IMPLICATIONS FROM MITOCHONDRIAL-DNA FOR MANAGEMENT TO CONSERVE THE EASTERN BARRED BANDICOOT (PERAMELES GUNNII)

On mainland Australia the eastern barred bandicoot, Perameles gunnii, is confined to a relic wild population numbering less than 100 individuals in the city of Hamilton, Animals derived from this population are being bred in captivity in order to promote their recovery The species also exists in Tasmania, where little is known of its conservation and taxonomic status Mitochondrial DNA variability was compared within and between populations of p. gunnii using restriction fragment length polymorphisms. Genetic variability was found to be high among P. gunnii in Hamilton compared to those in Tasmania (higher diversity index, nucleotide sequence divergence and greater number of haplotypes), despite the known decline and subdivision of the Hamilton population Restriction fragment length polymorphisms distinguished animals from the east and the west of Hamilton and from the north and south of Tasmania Nucleotide sequence divergence was substantial (2.2-2.5%) between Hamilton and Tasmania Implications are that captive breeding and reintroduction should be designed to genetically, represent the structure within Hamilton in order to minimize inbreeding and that the introduction of Tasmanian P. gunnii would not benefit the Hamilton population It is concluded that mitochondrial DNA markers clearly can provide useful information about the history and current status of endangered marsupial populations, to the benefit of conservation management.