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>Surface rupture during the 2010 M _w 7.1 darfield(canterbury) earthquake: Implications for fault rupture dynamics and seismic-hazard analysis
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Surface rupture during the 2010 M _w 7.1 darfield(canterbury) earthquake: Implications for fault rupture dynamics and seismic-hazard analysis
The September 2010 M _w 7.1 Darfield (Canterbury) earthquake in New Zealand is one of the best-recorded earthquakes of this magnitude. The earthquake occurred on a previously unidentified fault system and generated a 29.5 ± 0.5-km-long surface rupture across a lowrelief agricultural landscape. High-accuracy measurements of coseismic displacements were obtained at over 100 localities along the Greendale fault. Maximum net displacement (D _(max)) (5.3 ± 0.5 m) and average net displacement (D avg) (2.5 ± 0.1 m) are anomalously large for an earthquake of this M _w. D _(max) / surface rupture length (SRL) and D avg/SRL ratios are among the largest ever recorded for a continental strike-slip earthquake. "Geologically derived" estimates of moment magnitude (M _w G) are less than the seismologically derived M _w, derived using widely employed SRL-M _w scaling regressions. M _w G is greater than M _w using D _(max)- and D _(avg)-M _w regressions. The "geologically derived" static stress drop of 13.9 ± 3.7 MPa provides a context with which to compare this earthquake rupture to interplate and intraplate ruptures of similar M _w. This data set provides fundamental information on fault rupture processes relevant to seismic-hazard modeling in this region and analogous settings globally.
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