Identification of the seismogenic source of the 1875 Cucuta earthquake on the basis of a combination of neotectonic, paleoseismologic and historic seismicity studies

Rodriguez, Luz; Diederix, Hans; Torres, Eliana; Audemard, Franck; Hernandez, Catalina; Singer, Andre; Bohorquez, Olga; Yepez, Santiago

Abstract

An interesting variety of field evidence that collectively cover the three branches of Earthquake Geology: Neotectonics, Paleoseismology and Historical seismicity, has been collected in the border area between Venezuela and Colombia, near the town of San Jose de Cucuta, as part of a study aimed at establishing the seismic source of the great Cucuta Earthquake, that occurred on May 18th, 1875, and that caused heavy losses of life and destruction on both sides of the border, between the Department of Norte de Santander in Colombia and Tachira state in Venezuela. This region is affected by the activity of several cross-border fault systems that converge in the zone of the so-called Pamplona Indenter. Among these seismic sources, the potential candidates of this destructive seismic event in 1875 are those related to the Bocono Fault System, of the northwestern foothills of the Merida Andes and in particular it's most northwestern expression, the Aguas Calientes Fault System, as suggested by previous research carried out by FUNVISIS for the Venezuelan oil industry in the late 80s. In order to confirm whether this was the responsible system for the earthquake or not, the following studies were carried out: 1) In Neotectonics, a detailed binational surface mapping of the active faults of this system was carried out. This system consists of three branches referred to in this paper as: the North, Central and South branch respectively; 2) In Paleoseismology, two trenches were excavated. The first trench was excavated across the South branch and the second one across the North branch, which confirmed fault activity during the Holocene epoch; 3) In historical seismicity the direct coseismic surface effects that occurred in the epicentral area of the earthquake were assessed. All evidence collected and integrated in these three lines of research, made it possible to conclude that the Central branch of the Aguas Calientes fault system is the most likely candidate to have been the cause of this seismic event. (C) 2017 Elsevier Ltd. All rights reserved.

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Título según WOS: ID WOS:000427338600019 Not found in local WOS DB
Título de la Revista: JOURNAL OF SOUTH AMERICAN EARTH SCIENCES
Volumen: 82
Editorial: Pergamon
Fecha de publicación: 2018
Página de inicio: 274
Página final: 291
DOI:

10.1016/j.jsames.2017.09.019

Notas: ISI