An evolutionary perspective on genetic load in small, isolated populations as informed by whole genome resequencing and forward-time simulations

Autor: Samarth Mathur, John M Tomeček, Luis A Tarango-Arámbula, Robert M Perez, J Andrew DeWoody
Rok vydání: 2022
Předmět:
Zdroj: Evolution. 77:690-704
ISSN: 1558-5646
0014-3820
DOI: 10.1093/evolut/qpac061
Popis: Small populations are vulnerable to increased genetic load and drift that can lead to reductions in fitness and adaptive potential. By analyzing 66 individual whole genomes of Montezuma Quail (Cyrtonyx montezumae) from multiple populations, we illustrate how genetic load is dynamic over evolutionary time. We show that Montezuma Quail are evolving like a ring species, where the terminal extant populations from Arizona and Texas have been separated for ~16,500 years. The Texas populations have remained small but stable since the separation, whereas the Arizona population is much larger today but has been contracting for thousands of years. Most deleterious mutations across the genome are young and segregating privately in each population and a greater number of deleterious alleles are present in the larger population. Our data indicate that ancestral load is purged during strong bottlenecks, but the reduced efficiency of selection in small populations means that segregating deleterious mutations are more likely to rise in frequency over time. Forward-time simulations indicate that severe population declines in historically large populations is more detrimental to individual fitness, whereas long-term small populations are more at risk for reduced adaptive potential and population-level fitness. Our study highlights the intimate connections among evolutionary history, historical demography, genetic load, and evolutionary potential in wild populations.
Databáze: OpenAIRE