Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model

Case studies of landslide tsunamis require integration of marine geology data and interpretations into numerical simulations of tsunami attack. Many landslide tsunami generation and propagation models have been proposed in recent time, further motivated by the 1998 Papua New Guinea event. However, f...

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Main Authors:	P. Watts, S. T. Grilli, J. T. Kirby, G. J. Fryer, D. R. Tappin
Format:	Article in Journal/Newspaper
Language:	English
Published:	Copernicus Publications 2003
Subjects:	geo envir Skagway Alaska
Online Access:	http://www.nat-hazards-earth-syst-sci.net/3/391/2003/nhess-3-391-2003.pdf https://doaj.org/article/dc9a7c23879e4eab82e14363cf006971

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spelling	fttriple:oai:gotriple.eu:oai:doaj.org/article:dc9a7c23879e4eab82e14363cf006971 2023-05-15T18:19:56+02:00 Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model P. Watts S. T. Grilli J. T. Kirby G. J. Fryer D. R. Tappin 2003-01-01 http://www.nat-hazards-earth-syst-sci.net/3/391/2003/nhess-3-391-2003.pdf https://doaj.org/article/dc9a7c23879e4eab82e14363cf006971 en eng Copernicus Publications 1561-8633 1684-9981 http://www.nat-hazards-earth-syst-sci.net/3/391/2003/nhess-3-391-2003.pdf https://doaj.org/article/dc9a7c23879e4eab82e14363cf006971 undefined Natural Hazards and Earth System Sciences, Vol 3, Iss 5, Pp 391-402 (2003) geo envir Journal Article https://vocabularies.coar-repositories.org/resource_types/c_6501/ 2003 fttriple 2023-01-22T18:10:35Z Case studies of landslide tsunamis require integration of marine geology data and interpretations into numerical simulations of tsunami attack. Many landslide tsunami generation and propagation models have been proposed in recent time, further motivated by the 1998 Papua New Guinea event. However, few of these models have proven capable of integrating the best available marine geology data and interpretations into successful case studies that reproduce all available tsunami observations and records. We show that nonlinear and dispersive tsunami propagation models may be necessary for many landslide tsunami case studies. GEOWAVE is a comprehensive tsunami simulation model formed in part by combining the Tsunami Open and Progressive Initial Conditions System (TOPICS) with the fully non-linear Boussinesq water wave model FUNWAVE. TOPICS uses curve fits of numerical results from a fully nonlinear potential flow model to provide approximate landslide tsunami sources for tsunami propagation models, based on marine geology data and interpretations. In this work, we validate GEOWAVE with successful case studies of the 1946 Unimak, Alaska, the 1994 Skagway, Alaska, and the 1998 Papua New Guinea events. GEOWAVE simulates accurate runup and inundation at the same time, with no additional user interference or effort, using a slot technique. Wave breaking, if it occurs during shoaling or runup, is also accounted for with a dissipative breaking model acting on the wave front. The success of our case studies depends on the combination of accurate tsunami sources and an advanced tsunami propagation and inundation model. Article in Journal/Newspaper Skagway Alaska Unknown
institution	Open Polar
collection	Unknown
op_collection_id	fttriple
language	English
topic	geo envir
spellingShingle	geo envir P. Watts S. T. Grilli J. T. Kirby G. J. Fryer D. R. Tappin Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model
topic_facet	geo envir
description	Case studies of landslide tsunamis require integration of marine geology data and interpretations into numerical simulations of tsunami attack. Many landslide tsunami generation and propagation models have been proposed in recent time, further motivated by the 1998 Papua New Guinea event. However, few of these models have proven capable of integrating the best available marine geology data and interpretations into successful case studies that reproduce all available tsunami observations and records. We show that nonlinear and dispersive tsunami propagation models may be necessary for many landslide tsunami case studies. GEOWAVE is a comprehensive tsunami simulation model formed in part by combining the Tsunami Open and Progressive Initial Conditions System (TOPICS) with the fully non-linear Boussinesq water wave model FUNWAVE. TOPICS uses curve fits of numerical results from a fully nonlinear potential flow model to provide approximate landslide tsunami sources for tsunami propagation models, based on marine geology data and interpretations. In this work, we validate GEOWAVE with successful case studies of the 1946 Unimak, Alaska, the 1994 Skagway, Alaska, and the 1998 Papua New Guinea events. GEOWAVE simulates accurate runup and inundation at the same time, with no additional user interference or effort, using a slot technique. Wave breaking, if it occurs during shoaling or runup, is also accounted for with a dissipative breaking model acting on the wave front. The success of our case studies depends on the combination of accurate tsunami sources and an advanced tsunami propagation and inundation model.
format	Article in Journal/Newspaper
author	P. Watts S. T. Grilli J. T. Kirby G. J. Fryer D. R. Tappin
author_facet	P. Watts S. T. Grilli J. T. Kirby G. J. Fryer D. R. Tappin
author_sort	P. Watts
title	Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model
title_short	Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model
title_full	Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model
title_fullStr	Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model
title_full_unstemmed	Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model
title_sort	landslide tsunami case studies using a boussinesq model and a fully nonlinear tsunami generation model
publisher	Copernicus Publications
publishDate	2003
url	http://www.nat-hazards-earth-syst-sci.net/3/391/2003/nhess-3-391-2003.pdf https://doaj.org/article/dc9a7c23879e4eab82e14363cf006971
genre	Skagway Alaska
genre_facet	Skagway Alaska
op_source	Natural Hazards and Earth System Sciences, Vol 3, Iss 5, Pp 391-402 (2003)
op_relation	1561-8633 1684-9981 http://www.nat-hazards-earth-syst-sci.net/3/391/2003/nhess-3-391-2003.pdf https://doaj.org/article/dc9a7c23879e4eab82e14363cf006971
op_rights	undefined
_version_	1766197334845161472

Landslide tsunami case studies using a Boussinesq model and a fully nonlinear tsunami generation model

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