Department of Organismal and Environmental Biology, Christopher Newport University, 1 Avenue of the Arts, Newport News, Virginia 23606 USA
Department of Organismal and Environmental Biology, Christopher Newport University, 1 Avenue of the Arts, Newport News, Virginia 23606 USA.
Am J Bot. 2015 Oct;102(10):1659-65. doi: 10.3732/ajb.1500270. Epub 2015 Oct 5.
The persistence of rare and endangered plant species may depend on the distance pollinators travel when dispersing pollen. Pollinations between adjacent plants, which are often genetically similar, can decrease seed set, germination, and/or progeny vigor due to shared S-alleles or inbreeding depression. Interpopulation pollen dispersal is often suggested as a management tool to increase genetic diversity; however, long-distance pollinations also have the potential to decrease fitness.
We performed experimental hand pollinations in the field and germination experiments in a growth chamber to determine the effect of intrapopulation pollination distance (1 m, 10 m, and 100 m) on seed set, seed germination, progeny growth, and progeny reproduction in Phlox hirsuta. In addition, we included interpopulation pollinations (6740 m) to determine whether artificial gene flow is a viable management option for this endangered species.
Although pollination distance did not affect the number of healthy seeds produced or the likelihood of radicle emergence, it did significantly affect the ability of germinating seeds to successfully produce cotyledons. Outbreeding depression was observed during seed germination and early seedling development. Seedlings resulting from interpopulation pollinations developed more slowly and were less likely to survive to produce cotyledons than seedlings resulting from all three intrapopulation pollination distances.
Our results suggest that the success of P. hirsuta does not depend on the distance pollinators travel within populations and that conservation strategies that involve transporting genes between populations can be counterproductive.
稀有濒危植物物种的持续存在可能取决于传粉者在传播花粉时的移动距离。由于共享 S 等位基因或自交衰退,相邻植物之间的传粉(通常遗传相似)会降低种子结实率、发芽率和/或后代活力。人们经常提出种群间花粉传播作为增加遗传多样性的管理工具;然而,长距离授粉也有可能降低适应性。
我们在野外进行了实验性的人工授粉,并在生长室中进行了发芽实验,以确定种群内授粉距离(1 米、10 米和 100 米)对 Phlox hirsuta 种子结实率、种子发芽、后代生长和后代繁殖的影响。此外,我们还包括了种群间授粉(6740 米),以确定人工基因流是否是这个濒危物种的可行管理选择。
虽然授粉距离不会影响产生的健康种子数量或胚根出现的可能性,但它确实显著影响了发芽种子成功产生子叶的能力。在种子发芽和早期幼苗发育过程中观察到远交衰退。与来自三个种群内授粉距离的幼苗相比,来自种群间授粉的幼苗生长速度较慢,存活下来产生子叶的可能性较小。
我们的结果表明,P. hirsuta 的成功与否并不取决于传粉者在种群内的移动距离,而涉及在种群之间运输基因的保护策略可能适得其反。
