Christine Hollenstein scite author profile

In order to study the ongoing tectonic deformation in the Rhine Graben area, we reconstruct the local crustal velocity and the strain rate field from GPS array solutions. Following the aim of this work, we compile the velocities of permanent GPS stations belonging to various networks (EUREF, AGNES, REGAL and RGP) in central western Europe. Moreover, the strain rate field is displayed in terms of principal axes and values, while the normal and the shear components of the strain tensor are calculated perpendicular and parallel to the strike of major faults. The results are compared with the fault plane solutions of earthquakes, which have occurred in this area.A broad-scale kinematic deformation model across the Rhine Graben is provided on the basis of tectonics and velocity results of the GPS permanent stations. The area of study is divided into four rigid blocks, between which there might be relative motions. The velocity and the strain rate fields are reconstructed along their borders, by estimating a uniform rotation for each block. The tectonic behaviour is well represented by the fourblock model in the Rhine Graben area, while a more detailed model will be needed for a better reconstruction of the strain field in the Alpine region.

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Analysis of central western Europe deformation using GPS and seismic data

Tesauro

Hollenstein

Egli

et al. 2006

Journal of Geodynamics

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Plate Tectonic Framework and Gpsderived Strain-Rate Field Within the Boundary Zones of the Eurasian and African Plates

Hollenstein

Kahle

Geiger

2006

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GPS deformation field and geodynamic implications for the Hellenic plate boundary region

Hollenstein¹

2007

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