Details for Coastal Iodine Emissions: Part 2. Particle Nucleation Processes

Name:Coastal Iodine Emissions: Part 2. Particle Nucleation Processes

Monahan, C.; Ashu-Ayem, E. R.; Nitschke, U.; Darby, S. B.; Smith, P. D.; Stengel, D. B.; Venables, D. S.; O’Dowd, C. D. Coastal Iodine Emissions: Part 2. Particle Nucleation Processes, | Environ. Sci. Technol. 2012, 46, 10422−10428.

Abstract. Laboratory studies into particle formation from Laminaria digitata macroalgae were undertaken to elucidate aerosol formation for a range of I2 (0.376 ppbv) and O3 (<396 ppbv) mixing ratios and light levels (EPAR = 15, 100, and 235 μmol photons m2 s1). No clear pattern was observed for I2 or aerosol parameters as a function of light levels. Aerosol mass fluxes and particle number concentrations, were, however, correlated with I2 mixing ratios for low O3 mixing ratios of <3 ppbv (R2 = 0.7 and 0.83, respectively for low light levels, and R2 = 0.95 and 0.98, respectively for medium light levels). Additional experiments into particle production as a function of laboratory-generated I2, over a mixing ratio range of 18 ppbv, were conducted under moderate O3 mixing ratios (≈24 ppbv) where a clear, 100-fold or greater, increase in the aerosol number concentrations and mass fluxes was observed compared to the low O3 experiments. A linear relationship between particle concentration and I2 was found, in reasonable agreement with previous studies. Scaling the laboratory relationship to aerosol concentrations typical of the coastal boundary layer suggests a I2 mixing ratio range of 693 pptv can account for the observed particle production events. Aerosol number concentration produced from I2 is more than a factor of 10 higher than that produced from CH2I2 for the same mixing ratios.


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