A peek into the population genetics of white teatfish (Holothuria fuscogilva) of Kenya's south coast.

BACKGROUND: The white teatfish, Holothuria fuscogilva, is widely distributed in coastal areas, including waters around coral reefs and seagrasses in the Indo-Pacific. In Kenya, the species is distributed in shallow reefs with higher landings reported from the Vanga-Shimoni-Gazi seascape on the Kenyan south coast. Despite its high exploitation for export and its vulnerable and endangered statuses under IUCN and CITES respectively, Kenya's H. fuscogilva populations and how they may have been impacted by the fishing pressure have not been studied. METHODS: We estimated the genetic diversity and structure of H. fuscogilva population conveniently sampled from three sites in Kenyan south coast using the mitochondrial cytochrome oxidase subunit I (COI) gene sequences. We recorded 30 haplotypes with 43 polymorphic sites across the population. Furthermore, we estimated an overall high haplotype diversity and low nucleotide diversity of estimates of h = 0.970 ± 0.013 and π = 0.010 ± 0.001 respectively. CONCLUSIONS: These preliminary findings suggest several population outcomes, among them a fit population, which require confirming with more comprehensive study to inform strategies for the sustainable exploitation and management of the species.

Conservation priorities in an endangered estuarine seahorse are informed by demographic history.

Historical demographic events shape genetic diversity that remains evident in the genomes of contemporary populations. In the case of species that are of conservation concern, this information helps to unravel evolutionary histories that can be critical in guiding conservation efforts. The Knysna seahorse, Hippocampus capensis, is the world's most endangered seahorse species, and it presently survives in only three estuaries on the South African south coast. Factors that contributed to the species becoming endangered are unclear; additionally, the lack of information on whether the three populations should be managed separately because of potential long-term isolation hampers effective management efforts. In the present study, we reconstructed the seahorses' demographic history using a suite of microsatellite loci. We found that the largest population (Knysna Estuary) has colonised the other estuaries relatively recently (< 450 years ago), and that its population size is comparatively large and stable. Neither of the other two populations shows signs of long-term reductions in population size. The high conservation status of the species is thus a result of its limited range rather than historical population declines. Our findings indicate that the long-term survival of H. capensis depends primarily on the successful management of the Knysna population, although the other estuaries may serve as reservoirs of genetic diversity.

Genetic diversity and spatial population structure of a deepwater snapper, Pristipomoides filamentosus in the south-west Indian Ocean.

The crimson jobfish, Pristipomoides filamentosus Valenciennes, 1830 is an economically important demersal species largely distributed in the Indo-Pacific region. Pristipomoides filamentosus constitutes a significant portion of catch landed in demersal fisheries throughout the species' distribution range. Despite the species' economic importance, there is insufficient data to guide the species' conservation management, especially within the south-western (SW) Indian Ocean region. The aims of the present study were to conduct a population genetic analysis to determine the spatial genetic structure of the species and, whether different management units could be established in the region, using an analysis of both mitochondrial DNA fragment (mtDNA), and nuclear microsatellite loci. A total of 193 fin clips were collected from Seychelles, Kenya, Tanzania, Comoros, Madagascar, Mauritius and South Africa, with each having an established fishery of the species. Both haplotype diversity (h) and expected heterozygosity (HE) for mtDNA and microsatellite loci respectively were generally high for all localities, except for Seychelles where both diversity indices were at the lowest (i.e. h = 0.429 ± 0.134; HE = 0.647 ± 0.059). Even though mtDNA failed to detect population differentiation, the hypervariable microsatellite loci consistently indicated presence of four genetic clusters irrespective of the clustering approach applied. Based on present results, we propose recognising the four clusters as distinct fisheries management units of the species in the SW Indian Ocean region.