Revalidation of Myotis taiwanensis Ärnbäck-Christie-Linde 1908 and its molecular relationship with M. adversus (Horsfield 1824) (Vespertilionidae, Chiroptera)

• Autorzy: Han N.J. , Zhang J. S. , Reardon T. , Lin L. K. , Zhang J. P. , Zhang S. Y.
• Języki publikacji: EN

Abstrakty

EN

A combined approach using molecular and morphological data has revealed that the taxon Myotis taiwanensis, which until now has been usually considered as a subspecies of Myotis adversus, should be reinstated as a full species, as originally described by Ärnbäck-Christie-Linde (1908) from Takao, Anping, Tainan, Formosa (= southern Taiwan). In our genetic analysis using two nuclear DNA segments of protein kinase C iota (PRKCI) and ubiquitin specific peptidase 9 (Usp9x), X-linked genes, together with two mitochondrial genes, i.e., nicotinamide adenine dinucleotide dehydrogenase subunit 1 (ND1) and cytochrome b (Cyt b), we demonstrate that M. taiwanensis is closely related to M. pilosus, and largely divergent from two subspecies of M. adversus. Our analysis further shows that M. taiwanensis differs considerably from M. adversus in external and dental features. New records of M. taiwanensis from Shandong and Anhui provinces in eastern China are presented.

• Wydawca: -
• Czasopismo: Acta Chiropterologica
• Rocznik: 2010
• Tom: 12
• Numer: 2
• Opis fizyczny: p.449-456,ref.

Twórcy

autor

Han N.J.

• Institute of Zoology, and Graduate University of Chinese Academy of Sciences, 100101, Beijing, China

autor

Zhang J. S.

• Institute of Zoology, and Graduate University of Chinese Academy of Sciences, 100101, Beijing, China

autor

Reardon T.

• Evolutionary Biology Unit/Vertebrates, South Australian Museum, North Terrace, Adelaide SA 5000, Australia

autor

Lin L. K.

• Department of Life Science, Tunghai University, Taichung, 40704, Taiwan, China

autor

Zhang J. P.

• School of Life Science, East China Normal University, 200062, Shanghai, China

autor

Zhang S. Y.

