2005
DOI: 10.1016/j.atmosenv.2004.09.056
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Aerosol optical, chemical and physical properties at Gosan, Korea during Asian dust and pollution episodes in 2001

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Cited by 99 publications
(48 citation statements)
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“…According to the AOD~FMF classification method by Barnaba and Gobbi (2004), who conclude that the aerosols with AOD (550 nm) ≤ 0.3 and FMF < 0.8 are considered to be marine type, AOD (550 nm) > 0.3 and FMF < 0.7 for dust, and all the other aerosols are considered of continental type (AOD (550 nm) < 0.3 and FMF > 0.8, or AOD (550 nm) > 0.3 and FMF ≥ 0.7), and AOD~α classification method by Dubovik et al (2002), the dominant aerosols in the southern part of East China (excluding the Poyang Lake plain) are mostly emitted from natural source and possibly consist of continental and marine types, and the dominant aerosols over the northern part of East China are emitted from natural source and anthropogenic source and possibly consist of soil dust, biomass burning and urban/industrial type. The aerosols from natural source (such as soil dust) are possibly connected to the windblown mineral dust storms that usually occur in the spring (Kim, 2005). Meanwhile, plenty of construction activities due to fast economic development also contributed numerous dust-like particles into the atmosphere.…”
Section: Summary Of Aerosol Distributions In East Chinamentioning
confidence: 99%
“…According to the AOD~FMF classification method by Barnaba and Gobbi (2004), who conclude that the aerosols with AOD (550 nm) ≤ 0.3 and FMF < 0.8 are considered to be marine type, AOD (550 nm) > 0.3 and FMF < 0.7 for dust, and all the other aerosols are considered of continental type (AOD (550 nm) < 0.3 and FMF > 0.8, or AOD (550 nm) > 0.3 and FMF ≥ 0.7), and AOD~α classification method by Dubovik et al (2002), the dominant aerosols in the southern part of East China (excluding the Poyang Lake plain) are mostly emitted from natural source and possibly consist of continental and marine types, and the dominant aerosols over the northern part of East China are emitted from natural source and anthropogenic source and possibly consist of soil dust, biomass burning and urban/industrial type. The aerosols from natural source (such as soil dust) are possibly connected to the windblown mineral dust storms that usually occur in the spring (Kim, 2005). Meanwhile, plenty of construction activities due to fast economic development also contributed numerous dust-like particles into the atmosphere.…”
Section: Summary Of Aerosol Distributions In East Chinamentioning
confidence: 99%
“…It is not influenced by local pollutant emissions and samples air masses transported downwind of continental Asia (e.g. Kim et al (2005)). Models were also compared to vertical aerosol backscatter signals measured by the Japanese National Institute for Environmental Studies (NIES) ground-based lidar network Sugimoto et al, 2008) covering Japan with 10 lidars cali- brated using a similar procedure.…”
Section: Ground-based Datamentioning
confidence: 99%
“…Instrumentation deployed at the observatory measured ozone, NO x (defined as the sum of NO and NO 2 ) and CO (Chou et al, 2011), as well as particulate matter (PM: PM 2.5 and PM 10 ), organic carbon (OC) and BC (Huang et al, 2010). The Gosan observatory (Kim et al, 2005) is a longterm observatory located on the Jeju Island, South Korea, measuring OC, BC, aerosol number size distributions (Flowers et al, 2010) and NO x , sulphur dioxide ( SO 2 ), CO and ozone concentrations. It is not influenced by local pollutant emissions and samples air masses transported downwind of continental Asia (e.g.…”
Section: Ground-based Datamentioning
confidence: 99%
“…The Ångström exponent (Å) was calculated using linear regres-sion of ln(τ ) vs. ln(λ) (i.e., wavelength) with the data obtained at 380, 440, 500, 675, and 870 nm. These aerosol parameters were used in the column radiative model (CRM) as input data to calculate the aerosol direct radiative forcing and forcing efficiency (Won et al, 2004;Kim et al, 2010). The CRM uses a δ-Eddington approximation with 19 spectral intervals spanning from 0.2 to 5 µm and accounts for several gas absorption spectra; seven spectral bands of O 3 and H 2 O, three of CO 2 , and absorption bands of N 2 O, CH 4 , CFC-11, and CFC-12 are included (Slingo, 1989;Briegleb, 1992).…”
Section: Methodsmentioning
confidence: 99%