Sex‐biased seed predation and the maintenance of females in a gynodioecious plant

Abstract

We investigated genetic and ecological factors contributing to the maintenance of females in populations of the gynodioecious plant, Sidalcea hendersonii (Malvaceae). Our crossing experiments indicated that male sterility is controlled by a dominant nuclear allele. Nuclear determination of sex theoretically requires much higher female fitness to account for the high frequency of female plants often observed during surveys of S. hendersonii populations. Females were, in fact, shown to have higher fitness in an experimental population, producing more viable seed and surviving offspring than hermaphrodite plants. In natural populations, however, differences in viable seed production were not evident unless seed predation was considered. Sex-biased seed predation appears to play an important role in the maintenance of gynodioecy in S. hendersonii. In populations with high female frequencies, weevil larvae destroyed significantly more seeds from hermaphrodite plants than females, substantially reducing their seed production. To our knowledge, this study provides the first evidence that sex-biased predation may be responsible for high female frequencies in natural populations of a gynodioecious species.