Advances in Meteorology (Jan 2010)

Global Modeling of the Oceanic Source of Organic Aerosols

  • Stelios Myriokefalitakis,
  • Elisabetta Vignati,
  • Kostas Tsigaridis,
  • Christos Papadimas,
  • Jean Sciare,
  • Nikolaos Mihalopoulos,
  • Maria Cristina Facchini,
  • Matteo Rinaldi,
  • Frank J. Dentener,
  • Darius Ceburnis,
  • Nikos Hatzianastasiou,
  • Colin D. O'Dowd,
  • Michiel van Weele,
  • Maria Kanakidou

DOI
https://doi.org/10.1155/2010/939171
Journal volume & issue
Vol. 2010

Abstract

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The global marine organic aerosol budget is investigated by a 3-dimensional chemistry-transport model considering recently proposed parameterisations of the primary marine organic aerosol (POA) and secondary organic aerosol (SOA) formation from the oxidation of marine volatile organic compounds. MODIS and SeaWiFS satellite data of Chlorophyll-a and ECMWF solar incoming radiation, wind speed, and temperature are driving the oceanic emissions in the model. Based on the adopted parameterisations, the SOA and the submicron POA marine sources are evaluated at about 5 Tg yr−1 (∼1.5 Tg C yr−1) and 7 to 8 Tg yr−1 (∼4 Tg C yr−1), respectively. The computed marine SOA originates from the dimethylsulfide oxidation (∼78%), the potentially formed dialkyl amine salts (∼21%), and marine hydrocarbon oxidation (∼0.1%). Comparison of calculations with observations indicates an additional marine source of soluble organic carbon that could be partially encountered by marine POA chemical ageing.