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W2093022376 endingPage "6834" @default.
W2093022376 startingPage "6813" @default.
W2093022376 abstract "Abstract. This study examines the effect of a typical pre-monsoon season dust storm on tropospheric chemistry through a case study in northern India. Dust can alter photolysis rates by scattering and absorbing solar radiation and provide surface area for heterogeneous reactions. We use the Weather Research and Forecasting model coupled with Chemistry (WRF-Chem) to simulate the dust storm that occurred during 17–22 April 2010 and investigate the contribution of different processes on mixing ratios of several key trace gases including ozone, nitrogen oxides, hydrogen oxides, methanol, acetic acid and formaldehyde. We revised the Fast Troposphere Ultraviolet Visible (F-TUV) photolysis scheme to include effects of dust aerosols on photolysis rates in a manner consistent with the calculations of aerosol optical properties for feedback to the meteorology radiation schemes. In addition, we added 12 heterogeneous reactions on the dust surface, for which 6 reactions have relative-humidity-dependent reactive uptake coefficients (γ). The inclusion of these processes in WRF-Chem is found to reduce the difference between observed and modeled O3 from 16 ± 9 to 2 ± 8 ppbv and that in NOy from 2129 ± 1425 to 372 ± 1225 pptv compared to measurements at the high-altitude site Nainital in the central Himalayas, and reduce biases by up to 30% in tropospheric column NO2 compared to OMI retrievals. The simulated dust storm acted as a sink for all the trace gases examined here and significantly perturbed their spatial and vertical distributions. The reductions in these gases are estimated as 5–100%, and more than 80% of this reduction was due to heterogeneous chemistry. The RH dependence of γ is also found to have substantial impact on the distribution of trace gases, with changes of up to 20–25% in O3 and HO2, 50% in H2O2 and 100% in HNO3. A set of sensitivity analyses revealed that dust aging could change H2O2 and CH3COOH levels by up to 50% but has a relatively small impact on other gases." @default.
W2093022376 created "2016-06-24" @default.
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W2093022376 date "2014-07-04" @default.
W2093022376 modified "2023-10-06" @default.
W2093022376 title "Effects of dust aerosols on tropospheric chemistry during a typical pre-monsoon season dust storm in northern India" @default.
W2093022376 cites W1768428275 @default.
W2093022376 cites W1843892009 @default.
W2093022376 cites W1905413980 @default.
W2093022376 cites W1966619572 @default.
W2093022376 cites W1969981719 @default.
W2093022376 cites W1971653992 @default.
W2093022376 cites W1973591035 @default.
W2093022376 cites W1976498622 @default.
W2093022376 cites W1981663809 @default.
W2093022376 cites W1989909261 @default.
W2093022376 cites W1993267273 @default.
W2093022376 cites W1996616292 @default.
W2093022376 cites W1997281484 @default.
W2093022376 cites W1998077142 @default.
W2093022376 cites W2002570697 @default.
W2093022376 cites W2003330769 @default.
W2093022376 cites W2009279813 @default.
W2093022376 cites W2016026973 @default.
W2093022376 cites W2022356344 @default.
W2093022376 cites W2024414706 @default.
W2093022376 cites W2027129502 @default.
W2093022376 cites W2028979275 @default.
W2093022376 cites W2031549102 @default.
W2093022376 cites W2032975946 @default.
W2093022376 cites W2035964554 @default.
W2093022376 cites W2043063888 @default.
W2093022376 cites W2048951064 @default.
W2093022376 cites W2054226608 @default.
W2093022376 cites W2062432057 @default.
W2093022376 cites W2065638735 @default.
W2093022376 cites W2070167612 @default.
W2093022376 cites W2070804679 @default.
W2093022376 cites W2078517784 @default.
W2093022376 cites W2082562995 @default.
W2093022376 cites W2083339292 @default.
W2093022376 cites W2084676053 @default.
W2093022376 cites W2092866358 @default.
W2093022376 cites W2094500276 @default.
W2093022376 cites W2097815526 @default.
W2093022376 cites W2111848252 @default.
W2093022376 cites W2118716100 @default.
W2093022376 cites W2119007429 @default.
W2093022376 cites W2119567876 @default.
W2093022376 cites W2119774937 @default.
W2093022376 cites W2121690346 @default.
W2093022376 cites W2124234307 @default.
W2093022376 cites W2124745066 @default.
W2093022376 cites W2128374813 @default.
W2093022376 cites W2131023949 @default.
W2093022376 cites W2134013743 @default.
W2093022376 cites W2136408596 @default.
W2093022376 cites W2136567789 @default.
W2093022376 cites W2136783177 @default.
W2093022376 cites W2140805694 @default.
W2093022376 cites W2142759396 @default.
W2093022376 cites W2142794782 @default.
W2093022376 cites W2148242449 @default.
W2093022376 cites W2151181273 @default.
W2093022376 cites W2152811544 @default.
W2093022376 cites W2156534742 @default.
W2093022376 cites W2158992723 @default.
W2093022376 cites W2162351866 @default.
W2093022376 cites W2163373532 @default.
W2093022376 cites W2167518470 @default.
W2093022376 cites W2167530014 @default.
W2093022376 cites W2167769305 @default.
W2093022376 cites W2170312901 @default.
W2093022376 cites W2170995455 @default.
W2093022376 cites W2175164306 @default.
W2093022376 cites W2316514110 @default.
W2093022376 cites W2322343654 @default.
W2093022376 cites W2332603821 @default.
W2093022376 cites W3033358318 @default.
W2093022376 cites W4211148370 @default.
W2093022376 doi "https://doi.org/10.5194/acp-14-6813-2014" @default.
W2093022376 hasPublicationYear "2014" @default.
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