Inbreeding Load, Average Dominance and the Mutation Rate for Mildly Deleterious Alleles in Mimulus guttatus

Inbreeding Load, Average Dominance and the Mutation Rate for Mildly Deleterious Alleles in Mimulus guttatus

John H. Willis^a
^a Department of Biology, University of Oregon, Eugene, Oregon 97403

Corresponding author: John H. Willis, 1210 Pacific Hall, Ecology and Evolution, University of Oregon, Eugene, OR 97403-1210., jwillis{at}oregon.uoregon.edu (E-mail)

Communicating editor: R. G. SHAW

The goal of this study is to provide information on the geneticsof inbreeding depression in a primarily outcrossing populationof Mimulus guttatus. Previous studies of this population indicatethat there is tremendous inbreeding depression for nearly everyfitness component and that almost all of this inbreeding depressionis due to mildly deleterious alleles rather than recessive lethalsor steriles. In this article I assayed the homozygous and heterozygousfitnesses of 184 highly inbred lines extracted from a naturalpopulation. Natural selection during the five generations ofselfing involved in line formation essentially eliminated majordeleterious alleles but was ineffective in purging alleles withminor fitness effects and did not appreciably diminish overalllevels of inbreeding depression. Estimates of the average degreeof dominance of these mildly deleterious alleles, obtained fromthe regression of heterozygous fitness on the sum of parentalhomozygous fitness, indicate that the detrimental alleles arepartially recessive for most fitness traits, with ~ 0.15 forcumulative measures of fitness. The inbreeding load, B, fortotal fitness is ~1.0 in this experiment. These results areconsistent with the hypothesis that spontaneous mildly deleteriousmutations occur at a rate >0.1 mutation per genome per generation.

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