From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources

From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources

<p>Site-specific seismic probabilistic tsunami hazard analysis (SPTHA) is a computationally demanding task, as it requires, in principle, a huge number of high-resolution numerical simulations for producing probabilistic inundation maps. We implemented an efficient and robust methodology using...

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Main Authors: M. Volpe, S. Lorito, J. Selva, R. Tonini, F. Romano, B. Brizuela
Format: Article
Language:English
Published: Copernicus Publications 2019-03-01
Series:Natural Hazards and Earth System Sciences
Online Access:https://www.nat-hazards-earth-syst-sci.net/19/455/2019/nhess-19-455-2019.pdf
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spelling doaj-8a73a0e060b441beaffaab6daa96e5292020-11-24T21:38:59ZengCopernicus PublicationsNatural Hazards and Earth System Sciences1561-86331684-99812019-03-011945546910.5194/nhess-19-455-2019From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sourcesM. Volpe0S. Lorito1J. Selva2R. Tonini3F. Romano4B. Brizuela5Istituto Nazionale di Geofisica e Vulcanologia, Roma, ItalyIstituto Nazionale di Geofisica e Vulcanologia, Roma, ItalyIstituto Nazionale di Geofisica e Vulcanologia, Bologna, ItalyIstituto Nazionale di Geofisica e Vulcanologia, Roma, ItalyIstituto Nazionale di Geofisica e Vulcanologia, Roma, ItalyIstituto Nazionale di Geofisica e Vulcanologia, Roma, Italy<p>Site-specific seismic probabilistic tsunami hazard analysis (SPTHA) is a computationally demanding task, as it requires, in principle, a huge number of high-resolution numerical simulations for producing probabilistic inundation maps. We implemented an efficient and robust methodology using a filtering procedure to reduce the number of numerical simulations needed while still allowing for a full treatment of aleatory and epistemic uncertainty. Moreover, to avoid biases in tsunami hazard assessment, we developed a strategy to identify and separately treat tsunamis generated by near-field earthquakes. Indeed, the coseismic deformation produced by local earthquakes necessarily affects tsunami intensity, depending on the scenario size, mechanism and position, as coastal uplift or subsidence tends to diminish or increase the tsunami hazard, respectively. Therefore, we proposed two parallel filtering schemes in the far- and the near-field, based on the similarity of offshore tsunamis and hazard curves and on the similarity of the coseismic fields, respectively. This becomes mandatory as offshore tsunami amplitudes can not represent a proxy for the coastal inundation in the case of near-field sources. We applied the method to an illustrative use case at the Milazzo oil refinery (Sicily, Italy). We demonstrate that a blind filtering procedure can not properly account for local sources and would lead to a nonrepresentative selection of important scenarios. For the specific source–target configuration, this results in an overestimation of the tsunami hazard, which turns out to be correlated to dominant coastal uplift. Different settings could produce either the opposite or a mixed behavior along the coastline. However, we show that the effects of the coseismic deformation due to local sources can not be neglected and a suitable correction has to be employed when assessing local-scale SPTHA, irrespective of the specific signs of coastal displacement.</p>https://www.nat-hazards-earth-syst-sci.net/19/455/2019/nhess-19-455-2019.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Volpe
S. Lorito
J. Selva
R. Tonini
F. Romano
B. Brizuela
spellingShingle M. Volpe
S. Lorito
J. Selva
R. Tonini
F. Romano
B. Brizuela
From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
Natural Hazards and Earth System Sciences
author_facet M. Volpe
S. Lorito
J. Selva
R. Tonini
F. Romano
B. Brizuela
author_sort M. Volpe
title From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
title_short From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
title_full From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
title_fullStr From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
title_full_unstemmed From regional to local SPTHA: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
title_sort from regional to local sptha: efficient computation of probabilistic tsunami inundation maps addressing near-field sources
publisher Copernicus Publications
series Natural Hazards and Earth System Sciences
issn 1561-8633
1684-9981
publishDate 2019-03-01
description <p>Site-specific seismic probabilistic tsunami hazard analysis (SPTHA) is a computationally demanding task, as it requires, in principle, a huge number of high-resolution numerical simulations for producing probabilistic inundation maps. We implemented an efficient and robust methodology using a filtering procedure to reduce the number of numerical simulations needed while still allowing for a full treatment of aleatory and epistemic uncertainty. Moreover, to avoid biases in tsunami hazard assessment, we developed a strategy to identify and separately treat tsunamis generated by near-field earthquakes. Indeed, the coseismic deformation produced by local earthquakes necessarily affects tsunami intensity, depending on the scenario size, mechanism and position, as coastal uplift or subsidence tends to diminish or increase the tsunami hazard, respectively. Therefore, we proposed two parallel filtering schemes in the far- and the near-field, based on the similarity of offshore tsunamis and hazard curves and on the similarity of the coseismic fields, respectively. This becomes mandatory as offshore tsunami amplitudes can not represent a proxy for the coastal inundation in the case of near-field sources. We applied the method to an illustrative use case at the Milazzo oil refinery (Sicily, Italy). We demonstrate that a blind filtering procedure can not properly account for local sources and would lead to a nonrepresentative selection of important scenarios. For the specific source–target configuration, this results in an overestimation of the tsunami hazard, which turns out to be correlated to dominant coastal uplift. Different settings could produce either the opposite or a mixed behavior along the coastline. However, we show that the effects of the coseismic deformation due to local sources can not be neglected and a suitable correction has to be employed when assessing local-scale SPTHA, irrespective of the specific signs of coastal displacement.</p>
url https://www.nat-hazards-earth-syst-sci.net/19/455/2019/nhess-19-455-2019.pdf
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