Flowering phenology and sexual allocation in single-mutation lineages of Arabidopsis thaliana.

We investigated the relationship between flowering time and sexual allocation in wild-type Arabidopsis thaliana and in genetically similar lineages with single-locus mutations of floral induction genes. We examined whether the mechanisms of growth and development that govern resource investment would permit the independent evolution of reproductive phenology and sexual allocation, or whether constraints, manifested as pleiotropic effects of the single mutations, would link these two life-history traits. Flowering times differed significantly among genotypes, and, as expected, later flowering times were associated with larger vegetative size. Later flowering genotypes produced heavier floral parts (larger petals, in particular), and allocated a significantly lower proportion of biomass to androecia, especially in final allocations that included fruit biomass. At least part of this pleiotropic covariation of flowering time and sexual allocation is likely to be mediated by vegetative size and the rate of resource supply to growing reproductive tissues, because the larger fruits of late-flowering genotypes required the same time, or proportionately less time than the difference in biomass, to mature. Because fruit mass is considered an investment in female function, sexual allocation measured at the end of a growing season tends to be highly female biased in angiosperms. We consider the implications of the pleiotropic association of flowering time, vegetative size, and sexual investment for the theory of sex allocation, and suggest that the idiosyncratic phenology of sexual investment in flowering plants creates a departure from a central assumption of Fisher's seminal sex allocation argument.

Frequency-dependent variation in reproductive success in Narcissus: implications for the maintenance of stigma-height dimorphism.

Negative frequency-dependent selection is a major selective force maintaining sexual polymorphisms. However, empirical demonstrations of frequency-dependent reproductive success are rare, particularly in plants. We investigate this problem by manipulating the frequencies of style morphs in a natural population of Narcissus assoanus, a self-incompatible herb with style-length dimorphism and intra-morph compatibility. We predicted that the reproductive success of morphs would vary negatively with their frequency because of the effects of morph-specific differences in sex-organ position on patterns of pollen transfer. This prediction was generally supported. The fruit and seed set of the two morphs did not differ significantly in plots with 1 : 1 morph ratios. However, short-styled plants produced significantly fewer seeds than long-styled plants in monomorphic plots, and significantly more seeds than long-styled plants in plots with 'long-biased' morph ratios. These patterns indicate that in the absence of physiological barriers to intra-morph mating, negative frequency-dependent selection contributes to the maintenance of stylar polymorphism through inter-morph pollen transfer. Our experimental results also provide insights into the mechanisms governing the biased style-morph ratios in populations of Narcissus species.