The Potential For A Large Earthquake In Intraplate Europe: The Contribution Of Remote Sensing
Abstract
The use of SAR interferometry for the computation of high resolution Digital Eleva- tion Models for various applications in neotectonics and geomorphology is increasing dramatically. The approach merges map-DEM, interferometric-DEM, satellite radar and optical images (ERS, SPOT, ASTER), aerial photographs, geophysical data and field observations into a single representation. This representation enables greater constraint on the identification of active faults and therefore gives an improved un- derstanding of complex active zones. Recent studies of the Lower and Upper Rhine graben display evidence of active deformation. Despite the low slip rate~0.1 mm/yr, vegetation cover and anthropic activity, we demonstrate that the surface deformation, although extremely sublte is preserved. In comparison, the Rukwa rift (East Africa) is a region with negligable anthropic activity, has a semi-arid climate and a higher deformation rate (1 - 4 mm/yr). Both rifts exhibit similar characteristics, such as: (1) half graben structures, (2) fault lengths ranging from 20 to 40 km, (3) graben width~ 40 km, (4) seismic activity with M 6 - 6.5 (1910 Rukwa, M~7.3). The Basel-Reinach fault, southern Upper Rhine graben, has been identified and characterised as responsi- ble for the 1356 earthquake (M 6.2 - 6.5). Three paleoearthquakes were demonstrated to have occurred within the last 8500 years, yielding a mean uplift rate of 0.21 mm/yr. Assuming that the physical parameters, geometry, and fault behavior are comparable, rifting processes with high deformation rates may serve as analogs to active regions with slower deformation. An intraplate European event rupturing the whole of the fault may possibly reach M 7.
- Publication:
-
EGS General Assembly Conference Abstracts
- Pub Date:
- 2002
- Bibcode:
- 2002EGSGA..27.4716K