Crustal Structure and Continent‐Ocean Boundary Along the Galicia Continental Margin (NW Iberia): Insights From Combined Gravity and Seismic Interpretation
The magma‐poor rifted continental margin of Galicia has an extremely complex structure. Its formation involved several rifting episodes that occurred ultimately during the early Cretaceous near a ridge triple junction, which produced a change in the orientation of the main structures in its transiti...
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| Published in: | Tectonics (Washington, D.C.) Vol. 37; no. 5; pp. 1576 - 1604 |
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01-05-2018
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| Abstract | The magma‐poor rifted continental margin of Galicia has an extremely complex structure. Its formation involved several rifting episodes that occurred ultimately during the early Cretaceous near a ridge triple junction, which produced a change in the orientation of the main structures in its transition to the north Iberia margin. In addition, there is a superimposed partial tectonic inversion along its northwest and northern border which developed from the Late Cretaceous to at least Oligocene times. The present study integrates a large volume of new geophysical information (mainly marine gravity data and 2‐D seismic reflection profiles) to provide insights on the formation of this rift system and on the development of its later inversion. The combined interpretation and modeling of this data enable the presentation of a new crustal and structural domain map for the whole Galicia margin. This includes the rift domains related to the extreme thinning of the crust and the lithospheric mantle (stretched, necking, and hyperextension and mantle exhumation domains), as well as a domain of intense compressional deformation. New constraints arise on the origin, the deep structure, and the characterization of the along‐ and across‐strike variation of the continent‐ocean transition of the margin, where a progressive change from hyperextension to partial inversion is observed. The development of both rifting and later partial tectonic inversion is influenced by the existence of former first‐order tectonic features. Most of the tectonic inversion is focused on the hyperextension and mantle exhumation domain, which in some areas of the northwestern margin is completely overprinted by compressional deformation.
Key Points
The diverse rift‐related structural domains in the margin have distinctive gravity anomaly imprints
Mapping of the crustal and structural domains shows a strong segmentation of the NW Iberia margin with high inheritance control
Rift architecture and segmentation control the development of the partial tectonic inversion of the margin |
|---|---|
| AbstractList | The magma‐poor rifted continental margin of Galicia has an extremely complex structure. Its formation involved several rifting episodes that occurred ultimately during the early Cretaceous near a ridge triple junction, which produced a change in the orientation of the main structures in its transition to the north Iberia margin. In addition, there is a superimposed partial tectonic inversion along its northwest and northern border which developed from the Late Cretaceous to at least Oligocene times. The present study integrates a large volume of new geophysical information (mainly marine gravity data and 2‐D seismic reflection profiles) to provide insights on the formation of this rift system and on the development of its later inversion. The combined interpretation and modeling of this data enable the presentation of a new crustal and structural domain map for the whole Galicia margin. This includes the rift domains related to the extreme thinning of the crust and the lithospheric mantle (stretched, necking, and hyperextension and mantle exhumation domains), as well as a domain of intense compressional deformation. New constraints arise on the origin, the deep structure, and the characterization of the along‐ and across‐strike variation of the continent‐ocean transition of the margin, where a progressive change from hyperextension to partial inversion is observed. The development of both rifting and later partial tectonic inversion is influenced by the existence of former first‐order tectonic features. Most of the tectonic inversion is focused on the hyperextension and mantle exhumation domain, which in some areas of the northwestern margin is completely overprinted by compressional deformation.
