了解美国沿海地区的复合洪水风险

IF 5.7 1区 地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY
Dongyu Feng, Zeli Tan, Donghui Xu, L. Ruby Leung
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引用次数: 0

摘要

摘要复合洪水是一种由多个洪水动因引起的洪水事件。通常使用基于统计的分析或基于水动力学的数值模型来评估相关风险。本研究提出了美国沿海地区(CONUS)的复合洪水风险评估(CFRA)框架。在此框架下,将大尺度河流模型与全球海洋再分析数据相结合,(a)评估沿海回水对河流流域影响相关的CF暴露,(b)使用河流流量和风暴潮的二元统计模型生成空间分布数据,用于分析CF危害。这两种风险也被结合起来,以实现对大陆规模CF风险的整体理解。估计的CF风险显示出沿美国海岸显著的流域间和流域内变化,美国西部和墨西哥湾沿岸盆地的CF风险变化更大。不同的风险评估方法在旧金山湾区、密西西比河下游和普吉特海湾等几个关键地区呈现出明显不同的模式。我们的研究结果强调需要权衡不同的CF风险措施,避免使用单一的基于统计或基于流体动力学的cfra。这些CFRA的不确定性来源包括:不能解释流动物理或解决风险的空间变异的测量观测,以及在大尺度模型中低估了洪水极端事件和CF驱动因素的依赖性,这突出了了解CF风险对于开发更可靠的CFRA的重要性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Understanding the compound flood risk along the coast of the contiguous United States
Abstract. Compound flooding is a type of flood event caused by multiple flood drivers. The associated risk has usually been assessed using statistics-based analyses or hydrodynamics-based numerical models. This study proposes a compound flood (CF) risk assessment (CFRA) framework for coastal regions in the contiguous United States (CONUS). In this framework, a large-scale river model is coupled with a global ocean reanalysis dataset to (a) evaluate the CF exposure related to the coastal backwater effects on river basins, and (b) generate spatially distributed data for analyzing the CF hazard using a bivariate statistical model of river discharge and storm surge. The two kinds of risk are also combined to achieve a holistic understanding of the continental-scale CF risk. The estimated CF risk shows remarkable inter- and intra-basin variabilities along the CONUS coast with more variabilities in the CF hazard over the US west and Gulf coastal basins. Different risk assessment methods present significantly different patterns in a few key regions such as the San Francisco Bay area, the lower Mississippi River, and Puget Sound. Our results highlight the need to weigh different CF risk measures and avoid using single statistics-based or hydrodynamics-based CFRAs. Uncertainty sources in these CFRAs include the use of gauge observations, which cannot account for the flow physics or resolve the spatial variability of risks, and underestimations of the flood extremes and the dependence of CF drivers in large-scale models, highlighting the importance of understanding the CF risks for developing a more robust CFRA.
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来源期刊
Hydrology and Earth System Sciences
Hydrology and Earth System Sciences 地学-地球科学综合
CiteScore
10.10
自引率
7.90%
发文量
273
审稿时长
15 months
期刊介绍: Hydrology and Earth System Sciences (HESS) is a not-for-profit international two-stage open-access journal for the publication of original research in hydrology. HESS encourages and supports fundamental and applied research that advances the understanding of hydrological systems, their role in providing water for ecosystems and society, and the role of the water cycle in the functioning of the Earth system. A multi-disciplinary approach is encouraged that broadens the hydrological perspective and the advancement of hydrological science through integration with other cognate sciences and cross-fertilization across disciplinary boundaries.
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