Retrieval of Cloud Microphysical Properties from MODIS and AIRS

Jun Li, Hung-Lung Huang, Chian‐Yi Liu, P. Yang, T. Schmit, Heli Wei, E. Weisz, L. Guan, W. P. Menzel
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引用次数: 89

Abstract

The Moderate Resolution Imaging Spectroradiometer (MODIS) and the Atmospheric Infrared Sounder (AIRS) measurements from the NASA Earth Observing System Aqua satellite enable global monitoring of the distribution of clouds during day and night. The MODIS is able to provide a high-spatial-resolution (1–5 km) cloud mask, cloud classification mask, cloud-phase mask, cloud-top pressure (CTP), and effective cloud amount during both the daytime and the nighttime, as well as cloud particle size (CPS) and cloud optical thickness (COT) at 0.55 m during the daytime. The AIRS high-spectral-resolution measurements reveal cloud properties with coarser spatial resolution (13.5 km at nadir). Combined, MODIS and AIRS provide cloud microphysical properties during both the daytime and nighttime. A fast cloudy radiative transfer model for AIRS that accounts for cloud scattering and absorption is described in this paper. Onedimensional variational (1DVAR) and minimum-residual (MR) methods are used to retrieve the CPS and COT from AIRS longwave window region (790–970 cm 1 or 10.31–12.66 m, and 1050–1130 cm 1 or 8.85–9.52 m) cloudy radiance measurements. In both 1DVAR and MR procedures, the CTP is derived from the AIRS radiances of carbon dioxide channels while the cloud-phase information is derived from the collocated MODIS 1-km phase mask for AIRS CPS and COT retrievals. In addition, the collocated 1-km MODIS cloud mask refines the AIRS cloud detection in both 1DVAR and MR procedures. The atmospheric temperature profile, moisture profile, and surface skin temperature used in the AIRS cloud retrieval processing are from the European Centre for Medium-Range Weather Forecasts forecast analysis. The results from 1DVAR are compared with the operational MODIS products and MR cloud microphysical property retrieval. A Hurricane Isabel case study shows that 1DVAR retrievals have a high correlation with either the operational MODIS cloud products or MR cloud property retrievals. 1DVAR provides an efficient way for cloud microphysical property retrieval during the daytime, and MR provides the cloud microphysical property retrievals during both the daytime and nighttime.
基于MODIS和AIRS的云微物理特性检索
美国国家航空航天局地球观测系统Aqua卫星的中分辨率成像光谱仪(MODIS)和大气红外探测器(AIRS)测量能够在白天和夜间对全球云的分布进行监测。MODIS能够提供高空间分辨率(1-5 km)的云掩模、云分类掩模、云相掩模、白天和夜间的云顶压力(CTP)和有效云量,以及白天0.55 m的云粒径(CPS)和云光学厚度(COT)。AIRS的高光谱分辨率测量揭示了云的特性,具有较粗的空间分辨率(最低点为13.5公里)。MODIS和AIRS结合起来,在白天和夜间提供云的微物理特性。本文介绍了一种考虑云散射和吸收的大气快速多云辐射传输模型。利用一维变分(1DVAR)和最小残差(MR)方法反演AIRS长波窗区(790 ~ 970 cm 1或10.31 ~ 12.66 m, 1050 ~ 1130 cm 1或8.85 ~ 9.52 m)云雾辐射测量值的CPS和COT。在1DVAR和MR过程中,CTP都是从AIRS的二氧化碳通道辐射中获得的,而云相信息则是从AIRS CPS和COT检索的MODIS 1公里相位掩模中获得的。此外,配置的1 km MODIS云掩模改进了1DVAR和MR过程中的AIRS云检测。AIRS云检索处理中使用的大气温度廓线、湿度廓线和地表皮肤温度来自欧洲中期天气预报中心的预报分析。将1DVAR结果与实际MODIS产品和MR云微物性检索结果进行了比较。飓风伊莎贝尔案例研究表明,1DVAR检索与MODIS云产品或MR云属性检索具有高度相关性。1DVAR为白天的云微物性检索提供了一种有效的方法,MR提供了白天和夜间的云微物性检索。
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