Tsunami inundation maps for Akhiok, Chiniak, Old Harbor, Ouzinkie, and Port Lions on Kodiak Island, Alaska

Producing Tsunami Inundation Maps: The California Experience

Submarine Landslides and Tsunamis ◽

10.1007/978-94-010-0205-9_33 ◽

2003 ◽

pp. 315-326 ◽

Cited By ~ 8

Author(s):

J. Borrero ◽

A. C. Yalçiner ◽

U. Kanoglu ◽

V. Titov ◽

D. McCarthy ◽

...

Keyword(s):

Tsunami Inundation ◽

Inundation Maps

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Community tsunami inundation maps for selected ICG/CARIBE EWS member states

10.5194/egusphere-egu2020-13420 ◽

2020 ◽

Author(s):

Carlos Sánchez-Linares ◽

Jorge Macías ◽

Íñigo Aniel-Quiroga ◽

Ignacio Aguirre-Ayerbe ◽

Mauricio González ◽

...

Keyword(s):

Warning System ◽

General Purpose ◽

Coastal Hazards ◽

Indian Ocean Tsunami ◽

Caribbean Region ◽

Member States ◽

Tsunami Inundation ◽

Inundation Maps ◽

Tsunami Risk ◽

The Caribbean

<div>The Intergovernmental Coordination Group for the Tsunami and other Coastal Hazards Warning System for the Caribbean and Adjacent Regions (ICG/CARIBE EWS) was established in 2005 as a subsidiary body of the IOC-UNESCO with the purpose of providing efficient assistance on tsunami risk reduction to Member States in the Caribbean region after the lessons learnt from the 2004 Indian Ocean tsunami.</div><div>&#160;</div><div>The aim of the work that we present here, is strengthen the capacities of early warning and response for tsunamis in the Caribbean through the development of community-level tsunami inundation maps for select coastal communities and a technical guide; both to support their preparation for and response to tsunamis. The selected communities under study are in Antigua and Barbuda, Barbados, Dominican Republic, St. Vincent and the Grenadines, and Trinidad and Tobago.</div><div>&#160;</div><div>To this end, we use Tsunami-HySEA model, developed by EDANYA Group, which implements in the same code the three phases of an earthquake generated tsunami: generation, propagation and coastal inundation. At the same time it is implemented in nested meshes with different resolution and multi-GPU environment, which allows much faster than real time simulations. Due to this advantage it can produce a 4 h simulation in a 60 arcsec resolution grid for the whole Caribbean Sea in less than 4 min with a single general-purpose GPU.</div><div>&#160;</div><div>Once provided the seismic parameters to reproduce the main scenarios that could affect to the nominated communities, and the topobathymetry data available from the study area, an exhaustive process of construction of 4 levels nested meshes was performed for each localization. Secondly, the events are simulated in order to obtain, among others, maximum depth in coast inundation with 5 meters resolution. Finally, all of these data allow us to make a detailed inundation map as a contribution to furthering tsunami risk assessment.</div><div>&#160;</div><div>Acknowledgements. This work was done under the auspices of IOC-UNESCO and funded by EU (DG-ECHO)</div>

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INDIAN OCEAN TSUNAMI ON 26 DECEMBER 2004: NUMERICAL MODELING OF INUNDATION IN THREE CITIES ON THE SOUTH COAST OF SRI LANKA

Journal of Earthquake and Tsunami ◽

10.1142/s1793431108000293 ◽

2008 ◽

Vol 02 (02) ◽

pp. 133-155 ◽

Cited By ~ 20

Author(s):

J. J. WIJETUNGE ◽

XIAOMING WANG ◽

PHILIP L.-F. LIU

Keyword(s):

Sri Lanka ◽

Indian Ocean ◽

Maximum Flow ◽

South Coast ◽

Indian Ocean Tsunami ◽

The South ◽

Tsunami Inundation ◽

Inundation Maps ◽

The Indian Ocean ◽

2004 Tsunami

The 2004 Indian Ocean tsunami caused enormous loss of lives and damage to property in Sri Lanka and in several other countries bordering the Indian Ocean. One way of mitigating potential loss of lives from a similar event in the future is through early warning and quick evacuation of vulnerable coastal communities to safer areas, and such evacuation planning is usually carried out based on inundation maps. Accordingly, the present paper outlines the numerical modelling carried out to develop tsunami inundation maps on a grid of 10 m resolution for three cities on the south coast of Sri Lanka. The results give the tsunami arrival time contours and the spatial distribution of the extent of inundation, the maximum flow velocities as well as the hydrodynamic force in these three cities due to an event similar to the 2004 tsunami.

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