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Range-wide and temporal genomic analyses reveal the consequences of near-extinction in Swedish moose

Nicolás Dussex, Sara Kurland, Remi‐André Olsen, Göran Spong, Göran Ericsson, Robert Ekblom, Nils Ryman, Love Dalén, Linda Laikre

2023Communications Biology16 citationsDOIOpen Access PDF

Abstract

Ungulate species have experienced severe declines over the past centuries through overharvesting and habitat loss. Even if many game species have recovered thanks to strict hunting regulation, the genome-wide impacts of overharvesting are still unclear. Here, we examine the temporal and geographical differences in genome-wide diversity in moose (Alces alces) over its whole range in Sweden by sequencing 87 modern and historical genomes. We found limited impact of the 1900s near-extinction event but local variation in inbreeding and load in modern populations, as well as suggestion of a risk of future reduction in genetic diversity and gene flow. Furthermore, we found candidate genes for local adaptation, and rapid temporal allele frequency shifts involving coding genes since the 1980s, possibly due to selective harvesting. Our results highlight that genomic changes potentially impacting fitness can occur over short time scales and underline the need to track both deleterious and selectively advantageous genomic variation.

Topics & Concepts

OverexploitationBiologyInbreedingEvolutionary biologyExtinction (optical mineralogy)Range (aeronautics)Local adaptationUngulateGenetic diversityEcologyGene flowGenetic driftGenetic variationBalancing selectionGeographyHabitatPopulationGeneticsGeneDemographyMaterials scienceSociologyComposite materialPaleontologyGenetic diversity and population structureEvolution and Genetic DynamicsGenetic and phenotypic traits in livestock
Range-wide and temporal genomic analyses reveal the consequences of near-extinction in Swedish moose | Litcius