应对气候变化的全球重要植物功能性状

Q2 Agricultural and Biological Sciences

Frontiers of Biogeography Pub Date : 2021-01-01 DOI:10.21425/f5fbg53774

N. Kühn, C. Tovar, J. Carretero, V. Vandvik, B. Enquist, K. Willis

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引用次数: 15

摘要

在过去的十年里，利用植物功能特征来评估植物如何应对气候变化的研究激增。然而，目前尚不清楚是否有一套全球特征可以预测植物在暴露于各种气候变化表现时的应对能力，甚至茁壮成长的能力。我们进行了一项系统的全球综述，确定了148项研究，以评估生物群落中是否存在一组最能预测植物对多种气候变化和相关环境变化的积极反应的共同特征。八个关键性状似乎最能预测植物对整个生物群落的多种气候/环境变化的积极反应：更低或更高的比叶面积（SLA）、更低或更高地株高、更高的水分利用效率（WUE）、更大的呼吸能力、更低的相对生长率、更大克隆性/芽库/地下储存、更高木材密度和更大的生根深度。与积极反应相关的性状属性在生物群落和气候/环境变化中似乎相对一致，但SLA和株高除外，其中较低和较高的性状属性都与积极反应有关，这取决于所考虑的生物群落和环境变化。总的来说，我们的发现说明了生物群落内部和之间的重要和一般特征气候反应，有助于我们了解哪些植物表型可以应对当前和未来的气候变化或在这种变化下茁壮成长。

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Globally important plant functional traits for coping with climate change

The last decade has seen a proliferation of studies that use plant functional traits to assess how plants respond to climate change. However, it remains unclear whether there is a global set of traits that can predict plants’ ability to cope or even thrive when exposed to varying manifestations of climate change. We conducted a systematic global review which identified 148 studies to assess whether there is a set of common traits across biomes that best predict positive plant responses to multiple climate changes and associated environmental changes. Eight key traits appear to best predict positive plant responses to multiple climate/environmental changes across biomes: lower or higher specific leaf area (SLA), lower or higher plant height, greater water-use efficiency (WUE), greater resprouting ability, lower relative growth rate, greater clonality/bud banks/below-ground storage, higher wood density, and greater rooting depth. Trait attributes associated with positive responses appear relatively consistent within biomes and climate/environmental changes, except for SLA and plant height, where both lower and higher trait attributes are associated with a positive response depending on the biome and climate/environmental change considered. Overall, our findings illustrate important and general trait-climate responses within and between biomes that help us understand which plant phenotypes may cope with or thrive under current and future climate change.

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来源期刊

Frontiers of Biogeography Environmental Science-Ecology

CiteScore

4.30

自引率

0.00%

发文量

审稿时长

6 weeks

期刊介绍： Frontiers of Biogeography is the scientific magazine of the International Biogeography Society (http://www.biogeography.org/). Our scope includes news, original research letters, reviews, opinions and perspectives, news, commentaries, interviews, and articles on how to teach, disseminate and/or apply biogeographical knowledge. We accept papers on the study of the geographical variations of life at all levels of organization, including also studies on temporal and/or evolutionary variations in any component of biodiversity if they have a geographical perspective, as well as studies at relatively small scales if they have a spatially explicit component.