Abstract
We determined the fluxes and concentrations of atmospheric sulfur species at ground level and from aircraft over the Amazon Basin during the 1987 wet season, providing a comprehensive description of the sulfur cycle over a remote tropical region. The vertical profile of dimethylsulfide (DMS) during the wet season was found to be very similar to that measured during the dry season, suggesting little seasonal variation in DMS fluxes. The concentrations of hydrogen sulfide (H2S) were almost an order of magnitude higher than those of DMS, which makes H2S the most important biogenic source species in the atmospheric sulfur cycle over the Amazon Basin. Using the gradient‐flux approach, we estimated the flux of DMS at the top of the tree canopy. The canopy was a source of DMS during the day, and a weak sink during the night. Measurements of sulfur gas emissions from soils, using the chamber method, showed very small fluxes, consistent with the hypothesis that the forest canopy is the major source of sulfur gases. The observed soil and canopy emission fluxes are similar to those measured in temperate regions. The concentrations of SO2 and sulfate aerosol in the wet season atmosphere were similar to dry season values. The sulfate concentration in rainwater, on the other hand, was lower by about a factor of 5 during the wet season. Due to the higher precipitation rate, however, the wet deposition flux of sulfate was not significantly different between the seasons. The measured fluxes and concentrations of DMS, H2S, and SO2 were consistent with a model describing transport and chemistry of these sulfur species in the boundary layer. The concentrations of aerosol and the sulfate deposition rate, on the other hand, could only be explained by import of significant amounts of marine and anthropogenic sulfate aerosol into the Amazon Basin.
Highlights
We determined the fluxes and concentrationsof atmosphericsulfur speciesat ground level and from aircraft over the Amazon Basin duringthe 1987wet season,providing a comprehensivedescriptionof the sulfur cycle over a remote tropical region
In contrast to expectations based on earlier work, e.g., the study on sulfur gas fluxes from soils in temperate and Africa reviewed by Delmas and Servant [1988], we found that sulfur gas emissionsfrom the soils in Amazonia were quite low
We present the results from the ABLE 2B wet seasonexperiment (April-May 1987)and compare them with the observations made during the 1985 dry season, in order to elucidate seasonalpatterns in emission, transport, and deposition of sulfur species in Amazonia
Summary
We determined the fluxes and concentrationsof atmosphericsulfur speciesat ground level and from aircraft over the Amazon Basin duringthe 1987wet season,providing a comprehensivedescriptionof the sulfur cycle over a remote tropical region. The observed soil and canopy emission fluxes are similar to those measured in temperate regions. The concentrationsof SO2 and sulfate aerosol in the wet season atmosphere were similar to dry seasonvalues. Due to the higher precipitation rate, the wet depositionflux of sulfate was not significantlydifferent between the seasons.The measuredfluxesand concentrationsof DMS, H2S, and SO2 were consistentwith a model describing transport and chemistry of these sulfur species in the boundary layer. The terrestrial biogenic sources of reduced sulfur gases and the role of these emissions as precursors of sulfate in aerosols and precipitation are one of the major open questions in our understandingof the natural sulfur cycle in the atmosphere [Andreae, 1990]. We present the results from the ABLE 2B wet seasonexperiment (April-May 1987)and compare them with the observations made during the 1985 dry season, in order to elucidate seasonalpatterns in emission, transport, and deposition of sulfur species in Amazonia.
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