We studied the distribution of the mitochondrial DNA haplotypes and microsatellite genotypes at 8 loci in 102 gray wolves, 57 livestock guarding dogs, and 9 mongrel dogs from Georgia (Caucasus). Most of the studied dogs had mitochondrial haplotypes clustered with presumably East Asian dog lineages, and most of the studied wolves had the haplotypes clustered with European wolves, but 20% of wolves and 37% of dogs shared the same mitochondrial haplotypes. Bayesian inference with STRUCTURE software suggested that more than 13% of the studied wolves had detectable dog ancestry and more than 10% of the dogs had detectable wolf ancestry. About 2-3% of the sampled wolves and dogs were identified, with a high probability, as first-generation hybrids. These results were supported by the relatedness analysis, which showed that 10% of wolves and 20% of dogs had closest relatives from an opposite group. The results of the study suggest that wolf-dog hybridization is a common event in the areas where large livestock guarding dogs are held in a traditional way, and that gene flow between dogs and gray wolves was an important force influencing gene pool of dogs for millennia since early domestication events. This process may have been terminated 1) in areas outside the natural range of gray wolves and 2) since very recent time, when humans started to more tightly control contacts of purebred dogs.
Aim
Genome‐wide genetic data can provide key input for both taxonomy and conservation, but its use in this context remains limited. In this study, we performed the first genome‐wide assessment of genetic variation in two populations of the Eurasian lynx, the Balkan population, the most threatened, and the Caucasian population, a possible glacial refugium, with the aim to place them in the context of the species, investigate their demographic history and evaluate their genetic status.
Location
The Balkans and the Caucasus.
Methods
We obtained whole genome resequencing data from seven Balkan and 12 Caucasian lynx, and analysed them along with novel and existing data from other populations. Based on a total 105 whole genome and 114 mitogenome sequences, we reconstructed phylogenetic and historical relationships, ancient and recent demography, and patterns of genetic diversity and inbreeding.
Results
Both the Balkan and the Caucasian lynx appear as distinct mitochondrial lineages that diverged from the rest of the Eurasian lynx lineages ca. 92.6 kya, and from each other ca. 46.4 kya. Autosomal data suggest, however, that the Balkan lynx is closely related with the Carpathian population, and revealing alarmingly low genetic diversity and high inbreeding. In contrast, the Caucasian lynx shows a longer history of relative isolation from the rest of lynx populations and high genetic diversity, consistent with its large long‐term effective population size.
Main conclusions
The taxonomic status of the Balkan lynx remains unresolved due to the evidence of long‐term isolation in the mitogenome, contrasting with extensive autosomal admixture and intense recent genetic drift in the nuclear genome. Our results alert on genetic risks and call for the consideration of genetic rescue from closely related Carpathian lynxes. In contrast, substantial mitogenomic and autosomal divergence with no signs of genetic drift supports the identification of the Caucasian lynx as a separate subspecies with good genetic health.
It has recently been suggested that goitered gazelles (Gazella subgutturosa and Gazella marica) have paraphyletic maternal origin, and that the mitochondrial cytochrome b gene fragment can be used for species identification prior to reintroduction of the gazelles. Although there is a large geographic area where the gazelles have intermediate morphology, previous researchers have not inferred any signs of mitochondrial haplotype introgression, and it is thought that the introgression, if it exists, is malebiased. We studied mitochondrial haplotypes of morphologically typical G. subgutturosa from two geographic locations. Goitered gazelles from eastern Turkey, morphologically identical to G. subgutturosa, had haplotypes identical to G. marica. This finding confirms ongoing maternal gene introgression from G. marica to G. subgutturosa. Our suggestion is that there is a natural gene flow between these two nominal species, and morphological characters together with recombinant genetic markers rather than mitochondrial DNA should be used to differentiate among individuals from areas close to the contact zone.
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