Estimates of genetic load suggest frequent purging of deleterious alleles in small populations
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Abstract
It is commonly thought that declining populations will experience negative genetic consequences as a result of increased inbreeding. Here we estimated the average deleteriousness of derived alleles in a range of mammals and found that species with historically small population size and low genetic diversity often have lower genetic load than species with large population sizes. This is likely the result of genetic purging – the more efficient removal of partially deleterious recessive alleles from inbred populations. Our findings suggest that genetic purging occurs over long evolutionary time frames, and therefore rapid population declines are likely to dis-proportionally increase mutational load in species with high diversity, as they carry many deleterious alleles that can reach fixation before genetic purging can remove them.
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Excerpt
Are small, genetically impoverished populations damned to extinction by default? Not so, suggests an exciting new study: large, genetically diverse populations that crash rapidly might be much worse off and end up with more harmful genetic mutations.
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