66 research outputs found
Phylogeographic history of grey wolves in Europe
Background: While it is generally accepted that patterns of intra-specific genetic differentiation are substantially
affected by glacial history, population genetic processes occurring during Pleistocene glaciations are still poorly
understood. In this study, we address the question of the genetic consequences of Pleistocene glaciations for
European grey wolves. Combining our data with data from published studies, we analysed phylogenetic relationships
and geographic distribution of mitochondrial DNA haplotypes for 947 contemporary European wolves. We also
compared the contemporary wolf sequences with published sequences of 24 ancient European wolves.
Results: We found that haplotypes representing two haplogroups, 1 and 2, overlap geographically, but substantially
differ in frequency between populations from south-western and eastern Europe. A comparison between haplotypes
from Europe and other continents showed that both haplogroups are spread throughout Eurasia, while only
haplogroup 1 occurs in contemporary North American wolves. All ancient wolf samples from western Europe that
dated from between 44,000 and 1,200 years B.P. belonged to haplogroup 2, suggesting the long-term predominance
of this haplogroup in this region. Moreover, a comparison of current and past frequencies and distributions of the two
haplogroups in Europe suggested that haplogroup 2 became outnumbered by haplogroup 1 during the last several
thousand years.
Conclusions: Parallel haplogroup replacement, with haplogroup 2 being totally replaced by haplogroup 1, has been
reported for North American grey wolves. Taking into account the similarity of diets reported for the late Pleistocene
wolves from Europe and North America, the correspondence between these haplogroup frequency changes may
suggest that they were associated with ecological changes occurring after the Last Glacial Maximum
Widespread, long-term admixture between grey wolves and domestic dogs across Eurasia and its implications for the conservation status of hybrids
Hybridisation between a domesticated species and its wild ancestor is an important conservation problem, especially if it results in the introgression of domestic gene variants into wild species. Nevertheless, the legal status of hybrids remains unregulated, partially because of the limited understanding of the hybridisation process and its consequences. The occurrence of hybridisation between grey wolves and domestic dogs is well-documented from different parts of the wolf geographic range, but little is known about the frequency of hybridisation events, their causes and the genetic impact on wolf populations. We analysed 61K SNPs spanning the canid genome in wolves from across Eurasia and North America and compared that data to similar data from dogs to identify signatures of admixture. The haplotype block analysis, which included 38 autosomes and the X chromosome, indicated the presence of individuals of mixed wolf-dog ancestry in most Eurasian wolf populations, but less admixture was present in North American populations. We found evidence for male-biased introgression of dog alleles into wolf populations, but also identified a first-generation hybrid resulting from mating between a female dog and a male wolf. We found small blocks of dog ancestry in the genomes of 62% Eurasian wolves studied and melanistic individuals with no signs of recent admixed ancestry, but with a dog-derived allele at a locus linked to melanism. Consequently, these results suggest that hybridisation has been occurring in different parts of Eurasia on multiple timescales and is not solely a recent phenomenon. Nevertheless, wolf populations have maintained genetic differentiation from dogs, suggesting that hybridisation at a low frequency does not diminish distinctiveness of the wolf gene pool. However, increased hybridisation frequency may be detrimental for wolf populations, stressing the need for genetic monitoring to assess the frequency and distribution of individuals resulting from recent admixture
Analyses of least cost paths for determining effects of habitat types on landscape permeability: wolves in Poland
Determining ecological corridors is crucial for conservation efforts in fragmented habitats. Commonly employed least cost path (LCP) analysis relies on the underlying cost matrix. By using Ecological Niche Factor Analysis, we minimized the problems connected with subjective cost assessment or the use of presence/absence data. We used data on the wolf presence/absence in Poland to identify LCPs connecting patches of suitable wolf habitat, factors that influence patch occupancy, and compare LCPs between different genetic subpopulations. We found that a lower proportion of cities and roads surrounds the most densely populated patches. Least cost paths between areas where little dispersal takes place (i.e., leading to unpopulated patches or between different genetic subpopulations) ran through a higher proportion of roads and human settlements. They also crossed larger maximal distances over deforested areas. We propose that, apart from supplying the basis for direct conservation efforts, LCPs can be used to determine what factors might facilitate or hinder dispersal by comparing different subsets of LCPs. The methods employed can be widely applicable to gain more in-depth information on potential dispersal barriers for large carnivores
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