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Selection against individuals from genetic introgression of escaped farmed salmon in a natural population of Atlantic salmon

Sebastian Wacker, Tonje Aronsen, Sten Karlsson, Ola Ugedal, Ola H. Diserud, Eva Marita Ulvan, Kjetil Hindar, Tor F. Næsje

2021Evolutionary Applications23 citationsDOIOpen Access PDF

Abstract

The viability of wild Atlantic salmon populations is threatened by genetic introgression from escaped farmed salmon. Farmed Atlantic salmon are genetically improved for important commercial traits and a life in captivity but are poorly adapted to the natural environment. The rate of gene flow from escaped farmed to wild salmon depends on their spawning success and on offspring survival at various life stages. We here investigate relative survival of introgressed juvenile Atlantic salmon (parr) in a river in northern Norway. The studied population has experienced genetic introgression from farmed salmon for about four generations (20 years). We followed two cohorts of parr from the year of hatching (0+) to the age of 2 years (2+). Farmed genetic introgression was quantified at the individual level and on a continuous scale using diagnostic SNPs. Population-level genetic introgression decreased from 0+ to 2+ by 64% (2011 cohort) and 37% (2013 cohort). This change was driven by a 70% (2011 cohort) and 49% (2013 cohort) lower survival from age 0+ to 2+ in introgressed parr compared to parr of wild origin. Our observations show that there is natural selection against genetic introgression with a potential cost of lower productivity.

Topics & Concepts

IntrogressionBiologyPopulationThreatened speciesJuvenileGene flowNatural selectionFisheryZoologyEcologyGenetic variationDemographyGeneticsGeneHabitatSociologyFish Ecology and Management StudiesGenetic and phenotypic traits in livestockReproductive biology and impacts on aquatic species
Selection against individuals from genetic introgression of escaped farmed salmon in a natural population of Atlantic salmon | Litcius