New Zealand's most easterly palaeotsunami deposit confirms evidence for major trans-Pacific event
New Zealand's most easterly palaeotsunami deposit confirms evidence for major trans-Pacific event
Sedimentary, geochemical, geomorphological, radiocarbon and numerical modelling data were used to examine the nature, extent and age of a boulder scatter at Okawa Point, Chatham Island, New Zealand. Boulders up to 98 t were traced around 800 m inland and comprised both a landward and seaward grouping on either side of a mid-Holocene high-stand storm ridge dated to around 4840–4810 cal BP. The landward boulder scatter was linked with an enigmatic coarse sand/gravel layer that extends up to 1100 m inland and has been dated to around 3500–4500 cal BP. Numerical modelling indicated that while the seaward boulders that mainly rest upon the Chatham Island Schist shore platform could have been emplaced by either storm or tsunami waves, those landward of the mid-Holocene storm ridge were most probably transported by a tsunami. There are several near-contemporaneous palaeotsunami deposits reported from mainland New Zealand, Australia, SW Pacific and the wider Pacific region. If some or all of these are associated with the same basin-wide palaeotsunami then it appears likely to have been one of the largest Holocene Pacific palaeotsunamis. An analysis of historical and numerically modelled data suggests that the most likely candidate is from within the northern Chile seismic gap, with early evidence suggesting that a large palaeoseismic and palaeotsunami event may have occurred around 4000 yr BP. If correct, this has important implications for assessing the largest possible magnitude earthquakes in the northern Chile seismic gap and the size of the tsunamis they generate.
4000 yr BP, Boulders, Chatham Islands, Fine sediment, Northern Chile, Palaeotsunami, Tsunamis and their deposits
158-173
Goff, J.
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Goto, K.
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Chagué, C.
efd115be-0411-4f8a-8695-e226987601e8
Watanabe, M.
880b3e5b-42a4-49a2-b196-0d06e54e45db
Gadd, P. S.
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King, D. N.
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1 October 2018
Goff, J.
f51d7d6f-dfd7-4b5a-9e58-d28afad3b8a9
Goto, K.
83ebddaf-a094-4138-b5d0-47d561e975e3
Chagué, C.
efd115be-0411-4f8a-8695-e226987601e8
Watanabe, M.
880b3e5b-42a4-49a2-b196-0d06e54e45db
Gadd, P. S.
3fc2bacc-6063-4a6b-92b3-b293be53a36b
King, D. N.
f47c6b5b-9666-43df-a845-c4be4a1bb363
Goff, J., Goto, K., Chagué, C., Watanabe, M., Gadd, P. S. and King, D. N.
(2018)
New Zealand's most easterly palaeotsunami deposit confirms evidence for major trans-Pacific event.
Marine Geology, 404, .
(doi:10.1016/j.margeo.2018.08.001).
Abstract
Sedimentary, geochemical, geomorphological, radiocarbon and numerical modelling data were used to examine the nature, extent and age of a boulder scatter at Okawa Point, Chatham Island, New Zealand. Boulders up to 98 t were traced around 800 m inland and comprised both a landward and seaward grouping on either side of a mid-Holocene high-stand storm ridge dated to around 4840–4810 cal BP. The landward boulder scatter was linked with an enigmatic coarse sand/gravel layer that extends up to 1100 m inland and has been dated to around 3500–4500 cal BP. Numerical modelling indicated that while the seaward boulders that mainly rest upon the Chatham Island Schist shore platform could have been emplaced by either storm or tsunami waves, those landward of the mid-Holocene storm ridge were most probably transported by a tsunami. There are several near-contemporaneous palaeotsunami deposits reported from mainland New Zealand, Australia, SW Pacific and the wider Pacific region. If some or all of these are associated with the same basin-wide palaeotsunami then it appears likely to have been one of the largest Holocene Pacific palaeotsunamis. An analysis of historical and numerically modelled data suggests that the most likely candidate is from within the northern Chile seismic gap, with early evidence suggesting that a large palaeoseismic and palaeotsunami event may have occurred around 4000 yr BP. If correct, this has important implications for assessing the largest possible magnitude earthquakes in the northern Chile seismic gap and the size of the tsunamis they generate.
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Accepted/In Press date: 1 August 2018
Published date: 1 October 2018
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Publisher Copyright:
© 2018 Elsevier B.V.
Keywords:
4000 yr BP, Boulders, Chatham Islands, Fine sediment, Northern Chile, Palaeotsunami, Tsunamis and their deposits
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Local EPrints ID: 493926
URI: http://eprints.soton.ac.uk/id/eprint/493926
ISSN: 0025-3227
PURE UUID: 11439295-b15c-4da4-96ef-3fbe5a30f733
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Date deposited: 17 Sep 2024 16:59
Last modified: 19 Sep 2024 02:09
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Contributors
Author:
J. Goff
Author:
K. Goto
Author:
C. Chagué
Author:
M. Watanabe
Author:
P. S. Gadd
Author:
D. N. King
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