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W3093512201 endingPage "143003" @default.
W3093512201 startingPage "143003" @default.
W3093512201 abstract "In this study, simulations of the annual mean aerosol budget, aerosol optical properties, and surface mass concentration in 2006 in China are performed with two aerosol interactive global atmosphere models, namely, the Nonhydrostatic ICosahedral Atmospheric Model (NICAM) coupled with the Spectral Radiation Transport Model for Aerosol Species (SPRINTARS) and the Beijing Climate Center Atmospheric General Circulation Model (BCC_AGCM) coupled with the Canadian Aerosol Module (CAM) online. The observed and simulated aerosol optical depths (AODs) exhibit similar horizontal distributions with large values over eastern and central China, and sulfate aerosols contribute the main differences between the AODs simulated by NICAM and BCC_AGCM. The simulated sulfate and dust surface concentrations are more consistent with observations compared with the simulated carbonaceous surface concentrations, and both models can reproduce the decreasing tendency of the sulfate surface concentration from urban sites to rural sites. However, the dust emission and deposition levels in China simulated by BCC_AGCM are three times as high as those simulated by NICAM, and the major sink processes of the anthropogenic sulfate, black carbon (BC), and organic carbon (OC) aerosols over China are very different between the two models. The emission and deposition results, which are closely related to the model-assumed aerosol particle size distribution, indicate that the current aerosol size distribution used in the two models should be further improved. The differences in dust emission parameterizations also lead significant discrepancies in aerosol cycles and the dust emission scheme is an important factor determining the magnitudes of global and regional dust emission fluxes. • We present an evaluation of annual aerosol cycle in China simulated by two new aerosol models. • The current aerosol size distribution used in the two models should be improved. • The differences in dust emission parameterizations lead significant discrepancies in aerosol cycles." @default.
W3093512201 created "2020-10-29" @default.
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W3093512201 date "2021-04-01" @default.
W3093512201 modified "2023-10-10" @default.
W3093512201 title "Comparison and evaluation of the simulated annual aerosol characteristics over China with two global aerosol models" @default.
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W3093512201 doi "https://doi.org/10.1016/j.scitotenv.2020.143003" @default.
W3093512201 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/33168256" @default.
W3093512201 hasPublicationYear "2021" @default.
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