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Multiple branching rupture of the 2009 Tonga-Samoa earthquake

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dc.contributor.author Fan, Wenyuan
dc.contributor.author Shearer, Peter M.
dc.contributor.author Chen, Ji
dc.contributor.author ..et.al
dc.date.accessioned 2021-12-01T03:52:30Z
dc.date.available 2021-12-01T03:52:30Z
dc.date.issued 2016-08
dc.identifier.citation Fan, W., P. M. Shearer, C. Ji, and D. Bassett (2016), Multiple branching rupture of the 2009 Tonga-Samoa earthquake, J. Geophys. Res. Solid Earth, 121, 5809–5827, doi:10.1002/2016JB012945 en_US
dc.identifier.uri ${sadil.baseUrl}/handle/123456789/903
dc.description Research article ; 19 p. en_US
dc.description.abstract Several source models have been proposed to explain the enigmatic 2009 Tonga-Samoa earthquake. The long-period data require a composite source model and can be fit with a normal-faulting subevent followed by one or more reverse-faulting subevents. The short-period data, in contrast, indicate a more compact rupture pattern around the epicenter. The lack of a unified source model reflects the complexity of the event. We analyze the spatiotemporal evolution of this earthquake with P wave back-projectionfromgloballydistributedstationsindifferentfrequencybands(lowfrequency:0.05–0.2Hz, high frequency: 0.2–2 Hz) and a multiple moment tensor inversion. The rupture propagation revealed by back-projection exhibits frequency-dependent behavior, with two branches of high-frequency-enriched bilateral rupture around the epicenter and a high-frequency-deficient rupture branch at the subduction interface. A composite source model with one Mw 8.0 normal-faulting earthquake east of the trench axis (seaward) followed by one Mw 8.1 reverse-faulting earthquake along the subduction interface west of the trench axis (landward) can explain the very long period data (200∼500 s). Combined with high-resolution swath bathymetry data, the back-projection images show that the azimuth of rupture branches east of the trench axis were controlled by the geometry of bending-related faults on the Pacific plate and that the rupture branch west of the trench axis may correlate with the along-strike fore-arc segmentation. The rupture along the subduction interface was triggered by the seaward rupture and a partially subducted normal fault may have played a key role in facilitating the triggering. The apparent normal-reverse faulting interactions pose a higher seismic risk to this region than their individual strands at the northernmostcorneroftheTongasubductionzone. en_US
dc.language.iso en en_US
dc.publisher Journal of Geophysical Research: Solid Earth en_US
dc.subject Tonga-Samoa earthquake en_US
dc.subject rupture of different fault segment en_US
dc.subject frequency dependent behaviour en_US
dc.title Multiple branching rupture of the 2009 Tonga-Samoa earthquake en_US
dc.type Article en_US


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