2012
DOI: 10.5209/rev_jige.2012.v38.n1.39208
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Recent tectonic model for the Upper Tagus Basin (central Spain)

Abstract: Active tectonics within the Upper Tagus Basin is related to the lithospheric flexure affecting the Palaeozoic basement of the basin. This flexure displays NE-SW trending. Besides, this structure is in agreement with the regional active stress field defined by the maximum horizontal stress with NW-SE trending. In this tectonic framework, irregular clusters of instrumental seismicity (Mw< 5.0) fade in the zone bounded by the Tagus River and the Jarama River valleys. These clusters are related to major NW-SE tren… Show more

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Cited by 10 publications
(9 citation statements)
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“…Furthermore, in the Madrid Cenozoic basin and south of the Guadarrama sector, recent and historical seismicity (Rodríguez‐Pascua et al., 2016) is explained by Giner‐Robles et al. (2012) as: (a) tectonic far‐field stress of plate convergence, (b) lithospheric flexion evidenced by large basement wave‐length folding, and (c) the tectonic loading associated with the topography of the SPCS. We therefore suggest that the exhumation of the SPCS by south‐directed thick‐skinned thrusts may be related to the underthrusting of the basement south of the SPCS and be one of the mechanisms responsible for the difference in altitude in both foreland basins influenced by their different erosional history (de Vicente & Muñoz‐Martín, 2013).…”
Section: Discussionmentioning
confidence: 99%
“…Furthermore, in the Madrid Cenozoic basin and south of the Guadarrama sector, recent and historical seismicity (Rodríguez‐Pascua et al., 2016) is explained by Giner‐Robles et al. (2012) as: (a) tectonic far‐field stress of plate convergence, (b) lithospheric flexion evidenced by large basement wave‐length folding, and (c) the tectonic loading associated with the topography of the SPCS. We therefore suggest that the exhumation of the SPCS by south‐directed thick‐skinned thrusts may be related to the underthrusting of the basement south of the SPCS and be one of the mechanisms responsible for the difference in altitude in both foreland basins influenced by their different erosional history (de Vicente & Muñoz‐Martín, 2013).…”
Section: Discussionmentioning
confidence: 99%
“…The topography of the mountains and the basements of the bordering basins, as well as the present-day crustal and lithospheric structure, are maintained by large-scale folding and crustal thickening (Martín-Velázquez and De Vicente, 2012). Quaternary palaeoseismic structures have been recognised in the Madrid Basin (Rodríguez-Pascua 2005;Giner-Robles et al, 2012) but the seismicity is moderate to low and it is restricted to a depth of ~15 km Herraiz et al, 2000;Tejero and Ruiz, 2002;De Vicente et al, 2007, 2008Giner-Robles et al, 2012). In the Iberian Peninsula, the active tectonic regime changes from a thrustfault regime in its SW corner to a normal-fault regime in its NE corner (Jiménez-Munt and Negredo, 2003;Olaiz et al, 2009).…”
Section: The Central System and The Duero And Madrid Basinsmentioning
confidence: 99%
“…crustal seismicity (Sibson, 1986;Zoback and Townend, 2001;Watts and Burov, 2003;Aldersons et al, 2003). Seismicity in the interior of Iberia is low to moderate Andeweg et al, 1999;Herraiz et al, 2000;Tejero and Ruiz, 2002;De Vicente et al, 2007, 2008Giner-Robles et al, 2012). Seisms concentrate toward the SE of the Madrid Basin, owing to a flexural forebulge, and in basement faults at the southern edge of the Central System (Fig.…”
Section: Seismicitymentioning
confidence: 99%
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