Paleo-tsunami history along the northern Japan Trench: evidence from Noda Village, northern Sanriku coast, Japan
Paleo-tsunami history along the northern Japan Trench: evidence from Noda Village, northern Sanriku coast, Japan
Throughout history, large tsunamis have frequently affected the Sanriku area of the Pacific coast of the Tohoku region, Japan, which faces the Japan Trench. Although a few studies have examined paleo-tsunami deposits along the Sanriku coast, additional studies of paleo-earthquakes and tsunamis are needed to improve our knowledge of the timing, recurrence interval, and size of historical and pre-historic tsunamis. At Noda Village, in Iwate Prefecture on the northern Sanriku coast, we found at least four distinct gravelly sand layers based on correlation and chronological data. Sedimentary features such as grain size and thickness suggest that extreme waves from the sea formed these layers. Numerical modeling of storm waves further confirmed that even extremely large storm waves cannot account for the distribution of the gravelly sand layers, suggesting that these deposits are highly likely to have formed by tsunami waves. The numerical method of storm waves can be useful to identify sand layers as tsunami deposits if the deposits are observed far inland or at high elevations. The depositional age of the youngest tsunami deposit is consistent with the AD 869 Jogan earthquake tsunami, a possible predecessor of the AD 2011 Tohoku-oki tsunami. If this is the case, then the study site currently defines the possible northern extent of the AD 869 Jogan tsunami deposit, which is an important step in improving the tsunami source model of the AD 869 Jogan tsunami. Our results suggest that four large tsunamis struck the Noda site between 1100 and 2700 cal BP. The local tsunami sizes are comparable to the AD 2011 and AD 1896 Meiji Sanriku tsunamis, considering the landward extent of each tsunami deposit. [Figure not available: see fulltext.].
AD 869 Jogan tsunami, Japan, Numerical modeling, Paleo-tsunami, Sanriku coast, Storm wave, Tsunami deposit identification
Inoue, Taiga
60fa9edf-d60b-4997-9f58-3dfcbc4705b1
Goto, Kazuhisa
83ebddaf-a094-4138-b5d0-47d561e975e3
Nishimura, Yuichi
cdb201f4-9130-4e3d-bcb5-9cc3d74d0ba2
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Iijima, Yasutaka
8d0cf292-e66b-4742-8b62-1196331041d5
Sugawara, Daisuke
c1b6a01e-4597-4ced-9295-2687322d6e03
28 December 2017
Inoue, Taiga
60fa9edf-d60b-4997-9f58-3dfcbc4705b1
Goto, Kazuhisa
83ebddaf-a094-4138-b5d0-47d561e975e3
Nishimura, Yuichi
cdb201f4-9130-4e3d-bcb5-9cc3d74d0ba2
Watanabe, Masashi
880b3e5b-42a4-49a2-b196-0d06e54e45db
Iijima, Yasutaka
8d0cf292-e66b-4742-8b62-1196331041d5
Sugawara, Daisuke
c1b6a01e-4597-4ced-9295-2687322d6e03
Inoue, Taiga, Goto, Kazuhisa, Nishimura, Yuichi, Watanabe, Masashi, Iijima, Yasutaka and Sugawara, Daisuke
(2017)
Paleo-tsunami history along the northern Japan Trench: evidence from Noda Village, northern Sanriku coast, Japan.
Progress in Earth and Planetary Science, 4 (1), [42].
(doi:10.1186/s40645-017-0158-1).
Abstract
Throughout history, large tsunamis have frequently affected the Sanriku area of the Pacific coast of the Tohoku region, Japan, which faces the Japan Trench. Although a few studies have examined paleo-tsunami deposits along the Sanriku coast, additional studies of paleo-earthquakes and tsunamis are needed to improve our knowledge of the timing, recurrence interval, and size of historical and pre-historic tsunamis. At Noda Village, in Iwate Prefecture on the northern Sanriku coast, we found at least four distinct gravelly sand layers based on correlation and chronological data. Sedimentary features such as grain size and thickness suggest that extreme waves from the sea formed these layers. Numerical modeling of storm waves further confirmed that even extremely large storm waves cannot account for the distribution of the gravelly sand layers, suggesting that these deposits are highly likely to have formed by tsunami waves. The numerical method of storm waves can be useful to identify sand layers as tsunami deposits if the deposits are observed far inland or at high elevations. The depositional age of the youngest tsunami deposit is consistent with the AD 869 Jogan earthquake tsunami, a possible predecessor of the AD 2011 Tohoku-oki tsunami. If this is the case, then the study site currently defines the possible northern extent of the AD 869 Jogan tsunami deposit, which is an important step in improving the tsunami source model of the AD 869 Jogan tsunami. Our results suggest that four large tsunamis struck the Noda site between 1100 and 2700 cal BP. The local tsunami sizes are comparable to the AD 2011 and AD 1896 Meiji Sanriku tsunamis, considering the landward extent of each tsunami deposit. [Figure not available: see fulltext.].
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Accepted/In Press date: 11 December 2017
Published date: 28 December 2017
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Publisher Copyright:
© 2017, The Author(s).
Keywords:
AD 869 Jogan tsunami, Japan, Numerical modeling, Paleo-tsunami, Sanriku coast, Storm wave, Tsunami deposit identification
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Local EPrints ID: 493925
URI: http://eprints.soton.ac.uk/id/eprint/493925
ISSN: 2197-4284
PURE UUID: 9c115716-635b-4c02-aebe-0b025d491e6b
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Date deposited: 17 Sep 2024 16:58
Last modified: 19 Sep 2024 02:09
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Contributors
Author:
Taiga Inoue
Author:
Kazuhisa Goto
Author:
Yuichi Nishimura
Author:
Masashi Watanabe
Author:
Yasutaka Iijima
Author:
Daisuke Sugawara
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