Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami

Abstract Within weeks of the Solomon Islands earthquake of 1 April 2007, international tsunami survey teams discovered important biomarkers of crust rupture and tsunami heights along the islands’ coastlines. Deep-ocean tsunameters recorded the tsunami waves of this event, enabling a real-time invers...
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Autor*in:	Wei, Yong [verfasserIn] Fritz, Hermann M. Titov, Vasily V. Uslu, Burak Chamberlin, Chris Kalligeris, Nikos

Format:	Artikel
Sprache:	Englisch

Erschienen:	2015

Schlagwörter:	Solomon islands tsunamis tsunameter inversion near-field tsunami height South Pacific

Anmerkung:	© Springer Basel (outside the USA) 2015

Übergeordnetes Werk:	Enthalten in: Pure and applied geophysics - Springer Basel, 1964, 172(2015), 3-4 vom: 07. Feb., Seite 657-682
Übergeordnetes Werk:	volume:172 ; year:2015 ; number:3-4 ; day:07 ; month:02 ; pages:657-682

Links:	Volltext

DOI / URN:	10.1007/s00024-014-1013-6

Katalog-ID:	OLC2069500675

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allfields	10.1007/s00024-014-1013-6 doi (DE-627)OLC2069500675 (DE-He213)s00024-014-1013-6-p DE-627 ger DE-627 rakwb eng 550 VZ 550 VZ 16,13 ssgn Wei, Yong verfasserin aut Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami 2015 Text txt rdacontent ohne Hilfsmittel zu benutzen n rdamedia Band nc rdacarrier © Springer Basel (outside the USA) 2015 Abstract Within weeks of the Solomon Islands earthquake of 1 April 2007, international tsunami survey teams discovered important biomarkers of crust rupture and tsunami heights along the islands’ coastlines. Deep-ocean tsunameters recorded the tsunami waves of this event, enabling a real-time inversion of the tsunami source and model evaluation of near-field tsunami impact. The survey measurements provide valuable datasets for further confirmation of the tsunami source of the 1 April 2007 Solomon earthquake. These survey results also aided investigation of the correlation between sources determined by use of tsunameter records and those derived from seismometer records or crust-rupture measurements. In this study, to assess the near-field tsunami impact, we developed tsunami inundation models for the Solomon Islands, including tsunami waveforms, co-seismic land-level changes, and tsunami height distributions on individual islands. Compared with seismic-derived tsunami sources, modeling results based on the tsunameter-derived tsunami sources were a good match with field survey measurements. These results highlight the accuracy and efficiency of the tsunameter-derived tsunami source in modeling the near-field tsunami impact along a complex archipelago. We show that the source models, although derived by use of different methods, are all suited to initiation of inundation models developed for Solomon Islands. As these source models become available in real time or near real time, they can be implemented immediately in the inundation models to provide rapid guidance on tsunami hazard assessment, focused search and rescue operations, and post-event recovery and reconstruction. Solomon islands tsunamis tsunameter inversion near-field tsunami height South Pacific Fritz, Hermann M. aut Titov, Vasily V. aut Uslu, Burak aut Chamberlin, Chris aut Kalligeris, Nikos aut Enthalten in Pure and applied geophysics Springer Basel, 1964 172(2015), 3-4 vom: 07. Feb., Seite 657-682 (DE-627)129538353 (DE-600)216719-0 (DE-576)014971038 0033-4553 nnns volume:172 year:2015 number:3-4 day:07 month:02 pages:657-682 https://doi.org/10.1007/s00024-014-1013-6 lizenzpflichtig Volltext GBV_USEFLAG_A SYSFLAG_A GBV_OLC SSG-OLC-PHY SSG-OLC-GEO SSG-OPC-GGO SSG-OPC-GEO GBV_ILN_22 GBV_ILN_70 GBV_ILN_267 GBV_ILN_601 GBV_ILN_4028 AR 172 2015 3-4 07 02 657-682
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author	Wei, Yong
spellingShingle	Wei, Yong ddc 550 ssgn 16,13 misc Solomon islands misc tsunamis misc tsunameter misc inversion misc near-field misc tsunami height misc South Pacific Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami
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topic_title	550 VZ 16,13 ssgn Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami Solomon islands tsunamis tsunameter inversion near-field tsunami height South Pacific
topic	ddc 550 ssgn 16,13 misc Solomon islands misc tsunamis misc tsunameter misc inversion misc near-field misc tsunami height misc South Pacific
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title	Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami
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title_full	Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami
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author_browse	Wei, Yong Fritz, Hermann M. Titov, Vasily V. Uslu, Burak Chamberlin, Chris Kalligeris, Nikos
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title_sort	source models and near-field impact of the 1 april 2007 solomon islands tsunami
title_auth	Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami
