Journal
DIVERSITY-BASEL
Volume 14, Issue 9, Pages -Publisher
MDPI
DOI: 10.3390/d14090735
Keywords
root exudates; priming effect; peat; CO (2); CH (4); stable carbon isotopes; climate change; decomposition
Categories
Funding
- University of Vienna
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Root exudates in peat are immediately respired mainly as CO2, with a lag time for CH4 release. The majority of added root exudates remain in the solid and liquid phases of peat, suggesting no priming effect occurred.
Globally, peatlands have been recognized as important carbon sinks while only covering approximately 3% of the earth's land surface. Root exudates are known key drivers of C cycling in soils and rhizosphere priming effects have been studied extensively in terrestrial ecosystems. Their role for decomposition of peat still remains unclear, as little research about their fate and potential priming effects in peat exists. In this study, we aimed to evaluate pathways of root exudates and their short-term priming effects by daily determination of stable carbon isotope fluxes of CO2 and CH4. As the drainage of peatlands strongly alters processes of decomposition, we included measurements after drainage as well. Results revealed the immediate respiration of root exudates in peat, mainly as CO2, while CH4 release was associated with a lag time of several days. However, the largest proportion of added root exudates remained in the solid and liquid phase of peat. In conclusion, our findings suggest that no priming occurred as added substrates remained immobile in peat.
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