Litcius/Paper detail

Mycorrhizal association controls soil carbon-degrading enzyme activities and soil carbon dynamics under nitrogen addition: A systematic review

Yuanliu Hu, Ji Chen, Jørgen E. Olesen, Kees Jan van Groenigen, Dafeng Hui, Xinhua He, Guoyin Chen, Qi Deng

2024The Science of The Total Environment11 citationsDOIOpen Access PDF

Abstract

Recent evidence suggests that changes in carbon-degrading extracellular enzyme activities (C-EEAs) can help explain soil organic carbon (SOC) dynamics under nitrogen (N) addition. However, the factors controlling C-EEAs remain unclear, impeding the inclusion of microbial mechanisms in global C cycle models. Using meta-analysis, we show that the responses of C-EEAs to N addition were best explained by mycorrhizal association across a wide range of environmental and experimental factors. In ectomycorrhizal (ECM) dominated ecosystems, N addition suppressed C-EEAs targeting the decomposition of structurally complex macromolecules by 13.1 %, and increased SOC stocks by 5.2 %. In contrast, N addition did not affect C-EEAs and SOC stocks in arbuscular mycorrhizal (AM) dominated ecosystems. Our results indicate that earlier studies may have overestimated SOC changes under N addition in AM-dominated ecosystems and underestimated SOC changes in ECM-dominated ecosystems. Incorporating this mycorrhizal-dependent impact of EEAs on SOC dynamics into Earth system models could improve predictions of SOC dynamics under environmental changes.

Topics & Concepts

Soil carbonEcosystemNitrogenCarbon fibersCarbon cycleTerrestrial ecosystemEnvironmental scienceChemistryEcologySoil waterBiologySoil scienceMaterials scienceComposite materialComposite numberOrganic chemistrySoil Carbon and Nitrogen DynamicsMycorrhizal Fungi and Plant InteractionsPeatlands and Wetlands Ecology