Agricultural systems are increasingly managed for improving soil carbon (C) accumulation. However, there are limits to C returns in agricultural systems that constrain soil C accumulation capacity. Increasing the efficiency of how soil microbes process C is gaining interest as an important management strategy for increasing soil C and is a key feature of soil C dynamics in many new microbial-explicit models. A higher microbial C use efficiency (CUE) may increase C storage while reducing C system losses and is a fundamental trait affecting community assembly dynamics and nutrient cycling. However, the numerous ecological unknowns influencing CUE limit our ability to effectively manage CUE in agricultural soils for greater soil C storage. In ...
This chapter deals with the impact on soil microbiology of innovative management techniques for enha...
This chapter aims to provide a mechanistic understanding of the role microbes play in soil carbon (C...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
Intensive agricultural management often depletes soil organic matter (SOM), the largest terrestrial ...
Carbon use efficiency (CUE) is the proportion of carbon consumed by a microbe that is converted to b...
Microbial carbon use efficiency (CUE) is a critical regulator of soil organic matter dynamics and te...
In agricultural systems, an increasingly prevalent goal is to promote carbon sequestration into stab...
Plant communities strongly influence soil microbial communities and, in turn, soil carbon (C) cyclin...
Climate-induced changes in soil microbial physiology impact ecosystem carbon (C) storage and alter t...
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...
This paper reviews the current knowledge of microbial processes affecting C sequestration in agroeco...
This chapter deals with the impact on soil microbiology of innovative management techniques for enha...
This chapter aims to provide a mechanistic understanding of the role microbes play in soil carbon (C...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
Strategies for mitigating soil organic carbon (SOC) losses in intensively managed agricultural syste...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
Intensive agricultural management often depletes soil organic matter (SOM), the largest terrestrial ...
Carbon use efficiency (CUE) is the proportion of carbon consumed by a microbe that is converted to b...
Microbial carbon use efficiency (CUE) is a critical regulator of soil organic matter dynamics and te...
In agricultural systems, an increasingly prevalent goal is to promote carbon sequestration into stab...
Plant communities strongly influence soil microbial communities and, in turn, soil carbon (C) cyclin...
Climate-induced changes in soil microbial physiology impact ecosystem carbon (C) storage and alter t...
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...
This paper reviews the current knowledge of microbial processes affecting C sequestration in agroeco...
This chapter deals with the impact on soil microbiology of innovative management techniques for enha...
This chapter aims to provide a mechanistic understanding of the role microbes play in soil carbon (C...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...