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Reconstruction of transport modes and flow parameters from coastal boulders

Reconstruction of transport modes and flow parameters from coastal boulders
Reconstruction of transport modes and flow parameters from coastal boulders

Coastal boulders potentially provide very useful information to reconstruct hydraulic characteristics of extreme waves such as tsunamis or storm waves that struck shores in historical and prehistoric eras. Boulder transport models, which are strong tools to reconstruct the hydraulic characteristics during boulder transport, can be classified into inverse and forward models for identification and size estimation of tsunami or storm wave boulders. An inverse model can estimate the minimum wave height necessary to move a boulder and the minimum wave velocity necessary to slide, rotate, or saltate the boulder. A forward model can estimate precise hydraulic parameters such as the maximum wave velocity or wave runup height by reproducing the boulder transport distance. While some models are useful for practical purposes, few parameters are included in these models because they have been developed by simplification of actual phenomena. Therefore, it is noteworthy that hydraulic parameters estimated from the boulder transport model still include large error and uncertainty: the models need to be improved. Future work must be conducted to estimate the tsunami source or the storm size based on the tsunami or storm wave boulder distribution. Such estimation results are expected to be useful for coastal risk assessments.

Boulder transport model, Coastal boulder, Numerical simulation, Storm waves, Tsunami
617-639
Elsevier
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Goto, Kazuhisa
83ebddaf-a094-4138-b5d0-47d561e975e3
Imamura, Fumihiko
13656bc7-ebb6-42c7-a49e-689e2a837a8f
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Goto, Kazuhisa
83ebddaf-a094-4138-b5d0-47d561e975e3
Imamura, Fumihiko
13656bc7-ebb6-42c7-a49e-689e2a837a8f

Watanabe, Masashi, Goto, Kazuhisa and Imamura, Fumihiko (2020) Reconstruction of transport modes and flow parameters from coastal boulders. In, Geological Records of Tsunamis and Other Extreme Waves. Elsevier, pp. 617-639. (doi:10.1016/B978-0-12-815686-5.00028-6).

Record type: Book Section

Abstract

Coastal boulders potentially provide very useful information to reconstruct hydraulic characteristics of extreme waves such as tsunamis or storm waves that struck shores in historical and prehistoric eras. Boulder transport models, which are strong tools to reconstruct the hydraulic characteristics during boulder transport, can be classified into inverse and forward models for identification and size estimation of tsunami or storm wave boulders. An inverse model can estimate the minimum wave height necessary to move a boulder and the minimum wave velocity necessary to slide, rotate, or saltate the boulder. A forward model can estimate precise hydraulic parameters such as the maximum wave velocity or wave runup height by reproducing the boulder transport distance. While some models are useful for practical purposes, few parameters are included in these models because they have been developed by simplification of actual phenomena. Therefore, it is noteworthy that hydraulic parameters estimated from the boulder transport model still include large error and uncertainty: the models need to be improved. Future work must be conducted to estimate the tsunami source or the storm size based on the tsunami or storm wave boulder distribution. Such estimation results are expected to be useful for coastal risk assessments.

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More information

Published date: 31 July 2020
Additional Information: Publisher Copyright: © 2020 Elsevier Inc.
Keywords: Boulder transport model, Coastal boulder, Numerical simulation, Storm waves, Tsunami
Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 493943
URI: http://eprints.soton.ac.uk/id/eprint/493943
DOI: doi:10.1016/B978-0-12-815686-5.00028-6
PURE UUID: 00fbaae1-9da2-407d-bec9-bb4a47619620
ORCID for Masashi Watanabe: ORCID iD orcid.org/0000-0003-3670-7385

Catalogue record

Date deposited: 17 Sep 2024 17:03
Last modified: 19 Sep 2024 02:09

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Contributors

Author: Masashi Watanabe ORCID iD
Author: Kazuhisa Goto
Author: Fumihiko Imamura

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