Abstract
What determines the level of genetic diversity of a species remains one of the enduring problems of population genetics. Because neutral diversity depends upon the product of the effective population size and mutation rate, there is an expectation that diversity should be correlated to measures of census population size. This correlation is often observed for nuclear but not for mitochondrial DNA. Here, we revisit the question of whether mitochondrial DNA sequence diversity is correlated to census population size by compiling the largest data set to date, using 639 mammalian species. In a multiple regression, we find that nucleotide diversity is significantly correlated to both range size and mass-specific metabolic rate, but not a variety of other factors. We also find that a measure of the effective population size, the ratio of nonsynonymous to synonymous diversity, is also significantly negatively correlated to both range size and mass-specific metabolic rate. These results together suggest that species with larger ranges have larger effective population sizes. The slope of the relationship between diversity and range is such that doubling the range increases diversity by 12–20%, providing one of the first quantifications of the relationship between diversity and the census population size.
Highlights
One of the central aims of population genetics is to understand why genetic diversity varies between species
We investigate whether diversity is correlated to a measure of census population size, the species range, but we investigate whether it is correlated to a number of life history and demographic variables, as potential correlates of population density and the mutation rate, two other factors that might be expected to affect levels of neutral diversity
In a multiple regression we find that diversity is only significantly correlated to mass-specific metabolic rate and range size
Summary
One of the central aims of population genetics is to understand why genetic diversity varies between species. Since the level of neutral diversity is expected to depend upon the product of the mutation rate per generation and the effective population size, there has been an expectation that diversity should depend on the census population size. One notable exception is a recent analysis of nuclear nucleotide diversity across diverse animal species (Romiguier, et al 2014). This is surprising, because it is by far the largest nuclear dataset collected yet in terms of loci sampled. (Romiguier, et al 2014) had no direct estimate of the population size for most of their species, and for most of them it is extremely difficult to estimate; instead they used a crude estimate of population size, the distance between the two furthest sampled individuals
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