Seismicity and seismotectonics of the Albstadt Shear Zone in the northern Alpine foreland

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Titel: Seismicity and seismotectonics of the Albstadt Shear Zone in the northern Alpine foreland

Beteiligte: Mader, Sarah [VerfasserIn]; Ritter, Joachim R. R. [VerfasserIn]; Reicherter, Klaus [VerfasserIn]; Bokelmann, Götz [VerfasserIn]; Hetényi, György [VerfasserIn]; Abreu, Rafael [VerfasserIn]; Allegretti, Ivo [VerfasserIn]; Apoloner, Maria-Theresia [VerfasserIn]; Aubert, Coralie [VerfasserIn]; Besançon, Simon [VerfasserIn]; Bés de Berc, Maxime [VerfasserIn]; Brunel, Didier [VerfasserIn]; Capello, Marco [VerfasserIn]; Čarman, Martina [VerfasserIn]; Cavaliere, Adriano [VerfasserIn]; Chéze, Jérôme [VerfasserIn]; Chiarabba, Claudio [VerfasserIn]; Clinton, John [VerfasserIn]; Cougoulat, Glenn [VerfasserIn]; C. Crawford, Wayne [VerfasserIn]; Cristiano, Luigia [VerfasserIn]; Czifra, Tibor [VerfasserIn]; D’Alema, Ezio [VerfasserIn]; Danesi, Stefania [VerfasserIn]; [...]

Erschienen: Copernicus Publications (EGU), 2021-06-16

Sprache: Englisch

DOI: https://doi.org/10.5194/se-12-1389-2021

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Beschreibung: The region around the town Albstadt, SW Germany, was struck by four damaging earthquakes with magnitudes greater than 5 during the last century. These earthquakes occurred along the Albstadt Shear Zone (ASZ), which is characterized by more or less continuous microseismicity. As there are no visible surface ruptures that may be connected to the fault zone, we study its characteristics by its seismicity distribution and faulting pattern. We use the earthquake data of the state earthquake service of Baden-Württemberg from 2011 to 2018 and complement it with additional phase picks beginning in 2016 at the AlpArray and StressTransfer seismic networks in the vicinity of the ASZ. This extended data set is used to determine new minimum 1-D seismic vp and vs velocity models and corresponding station delay times for earthquake relocation. Fault plane solutions are determined for selected events, and the principal stress directions are derived. The minimum 1-D seismic velocity models have a simple and stable layering with increasing velocity with depth in the upper crust. The corresponding station delay times can be explained well by the lateral depth variation of the crystalline basement. The relocated events align about north–south with most of the seismic activity between the towns of Tübingen and Albstadt, east of the 9∘ E meridian. The events can be separated into several subclusters that indicate a segmentation of the ASZ. The majority of the 25 determined fault plane solutions feature an NNE–SSW strike but NNW–SSE-striking fault planes are also observed. The main fault plane associated with the ASZ dips steeply, and the rake indicates mainly sinistral strike-slip, but we also find minor components of normal and reverse faulting. The determined direction of the maximum horizontal stress of 140–149∘ is in good agreement with prior studies. Down to ca. 7–8 km depth SHmax is bigger than SV; below this depth, SV is the main stress component. The direction of SHmax indicates that the stress field in the area of the ASZ is ...

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