Stone Judy L, VanWyk Emily J, Hale Jennifer R
Department of Biology, Colby College, Waterville, Maine, 04901.
Evolution. 2014 Jul;68(7):1845-55. doi: 10.1111/evo.12419. Epub 2014 May 6.
The evolution of self-fertilization is one of the most commonly traversed transitions in flowering plants, with profound implications for population genetic structure and evolutionary potential. We investigated factors influencing this transition using Witheringia solanacea, a predominantly self-incompatible (SI) species within which self-compatible (SC) genotypes have been identified. We showed that self-compatibility in this species segregates with variation at the S-locus as inherited by plants in F1 and F2 generations. To examine reproductive assurance and the transmission advantage of selfing, we placed SC and SI genotypes in genetically replicated gardens and monitored male and female reproductive success, as well as selfing rates of SC plants. Self-compatibility did not lead to increased fruit or seed set, even under conditions of pollinator scarcity, and the realized selfing rate of SC plants was less than 10%. SC plants had higher fruit abortion rates, consistent with previous evidence showing strong inbreeding depression at the embryonic stage. Although the selfing allele did not provide reproductive assurance under observed conditions, it also did not cause pollen discounting, so the transmission advantage of selfing should promote its spread. Given observed numbers of S-alleles and selfing rates, self-compatibility should spread even under conditions of exceedingly high initial inbreeding depression.
自花受精的进化是开花植物中最常见的转变之一,对种群遗传结构和进化潜力具有深远影响。我们以茄叶假茄参为研究对象,调查了影响这一转变的因素,茄叶假茄参是一种主要自交不亲和(SI)的物种,其中已鉴定出自交亲和(SC)基因型。我们发现,该物种的自交亲和性与F1和F2代植株遗传的S位点变异相关。为了研究繁殖保障和自交的传播优势,我们将SC和SI基因型种植在基因重复的试验园中,监测雌雄两性的繁殖成功率以及SC植株的自交率。即使在传粉者稀缺的条件下,自交亲和性也不会导致果实或种子产量增加,SC植株的实际自交率不到10%。SC植株的果实败育率更高,这与之前显示胚胎期存在强烈近交衰退的证据一致。尽管在观察到的条件下,自交等位基因没有提供繁殖保障,但它也没有导致花粉折扣,因此自交的传播优势应该会促进其传播。根据观察到的S等位基因数量和自交率,即使在初始近交衰退极高的条件下,自交亲和性也应该会传播。
