Add to ORKGCoastal wetland areas occupy a small percentage of the terrestrial environment yet are extremely productive regions which support rapid rates of belowground bacterial activity. Wetlands appear to be significant as biogenic sources of gaseous sulfur, carbon, and nitrogen. These gases are important as tracers of man's activities, and they influence atmospheric chemistry. The interactions among wetland biogeochemical processes regulate the anaerobic production of reduced gases and influence the fate of these volatiles. Therefore, spatial and temporal variations in hydrology, salinity, temperature and specification, and growth of vegetation affect the type and magnitude of gas emissions thus hindering predictive estimates of gas flux. Our resea...
Tidal salt marshes produce and emit CH4. Therefore, it is critical to understand the biogeochemical ...
Profiles of particulate and dissolved sulfur species have been measured in marsh sediments along thr...
Abstract Background Microorganisms drive high rates of methanogenesis and carbon mineralization in w...
Sulfur gases are important components of the global cycle of S. They contribute to the acidity of pr...
A summary of the results of a multi-year project which studied the release of biogenic sulfur gases ...
This project was directed toward the quantification of fluxes of gaseous biogenic sulfur compounds f...
Data on the emissions of sulfur gases from marine and freshwater wetlands are summarized with respec...
Salt marshes have highly variable spatial and temporal fluxes of hydrogen sulfide, carbonyl sulfide,...
Atmosphere-peatland exchange of reduced sulfur gases was determined seasonally in fen in NH, and in ...
Emission rates of the biogenic sulphur gases hydrogen sulphide, dimethyl sulphide, carbon disulphide...
Emissions of biogenic sulphur gases from a Florida Spartina alterniflora zone were measured over sev...
Rates of emissions of the biogenic sulfur (S) gases carbonyl sulfide (COS), methyl mercaptan (MSH), ...
The formation of iron sulfides in wetland soils is an acidconsuming process, which can sequester a r...
Tidal freshwater wetlands are located at the interface of non-tidal freshwater riverine systems and ...
Sulfur biogeochemical cycling and associated Fe–S mineralization processes exert a major influence o...
Tidal salt marshes produce and emit CH4. Therefore, it is critical to understand the biogeochemical ...
Profiles of particulate and dissolved sulfur species have been measured in marsh sediments along thr...
Abstract Background Microorganisms drive high rates of methanogenesis and carbon mineralization in w...
Sulfur gases are important components of the global cycle of S. They contribute to the acidity of pr...
A summary of the results of a multi-year project which studied the release of biogenic sulfur gases ...
This project was directed toward the quantification of fluxes of gaseous biogenic sulfur compounds f...
Data on the emissions of sulfur gases from marine and freshwater wetlands are summarized with respec...
Salt marshes have highly variable spatial and temporal fluxes of hydrogen sulfide, carbonyl sulfide,...
Atmosphere-peatland exchange of reduced sulfur gases was determined seasonally in fen in NH, and in ...
Emission rates of the biogenic sulphur gases hydrogen sulphide, dimethyl sulphide, carbon disulphide...
Emissions of biogenic sulphur gases from a Florida Spartina alterniflora zone were measured over sev...
Rates of emissions of the biogenic sulfur (S) gases carbonyl sulfide (COS), methyl mercaptan (MSH), ...
The formation of iron sulfides in wetland soils is an acidconsuming process, which can sequester a r...
Tidal freshwater wetlands are located at the interface of non-tidal freshwater riverine systems and ...
Sulfur biogeochemical cycling and associated Fe–S mineralization processes exert a major influence o...
Tidal salt marshes produce and emit CH4. Therefore, it is critical to understand the biogeochemical ...
Profiles of particulate and dissolved sulfur species have been measured in marsh sediments along thr...
Abstract Background Microorganisms drive high rates of methanogenesis and carbon mineralization in w...