Performance of coastal sea-defense infrastructure at El Jadida (Morocco) against tsunami threat: lessons learned from the Japanese 11 March 2011 tsunami

Omira, Rachid; Baptista, Maria Ana; Leone, Frédéric; Matias, L.; Mellas, Samira; Zourarah, Bendahhou; Miranda, Jorge Miguel; Carrilho, Fernando; Cherel, J. P

doi:10.5194/nhess-13-1779-2013

Cited by 29 publications

(17 citation statements)

References 42 publications

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“…The code also allows employing a nested grid system with increasing grid resolutions in order to fulfil the need for tsunami simulations at different scales from the source zone to the high resolution target coast where inundation maps are computed (Wang 2009). COMCOT code has been used to study several tsunami events such as the 1755 Lisbon tsunami Omira et al 2013), the 2003 Algeria tsunami (Wang and Liu 2005) and, more recently, the 2004 Indian Ocean tsunami (Wang and Liu 2006).…”

Section: Innundatin Modelingmentioning

confidence: 99%

“…Hazard and vulnerability are the main components of any comprehensive risk assessment. For the tsunami phenomenon, the hazard assessment along a threatened coast is often covered by numerical modeling of the resulting inundations through the deterministic method (Tinti and Armigliato 2003;Tinti et al 2005;Løvholt et al 2006;Baptista et al 2011;Omira et al 2011;Omira et al 2013) or the probabilistic analysis (González et al 2009;Omira et al 2016). In addition, vulnerability study is trans-disciplinary and multi-dimensional, covering social, economic, physical, political, engineering and ecological aspects and dimensions (Post et al 2009).…”

Section: Introductionmentioning

confidence: 99%

“…1) while evaluating their sensibility to the effect of the tidal variation. This is achieved by: i) performing highresolution inundation modeling using the scenario-based approach described in Tinti and Armigliato (2003) and other recent applications along the Moroccan coastline (Omira et al 2010;Omira et al 2011;Omira et al 2013;Benchekroun et al 2015;Wronna et al 2015), and ii) investigating the building vulnerability using an approach based on a combination of the results of tsunami hydrodynamic modeling, information collected during the building inventory and the use of GIS tools allowing multicriteria analysis and vulnerability mapping. This building vulnerability assessment method is based on the BTV model proposed by Omira et al (2010).…”

Section: Introductionmentioning

confidence: 99%

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Tsunami hazard and buildings vulnerability along the Northern Atlantic coast of Morocco –the 1755-like tsunami in Asilah test-site

Moussaoui

Omira

Zaghloul

et al. 2017

Geoenviron Disasters

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Background: The Atlantic Coast of Morocco is prone to tsunami inundation. Therefore, in this region, earthquakeinduced tsunami hazard has been intensively investigated leading to the development of a number of coastal inundation models. However, tsunami vulnerability remains not well understood to the same extent as the hazard. In this study, we use high-resolution numerical modeling, detailed field survey and GIS-based multi-criteria analysis to assess the building tsunami vulnerability and its sensitivity to the tide variations. Asilah located in the northwestern Atlantic coast of Morocco, where the impact from the 1755 tsunami is well documented, constitutes the area of this study. Results:To model the source-to-coast tsunami processes we used the COMCOT (Cornell Multi-grid Coupled Tsunami Model) numerical code on a set of bathymetric/topographic grid layers (640 m, 160 m, 40 m and 10 m resolutions) with an initial sea-surface perturbation generated using Okada's formulae and assuming an instantaneous seabed displacement. The tsunami source models in this study correspond to four 1755-like earthquake scenarios. Results show that Asilah's built environment is highly vulnerable to the tsunami impact that can range from 1.99 to 2.46 km 2 of inundation area, depending on the source and the tidal level considered. The level of building vulnerability decreases considerably when moving away from Asilah's coastline. Moreover, the variation in the tidal level introduces large change in the modeled tsunami impact and, therefore, affects the level of building vulnerability.Conclusion: Thus, we suggest considering the effect of the tide when simulating tsunami hazard and vulnerability, particularly, in coasts where tidal variations are significant. This study provides hazard and vulnerability maps that can be useful to develop the tsunami awareness of the Moroccan coastal population.

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Section: Innundatin Modelingmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Tsunami hazard and buildings vulnerability along the Northern Atlantic coast of Morocco –the 1755-like tsunami in Asilah test-site

Moussaoui

Omira

Zaghloul

et al. 2017

Geoenviron Disasters

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“…The main limitation consists of excluding various building types such as harbour structures and historical buildings, for which no damage levels were assigned, since damage curves associated with such building types were not assessed. Also, in the methodology there is no consideration of existing sea-barriers and/or protective structures that could reduce the tsunami impact and inundation as investigated in Omira et al (2013), and hence, affect the reliability of the damage results presented.…”

Section: Review Of Tsunami Vulnerability Modelsmentioning

confidence: 99%

“…In spite of the recent attempts addressed to the compilation of tsunami catalogue (Kaabouben et al 2009), the identification of tsunami deposits (Medina et al 2011), the mapping of tsunami inundation (Omira et al 2010(Omira et al , 2013Renou et al 2011) and the assessment of tsunami building vulnerability (Omira et al 2010;Atillah et al 2011), tsunami hazard and vulnerability along the Moroccan coasts remain poorly investigated. Detailed tsunami hazard assessment generally faces the lack of highresolution bathymetric and topographic data required to perform inundation simulations.…”

Section: Introductionmentioning

confidence: 99%

Tsunami impact and vulnerability in the harbour area of Tangier, Morocco

Benchekroun

Omira

Baptista

et al. 2013

Geomatics, Natural Hazards and Risk

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In this study, we assess tsunami impact and building vulnerability in the harbour area of Tangier -Morocco. Tsunami impact is evaluated through performing highresolution inundation modelling. To assess buildings tsunami vulnerability, we use a geographic information system (GIS) multi-criteria approach based upon weight and classification factors. The methodology includes various steps: (i) identification of the most hazardous earthquake tsunamigenic sources, (ii) computation of highresolution digital elevation model, (iii) simulation of inundation, (iv) field survey to classify buildings and defence structures and (v) application of the GIS-based model to produce final vulnerability map. Results show the potential tsunami impact and vulnerability that Tangier coast might face due to the occurrence of a large tsunami event in the region. Inundation map indicates that a coastal area of over 4.5 km 2 is prone to tsunami flood with flow depths ranging from 0.5 to more than 6 m. Vulnerability map highlights different levels of expected buildings vulnerability to tsunami impact, which vary from "very high" for single-storey structures, located in the city harbour and along the sandy beach, to "low" for multi-storeys RC structures. Both inundation and vulnerability maps have important implications for decision makers and land use planning aiming to mitigate tsunami hazard in the North East Atlantic region.

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Integrated Study on Tsunami Impact Assessment in Cilacap, Indonesia: Method, Approach, and Practice

Anugrah¹,

Setiawati²

2022

Springer Climate

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Performance of coastal sea-defense infrastructure at El Jadida (Morocco) against tsunami threat: lessons learned from the Japanese 11 March 2011 tsunami

Cited by 29 publications

References 42 publications

Tsunami hazard and buildings vulnerability along the Northern Atlantic coast of Morocco –the 1755-like tsunami in Asilah test-site

Tsunami hazard and buildings vulnerability along the Northern Atlantic coast of Morocco –the 1755-like tsunami in Asilah test-site

Tsunami impact and vulnerability in the harbour area of Tangier, Morocco

Integrated Study on Tsunami Impact Assessment in Cilacap, Indonesia: Method, Approach, and Practice

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