Mitochondrial DNA Variation in Black Rhinoceros (Diceros bicornis): Conservation Management Implications |
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Authors: | C O'Ryan JRB Flamand EH Harley |
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Institution: | Department of Chemical Pathology Medical School University of Cape Town Cape Town, South AfricaNatal Parks Board P.O. Box 456 Mtubatuba 5939 Natal, South AfricaDepartment of Chemical Pathology Medical School, University of Cape Town Observatory 7925 South Africa |
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Abstract: | Cell cultures have been established from 33 individual black rhinoceroses. These were from wild populations from various localities in southern Africa and include representatives from three geographical regions (southwestern, south-central, and eastern) corresponding to currently accepted conservation units, and include individuals previously attributed to one of the four subspecies, Diceros b. minor, D. b. bicornis, D. b. michaeli , and D. b. chobiensis (du Toit et al. 1987). Comparative mitochondrial DNA restriction maps were constructed using 16 restriction enzymes. These showed in each case two site differences between representative individuals from any two of the above geographical regions. Maps were monomorphic within geographical regions and, therefore, have the potential to provide diagnostic markers. The map from a single individual attributed to the D. b. chobiensis subspecies was identical to other individuals (attributed to D. b. minor ) in the south-central geographical region. The low amount of genetic diversity implied by these few differences renders it unlikely that problems with outbreeding depression will arise if, given the continuing decline in numbers of black rhinoceroses, it becomes necessary to supplement wild or captive populations with individuals from a different conservation unit in order to avoid inbreeding depression. |
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