From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates

From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates

In recent years, the United Arab Emirates (UAE) has experienced a marked increase in extreme rainfall events, challenging urban planning and infrastructure. This study investigates four extreme rainfall events in Al Ain, UAE, between 2007 and 2020, using data from 11 rain gauges and estimates from t...

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Main Authors: Naeema Alhosani, Khalid Hussein, Ahmed M. Al-Areeq, Amran A. Al Aghbari, Muhagir Elkamali, Tareefa Alsumaiti, Ahmed M. G. Almurshidi, Hatim O. Sharif, Waleed Abdalati
Format: Article
Language:English
Published: Taylor & Francis Group 2024-12-01
Series:Geomatics, Natural Hazards & Risk
Subjects:
Flood risks
mitigation
UAE
hydrologic modelling
IMERG
Online Access:https://www.tandfonline.com/doi/10.1080/19475705.2024.2429735
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author Naeema Alhosani
Khalid Hussein
Ahmed M. Al-Areeq
Amran A. Al Aghbari
Muhagir Elkamali
Tareefa Alsumaiti
Ahmed M. G. Almurshidi
Hatim O. Sharif
Waleed Abdalati
author_facet Naeema Alhosani
Khalid Hussein
Ahmed M. Al-Areeq
Amran A. Al Aghbari
Muhagir Elkamali
Tareefa Alsumaiti
Ahmed M. G. Almurshidi
Hatim O. Sharif
Waleed Abdalati
author_sort Naeema Alhosani
collection DOAJ
description In recent years, the United Arab Emirates (UAE) has experienced a marked increase in extreme rainfall events, challenging urban planning and infrastructure. This study investigates four extreme rainfall events in Al Ain, UAE, between 2007 and 2020, using data from 11 rain gauges and estimates from three satellite precipitation products. These events set new rainfall records, with some gauges recording up to 195.7 mm and intensities exceeding 175 mm/hr. Comparisons revealed significant discrepancies among satellite products, which underestimated three events and overestimated one. A watershed encompassing Al Ain was delineated, and runoff from these events was simulated using the fully distributed, physically based GSSHA hydrologic model. The model provided detailed, spatially explicit runoff estimates, highlighting urban areas of Al Ain as particularly vulnerable to flooding. Despite low runoff ratios (0.11% to 3.14%) due to high infiltration rates, significant flooding occurred in urban regions, emphasizing compounded flood risks from intense rainfall and rapid urban expansion. The study discusses general mitigation strategies that can be considered to enhance Al Ain’s resilience, ensuring the safety of residents and infrastructure and managing escalating flood hazards amid increasingly extreme weather patterns. Thoroughly evaluated strategies are essential for adapting to the dynamic climate and safeguarding urban areas from future extreme weather events.
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institution OA Journals
issn 1947-5705
1947-5713
language English
publishDate 2024-12-01
publisher Taylor & Francis Group
record_format Article
series Geomatics, Natural Hazards & Risk
spelling doaj-art-abc30bda03374d5cab1ea799441e97732025-08-20T01:59:04ZengTaylor & Francis GroupGeomatics, Natural Hazards & Risk1947-57051947-57132024-12-0115110.1080/19475705.2024.2429735From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab EmiratesNaeema Alhosani0Khalid Hussein1Ahmed M. Al-Areeq2Amran A. Al Aghbari3Muhagir Elkamali4Tareefa Alsumaiti5Ahmed M. G. Almurshidi6Hatim O. Sharif7Waleed Abdalati8Geography and Urban Sustainability Department, College of Humanities and Social Sciences, United Arab Emirates University, Al Ain, UAEGeography and Urban Sustainability Department, College of Humanities and Social Sciences, United Arab Emirates University, Al Ain, UAEInterdisciplinary Research Center for Membranes and Water Security, King Fahd University of Petroleum & Minerals (KFUPM), Dhahran, Saudi ArabiaInterdisciplinary Research Center for Membranes and Water Security, King Fahd University of Petroleum & Minerals (KFUPM), Dhahran, Saudi ArabiaGeography and Urban Sustainability Department, College of Humanities and Social Sciences, United Arab Emirates University, Al Ain, UAEGeography and Urban Sustainability Department, College of Humanities and Social Sciences, United Arab Emirates University, Al Ain, UAEGeography and Urban Sustainability Department, College of Humanities and Social Sciences, United Arab Emirates University, Al Ain, UAESchool of Civil & Environmental Engineering and Construction Management, University of Texas at San Antonio, San Antonio, TX, USACooperative Institute for Research in Environmental Sciences (CIRES), University of Colorado, Boulder, CO, USAIn recent years, the United Arab Emirates (UAE) has experienced a marked increase in extreme rainfall events, challenging urban planning and infrastructure. This study investigates four extreme rainfall events in Al Ain, UAE, between 2007 and 2020, using data from 11 rain gauges and estimates from three satellite precipitation products. These events set new rainfall records, with some gauges recording up to 195.7 mm and intensities exceeding 175 mm/hr. Comparisons revealed significant discrepancies among satellite products, which underestimated three events and overestimated one. A watershed encompassing Al Ain was delineated, and runoff from these events was simulated using the fully distributed, physically based GSSHA hydrologic model. The model provided detailed, spatially explicit runoff estimates, highlighting urban areas of Al Ain as particularly vulnerable to flooding. Despite low runoff ratios (0.11% to 3.14%) due to high infiltration rates, significant flooding occurred in urban regions, emphasizing compounded flood risks from intense rainfall and rapid urban expansion. The study discusses general mitigation strategies that can be considered to enhance Al Ain’s resilience, ensuring the safety of residents and infrastructure and managing escalating flood hazards amid increasingly extreme weather patterns. Thoroughly evaluated strategies are essential for adapting to the dynamic climate and safeguarding urban areas from future extreme weather events.https://www.tandfonline.com/doi/10.1080/19475705.2024.2429735Flood risksmitigationUAEhydrologic modellingIMERG
spellingShingle Naeema Alhosani
Khalid Hussein
Ahmed M. Al-Areeq
Amran A. Al Aghbari
Muhagir Elkamali
Tareefa Alsumaiti
Ahmed M. G. Almurshidi
Hatim O. Sharif
Waleed Abdalati
From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates
Geomatics, Natural Hazards & Risk
Flood risks
mitigation
UAE
hydrologic modelling
IMERG
title From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates
title_full From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates
title_fullStr From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates
title_full_unstemmed From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates
title_short From sandstorms to deluges: assessing flood risks in Al Ain City, United Arab Emirates
title_sort from sandstorms to deluges assessing flood risks in al ain city united arab emirates
topic Flood risks
mitigation
UAE
hydrologic modelling
IMERG
url https://www.tandfonline.com/doi/10.1080/19475705.2024.2429735
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