Increasing organic matter (OM) in soil promotes the delivery of vital ecosystem services, such as improving water retention, decreasing erosion, increasing plant productivity, and mitigating climate change through terrestrial carbon (C) sequestration. The formation of organo-mineral associations through microbial turnover of labile (i.e. easily decomposed) C is a potential pathway of soil C stabilization. However, association of added C with mineral surfaces may be impacted by soil clay content and/or by nutrient availability (due to higher microbial C use efficiency). We added 14C labeled glucose as a model labile substrate together with either ion exchange resin beads (to induce nutrient limitation), water (no additional nutrients), or fo...
Abstract. Soil microbial activity is often limited by the absence of readily available carbon (C) ba...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...
The view that soil organic C (SOC) is formed mainly from non-metabolised and recalcitrant organic re...
Long-term contrasts in agricultural management can shift soil resource availability with potential c...
Soil carbon (C) and nitrogen (N) cycles are inextricably linked, yet the impacts of N availability u...
Labile carbon (C) fractions, such as sugars, may persist in soil due to their incorporation into mic...
Input of organic matter to soil may stimulate microbial activity and alter soil carbon storage by mo...
183 pagesThe majority of soil carbon (C) is associated with clay-size organo-mineral particles and i...
A longstanding assumption of glucose tracing experiments is that all glucose is microbially utilized...
Intensive agricultural management often depletes soil organic matter (SOM), the largest terrestrial ...
Understanding the mechanisms of soil carbon (C) formation and loss is essential for predicting the C...
Increasing subsoil organic carbon inputs could potentially mitigate climate change by sequestering a...
Organic carbon (C) is often applied to agricultural soils to increase soil organic matter, however, ...
© 2018 Transformation of sugars by microorganisms is a key process influencing carbon (C) stabiliza...
Abstract. Soil microbial activity is often limited by the absence of readily available carbon (C) ba...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...
The view that soil organic C (SOC) is formed mainly from non-metabolised and recalcitrant organic re...
Long-term contrasts in agricultural management can shift soil resource availability with potential c...
Soil carbon (C) and nitrogen (N) cycles are inextricably linked, yet the impacts of N availability u...
Labile carbon (C) fractions, such as sugars, may persist in soil due to their incorporation into mic...
Input of organic matter to soil may stimulate microbial activity and alter soil carbon storage by mo...
183 pagesThe majority of soil carbon (C) is associated with clay-size organo-mineral particles and i...
A longstanding assumption of glucose tracing experiments is that all glucose is microbially utilized...
Intensive agricultural management often depletes soil organic matter (SOM), the largest terrestrial ...
Understanding the mechanisms of soil carbon (C) formation and loss is essential for predicting the C...
Increasing subsoil organic carbon inputs could potentially mitigate climate change by sequestering a...
Organic carbon (C) is often applied to agricultural soils to increase soil organic matter, however, ...
© 2018 Transformation of sugars by microorganisms is a key process influencing carbon (C) stabiliza...
Abstract. Soil microbial activity is often limited by the absence of readily available carbon (C) ba...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Soil organic matter (SOM) is the largest actively-cycling terrestrial reservoir of carbon (C) and an...