Distinct response of near surface air temperature to clouds in North China

IF 2 4区地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES Atmospheric Science Letters Pub Date : 2022-08-23 DOI:10.1002/asl.1128

Shuyi Jiang, Chuanfeng Zhao, Yan Xia

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引用次数: 1

Abstract

Using the daily 2 m maximum temperature (Tmax), 2 m minimum temperature (Tmin) and cloud cover data measured at ground sites of the China Meteorological Administration in North China from 2000 to 2017, this study investigates the influence of clouds on the daily temperature range (DTR) defined as the difference between Tmax and Tmin. As expected, the cloud cover shows the similar averaged spatial distribution and monthly variation with Tmin. Surprisingly, it also shows the similar average spatial distribution and monthly variation with Tmax, suggesting the more important roles of regions (latitude) and seasons associated with the variations of land surface temperature, which is further related to solar radiation absorbed and surface heat capacity. By comparing monthly variations of temperature between cloudy and clear skies, we find that clouds can weaken Tmax and increase Tmin, and thus decrease DTR. As a result, the spatial distribution of DTR is opposite to the cloud cover. The clouds have relatively stronger impact on Tmin and DTR over mountain region, which is most likely caused by the stronger longwave cloud radiative forcing associated with higher cloud tops over the mountain region.

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中国北方近地面气温对云的明显响应

利用2000 - 2017年中国气象局华北地区地面站点逐日2米最高气温(Tmax)、2米最低气温(Tmin)和云量资料，探讨了云对以Tmax和Tmin之差定义的逐日温度差(DTR)的影响。云量的平均空间分布和月变化与Tmin相似。令人惊讶的是，它也显示出与Tmax相似的平均空间分布和月变化，表明区域(纬度)和季节对地表温度变化的影响更为重要，而地表温度的变化与太阳辐射吸收和地表热容进一步相关。通过比较阴天和晴空的月温度变化，我们发现云可以减弱Tmax和增加Tmin，从而降低DTR。因此，DTR的空间分布与云量相反。云层对山区Tmin和DTR的影响相对较强，这很可能是由于山区云顶较高，长波云辐射强迫较强所致。

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来源期刊

Atmospheric Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-

CiteScore

4.90

自引率

3.30%

发文量

审稿时长

>12 weeks

期刊介绍： Atmospheric Science Letters (ASL) is a wholly Open Access electronic journal. Its aim is to provide a fully peer reviewed publication route for new shorter contributions in the field of atmospheric and closely related sciences. Through its ability to publish shorter contributions more rapidly than conventional journals, ASL offers a framework that promotes new understanding and creates scientific debate - providing a platform for discussing scientific issues and techniques. We encourage the presentation of multi-disciplinary work and contributions that utilise ideas and techniques from parallel areas. We particularly welcome contributions that maximise the visualisation capabilities offered by a purely on-line journal. ASL welcomes papers in the fields of: Dynamical meteorology; Ocean-atmosphere systems; Climate change, variability and impacts; New or improved observations from instrumentation; Hydrometeorology; Numerical weather prediction; Data assimilation and ensemble forecasting; Physical processes of the atmosphere; Land surface-atmosphere systems.

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