THE GLOBAL AEROSOL SYNTHESIS AND SCIENCE PROJECT (GASSP): Measurements and Modeling to Reduce Uncertainty: Novel methodologies for quantifying model uncertainty are combined with an extensive new database of in situ aerosol microphysical and chemical measurements to reduce uncertainty in aerosol effects on climate

Authors :: Reddington, C.L.
Carslaw, K.S.
Stier, P.
Schutgens, N.
Coe, H.
Liu, D.
Allan, J.
Browse, J.
Pringle, K.J.
Lee, L.A.
Yoshioka, M.
Johnson, J.S.
Regayre, L.A.
Spracklen, D.V.
Mann, G.W.
Clarke, A.
Hermann, M.
Henning, S.
Wex, H.
Kristensen, T.B.
Leaitch, W.R.
Poschl, U.
Rose, D.
Andreae, M.O.
Schmale, J.
Kondo, Y.
Oshima, N.
Schwarz, J.P.
Nenes, A.
Anderson, B.
Roberts, G.C.
Snider, J.R.
Leck, C.
Quinn, P.K.
Chi, X.
Ding, A.
Jimenez, J.L.
Zhang, Q.
Source :: Bulletin of the American Meteorological Society. September, 2017, Vol. 98 Issue 9, p1857, 23 p.
Publication Year :: 2017
Abstract: The largest uncertainty in the historical radiative forcing of climate is caused by changes in aerosol particles due to anthropogenic activity. Sophisticated aerosol microphysics processes have been included in many [...]

Subjects :: United States. National Aeronautics and Space Administration -- Analysis
Online databases -- Methods -- Analysis
Climate models -- Methods -- Analysis
Online database
Business
Earth sciences

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