Specific Features of the Land-Sea Contrast of Cloud Liquid Water Path in Northern Europe as Obtained from the Observations by the SEVIRI Instrument: Artefacts or Reality?

Vladimir S. Kostsov, Dmitry V. Ionov
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Abstract

Liquid water path (LWP) is one of the most important cloud parameters and is crucial for global and regional climate modelling, weather forecasting, and modelling of the hydrological cycle and interactions between different components of the climate system: the atmosphere, the hydrosphere, and the land surface. Space-borne observations by the SEVIRI instrument have already provided evidence of the systematic difference between the cloud LWP values derived over the land surface in Northern Europe and those derived over the Baltic Sea and major lakes during both cold and warm seasons. In the present study, the analysis of this LWP land-sea contrast for the period 2011–2017 reveals specific temporal and spatial variations, which, in some cases, seem to be artefacts rather than of natural origin. The geographical objects of investigation are water bodies and water areas located in Northern Europe that differ in size and other geophysical characteristics: the Gulf of Finland and the Gulf of Riga in the Baltic Sea and large and small lakes in the neighbouring region. The analysis of intra-seasonal features has detected anomalous conditions in the Gulf of Riga and the Gulf of Finland, which show up as very low values of the LWP land-sea contrast in August with respect to the values in June and July every year within the considered time period. This anomaly is likely an artefact caused by the LWP retrieval algorithm since the transition from large LWP contrast to very low contrast occurs sharply, synchronically, and at a certain date every year at different places in the Baltic Sea.
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由SEVIRI仪器观测得到的北欧云液态水路径的陆海对比特征:人工还是真实?
液态水路径(LWP)是最重要的云参数之一,对于全球和区域气候模拟、天气预报、水文循环和气候系统不同组成部分(大气、水圈和陆地表面)之间相互作用的模拟至关重要。SEVIRI仪器的空间观测已经提供了证据,证明在寒冷和温暖季节,在北欧陆地表面获得的云LWP值与在波罗的海和主要湖泊获得的云LWP值之间存在系统差异。在本研究中,对2011-2017年期间LWP的陆海对比分析揭示了特定的时空变化,在某些情况下,这些变化似乎是人为的,而不是自然的。调查的地理对象是位于北欧的大小和其他地球物理特征不同的水体和水域:波罗的海的芬兰湾和里加湾以及邻近地区的大小湖泊。对季节内特征的分析发现,里加湾和芬兰湾出现了异常情况,在考虑的时间段内,每年8月的陆海低气压对比值与6月和7月的值相比非常低。这种异常很可能是LWP检索算法造成的,因为在波罗的海的不同地方,从大LWP对比度到非常低对比度的转变是急剧的、同步的,并且在每年的某个日期发生。
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Specific Features of the Land-Sea Contrast of Cloud Liquid Water Path in Northern Europe as Obtained from the Observations by the SEVIRI Instrument: Artefacts or Reality? Air Temperature Intermittency and Photofragment Excitation Espresso: A Global Deep Learning Model to Estimate Precipitation from Satellite Observations No City Left Behind: Building Climate Policy Bridges between the North and South Characteristics of Convective Parameters Derived from Rawinsonde and ERA5 Data Associated with Hailstorms in Northeastern Romania
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