3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)

3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)

<p>A high-resolution seismic tomography survey was acquired to obtain a full 3-D P-wave seismic velocity image in the Záncara river basin (eastern Spain). The study area consists of lutites and gypsum from a Neogene sedimentary sequence. A regular and dense grid of 676 shots and 1200 rece...

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Main Authors: D. Marti, I. Marzan, J. Sachsenhausen, J. Alvarez-Marrón, M. Ruiz, M. Torne, M. Mendes, R. Carbonell
Format: Article
Language:English
Published: Copernicus Publications 2019-01-01
Series:Solid Earth
Online Access:https://www.solid-earth.net/10/177/2019/se-10-177-2019.pdf
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spelling doaj-3f2e675c5267481c9ae8a7c87dbc9a412020-11-25T01:34:25ZengCopernicus PublicationsSolid Earth1869-95101869-95292019-01-011017719210.5194/se-10-177-20193-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)D. Marti0I. Marzan1J. Sachsenhausen2J. Alvarez-Marrón3M. Ruiz4M. Torne5M. Mendes6R. Carbonell7Institute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, SpainInstitute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, SpainInstitute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, SpainInstitute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, SpainInstitute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, SpainInstitute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, SpainDepartment of Physics, Instituto Superior Técnico, IST, Av. Rovisco Pais, 1049-001 Lisbon, PortugalInstitute of Earth Sciences Jaume Almera, ICTJA, CSIC, Lluis Solé I Sabaris s/n, 08028, Barcelona, Spain<p>A high-resolution seismic tomography survey was acquired to obtain a full 3-D P-wave seismic velocity image in the Záncara river basin (eastern Spain). The study area consists of lutites and gypsum from a Neogene sedimentary sequence. A regular and dense grid of 676 shots and 1200 receivers was used to image a 500 m × 500&thinsp;m area of the shallow subsurface. A 240-channel system and a seismic source, consisting of an accelerated weight drop, were used in the acquisition. Half a million travel-time picks were inverted to provide the 3-D seismic velocity distribution up to 120&thinsp;m depth. The project also targeted the geometry of the underground structure with emphasis on defining the lithological contacts but also the presence of cavities and fault or fractures. An extensive drilling campaign provided uniquely tight constraints on the lithology; these included core samples and wireline geophysical measurements. The analysis of the well log data enabled the accurate definition of the lithological boundaries and provided an estimate of the seismic velocity ranges associated with each lithology. The final joint interpreted image reveals a wedge-shaped structure consisting of four different lithological units. This study features the necessary key elements to test the travel time tomographic inversion approach for the high-resolution characterization of the shallow subsurface. In this methodological validation test, travel-time tomography demonstrated to be a powerful tool with a relatively high capacity for imaging in detail the lithological contrasts of evaporitic sequences located at very shallow depths, when integrated with additional geological and geophysical data.</p>https://www.solid-earth.net/10/177/2019/se-10-177-2019.pdf
collection DOAJ
language English
format Article
sources DOAJ
author D. Marti
I. Marzan
J. Sachsenhausen
J. Alvarez-Marrón
M. Ruiz
M. Torne
M. Mendes
R. Carbonell
spellingShingle D. Marti
I. Marzan
J. Sachsenhausen
J. Alvarez-Marrón
M. Ruiz
M. Torne
M. Mendes
R. Carbonell
3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)
Solid Earth
author_facet D. Marti
I. Marzan
J. Sachsenhausen
J. Alvarez-Marrón
M. Ruiz
M. Torne
M. Mendes
R. Carbonell
author_sort D. Marti
title 3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)
title_short 3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)
title_full 3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)
title_fullStr 3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)
title_full_unstemmed 3-D seismic travel-time tomography validation of a detailed subsurface model: a case study of the Záncara river basin (Cuenca, Spain)
title_sort 3-d seismic travel-time tomography validation of a detailed subsurface model: a case study of the záncara river basin (cuenca, spain)
publisher Copernicus Publications
series Solid Earth
issn 1869-9510
1869-9529
publishDate 2019-01-01
description <p>A high-resolution seismic tomography survey was acquired to obtain a full 3-D P-wave seismic velocity image in the Záncara river basin (eastern Spain). The study area consists of lutites and gypsum from a Neogene sedimentary sequence. A regular and dense grid of 676 shots and 1200 receivers was used to image a 500 m × 500&thinsp;m area of the shallow subsurface. A 240-channel system and a seismic source, consisting of an accelerated weight drop, were used in the acquisition. Half a million travel-time picks were inverted to provide the 3-D seismic velocity distribution up to 120&thinsp;m depth. The project also targeted the geometry of the underground structure with emphasis on defining the lithological contacts but also the presence of cavities and fault or fractures. An extensive drilling campaign provided uniquely tight constraints on the lithology; these included core samples and wireline geophysical measurements. The analysis of the well log data enabled the accurate definition of the lithological boundaries and provided an estimate of the seismic velocity ranges associated with each lithology. The final joint interpreted image reveals a wedge-shaped structure consisting of four different lithological units. This study features the necessary key elements to test the travel time tomographic inversion approach for the high-resolution characterization of the shallow subsurface. In this methodological validation test, travel-time tomography demonstrated to be a powerful tool with a relatively high capacity for imaging in detail the lithological contrasts of evaporitic sequences located at very shallow depths, when integrated with additional geological and geophysical data.</p>
url https://www.solid-earth.net/10/177/2019/se-10-177-2019.pdf
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