氮添加通过物种异步性而非多样性响应调控群落生物量对干旱的抵抗力和恢复力

doi:10.1093/jpe/rtaf158

Journal of Plant Ecology

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氮添加通过物种异步性而非多样性响应调控群落生物量对干旱的抵抗力和恢复力

Nitrogen addition regulates community biomass resistance and recovery to drought by altering species asynchrony rather than the diversity response

Yimin Zhao¹, Zhen Zhang¹, Li Zhang², Miaojun Ma³, Guorui Hu³, Shurong Zhou^1*

1. School of Ecology, Hainan University, Haikou 570228, China
2. Co-Innovation Center for Sustainable Forestry in Southern China, Bamboo Research Institute, Nanjing Forestry University, Nanjing 210000, China
3. State Key Laboratory of Herbage Improvement and Grassland Agro-ecosystems, College of Ecology, Lanzhou University, Lanzhou 730000, China

^*Corresponding author. E-mail: zhshrong@hainanu.edu.cn

Supported by:
This study was supported by the National Natural Science Foundation of China (Grants No. U22A20449 and 31830009), Collaborative Innovation Center of Ecological Civilization, Hainan University (XTCX2022STC25), and the Fundamental Research Funds in Hainan University (KYQD (ZR) -20081).

摘要/Abstract

摘要： 持续性环境扰动（如氮富集）常与极端气候事件共同发生，进而影响植物群落对极端气候的抵抗力与恢复力。然而，多数研究只关注群落功能（如生物量）对极端气候的响应，对多样性响应的研究相对匮乏。本研究于2011–2020年在高寒草甸开展氮添加野外控制实验（2015年为极端干旱年份），测定了群落生物量、分类多样性（taxonomic diversity, TD）、系统发育多样性（phylogenetic diversity, PD）和功能多样性（functional diversity, FD）等变量，探究了氮添加对植物群落生物量/多样性的干旱抵抗力与干旱后恢复力的影响。结果表明：氮添加降低了群落生物量的抵抗力以及PD与FD抵抗力，但主要调节途径为物种异步性而非多样性抵抗力；同时，氮添加增强了群落生物量的恢复力。这主要是由氮对生物量恢复的直接促进及对物种异步性的间接增加造成的，而多样性（TD、PD、FD）恢复力的响应没有贡献。本研究表明，土壤氮富集主要调控植物生物量对极端干旱的响应，而对群落多样性的影响相对有限；此外，多样性变化并未进一步影响生物量对干旱的响应，表明二者对极端干旱的响应机制可能相互独立。我们预期在较高氮沉降背景下，极端干旱期间植物群落的生物量稳定性的维持将面临更大挑战。

关键词: 高寒草甸, 多样性抵抗力, 干旱, 功能稳定性, 氮添加, 物种异步性, 青藏高原

Abstract: Extreme climatic events often co-occur with persistent environmental disturbances, such as nitrogen enrichment, which may influence the resistance and recovery of plant communities to extreme climatic conditions. However, most studies have focused on the resistance and recovery of community functions (e.g. biomass) to climatic events while neglecting the corresponding responses of diversity. Here, we performed a soil nitrogen addition experiment in an alpine meadow from 2011 to 2020, with 2015 characterized by extreme drought. We explored the effects of nitrogen addition on the resistance and recovery of plant community biomass and diversity in response to extreme drought using measures including community biomass, taxonomic diversity (TD), phylogenetic diversity (PD), and functional diversity (FD). We found that nitrogen addition decreased biomass resistance, mainly due to species asynchrony rather than the diversity resistance, even though PD and FD resistance also declined. Meanwhile, nitrogen addition enhanced the recovery of biomass to drought. This was mainly attributable to the direct, positive impact of nitrogen on biomass recovery, coupled with an indirect influence of species asynchrony, without any diversity (TD, PD, FD) recovery’s effects. Our results indicate that soil nitrogen enrichment mainly influences plant biomass responses to extreme drought, with a relatively small effect on plant diversity. Additionally, the mechanisms driving diversity and biomass responses may operate independently, as changes in diversity response did not scale up to changes in biomass. We anticipate that maintenance of plant community biomass during extreme drought would be more challenging in conditions of high nitrogen deposition.

Key words: alpine meadow, diversity resistance, drought, function stability, nitrogen, species asynchrony, Tibetan plateau

. 氮添加通过物种异步性而非多样性响应调控群落生物量对干旱的抵抗力和恢复力[J]. Journal of Plant Ecology, DOI: 10.1093/jpe/rtaf158.

Yimin Zhao, Zhen Zhang, Li Zhang, Miaojun Ma, Guorui Hu, Shurong Zhou. Nitrogen addition regulates community biomass resistance and recovery to drought by altering species asynchrony rather than the diversity response[J]. J Plant Ecol, DOI: 10.1093/jpe/rtaf158.

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氮添加通过物种异步性而非多样性响应调控群落生物量对干旱的抵抗力和恢复力

Nitrogen addition regulates community biomass resistance and recovery to drought by altering species asynchrony rather than the diversity response

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