Abstract
BackgroundAnalyses of the control region sequences of European brown trout populations’ mitrochondrial DNA have revealed five main evolutionary lineages (Atlantic, Danubian, Mediterranean, Adriatic, Marble) mostly relating to the main water basins; however, the hybridization between lineages were increasingly reported. Due to the hydrogeography of Hungary, wild populations should theoretically belong to the Danubian lineage, however, this has not been verified by genetic studies.MethodsIn our study multiple molecular marker sets (mitochondrial sequence, microsatellites, PCR-RFLP of nuclear markers and sex marker) were used to investigate the genetic composition and population genetics of the brown trout populations in two broodstocks, six wild streams in Hungary and one Serbian population.ResultsThe admixture of Atlantic and Danubian lineages in these populations, except the Serbian population with pure Danubian origin, was observed by control region sequences of mitochondrial DNA and PCR-RFLP markers in the nuclear genome, and one unpublished Danubian haplotype was found in Hungarian populations. A sex-specific marker revealed equal gender ratio in broodstocks and Kemence stream, whereas in other wild streams the proportion of female individuals were less than 50%. Structure and principal component analyses based on the alleles of microsatellite loci also revealed overlapping populations, however the populations were still significantly different from each other and were mostly in Hardy-Weinberg equilibrium.DiscussionStocking and migration can have a significant genetic impact on trout populations of wild streams, however there are no guidelines or common practices for stocking of small streams in Hungary, thus the genetic background of these populations should be considered when developing conservation actions.
Highlights
The family Salmonidae consists of three subfamilies (Coregoninae, Thymallinae and Salmoninae), which include a diverse group of fishes with sixty-eight species (Nelson, 2006)
The genetic background of farmed broodstocks are partly known and the results revealed that they are of mixed Atlantic and Danubian origin (Horváth et al, 2014)
Digested fragment-length analysis of control region (CR) mtDNA revealed the pure Danubian origin of the Serbian control population, whereas the Atlantic lineage were found in all Hungarian sites (Table 3)
Summary
The family Salmonidae consists of three subfamilies (Coregoninae, Thymallinae and Salmoninae), which include a diverse group of fishes with sixty-eight species (Nelson, 2006). In order to investigate the evolutionary history and phylogenetic relationships of this species, it was analysed by numerous molecular genetic markers and methods, including allozymes (Osinov, 1984; García-Marín & Pla, 1996), RFLPs (restriction fragment length polymorphism) (Morán, Pendás & García-Vázquez, 1996), PCR-RFLP (Marić et al, 2006a), microsatellite markers (Presa & Guyomard, 1998; Lerceteau-Köhler & Weiss, 2006), sequencing analyses of mitochondrial DNA (Bernatchez, Guyomard & Bonhomme, 1992; Giuffra, Bernatchez & Guyomard, 1994) as well as using of high-throughput techniques such as single nucleotide polymorphism analysis (Pustovrh, Snoj & Bajec, 2011; Sušnik Bajec et al, 2015) and next-generation sequencing (Sahoo et al, 2016) These studies have identified that the genetic background of European brown trout populations was related to various hydrogeographical areas. Stocking and migration can have a significant genetic impact on trout populations of wild streams, there are no guidelines or common practices for stocking of small streams in Hungary, the genetic background of these populations should be considered when developing conservation actions
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