Litcius/Paper detail

Improved model simulation of soil carbon cycling by representing the microbially derived organic carbon pool

Xianlei Fan, Decai Gao, Chunhong Zhao, Chao Wang, Ying Qu, Jing Zhang, Edith Bai

2021The ISME Journal126 citationsDOIOpen Access PDF

Abstract

Abstract During the decomposition process of soil organic carbon (SOC), microbial products such as microbial necromass and microbial metabolites may form an important stable carbon (C) pool, called microbially derived C, which has different decomposition patterns from plant-derived C. However, current Earth System Models do not simulate this microbially derived C pool separately. Here, we incorporated the microbial necromass pool to the first-order kinetic model and the Michaelis–Menten model, respectively, and validated model behaviors against previous observation data from the decomposition experiments of 13C-labeled necromass. Our models showed better performance than existing models and the Michaelis–Menten model was better than the first-order kinetic model. Microbial necromass C was estimated to be 10–27% of total SOC in the study soils by our models and therefore should not be ignored. This study provides a novel modification to process-based models for better simulation of soil organic C under the context of global changes.

Topics & Concepts

DecompositionSoil carbonContext (archaeology)Carbon cycleCarbon fibersSoil waterEnvironmental chemistrySoil organic matterTotal organic carbonCyclingBiological systemSoil scienceBiochemical engineeringBiologyEnvironmental scienceEcologyChemistryComputer scienceEcosystemForestryAlgorithmComposite numberPaleontologyEngineeringGeographySoil Carbon and Nitrogen DynamicsGut microbiota and healthMicrobial Community Ecology and Physiology