Alternative pathway for atmospheric particles growth.

نویسندگان

  • Maria Eugenia Monge
  • Thomas Rosenørn
  • Olivier Favez
  • Markus Müller
  • Gabriela Adler
  • Ali Abo Riziq
  • Yinon Rudich
  • Hartmut Herrmann
  • Christian George
  • Barbara D'Anna
چکیده

Credible climate change predictions require reliable fundamental scientific knowledge of the underlying processes. Despite extensive observational data accumulated to date, atmospheric aerosols still pose key uncertainties in the understanding of Earth's radiative balance due to direct interaction with radiation and because they modify clouds' properties. Specifically, major gaps exist in the understanding of the physicochemical pathways that lead to aerosol growth in the atmosphere and to changes in their properties while in the atmosphere. Traditionally, the driving forces for particle growth are attributed to condensation of low vapor pressure species following atmospheric oxidation of volatile compounds by gaseous oxidants. The current study presents experimental evidence of an unaccounted-for new photoinduced pathway for particle growth. We show that heterogeneous reactions activated by light can lead to fast uptake of noncondensable Volatile Organic Compounds (VOCs) at the surface of particles when only traces of a photosensitizer are present in the seed aerosol. Under such conditions, size and mass increase; changes in the chemical composition of the aerosol are also observed upon exposure to volatile organic compounds such as terpenes and near-UV irradiation. Experimentally determined growth rate values match field observations, suggesting that this photochemical process can provide a new, unaccounted-for pathway for atmospheric particle growth and should be considered by models.

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عنوان ژورنال:
  • Proceedings of the National Academy of Sciences of the United States of America

دوره 109 18  شماره 

صفحات  -

تاریخ انتشار 2012