Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)

A magnetotelluric (MT) profile and conventional seismic reflection lines are used to characterize the sedimentary basin across the Andean foothills in the Tucumán Plain. This basin is a depocenter surrounded by crystalline basement and filled with a several-kilometer-thick sedimentary sequence. Beca...

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Detalles Bibliográficos
Publicado: 2007
Materias:
basement rock
data inversion
depocenter
electrical resistivity
magnetotelluric method
modeling
sedimentary basin
sedimentary rock
seismic data
seismic reflection
Argentina
South America
Tucuman
Acceso en línea:https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_21699313_v112_n9_p_Favetto
http://hdl.handle.net/20.500.12110/paper_21699313_v112_n9_p_Favetto
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Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id paper:paper_21699313_v112_n9_p_Favetto
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spelling paper:paper_21699313_v112_n9_p_Favetto2023-06-08T16:34:46Z Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina) basement rock data inversion depocenter electrical resistivity magnetotelluric method modeling sedimentary basin sedimentary rock seismic data seismic reflection Argentina South America Tucuman A magnetotelluric (MT) profile and conventional seismic reflection lines are used to characterize the sedimentary basin across the Andean foothills in the Tucumán Plain. This basin is a depocenter surrounded by crystalline basement and filled with a several-kilometer-thick sedimentary sequence. Because of the high contrast in electrical resistivity between the basin sedimentary rocks and the crystalline basement, this interface dominates the MT response and masks details of the structure within the sedimentary units. This paper presents a new interpretation of the MT data incorporating structure constraints obtained from a network of seismic lines. Our results indicate that a significantly improved characterization of the conductive horizons within the basin is obtained when resistivity model discontinuities are introduced at the seismic reflectors corresponding to the most important formation boundaries. Improved resistivities of the main formations, Cretaceous-Miocene and Miocene-Pliocene, were inferred. The comparison of constrained and unconstrained models constitutes an instructive case study of how controlled MT inversion can improve structure imaging. It also shows that the application of constraints in the inversion process is a worthy option to find a geologically supported model, especially if data misfit shows a marked nonrandom distribution. Copyright 2007 by the American Geophysical Union. 2007 https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_21699313_v112_n9_p_Favetto http://hdl.handle.net/20.500.12110/paper_21699313_v112_n9_p_Favetto
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
topic basement rock
data inversion
depocenter
electrical resistivity
magnetotelluric method
modeling
sedimentary basin
sedimentary rock
seismic data
seismic reflection
Argentina
South America
Tucuman
spellingShingle basement rock
data inversion
depocenter
electrical resistivity
magnetotelluric method
modeling
sedimentary basin
sedimentary rock
seismic data
seismic reflection
Argentina
South America
Tucuman
Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)
topic_facet basement rock
data inversion
depocenter
electrical resistivity
magnetotelluric method
modeling
sedimentary basin
sedimentary rock
seismic data
seismic reflection
Argentina
South America
Tucuman
description A magnetotelluric (MT) profile and conventional seismic reflection lines are used to characterize the sedimentary basin across the Andean foothills in the Tucumán Plain. This basin is a depocenter surrounded by crystalline basement and filled with a several-kilometer-thick sedimentary sequence. Because of the high contrast in electrical resistivity between the basin sedimentary rocks and the crystalline basement, this interface dominates the MT response and masks details of the structure within the sedimentary units. This paper presents a new interpretation of the MT data incorporating structure constraints obtained from a network of seismic lines. Our results indicate that a significantly improved characterization of the conductive horizons within the basin is obtained when resistivity model discontinuities are introduced at the seismic reflectors corresponding to the most important formation boundaries. Improved resistivities of the main formations, Cretaceous-Miocene and Miocene-Pliocene, were inferred. The comparison of constrained and unconstrained models constitutes an instructive case study of how controlled MT inversion can improve structure imaging. It also shows that the application of constraints in the inversion process is a worthy option to find a geologically supported model, especially if data misfit shows a marked nonrandom distribution. Copyright 2007 by the American Geophysical Union.
title Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)
title_short Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)
title_full Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)
title_fullStr Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)
title_full_unstemmed Magnetotelluric inversion constrained by seismic data in the Tucumán Basin (Andean Foothills, 27°S, NW Argentina)
title_sort magnetotelluric inversion constrained by seismic data in the tucumán basin (andean foothills, 27°s, nw argentina)
publishDate 2007
url https://bibliotecadigital.exactas.uba.ar/collection/paper/document/paper_21699313_v112_n9_p_Favetto
http://hdl.handle.net/20.500.12110/paper_21699313_v112_n9_p_Favetto
_version_ 1768544571113865216

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