The diverse rift‐related structural domains in the margin have distinctive gravity anomaly imprints
Mapping of the crustal and structural domains shows a strong segmentation of the NW Iberia margin with high inheritance control
Rift architecture and segmentation control the development of the partial tectonic inversion of the margin The magma‐poor rifted continental margin of Galicia has an extremely complex structure. Its formation involved several rifting episodes that occurred ultimately during the early Cretaceous near a ridge triple junction, which produced a change in the orientation of the main structures in its transition to the north Iberia margin. In addition, there is a superimposed partial tectonic inversion along its northwest and northern border which developed from the Late Cretaceous to at least Oligocene times. The present study integrates a large volume of new geophysical information (mainly marine gravity data and 2‐D seismic reflection profiles) to provide insights on the formation of this rift system and on the development of its later inversion. The combined interpretation and modeling of this data enable the presentation of a new crustal and structural domain map for the whole Galicia margin. This includes the rift domains related to the extreme thinning of the crust and the lithospheric mantle (stretched, necking, and hyperextension and mantle exhumation domains), as well as a domain of intense compressional deformation. New constraints arise on the origin, the deep structure, and the characterization of the along‐ and across‐strike variation of the continent‐ocean transition of the margin, where a progressive change from hyperextension to partial inversion is observed. The development of both rifting and later partial tectonic inversion is influenced by the existence of former first‐order tectonic features. Most of the tectonic inversion is focused on the hyperextension and mantle exhumation domain, which in some areas of the northwestern margin is completely overprinted by compressional deformation. The magma‐poor rifted continental margin of Galicia has an extremely complex structure. Its formation involved several rifting episodes that occurred ultimately during the early Cretaceous near a ridge triple junction, which produced a change in the orientation of the main structures in its transition to the north Iberia margin. In addition, there is a superimposed partial tectonic inversion along its northwest and northern border which developed from the Late Cretaceous to at least Oligocene times. The present study integrates a large volume of new geophysical information (mainly marine gravity data and 2‐D seismic reflection profiles) to provide insights on the formation of this rift system and on the development of its later inversion. The combined interpretation and modeling of this data enable the presentation of a new crustal and structural domain map for the whole Galicia margin. This includes the rift domains related to the extreme thinning of the crust and the lithospheric mantle (stretched, necking, and hyperextension and mantle exhumation domains), as well as a domain of intense compressional deformation. New constraints arise on the origin, the deep structure, and the characterization of the along‐ and across‐strike variation of the continent‐ocean transition of the margin, where a progressive change from hyperextension to partial inversion is observed. The development of both rifting and later partial tectonic inversion is influenced by the existence of former first‐order tectonic features. Most of the tectonic inversion is focused on the hyperextension and mantle exhumation domain, which in some areas of the northwestern margin is completely overprinted by compressional deformation. Key Points The diverse rift‐related structural domains in the margin have distinctive gravity anomaly imprints Mapping of the crustal and structural domains shows a strong segmentation of the NW Iberia margin with high inheritance control Rift architecture and segmentation control the development of the partial tectonic inversion of the margin |
| Author | Acosta, J. Carbó‐Gorosabel, A. Llanes, P. Druet, M. Granja‐Bruña, J. L. Ercilla, G. Muñoz‐Martín, A. |
| Author_xml | – sequence: 1 givenname: M. orcidid: 0000-0002-0534-0018 surname: Druet fullname: Druet, M. email: m.druet@igme.es organization: Universidad Complutense de Madrid – sequence: 2 givenname: A. surname: Muñoz‐Martín fullname: Muñoz‐Martín, A. organization: Universidad Complutense de Madrid – sequence: 3 givenname: J. L. orcidid: 0000-0001-8741-5388 surname: Granja‐Bruña fullname: Granja‐Bruña, J. L. organization: Universidad Complutense de Madrid – sequence: 4 givenname: A. surname: Carbó‐Gorosabel fullname: Carbó‐Gorosabel, A. organization: Universidad Complutense de Madrid – sequence: 5 givenname: J. surname: Acosta fullname: Acosta, J. organization: Instituto Español de Oceanografía – sequence: 6 givenname: P. surname: Llanes fullname: Llanes, P. organization: Universidad Complutense de Madrid – sequence: 7 givenname: G. surname: Ercilla fullname: Ercilla, G. organization: CSIC. Grup de Marges Continentals |
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| Snippet | The magma‐poor rifted continental margin of Galicia has an extremely complex structure. Its formation involved several rifting episodes that occurred... |
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| SubjectTerms | Basins Continental margins Cretaceous crustal domains Crustal structure Deformation Gravity Gravity data hyperextension Lava Magma Mantle Modelling Oceans Oligocene Orientation Profiles rifted margin Rifting Seismic reflection profiles structural domains tectonic inversion |
| Title | Crustal Structure and Continent‐Ocean Boundary Along the Galicia Continental Margin (NW Iberia): Insights From Combined Gravity and Seismic Interpretation |
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