Add to ORKGAtmosphere-peatland exchange of reduced sulfur gases was determined seasonally in fen in NH, and in an artificially-acidified fen at the Experimental Lakes Area (ELA) in Canada. Dimethyl sulfide (DMS) dominated gas fluxes at rates as high as 400 nmol/m(sup -2)hr(sup -1). DMS fluxes measured using enclosures were much higher than those calculated using a stagnant-film model, suggesting that Sphagnum regulated efflux. Temperature controlled diel and seasonal variability in DMS emissions. Use of differing enclosure techniques indicated that vegetated peatlands consume atmospheric carbonyl sulfide. Sulfate amendments caused DMS and methane thiol concentrations in near-surface pore waters to increase rapidly, but fluxes of these gases to the atm...
Abstract. This field manipulation study tested the effect of weekly pulses of solutions of NH4NO3 an...
Natural wetlands form the largest methane (CH4) source to the atmosphere. A collection of recent fie...
The reduction of sulfate (SO42−) represents an alternative terminal electron acceptor for the oxidat...
Exchange of DMS and OCS between the surface of Sphagnum peatlands and the atmosphere were measured w...
Sulfur gases are important components of the global cycle of S. They contribute to the acidity of pr...
A static enclosure method was applied to determine the exchange of dimethyl sulfide (DMS) and carbon...
This project was directed toward the quantification of fluxes of gaseous biogenic sulfur compounds f...
Natural wetlands are the single most important contributors of methane (CH4) to the atmosphere. Rece...
Data on the emissions of sulfur gases from marine and freshwater wetlands are summarized with respec...
Coastal wetland areas occupy a small percentage of the terrestrial environment yet are extremely pro...
Salt marshes have highly variable spatial and temporal fluxes of hydrogen sulfide, carbonyl sulfide,...
The effect of acid rain SO42− deposition on peatland CH4 emissions was examined by manipulating SO42...
Identities, concentrations, a d fluxes of volatile sulfur compounds (VSCs) were determined in 11 lak...
[1] Sulfur cycling in peatlands may affect global CH4 emissions by suppression of methanogenesis thr...
The AGU allows final articles to be placed in an institutional repository 6 months after publication...
Abstract. This field manipulation study tested the effect of weekly pulses of solutions of NH4NO3 an...
Natural wetlands form the largest methane (CH4) source to the atmosphere. A collection of recent fie...
The reduction of sulfate (SO42−) represents an alternative terminal electron acceptor for the oxidat...
Exchange of DMS and OCS between the surface of Sphagnum peatlands and the atmosphere were measured w...
Sulfur gases are important components of the global cycle of S. They contribute to the acidity of pr...
A static enclosure method was applied to determine the exchange of dimethyl sulfide (DMS) and carbon...
This project was directed toward the quantification of fluxes of gaseous biogenic sulfur compounds f...
Natural wetlands are the single most important contributors of methane (CH4) to the atmosphere. Rece...
Data on the emissions of sulfur gases from marine and freshwater wetlands are summarized with respec...
Coastal wetland areas occupy a small percentage of the terrestrial environment yet are extremely pro...
Salt marshes have highly variable spatial and temporal fluxes of hydrogen sulfide, carbonyl sulfide,...
The effect of acid rain SO42− deposition on peatland CH4 emissions was examined by manipulating SO42...
Identities, concentrations, a d fluxes of volatile sulfur compounds (VSCs) were determined in 11 lak...
[1] Sulfur cycling in peatlands may affect global CH4 emissions by suppression of methanogenesis thr...
The AGU allows final articles to be placed in an institutional repository 6 months after publication...
Abstract. This field manipulation study tested the effect of weekly pulses of solutions of NH4NO3 an...
Natural wetlands form the largest methane (CH4) source to the atmosphere. A collection of recent fie...
The reduction of sulfate (SO42−) represents an alternative terminal electron acceptor for the oxidat...