Atmospheric Chemistry and Physics (May 2021)

Aerosol particle formation in the upper residual layer

  • J. Lampilahti,
  • K. Leino,
  • A. Manninen,
  • P. Poutanen,
  • A. Franck,
  • M. Peltola,
  • P. Hietala,
  • L. Beck,
  • L. Dada,
  • L. Quéléver,
  • R. Öhrnberg,
  • Y. Zhou,
  • M. Ekblom,
  • V. Vakkari,
  • V. Vakkari,
  • S. Zilitinkevich,
  • S. Zilitinkevich,
  • V.-M. Kerminen,
  • T. Petäjä,
  • T. Petäjä,
  • M. Kulmala,
  • M. Kulmala,
  • M. Kulmala

DOI
https://doi.org/10.5194/acp-21-7901-2021
Journal volume & issue
Vol. 21
pp. 7901 – 7915

Abstract

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According to current estimates, atmospheric new particle formation (NPF) produces a large fraction of aerosol particles and cloud condensation nuclei in the Earth's atmosphere, which have implications for health and climate. Despite recent advances, atmospheric NPF is still insufficiently understood in the lower troposphere, especially above the mixed layer (ML). This paper presents new results from co-located airborne and ground-based measurements in a boreal forest environment, showing that many NPF events (∼42 %) appear to start in the topmost part of the residual layer (RL). The freshly formed particles may be entrained into the growing mixed layer (ML) where they continue to grow in size, similar to the aerosol particles formed within the ML. The results suggest that in the boreal forest environment, NPF in the upper RL has an important contribution to the aerosol load in the boundary layer (BL).