Inferring Recent Outcrossing Rates Using Multilocus Individual Heterozygosity: Application to Evolving Wheat Populations

Corresponding author: Jérôme Enjalbert, INRA, Unité de Pathologie Végétale, BP01, 78850 Thiverval-grignon, France., enjalber{at}grignon.inra.fr (E-mail)

Communicating editor: A. H. D. BROWN

Using multilocus individual heterozygosity, a method is developed to estimate the outcrossing rates of a population over a few previous generations. Considering that individuals originate either from outcrossing or from n successive selfing generations from an outbred ancestor, a maximum-likelihood (ML) estimator is described that gives estimates of past outcrossing rates in terms of proportions of individuals with different n values. Heterozygosities at several unlinked codominant loci are used to assign n values to each individual. This method also allows a test of whether populations are in inbreeding equilibrium. The estimator's reliability was checked using simulations for different mating histories. We show that this ML estimator can provide estimates of outcrossing rates for the final generation outcrossing rate (t₀) and a mean of the preceding rates (t_p) and can detect major temporal variation in the mating system. The method is most efficient for low to intermediate outcrossing levels. Applied to nine populations of wheat, this method gave estimates of t₀ and t_p. These estimates confirmed the absence of outcrossing (t₀ = 0) in the two populations subjected to manual selfing. For free-mating wheat populations, it detected lower final generation outcrossing rates (t₀ = 0–0.06) than those expected from global heterozygosity (t = 0.02–0.09). This estimator appears to be a new and efficient way to describe the multilocus heterozygosity of a population, complementary to Fis and progeny analysis approaches.

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