Deformation style and controlling geodynamic processes at the eastern Guadalquivir foreland basin (Southern Spain)

Marín‐Lechado, Carlos; Pedrera, Antonio; Peláez, José A.; Ruíz-Constán, Ana; González-Ramón, Antonio; Henares, Jesús

doi:10.1002/2017tc004556

Cited by 8 publications

(21 citation statements)

References 81 publications

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“…South Demanda fault or Pineda de la Sierra fault; Santana‐Torre, ) faults could explain the deduced stretching direction from K max . In the southern margin of the Iberian Variscan Massif, NE–SW to NNE–SSW basement rooted normal faults deforming Neogene sediments (Marín‐Lechado et al, ) could also be active during the Triassic sedimentation, but their orientation is not coherent with the deduced stretching direction from previous magnetic fabric data in a simple extensional scenario. A more detailed tectonostratigraphic study of the Triassic deposits of this area would be needed to better relate main faults and K max orientations.…”

Section: Stretching Direction Inferred From Kmax Versus Main Fault Ormentioning

confidence: 96%

Triassic stretching directions in Iberia and North Africa inferred from magnetic fabrics

et al. 2019

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During the Triassic, Iberia and western North Africa displayed a unique situation in relation with the Central and North Atlantic opening and westward expansion of the Tethys. Unravelling the stretching direction in Triassic deposits of the studied area can help in our understanding of this scenario. The tectonic setting is characterized by localized basins with strong thickness variations greatly influenced by previous post-Variscan mechanical discontinuities. In this work, we revise and compile magnetic fabric data from eight Triassic depocentres in terms of defining the stretching direction (i.e. magnetic lineation), resulting from extensional deformation of this period. Data show the importance of the opening of the Atlantic rift as the leading process during the Triassic. Dextral transtension can explain the deflection of the extensional direction observed in most studied depocentres that is caused by the activity of previous major oblique faults.

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Section: Stretching Direction Inferred From Kmax Versus Main Fault Ormentioning

confidence: 96%

Triassic stretching directions in Iberia and North Africa inferred from magnetic fabrics

et al. 2019

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“…In the easternmost Guadalquivir foreland basin, a region holding low seismic hazard (Peláez & López Casado, 2002), two significant swarms have been recorded in this decade: the 2012 and 2013 Torreperogil sequence, and the current northern Guadiana Menor seismic sequence ( Figure 2b), with most earthquakes located 9-13 km deep. The Torreperogil seismic swarm was clearly related to strike-slip basement tectonics, supported by some focal mechanisms, although seismicity data alone do not explain the basement's active fault (Marín-Lechado et al, 2017;Morales et al, 2015;Pedrera et al, 2013;Roldán et al, 2013). The characteristics of the Guadiana Menor seismicity are discussed for the first time in this study.…”

Section: 1029/2020tc006143mentioning

confidence: 66%

“…In order to highlight the origin and significance of Guadiana Menor seismicity, seismological reprocessed data were combined with new geophysical (gravimetry, electrical resistivity tomography) and geological data. These data were integrated with previous seismic reflection profiles (Marín-Lechado et al, 2017;Roldán et al, 2013) and with gravity data from the TopoIberia project (Ayala et al, 2016; http://info.igme. es/SIGEOF/).…”

Section: Methodsmentioning

confidence: 99%

“…The geometry of some thick bodies in the Mesozoic basement cover could result not only from olistostromes but also from thrusting. In fact, some studies propose the presence of reverse faults in the basement (Marín-Lechado et al, 2017). The Cazorla Range constitutes a prominent relief above the foreland basin, which suggests recent tectonic activity.…”

Section: 1029/2020tc006143mentioning

confidence: 99%

“…However, some strike-slip seismic swarms have affected to the Guadalquivir foreland basin (Figure 2), where there are not outcrops of significant strike-slip faults. A seismic series rooted in the area of Torreperogil between 2012 and 2013 has been related with N-S faults (Serrano et al, 2015), with N-S faults that turn E-W in Torreperogil (Morales et al, 2015), and with a combination of E-W transpressive faults related to NE-SW faults (Marín-Lechado et al, 2017;Pedrera et al, 2013). Since 2016, a prolonged seismic sequence has been recorded in the northern Guadiana Menor valley near the village of Peal de Becerro, about 20 km southeast of Torreperogil.…”

Section: Introductionmentioning

confidence: 99%

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Seismicity in Strike‐Slip Foreland Faults (Central Betic Cordillera Front): Evidence of Indentation Tectonics

et al. 2020

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Unexpected seismicity has been detected in the past few years along the northern Guadiana Menor River (Guadalquivir foreland basin) at the northern boundary of the Betic Cordillera. Earthquake focal mechanisms evidence the activity of N‐S to NNE‐SSW sinistral faults in the basement. Yet continuous GPS (CGPS) data show a westward movement in both the Prebetic Arc and the eastern Guadalquivir basin infill, which disagrees with the strike‐slip faults. To more precisely describe the structure and evolution of the area, new Bouguer anomaly data from the southeastern basin combined with seismicity data, electric resistivity tomography profiles (ERT), and surface studies are provided. Given the soft consistency of the sedimentary infill in the area, surface evidence of faulting is scarce, limited to elongated channel and minor vertical faults affecting Quaternary sediments, where ERT profiles suggested the presence of faults. These results suggest that the Guadalquivir basin infill, the Prebetic Arc and the central Betic Cordillera move towards the west, independent from the Iberian crust, but indicating to some extent an upward propagation of the basement deformation. However, the basement is coupled with the Alboran Domain and undergoes NNW‐SSE Eurasia‐Nubia convergence and orthogonal extension. This scenario is suggestive of the initial stages of indentation tectonics, better developed in the eastern Betic Cordillera and the central Alboran Sea.

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Alpine Foreland Basins

Barnolas

Larrasoaña

Pujalte

et al. 2019

The Geology of Iberia: A Geodynamic Approach

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Deformation style and controlling geodynamic processes at the eastern Guadalquivir foreland basin (Southern Spain)

Cited by 8 publications

References 81 publications

Triassic stretching directions in Iberia and North Africa inferred from magnetic fabrics

Triassic stretching directions in Iberia and North Africa inferred from magnetic fabrics

Seismicity in Strike‐Slip Foreland Faults (Central Betic Cordillera Front): Evidence of Indentation Tectonics

Alpine Foreland Basins

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