abstract	Abstract Within weeks of the Solomon Islands earthquake of 1 April 2007, international tsunami survey teams discovered important biomarkers of crust rupture and tsunami heights along the islands’ coastlines. Deep-ocean tsunameters recorded the tsunami waves of this event, enabling a real-time inversion of the tsunami source and model evaluation of near-field tsunami impact. The survey measurements provide valuable datasets for further confirmation of the tsunami source of the 1 April 2007 Solomon earthquake. These survey results also aided investigation of the correlation between sources determined by use of tsunameter records and those derived from seismometer records or crust-rupture measurements. In this study, to assess the near-field tsunami impact, we developed tsunami inundation models for the Solomon Islands, including tsunami waveforms, co-seismic land-level changes, and tsunami height distributions on individual islands. Compared with seismic-derived tsunami sources, modeling results based on the tsunameter-derived tsunami sources were a good match with field survey measurements. These results highlight the accuracy and efficiency of the tsunameter-derived tsunami source in modeling the near-field tsunami impact along a complex archipelago. We show that the source models, although derived by use of different methods, are all suited to initiation of inundation models developed for Solomon Islands. As these source models become available in real time or near real time, they can be implemented immediately in the inundation models to provide rapid guidance on tsunami hazard assessment, focused search and rescue operations, and post-event recovery and reconstruction. © Springer Basel (outside the USA) 2015
abstractGer	Abstract Within weeks of the Solomon Islands earthquake of 1 April 2007, international tsunami survey teams discovered important biomarkers of crust rupture and tsunami heights along the islands’ coastlines. Deep-ocean tsunameters recorded the tsunami waves of this event, enabling a real-time inversion of the tsunami source and model evaluation of near-field tsunami impact. The survey measurements provide valuable datasets for further confirmation of the tsunami source of the 1 April 2007 Solomon earthquake. These survey results also aided investigation of the correlation between sources determined by use of tsunameter records and those derived from seismometer records or crust-rupture measurements. In this study, to assess the near-field tsunami impact, we developed tsunami inundation models for the Solomon Islands, including tsunami waveforms, co-seismic land-level changes, and tsunami height distributions on individual islands. Compared with seismic-derived tsunami sources, modeling results based on the tsunameter-derived tsunami sources were a good match with field survey measurements. These results highlight the accuracy and efficiency of the tsunameter-derived tsunami source in modeling the near-field tsunami impact along a complex archipelago. We show that the source models, although derived by use of different methods, are all suited to initiation of inundation models developed for Solomon Islands. As these source models become available in real time or near real time, they can be implemented immediately in the inundation models to provide rapid guidance on tsunami hazard assessment, focused search and rescue operations, and post-event recovery and reconstruction. © Springer Basel (outside the USA) 2015
abstract_unstemmed	Abstract Within weeks of the Solomon Islands earthquake of 1 April 2007, international tsunami survey teams discovered important biomarkers of crust rupture and tsunami heights along the islands’ coastlines. Deep-ocean tsunameters recorded the tsunami waves of this event, enabling a real-time inversion of the tsunami source and model evaluation of near-field tsunami impact. The survey measurements provide valuable datasets for further confirmation of the tsunami source of the 1 April 2007 Solomon earthquake. These survey results also aided investigation of the correlation between sources determined by use of tsunameter records and those derived from seismometer records or crust-rupture measurements. In this study, to assess the near-field tsunami impact, we developed tsunami inundation models for the Solomon Islands, including tsunami waveforms, co-seismic land-level changes, and tsunami height distributions on individual islands. Compared with seismic-derived tsunami sources, modeling results based on the tsunameter-derived tsunami sources were a good match with field survey measurements. These results highlight the accuracy and efficiency of the tsunameter-derived tsunami source in modeling the near-field tsunami impact along a complex archipelago. We show that the source models, although derived by use of different methods, are all suited to initiation of inundation models developed for Solomon Islands. As these source models become available in real time or near real time, they can be implemented immediately in the inundation models to provide rapid guidance on tsunami hazard assessment, focused search and rescue operations, and post-event recovery and reconstruction. © Springer Basel (outside the USA) 2015
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title_short	Source Models and Near-Field Impact of the 1 April 2007 Solomon Islands Tsunami
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author2	Fritz, Hermann M. Titov, Vasily V. Uslu, Burak Chamberlin, Chris Kalligeris, Nikos
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