 Reference Base  The application of new technologies in conservation genetics |
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Labuschagne, Christiaan De Jager, 2016. The application of new technologies in conservation genetics. Thesis submitted for the degree Philosophiae Doctor (Ph.D.)in Genetics at the University of the Free State, pp. 1-147
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| Location: |
Africa - Southern Africa - South Africa |
| Subject: |
Genetics |
| Species: |
White Rhino |
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Over the past decade, the development of high-throughput DNA techniques has expanded the scope of conservation genetics and molecular markers have become indispensable tools for the management of wildlife species and populations. There are several molecular markers available for biodiversity analysis, but their selection depends on the objective of the study, the molecular information sought (and reliability thereof) and the facilities and/or resources available. In order to develop and apply new genetic techniques I have decided on using one bird and one mammal species of interest in South Africa. The bird species chosen is the African Penguin (Spheniscus demersus) which has suffered serious population declines and is listed in the IUCN Red Data Book as an endangered species. Due to world-wide attention to rhinoceros conservation and population decline, the white rhinoceros (Ceratotherium simum) was selected as mammal species. Three different markers and their utility in aid of South African wildlife biodiversity conservation were investigated in these diverse species. The complete mitochondrial genome of the African Penguin was sequenced. The Spheniscus demersus mtDNA genome is very similar, both in composition and length, to both the Eudyptes chrysocome and E. minor genomes. This is the first report of the complete nucleotide sequence for the mitochondrial genome of the African Penguin. These results can be subsequently used to provide information for penguin phylogenetic studies and insights into the evolution of genomes. Furthermore, the study reported eight species specific microsatellite markers as well as 31 SNP markers as new molecular tools for the investigation, management and reintroduction of African penguin. Utilising these new tools, the study generated molecular genetic information to verify/complement studbook-based pedigree data from ex-situ populations of African Penguin. In addition, we compared the relative and combined utility of MS and SNP markers for parentage assignment. We found that a combined subset of these two types of markers attained a > 99% correct cumulative parentage assignment probability. This study further reported on 34 novel SNP markers for the white rhinoceros, identified through sequencing of CATS loci as well as SNP enriched libraries. The utility of 33 Single Nucleotide Polymorphisms and 10 microsatellites in isolation and in combination for assigning parentage in captive white rhinoceros were compared. It was found that a combined dataset of SNPs and microsatellites was most informative and showed the highest confidence level. This study thus provides a useful set of SNP and MS markers for parentage and relatedness testing in white rhinoceros. Furthermore, assessment of the utility of SNP and MS markers over multiple (> three) generations and the incorporation of a larger variety of relationships among individuals (e.g. half-siblings or cousins) is strongly recommended. Developed SNP markers could be used to define the genetic mating system of this species, for forensic applications and to determine population structure and variability when other markers prove problematic.
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