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dc.creatorFrançois-Holden, Caroline
dc.creatorBannister, Stephen
dc.creatorBeavan, John
dc.creatorCousins, Jim
dc.creatorField, Bryan
dc.creatorMcCaffrey, Rob
dc.creatorMcVerry, Graeme
dc.creatorReyners, Martin
dc.creatorRistau, John
dc.creatorSamsonov, Sergey
dc.creatorWallace, Laura
dc.date2008-12-31
dc.identifierhttps://bulletin.nzsee.org.nz/index.php/bnzsee/article/view/322
dc.identifier10.5459/bnzsee.41.4.266-277
dc.descriptionGisborne city experienced recorded peak ground accelerations exceeding 0.25g for the third time since 1966 in the magnitude Mw 6.6 earthquake at 075516 UT (8:55 pm local time) on 20 December 2007. The earthquake was at a hypocentral distance of 64 km from Gisborne at a depth of 40 km, well within the mantle of the subducted slab of the Pacific plate as it dips beneath the North Island of New Zealand. At this location the plate interface is about 10-15 km deep. The main event was followed by sparse aftershocks consistent with a rupture of the subducted plate, with the largest aftershock of magnitude 4.6 occurring on December 22nd. The GeoNet website received 3,257 felt reports, with a strongest intensity of MM8 (heavily damaging) assigned to the main shock. The 122 strong motion records of this event show a clear regional directional variation in the wave propagation, as well as a distinct 2 Hz peak widely observed throughout the country. At a local scale, three sites in the Gisborne region recorded accelerations around 0.2g. Recordings in Gisborne city also revealed a predominant displacement direction, parallel to the main street where most of the damage occurred. Source studies from moment tensor solution, aftershock relocations, GPS and strong motion data showed that the earthquake occurred within the subducted plate on a 45 degree eastward dipping fault plane. The mainshock rupture area is about 10 km2 reaching a maximum slip of 2.6 m. The computed high stress drop value of 17 MPa is as expected for an intraslab event and consistent with observations of very energetic seismic waves as well as heavy structural damage. GPS data recorded by continuous GPS instruments have also shown that slow slip occurred for about three weeks after the main shock. The slow slip was triggered on the subduction interface, rather than on the same fault plane as the aftershocks. This is the first clear-cut case worldwide of triggered slow slip, although three non-triggered slow-slip events have occurred in the same region since 2002.en-US
dc.formatapplication/pdf
dc.languageeng
dc.publisherNew Zealand Society for Earthquake Engineeringen-US
dc.relationhttps://bulletin.nzsee.org.nz/index.php/bnzsee/article/view/322/308
dc.rightsCopyright (c) 2008 Caroline François-Holden, Stephen Bannister, John Beavan, Jim Cousins, Bryan Field, Rob McCaffrey, Graeme McVerry, Martin Reyners, John Ristau, Sergey Samsonov, Laura Wallaceen-US
dc.rightshttps://creativecommons.org/licenses/by/4.0en-US
dc.sourceBulletin of the New Zealand Society for Earthquake Engineering; Vol 41 No 4 (2008); 266-277en-US
dc.source2324-1543
dc.source1174-9857
dc.titleThe Mw 6.6 Gisborne earthquake of 2007en-US
dc.typeinfo:eu-repo/semantics/article
dc.typeinfo:eu-repo/semantics/publishedVersion
dc.typeArticleen-US


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