1. Patterns of Genetic Diversity in Remaining Giant Panda Populations
- Author
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Guanghan Li, Xiarong Mao, Janice S. Martenson, Stephen J. O'Brien, Marilyn Menotti-Raymond, Zheng Zhihe, Zhi Lü, Huang Shi-qiang, Susan Mainka, Naoya Yuhki, Wenshi Pan, and Warren E. Johnson
- Subjects
mtDNA control region ,Genetic diversity ,education.field_of_study ,Ecology ,biology ,Population ,Population genetics ,Gene flow ,Genetic marker ,Evolutionary biology ,biology.animal ,Genetic variability ,education ,Ecology, Evolution, Behavior and Systematics ,Nature and Landscape Conservation ,Ailuropoda melanoleuca - Abstract
The giant panda ( Ailuropoda melanoleuca ) is among the more familiar symbols of species conser- vation. The protection of giant panda populations has been aided recently by the establishment of more and better-managed reserves in existing panda habitat located in six mountain ranges in western China. These re- maining populations are becoming increasingly isolated from one another, however, leading to the concern that historic patterns of gene flow will be disrupted and that reduced population sizes will lead to diminished genetic variability. We analyzed four categories of molecular genetic markers (mtDNA restriction-fragment- length polymorphisms (RFLP), mtDNA control region sequences, nuclear multilocus DNA fingerprints, and mi- crosatellite size variation) in giant pandas from three mountain populations (Qionglai, Minshan, and Qin- ling) to assess current levels of genetic diversity and to detect evidence of historic population subdivisions. The three populations had moderate levels of genetic diversity compared with similarly studied carnivores for all four gene measures, with a slight but consistent reduction in variability apparent in the smaller Qinling population. That population also showed significant differentiation consistent with its isolation since historic times. From a strictly genetic perspective, the giant panda species and the three populations look promising insofar as they have retained a large amount of genetic diversity in each population, although evidence of re- cent population reduction—likely from habitat loss—is apparent. Ecological management to increase habi- tat, population expansion, and gene flow would seem an effective strategy to stabilize the decline of this en- dangered species.
- Published
- 2001