Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural systems typically draw from traditional concepts of soil organic matter formation, and thus emphasize increasing C inputs, especially from slowly decomposing crop residues, and reducing soil disturbance. However these approaches are often ineffective and do not adequately reflect current views of SOC cycling, which stress the important contributions of microbial biomass (MB) inputs to SOC. We examined microbial physiology as an alternate mechanism of SOC accumulation under organic (ORG) compared to conventional (CT) agricultural management practices, where ORG is accumulating C despite fewer total C inputs and greater soil tillage. We hypothesized...
<div><p>Population growth and climate change challenge our food and farming systems and provide argu...
Agronomic practices such as crop residue return and additional nutrient supply are recommended to in...
Microbial carbon use efficiency (CUE) strongly influences the rate of soil organic carbon (SOC) form...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Intensive agricultural management often depletes soil organic matter (SOM), the largest terrestrial ...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
Long-term contrasts in agricultural management can shift soil resource availability with potential c...
We investigated how conversion from conventional agriculture to organic management affected the stru...
Microbial necromass is a large and persistent component of soil organic carbon (SOC), especially und...
International audienceStover mulching over no-till soil is regarded as a promising practice to incre...
Increasing organic matter (OM) in soil promotes the delivery of vital ecosystem services, such as im...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...
This paper investigated the flow of carbon into different groups of soil microorganisms isolated fro...
Processes controlling microbial access to soil organic matter are critical for soil nutrient cycling...
Soil carbon (C) and nitrogen (N) cycles are inextricably linked, yet the impacts of N availability u...
<div><p>Population growth and climate change challenge our food and farming systems and provide argu...
Agronomic practices such as crop residue return and additional nutrient supply are recommended to in...
Microbial carbon use efficiency (CUE) strongly influences the rate of soil organic carbon (SOC) form...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Intensive agricultural management often depletes soil organic matter (SOM), the largest terrestrial ...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
Long-term contrasts in agricultural management can shift soil resource availability with potential c...
We investigated how conversion from conventional agriculture to organic management affected the stru...
Microbial necromass is a large and persistent component of soil organic carbon (SOC), especially und...
International audienceStover mulching over no-till soil is regarded as a promising practice to incre...
Increasing organic matter (OM) in soil promotes the delivery of vital ecosystem services, such as im...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...
This paper investigated the flow of carbon into different groups of soil microorganisms isolated fro...
Processes controlling microbial access to soil organic matter are critical for soil nutrient cycling...
Soil carbon (C) and nitrogen (N) cycles are inextricably linked, yet the impacts of N availability u...
<div><p>Population growth and climate change challenge our food and farming systems and provide argu...
Agronomic practices such as crop residue return and additional nutrient supply are recommended to in...
Microbial carbon use efficiency (CUE) strongly influences the rate of soil organic carbon (SOC) form...