Permanently enhanced dynamic triggering probabilities as evidenced by two M ≥ 7.5 earthquakes
The 2012 M7.7 Haida Gwaii earthquake radiated waves that likely dynamically triggered the 2013M7.5 Craig earthquake, setting two precedents. First, the triggered earthquake is the largest dynamically triggered shear failure event documented to date. Second, the events highlight a connection between geologic structure, sedimentary troughs that act as waveguides, and triggering probability. The Haida Gwaii earthquake excited extraordinarily large waves within and beyond the Queen Charlotte Trough, which propagated well into mainland Alaska and likely triggering the Craig earthquake along the way. Previously, focusing and associated dynamic triggering have been attributed to unpredictable source effects. This case suggests that elevated dynamic triggering probabilities may exist along the many structures where sedimentary troughs overlie major faults, such as subduction zones’ accretionary prisms and transform faults’ axial valleys. Although data are sparse, I find no evidence of accelerating seismic activity in the vicinity of the Craig rupture between it and the Haida Gwaii earthquake.
Citation Information
Publication Year | 2013 |
---|---|
Title | Permanently enhanced dynamic triggering probabilities as evidenced by two M ≥ 7.5 earthquakes |
DOI | 10.1002/grl.50933 |
Authors | Joan S. Gomberg |
Publication Type | Article |
Publication Subtype | Journal Article |
Series Title | Geophysical Research Letters |
Index ID | 70175905 |
Record Source | USGS Publications Warehouse |
USGS Organization | Earthquake Science Center |