2003
DOI: 10.1144/gsl.sp.2003.216.01.06
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Deformation structures in Plio- and Pleistocene sediments (NW Bohemia, Central Europe)

Abstract: The small intracratonic Cheb (Eger) Basin in NW Bohemia (Central Europe) is characterized by swarm earthquakes, many mineral springs and mofettes with upper mantle CO2 degassing and by neotectonic graben and basin structures. Especially in non-lithified Upper Pliocene clay formations of the basin, a variety of deformation patterns is exposed. They include non-tectonic and tectonic activity and comprise faulting and folding from µm- to km-scale. Previously unrecognized N-S- and ENE-striking faults are sites of … Show more

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Cited by 14 publications
(20 citation statements)
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“…It delineates the termination of the broad reflective zone and its change into a strong‐contrast interface. Its position is also in agreement with the surface manifestation of dextral shear fault zone Nová Ves of the same direction recognized by Bankwitz, Bankwitz, et al () at the northern edge of the Cheb Basin (see Figure a). Thus, the termination of reflectivity can be seen as a robust structural phenomenon manifested by several features at different crustal levels: (1) by the dextral shear zone detected by Bankwitz, Bankwitz, et al (), (2) by swarm seismicity at ~10 km depth, and (3) by the termination of reflectivity and change into the strong‐contrast interface at the lower crust.…”
Section: Seismic Characterization Of the Lower Crustsupporting
confidence: 90%
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“…It delineates the termination of the broad reflective zone and its change into a strong‐contrast interface. Its position is also in agreement with the surface manifestation of dextral shear fault zone Nová Ves of the same direction recognized by Bankwitz, Bankwitz, et al () at the northern edge of the Cheb Basin (see Figure a). Thus, the termination of reflectivity can be seen as a robust structural phenomenon manifested by several features at different crustal levels: (1) by the dextral shear zone detected by Bankwitz, Bankwitz, et al (), (2) by swarm seismicity at ~10 km depth, and (3) by the termination of reflectivity and change into the strong‐contrast interface at the lower crust.…”
Section: Seismic Characterization Of the Lower Crustsupporting
confidence: 90%
“…These data show a strong reflector and absence of reflectivity toward the southeast in a prolongation of the northern shoulder of the Eger Rift (Figure ). Above, such termination of the lower crust reflectivity can be traced up to the surface where it is mapped by a shear fault zone detected by Bankwitz, Bankwitz, et al ().…”
Section: Magmatic Underplatingmentioning
confidence: 95%
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“…23, 24, 91) and the spring (no. 102, Table 1) with the highest 3 He/ 4 He ratios are positioned on previously unrecognized major fault zones within the unconsolidated sediments of the Cheb basin [ Bankwitz et al , 2003]. The presence of such high amounts of mantle‐derived 3 He may be an indication of still active geodynamics of the lithosphere.…”
Section: Increasing 3he/4he Ratios Beneath the Cheb Basinmentioning
confidence: 99%
“…More than 10,000 micro-earthquakes in the Mahel et al (1984), Zoubek et al (1990) and Bankwitz et al (2003 Novy Kostel focal zone with magnitudes up to 3.3 were recorded by local seismic networks. Nine swarm phases were distinguished; five of them include event magnitudes greater than 3.0.…”
Section: Introductionmentioning
confidence: 99%