Atmospheric oxidation in the presence of clouds during the Deep Convective Clouds and Chemistry (DC3) study

Brune, W.H., X. Ren, L. Zhang, J. Mao, D.O. Miller, B.E. Anderson, D.R. Blake, R.C. Cohen, G.S. Diskin, S.R. Hall, T.F. Hanisco, L.G. Huey, B.A. Nault, J.W. Peischl, I.B. Pollack, T.B. Ryerson, T. Shingler, A. Sorooshian, K.L. Ullmann, A. Wisthaler, and P.J. Wooldridge (2018), Atmospheric oxidation in the presence of clouds during the Deep Convective Clouds and Chemistry (DC3) study, Atmos. Chem. Phys., 18, 14493-14510, doi:10.5194/acp-18-14493-2018.
Abstract

Deep convective clouds are critically important to the distribution of atmospheric constituents throughout the troposphere but are difficult environments to study. The Deep Convective Clouds and Chemistry (DC3) study in 2012 provided the environment, platforms, and instrumentation to test oxidation chemistry around deep convective clouds and their impacts downwind. Measurements on the NASA DC-8 aircraft included those of the radicals hydroxyl (OH) and hydroperoxyl (HO2 ), OH reactivity, and more than 100 other chemical species and atmospheric properties. OH, HO2 , and OH reactivity were compared to photochemical models, some with and some without simplified heterogeneous chemistry, to test the understanding of atmospheric oxidation as encoded in the model. In general, the agreement between the observed and modeled OH, HO2 , and OH reactivity was within the combined uncertainties for the model without heterogeneous chemistry and the model including heterogeneous chemistry with small OH and HO2 uptake consistent with laboratory studies. This agreement is generally independent of the altitude, ozone photolysis rate, nitric oxide and

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Research Program
Tropospheric Composition Program (TCP)
Mission
DC3

 

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