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Fitness benefits of genetic rescue despite chromosomal differences in an endangered pocket mouse

Aryn P. Wilder, Debra M. Shier, Shauna N. D. King, Olga Dudchenko, Erik R. Funk, Ann Misuraca, Marlys L. Houck, William B. Miller, Caitlin Curry, Julie A. Fronczek, Ruqayya Khan, David Weisz, Robert N. Fisher, Erez Lieberman Aiden, Oliver A. Ryder, Cynthia Steiner

2025Science9 citationsDOI

Abstract

Two-thirds of Earth’s species have undergone population declines, leaving many vulnerable to genomic erosion and inbreeding depression. Genetic rescue can boost the fitness of small populations, but perceived risks of outbreeding depression can limit its use. We quantified these trade-offs in hundreds of endangered Pacific pocket mice ( Perognathus longimembris pacificus ) by combining whole-genome sequences with fitness data. The impacts of genomic erosion in remnant populations were reversed in an admixed breeding program, suggesting the potential benefits of genetic rescue. However, differences in chromosome numbers increase the risk of genetic incompatibilities. Fitness analyses suggested that although admixed karyotypes may have reduced fertility, non-admixed mice with low heterozygosity and high genetic load had even lower fitness, pointing to a greater risk of extinction if populations remain isolated.

Topics & Concepts

Inbreeding depressionBiologyGenetic loadGenetic erosionOutbreeding depressionEndangered speciesPopulation fragmentationPopulationInbreedingCaptive breedingEvolutionary biologyGenetic diversityGeneticsZoologyEcologyDemographySociologyHabitatGenetic diversity and population structureGenetic Mapping and Diversity in Plants and AnimalsGenetic and phenotypic traits in livestock
Fitness benefits of genetic rescue despite chromosomal differences in an endangered pocket mouse | Litcius