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Main Authors: Cordell, Darcy, Unsworth, Martyn J, Diaz, Daniel, Reyes-Wagner, Valentina, Currie, Claire A, Hicks, Stephen P
Format: Dataset Open Access
Language:en
Published: PANGAEA 2019
Subjects:
Online Access:https://doi.org/10.1594/PANGAEA.899725
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author Cordell, Darcy
Unsworth, Martyn J
Diaz, Daniel
Reyes-Wagner, Valentina
Currie, Claire A
Hicks, Stephen P
author_facet Cordell, Darcy
Unsworth, Martyn J
Diaz, Daniel
Reyes-Wagner, Valentina
Currie, Claire A
Hicks, Stephen P
collection Datos científicos de ciencias marinas y ambientales
contents The subduction zone of central Chile (36° S) has produced some of the world's largest earthquakes and significant volcanic eruptions. Understanding the fluid fluxes and structure of the subducting slab and over-riding plate can provide insight into the tectonic processes responsible for both seismicity and magmatism. Magnetotellurics (MT) is a geophysical method which is sensitive to conductive anomalies (e.g. partial melt and brines) in the subsurface. This dataset includes MT EDI data files for 38 sites collected along a profile in central Chile and western Argentina in 2016 and 2017. It includes 19 long period (10 s to 10000 s) MT stations and 19 broadband (0.001 s to 1000 s) MT stations. Four of the broadband MT sites were collected by Alterra Power Corp (now Innergex Renewable Energy Inc.) labelled MU-002, MU-003, MU-011, and MU-019 (Hickson et al., 2011). Four of the long period sites in Argentina are taken from Burd et al. (2014). This dataset also includes two geo-referenced 2-D resistivity models and the inversion parameters used to produce the model. The nonlinear conjugate gradient algorithm of Rodi and Mackie (2001) was used to produce this model. The first is the unconstrained case where no slab tear was imposed (MODEL_UNCONSTRAINED). In this folder is the geo-referenced model (longitude, latitude, depth (km b.s.l.), resistivity) as well as a folder containing the inversion input files. The second is the constrained case where a slab tear was imposed (MODEL_CONSTRAINED). This also includes a geo-referenced model (longitude latitude depth resistivity) text file and a folder containing the inversion input files.
format Dataset Open Access
id pangaea_https___doi_org_10_1594_PANGAEA_899725
institution PANGAEA
language en
publishDate 2019
publisher PANGAEA
record_format pangaea
spellingShingle Maule MT EDI data and resistivity model profile
Cordell, Darcy
Unsworth, Martyn J
Diaz, Daniel
Reyes-Wagner, Valentina
Currie, Claire A
Hicks, Stephen P
Central_Chile; Chile; File format; File name; File size; geophysics; magnetotellurics; maule; MULT; Multiple investigations; subduction zone; Uniform resource locator/link to file
The subduction zone of central Chile (36° S) has produced some of the world's largest earthquakes and significant volcanic eruptions. Understanding the fluid fluxes and structure of the subducting slab and over-riding plate can provide insight into the tectonic processes responsible for both seismicity and magmatism. Magnetotellurics (MT) is a geophysical method which is sensitive to conductive anomalies (e.g. partial melt and brines) in the subsurface. This dataset includes MT EDI data files for 38 sites collected along a profile in central Chile and western Argentina in 2016 and 2017. It includes 19 long period (10 s to 10000 s) MT stations and 19 broadband (0.001 s to 1000 s) MT stations. Four of the broadband MT sites were collected by Alterra Power Corp (now Innergex Renewable Energy Inc.) labelled MU-002, MU-003, MU-011, and MU-019 (Hickson et al., 2011). Four of the long period sites in Argentina are taken from Burd et al. (2014). This dataset also includes two geo-referenced 2-D resistivity models and the inversion parameters used to produce the model. The nonlinear conjugate gradient algorithm of Rodi and Mackie (2001) was used to produce this model. The first is the unconstrained case where no slab tear was imposed (MODEL_UNCONSTRAINED). In this folder is the geo-referenced model (longitude, latitude, depth (km b.s.l.), resistivity) as well as a folder containing the inversion input files. The second is the constrained case where a slab tear was imposed (MODEL_CONSTRAINED). This also includes a geo-referenced model (longitude latitude depth resistivity) text file and a folder containing the inversion input files.
title Maule MT EDI data and resistivity model profile
topic Central_Chile; Chile; File format; File name; File size; geophysics; magnetotellurics; maule; MULT; Multiple investigations; subduction zone; Uniform resource locator/link to file
url https://doi.org/10.1594/PANGAEA.899725