亚热带人工林群落叶片养分特征通过调节土壤养分与微生物群落驱动土壤碳稳定性

doi:10.1093/jpe/rtaf135

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亚热带人工林群落叶片养分特征通过调节土壤养分与微生物群落驱动土壤碳稳定性

收稿日期:2025-01-16 接受日期:2025-08-06

Community leaf nutrient characteristics drive soil carbon stabilization by regulating soil nutrient and microbial community in a subtropical forest plantation

Yun Liang^1,2,#, Mingyan Hu^1,#, Scott X. Chang³, Stavros Veresoglou¹, Mengxue Wang¹, Anqi Dong¹, Jie Wang¹, Chenyan Huang¹, Yiling Tian¹, Zilong Ma^1,*, Chengjin Chu¹

¹State Key Laboratory of Biocontrol, School of Ecology, Sun Yat-sen University, Guangzhou 510275, China;

²Eco-environmental Protection Institute, Shanghai Academy of Agricultural Sciences, Shanghai 201403, China;

³Department of Renewable Resources, University of Alberta, Edmonton, Alberta T6G 2E3, Canada;

^*Author for correspondence. Email: mazlong@mail.sysu.edu.cn

^#These authors contributed equally to this work

Received:2025-01-16 Accepted:2025-08-06
Supported by:
This research was supported by Guangdong Basic and Applied Basic Research Foundation (2022A1515111035; 2023A1515010643), Shenzhen Science and Technology Program (JCYJ20230807111116034), National Natural Science Foundation of China (32101272; 32330064), and Fundamental Research Funds for the Central Universities, Sun Yat-sen University (23lgbj009).

摘要/Abstract

摘要： 树种多样性已被发现能够促进森林土壤有机碳(soil organic carbon, SOC)的积累，但其对土壤有机碳稳定性的影响尚不明确。本研究基于一项建立六年的森林生物多样性实验(包含单种、2种、4种和8种树种混交林)，评估了叶片养分功能多样性(functional diversity, FDis)和群落加权均值(community-weighted mean, CWM)如何通过改变土壤微生物群落影响矿物结合态有机碳(mineral-associated organic carbon, MAOC)的形成。结果表明，叶片氮(LN_mass)和磷(LP_mass)含量的功能多样性，以及LP_mass的CWM，通过降低土壤微生物生物量，减少了MAOC含量及矿物结合有机碳与土壤有机碳比(MAOC:SOC)。此外，LN_mass的CWM通过降低真菌与细菌生物量比(F:B)减少了MAOC:SOC比，而LP_mass的CWM则对MAOC:SOC比产生直接正向效应。同时，土壤养分有效性介导了叶片养分多样性对土壤微生物群落的影响。研究结果表明，叶片养分多样性通过调节微生物生物量及F:B影响土壤有机碳稳定性，为理解植物化学性状在森林生态系统土壤有机碳稳定维持中的生态作用提供了新见解。

关键词: 生物多样性-生态系统功能, 土壤养分, 磷脂脂肪酸分析, 微生物群落组成, 酶活性

Abstract: Tree species diversity has been found to promote soil organic carbon (SOC) in forests, but its effects on SOC stability have been poorly studied. Using a six-year-old forest biodiversity experiment with monocultures and mixtures of two, four, and eight tree species, we specifically evaluated how functional diversity (FDis) and community-weighted mean (CWM) of leaf nutrients influence the formation of mineral-associated organic carbon (MAOC) via altering the soil microbial community. We found that FDis of leaf nitrogen (LN_mass) and phosphorus (LP_mass) contents, as well as CWM of LP_mass were negatively associated with MAOC, patterns that were mediated by microbial biomass. In addition, CWM of LN_mass was negatively associated with the MAOC:SOC ratio, a relationship mediated by a decrease in the ratio of fungal to bacterial biomass (F:B ratio), while CWM of LP_mass exhibited a direct positive effect on the MAOC:SOC ratio. We also found that soil nutrient availability mediated the relationship between the diversity of leaf nutrients on the soil microbial community. Our results suggested that the diversity of leaf nutrient contents may shape SOC stabilization through moderating microbial biomass and F:B ratio, offering insights into the ecological importance of plant chemical traits in driving SOC stabilization in forest ecosystems.

Key words: biodiversity-ecosystem functioning, soil nutrients, phospholipid fatty acid analysis, microbial community composition, enzyme activities

. 亚热带人工林群落叶片养分特征通过调节土壤养分与微生物群落驱动土壤碳稳定性[J]. Journal of Plant Ecology, DOI: 10.1093/jpe/rtaf135.

Yun Liang, Mingyan Hu, Scott X. Chang, Stavros Veresoglou, Mengxue Wang, Anqi Dong, Jie Wang, Chenyan Huang, Yiling Tian, Zilong Ma, Chengjin Chu. Community leaf nutrient characteristics drive soil carbon stabilization by regulating soil nutrient and microbial community in a subtropical forest plantation[J]. J Plant Ecol, DOI: 10.1093/jpe/rtaf135.

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