Upper tropospheric cloud-radiation interaction induced by monsoon surge over the South China Sea

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Shunya Koseki, Ricardo Fonseca, Tieh-Yong Koh, Chee-Kiat Teo
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Abstract

We have investigated cloud formation over the South China Sea in the upper troposphere and its impacts on the radiation budget of the troposphere and ocean surface under monsoon surges using satellite and reanalysis products and an atmospheric numerical model. During strong surges (SS), the upper tropospheric (UT) cloud formation in central South China Sea shows a clear diurnal cycle, peaking around 12–14 local solar time when the incoming solar radiation is the strongest. The enhanced UT clouds attenuate the incoming solar radiation in the upper troposphere reducing the net downward shortwave radiation flux at the surface by approximately 28% in SS compared with no surge case. In contrast the downward longwave radiation flux is enhanced mainly from the middle to upper troposphere in SS. The cooling because of the diminished incoming shortwave radiation overwhelms the warming due to the longwave radiation at the ocean surface. This cloud radiative forcing is observed partly over the cold tongue in sea surface temperature (SST) in the South China Sea. Numerical simulations with a 1-dimensional slab ocean model suggests that the monsoon-induced UT cloud radiative forcing contributes partially to maintain and reinforce the SST cold tongue with a tendency of about 0.08 K in 6 days or about 1/6 of one standard deviation of the Cold Tongue Index in December. The latent heat flux due to the monsoon surge is still the most significant factor maintaining the cold tongue.

Abstract Image

南海季风风暴潮诱导的对流层上层云辐射相互作用
我们利用卫星和再分析产品以及大气数值模型研究了南海对流层上部的云形成及其对季风潮下对流层和海面辐射收支的影响。在强浪涌(SS)期间,南海中部的对流层上层(UT)云形成呈现出明显的日周期,在进入的太阳辐射最强的当地太阳时间12-14左右达到峰值。增强的UT云减弱了对流层上部入射的太阳辐射,与没有浪涌的情况相比,在SS中,地表的净向下短波辐射通量减少了约28%。相反,SS的长波辐射通量主要从对流层中上部增强。入射短波辐射减少导致的冷却压倒了海洋表面长波辐射导致的变暖。这种云辐射强迫是在南中国海海面温度(SST)的冷舌上部分观测到的。一维板状海洋模型的数值模拟表明,季风引起的UT云辐射强迫部分有助于维持和加强SST冷舌,其趋势约为0.08 6中的K 天或12月冷舌指数一个标准偏差的约1/6。季风潮引起的潜热通量仍然是维持冷舌的最重要因素。
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来源期刊
Meteorological Applications
Meteorological Applications 地学-气象与大气科学
CiteScore
5.70
自引率
3.70%
发文量
62
审稿时长
>12 weeks
期刊介绍: The aim of Meteorological Applications is to serve the needs of applied meteorologists, forecasters and users of meteorological services by publishing papers on all aspects of meteorological science, including: applications of meteorological, climatological, analytical and forecasting data, and their socio-economic benefits; forecasting, warning and service delivery techniques and methods; weather hazards, their analysis and prediction; performance, verification and value of numerical models and forecasting services; practical applications of ocean and climate models; education and training.
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