Genetic variation in outcrossing rate and correlated floral traits in a population of grain amaranth (Amaranthus cruentusL.)

The genetic control of breeding system in a population of grain amaranth is described here by the estimates of outcrossing rate variation among individuals and their response to mass selection. In the first generation (So), a single morphological marker locus (R/r) controlling plant pigmentation was used for the estimation of outcrossing rate. A mixture ofgenotypes RR (red) and rr (green) mixed in equal proportions was grown and all rr plants were progeny-tested for estimating the outcrossing rate (t), using the relationship t = H / p, where H = proportion of heterozygotes (Rr) in the progeny, and p = frequency of alleleR. A full range (0 to 100%) of outcrossing rates was found in the first generation, with [ = 0.31, 6t = 0.25, and the distribution was significantly skewed toward high outcrossing.

A bidirectional mass selection experiment was initiated for high and low outcrossing rates. In the Hi and Lo lines (Generation $1), the rate of outcrossing was estimated using the R locus in addition to two other completely dominant morphological markers (B, GI). Reidtive sex ratios in the monoecious inflorescences of selected lines were estimated by the number of male flowers per glomerule. Outcrossing rate was significantly different between the Hi and Lo lines, and Lo line exhibited much higher male fertility than the Hi line. Such a response to selection indicated a polygenic control of sex expression, and consequently, of the potential for outcrossing in this population. In the second generation ($2), selection was based on the number of male flowers/glomerule as an index of outcrossing ability. Differences in sex expression between the Hi and Lo lines in $2 generation had 1.0 male flower/ glomerule, while the Hi selection individuals had more or less rectangular distribution from 0.1 to 1.0 male flowers/glomerule. Thus, breeding system in amaranth, as represented by the sex ratios within glomerules and the outcrossing rate parameters, responded to bidirectional selection. Such a genetic component of variation in breeding system has significant implications in the evolution of amaranth species and landraces under domestication.