Functional redundancy changes along a drought stress gradient for the shift of selection effect to complementarity effect in experimental plant communities

IF 2.6 3区 生物学 Q2 PLANT SCIENCES Journal of Plant Interactions Pub Date : 2022-03-03 DOI:10.1080/17429145.2022.2027031
Song Gao, Xiaoyan Wang, Tong Chen, Qiaodi Yan, Mengchun Shen, Jianguo Wang, Fei Yu
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Abstract

ABSTRACT Species interactions alter with environmental change, which influences the relationship between biodiversity and ecosystem functioning (BEF). How BEF relationships change with environments requires knowledge of the changes of functional attributes in individual species in response to environmental change. Here, we assembled experimental plant communities with different species richness (1, 2, 4, 8, and 16) and exposed them to a drought stress gradient (control, moderate and intensive drought stress). Functional redundancy decreased with increasing drought stress for a shift from selection effect to complementarity effect. In response to drought stress, species interactions shifted from competition to facilitation and the role of light-asymmetric competition in the competitive ability of species gradually decreased. Many species that are redundant under control conditions make essential contributions to biomass production under moderate and intensive drought stress conditions. Consequently, biodiversity effects should be evaluated from a predicted climate change model and redundant species should be carefully defined.
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实验植物群落的功能冗余度随着干旱胁迫梯度的变化而变化,导致选择效应向互补效应转变
物种相互作用随环境变化而变化,从而影响生物多样性与生态系统功能(BEF)的关系。BEF关系如何随着环境变化而变化,需要了解个体物种在响应环境变化时功能属性的变化。在此,我们将不同物种丰富度(1、2、4、8和16)的实验植物群落组合在一起,并将它们暴露在干旱胁迫梯度(控制、中等和强烈干旱胁迫)下。功能冗余度随干旱胁迫的增加而降低,从选择效应向互补效应转变。在干旱胁迫下,物种间的相互作用由竞争向促进转变,光不对称竞争在物种竞争能力中的作用逐渐减弱。在中度和重度干旱胁迫条件下,许多在控制条件下冗余的物种对生物量生产做出了重要贡献。因此,应根据预测的气候变化模型评估生物多样性效应,并仔细定义冗余物种。
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来源期刊
CiteScore
5.30
自引率
6.20%
发文量
69
审稿时长
>12 weeks
期刊介绍: Journal of Plant Interactions aims to represent a common platform for those scientists interested in publishing and reading research articles in the field of plant interactions and will cover most plant interactions with the surrounding environment.
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