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Characterization of aerosols over the Indochina peninsula from satellite-surface observations during biomass burning pre-monsoon season
Abstract This paper presents characterization of aerosols over the Indochina peninsular regions of Southeast Asia during pre-monsoon season from satellite and ground-based radiometric observations. Our analysis focuses on the seasonal peak period in aerosol loading and biomass burning, prior to the onset of the Asian summer monsoon, as observed in the inter-annual variations of Aerosol Optical Depth (AOD) and fire count data from MODIS. Multi-year (2007–2011) analysis of spaceborne lidar measurements, from CALIOP, indicates presence of aerosols mostly within boundary layer, however extending to elevated altitudes to ∼4 km over northern regions of Indochina, encompassing Myanmar, northern Thailand and southern China. In addition, a strong gradient in aerosol loading and vertical distribution is observed from the relatively clean equatorial conditions to heavy smoke-laden northern regions (greater aerosol extinction and smaller depolarization ratio). Based on column-integrated ground-based measurements from four AERONET locations distributed over Thailand, the regional aerosol loading is found to be significantly absorbing with spectral single scattering albedo (SSA) below 0.91 ± 0.02 in the 440–1020 nm range, with lowest seasonal mean SSA (most absorbing aerosol) over the northern location of Chiang Mai (SSA ∼ 0.85) during pre-monsoon season. The smoke-laden aerosol loading is found to exhibit a significant diurnal pattern with higher AOD departures during early morning observations relative to late afternoon conditions (peak difference of more than 15% amplitude). Finally, satellite-based aerosol radiative impact is assessed using CERES shortwave Top-of-Atmosphere flux, in conjunction with MODIS AOD. Overall, a consistency in the aerosol-induced solar absorption characteristic is found among selected regions from ground-based sunphotometer-derived spectral SSA retrievals and satellite-based radiative forcing analysis.
Highlights ► Characterization of aerosols over Indochina from satellite and surface observations. ► Multi-year analysis of aerosol vertical distribution is presented from CALIOP data. ► Regional aerosol loading is found to be significantly absorbing from AERONET data. ► The smoke-laden aerosol loading is found to exhibit a significant diurnal pattern. ► Satellite-based aerosol radiative impact is assessed using CERES data.
Characterization of aerosols over the Indochina peninsula from satellite-surface observations during biomass burning pre-monsoon season
Abstract This paper presents characterization of aerosols over the Indochina peninsular regions of Southeast Asia during pre-monsoon season from satellite and ground-based radiometric observations. Our analysis focuses on the seasonal peak period in aerosol loading and biomass burning, prior to the onset of the Asian summer monsoon, as observed in the inter-annual variations of Aerosol Optical Depth (AOD) and fire count data from MODIS. Multi-year (2007–2011) analysis of spaceborne lidar measurements, from CALIOP, indicates presence of aerosols mostly within boundary layer, however extending to elevated altitudes to ∼4 km over northern regions of Indochina, encompassing Myanmar, northern Thailand and southern China. In addition, a strong gradient in aerosol loading and vertical distribution is observed from the relatively clean equatorial conditions to heavy smoke-laden northern regions (greater aerosol extinction and smaller depolarization ratio). Based on column-integrated ground-based measurements from four AERONET locations distributed over Thailand, the regional aerosol loading is found to be significantly absorbing with spectral single scattering albedo (SSA) below 0.91 ± 0.02 in the 440–1020 nm range, with lowest seasonal mean SSA (most absorbing aerosol) over the northern location of Chiang Mai (SSA ∼ 0.85) during pre-monsoon season. The smoke-laden aerosol loading is found to exhibit a significant diurnal pattern with higher AOD departures during early morning observations relative to late afternoon conditions (peak difference of more than 15% amplitude). Finally, satellite-based aerosol radiative impact is assessed using CERES shortwave Top-of-Atmosphere flux, in conjunction with MODIS AOD. Overall, a consistency in the aerosol-induced solar absorption characteristic is found among selected regions from ground-based sunphotometer-derived spectral SSA retrievals and satellite-based radiative forcing analysis.
Highlights ► Characterization of aerosols over Indochina from satellite and surface observations. ► Multi-year analysis of aerosol vertical distribution is presented from CALIOP data. ► Regional aerosol loading is found to be significantly absorbing from AERONET data. ► The smoke-laden aerosol loading is found to exhibit a significant diurnal pattern. ► Satellite-based aerosol radiative impact is assessed using CERES data.
Characterization of aerosols over the Indochina peninsula from satellite-surface observations during biomass burning pre-monsoon season
Gautam, Ritesh (author) / Hsu, N. Christina (author) / Eck, Thomas F. (author) / Holben, Brent N. (author) / Janjai, Serm (author) / Jantarach, Treenuch (author) / Tsay, Si-Chee (author) / Lau, William K. (author)
Atmospheric Environment ; 78 ; 51-59
2012-05-05
9 pages
Article (Journal)
Electronic Resource
English