Abstract
BackgroundReduction of genetic diversity can lead to reduced fitness of species, such as the loss of adaptability to changing environments. The native Eurasian beaver (Castor fiber) was hunted to extinction from Finland and many other countries in Europe in the nineteenth century. In Finland, the species was re-introduced in the 1930s with only a few individuals from Norway. Re-introductions were performed also in other countries of northern Europe and as a result, Eurasian beaver populations have undergone population bottlenecks leading to low levels of genetic diversity.Materials and MethodsHere, 200 Eurasian beaver samples from Finland, Estonia, Lithuania, and Russian Karelia were investigated using 12 microsatellite markers to examine the level of genetic diversity and relationship between the populations.ResultsWhile Russian and Estonian populations were genetically the closest, the Finnish population was clearly distinct from all others and had the lowest genetic variability among the study populations. This may be deleterious to the population especially in a changing environment.ConclusionsGenetic rescue could be the best solution to increase the genetic diversity and improve the future prospects of the population, although more studies are required to resolve the optimal source population.
Highlights
Genetic polymorphism increases the chances of species survival in changing environments
52 12 10 0.42 (s.d. 0.20) 0.49 (s.d. 0.22) 1 the Lithuanian populations: the Finnish population was homozygous for seven out of twelve microsatellite markers whereas the Lithuanian population was homozygous for only one microsatellite
Our main results support the hypothesis that the Eurasian beaver population in Finland has a lower degree of genetic diversity than populations in Russian Karelia and the Baltic states
Summary
Genetic polymorphism increases the chances of species survival in changing environments. A species can be very well adapted to prevailing environmental conditions, sudden environmental changes can be detrimental unless there is enough genetic potential for adaptation (Nolet and Rosell 1998; Somero 2010). Natural- or human-mediated introductions of species into new areas usually involve only a small number of individuals. This can result in low levels of genetic polymorphism and an. Re-introductions were performed in other countries of northern Europe and as a result, Eurasian beaver populations have undergone population bottlenecks leading to low levels of genetic diversity. Materials and Methods Here, 200 Eurasian beaver samples from Finland, Estonia, Lithuania, and Russian Karelia were investigated using 12 microsatellite markers to examine the level of genetic diversity and relationship between the populations
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