A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves
Coastal boulders are often indicators of past extreme wave events. In fact, the coastal boulder distribution induced by infragravity-dominated storm waves (energetic IG waves) may be similar to that induced by tsunamis; however, this assumption is yet to be investigated. We show that the factors res...
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sg-ntu-dr.10356-1713892023-10-24T15:36:42Z A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves Watanabe, Masashi Goto, Kazuhisa Roeber, Volker Kan, Hironobu Imamura, Fumihiko Earth Observatory of Singapore Science::Geology Coastal Boulder Infragravity Wave Coastal boulders are often indicators of past extreme wave events. In fact, the coastal boulder distribution induced by infragravity-dominated storm waves (energetic IG waves) may be similar to that induced by tsunamis; however, this assumption is yet to be investigated. We show that the factors responsible for generating energetic IG waves under storm scenarios are not identical to those affecting the boulders' transport distances. Our results indicate that the storm waves typically only transport boulders over short distances as compared to boulders deposited by tsunamis, even when energetic IG waves are being generated. When the dimensionless transport distance of a boulder (=transport distance of a boulder/offshore wave height) is less than 4.0 × 10 over planar topography and 3.0 × 10 over reef topography, both waves can potentially be responsible for the transport distance. In this case, whether a reasonably-sized storm or tsunami can explain a boulder location in a study area should be investigated through detailed numerical modeling. We found a clear relationship between the dimensionless transport distance of tsunami boulders and the Iribarren number, and it is plausible to directly estimate offshore wave height or wavelength from the tsunami boulder distribution and beach slope without numerical simulation. Published version This research was financially supported by a Grant-in-Aid for JSPS fellows (project number 16J01953) and JSPS KAKENHI Grant Numbers 21H04508, 21H04379, 21H00631 and 22K14455. Volker Roeber acknowledges financial support from the I-SITE program Energy & Environment Solutions (E2S), the Communauté d’Agglomération Pays Basque (CAPB), and the Communauté Région Nouvelle Aquitaine (CRNA) for the chair position HPC-Waves. 2023-10-24T01:24:16Z 2023-10-24T01:24:16Z 2023 Journal Article Watanabe, M., Goto, K., Roeber, V., Kan, H. & Imamura, F. (2023). A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves. Journal of Geophysical Research: Earth Surface, 128(9). https://dx.doi.org/10.1029/2023JF007083 2169-9003 https://hdl.handle.net/10356/171389 10.1029/2023JF007083 2-s2.0-85170389153 9 128 en Journal of Geophysical Research: Earth Surface © 2023 American Geophysical Union. All Rights Reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at http://doi.org/10.1029/2023JF007083 application/pdf |
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Science::Geology Coastal Boulder Infragravity Wave Watanabe, Masashi Goto, Kazuhisa Roeber, Volker Kan, Hironobu Imamura, Fumihiko A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| description |
Coastal boulders are often indicators of past extreme wave events. In fact, the coastal boulder distribution induced by infragravity-dominated storm waves (energetic IG waves) may be similar to that induced by tsunamis; however, this assumption is yet to be investigated. We show that the factors responsible for generating energetic IG waves under storm scenarios are not identical to those affecting the boulders' transport distances. Our results indicate that the storm waves typically only transport boulders over short distances as compared to boulders deposited by tsunamis, even when energetic IG waves are being generated. When the dimensionless transport distance of a boulder (=transport distance of a boulder/offshore wave height) is less than 4.0 × 10 over planar topography and 3.0 × 10 over reef topography, both waves can potentially be responsible for the transport distance. In this case, whether a reasonably-sized storm or tsunami can explain a boulder location in a study area should be investigated through detailed numerical modeling. We found a clear relationship between the dimensionless transport distance of tsunami boulders and the Iribarren number, and it is plausible to directly estimate offshore wave height or wavelength from the tsunami boulder distribution and beach slope without numerical simulation. |
| author2 |
Earth Observatory of Singapore |
| author_facet |
Earth Observatory of Singapore Watanabe, Masashi Goto, Kazuhisa Roeber, Volker Kan, Hironobu Imamura, Fumihiko |
| format |
Article |
| author |
Watanabe, Masashi Goto, Kazuhisa Roeber, Volker Kan, Hironobu Imamura, Fumihiko |
| author_sort |
Watanabe, Masashi |
| title |
A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| title_short |
A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| title_full |
A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| title_fullStr |
A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| title_full_unstemmed |
A numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| title_sort |
numerical modeling approach for better differentiation of boulders transported by a tsunami, storm, and storm-induced energetic infragravity waves |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/171389 |
| _version_ |
1781793911643045888 |