Improving AHI radiance assimilation over land with the surface skin temperature constrained by station observations and its impact for quantitative precipitation forecasts

IF 2.8 3区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Xin Li, X. Zou, Mingjian Zeng, X. Zhuge, Weiguang Liu
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Abstract

In this study, a new way to assimilate clear-sky Advanced Himawari Imager (AHI) surface-sensitive brightness temperature (TB) observations over land is investigated for improving quantitative precipitation forecasts (QPFs) in eastern China. To alleviate problems arising from inaccurate surface temperature in radiance simulations, surface-station observations of land surface skin temperature (LSST) together with conventional and AMSU-A observations are assimilated to improve AHI surface-sensitive TB simulations of the Community Radiative Transfer Model (CRTM) before AHI data assimilation. First, the Gridpoint Statistical Interpolation (GSI) three-dimensional variational (3DVar) system is updated with the additional control variable of surface temperature and its background error covariances. Second, surface temperature and emissivity sensitivity checks are designed for the quality control of the surface-sensitive AHI channels. Finally, the impacts of a two-time data assimilation strategy are assessed for a local convection rainfall case and a synoptic-scale precipitation case. The experiment in which AHI data are assimilated after assimilating LSST data (ExpL2) outperforms the traditional experiment in which the LSST is not updated (ExpL) in terms of its 24-h QPF skill score. A better description of atmospheric instability and moisture convergence forcing is obtained in ExpL2 than in ExpL. Both experiments show additional low-level temperature and humidity adjustments compared to the experiment that does not assimilate AHI surface-sensitive channels (ExpNL). Lower AHI TB simulation biases are found in the ExpL2 experiment, which improve the analyzed field and subsequent QPFs. The results in this study suggest the importance of proper utilization of LSST observations for AHI surface-sensitive TB assimilations over land.
改善地表皮肤温度受台站观测约束的陆地上AHI辐射同化及其对降水定量预报的影响
在本研究中,为了改进中国东部的定量降水预报,研究了一种吸收晴朗天空的新方法——高级Himawari成像仪(AHI)陆地表面敏感亮温(TB)观测。为了缓解辐射模拟中表面温度不准确引起的问题,在AHI数据同化之前,将陆地表面表层温度(LSST)的表面站观测值与传统和AMSU-A观测值相结合,以改进社区辐射转移模型(CRTM)的AHI表面敏感TB模拟。首先,用表面温度及其背景误差协方差的附加控制变量对网格点统计插值(GSI)三维变分(3DVar)系统进行更新。其次,表面温度和发射率灵敏度检查是为表面敏感AHI通道的质量控制而设计的。最后,评估了两次数据同化策略对局部对流降雨和天气尺度降水的影响。在同化LSST数据之后同化AHI数据的实验(ExpL2)在其24小时QPF技能得分方面优于不更新LSST的传统实验(ExpL)。实验L2比实验L更好地描述了大气不稳定性和水汽辐合强迫。与不吸收AHI表面敏感通道(ExpNL)的实验相比,两个实验都显示出额外的低水平温度和湿度调节。在ExpL2实验中发现了较低的AHI-TB模拟偏差,这改进了分析的场和随后的QPF。本研究的结果表明,适当利用LSST观测对陆地上AHI表面敏感TB同化的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Monthly Weather Review
Monthly Weather Review 地学-气象与大气科学
CiteScore
6.40
自引率
12.50%
发文量
186
审稿时长
3-6 weeks
期刊介绍: Monthly Weather Review (MWR) (ISSN: 0027-0644; eISSN: 1520-0493) publishes research relevant to the analysis and prediction of observed atmospheric circulations and physics, including technique development, data assimilation, model validation, and relevant case studies. This research includes numerical and data assimilation techniques that apply to the atmosphere and/or ocean environments. MWR also addresses phenomena having seasonal and subseasonal time scales.
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