Probabilistic and deterministic estimates of near-field tsunami hazards in northeast Oman

El‐Hussain, Issa; Omira, Rachid; Al-Habsi, Z.; Baptista, María Ana; Deif, Ahmed; Mohamed, Abbas Ahmed

doi:10.1186/s40562-018-0129-4

Cited by 19 publications

(6 citation statements)

References 40 publications

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“…This subsidence could accelerate the sea level rise impact upon the coastal cities and low-land coastal areas. The ingress of tsunami waves is more likely to enter the Gulf through the Strait of Hormuz if strong marine earthquakes occur, as the Gulf is close to the Makran Subduction Zone (MSZ) in the Sea of Oman, which is one of the structurally active geologic regions with anticipated marine earthquakes [51,52]. The impact should be most significant along Musandam Peninsula of Oman.…”

Section: Zonementioning

confidence: 99%

Assessment of Climate Change Impacts on Sea Surface Temperatures and Sea Level Rise—The Arabian Gulf

Hereher

2020

Climate

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The Arabian Gulf is one of the regions in the world experiencing major changes due to increased economic growth rates and development practices. As a shallow water body within a hot desert, the Gulf is exposed to obvious warming in the sea surface temperatures (SST). Remotely sensed SST data were utilized to estimate decadal change in SST with a focus on coral reef locations. There is a positive trend in monthly time series SSTs, with a maximum value of about 0.7 °C/decade for the western side of the Gulf. This high trend of SST is associated with significant coral reef bleaching and it coincides with major climate/ocean interactions. Most of the Arabian countries along the Gulf have coastal developments at low-land areas of high vulnerability to sea level rise. Digital elevation models showed that there are more than 3100 km2 of coastal areas that occur at 1 m level along the Arabian countries of the Gulf. Coastal protection and conservation measures are crucial to protect low-lying coasts of urban use.

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Section: Zonementioning

confidence: 99%

Assessment of Climate Change Impacts on Sea Surface Temperatures and Sea Level Rise—The Arabian Gulf

Hereher

2020

Climate

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“…Epistemic uncertainty is associated with incomplete knowledge and data about the earthquake process, whereas aleatory uncertainty is attributable to the random nature of earthquake occurrence and its effects (Annaka et al, 2007). In particular, many studies have evaluated epistemic uncertainties with logic trees (e.g., Bommer & Scherbaum, 2008;El-Hussain et al, 2018;Fukutani et al, 2015;Geist & Parsons, 2006;Geist & Lynett, 2014;Horspool et al, 2014;Jho et al, 2019;Mulia et al, 2020;Park & Cox, 2016;Priest et al, 2010;Selva et al, 2016;Thio et al, 2010). Specifically, earthquake occurrence scenarios, including their geometries and occurrence rates, are epistemic uncertainties that have the greatest impact on PTHA (Grezio et al, 2017); therefore, it is usually necessary to generate a large number of seismogenic faults to account for these uncertainties.…”

Section: Accepted Articlementioning

confidence: 99%

Time‐Dependent Probabilistic Tsunami Inundation Assessment Using Mode Decomposition to Assess Uncertainty for an Earthquake Scenario

et al. 2021

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 The singular value decomposition method is used to evaluate the eigenmodes of the tsunami inundation depth distribution and reduce the computational cost.  The variations in three variables are considered earthquake fault uncertainties: the fault depth, slip amount, and slip distribution.  A time-dependent probabilistic tsunami inundation assessment is performed with the BPT distribution to account for seismic imminence.

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“…Aguirre-Ayerbe et al [54] developed an integrated tsunami risk assessment approach for the purpose of enhancing the tsunami risk management in Oman considering different site-specific conditions. El-Hussain et al [105] conducted a deterministic tsunami hazard assessment along the Sur coast of Oman for a worst-case scenario (M w 8.8) and a 1945-type (M w 8.1) earthquakes. Latcharote et al [106] studied deterministic tsunami hazards in Kuwait and the Persian Gulf for a range of earthquake and landslide tsunami scenarios.…”

Section: Modeling Of Hypothetical Tsunami Scenarios In the Makran Subduction Zonementioning

confidence: 99%

“…They simulated all the events in the catalogs to compute maximum tsunami wave heights along the Makran coastlines and to produce different useful tsunami hazard outcomes including probabilistic tsunami heights and hazard curves (Figure 9a,b). El-Hussain et al [105] conducted a high resolution PTHA for the coastal segment of Sur, Oman using the earthquake scenario database from El-Hussain et al [115]. They presented their results in a series of local hazard maps displaying the probability of tsunami wave height/flow depth exceeding different thresholds in given exposure times of 100 and 500 years (see e.g., Figure 10).…”

Section: Probabilistic Studiesmentioning

confidence: 99%

“…Alternative ways to incorporate the rupture complexity in setting up tsunami scenarios could be creating synthetic stochastic slip models and or using slip distributions of other tsunamigenic events in the world. To reduce the uncertainties, more scenario-based studies (e.g., [56,105,[115][116][117]) are essential to consider the most likely sources and to describe the impacts of possible future events in the MSZ. The above-mentioned issues are major sources of uncertainties that challenge tsunami modelers to define tsunami earthquake scenarios in the Makran region.…”

Section: Tsunami Generationmentioning

confidence: 99%

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A Review of Tsunami Hazards in the Makran Subduction Zone

et al. 2020

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The uncertain tsunamigenic potential of the Makran Subduction Zone (MSZ) has made it an interesting natural laboratory for tsunami-related studies. This study aims to review the recent activities on tsunami hazard in the Makran subduction zone with a focus on deterministic and probabilistic tsunami hazard assessments. While almost all studies focused on tsunami hazard from the Makran subduction thrust, other local sources such as splay faults and landslides can be also real threats in the future. Far-field tsunami sources such as Sumatra-Andaman and Java subduction zones, commonly lumped as the Sunda subduction zone, do not seem to pose a serious risk to the Makran coastlines. The tsunamigenic potential of the western segment of the MSZ should not be underestimated considering the new evidence from geological studies and lessons from past tsunamis in the world. An overview of the results of tsunami hazard studies shows that the coastal area between Kereti to Ormara along the shoreline of Iran-Pakistan and the coastal segment between Muscat and Sur along Oman’s shoreline are the most hazardous areas. Uncertainties in studying tsunami hazard for the Makran region are large. We recommend that future studies mainly focus on the role of thick sediments, a better understanding of the plates interface geometry, the source mechanism and history of extreme-wave deposits, the contribution of other local tsunamigenic sources and vulnerability assessment for all coastlines of the whole Makran region.

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Probabilistic and deterministic estimates of near-field tsunami hazards in northeast Oman

Cited by 19 publications

References 40 publications

Assessment of Climate Change Impacts on Sea Surface Temperatures and Sea Level Rise—The Arabian Gulf

Assessment of Climate Change Impacts on Sea Surface Temperatures and Sea Level Rise—The Arabian Gulf

Time‐Dependent Probabilistic Tsunami Inundation Assessment Using Mode Decomposition to Assess Uncertainty for an Earthquake Scenario

A Review of Tsunami Hazards in the Makran Subduction Zone

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