Adams et al. 2001

Adams, P.J., J.H. Seinfeld, D. Koch, L.J. Mickley, and D.J. Jacob, 2001: General circulation model assessment of direct radiative forcing by the sulfate-nitrate-ammonium-water inorganic aerosol system. J. Geophys. Res., 106, 1097-1112, doi:10.1029/2000JD900512.

An on-line simulation of aerosol sulfate, nitrate, ammonium, and water in the Goddard Institute for Space Studies general circulation model (GCM II-prime) has been used to estimate direct aerosol radiative forcing for the years 1800, 2000, and 2100. This is the first direct forcing estimate based on the equilibrium water content of a changing SO₄^2--NO₃^--NH₄⁺ mixture and the first estimate of nitrate forcing based on a global model of nitrate aerosol. Present-day global and annual average anthropogenic direct forcing is estimated to be -0.95 and 0.19 W/m² for sulfate and nitrate, respectively. Simulations with a future emissions scenario indicate that nitrate forcing could increase to -1.28 W/m² by 2100, while sulfate forcing declines to -0.85 W/m². This result shows that future estimates of aerosol forcing based solely on predicted sulfate concentrations may be misleading and that the potential for significant concentrations of ammonium nitrate needs to be considered in estimate for future climate change. Calculated direct aerosol forcing is highly sensitive to the model treatment for water uptake. By calculating the equilibrium water content of a SO₄^2--NH₄⁺ aerosol mixture and the optical properties of the wet aerosol, we estimate a forcing that is almost 35% greaterthan that derived from correcting a low relative humidity scattering coefficient with an empirical f(RH) factor. The discrepancy stems from the failure of the empirical parameterization to adequately account for water uptake above about 90% relative humidity. These results suggest that water uptake above 90% RH may make a substantial contribution to average direct forcing, although subgrid-scale variability makes it difficult to represent humid areas in a GCM.

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Adams, P.J., Seinfeld, J.H., Koch, D., Mickley, L.J., and Jacob, D.J.: General circulation model assessment of direct radiative forcing by the sulfate-nitrate-ammonium-water inorganic aerosol system, J. Geophys. Res., 106, 1097-1112, doi:10.1029/2000JD900512, 2001.

Adams, P.J., J.H. Seinfeld, D. Koch, L.J. Mickley, and D.J. Jacob (2001), General circulation model assessment of direct radiative forcing by the sulfate-nitrate-ammonium-water inorganic aerosol system, J. Geophys. Res., 106, 1097-1112, doi:10.1029/2000JD900512.

Adams, P.J., J.H. Seinfeld, D. Koch, L.J. Mickley, and D.J. Jacob, 2001: General circulation model assessment of direct radiative forcing by the sulfate-nitrate-ammonium-water inorganic aerosol system. J. Geophys. Res., 106, 1097-1112, doi:10.1029/2000JD900512.

Adams, P.J., Seinfeld, J.H., Koch, D., Mickley, L.J., & Jacob, D.J. 2001, J. Geophys. Res., 106, 1097, doi:10.1029/2000JD900512.

Adams PJ, Seinfeld JH, Koch D, Mickley LJ, Jacob DJ. General circulation model assessment of direct radiative forcing by the sulfate-nitrate-ammonium-water inorganic aerosol system, J Geophys Res 2001;106:1097-1112. doi:10.1029/2000JD900512.

P.J. Adams, J.H. Seinfeld, D. Koch, L.J. Mickley, D.J. Jacob, J. Geophys. Res. 106, 1097-1112, doi:10.1029/2000JD900512 (2001).