Abstract
While it is appreciated that population size changes can impact patterns of deleterious variation in natural populations, less attention has been paid to how gene flow affects and is affected by the dynamics of deleterious variation. Here we use population genetic simulations to examine how gene flow impacts deleterious variation under a variety of demographic scenarios, mating systems, dominance coefficients, and recombination rates. Our results show that admixture between populations can temporarily reduce the genetic load of smaller populations and cause increases in the frequency of introgressed ancestry, especially if deleterious mutations are recessive. Additionally, when fitness effects of new mutations are recessive, between-population differences in the sites at which deleterious variants exist creates heterosis in hybrid individuals. Together, these factors lead to an increase in introgressed ancestry, particularly when recombination rates are low. Under certain scenarios, introgressed ancestry can increase from an initial frequency of 5% to 30–75% and fix at many loci, even in the absence of beneficial mutations. Further, deleterious variation and admixture can generate correlations between the frequency of introgressed ancestry and recombination rate or exon density, even in the absence of other types of selection. The direction of these correlations is determined by the specific demography and whether mutations are additive or recessive. Therefore, it is essential that null models of admixture include both demography and deleterious variation before invoking other mechanisms to explain unusual patterns of genetic variation.
Highlights
There is tremendous interest in quantifying the effects that demographic history has had on the patterns and dynamics of deleterious variation and genetic load [1,2,3,4,5,6,7,8]
This pattern has been attributed to adaptive introgression, where beneficial genetic variants are passed from one population to the other, or to genomic
We show that when ancestry from a larger population is added to a smaller population, the ancestry from the larger population dramatically increases in frequency because it carries fewer deleterious mutations
Summary
There is tremendous interest in quantifying the effects that demographic history has had on the patterns and dynamics of deleterious variation and genetic load [1,2,3,4,5,6,7,8]. Several studies have suggested that recent human demography has had little impact on load [9,10] while others have suggested weak, but subtle, differences between human populations [11,12,13,14,15] All of these studies have typically focused on how population size changes, such as expansions and bottlenecks, have affected deleterious variation. Gene flow from wild populations could alleviate the genetic load of domesticated species, and increases in the frequency of wild-population ancestry should be observed in the domesticated population [23] Such changes in patterns of introgression are important to consider when studying how natural selection shapes the evolution of hybrid ancestry, a major goal in evolutionary biology
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