Elevational range limits in naturalized Rumex conglomeratus likely formed by climate and lack of local adaptation

IF 3.5 3区 环境科学与生态学 Q1 ECOLOGY Perspectives in Plant Ecology Evolution and Systematics Pub Date : 2023-08-19 DOI:10.1016/j.ppees.2023.125749
Jennifer L. Bufford , Philip E. Hulme
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Abstract

One of the fundamental questions in ecology is why species occur in some areas and not in others. Range limits, the boundaries between a species’ presence and absence, reflect the interplay of dispersal and population dynamics driven by biotic and abiotic conditions. As a result, range limits may shift as dispersal barriers are removed, climates change, and local species composition is altered, but the relative importance of these mechanisms is still not well understood. This is particularly true for introduced species, where current range limits may or may not reflect range limits at equilibrium, and is becoming more pressing under the effects of global climate change. To understand the drivers and stability of range limits in introduced Rumex conglomeratus, we used common garden experiments growing plants within, at the edge of and beyond their current range edge. Seeds were sourced from both lowland and upland populations and planted at all three sites. By measuring survival, growth, and the occurrence of reproduction, we tested whether upland populations are locally adapted to high elevation sites and whether plants were capable of surviving and reproducing above the current range edge. However, we found that upland populations were not better adapted to higher elevations, and often were small and performed more poorly than lowland populations across sites. Upland populations appear to be maintained by human-aided seed dispersal from lowland populations, which may constrain the opportunity for local adaptation. Although some plants survived above the current range edge, frost and growing season length restricted plant size and reproduction was infrequent. Therefore, the current range limit seems unlikely to expand as long as regular frost continues at the range edge and dispersal from the lowland continues to prevent local adaptation to upland environments.

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归化黄鳝的海拔范围限制可能是由气候和缺乏局部适应造成的
生态学中的一个基本问题是,为什么物种会出现在某些地区,而不会出现在其他地区。范围限制,即物种存在和不存在之间的边界,反映了由生物和非生物条件驱动的扩散和种群动态的相互作用。因此,随着扩散障碍的消除、气候变化和当地物种组成的改变,范围限制可能会发生变化,但这些机制的相对重要性仍不清楚。对于引入物种来说尤其如此,目前的范围限制可能反映也可能不反映平衡时的范围限制,并且在全球气候变化的影响下变得更加紧迫。为了了解引入的集团酸模的范围限制的驱动因素和稳定性,我们使用了常见的花园实验,在其当前范围边缘内、边缘和之外种植植物。种子来源于低地和高地种群,并在所有三个地点种植。通过测量生存、生长和繁殖的发生,我们测试了高地种群是否在当地适应高海拔地区,以及植物是否能够在当前范围边缘以上生存和繁殖。然而,我们发现高地种群并没有更好地适应更高的海拔,而且在各个地点,高地种群往往规模较小,表现也比低地种群差。高地种群似乎是通过人类从低地种群传播种子来维持的,这可能会限制当地适应的机会。尽管一些植物在目前的范围边缘以上存活,但霜冻和生长季节长度限制了植物的大小,繁殖很少。因此,只要牧场边缘持续有规律的霜冻,并且低地的扩散继续阻止当地适应高地环境,目前的牧场限制似乎不太可能扩大。
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来源期刊
CiteScore
6.50
自引率
0.00%
发文量
28
审稿时长
67 days
期刊介绍: Perspectives in Plant Ecology, Evolution and Systematics (PPEES) publishes outstanding and thought-provoking articles of general interest to an international readership in the fields of plant ecology, evolution and systematics. Of particular interest are longer, in-depth articles that provide a broad understanding of key topics in the field. There are six issues per year. The following types of article will be considered: Full length reviews Essay reviews Longer research articles Meta-analyses Foundational methodological or empirical papers from large consortia or long-term ecological research sites (LTER).
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