植物多样性通过调节多维功能特征来增加地上和地下生物量。

Plant diversity increases above- and below-ground biomass by regulating multidimensional functional trait characteristics.

机构信息

Institute of Grassland, Flowers and Ecology, Beijing Academy of Agriculture and Forestry Sciences, Beijing 100097, China.

出版信息

Ann Bot. 2023 Jul 10;131(6):1001-1010. doi: 10.1093/aob/mcad058.

DOI:10.1093/aob/mcad058

PMID:37119271

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10332393/

Abstract

BACKGROUND AND AIMS

Nitrogen enrichment affects biodiversity, plant functional traits and ecosystem functions. However, the direct and indirect effects of nitrogen addition and biodiversity on the links between plant traits and ecosystem functions have been largely overlooked, even though multidimensional characteristics of plant functional traits are probably critical predictors of ecosystem functions.

METHODS

To investigate the mechanism underlying the links between plant trait identity, diversity, network topology and above- and below-ground biomass along a plant species richness gradient under different nitrogen addition levels, a common garden experiment was conducted in which those driving factors were manipulated.

KEY RESULTS

The study found that nitrogen addition increased above-ground biomass but not below-ground biomass, while species richness was positively associated with above- and below-ground biomass. Nitrogen addition had minor effects on plant trait identity and diversity, and on the connectivity and complexity of the trait networks. However, species richness increased above-ground biomass mainly by increasing leaf trait diversity and network modularity, and enhanced below-ground biomass through an increase in root nitrogen concentration and network modularity.

CONCLUSIONS

The results demonstrate the mechanistic links between community biomass and plant trait identity, diversity and network topology, and show that the trait network architecture could be an indicator of the effects of global changes on ecosystem functions as importantly as trait identity and diversity.

摘要

背景与目的

氮富集会影响生物多样性、植物功能性状和生态系统功能。然而，氮添加和生物多样性对植物性状与生态系统功能之间联系的直接和间接影响在很大程度上被忽视了，尽管植物功能性状的多维特征可能是生态系统功能的关键预测因子。

方法

为了研究在不同氮添加水平下，植物物种丰富度梯度上植物性状同一性、多样性、网络拓扑结构以及地上和地下生物量之间联系的机制，进行了一项常见的花园实验，其中操纵了这些驱动因素。

主要结果

研究发现，氮添加增加了地上生物量，但没有增加地下生物量，而物种丰富度与地上和地下生物量呈正相关。氮添加对植物性状同一性和多样性以及性状网络的连通性和复杂性影响较小。然而，物种丰富度主要通过增加叶片性状多样性和网络模块性来增加地上生物量，并通过增加根氮浓度和网络模块性来增加地下生物量。

结论

研究结果表明了群落生物量与植物性状同一性、多样性和网络拓扑结构之间的机制联系，并表明性状网络结构可以像性状同一性和多样性一样，成为全球变化对生态系统功能影响的指标。

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