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- Title
Heterogeneous Sulfate Formation on Dust Surface and Its Dependence on Mineralogy: Balloon-Borne Observations from Balloon-Borne Measurements in The Surface Atmosphere of Beijing, China.
- Authors
Matsuki, A.; Iwasaka, Y.; Shi, G.-Y.; Chen, H.-B.; Osada, K.; Zhang, D.; Kido, M.; Inomata, Y.; Kim, Y.-S.; Trochkine, D.; Nishita, C.; Yamada, M.; Nagatani, T.; Nagatani, M.; Nakata, H.
- Abstract
This study focuses on providing a direct insight into the process by which sulfate is formed on mineral dust surface in the actual atmosphere. Six sets of aerosol measurements were conducted in the outskirts of Beijing, China, in 2002–2003 using a tethered balloon. The mineralogy of individual dust particles, as well as its influence on the S (sulfur) loadings was investigated by SEM-EDX analysis of the directly collected particles. The mixed layer in the urban atmosphere was found to be quite low (500–600m), often appearing as a particle dense stagnant layer above the surface. It is suggested that mineral dust is a common and important fraction of the coarse particles in Beijing (35–68%), and that it is relatively enriched with Calcite (>28%). An exceptional amount of S was detected in the mineral particles, which can be explained neither by their original composition, nor by coagulation processes between the submicron sulfates and the dust. Heterogeneous uptake of gaseous SO2, and its subsequent oxidation on dust was suggested as the main pathway that has actually taken place in the ambient environment. The mineral class found with the largest number of particles containing S was Calcite, followed by Dolomite, Clay, Amphibole etc., Feldspar, and Quartz. Among them, Calcite and Dolomite showed distinctly higher efficiency in collecting sulfate than the other types. A positive correlation was found with the number of S containing particles and the relative humidity. Calcite in particular, since almost all of its particles was found to contain S above 60% r.h. On the other hand, the active uptake of SO2 by the carbonates was not suggested in the free troposphere downwind, and all the mineral classes exhibited similar S content. Relative humidity in the free troposphere was suggested as the key factor controlling the SO2 uptake among the mineral types. In terms of sulfate loadings, the relationship was not linear, but rather increased exponentially as a function of relative humidity. The humidity-dependent uptake capacity of mineral types altogether showed an intermediate value of 0.07 gSO42− g−1 mineral at 30% r.h. and 0.40 gSO42− g−1 mineral at 80%, which is fairly consistent with laboratory experiments.
- Subjects
BEIJING (China); CHINA; SULFATES; MINERAL dusts; ATMOSPHERE; MINERALOGY
- Publication
Water, Air & Soil Pollution: Focus, 2005, Vol 5, Issue 3-6, p101
- ISSN
1567-7230
- Publication type
Article
- DOI
10.1007/s11267-005-0730-3