Number of the records: 1
Risk faults in stable crust of the eastern Bohemian Massif identified by integrating GNSS, levelling, geological, geomorphological and geophysical data
- 1.0534723 - ÚGN 2021 RIV NL eng J - Journal Article
Roštínský, Pavel - Pospíšil, P. - Švábenský, O. - Kašing, M. - Nováková, Eva
Risk faults in stable crust of the eastern Bohemian Massif identified by integrating GNSS, levelling, geological, geomorphological and geophysical data.
Tectonophysics. Roč. 785, June 2020 (2020), č. článku 228427. ISSN 0040-1951. E-ISSN 1879-3266
Institutional support: RVO:68145535
Keywords : Bohemian Massif * GNSS geodetic data * horizontal movement * geodynamic model * recently active fault * seismic hazard
OECD category: Physical geography
Impact factor: 3.933, year: 2020
Method of publishing: Limited access
https://www.sciencedirect.com/science/article/pii/S0040195120301104?via%3Dihub
It is difficult to identify and assess the recently active faults, representing a risk factor for key human activities, in the areas of stable crust with slow tectonic deformation and reduced seismicity. We face the problem in the eastern Bohemian Massif (Central European Variscides) at a contact with the Eastern Alpine – Western Carpathian orogenic belt through building its integrated geodynamic model based on the long-term GNSS data cross-checked with the results from existing levelling, geological surveys, geophysical surveys, and a new geomorphological analysis. The model shows differently moving crustal blocks, determining the intervening boundary zones as the main risk regions, where weak earthquakes are also usually concentrated (primarily Diendorf–Čebín Tectonic Zone, Nectava–Konice Fault, Haná Faults, Bělá Fault and Bulhary Fault Shear Zone). The maximum horizontal GNSS differential velocities in the exposed Bohemian Massif reach up to 1.5–2.0 mm·yr−1. The up-thrusted segments of the Western Carpathians move individually ~2 mm·yr−1. The integration of a number of full-area datasets, corresponding to various dimensions and depth levels of crustal processes, allowed us to highlight the important fault zones as driving elements of regional geodynamics.
Permanent Link: http://hdl.handle.net/11104/0312905
File Download Size Commentary Version Access UGN_0534723.pdf 2 17.5 MB Publisher’s postprint require
Number of the records: 1