Interrelationships among inbreeding depression, plasticity in the self-incompatibility system, and the breeding system of Campanula rapunculoides L-(Campanulaceae)

The evolution of breeding systems in plants is often Viewed as a balance be tween the adverse consequences of selfing (inbreeding depression and the lo ss of opportunities to sire seeds on conspecifics) and the benefits of self ing (a genetic transmission advantage and reproductive assurance when cross pollen limits seed production). In this paper we examine the genetic and e nvironmental causes of variation in the expression of self-incompatibility (SI) in Campanula rapunculoides and explore the consequences of this variat ion on the breeding system. Campanula rapunculoides has an S-RNase based SI system similar to that described in the Solanaceae. However, our studies o f plants from two natural populations have revealed that the flowers of mos t individuals are self-incompatible when they first open but become more se lf fertile as the flowers age. Moreover, when both cross and self pollen ar e deposited onto the stigmas of older flowers, the cross pollen tubes grow faster and sire a disproportionate number of the seeds. In short, self-fert ilization occurs only after most opportunities for outcrossing have occurre d. We also found that there is significant heritable genetic Variation in t he population for the strength of SI in young and old flowers and for the a mount of breakdown in SI indicating that natural selection could operate on the strength of SI and its breakdown. In a multigenerational study, we use d controlled crosses to create families of plants with a range of inbreedin g coefficients (0, 0.25, 0.5 and 0.75). We found that fitness declined sign ificantly over the range of inbreeding coefficients and that the decline in fitness was less for families derived from weak SI phenotypes. Consequentl y, it is only advantageous for C. rapunculoides to produce selfed seed when seed production is limited by the availability of cross pollen. Because of plasticity in the SI system, C. rapunculoides has a breeding system that c ombines the best of both worlds. (C) 2000 Annals of Botany Company.