Mycorrhizal types and leaf habits co-regulate soil organic carbon in subtropical forests

doi:10.1093/jpe/rtag073

J Plant Ecol ›› Advance articles DOI:10.1093/jpe/rtag073

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Mycorrhizal types and leaf habits co-regulate soil organic carbon in subtropical forests

Wanting Jiang¹, Rui Zhang¹, Wenhua Xiang^1,2,3, Xi Fang^1,2,3, Xiangwen Deng^1,2,3, Liang Chen^1,2,3, Pifeng Lei^1,2,3, Yeilin Zeng^1,2,3, Yanting Hu^1,2,3, Huili Wu^1,2,3, Baoan Hu^1,2,3, Shuai Ouyang^1,2,3*

1 College of Ecology and Environment, Central South University of Forestry and Technology, Changsha 410004, China;
2 Huitong National Station for Scientific Observation and Research of Chinese Fir Plantation Ecosystems in Hunan Province, Huitong 438107, China;
3 National Engineering Lab for Applied Technology of Forestry and Ecology in South China, Changsha 410004, China
^*Corresponding author:Shuai Ouyang
E-mail:yangshuai8613@163.com

Received:2025-11-23 Revised:2026-01-21 Accepted:2026-02-28 Published:2026-04-25
Supported by:
This research was supported by the Natural Science Foundation of China (32371849 and 32071561), the Hunan Provincial Natural Science Foundation of China (2024JJ6710), the Changsha Municipal Natural Science Foundation (kq2402250) and the Huitong Forest Ecological Station funded by the State Forestry and Grassland Administration of China.

菌根类型和叶片习性共同调控亚热带森林土壤有机碳

Abstract

Abstract: Forest soil organic carbon (SOC) constitutes a critical component of the terrestrial carbon pool. While the two tree characteristics [arbuscular mycorrhizal (AM) and ectomycorrhizal (ECM)] and the leaf habits (e.g. evergreen vs. deciduous) are known to significantly influence soil carbon cycling. The combined effects of mycorrhizal types and leaf habits on SOC accumulation in subtropical forests are poorly understood. To elucidate the relative importance of mycorrhizal types and leaf habits on SOC accumulation and its drivers, we sampled soil at four subtropical forests, representing distinct mycorrhizal-leaf habits combinations: evergreen ECM-associated, evergreen AM-associated, deciduous ECM-associated and deciduous AM-associated forests. Our results showed that both mycorrhizal types and leaf habits significantly influenced SOC accumulation. ECM-evergreen forests exhibited the highest SOC stocks, primarily driven by enhanced particulate organic carbon (POC) accumulation, together with elevated extracellular enzyme activities and a higher ratio of fungi to bacteria (F/B), consistent with a slow- decomposition strategy. In contrast, AM-associated and deciduous forests promoted a greater proportion of mineral-associated organic carbon (MAOC), reflecting faster microbial turnover and more efficient microbial-mineral stabilization. Leaf habits modulated mycorrhizal effects, attenuating differences between AM and ECM forests. Our work elucidated how mycorrhizal types and leaf habits co-shape SOC accumulation in subtropical forests, offering valuable scientific insights for species selection in forest management strategies focused on carbon accumulation.

Key words: arbuscular mycorrhizal, ectomycorrhizal, enzymes activity, forest type, mineral-associated organic carbon, particulate organic carbon, subtropic

摘要：
森林土壤有机碳（SOC）是陆地碳库的重要组成部分。树种的菌根类型（丛枝菌根与外生菌根）和叶片习性（常绿与落叶）已被证实能够显著影响土壤碳循环过程，然而两者在亚热带森林SOC积累中的共同作用尚缺乏深入认识。为揭示菌根类型与叶片习性对SOC积累的相对贡献及其驱动因子，本研究选取了亚热带四种典型森林类型（外生菌根常绿林、丛枝菌根常绿林、外生菌根落叶林和丛枝菌根落叶林）开展土壤采样与分析。研究结果表明，菌根类型与叶片习性均显著影响SOC的积累。外生菌根常绿林的SOC最高，主要表现为颗粒有机碳的显著积累，具有较高的胞外酶活性和真菌/细菌比值，符合“缓慢分解”策略。相比之下，丛枝菌根林和落叶林则促进矿物结合态有机碳的积累，反映了微生物快速周转及与矿物基质的高效结合过程。叶片习性对菌根的影响效应具有调节作用，削弱了丛枝菌根林与外生菌根林之间的差异。本研究证实了树种菌根类型和叶片习性共同调控亚热带森林SOC的积累，研究结果可为森林经营管理中合理配置树种进而提升土壤固碳能力提供科学依据。

关键词: 丛枝菌根, 外生菌根, 酶活性, 森林类型, 矿物结合态有机碳, 颗粒有机碳, 亚热带

Wanting Jiang, Rui Zhang, Wenhua Xiang, Xi Fang, Xiangwen Deng, Liang Chen, Pifeng Lei, Yeilin Zeng, Yanting Hu, Huili Wu, Baoan Hu, Shuai Ouyang. Mycorrhizal types and leaf habits co-regulate soil organic carbon in subtropical forests[J]. J Plant Ecol, DOI: 10.1093/jpe/rtag073.

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Mycorrhizal types and leaf habits co-regulate soil organic carbon in subtropical forests

菌根类型和叶片习性共同调控亚热带森林土壤有机碳

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