Increased microbial growth, biomass, and turnover drive soil organic carbon accumulation at higher plant diversity
University of Vienna · University of Lausanne · +3 more institutions
Abstract
Species-rich plant communities have been shown to be more productive and to exhibit increased long-term soil organic carbon (SOC) storage. Soil microorganisms are central to the conversion of plant organic matter into SOC, yet the relationship between plant diversity, soil microbial growth, turnover as well as carbon use efficiency (CUE) and SOC accumulation is unknown. As heterotrophic soil microbes are primarily carbon limited, it is important to understand how they respond to increased plant-derived carbon inputs at higher plant species richness (PSR). We used the long-term grassland biodiversity experiment in Jena, Germany, to examine how microbial physiology responds to changes in plant diversity and how…
Citation impact
- FWCI
- 25.03
- Percentile
- 100%
- References
- 65
Authors
8- JPJudith PrommerCorresponding
University of Vienna
- TWTom W. N. Walker
University of Vienna, University of Lausanne
- WWWolfgang WanekCorresponding
University of Vienna
- JBJudith Braun
University of Vienna, Scottish Association For Marine Science
- DZDavid Zezula
University of Vienna
Topics & keywords
- Biomass (ecology)
- Soil carbon
- Heterotroph
- Soil organic matter
- Carbon cycle
- Carbon fibers
- Agronomy
- Microorganism