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Surface rupture of multiple crustal faults in the 2016 Mw 7.8 Kaikōura, New Zealand, earthquake

Litchfield, Nicola J., Villamor, Pilar, Dissen, Russ J. Van, Nicol, Andrew, Barnes, Philip M., A. Barrell, David J., Pettinga, Jarg R., Langridge, Robert M., Little, Timothy A., Mountjoy, Joshu J., Ries, William F., Rowland, Julie, Fenton, Clark, Stirling, Mark W., Kearse, Jesse, Berryman, Kelvin R., Cochran, Ursula A., Clark, Kate J., Hemphill-Haley, Mark, Khajavi, Narges, Jones, Katie E., Archibald, Garth, Upton, Phaedra, Asher, Cameron, Benson, Adrian, Cox, Simon C., Gasston, Caleb, Hale, Dan, Hall, Brendan, Hatem, Alexandra E., Heron, David W., Howarth, Jamie, Kane, Tim J., Lamarche, Geoffroy, Lawson, Steve, Lukovic, Biljana, McColl, Samuel T., Madugo, Christopher, Manousakis, John, Noble, Duncan, Pedley, Kate, Sauer, Katrina, Stahl, Timothy, Strong, Delia T., Townsend, Dougal B., Toy, Virginia, Williams, Jack, Woelz, Suzanne and Zinke, Robert 2018. Surface rupture of multiple crustal faults in the 2016 Mw 7.8 Kaikōura, New Zealand, earthquake. Bulletin of the Seismological Society of America 108 (3B) , pp. 1496-1520. 10.1785/0120170300

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Abstract

Multiple (>20 >20 ) crustal faults ruptured to the ground surface and seafloor in the 14 November 2016 M w Mw 7.8 Kaikōura earthquake, and many have been documented in detail, providing an opportunity to understand the factors controlling multifault ruptures, including the role of the subduction interface. We present a summary of the surface ruptures, as well as previous knowledge including paleoseismic data, and use these data and a 3D geological model to calculate cumulative geological moment magnitudes (M G w MwG ) and seismic moments for comparison with those from geophysical datasets. The earthquake ruptured faults with a wide range of orientations, sense of movement, slip rates, and recurrence intervals, and crossed a tectonic domain boundary, the Hope fault. The maximum net surface displacement was ∼12  m ∼12  m on the Kekerengu and the Papatea faults, and average displacements for the major faults were 0.7–1.5 m south of the Hope fault, and 5.5–6.4 m to the north. M G w MwG using two different methods are M G w MwG 7.7 +0.3 −0.2 7.7−0.2+0.3 and the seismic moment is 33%–67% of geophysical datasets. However, these are minimum values and a best estimate M G w MwG incorporating probable larger slip at depth, a 20 km seismogenic depth, and likely listric geometry is M G w MwG 7.8±0.2 7.8±0.2 , suggests ≤32% ≤32% of the moment may be attributed to slip on the subduction interface and/or a midcrustal detachment. Likely factors contributing to multifault rupture in the Kaikōura earthquake include (1) the presence of the subduction interface, (2) physical linkages between faults, (3) rupture of geologically immature faults in the south, and (4) inherited geological structure. The estimated recurrence interval for the Kaikōura earthquake is ≥5,000–10,000  yrs ≥5,000–10,000  yrs , and so it is a relatively rare event. Nevertheless, these findings support the need for continued advances in seismic hazard modeling to ensure that they incorporate multifault ruptures that cross tectonic domain boundaries.

Item Type: Article
Date Type: Publication
Status: Published
Schools: Earth and Ocean Sciences
Publisher: Seismological Society of America
ISSN: 0037-1106
Date of First Compliant Deposit: 12 September 2018
Date of Acceptance: 2 May 2018
Last Modified: 29 Jun 2019 15:31
URI: http://orca.cf.ac.uk/id/eprint/114758

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