Updated Probabilistic Seismic‐Hazard Values for Egypt

Sawires, Rashad; Peláez, José A.; Fat-Helbary, R. E.; Ibrahim, Hamza A.

doi:10.1785/0120150218

Cited by 32 publications

(5 citation statements)

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“…Dahshour and Cairo Suez district sources are treated as a single area source in contrast to previous studies (e.g. Adly 2010;Mohamed et al 2012;Ezzelarab et al 2016;Sawires et al 2016). This is done because they both hosted some foreshocks and aftershocks of the 12th Oct. 1992 earthquake.…”

Section: Discussionmentioning

confidence: 99%

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Probabilistic seismic hazard model for Cairo, Egypt: estimates and uncertainties

Adly

Danciu

Fäh

et al. 2018

Bull Earthquake Eng

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A new seismic hazard model for Cairo, the capital city of Egypt is developed herein based on comprehensive consideration of uncertainties in various components of the probabilistic seismic hazard analysis. The proposed seismic hazard model is developed from an updated catalogue of historical and instrumental seismicity, geodetic strain rates derived from GPSbased velocity-field of the crust, and the geologic slip rates of active faults. The seismic source model consists of area sources and active faults characterised to forecast the seismic productivity in the region. Ground motion prediction models are selected to describe the expected ground motion at the sites of interest. The model accounts for inherent epistemic uncertainties of statistical earthquake recurrence; maximum magnitude; ground motion prediction models, and their propagation toward the obtained results. The proposed model is applied to a site-specific hazard analysis for Kottamiya, Rehab City and Zahraa-Madinat-Nasr (hereinafter referred to as Zahraa) to the East of Cairo (Egypt). The site-specific analysis accounts for the site response, through the parameterization of the sites in terms of average 30-m shear-wave velocity (Vs30). The present seismic hazard model can be considered as a reference model for earthquake risk mitigation and proper resilience planning.

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Section: Discussionmentioning

confidence: 99%

“…Recently, more detailed seismic hazard studies were carried out (e.g. Deif et al 2011;Mohamed et al 2012;Ezzelarab et al 2016;Sawires et al 2016). However, these studies were based on just area source model interpretation of seismicity and referenced the hazard based on hypothetical common rock site conditions.…”

Section: Introductionmentioning

confidence: 99%

Probabilistic seismic hazard model for Cairo, Egypt: estimates and uncertainties

Adly

Danciu

Fäh

et al. 2018

Bull Earthquake Eng

View full text Add to dashboard Cite

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“…Most of the newly released SHA studies for Egypt (e.g., Mohamed et al 2012;Sawires et al 2016b) characterize the seismic hazard in terms of peak ground acceleration (PGA) of horizontal component, which is defined to be poorly correlated with damage, and response spectrum (RS) at different periods rather than the other relevant parameters (e.g., frequency content, effective acceleration). One of the basic problems in the SHA studies is how much the earthquake catalog reflects the real seismic potential of the considered area.…”

Section: Seismicity and Earthquake Hazard Research In Egyptmentioning

confidence: 99%

Identifying Potential Earthquake Sources in Continental Environments

et al. 2022

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In this paper, we outline the overview of the problem of intraplate seismicity and summarize our studies aimed at identifying potential earthquake sources in three regions located in continental environments. We study the French Massif Central situated within the West-European platform, the Gujarat area located at the northwestern edge of the Indian shield, and northeast Egypt located in the northeastern part of the African continent. These regions exhibit different levels of seismic activity. The French Massif Central reveals the lowest rate of seismicity, northeast Egypt exposes a low-to-moderate seismicity, and Gujarat reveals moderate seismicity with rare occurrence of strong events. We use a phenomenological approach for identifying possible locations of earthquakes, which is based on the pattern recognition applied to morphostructural data. The approach hypothesizes the nucleation of strong earthquakes at morphostructural nodes forming at the intersections of morphostructural lineaments, which are delineated by morphostructural zoning. Nodes are characterized by the pertinent geophysical and geological parameters, on the basis of which pattern recognition algorithm pinpoints capable nodes, i.e., the nodes where events of a certain sizes may occur. Seismic hazard assessment of continental regions is impeded because their seismic history is normally very pure. In such a situation, information on capable nodes is a necessary input for seismic hazard assessment. The example of northeast Egypt shows the exploiting capable nodes to assess seismic hazard by the Neo-Deterministic Seismic Hazard Assessment Methodology.

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“…About 80% of all SHA studies conducted until now about Egypt at different geographic scales are based on the traditional PSHA and despite of the presence of theoretical and practical limitations and poor performance of these approaches, as demonstrated by Panza et al (2014) and references therein, it is still in use in the construction of newly developed SHA maps at different scales (e.g. EzzElarab et al, 2016;Sawires et al, 2016b) upon which the current Egyptian Building Code is dangerously based. The different studies adopting the traditional PSHA method contribute to the development of the collection and revision of input data rather than to the critical revision and improvement of the methodology, elements that are crucially necessary to reach a reliable, as much as possible, estimate of hazard (Tables 1-3).…”

Section: Seismic Hazard Studies For Egyptmentioning

confidence: 99%