Estimating the additive genetic variance for relative fitness from changes in allele frequency

The rate of adaptation is equal to the additive genetic variance for relative fitness (V_A) in the population. EstimatingV_Atypically involves measuring fitness proxies on a large number of individuals from a known pedigree. Such data are hard to collect and the results are often sensitive to the definition of fitness used. Here, we present a new method for estimatingV_Athat does not involve making measurements of fitness proxies on individuals, but instead tracks changes in the genetic composition of the population. First, we show thatV_Acan readily be expressed as a function of the genome-wide diversity/linkage disequilibrium matrix and genome-wide expected change in allele frequency due to selection. We then show how independent experimental replicates can be used to infer the expected change in allele frequency due to selection and then estimateV_Avia a linear mixed model. Finally, using individual-based simulations, we demonstrate that our approach yields precise and unbiased estimates over a range of biologically plausible levels ofV_A.