气候变化下北欧和中欧复合洪水事件频率的变化

IF 3.3 Q2 ENVIRONMENTAL SCIENCES
Philipp Heinrich, Stefan Hagemann, Ralf Weisse, L. Gaslikova
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引用次数: 0

摘要

河流流量增加和沿海高水位同时发生可能导致复合洪水。复合洪水事件可能比潜在极端事件的单独发生造成更大的破坏,因此对风险评估至关重要。尽管假设复合洪水事件的频率和/或严重程度普遍增加是由于气候变化,但对欧洲较大地区进行的研究很少。因此,我们的工作重点是对沿海水位、河流流量、,以及它们在本世纪末同时出现在北欧和中欧(2070-2099)。为此,我们分析了两个全球气候模型(GCM)中RCP2.6和RCP8.5两种排放情景的缩减数据集。首先,我们将缩小规模的GCM的历史运行与历史重建数据进行比较,以调查它们是否为北欧和中欧提供了可比的结果。然后,我们研究了气候变化下极端事件强度、数量和极端事件季节持续时间的变化。我们的分析显示,整个欧洲地区的复合洪水事件有所增加,主要是由于平均海平面上升。在一些地区,本世纪末,复合洪水事件天数增加了八倍。这一增长伴随着年度复合洪水事件季节持续时间的增加。此外,与全球变暖2K相关的海平面上升将导致几乎每个欧洲河口的复合洪水事件天数增加一倍。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Changes in compound flood event frequency in northern and central Europe under climate change
The simultaneous occurrence of increased river discharge and high coastal water levels may cause compound flooding. Compound flood events can potentially cause greater damage than the separate occurrence of the underlying extreme events, making them essential for risk assessment. Even though a general increase in the frequency and/or severity of compound flood events is assumed due to climate change, there have been very few studies conducted for larger regions of Europe.Our work, therefore, focuses on the high-resolution analysis of changes in extreme events of coastal water levels, river discharge, and their concurrent appearance at the end of this century in northern and central Europe (2070–2099). For this, we analyze downscaled data sets from two global climate models (GCMs) for the two emissions scenarios RCP2.6 and RCP8.5. First, we compare the historical runs of the downscaled GCMs to historical reconstruction data to investigate if they deliver comparable results for northern and central Europe. Then we study changes in the intensity of extreme events, their number, and the duration of extreme event seasons under climate change.Our analysis shows increases in compound flood events over the whole European domain, mostly due to the rising mean sea level. In some areas, the number of compound flood event days increases by a factor of eight at the end of the current century. This increase is concomitant with an increase in the annual compound flood event season duration.Furthermore, the sea level rise associated with a global warming of 2K will result in double the amounts of compound flood event days for nearly every European river estuary considered.
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来源期刊
Frontiers in Climate
Frontiers in Climate Environmental Science-Environmental Science (miscellaneous)
CiteScore
4.50
自引率
0.00%
发文量
233
审稿时长
15 weeks
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