Articles | Volume 9, issue 20
Atmos. Chem. Phys., 9, 8079–8090, 2009
Atmos. Chem. Phys., 9, 8079–8090, 2009

  27 Oct 2009

27 Oct 2009

A new parametrization for ambient particle formation over coniferous forests and its potential implications for the future

B. Bonn1, M. Boy2, M. Kulmala2, A. Groth1, K. Trawny1, S. Borchert1, and S. Jacobi3 B. Bonn et al.
  • 1Institute for Atmospheric and Environmental Sciences, Goethe University, Frankfurt, Germany
  • 2Atmospheric Sciences Division, Department of Physics, University of Helsinki, Finland
  • 3Hessian Agency for the Environment and Geology, Air Quality Department, Wiesbaden, Germany

Abstract. Atmospheric new particle formation is a general phenomenon observed over coniferous forests. So far nucleation is either parameterised as a function of gaseous sulphuric acid concentration only, which is unable to explain the observed seasonality of nucleation events at different measurement sites, or as a function of sulphuric acid and organic molecules. Here we introduce different nucleation parameters based on the interaction of sulphuric acid and terpene oxidation products and elucidate the individual importance. They include basic trace gas and meteorological measurements such as ozone and water vapour concentrations, temperature (for terpene emission) and UV B radiation as a proxy for OH radical formation. We apply these new parameters to field studies conducted at conducted at Finnish and German measurement sites and compare these to nucleation observations on a daily and annual scale. General agreement was found, although the specific compounds responsible for the nucleation process remain speculative. This can be interpreted as follows: During cooler seasons the emission of biogenic terpenes and the OH availability limits the new particle formation while towards warmer seasons the ratio of ozone and water vapour concentration seems to dominate the general behaviour. Therefore, organics seem to support ambient nucleation besides sulphuric acid or an OH-related compound. Using these nucleation parameters to extrapolate the current conditions to prognosed future concentrations of ozone, water vapour and organic concentrations leads to a significant potential increase in the nucleation event number.

Final-revised paper