树种菌根类型与根系性状对根际微生物网络复杂性的影响

doi:10.17521/cjpe.2024.0001

植物生态学报 ›› 2025, Vol. 49 ›› Issue (4): 1-0.DOI: 10.17521/cjpe.2024.0001 cstr: 32100.14.cjpe.2024.0001

所属专题：植物功能性状

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树种菌根类型与根系性状对根际微生物网络复杂性的影响

郭李琦¹,闫晓蕾¹,曹磊¹,高景²,³,刘瑞强¹,周旭辉¹

1. 东北林业大学林学院
2. 三峡集团上海勘测设计研究院有限公司
3. 东北林业大学

收稿日期:2024-01-02 修回日期:2024-04-29 出版日期:2025-04-20 发布日期:2025-03-26

Effects of mycorrhizal types and root traits of tree species on rhizosphere microbial networks complexity

¹,Xiaolei Yan²,lei CAO², ¹,¹,Ruiqiang Liu²,Xuhui Zhou²

1.
2. School of Forestry, Northeast Forestry University

Received:2024-01-02 Revised:2024-04-29 Online:2025-04-20 Published:2025-03-26

摘要/Abstract

摘要： 根际微生物网络深刻影响土壤碳周转、养分循环与植物生长等诸多生态过程。植物菌根类型与根系性状是影响植物生长与地下养分利用策略的重要因素, 然而不同菌根类型树种根系性状对根际微生物群落组成及网络性质的影响目前尚不清楚。本研究以帽儿山温带次生林为研究对象,测定了5种丛枝菌根(Arbuscular mycorrhiza, AM)与7种外生菌根(Ectomycorrhiza, EcM)树种的根系性状与根际土壤微生物群落组成, 探究不同树种菌根类型根系性状差异及其对根际微生物网络特性的影响。结果显示: (1)AM树种的细根比根长、根系氮、磷含量均高于EcM树种, 不同菌根类型树种的根组织密度、根直径、根氮磷比无显著差异; (2)AM树种根际罗兹菌门(Rozellomycota)的相对丰度显著高于EcM树种, 拟杆菌门(Bacteroidota)相对丰度显著低于EcM树种, 不同菌根类型树种根际微生物群落多样性无显著差异; (3)EcM树种根际微生物网络更复杂, 细菌负凝聚力(Cohesion)显著强于AM树种; (4)AM树种根际微生物群落及网络复杂性主要受比根长影响, 而在EcM树种根际主要受根系直径、根氮磷比调节。研究结果表明, 树种菌根类型显著影响根系比根长和养分含量等资源获取性状, 并调控根系性状与根际微生物群落的联系, 从而改变微生物网络复杂性。

关键词: 菌根类型, 根系性状, 化学计量, 微生物共现网络

Abstract: Aims The rhizosphere microbial network characteristics profoundly influence various ecological processes including soil carbon turnover, nutrient cycling and plant growth. Mycorrhizal types and root traits are crucial factors that affect plant growth and below-ground nutrient acquisition strategies. However, it is currently unclear how the root characteristics of different mycorrhizal tree species affect the topological structure of the rhizosphere microbial network. Methods This study focused on the secondary forest and investigated the root traits and rhizosphere soil microorganisms of five arbuscular mycorrhizal(AM) tree species and seven ectomycorrhizal(EcM) tree species to explore the impact and mechanisms of mycorrhizal types on root traits and rhizosphere microbial network characteristics. Important findings (1) Specific root length, root nitrogen, and root phosphorus content of AM tree species were all higher than those of EcM tree species, while root tissue density, root diameter and root nitrogen-to-phosphorus ratio showed no significant differences between the two mycorrhizal types. (2) The relative abundance of Rozellomycota in the rhizosphere of AM tree species is significantly higher than that of EcM tree species, while the relative abundance of Bacteroidota is significantly lower in AM tree species compared to EcM tree species. There is no significant difference in the diversity of rhizosphere microbial communities between different mycorrhizal type tree species. (3) The rhizosphere microbial network of EcM tree species is more complex, and the negative bacterial cohesion of EcM tree species are significantly stronger than AM tree species. (4) The specific root length of AM tree species and the root diameter and root nitrogen-to-phosphorus ratio of EcM tree species are identified as crucial factors predicting rhizosphere microbial communities. These findings suggest that the mycorrhizal type of tree species significantly influences root traits such as specific root length and nutrient content to regulate the relationship between root traits and rhizosphere microbial communities and network complexity.

Key words: mycorrhizal association types, root traits, stoichiometry, microbial co-occurrence network

郭李琦闫晓蕾曹磊高景刘瑞强周旭辉. 树种菌根类型与根系性状对根际微生物网络复杂性的影响. 植物生态学报, 2025, 49(4): 1-0. DOI: 10.17521/cjpe.2024.0001

Xiaolei Yan lei CAO Ruiqiang Liu Xuhui Zhou. Effects of mycorrhizal types and root traits of tree species on rhizosphere microbial networks complexity. Chinese Journal of Plant Ecology, 2025, 49(4): 1-0. DOI: 10.17521/cjpe.2024.0001

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链接本文: https://www.plant-ecology.com/CN/10.17521/cjpe.2024.0001

https://www.plant-ecology.com/CN/Y2025/V49/I4/1

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树种菌根类型与根系性状对根际微生物网络复杂性的影响

Effects of mycorrhizal types and root traits of tree species on rhizosphere microbial networks complexity

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