Microbial decomposers are responsible for the breakdown of organic matter (OM) and thus regulate soil carbon (C) stocks. During the decomposition of OM, microorganisms can use the assimilated C for biomass production or respire it as CO2, and the fraction of growth to total assimilation defines the microbial carbon-use efficiency (CUE). As such, CUE has direct consequences for how microbial decomposers affect the balance of C between atmosphere and soil. We estimated fungal and bacterial growth in C units in microcosm systems with submerged plant litter. We established conversion factors between bacterial and fungal growth to biomass and applied this to a dataset representing 9 different sites in temperate forest soils, temperate agricultur...
Soil microbial carbon utilization efficiency (CUE) is the efficiency with which microorganisms conve...
The carbon use efficiency (CUE) of soil microorganisms is a critical parameter for the first step of...
Carbon use efficiency (CUE), the proportion of carbon (C) consumed by microbes that is converted int...
Microbial carbon use efficiency (CUE), or the partitioning of assimilated C into growth or respirati...
Microbial decomposers process a great majority of net primary production in the biosphere and regula...
Fungi and bacteria are the two principal microbial groups in soil, responsible for the breakdown of ...
The carbon use efficiency (CUE) of microbial communities partitions the flow of C from primary produ...
Soil stores more carbon (C) than all vegetation and the atmosphere combined. Soil C stocks are broad...
Understanding how altered soil organic carbon (SOC) availability affects microbial communities and t...
This paper investigated the flow of carbon into different groups of soil microorganisms isolated fro...
During the last decade it has been increasingly acknowledged that carbon (C) contained in root exuda...
Soil microorganisms are considered C-limited, while plant productivity is frequently N-limited. Larg...
Ecosystem responses to nitrogen (N) additions are manifold and complex, and also affect the carbon (...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...
Despite several lines of observational evidence, there is a lack of consensus on whether higher fung...
Soil microbial carbon utilization efficiency (CUE) is the efficiency with which microorganisms conve...
The carbon use efficiency (CUE) of soil microorganisms is a critical parameter for the first step of...
Carbon use efficiency (CUE), the proportion of carbon (C) consumed by microbes that is converted int...
Microbial carbon use efficiency (CUE), or the partitioning of assimilated C into growth or respirati...
Microbial decomposers process a great majority of net primary production in the biosphere and regula...
Fungi and bacteria are the two principal microbial groups in soil, responsible for the breakdown of ...
The carbon use efficiency (CUE) of microbial communities partitions the flow of C from primary produ...
Soil stores more carbon (C) than all vegetation and the atmosphere combined. Soil C stocks are broad...
Understanding how altered soil organic carbon (SOC) availability affects microbial communities and t...
This paper investigated the flow of carbon into different groups of soil microorganisms isolated fro...
During the last decade it has been increasingly acknowledged that carbon (C) contained in root exuda...
Soil microorganisms are considered C-limited, while plant productivity is frequently N-limited. Larg...
Ecosystem responses to nitrogen (N) additions are manifold and complex, and also affect the carbon (...
Microbial sequestration of Carbon in soil can be compared to a microbial carnival. Each microbe have...
Despite several lines of observational evidence, there is a lack of consensus on whether higher fung...
Soil microbial carbon utilization efficiency (CUE) is the efficiency with which microorganisms conve...
The carbon use efficiency (CUE) of soil microorganisms is a critical parameter for the first step of...
Carbon use efficiency (CUE), the proportion of carbon (C) consumed by microbes that is converted int...