What distinguishes 100-year precipitation extremes over central European river catchments from more moderate extreme events?

Weather and Climate Dynamics Pub Date : 2023-05-12 DOI:10.5194/wcd-4-427-2023

Florian Ruff, S. Pfahl

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引用次数: 1

Abstract

Abstract. Historical extreme flooding events in central European river catchments caused high socioeconomic impacts. Previous studies have analysed single events in detail but have not focused on a robust analysis of the underlying extreme precipitation events in general, as historical events are too rare for a robust assessment of their generic dynamical causes. This study tries to fill this gap by analysing a set of realistic daily 100-year large-scale precipitation events over five major European river catchments with the help of operational ensemble prediction data from the ECMWF. The dynamical conditions during such extreme events are investigated and compared to those of more moderate extreme events (20 to 50 year); 100-year precipitation events are generally associated with an upper-level cutoff low over central Europe in combination with a surface cyclone southeast of the specific river catchment. The 24 h before the event is decisive for the exact location of this surface cyclone, depending on the location and velocity of the upper-level low over western Europe. The difference between 100-year and more moderate extreme events varies from catchment to catchment. Dynamical mechanisms such as an intensified upper-level cutoff low and surface cyclone are the main drivers distinguishing 100-year events in the Oder and Danube catchments, whereas thermodynamic mechanisms such as a higher moisture supply in the lower troposphere east of the specific river catchment are more relevant in the Elbe and Rhine catchments. For the Weser and Ems catchment, differences appear in both dynamical and thermodynamic mechanisms.

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是什么将中欧河流流域的百年极端降水事件与较为温和的极端事件区分开来?

摘要历史上中欧河流流域的极端洪水事件造成了严重的社会经济影响。以前的研究详细分析了单个事件，但没有集中对潜在的一般极端降水事件进行强有力的分析，因为历史事件太罕见，无法对其一般动力学原因进行可靠的评估。本研究试图通过在ECMWF的业务集合预测数据的帮助下，分析一组真实的欧洲五大河流集水区100年大尺度降水事件来填补这一空白。对这些极端事件期间的动态条件进行了调查，并与较中度极端事件(20至50年)的动态条件进行了比较;百年一遇的降水事件通常与中欧上空的高空截止低压以及特定河流集水区东南部的地面气旋有关。根据西欧高空低气压的位置和速度，事件发生前24小时对地面气旋的确切位置起决定性作用。100年和更温和的极端事件之间的差异因流域而异。在奥得河和多瑙河流域，动力机制(如强化的上层切断低压和地面气旋)是区分100年事件的主要驱动因素，而在易北河和莱茵河流域，热力学机制(如特定河流流域以东对流层低层较高的水分供应)则更为相关。对于Weser和Ems流域，在动力和热力学机制上都存在差异。

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

Weather and Climate Dynamics

CiteScore

6.40

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0.00%

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