Datta Arunava, Kühn Ingolf, Ahmad Mustaqeem, Michalski Stefan, Auge Harald
Department of Community Ecology, Helmholtz Centre for Environmental Research-UFZ, Theodor-Lieser-Straβe 4, Halle, Germany.
Institute of Biology/Geobotany and Botanical Garden, Martin-Luther-University Halle-Wittenberg, Am Kirchtor 1, Halle, Germany.
PLoS One. 2017 Nov 10;12(11):e0187708. doi: 10.1371/journal.pone.0187708. eCollection 2017.
The spread of invasive plants along elevational gradients is considered a threat to fragile mountain ecosystems, but it can also provide the opportunity to better understand some of the basic processes driving the success of invasive species. Ageratina adenophora (Asteraceae) is an invasive plant of global importance and has a broad distribution along elevational gradients in the Western Himalayas. Our study aimed at understanding the role of evolutionary processes (e.g. local adaptation and clinal differentiation) and different life history stages in shaping the distribution pattern of the invasive plant along an elevational gradient in the Western Himalaya. We carried out extensive distributional surveys, established a reciprocal transplant experiment with common gardens at three elevational levels, and measured a suite of traits related to germination, growth, reproduction and phenology. Our results showed a lack of local adaptation, and we did not find any evidence for clinal differentiation in any measured trait except a rather weak signal for plant height. We found that seed germination was the crucial life-cycle transition in determining the lower range limit while winter mortality of plants shaped the upper range limit in our study area, thus explaining the hump shaped distribution pattern. Differences in trait values between gardens for most traits indicated a high degree of phenotypic plasticity. Possible causes such as apomixis, seed dispersal among sites, and pre-adaptation might have confounded evolutionary processes to act upon. Our results suggest that the success and spread of Ageratina adenophora are dependent on different life history stages at different elevations that are controlled by abiotic conditions.
外来入侵植物沿海拔梯度扩散被认为是对脆弱山地生态系统的一种威胁,但它也能提供机会,让我们更好地理解一些驱动入侵物种成功的基本过程。紫茎泽兰(菊科)是一种具有全球重要性的入侵植物,在西喜马拉雅地区沿海拔梯度分布广泛。我们的研究旨在了解进化过程(如局域适应和渐变群分化)以及不同生活史阶段在塑造这种入侵植物在西喜马拉雅地区海拔梯度上的分布格局中所起的作用。我们进行了广泛的分布调查,在三个海拔高度建立了共同花园进行 reciprocal transplant 实验,并测量了一系列与发芽、生长、繁殖和物候相关的性状。我们的结果显示缺乏局域适应,除了植物高度有一个相当微弱的信号外,我们在任何测量性状中都没有发现渐变群分化的证据。我们发现种子发芽是决定下限范围的关键生命周期转变,而植物的冬季死亡率塑造了我们研究区域的上限范围,从而解释了驼峰状的分布格局。大多数性状在不同花园之间的性状值差异表明具有高度的表型可塑性。诸如无融合生殖、不同地点间的种子传播和预适应等可能原因可能混淆了进化过程的作用。我们的结果表明,紫茎泽兰的成功和扩散取决于不同海拔的不同生活史阶段,而这些阶段受非生物条件控制。 注:“reciprocal transplant”直译为“相互移栽”,结合语境这里可能是一种特定的实验方式,暂保留英文未翻译,你可根据实际情况调整。
