Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cycling, which are regulated by plant and soil-microbial activities. A fundamental challenge exists to link microbial biodiversity with plant-soil C cycling processes to elucidate the underlying mechanisms regulating soil carbon. To address this, we contrasted vegetated grassland soils with bare soils, which had been plant-free for 3 years, using stable isotope (13C) labeled substrate assays and molecular analyses of bacterial communities. Vegetated soils had higher C and N contents, biomass, and substrate-specific respiration rates. Conversely, following substrate addition unlabeled, native soil C cycling was accelerated in bare soil and retar...
Terrestrial carbon (C) represents the largest active global C pool. Microbes are estimated to mediat...
peer-reviewedSupplementary information (datafile) for Kerry B. Ryan, Alexandre De Menezes, John A. F...
• Root carbon (C) inputs may regulate decomposition rates in soil, and in this study we ask: how do ...
Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cy...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
It is increasingly being recognized that the soil microbes can mineralize recalcitrant soil organic ...
Species-rich plant communities have been shown to be more productive and to exhibit increased long-t...
Ecosystem responses to nitrogen (N) additions are manifold and complex, and also affect the carbon (...
Microbial decomposition of soil organic matter (SOM) can be accelerated or reduced by the combined e...
Current attempts to explain the persistence of carbon in soils focuses on explanations such as the r...
EA GenoSol EcolDur CT3International audienceSoil organic matter (SOM) represents the main pool of ca...
Inputs of fresh plant-derived C may stimulate microbially-mediated turnover of soil organic matter (...
Species‐rich plant communities have been shown to be more productive and to exhibit increased long‐t...
It is becoming increasingly clear that plant roots can impact the decomposition of existing soil C i...
Understanding how altered soil organic carbon (SOC) availability affects microbial communities and t...
Terrestrial carbon (C) represents the largest active global C pool. Microbes are estimated to mediat...
peer-reviewedSupplementary information (datafile) for Kerry B. Ryan, Alexandre De Menezes, John A. F...
• Root carbon (C) inputs may regulate decomposition rates in soil, and in this study we ask: how do ...
Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cy...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
It is increasingly being recognized that the soil microbes can mineralize recalcitrant soil organic ...
Species-rich plant communities have been shown to be more productive and to exhibit increased long-t...
Ecosystem responses to nitrogen (N) additions are manifold and complex, and also affect the carbon (...
Microbial decomposition of soil organic matter (SOM) can be accelerated or reduced by the combined e...
Current attempts to explain the persistence of carbon in soils focuses on explanations such as the r...
EA GenoSol EcolDur CT3International audienceSoil organic matter (SOM) represents the main pool of ca...
Inputs of fresh plant-derived C may stimulate microbially-mediated turnover of soil organic matter (...
Species‐rich plant communities have been shown to be more productive and to exhibit increased long‐t...
It is becoming increasingly clear that plant roots can impact the decomposition of existing soil C i...
Understanding how altered soil organic carbon (SOC) availability affects microbial communities and t...
Terrestrial carbon (C) represents the largest active global C pool. Microbes are estimated to mediat...
peer-reviewedSupplementary information (datafile) for Kerry B. Ryan, Alexandre De Menezes, John A. F...
• Root carbon (C) inputs may regulate decomposition rates in soil, and in this study we ask: how do ...