期刊
PLANT AND SOIL
卷 438, 期 1-2, 页码 19-38出版社
SPRINGER
DOI: 10.1007/s11104-019-03958-6
关键词
Dissolved organic carbon; C-13; Peatland; Root carbon input; Soil respiration; Sedges; Shrubs; Vascular plants
资金
- TU Dresden
- Wageningen University
- University of Amsterdam
- University of Ferrara (FAR 2014)
AimsNorthern peatlands store large amounts of soil organic carbon (C) that can be very sensitive to ongoing global warming. Recently it has been shown that temperature-enhanced growth of vascular plants in these typically moss-dominated ecosystems may promote microbial peat decomposition by increased C input via root exudates. To what extent different plant functional types (PFT) and soil temperature interact in controlling root C input is still unclear. In this study we explored how root C input is related to the presence of ericoid shrubs (shrubs) and graminoid sedges (sedges) by means of a factorial plant clipping experiment (= PFT effect) in two peatlands located at different altitude (= temperature effect).MethodsBy selective clipping of shrub and sedge shoots in mixed vegetation at two Alpine peatland sites we interrupted the above- to belowground translocation of C, thus temporarily inhibiting root C release. Subsequent measurements of soil respiration, dissolved organic carbon (DOC) concentration and stable isotope composition (C-13) of DOC in pore water were used as proxies to estimate the above- to belowground transfer of C by different PFT.ResultsWe found that soil respiration rates and DOC concentrations temporarily decreased within 24h after clipping, with the decrease in soil respiration being most pronounced at the 1.4 degrees C warmer peatland after clipping shrubs. The transient drop in DOC concentration coincided with a shift towards a heavier C isotope signature, indicating that the decrease was associated with inhibition of a light C source that we attribute to root exudates. Together these results imply that shrubs translocated more C into the peat than sedges, particularly at higher temperature.ConclusionsWe showed that plant functional type and temperature interact in controlling root C input under field conditions in peatlands. Our results provide a mechanistic evidence that shrubs may potentially promote the release of stored soil C through root-derived C input.
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