期刊
WETLANDS
卷 36, 期 1, 页码 121-132出版社
SPRINGER
DOI: 10.1007/s13157-015-0722-7
关键词
Methane; Nitrous oxide; Greenhouse gas balance; Marshes; Sulphate; Coastal wetlands
资金
- Federal Ministry of Education and Research within the joint research project COMTESS (COastal sustainable land Management Trade-offs in EcoSystem Services)
Environmental parameters controlling fluxes of greenhouse gases (GHG) differ spatially within landscapes. This study aimed to improve the understanding of landscape processes controlling GHG-fluxes of different landscape units of marshes (in terms of vegetation, land use and seawater inflow) at the Southern North Sea coast. For this emissions of methane (CH4) and nitrous oxide (N2O) were quantified and related to reported carbon sequestration rates. Ancillary environmental parameters were determined to identify controlling factors and thresholds enabling GHG emissions. For inland marshes (enclosed by embankments) the water level was the predominant factor controlling CH4 emissions ranging between 1.58 and 1544.70 kg CH4 ha(-1) a(-1). The duration of threshold (10 cm below surface) exceedance was found as a predictor for annual CH4 emissions. Emissions of outland marshes (influenced by tides) varying from -1.34 to 55.14 kg CH4 ha(-1) a(-1) were predominantly controlled by sulphate (SO42-) concentrations, because soil CH4-contents were negligible when soil SO42--contents exceeded 0.5 mg g(-1). The variability of the N2O-fluxes (-0.81 to 17.78 kgN(2)O ha(-1) a(-1)) could not be explained by the collected environmental parameters. GHG balances indicated that inland extensive grasslands and particularly reed stands are net sources of CO2-equivalents (100 year time horizon), while outlands are natural sinks.
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