Flash Flood Risk and Climate Analysis in the Extreme South of Algeria (the Case of In-Guezzam City)

Q3 Social Sciences

Geomatics and Environmental Engineering Pub Date : 2022-10-18 DOI:10.7494/geom.2022.16.4.157

R. Zegait, Z. Şen, A. Pulido-Bosch, Housseyn Madi, Bachir Hamadeha

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引用次数: 1

Abstract

Natural risks, particularly flood risk, are a topical subject in Algeria and throughout the world, particularly given the last major catastrophic floods in Sudan (2020) and North Africa. With the development of the climate change phenomenon in the world, risk management is becoming increasingly necessary for all the actors concerned (decision-makers, technicians, and the population) to identify protection issues. In 2018, in the extreme south of Algeria, In-Guezzam City suffered a devastating flood that caused significant damage and loss of human and material resources. More than 100 homes collapsed, and approximately 345 families were displaced. Currently, there is no research work to assess the hydrological situation and the risk of flooding in this region. Therefore, the main purpose of this study is to shed light on the risk of flash floods in the extreme south of Algeria with more specific attention to the August 2018 floods as well as the climate trends over the past 30 years using Mann–Kendall test and Sen’s Slope Estimator. The chosen approach involves a hydrological study and hydrodynamic modeling using HEC-RAS software. This latter allows for simulating floods using statistical methods and creating several regional flood hazard maps.

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阿尔及利亚最南端的山洪风险和气候分析（以盖扎姆市为例）

自然风险，特别是洪水风险，是阿尔及利亚和全世界的一个热门话题，特别是考虑到苏丹（2020年）和北非最近发生的重大灾难性洪水。随着世界气候变化现象的发展，风险管理对于所有相关行为者（决策者、技术人员和民众）识别保护问题变得越来越必要。2018年，在阿尔及利亚最南部，In Guezzam市遭遇了一场毁灭性的洪水，造成了巨大的人力和物力损失。100多所房屋倒塌，约345个家庭流离失所。目前，还没有研究工作来评估该地区的水文状况和洪水风险。因此，本研究的主要目的是利用Mann–Kendall检验和Sen的斜率估计，揭示阿尔及利亚最南部发生山洪的风险，并更具体地关注2018年8月的洪水以及过去30年的气候趋势。所选择的方法包括使用HEC-RAS软件进行水文研究和流体动力学建模。后者允许使用统计方法模拟洪水，并创建几个区域洪水危险地图。

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

Geomatics and Environmental Engineering Earth and Planetary Sciences-Computers in Earth Sciences

CiteScore

2.30

自引率

0.00%

发文量