Geo-archaeological records of large Holocene tsunamis along the hyperarid coastal Atacama Desert in the major northern Chile seismic gap

León T.; Vargas G.; Salazar D.; Goff J.; Guendon J.L.; Andrade P.; Alvarez G.

Abstract

The coastal Atacama Desert is exposed to strong earthquakes and giant tsunamis associated with the subduction of the Nazca plate beneath the South American plate. Nevertheless, historical and geological records of tsunamis and paleotsunamis in this region are scarce. Taltal (25.4 degrees S) is located at the southern edge of the hyperarid Atacama Desert within a major historical similar to 1000 km-long megathrust seismic gap in northern Chile where the most recent large tsunamigenic earthquakes occurred in 1877 CE and 1922 CE, rupturing its northern and southern segments, respectively. By multiproxy geological and archaeological analyses from pits and trenches, we report distinctive strata of reworked archaeological material as well as sedimentary layers that we interpret as being produced by tsunami run-up and/or backwash deposition. We identified two large Holocene paleotsunamis dated close to similar to 4000 cal yrs BP and younger than 863 +/- 199 CE (similar to 1087 cal years BP). By comparing the run-ups of the last historical tsunamis with our minimum run-up estimates from the geo-archaeological record, we conclude that the impact of these Holocene paleotsunamis was larger than any known historical event, suggesting the need to re-evaluate local, regional and Pacific basin-scale tsunami hazard assessments. (C) 2019 Elsevier Ltd. All rights reserved.

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Título según WOS: Geo-archaeological records of large Holocene tsunamis along the hyperarid coastal Atacama Desert in the major northern Chile seismic gap
Título según SCOPUS: Geo-archaeological records of large Holocene tsunamis along the hyperarid coastal Atacama Desert in the major northern Chile seismic gap
Título de la Revista: QUATERNARY SCIENCE REVIEWS
Volumen: 220
Editorial: PERGAMON-ELSEVIER SCIENCE LTD
Fecha de publicación: 2019
Página de inicio: 335
Página final: 358
Idioma: English
DOI:

10.1016/j.quascirev.2019.07.038

Notas: ISI, SCOPUS