Litcius/Paper detail

Nutrient Addition Enhances the Temperature Sensitivity of Soil Carbon Decomposition Across Forest Ecosystems

Chen Chen, Junmin Pei, Bo Li, Changming Fang, Ming Nie, Jinquan Li

2024Global Change Biology16 citationsDOIOpen Access PDF

Abstract

ABSTRACT Atmospheric nitrogen (N) and phosphorus (P) depositions have been shown to alter nutrient availability in terrestrial ecosystems and thus largely influence soil carbon cycling processes. However, the general pattern of nutrient‐induced changes in the temperature response of soil carbon decomposition is unknown. Yet, understanding this pattern is crucial in terms of its effect on soil carbon–climate feedback. Here, we report that N and P additions significantly increase the temperature sensitivity of soil organic carbon decomposition ( Q 10 ) by sampling soils from 36 sites across China's forests. We found that N, P, and their co‐addition (NP) significantly increased the Q 10 by 11.3%, 11.5%, and 23.9%, respectively. The enhancement effect of nutrient addition on Q 10 was more evident in soils from warm regions than in those from cold regions. Moreover, we found that nutrient‐induced changes in substrate availability and initial substrate and nutrient availability mainly regulated nutrient addition effects. Our findings highlight that N and P deposition enhances the temperature response of soil carbon decomposition, suggesting that N and P deposition should be incorporated into Earth system models to improve the projections of soil carbon feedback to climate change.

Topics & Concepts

NutrientSoil carbonEnvironmental scienceSoil waterCarbon fibersEcosystemCarbon cycleTerrestrial ecosystemNutrient cycleDeposition (geology)PhosphorusDecompositionSoil organic matterEnvironmental chemistrySubstrate (aquarium)Soil scienceAgronomyEcologyChemistryBiologyMaterials scienceComposite materialSedimentOrganic chemistryComposite numberPaleontologySoil Carbon and Nitrogen DynamicsPeatlands and Wetlands EcologySoil and Water Nutrient Dynamics