We report on the assessment of the level of genetic diversity of the capercaillie in Belarus. This species of birds is a valuable biological resource, and also acts as a natural indicator for the state of large forests and the degree of their disturbance by human activities. Two subspecies of the capercaillie —Tetrao urogallus major (C. L. Brehm, 1831) and Tetrao urogallus pleskei (Stegmann, 1926) have been described for Belarus. The first domain of the mitochondrial DNA control region was used as the molecular marker for the study. An additional assessment of the level of genetic diversity of the capercaillie was carried out by calculating the effective size of its population (Ne) in Belarus. We found that the absence of subspecific structure is characteristic for all samples of the capercaillie from Belarus. The data on the intraspecific structure and genetic diversity of the capercaillie from Belarus allows us to considerits population in the central and eastern parts of the country as stable and sustainable. This can be explained by its inclusion in the general phylogeographic structure of birds of the boreal lineage. The low values of the effective population size for the partially isolated capercaillie population from the western part of the country indicate the need for increased attention and further monitoring of that population.
American mink (Neovison vison) is both a problematic invader and an economically valuable fur breed species in Belarus. The increasing scale of mink breeding for fur and the growing impact of this invasive species on the local ecosystems requires sound, novel strategies for managing both farm and wild populations. Containment of wild American mink populations under the effects of possible migration from the fur farms could be especially problematic. With that issue in mind, we have used microsatellite analysis todetermine the genetic polymorphism in two color breeds of farm-bred American mink in the populations of several Belorussian model fur farms, as well as the same characteristics for the feral populations on the territories adjacent to said fur farms. We confirm the presence of effective influx of mink into the wild from fur farms, determined through the means of analyzing microsatellite genotype data of feral and farm populations.
Hybridisation with domestic species is one of the prominent threats to conser-vation of numerous valuable species in Belarus, in particular the grey wolf (Canis lupus Linnaeus, 1758), the population of which has previously shown unusually divergent genotypes, indicating a possible admixture with free-ranging dogs (Canis lupus familiaris Linnaeus, 1758). Such admixture could threaten the future of the species already weakened by anthropogenic pressure. Reports of hybrids in Belarus based on morphological characteristics have been steadily increasing in frequency since 2010, which can be tied with a growing food availability for feral dogs and low population density of grey wolf facili-tating hybridisation. A limited number of genetic studies with sampling that partially covered Belarus did not detect any traces of hybridisation. Here we report our estimate of genetic diversity in the Belarusian population of grey wolf according to control region (D-loop) mtDNA sequence analysis. We ana-lysed tissue samples from 35 specimens harvested during legal hunts across 25 administrative districts from all 6 regions of Belarus between 2009 and 2022, with 9 of the specimens reported to have morphological characteristics of wolf–dog hybrids. We detected 6 haplotypes among those 35 specimens, 4 of which were found among the likely wolf–dog hybrids. Clade analysis of the obtained sequences with 100 confirmed sequences of wolves, dogs, and their hybrids from the NCBI Genbank database has shown the presence of possible wolf–dog hybrids in our sample. The Belarusian wolf population has shown a low nucleotide and a relatively high haplotype diversity. The discovered genet-ic diversity data of the Belarusian wolf population is mostly in line with studies of similar wolf populations across Europe. The persistence of large wolf meta-populations across Eastern Europe and Russia, combined with the high mobility of the animal, seems to be the probable cause of genetic diversity of wolf populations in Belarus, but some degree of wolf–dog hybridisation could also explain the observed genetic heterogeneity, which invites further research based on nuclear markers.
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