The homozygous genetic load in mutagenized populations of Oenothera hookeri T. and G.

Abstract

A measure of seedling viability was used to estimate the homozygous geneticc load of seedlings from mutagenized populations of Oenothera. The breeding protocol forced genomes to homozygosity. Pollen from control and mutagenized Oenothera hookeri T. and G. strain Johansen, a seven-paired lethal-free stock, was used to pollinate a translocation stock with balanced lethals. The hybrid formed a complete translocation ring and upon selfing yielded two types of plants, a translocation heterozygote similar to its hybrid parent and a seven-paired plant homozygous for the 7 chromosomes obtained from Johansen. Genetic markers allowed the identification of seven-paired seedlings in the cotyledon stage. Control hybrids averaged a recovery of 57.5% seven-paired seedlings. Hybrids obtained from plants that had been mutagenized by seed treatment with 15000 R X-rays, 0.04 M ethyl methanesulfonate (EMS), and 0.08 M EMS averaged 48.3%, 19.2%, and 6.0% recovery of seven-paired forms, respectively. The data are used to estimate the genetic load and lethal equivalents in each population. The implications of these results are evaluated with reference to mutation breeding of plant populations.