• School of Life Science, East China Normal University, 200062, Shanghai, China

Bibliografia

• 1. A. Ärnbäck-Christie Linde 1908. A collection of bats from Formosa. The Annals and Magazine of Natural History, 8(2): 235–238. Google Scholar
• 2. R. J. Baker , and R. D. Bradley . 2006. Speciation in mammals and the genetic species concept. Journal of Mammalogy, 87: 643–662. Google Scholar
• 3. F. J. Bonaccorso 1998. Bats of Papua New Guinea. Conservation International, Washington D.C., 490 pp. Google Scholar
• 4. R. D. Bradley , and R. J. Baker . 2001. A test of the genetic species concept: cytochrome-b sequences and mammals. Journal of Mammalogy, 82: 960–973. Google Scholar
• 5. S. Churchill 2008. Australian bats, 2nd edition. Allen & Unwin, Crows Nest, N.S.W., Australia, 255 pp. Google Scholar
• 6. S. J. B. Cooper , P. R. Day , T. B. Reardon , and M. Schulz . 2001. Assessment of species boundaries in Australian Myotis (Chiroptera: Vespertilionidae) using mitochondrial DNA. Journal of Mammalogy, 82: 328–338. Google Scholar
• 7. G. B. Corbet , and J. E. Hill . 1992. The mammals of the Indomalayan region: a systematic review. Natural History Museum and Oxford University Press, Oxford, 488 pp. Google Scholar
• 8. J. R. Ellerman , and T. C. S. Morrison-Scott . 1951. Checklist of Palaearctic and Indian mammals 1758 to 1946. Trustees of the British Museum (Natural History), London, 810 pp. Google Scholar
• 9. B. Ewing , L. Hillier , M. C. Wendl , and P. Green . 1998. Base-calling of automated sequencer traces using phred. I. Accuracy assessment. Genome Research, 8: 175–185. Google Scholar
• 10. J. Felsenstein 1993. PHYLIP version 3.5. Distributed by the author. Department of Genetics, University of Washington, Seattle. Google Scholar
• 11. J. S. Findley 1972. Phenetic relationships among bats of the genus Myotis. Systematic Zoology, 21: 31–52. Google Scholar
• 12. N. Galtier , M. Gouy , and C. Gautier . 1996. SEAVIEW and PHYLO_WIN: two graphic tools for sequence alignment and molecular phylogeny. Computer Applications in the Biosciences, 12: 543–548. Google Scholar
• 13. W. L. Gannon , R. S. Sikes , and The Animal Care and Use Committee of the American Society of Mammalogists . 2007. Guidelines of the American Society of Mammalogists for the use of wild animals in research. Journal of Mammalogy, 88: 809–823. Google Scholar
• 14. S. Guindon , and O. Gascuel . 2003. A simple, fast, and accurate algorithm to estimate large phylogenies by maximum likelihood. Systematic Biology, 52: 696–704. Google Scholar
• 15. S. Guindon , J. F. Dufayard , V. Lefort , M. Anisimova , W. Hordijk , and O. Gascuel . 2010. New algorithms and methods to estimate maximum-likelihood phylogenies: assessing the performance of PhyML 3.0. Systematic Biology, 59: 307–321. Google Scholar
• 16. J. E. Hill 1983. Bats (Mammalia: Chiroptera) from Indo-Australia. Bulletin of the British Museum (Natural History), Zoology Series, 45: 103–208. Google Scholar
• 17. K. Kawai , M. Nikaido , M. Harada , S. Matsumura , L.-K. Lin , Y. Wu , M. Hasegawa , and N. Okada . 2003. The status of the Japanese and East Asian bats of the genus Myotis (Vespertilionidae) based on mitochondrial sequences. Molecular Phylogenetics and Evolution, 28: 297–307. Google Scholar
• 18. F. A. A. Khan , V. J. Swier , S. Solari , P. A. Larson , B. Ketol , W. Marni , S. Ellagupillay , M. Lakim , M. T. Abdullah , and R. J. Baker . 2008. Using genetics and morphology to examine species diversity of Old World bats: report of a recent collection from Malaysia. Occasional Papers of the Museum of Texas Tech University, 281: 1–28. Google Scholar
• 19. D. J Kitchener , N. Cooper , and I. Maryanto . 1995. The Myotis adversus (Chiroptera: Vespertilionidae) species complex in Eastern Indonesia, Australia, Papua New Guinea and the Solomon Islands. Records of the Western Australian Museum, 17: 191–212. Google Scholar
• 20. K. F. Koopman 1993. Order Chiroptera. Pp. 137–241, in Mammal species of the World: a taxonomic and geographic reference, 2nd edition ( D. E. Wilson and D. M. Reeder , eds. ). Smithsonian Institution Press, Washington D.C., 1206 pp. Google Scholar
• 21. K. F. Koopman 1994. Chiroptera: systematics. Handbook of Zoology. Volume 8, Mammalia, Part 60. Walter de Gruyter, Berlin, 217 pp. Google Scholar
• 22. B. K. Lim , M. D. Engstrom , J. W. Bickham , and J. C. Patton . 2008. Molecular phylogeny of New World sheath-tailed bats (Emballonuridae: Diclidurini) based on loci from the four genetic transmission systems in mammals. Biological Journal of the Linnean Society, 93: 189–209. Google Scholar
• 23. L.-K. Lin , L.-L. Lee , and H.-C. Cheng . 1997. Bats of Taiwan. National Museum of Natural Science, Taichung, 178 pp. [in Chinese with English abstract]. Google Scholar
