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Modelling emplacement of the world’s largest tsunami boulder

Modelling emplacement of the world’s largest tsunami boulder
Modelling emplacement of the world’s largest tsunami boulder

Large tsunami waves have struck the Sakishima Islands of Japan repeatedly. The latest was the 1771 Meiwa tsunami (> 25 m run-up height), which was generated by an earthquake along the Ryukyu Trench. Numerous tsunami boulders lie along the coastlines of these islands. The largest tsunami boulder of the Sakishima Islands, called “Obi-iwa”, is located on the west coast of Shimoji Island on a ca. 12 m high cliff. Historical documents imply that it was transported by the Meiwa tsunami. Nevertheless, whether this boulder could have been transported by the Meiwa tsunami has not been evaluated definitively. Furthermore, the possibility exists that it was transported by a larger and older tsunami generated along the Ryukyu Trench or by an unknown large tsunami originating from the Okinawa Trough. For this study, we conducted 3D measuring of this boulder using LiDAR equipment and used boulder transport models to evaluate whether the Meiwa tsunami could have transported it. From 3D measurements, the weight of this boulder was estimated as approximately 3400 tons: the world’s heaviest tsunami boulder reported to date. The boulder transport calculations suggest that the Meiwa tsunami could have transported this boulder, which implies that the assumption of some unknown large tsunami event is unnecessary to explain this boulder’s deposition.

1771 Meiwa tsunami, Boulder transport model, Cliff-top boulder, LiDAR, Ryukyu Trench, Tsunami boulder
0921-030X
12169-12193
Nakata, Koki
39eeaa78-20cb-4723-850a-3149431e0ec4
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Goto, Kazuhisa
83ebddaf-a094-4138-b5d0-47d561e975e3
Nakata, Koki
39eeaa78-20cb-4723-850a-3149431e0ec4
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Goto, Kazuhisa
83ebddaf-a094-4138-b5d0-47d561e975e3

Nakata, Koki, Watanabe, Masashi and Goto, Kazuhisa (2025) Modelling emplacement of the world’s largest tsunami boulder. Natural Hazards, 121 (10), 12169-12193, [748755]. (doi:10.1007/s11069-025-07276-2).

Record type: Article

Abstract

Large tsunami waves have struck the Sakishima Islands of Japan repeatedly. The latest was the 1771 Meiwa tsunami (> 25 m run-up height), which was generated by an earthquake along the Ryukyu Trench. Numerous tsunami boulders lie along the coastlines of these islands. The largest tsunami boulder of the Sakishima Islands, called “Obi-iwa”, is located on the west coast of Shimoji Island on a ca. 12 m high cliff. Historical documents imply that it was transported by the Meiwa tsunami. Nevertheless, whether this boulder could have been transported by the Meiwa tsunami has not been evaluated definitively. Furthermore, the possibility exists that it was transported by a larger and older tsunami generated along the Ryukyu Trench or by an unknown large tsunami originating from the Okinawa Trough. For this study, we conducted 3D measuring of this boulder using LiDAR equipment and used boulder transport models to evaluate whether the Meiwa tsunami could have transported it. From 3D measurements, the weight of this boulder was estimated as approximately 3400 tons: the world’s heaviest tsunami boulder reported to date. The boulder transport calculations suggest that the Meiwa tsunami could have transported this boulder, which implies that the assumption of some unknown large tsunami event is unnecessary to explain this boulder’s deposition.

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s11069-025-07276-2 - Version of Record
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More information

Accepted/In Press date: 7 April 2025
e-pub ahead of print date: 9 May 2025
Published date: June 2025
Keywords: 1771 Meiwa tsunami, Boulder transport model, Cliff-top boulder, LiDAR, Ryukyu Trench, Tsunami boulder
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Identifiers

Local EPrints ID: 503207
URI: http://eprints.soton.ac.uk/id/eprint/503207
DOI: doi:10.1007/s11069-025-07276-2
ISSN: 0921-030X
PURE UUID: 51af87e7-7129-4f6e-be71-f82de21a2e10
ORCID for Masashi Watanabe: ORCID iD orcid.org/0000-0003-3670-7385

Catalogue record

Date deposited: 24 Jul 2025 16:34
Last modified: 22 Aug 2025 02:45

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Contributors

Author: Koki Nakata
Author: Masashi Watanabe ORCID iD
Author: Kazuhisa Goto

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