Connection of Sulfuric Acid to Atmospheric Nucleation in Boreal Forest

Gas to particle conversion in the boundary layer occurs worldwide. Sulfuric acid is considered to be one of the key components in these new particle formation events. In this study we explore the connection between measured sulfuric acid and observed formation rate of both charged 2 nm as well as ne...

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Bibliographic Details
Published in:Environmental science & technology 2009-07, Vol.43 (13), p.4715-4721
Main Authors: Nieminen, T, Manninen, H. E, Sihto, S.-L, Yli-Juuti, T, Mauldin, III, R. L, Petäjä, T, Riipinen, I, Kerminen, V.-M, Kulmala, M
Format: Article
Language:English
Subjects:
Air Pollutants - analysis
Air Pollution - analysis
Atmosphere
Atmospheric boundary layer
Condensation
Environmental Monitoring - methods
Environmental Pollutants
Finland
Forests
Ions
Kinetics
Molecules
Particle Size
Sulfuric acid
Sulfuric Acids - analysis
Sulfuric Acids - chemistry
Trees
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Summary:Gas to particle conversion in the boundary layer occurs worldwide. Sulfuric acid is considered to be one of the key components in these new particle formation events. In this study we explore the connection between measured sulfuric acid and observed formation rate of both charged 2 nm as well as neutral clusters in a boreal forest environment. A very short time delay of the order of ten minutes between these two parameters was detected. On average the event days were clearly associated with higher sulfuric acid concentrations and lower condensation sink (CS) values than the nonevent days. Although there was not a clear sharp boundary between the nucleation and no-nucleation days in sulfuric acid-CS plane, at our measurement site a typical threshold concentration of 3·105 molecules cm−3 of sulfuric acid was needed to initiate the new particle formation. Two proposed nucleation mechanisms were tested. Our results are somewhat more in favor of activation type nucleation than of kinetic type nucleation, even though our data set is too limited to omit either of these two mechanisms. In line with earlier studies, the atmospheric nucleation seems to start from sizes very close to 2 nm.
ISSN:0013-936X
1520-5851
DOI:10.1021/es803152j