• 24. L.-K. Lin , M. Motokawa , and M. Harada . 2002. Karyology of ten vespertilionid bats (Chiroptera: Vespertilionidae) from Taiwan. Zoological Studies, 41: 347–354. Google Scholar
• 25. L.-K. Lin , L.-L. Lee , and H.-C. Cheng . 2004. Bats of Taiwan, 2nd edition. National Museum of Natural Science, Taichung, 177 pp. [in Chinese with English abstract]. Google Scholar
• 26. Y. Liu , D. Dong , N.-J. Han , H.-B. Zhao , J.-S. Zhang , G. Li , P. A. Racey , and S.-Y. Zhang . 2009. Molecular cloning and evolutionary analysis of hemoglobin α-chain genes in bats. Biochemical Genetics, 47: 257–265. Google Scholar
• 27. C. A. Matthee , B. Jansen Van Vuuren , D. Bell , and T. J. Robinson . 2004. A molecular supermatrix of the rabbits and hares (Leporidae) allows for the identification of five intercontinental exchanges during the Miocene. Systematic Biology, 53: 433–447. Google Scholar
• 28. Oxford Molecular Group. 1998. AssemblyLIGN. Version 1.0.9. Oxford Molecular Group PLC, Oxford, UK. Google Scholar
• 29. E. Petit , L. Excoffier , and F. Mayer . 1999. No evidence of bottleneck in the postglacial recolonisation of Europe by the noctule bat (Nyctalus noctula). Evolution, 53: 1247–1258. Google Scholar
• 30. D. Posada 2008. jModelTest: phylogenetic model averaging. Molecular Biology and Evolution, 25: 1253–1256. Google Scholar
• 31. G. C. Richards , G. A. Hoye , L. F. Lumsden , and D. J. Milne . 2008. Large-footed Myotis, Myotis macropus. Pp. 544–545, in The mammals of Australia, 3rd edition ( S. Van Dyck and R. Strahan , eds. ). New Holland Publishers (Australia) Pty. Ltd., Sydney, Australia, 887 pp. Google Scholar
• 32. F. Ronquist , and J. P. Huelsenbeck . 2003. MrBayes 3: Bayesian phylogenetic inference under mixed models. Bioinformatics, 19: 1572–1574. Google Scholar
• 33. R. M. Rodriguez , and L. K. Ammerman . 2004. Mitochondrial DNA divergence does not reflect morphological difference between Myotis californicus and Myotis ciliolabrum. Journal of Mammalogy, 85: 842–851. Google Scholar
• 34. M. Ruedi , and F. Mayer . 2001. Molecular systematics of bats of the genus Myotis (Vespertilionidae) suggests deterministic ecomorphological convergences. Molecular Phylogenetic and Evolution, 21; 436–148. Google Scholar
• 35. P. Salgueiro , M. Ruedi , M. M. Coelho , and J. M. Palmeirim . 2007. Genetic divergence and phylogeography in the genus Nyctalus (Mammalia, Chiroptera): implications for population history of the insular bat Nyctalus azoreum. Genetica, 130: 169–181. Google Scholar
• 36. N. B. Simmons 2005. Order Chiroptera. Pp. 312–525, in Mammal species of the World: a taxonomic and geographic reference, 3rd edition ( D. E. Wilson and D. M. Reeder , eds. ). The Johns Hopkins University Press, Baltimore, 2142 pp. Google Scholar
• 37. B. Stadelmann , L.-K. Lin , T. H. Kunz , and M. Ruedi . 2007. Molecular phylogeny of New World Myotis (Chiroptera, Vespertilionidae) inferred from mitochondrial and nuclear DNA genes. Molecular Phylogenetics and Evolution, 43: 32–48. Google Scholar
• 38. D. L. Swofford 2002. PAUP*: Phylogenetic analysis software using parsimony (µand other methods). Version 4. Sinauer Associates Inc. Publishers, Sunderland, MA. Google Scholar
• 39. K. Tamura , J. Dudley , M. Nei , and S. Kumar . 2007. MEGA4: molecular evolutionary genetics analysis (MEGA) software version 4.0. Molecular Biology and Evolution, 24: 1596–1599. Google Scholar
• 40. G. H. H. Tate 1941. Results of the Archbold expeditions. No. 39. Review of Myotis of Eurasia. Bulletin of the American Museum of Natural History, 78: 537–565. Google Scholar
• 41. J. D. Thompson , T. J. Gibson , F. Plewniak , F. Jeanmougin , and D. G. Higgins . 1997. The ClustalX Windows interface: flexible strategies for multiple sequence alignment aided by quality analysis tools. Nucleic Acids Research, 24: 4876–4882. Google Scholar
• 42. Y. X. Wang 2003. A complete checklist of mammal species and subspecies in China (A taxonomic and geographic reference). China Forestry Publishing House, Beijing, China, 394 pp. Google Scholar
• 43. D. E. Wilson 2008. Order Chiroptera. Pp. 327–387, in A guide to the mammals of China ( A. T. Smith and Y. Xie , eds. ). The Princeton University Press, Princeton, 576 pp. Google Scholar
• 44. J.-S. Zhang , N.,-J. Han , G. Jones , L.-K. Lin , J.-P. Zhang , G.-J. Zhu , D.-W. Huang , and S.-Y. Zhang . 2007. A new species of Barbastella (Chiroptera: Vespertilionidae) from north China. Journal of Mammalogy, 88: 1393–1403. Google Scholar
• 45. L.-B. Zhang , G. Jones , J.-S. Zhang , G.-J. Zhu , S. Parsons , S. J. Rossiter , and S.-Y. Zhang . 2009. Recent surveys of bats (Mammalia: Chiroptera) from China. I. Rhinolophidae and Hipposideridae. Acta Chiropterologica, 11: 71–88. Google Scholar

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