Abstract
Polarisations of seismic shear-wave splitting observed above small earthquakes in Iceland are typically approximately NE to SW, parallel to the direction of maximum horizontal stress. In contrast, the polarisations of shear-waves at three new stations sited over the Húsavik-Flatey Fault, a major seismically-active transform fault in northern Iceland, are approximately NW to SE, orthogonal to the stress-aligned polarisations elsewhere. Modelling suggests that these 90°-flips in polarisations are caused by propagation through cracks containing fluids at high pore-fluid pressures within one or two MPa of the critical stress. These observations suggest that high pore-fluid pressures, which play a key role in earthquake source mechanisms, can be monitored by analysing shear-wave splitting above seismically-active fault planes.
Original language | English |
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Pages (from-to) | F1-F5 |
Journal | Geophysical Journal International |
Volume | 151 |
Issue number | 2 |
DOIs | |
Publication status | Published - Nov 2002 |
Other keywords
- 90°-flips
- Earthquakes
- Fault planes
- High pressures
- Shear-wave splitting