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Genomic basis of fishing-associated selection varies with population density

Amélie Crespel, Kevin Schneider, Toby Miller, Anita Rácz, Arne Jacobs, Jan Lindström, Kathryn R. Elmer, Shaun S. Killen

2021Proceedings of the National Academy of Sciences25 citationsDOIOpen Access PDF

Abstract

Fisheries induce one of the strongest anthropogenic selective pressures on natural populations, but the genetic effects of fishing remain unclear. Crucially, we lack knowledge of how capture-associated selection and its interaction with reductions in population density caused by fishing can potentially shift which genes are under selection. Using experimental fish reared at two densities and repeatedly harvested by simulated trawling, we show consistent phenotypic selection on growth, metabolism, and social behavior regardless of density. However, the specific genes under selection-mainly related to brain function and neurogenesis-varied with the population density. This interaction between direct fishing selection and density could fundamentally alter the genomic responses to harvest. The evolutionary consequences of fishing are therefore likely context dependent, possibly varying as exploited populations decline. These results highlight the need to consider environmental factors when predicting effects of human-induced selection and evolution.

Topics & Concepts

FishingSelection (genetic algorithm)BiologyNatural selectionEvolutionary biologyContext (archaeology)PopulationEffective population sizeEcologyGenetic variationGeneGeneticsDemographyPaleontologyComputer scienceArtificial intelligenceSociologyFish Ecology and Management StudiesMarine and fisheries researchMarine animal studies overview
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