Spatial variability of soil fungal and bacterial abundance: Consequences for carbon turnover along a transition from a forested to clear-cut site
Author
Summary, in English
Predicted alterations in belowground plant-allocated C as a result of environmental change may cause compositional shifts in soil microbial communities, and it has been hypothesized that such alterations will influence C mitigation in forest ecosystems. In order to investigate to what degree living trees influence the abundance and activity of mycorrhizal fungi, saprotrophic fungi, and bacteria we used a geostatistical approach to examine natural abundance stable-isotope-ratios of soil microbial PLFAs, respired CO2, and different soil organic C pools in a 100 point grid extending from an area of retention trees into a clear-cut area. Labile C from trees was the major source of C for the fungal communities and influenced the composition of the microbial community and soil respiration rates up to ten meters into the clear-cut. When the input of labile plant C decreased, it appeared that microorganisms became increasingly dependent on recycled C released during microbial turnover, resulting in a decrease in soil respiration. Our findings demonstrate that plants not only influence the structure and function of soil microbial communities but also act as important regulators of belowground C flux, soil C sequestration and, ultimately, soil C stocks. (c) 2013 Elsevier Ltd. All rights reserved.
Publishing year
2013
Language
English
Pages
5-13
Publication/Series
Soil Biology & Biochemistry
Volume
63
Document type
Journal article
Publisher
Elsevier
Topic
- Biological Sciences
Keywords
- Carbon cycling
- Soil microorganisms
- Forests
- Spatial variation
- C-13
- natural abundance
- CO2
- Clear-cut
Status
Published
Research group
- Microbial Ecology
ISBN/ISSN/Other
- ISSN: 0038-0717