Human-mediated translocations of species beyond their native ranges can enhance evolutionary processes in populations introduced to novel environments. We studied such processes in several generations of pink salmon Oncorhynchus gorbuscha introduced to the European North of Russia using a set of morphological and life-history traits as well as molecular genetic markers with different selective values: protein-coding loci, mtDNA, microsatellites, and MHC. The introduction of reproductively isolated pink salmon broodlines of odd and even years yielded different results. The odd-year broodline established self-reproducing local populations in many rivers of new range, but sustainable changes in external morphology, reproduction, and life-history, as well as the impoverishment of the gene pool occurred. Their successful colonisation of the new range resulted in specialisation manifested in the rapid directional shifts in some highly heritable phenotypic traits accompanied by increased homozygosity at molecular markers as a consequence of genetic drift and selective processes. The returns of transplanted pink salmon of even-year broodline decreased sharply already in the second generation, but there was no marked reduction of genetic diversity. Our data, as well as the analysis of the history of all pink salmon transplantations beyond the species range, demonstrate comparatively greater success of introduced odd-year broodline and permit to assume different adaptive plasticity of the even-and odd-year broodlines in pink salmon, what is most likely determined by differences in their evolutionary histories. Population genetic data suggest that the evenyear broodline probably diverged from the odd-year broodline relatively recently and, due to the founder effect, may have lost a part of its genetic variation with which adaptive plasticity potential is associated.
Chars of the genus Salvelinus , inhabiting lakes and lake-river systems, comprise morphological and ecological forms whose taxonomic status is under dispute. In the present work, we have examined genetic variation and divergence in various chars from the Kronotsky lake basin: the lacustrine chars (white, nose, and longhead) and riverine Dolly Varden Salvelinus malma. The study was conducted using analysis of allozyme and microsatellite loci, myogens, RAPD, and restriction analysis of two mtDNA segments. The estimates of heterozygosity at allozyme and microsatellite loci were similar to the corresponding parameters in populations of northern Dolly Varden and Arctic char. Heterozygote deficit was recorded in both samples of separate forms, and in the total sample of all chars from Kronotsky Lake. For allozyme and microsatellite loci, appreciable genetic differentiation among the samples of different char forms was found, which was comparable to that among the spatially isolated populations of northern Dolly Varden. This result indicates reproductive isolation among the char forms examined. However, this isolation is not complete, because no fixed differences between the forms by any of the genetic systems analyzed were found. The genetic differentiation among different forms of lacustrine chars, which corresponds to the interpopulation rather than interspecific level, is thought to be explained by their comparatively recent divergence. PLANT GENETICS
Genetic differences and relationships within charrs Salvelinus alpinus, northern and southern S. malma, S. taranetzi, S. levanidovi and S. leucomaenis, were studied by examination of 31-35 allozyme loci and PCR-RFLP analysis of mtDNA segment (about 2600 bp) including the cytochrome b gene and D-loop. Data for mtDNA were also obtained for samples of S. drjagini, S. albus and for European samples of S. alpinus. Generally allozyme and mtDNA segment analyses produced similar pictures of genetic divergence and relationships. The southern S. malma exhibited the greatest genetic variability (allozyme heterozygosity and mtDNA haplotype diversity). S. alpinus, S. malma, S. levanidovi and S. leucomaenis had fixed differences from one another at various allozyme loci, and differed in fixed (but polymorphic in S. malma) individual mtDNA haplotypes produced with MspI restrictase. Such genetic individuality is typical of distinct taxa. S. taranetzi is closest genetically to allopatric S. alpinus, but exhibited fixed differences from the northern S. malma in sympatry. In all samples of S. alpinus the only mtDNA haplotype was shared with S. drjagini. S. albus shared its single haplotype with the northern S. malma from the same locality. S. leucomaenis is differentiated from the other species to the greatest extent, possibly reflecting an early evolutionary divergence. Some evolutionary and taxonomic implications of the genetic relationships of charrs studied are discussed. 2000 The Fisheries Society of the British Isles
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