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大气气溶胶的垂直非均一对向上亮度和卫星遥感地表反射率的效应
引用本文:Qiu Jinhuan,Nobuo Takeuchi. 大气气溶胶的垂直非均一对向上亮度和卫星遥感地表反射率的效应[J]. 大气科学进展, 2001, 18(4): 539-553. DOI: 10.1007/s00376-001-0043-z
作者姓名:Qiu Jinhuan  Nobuo Takeuchi
作者单位:邱金桓,Qiu Jinhuan(Institute of Atmospheric Physics, Chinese Academy of Sciences,);Nobuo Takeuchi,Nobuo Takeuchi(CERES, Chiba University,)  
摘    要:均一模式和两层模式是两个忽略气溶胶垂直非均一、并广泛用于卫星遥感的辐射模式。通过两个模式的数值模拟,分析了气溶胶的垂直非均一对向上天空亮度和卫星遥感地面反射率的效应。数值模拟选用了24个有代表性的气溶胶模式。对于具有强分子散射的卫星短波通道,由于分子和气溶胶散射性的明显不同,应用均一和两层模式计算的向上亮度往往存在较大误差。对长波通道,如果气溶胶的光学特性随高度变化不大,该亮度误差较小,但如果存在不同散射相函数和一次散射反照率的气溶胶层,该误差仍可能较大。对于干净的大气,由均一和两层模式计算的亮度误差可分别高达31.4%和31.5%,而对于混浊的大气,该误差可分别高达67.8%和59.2%。该亮度误差可以引起地表反射率解存在大的不确定性,特别是对于短波通道和强吸收的气溶胶。对于包含强吸收气溶胶的混浊大气,均一和两层模式不适合于大气订正应用。

关 键 词:卫星遥感  气溶胶非均一  地面反射率  亮度
收稿时间:2000-08-07

Effects of aerosol vertical inhomogeneity on the upwelling radiance and satellite remote sensing of surface reflectance
Qiu Jinhuan,Nobuo Takeuchi. Effects of aerosol vertical inhomogeneity on the upwelling radiance and satellite remote sensing of surface reflectance[J]. Advances in Atmospheric Sciences, 2001, 18(4): 539-553. DOI: 10.1007/s00376-001-0043-z
Authors:Qiu Jinhuan  Nobuo Takeuchi
Affiliation:Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing 100029,CERES, Chiba University, Japan
Abstract:There are two widely used radiative models without consideration of aerosol inhomogeneity for satellite remote sensing application, the Homogeneous Model and the Two-layer Model with aerosol in the lower layer. In this paper, effects of the aerosol vertical inhomogeneity on upwelling radiance and satellite remote sensing of surface reflectance are analyzed through numerical simulations by using two models. As shown in the simulations by using 24 representative aerosol models, there is often a considerably large error in upwelling radiance calculated by two models (Homogeneous and Two-layer) for the short wavelength channel with strong molecular scattering, owing to the difference between molecular and aerosol scattering properties. For the long wavelength channel, the error is small if aerosol optical parameters are less variable with height, but it could also be significant if there are aerosol layers with different scattering phase functions and single scattering albedo. The radiance errors by the Homogeneous Model and the Two-layer Model can be up to 31.4% and 31.5% for the clean atmosphere, and in case of turbid atmosphere 67.8% and 59.2%,respectively. The radiance error could result in a large uncertainty of surface reflectance retrievals, especially for the short wavelength channel and the strongly absorbing aerosol. For the turbid atmosphere with strongly absorbing aerosol, the Homogeneous Model and the Two-layer Model are not suitable for atmospheric correction application.
Keywords:Satellite remote sensing   Aerosol inhomogeneity   Surface reflectance   Radiance
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