Department of Ecology and Genetics, Uppsala University, SE-752 36, Uppsala, Sweden.
Department of Biology and The SDU Interdisciplinary Centre on Population Dynamics, University of Southern Denmark, 5230, Odense, Denmark.
Oecologia. 2020 Apr;192(4):989-997. doi: 10.1007/s00442-020-04623-x. Epub 2020 Feb 20.
Seed production is critical to the persistence of most flowering plant populations, but may be strongly pollen limited. To what extent long-lived plants can compensate pollen limitation by increasing future reproduction is poorly understood. We tested for compensation in two Dactylorhiza species that differ in reproductive investment by experimentally reducing and increasing pollination in two independent annual cohorts and monitoring demographic responses in the subsequent 2 years for the 2014 cohort and in 1 year for the 2015 cohort. Demographic rates in the second year were significantly affected by pollination treatment in both species, but specific responses differed both between species and years. There was no effect of pollination treatment on demographic responses in the third year. In sum, effects were too weak to make up for the lost reproduction; total fruit production across all 3 years was by far highest in the increased pollination treatment in both species. These results show that long-lived plants do not necessarily compensate for pollen limitation by increasing future reproduction. It further suggests that even periodic declines in pollination rates may have severe demographic consequences, particularly in populations where germination is not density dependent. This has implications for predicting plant population viability in response to changes in pollination intensity.
种子生产对大多数开花植物种群的持续存在至关重要,但可能受到花粉的强烈限制。寿命长的植物在多大程度上可以通过增加未来的繁殖来补偿花粉限制,这一点还不太清楚。我们通过在两个独立的一年生群体中进行实验性的减少和增加授粉,来检验两种不同生殖投资的 Dactylorhiza 物种是否存在补偿,并在随后的 2 年(2014 年群体)和 1 年(2015 年群体)监测种群的人口动态响应。在两个物种中,第二年的人口增长率都受到授粉处理的显著影响,但具体的响应在物种间和年份间都存在差异。在第三年,授粉处理对人口动态没有影响。总的来说,影响太弱,无法弥补失去的繁殖;在两个物种中,所有 3 年的总果实产量在增加授粉处理中都是最高的。这些结果表明,长寿植物不一定通过增加未来的繁殖来补偿花粉限制。这进一步表明,即使授粉率的周期性下降也可能对种群产生严重的人口后果,特别是在那些萌发不受密度影响的种群中。这对预测植物种群对授粉强度变化的生存能力有影响。
