Browsing by Subject "linkage disequilibrium"

There is a naturally reproducing Atlantic salmon population in the River Teno in northern Norway and Finland. The Teno population has a strong population structure and up to 28 subpopulations have been recognized. Estimation of effective population size is important in conservation of the subpopulations. Effective population size tells about genetic variation of a population and is among the most important concepts in conservation genetics. In this study, current and past effective population sizes of 28 subpopulations were estimated from high density SNP-data for 1137 individuals in total. The estimation was done with the linkage disequilibrium method and the effects of using different assumptions were studied. Current estimated effective population sizes in subpopulations were generally low and ranged from around nine to 272 individuals. Only four populations had a current effective population size bigger than 50 individuals. Past effective population sizes showed a clear declining trend from the most distant generations in all populations. The choice between physical and linkage map as well as female, male or average linkage map had an effect to estimates. Also, different sample size corrections resulted in different estimates. Furthermore, effective population size was estimated with temporal method in three populations. It was detected that the estimates from temporal and linkage disequilibrium method were different from each other. The results of this study suggest that Teno Atlantic salmon subpopulations have declined over the past 150 generations and are in risk of losing genetic variation due to current low effective population size. This should be taken into account in conservation plans.