This study investigates the influence of C3 and C4 plants, soil texture and seasonal changes on the structure and assimilation of plant-derived C of soil microbial communities. In 2012 we collected soil samples in the growing and non-growing season from a vegetation change experiment cropping herbaceous C3 and C4 plants for 6 years on two soils differing in their texture. Phospholipid fatty acids and their compound-specific δ13C values were used to determine microbial community biomass and its composition and the assimilation of C from plants to soil microorganisms, respectively. While soil microbial biomass differed mainly between seasons, the microbial community composition was related to soil texture. The proportion of plant-derived C as...
Organic farming is one of the most promising alternatives to intensive agriculture. Crop plant-soil ...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
Soils play a key role in the terrestrial carbon (C) cycle by storing and emitting large quantities o...
The flow of new and native plant-derived C in the rhizosphere of an agricultural field during one gr...
Land use change driven alteration of microbial communities can have implications on belowground C cy...
This study investigates how carbon sources of soil microbial communities vary with soil depth. Micro...
Plant species effects on microbial communities are attributed to changes in microbial community comp...
In this study we used compound specific C-13 and C-14 isotopic signatures to determine the degree to...
Soil microorganisms are key mediators of soil carbon (C) cycling; however several plant and soil rel...
We investigated how conversion from conventional agriculture to organic management affected the stru...
Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cy...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
The relative contribution of different microbial groups to soil organic matter (SOM) turnover and ut...
Plant communities strongly influence soil microbial communities and, in turn, soil carbon (C) cyclin...
Species-rich plant communities have been shown to be more productive and to exhibit increased long-t...
Organic farming is one of the most promising alternatives to intensive agriculture. Crop plant-soil ...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
Soils play a key role in the terrestrial carbon (C) cycle by storing and emitting large quantities o...
The flow of new and native plant-derived C in the rhizosphere of an agricultural field during one gr...
Land use change driven alteration of microbial communities can have implications on belowground C cy...
This study investigates how carbon sources of soil microbial communities vary with soil depth. Micro...
Plant species effects on microbial communities are attributed to changes in microbial community comp...
In this study we used compound specific C-13 and C-14 isotopic signatures to determine the degree to...
Soil microorganisms are key mediators of soil carbon (C) cycling; however several plant and soil rel...
We investigated how conversion from conventional agriculture to organic management affected the stru...
Soil carbon (C) storage is dependent upon the complex dynamics of fresh and native organic matter cy...
Low bioavailability of organic carbon (C) and energy are key constraints to microbial biomass and ac...
The relative contribution of different microbial groups to soil organic matter (SOM) turnover and ut...
Plant communities strongly influence soil microbial communities and, in turn, soil carbon (C) cyclin...
Species-rich plant communities have been shown to be more productive and to exhibit increased long-t...
Organic farming is one of the most promising alternatives to intensive agriculture. Crop plant-soil ...
Soil microorganisms act as gatekeepers for soil–atmosphere carbon exchange by balancing the accumula...
Soils play a key role in the terrestrial carbon (C) cycle by storing and emitting large quantities o...