Abstract
Genetic tools are often used to define stocks for fisheries management, however, traditional approaches using neutral markers may be inadequate for detecting fine-scale structure when populations have recently diverged. Kokanee Oncorhynchus nerka is a freshwater form of sockeye salmon that exhibits divergent reproductive ecotypes. We used a combination of expressed sequence tag (EST)-linked and non-EST-linked microsatellites to investigate kokanee stock structure and ecotype differentiation in Kootenay Lake, British Columbia. Despite being highly informative in other lakes in the province, the EST-linked loci used in this study did not exhibit outlier behavior relative to neutral loci for distinguishing shore-spawning and stream-spawning ecotypes. We found conflicting evidence for differentiation between ecotypes and strong evidence for geographical structure corresponding to the North Arm and West Arm of Kootenay Lake. These results are consistent with previous findings that neutral markers are not sufficient for resolving fine-scale ecotype differentiation in kokanee; additional studies are necessary to investigate the degree to which an outlier-based approach to kokanee fisheries management can be applied at a broader level.
Received September 29, 2011; accepted December 21, 2011
ACKNOWLEDGMENTS
Trevor Oussoren (BC Hydro) contributed important feedback associated with this work. Paul Askey (British Columbia Ministry of Environment) offered valuable background information regarding this system. Jeff Burrows (British Columbia Ministry of Environment) and BC Hydro provided the tissue samples. Karen Frazer offered valuable insights into marker selection and analysis. Suggestions from three anonymous reviewers improved this manuscript. Funding was provided by BC Hydro (Agreement Number EC10-408956) and a Natural Sciences and Engineering Research Council Discovery Grant (Number 341711-07 to M.R.).