卫星遥感北大西洋风暴“尤尼斯”生成和发展特征

Formation and development of North Atlantic Storm Eunice revealed by satellite remote sensing

  • 摘要: 2022年2月中旬,北大西洋冬季风暴“尤尼斯”(Eunice)给欧洲中、西部带来严重自然灾害。以卫星观测数据为主,研究了“尤尼斯”发生的环境场、卫星水汽图像干侵入特征、对流层中高层位涡强迫对爆发性发展的影响等。结果表明:“尤尼斯”活动期间,北半球高纬度西半球偏冷、东半球偏暖,极涡偏向北美大陆,北美极区附近平均气温偏低。“尤尼斯”的生成和北美极区附近极涡分裂南下的冷空气沿着西风带东传有关。爆发性发展期间,海平面气压下降率约40 hPa/(24 h),远超爆发性发展指标(24 hPa/(24 h)),且出现在海温正距平区。格陵兰岛南部气旋提供的极区冷空气对爆发性发展尤为重要,该冷空气在北大西洋洋面形成强西北风转偏西风,表现为排列整齐的大范围细胞状积云一直延伸至风暴中心附近,卫星水汽图像上表现为快速增强的干侵入特征,并伴有高位涡异常。发展至最强阶段,高位涡向下伸展,400 hPa最强高位涡区位于风暴中心的正上方,500 hPa以下高位涡向东南方向倾斜,并伴随着对流层中、下层强下沉运动,下沉运动为低空风速增强提供了一定的高空能量来源,高位涡侵入的下方也有利于低层气旋式环流发展。

     

    Abstract: The North Atlantic winter storm Eunice brought severe disasters to central and western Europe in February 2022. Based on satellite data, the environmental fields, the dry intrusion characteristics on satellite water vapor images, and the impact of potential vorticity forcing in the upper and middle troposphere on explosive development are studied in this paper. The results show that during the Eunice activities, western/eastern part of the northern hemisphere high latitudes was abnormally cold/warm. The polar vortex shifted towards the northern part of the North American continent, and the average air temperature was lower than the climatological value near the North American polar region. The generation of Eunice was related to the cold air-mass splitting from polar vortex in the North American polar region and its eastward propagation along the westerlies. During the explosive development, the sea level pressure decreased by about 40 hPa/(24 h), which far exceeded the indicator of explosive development (24 hPa/(24 h)) and occurred over the ocean with positive sea surface temperature anomalies. The polar cold air-mass from the cyclone in the south of Greenland formed strong northwesterly to westerly winds over the North Atlantic Ocean surface, which was particularly important for the explosive development. Corresponding to the strong northwesterly to westerly winds, a large range of well-arranged cellular cumulus clouds extended to the vicinity of the Eunice center on satellite true color images, and rapidly enhanced dry intrusion features accompanied by strong positive potential vorticity anomalies displayed on satellite water vapor images. When Eunice reached its strongest stage, the strong positive potential vorticity extended downwards, with the maximum center at 400 hPa located directly above the storm center. Below 500 hPa, the strong positive potential vorticity tilted to the southeast, accompanied by strong descending in the middle and lower troposphere that provided energy for the enhancement of low- level wind to a certain extent. The intrusion of positive potential vorticity was also in favorable for the cyclone development below it.

     

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