains and its estimation. Advances in Water Science, 22(3): 315–322. (in Chinese)Zhao E M, Huang M H, Zong Y. 1998. Fauna Sinica, Reptilia (Vol. 3): Squamata, Serpentes. Beijing: Science Press. (in Chinese)Zhao E M, Zhao K T, Zhou K Y. 1999. Fauna Sinica, Reptilia (Vol. 2): Squamata, Lacertilia. Beijing: Science Press. (in Chinese)Zhao K T. 2002. Reptile fauna and zoogeographic division of Inner Mongolia Autonomous Region. Sichuan Journal of Zoology, 3: 118–122. (in Chinese)Zhou Y H, Wang G Y, Ni Y F. 1986. A new record of Eryx tataricus and a new subspecies from China. Journal of August 1st Agricultural College, 9(3): 42–44. (in Chinese) |
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