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• W2890698227 abstract "New particle formation (NPF) from nucleation and subsequent nuclei growth, which is frequently observed in the troposphere, is critical to aerosol-cloud interactions yet difficult to simulate. In this work, regional simulations with the fully coupled NPF-explicit WRF-Chem model link NPF to cloud properties and to changes in both meteorology and air quality in the U.S. Midwest during summer 2008. Simulations that include NPF have higher concentrations of condensation nuclei, as anticipated from the particle production associated with nucleation, leading to enhanced concentrations of cloud condensation nuclei (CCN) at high supersaturations. However, the online-coupled model develops a number of unexpected features that can be traced to a feedback loop involving aqueous (in-cloud) oxidation of sulfur combined with boundary layer NPF. Simulations with NPF (relative to simulations without) exhibit reduced PM2.5 sulfate mass, cloud dimming (reductions in the cloud frequency, CCN concentration at a low supersaturation, cloud optical depth, and cloud droplet number concentration), and enhanced surface-reaching shortwave radiation. This effect of NPF on the PM2.5 mass is mostly absent for other constituents of PM2.5. The implications of this feedback loop, which is not considered in most climate and air quality modeling, are discussed." @default.
• W2890698227 created "2018-09-27" @default.
• W2890698227 creator A5007596924 @default.
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• W2890698227 creator A5030100165 @default.
• W2890698227 creator A5061145829 @default.
• W2890698227 creator A5068116649 @default.
• W2890698227 date "2019-01-01" @default.
• W2890698227 modified "2023-10-16" @default.
• W2890698227 title "Impacts of New Particle Formation on Short-term Meteorology and Air Quality as Determined by the NPF-explicit WRF-Chem in the Midwestern United States" @default.
• W2890698227 cites W1486027341 @default.
• W2890698227 cites W1487333472 @default.
• W2890698227 cites W1544276658 @default.
• W2890698227 cites W1549729962 @default.
• W2890698227 cites W1633819528 @default.
• W2890698227 cites W1657497845 @default.
• W2890698227 cites W1866219712 @default.
• W2890698227 cites W1905512368 @default.
• W2890698227 cites W1921501514 @default.
• W2890698227 cites W1964515489 @default.
• W2890698227 cites W1968177626 @default.
• W2890698227 cites W1971485533 @default.
• W2890698227 cites W1979660112 @default.
• W2890698227 cites W1984437578 @default.
• W2890698227 cites W1984535346 @default.
• W2890698227 cites W1985155924 @default.
• W2890698227 cites W2002570697 @default.
• W2890698227 cites W2003304723 @default.
• W2890698227 cites W2007526782 @default.
• W2890698227 cites W2012780281 @default.
• W2890698227 cites W2015349974 @default.
• W2890698227 cites W2015559976 @default.
• W2890698227 cites W2023790761 @default.
• W2890698227 cites W2024612183 @default.
• W2890698227 cites W2027544287 @default.
• W2890698227 cites W2027734276 @default.
• W2890698227 cites W2028979275 @default.
• W2890698227 cites W2030132082 @default.
• W2890698227 cites W2031675844 @default.
• W2890698227 cites W2034218488 @default.
• W2890698227 cites W2045030500 @default.
• W2890698227 cites W2047391056 @default.
• W2890698227 cites W2047648069 @default.
• W2890698227 cites W2052616428 @default.
• W2890698227 cites W2053108668 @default.
• W2890698227 cites W2056066272 @default.
• W2890698227 cites W2058003331 @default.
• W2890698227 cites W2064943738 @default.
• W2890698227 cites W2069461209 @default.
• W2890698227 cites W2072692927 @default.
• W2890698227 cites W2077561616 @default.
• W2890698227 cites W2079600028 @default.
• W2890698227 cites W2081038697 @default.
• W2890698227 cites W2083339292 @default.
• W2890698227 cites W2085020860 @default.
• W2890698227 cites W2088803240 @default.
• W2890698227 cites W2092866358 @default.
• W2890698227 cites W2104518068 @default.
• W2890698227 cites W2104787027 @default.
• W2890698227 cites W2113785515 @default.
• W2890698227 cites W2119007429 @default.
• W2890698227 cites W2120532631 @default.
• W2890698227 cites W2121690346 @default.
• W2890698227 cites W2127722963 @default.
• W2890698227 cites W2129433315 @default.
• W2890698227 cites W2136884131 @default.
• W2890698227 cites W2138347162 @default.
• W2890698227 cites W2140001654 @default.
• W2890698227 cites W2145097306 @default.
• W2890698227 cites W2145167270 @default.
• W2890698227 cites W2147005880 @default.
• W2890698227 cites W2147713200 @default.
• W2890698227 cites W2149180856 @default.
• W2890698227 cites W2151181273 @default.
• W2890698227 cites W2153306945 @default.
• W2890698227 cites W2154706538 @default.
• W2890698227 cites W2154836345 @default.
• W2890698227 cites W2156633761 @default.
• W2890698227 cites W2161205508 @default.
• W2890698227 cites W2162070159 @default.
• W2890698227 cites W2166549486 @default.
• W2890698227 cites W2172169796 @default.
• W2890698227 cites W2173852084 @default.
• W2890698227 cites W2191771677 @default.
• W2890698227 cites W2254231291 @default.
• W2890698227 cites W2320398552 @default.
• W2890698227 cites W2405493398 @default.
• W2890698227 cites W2460319032 @default.
• W2890698227 cites W2566332937 @default.
• W2890698227 cites W2571247739 @default.
• W2890698227 cites W2590983508 @default.
• W2890698227 cites W2727678863 @default.
• W2890698227 cites W2737623991 @default.
• W2890698227 cites W2976051323 @default.
• W2890698227 cites W3021856656 @default.
• W2890698227 cites W2330010101 @default.
• W2890698227 doi "https://doi.org/10.4209/aaqr.2018.05.0163" @default.
• W2890698227 hasPublicationYear "2019" @default.

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