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Stable sulphate clusters as a source of new atmospheric particles

Markku Kulmala (), Liisa Pirjola and Jyrki M. Mäkelä
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Markku Kulmala: University of Helsinki, PO Box 9, FIN-00014 University of Helsinki
Liisa Pirjola: University of Helsinki, PO Box 9, FIN-00014 University of Helsinki
Jyrki M. Mäkelä: University of Helsinki, PO Box 9, FIN-00014 University of Helsinki

Nature, 2000, vol. 404, issue 6773, 66-69

Abstract: Abstract The formation of new atmospheric particles with diameters of 3–10 nm has been observed at a variety of altitudes and locations. Such aerosol particles have the potential to grow into cloud condensation nuclei, thus affecting cloud formation as well as the global radiation budget. In some cases, the observed formation rates of new particles have been adequately explained by binary nucleation, involving water and sulphuric acid1, but in certain locations—particularly those within the marine boundary layer1,2 and at continental sites1,3—observed ambient nucleation rates exceed those predicted by the binary scheme. In these locations, ambient sulphuric acid (H2SO4) levels are typically lower than required for binary nucleation1, but are sufficient for ternary nucleation4 (sulphuric acid–ammonia–water). Here we present results from an aerosol dynamics model with a ternary nucleation scheme which indicate that nucleation in the troposphere should be ubiquitous, and yield a reservoir of thermodynamically stable clusters 1–3 nm in size. We suggest that the growth of these clusters to a detectable size (> 3 nm particle diameter) is restricted by the availability of condensable vapour. Observations of atmospheric particle formation and growth from a continental and a coastal site support this hypothesis, indicating that a growth process including ternary nucleation is likely to be responsible for the formation of cloud condensation nuclei.

Date: 2000
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DOI: 10.1038/35003550

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