Pacific salmon hatcheries aim to supplement declining wild populations and support commercial and recreational fisheries. However, there are also risks associated with hatcheries because the captive and wild environments are inherently different. It is important to understand these risks in order to maximize the success of hatcheries. Inbreeding, which occurs when related individuals interbreed, is one risk that may inadvertently be higher in hatcheries due to space limitations and other factors. Inbred fish may have reduced fitness and survival compared to non-inbred fish. We quantified inbreeding and its effect on key fitness traits across four generations in two hatchery populations of adult Chinook salmon that were derived from the same source. We utilized recent advancements in DNA sequencing technology, which provide much more precise estimates of inbreeding and its potential effects on fitness. Our results indicate that inbreeding may not be severe in salmon hatcheries, even small ones, provided that appropriate management practices are followed. However, we documented an influence of inbreeding on the phenology of adult spawners, which could have biological implications for individual fitness and population productivity. Our findings provide a better understanding of changes that may occur in hatchery salmon and will further inform research on “best” hatchery practices to minimize potential risks.
Article: Waters CD, Hard JJ, Fast DE, Knudsen CM, Bosch WJ, Naish KA. 2020. Genomic and phenotypic effects of inbreeding across two different hatchery management regimes in Chinook salmon. Molecular Ecology https://doi.org/10.1111/mec.15356