IUCN / SSC Cat Specialist Group - Digital Cat Library |
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| Luo, S.-J.; Kim, J.-H.; Johnson, W.E.; van der Walt, J.; Martenson, J.; Yuhki, N.; Miquelle, D.G.; Uphyrkina, O.; Goodrich, J.M.; Quigley, H.; Tilson, R.; Brady, G.; Martelli, P.; Subramaniam, V.; McDougal, C.; Hean, S.; Huang, S.-Q.; Pan, W.; Karanth, U.K.; Sunquist, M.; Smith, J.L.D.; O'Brien, S.J. | |
| Phylogeography and genetic ancestry of tigers (_Panthera tigris_) | |
| 2004 PLOS Biology (2): 2275-2293 | |
Eight traditional subspecies of tiger (_Panthera tigris_), of which three recently became extinct, are commonly recognized on the basis of geographic isolation and morphological characteristics. To investigate the species' evolutionary history and to establish objective methods for subspecies recognition, voucher specimens of blood, skin, hair, and/or skin biopsies from 134 tigers with verified geographic origins or heritage across the whole distribution range were examined for three molecular markers: (1) 4.0 kb of mitochondrial DNA (mtDNA) sequence; (2) allele variation in the nuclear major histocompatibility complex class II DRB gene; and (3) composite nuclear microsatellite genotypes based on 30 loci. Relatively low genetic variation with mtDNA, DRB, and microsatellite loci was found, but significant population subdivision was nonetheless apparent among five living subspecies. In addition, a distinct partition of the Indochinese subspecies _P. t. corbetti_ into northern Indochinese and Malayan Peninsula populations was discovered. Population genetic structure would suggest recognition of six taxonomic units or subspecies: (1) Amur tiger _P. t. altaica_; (2) northern Indochinese tiger _P. t. corbetti_; (3) South China tiger _P. t. amoyensis_; (4) Malayan tiger _P. t. jacksoni_, named for the tiger conservationist Peter Jackson; (5) Sumatran tiger _P. t. sumatrae_; and (6) Bengal tiger _P. t. tigris_. The proposed South China tiger lineage is tentative due to limited sampling. The age of the most recent common ancestor for tiger mtDNA was estimated to be 72,000-108,000 y, relatively younger than some other Panthera species. A combination of population expansions, reduced gene flow, and genetic drift following the last genetic diminution, and the recent anthropogenic range contraction, have led to the distinct genetic partitions. These results provide an explicit basis for subspecies recognition and will lead to the improved management and conservation of these recently isolated but distinct geographic populations of tigers. |
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