Smaller effective population sizes evidenced by loss of microsatellite alleles in tributary-spawning populations of sockeye salmon from the Kvichak River, Alaska drainage

We tested signals of historical reductions in effective population size within populations of sockeye salmon Oncorhynchus nerka returning to Bristol Bay, Alaska, to examine the roles that ecotype, migration obstacles, and drainage might play in the highly variable production of the Kvichak River drainage. We collected data for eight microsatellite loci from similar to 100 fish at each of 16 locations within the Kvichak River drainage and five locations within the more productively stable Naknek River drainage. Pair-wise exact tests were used to group similar collections within ecotype, within drainage, and above and below migration obstacles. After grouping, collections represented independent populations for further analyses. We examined the number of alleles per locus, mean ratio of the number of alleles to the range in allele size, heterozygosity excess, and gametic disequilibrium as measures of reduction-in-population-size events. Number of alleles per locus revealed the largest number of significant differences. Tributary populations showed a stronger signal consistent with reduced effective population size than did beach populations within the Kvichak River drainage. Kvichak River drainage populations showed a stronger signal consistent with reduced effective population size than did the Naknek River drainage populations. Populations above migration obstacles showed signals consistent with reduction in historical population sizes in multiple measures indicating some of these reductions may be severe enough to qualify as demographic bottlenecks.