Publication Date:
2015-05-04
Description:
A supercycle describes a long-term cluster of diferently-sized megathrust earthquakes, leading up to the final complete failure of a subduction zone segment1,2. The precise controls on supercycles are unclear, although structural and frictional heterogeneities are proposed1.We recognize that supercycles are suggested to occur in those regions1-4 where the estimated downdip width of the seismogenic zone5-7 is larger than average. Here we investigate the link between supercycles and the seismogenic zone downdip width using a two-dimensional numerical model8. In our simulations, the first megathrust earthquakes in a supercycle generally rupture only the outermost parts of the seismogenic zone. These partial ruptures are stopped owing to a large excess of strength over stress, and transfer stresses towards the centre of the seismogenic zone. In addition to the continued tectonic loading, they thereby gradually reduce the strength excess so that the largest megathrust events finally rupture the entire seismogenic zone and release most of the accumulated stress. A greater width increases the average strength excess and thus favours supercycles over ordinary cycles of only similarly sized complete ruptures.Ourresults imply that larger than thus far observed earthquakes could conclude a supercycle where seismogenic zone widths are larger than average. © 2015 Macmillan Publishers Limited. All rights reserved.
Print ISSN:
1752-0894
Electronic ISSN:
1752-0908
Topics:
Geosciences
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