Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile

Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile

On September 16, 2015, a Mw 8.3 earthquake struck the north-central Chile coast, triggering a tsunami observed along 500 km of coastline, between Huasco (28.5°S) and San Antonio (33.5°S). This tsunami provided a unique opportunity to examine the nature of tsunami deposits in a semi-arid, siliciclast...

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Main Authors: DePaolis, Jessica M., Dura, Tina, MacInnes, Breanyn, Ely, Lisa L., Cisternas, Marco, Carvajal, Matías, Tang, Hui, Fritz, Hermann M., Mizobe, Cyntia, Wesson, Robert L., Figueroa, Gino, Brennan, Nicole, Horton, Benjamin Peter, Pilarczyk, Jessica E., Corbett, D. Reide, Gill, Benjamin C., Weiss, Robert
Other Authors: Asian School of the Environment
Format: Article
Language:English
Published: 2022
Subjects:
Science::Geology
Historical Tsunami
Stratigraphic Evidence
Chile
Online Access:https://hdl.handle.net/10356/157209
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Institution: Nanyang Technological University
Language: English
id sg-ntu-dr.10356-157209
record_format dspace
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Science::Geology
Historical Tsunami
Stratigraphic Evidence
Chile
spellingShingle Science::Geology
Historical Tsunami
Stratigraphic Evidence
Chile
DePaolis, Jessica M.
Dura, Tina
MacInnes, Breanyn
Ely, Lisa L.
Cisternas, Marco
Carvajal, Matías
Tang, Hui
Fritz, Hermann M.
Mizobe, Cyntia
Wesson, Robert L.
Figueroa, Gino
Brennan, Nicole
Horton, Benjamin Peter
Pilarczyk, Jessica E.
Corbett, D. Reide
Gill, Benjamin C.
Weiss, Robert
Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile
description On September 16, 2015, a Mw 8.3 earthquake struck the north-central Chile coast, triggering a tsunami observed along 500 km of coastline, between Huasco (28.5°S) and San Antonio (33.5°S). This tsunami provided a unique opportunity to examine the nature of tsunami deposits in a semi-arid, siliciclastic environment where stratigraphic and sedimentological records of past tsunamis are difficult to distinguish. To improve our ability to identify such evidence, we targeted one of the few low-energy, organic-rich depositional environments in north-central Chile: Pachingo marsh in Tongoy Bay (30.3°S). We found sedimentary evidence of the 2015 and one previous tsunami as tabular sand sheets. Both deposits are composed of poorly to moderately sorted, gray-brown, fine-to medium-grained sand and are distinct from underlying and overlying organic-rich silt. Both sand beds thin (from ∼20 cm to <1 cm) and fine landward, and show normal grading. The older sand bed is thicker and extends over 125 m further inland than the 2015 tsunami deposit. To model the relative size of the tsunamis that deposited each sand bed, we employed tsunami flow inversion. Our results show that the older sand bed was produced by higher flow speeds and depths than those in 2015. Anthropogenic evidence along with 137Cs and 210Pb dating constrains the age of the older tsunami to the last ∼110 years. We suggest that the older sand bed was deposited by the large tsunami in 1922 CE sourced to the north of our study site. This deposit represents the first geologic evidence of a pre-2015 tsunami along the semi-arid north-central Chile coast and highlights the current and continuing tsunami hazard in the region.
author2 Asian School of the Environment
author_facet Asian School of the Environment
DePaolis, Jessica M.
Dura, Tina
MacInnes, Breanyn
Ely, Lisa L.
Cisternas, Marco
Carvajal, Matías
Tang, Hui
Fritz, Hermann M.
Mizobe, Cyntia
Wesson, Robert L.
Figueroa, Gino
Brennan, Nicole
Horton, Benjamin Peter
Pilarczyk, Jessica E.
Corbett, D. Reide
Gill, Benjamin C.
Weiss, Robert
format Article
author DePaolis, Jessica M.
Dura, Tina
MacInnes, Breanyn
Ely, Lisa L.
Cisternas, Marco
Carvajal, Matías
Tang, Hui
Fritz, Hermann M.
Mizobe, Cyntia
Wesson, Robert L.
Figueroa, Gino
Brennan, Nicole
Horton, Benjamin Peter
Pilarczyk, Jessica E.
Corbett, D. Reide
Gill, Benjamin C.
Weiss, Robert
author_sort DePaolis, Jessica M.
title Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile
title_short Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile
title_full Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile
title_fullStr Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile
title_full_unstemmed Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile
