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On radiative forcing of sulphate aerosol produced from ion-promoted nucleation mechanisms in an atmospheric global model
Authors:Hashmi Fatima  H. C. Upadhyaya  S. N. Tripathi  O. P. Sharma  Fangqun Yu
Affiliation:1. Centre for Atmospheric Sciences, Indian Institute of Technology, Delhi, India
2. Department of Civil Engineering, Indian Institute of Technology, Kanpur, India
3. Atmospheric Sciences Research Centre, State University of New York, 251, Fuller Road, Albany, NY, 12203, USA
Abstract:A significant fraction of the total number of particles present in the atmosphere is formed by nucleation in the gas phase. Nucleation and the subsequent growth process influence both number concentration of particles and their size distribution besides chemical and optical properties of atmospheric aerosols. Sulphate aerosol nucleation mechanisms promoted by ions have been evaluated here in a tropospheric interactive chemistry-aerosol module for mass and number concentration in a global atmospheric model. The indirect radiative forcing of sulphate particles is assessed in this model; indirect radiative forcing is different for ion-induced (IIN) and ion-mediated (IMN) mechanisms. The indirect radiative forcing in 10-year simulation runs has been calculated as ?1.42?W/m2 (IIN) and ?1.54?W/m2 (IMN). The 5% emission of primary sulphate particles in simulations changes the indirect radiative forcing from ?1.42 to ?1.44?W/m2 for IIN case, and from ?1.54 to ?1.55 W/m2 for the IMN case. More precisely, owing to greater nucleation rates, IMN mechanisms produces greater cooling than the IIN mechanisms in the backdrop that both mechanisms produce almost identical distribution of CDNC in their pre-industrial runs. The inclusion of primary particles in simulations with IIN and IMN mechanisms increases both CDNC and the indirect radiative forcing.
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