Title
Phylogenetic reanalysis of the Saudi gazelle and its implications for conservation
Author(s)
Hammond R.L., Macasero W., Flores B., Mohammed O.B., Wacher T., Bruford M.W.
Published
2001
Publisher
Conservation Biology
Abstract
The identification of taxonomically appropriate populations of endangered species for captive breeding and reintroduction programs is fundamental to the success of those programs. The Saudi gazelle (Gazella saudiya) was endemic to the Arabian peninsula but is now considered extinct in the wild and is potentially a candidate for captive breeding and reintroduction. Using 375 base pairs of mitochondrial DNA (mtDNA) cytochrome b gene derived from museum samples collected from the wild prior to the presumed extinction of this species, we show that G. saudiya is the sister taxon of the African dorcas gazelle (G. dorcas). Reciprocal monophyly of G. saudiya mtDNA haplotypes with G. dorcas, coupled with morphological distinctiveness, suggests that it is an evolutionarily significant unit. These data indicate that captive populations identified previously as potential sources of G. saudiya for captive breeding appear incorrectly designated and are irrelevant to the conservation of G. saudiya. The polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) analysis of several private collections of living gazelles in Saudi Arabia provides no evidence for the survival of G. saudiya. We recommend that field surveys be undertaken to establish whether G. saudiya is indeed extinct in the wild and that other private collections within the Arabian peninsula be screened genetically. We urge caution when captive animals of unknown provenance are used to investigate the phylogenetics of cryptic species groups.
Keywords
breeding methods; captive breeding; endangered species; genetic screening; haplotype; mitochondrial DNA; monophyly; phylogenetic analysis; polymerase chain reaction; restriction fragment length polymorphism; Saudi Arabia; species conservation; species identification; wild relative; phylogenetics; population genetics; species conservation
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PUB12639