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Deleterious Variation in Natural Populations and Implications for Conservation Genetics

Jacqueline A. Robinson, Christopher C. Kyriazis, Stella Yuan, Kirk E. Lohmueller

2022Annual Review of Animal Biosciences148 citationsDOIOpen Access PDF

Abstract

Deleterious mutations decrease reproductive fitness and are ubiquitous in genomes. Given that many organisms face ongoing threats of extinction, there is interest in elucidating the impact of deleterious variation on extinction risk and optimizing management strategies accounting for such mutations. Quantifying deleterious variation and understanding the effects of population history on deleterious variation are complex endeavors because we do not know the strength of selection acting on each mutation. Further, the effect of demographic history on deleterious mutations depends on the strength of selection against the mutation and the degree of dominance. Here we clarify how deleterious variation can be quantified and studied in natural populations. We then discuss how different demographic factors, such as small population size, nonequilibrium population size changes, inbreeding, and gene flow, affect deleterious variation. Lastly, we provide guidance on studying deleterious variation in nonmodel populations of conservation concern.

Topics & Concepts

BiologyEffective population sizeInbreedingNatural selectionEvolutionary biologyGenetic variationPopulationVariation (astronomy)Extinction (optical mineralogy)Mutation AccumulationGene flowInbreeding depressionQuantitative geneticsSelection (genetic algorithm)Population geneticsGeneticsMutation rateGeneDemographyPaleontologyComputer scienceAstrophysicsArtificial intelligenceSociologyPhysicsEvolution and Genetic DynamicsGenetic diversity and population structureChromosomal and Genetic Variations
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