Vera Margreiter, Janette Walde, Brigitta Erschbamer
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These gap types (‘gap + roots’, ‘neighbor + roots’, and ‘no-comp’) provided different plant–plant interactions and competition intensities. We observed decreasing germination with increasing elevation, independent of the species home sites. Competition-released gaps favored recruitment, pointing out the important role of belowground competition and soil components in recruitment. In gaps with one neighboring species, neutral plant–plant interactions occurred (with one exception). However, considering the relative vegetation cover of each experimental site, high vegetation cover resulted in positive effects on recruitment at higher sites and neutral effects at lower sites. All tested species showed intraspecific variability when responding to the experimental conditions. 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Here, we present the results of a seed-sowing experiment performed along an elevation gradient (2000–2900 m a.s.l.) in the European eastern Alps. We monitored the germination of seeds and seedling recruitment for 2 years. Three effects were investigated: effects of sites and home sites (seed origin), effects of gaps, and plant–plant interactions. Seeds of eight species originating from two home sites were transplanted to four sites (home site and ± in elevation). Seed sowing was performed in experimentally created gaps. These gap types (‘gap + roots’, ‘neighbor + roots’, and ‘no-comp’) provided different plant–plant interactions and competition intensities. We observed decreasing germination with increasing elevation, independent of the species home sites. Competition-released gaps favored recruitment, pointing out the important role of belowground competition and soil components in recruitment. In gaps with one neighboring species, neutral plant–plant interactions occurred (with one exception). However, considering the relative vegetation cover of each experimental site, high vegetation cover resulted in positive effects on recruitment at higher sites and neutral effects at lower sites. All tested species showed intraspecific variability when responding to the experimental conditions. 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引用次数: 6
摘要
种子发芽和幼苗补充是植物生命周期中的关键过程。它们使种群能够增长、迁移或持续存在。这两个过程都处于环境控制之下,并受到现场条件和植物-植物相互作用的影响。在这里,我们展示了在欧洲东阿尔卑斯山沿海拔梯度(2000–2900 m a.s.l.)进行的种子播种实验的结果。我们对种子的发芽和幼苗的补充进行了2年的监测。研究了三种影响:地点和原址的影响(种子来源)、间隙的影响和植物-植物相互作用。来自两个原址的八个物种的种子被移植到四个原址(原址和 ± 高程)。种子播种是在实验创造的间隙中进行的。这些间隙类型('gap + 根,邻居 + 根和无comp)提供了不同的植物-植物相互作用和竞争强度。我们观察到发芽率随着海拔的升高而降低,与物种的家园无关。竞争释放了有利于招聘的缺口,指出了地下竞争和土壤成分在招聘中的重要作用。在与一个相邻物种的间隙中,发生了中性的植物-植物相互作用(只有一个例外)。然而,考虑到每个实验地点的相对植被覆盖率,高植被覆盖率对高地点的招聘产生了积极影响,而对低地点的招聘则产生了中性影响。所有测试物种在对实验条件作出反应时都表现出种内变异性。考虑到新的地点和气候条件,我们讨论了我们的发现。
Competition-free gaps are essential for the germination and recruitment of alpine species along an elevation gradient in the European Alps
Seed germination and seedling recruitment are key processes in the life cycle of plants. They enable populations to grow, migrate, or persist. Both processes are under environmental control and influenced by site conditions and plant–plant interactions. Here, we present the results of a seed-sowing experiment performed along an elevation gradient (2000–2900 m a.s.l.) in the European eastern Alps. We monitored the germination of seeds and seedling recruitment for 2 years. Three effects were investigated: effects of sites and home sites (seed origin), effects of gaps, and plant–plant interactions. Seeds of eight species originating from two home sites were transplanted to four sites (home site and ± in elevation). Seed sowing was performed in experimentally created gaps. These gap types (‘gap + roots’, ‘neighbor + roots’, and ‘no-comp’) provided different plant–plant interactions and competition intensities. We observed decreasing germination with increasing elevation, independent of the species home sites. Competition-released gaps favored recruitment, pointing out the important role of belowground competition and soil components in recruitment. In gaps with one neighboring species, neutral plant–plant interactions occurred (with one exception). However, considering the relative vegetation cover of each experimental site, high vegetation cover resulted in positive effects on recruitment at higher sites and neutral effects at lower sites. All tested species showed intraspecific variability when responding to the experimental conditions. We discuss our findings considering novel site and climatic conditions.