title_sort stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central chile
publishDate 2022
url https://hdl.handle.net/10356/157209
_version_ 1734310177996275712
spelling sg-ntu-dr.10356-1572092022-05-14T20:11:22Z Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile DePaolis, Jessica M. Dura, Tina MacInnes, Breanyn Ely, Lisa L. Cisternas, Marco Carvajal, Matías Tang, Hui Fritz, Hermann M. Mizobe, Cyntia Wesson, Robert L. Figueroa, Gino Brennan, Nicole Horton, Benjamin Peter Pilarczyk, Jessica E. Corbett, D. Reide Gill, Benjamin C. Weiss, Robert Asian School of the Environment Earth Observatory of Singapore Science::Geology Historical Tsunami Stratigraphic Evidence Chile On September 16, 2015, a Mw 8.3 earthquake struck the north-central Chile coast, triggering a tsunami observed along 500 km of coastline, between Huasco (28.5°S) and San Antonio (33.5°S). This tsunami provided a unique opportunity to examine the nature of tsunami deposits in a semi-arid, siliciclastic environment where stratigraphic and sedimentological records of past tsunamis are difficult to distinguish. To improve our ability to identify such evidence, we targeted one of the few low-energy, organic-rich depositional environments in north-central Chile: Pachingo marsh in Tongoy Bay (30.3°S). We found sedimentary evidence of the 2015 and one previous tsunami as tabular sand sheets. Both deposits are composed of poorly to moderately sorted, gray-brown, fine-to medium-grained sand and are distinct from underlying and overlying organic-rich silt. Both sand beds thin (from ∼20 cm to <1 cm) and fine landward, and show normal grading. The older sand bed is thicker and extends over 125 m further inland than the 2015 tsunami deposit. To model the relative size of the tsunamis that deposited each sand bed, we employed tsunami flow inversion. Our results show that the older sand bed was produced by higher flow speeds and depths than those in 2015. Anthropogenic evidence along with 137Cs and 210Pb dating constrains the age of the older tsunami to the last ∼110 years. We suggest that the older sand bed was deposited by the large tsunami in 1922 CE sourced to the north of our study site. This deposit represents the first geologic evidence of a pre-2015 tsunami along the semi-arid north-central Chile coast and highlights the current and continuing tsunami hazard in the region. Ministry of Education (MOE) National Research Foundation (NRF) Published version T.D. was supported by National Science Foundation (NSF) grants EAR-1624795 and EAR-1624533, and L.E. and B.M. were supported by NSF award EAR-1624542. M.C., C.M, G.F., and M.Ca. were supported by the FONDECYT-Chile, project N 1190258 and by the Millennium Scientific Initiative of the Chilean government through grant NC160025 “Millennium Nucleus CYCLO The Seismic Cycle Along Subduction Zones”. M.Ca acknowledges the support from FONDE- CYT-Chile, project N 1181479. This work was supported by the Canadian Foundation for Innovation (CFI-JELF), Canada Research Chair Program, and an NSERC Discovery grant to JP. This is a contribution to the PALSEA (Palaeo-Constraints on Sea-Level Rise), a working group of the International Union for Quaternary Sciences (INQUA) and Past Global Changes (PAGES), and International Geo- science Program (IGCP) International Geoscience Programme (IGCP) Project 725 “Forecasting Coastal Change”. BPH is supported by the Singapore Ministry of Education Academic Research Fund MOE2019-T3-1-004 and MOE2018-T2-1-030, and the National Research Foundation Singapore and the Singapore Ministry of Education under the Research Centers of Excellence initiative. This work comprises EOS contribution number 374. 2022-05-10T07:11:57Z 2022-05-10T07:11:57Z 2021 Journal Article DePaolis, J. M., Dura, T., MacInnes, B., Ely, L. L., Cisternas, M., Carvajal, M., Tang, H., Fritz, H. M., Mizobe, C., Wesson, R. L., Figueroa, G., Brennan, N., Horton, B. P., Pilarczyk, J. E., Corbett, D. R., Gill, B. C. & Weiss, R. (2021). Stratigraphic evidence of two historical tsunamis on the semi-arid coast of north-central Chile. Quaternary Science Reviews, 266, 107052-. https://dx.doi.org/10.1016/j.quascirev.2021.107052 0277-3791 https://hdl.handle.net/10356/157209 10.1016/j.quascirev.2021.107052 2-s2.0-85110570262 266 107052 en MOE2019-T3-1-004 MOE2018-T2-1-030 Quaternary Science Reviews © 2021 The Authors. Published by Elsevier Ltd. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). application/pdf

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