Astronomy and Astrophysics – Astronomy
Scientific paper
Dec 2010
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010geoji.183.1265b&link_type=abstract
Geophysical Journal International, Volume 183, Issue 3, pp. 1265-1286.
Astronomy and Astrophysics
Astronomy
Space Geodetic Surveys, Radar Interferometry, Earthquake Source Observations, Subduction Zone Processes, New Zealand
Scientific paper
The MW 7.8 Dusky Sound earthquake of 2009 July 15 was the largest earthquake in New Zealand in the past ~80 yr and is the only major subduction interface earthquake in the New Zealand historical record. We have estimated the coseismic and early post-seismic slip distribution in the earthquake by inversion of GPS and differential interferometric synthetic aperture radar (DInSAR) observations. We show that slip during the earthquake was highly oblique and essentially in the Australia-Pacific relative plate motion direction. Failure occurred on a ca. 80 by 50 km patch of the subduction interface with maximum slip 5-6 m. In this region, the offshore Alpine Fault carries up to ~30 mm yr-1 of slip before terminating at Resolution Ridge near the southern end of the 2009 slip patch. The southernmost part of the Alpine Fault trace lies near the up-dip end of the 2009 slip patch and the fault probably exists only within the crust of the over-riding plate in this region, terminating at shallow depth where it meets the subduction interface. There is no evidence for rupture of the Alpine Fault during the 2009 event. However, Coulomb stress changes from the subduction earthquake have brought this section of the Alpine Fault closer to failure. In contrast to many subduction zones undergoing oblique subduction, where the slip in major earthquakes is partitioned into more-or-less pure thrust earthquakes on the subduction interface and strike-slip earthquakes in the backarc, this is a case where the majority of the subduction interface slip is not partitioned, with only a shallow convergence zone west of the strike-slip Alpine Fault undergoing contraction approximately normal to subduction zone strike. North of the 2009 earthquake region the Alpine Fault lies further east relative to the subduction interface and partitioning between strike-slip on the Alpine Fault and trench-normal thrusting on the subduction interface takes place in a more typical fashion. Our results provide the first clear demonstration of non-partitioned oblique slip between the Australian and Pacific plates offshore of southern New Zealand.
Beavan John
Denham M.
Denys Paul
Palmer Nick
Samsonov Sergey
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