Add to ORKGClimatic, atmospheric, and land-use changes all have the potential to alter soil microbial activity, mediated by changes in plant inputs. Many microbial models of soil organic carbon (SOC) decomposition have been proposed recently to advance prediction of climate and carbon (C) feedbacks. Most of these models, however, exhibit unrealistic oscillatory behavior and SOC insensitivity to long-term changes in C inputs. Here we diagnose the source of these problems in four archetypal models and propose a density-dependent formulation of microbial turnover, motivated by community-level interactions, that limits population sizes and reduces oscillations. We compare model predictions to 24 long-term C-input field manipulations and identify key bench...
Climate-induced changes in soil microbial physiology impact ecosystem carbon (C) storage and alter t...
This chapter aims to provide a mechanistic understanding of the role microbes play in soil carbon (C...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...
Soils contain more carbon than plants or the atmosphere, and sensitivities of soil organic carbon (S...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
Soils are the largest terrestrial carbon pools and contain approximately 2200 Pg of carbon. Thus, th...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...
International audienceSoils contain the largest amount of land carbon, even a small change of this p...
Soils store more carbon than other terrestrial ecosystems 1,2. How soil organic carbon (SOC) forms a...
Quantifying soil organic carbon (SOC) decomposition under warming is critical to predict carbon-clim...
Global ecosystem models may require microbial components to accurately predict feedbacks between cli...
International audienceFirst‐order organic matter decomposition models are used within most Earth Sys...
Microbes influence soil organic matter decomposition and the long-term stabilization of carbon (C) i...
Recent studies have identified the first-order representation of microbial decomposition as a major ...
Climate-induced changes in soil microbial physiology impact ecosystem carbon (C) storage and alter t...
This chapter aims to provide a mechanistic understanding of the role microbes play in soil carbon (C...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...
Soils contain more carbon than plants or the atmosphere, and sensitivities of soil organic carbon (S...
Society relies on Earth system models (ESMs) to project future climate and carbon (C) cycle feedback...
Soils are the largest terrestrial carbon pools and contain approximately 2200 Pg of carbon. Thus, th...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...
International audienceSoils contain the largest amount of land carbon, even a small change of this p...
Soils store more carbon than other terrestrial ecosystems 1,2. How soil organic carbon (SOC) forms a...
Quantifying soil organic carbon (SOC) decomposition under warming is critical to predict carbon-clim...
Global ecosystem models may require microbial components to accurately predict feedbacks between cli...
International audienceFirst‐order organic matter decomposition models are used within most Earth Sys...
Microbes influence soil organic matter decomposition and the long-term stabilization of carbon (C) i...
Recent studies have identified the first-order representation of microbial decomposition as a major ...
Climate-induced changes in soil microbial physiology impact ecosystem carbon (C) storage and alter t...
This chapter aims to provide a mechanistic understanding of the role microbes play in soil carbon (C...
Soil respiration, a process primarily driven by soil microbes, is the largest flux of carbon from te...