Selection coefficient explained

In population genetics, a selection coefficient, usually denoted by the letter s, is a measure of differences in relative fitness. Selection coefficients are central to the quantitative description of evolution, since fitness differences determine the change in genotype frequencies attributable to selection.

The following definition of s is commonly used.[1] Suppose that there are two genotypes A and B in a population with relative fitnesses

wA

and

wB

respectively. Then, choosing genotype A as our point of reference, we have

wA=1

, and

wB=1+s

, where s measures the fitness advantage (s>0) or disadvantage (s<0) of B.

For example, the lactose-tolerant allele spread from very low frequencies to high frequencies in less than 9000 years since farming with an estimated selection coefficient of 0.09-0.19 for a Scandinavian population. Though this selection coefficient might seem like a very small number, over evolutionary time, the favored alleles accumulate in the population and become more and more common, potentially reaching fixation.[2]

See also

References

  1. Book: Gillespie. John H.. Population genetics : a concise guide. 2004. Johns Hopkins University Press. Baltimore, Md.. 0801880092. 2nd.
  2. Bersaglieri, T. et al. Genetic signatures of strong recent positive selection at the lactase gene. Am. J. Hum. Genet. 74,1111-1120(2004).