Atmospheric Chemistry and Physics (Jul 2016)

Regional effect on urban atmospheric nucleation

  • I. Salma,
  • Z. Németh,
  • V.-M. Kerminen,
  • P. Aalto,
  • T. Nieminen,
  • T. Weidinger,
  • Á. Molnár,
  • K. Imre,
  • M. Kulmala

DOI
https://doi.org/10.5194/acp-16-8715-2016
Journal volume & issue
Vol. 16
pp. 8715 – 8728

Abstract

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Secondary aerosol particle production via new particle formation (NPF) has been shown to be a major contributor to the global aerosol load. NPF has also been observed frequently in urban environments. Here, we investigate the effect of regional NPF on urban aerosol load under well-defined atmospheric conditions. The Carpathian Basin, the largest orogenic basin in Europe, represents an excellent opportunity for exploring these interactions. Based on long-term observations, we revealed that NPF seen in a central large city of the basin (Budapest) and its regional background occur in a consistent and spatially coherent way as a result of a joint atmospheric phenomenon taking place on large horizontal scales. We found that NPF events at the urban site are usually delayed by > 1 h relative to the rural site or even inhibited above a critical condensational sink level. The urban processes require higher formation rates and growth rates to be realized, by mean factors of 2 and 1.6, respectively, than the regional events. Regional- and urban-type NPF events sometimes occur jointly with multiple onsets, while they often exhibit dynamic and timing properties which are different for these two event types.