2017
DOI: 10.1002/2017gl074573
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Rupture‐Depth‐Varying Seismicity Patterns for Major and Great (Mw ≥ 7.0) Megathrust Earthquakes

Abstract: Large earthquakes on subduction zone plate boundary megathrusts result from intervals of strain accumulation and release. The mechanism diversity and spatial distribution of moderate‐size aftershocks is influenced by the mainshock rupture depth extent. Mainshocks that rupture across the shallow megathrust to near the trench have greater intraplate aftershock faulting diversity than events with rupture confined to deeper portions of the megathrust. Diversity of intraplate aftershock faulting also increases as t… Show more

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Cited by 15 publications
(17 citation statements)
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“…Normal faulting aftershocks have been observed after many large megathrust ruptures (Fig. 18), particularly those that rupture very shallowly near a trench (e.g., Kanamori, 1971;Christensen and Ruff, 1988;Lin and Stein, 2004;Ammon et al, 2008;Lay et al, 2009;Asano et al, 2011;El Hariri and Bilek, 2011;Bilek et al, 2011;Ide et al, 2011;Kato et al, 2011;Lange et al, 2012;Rietbrock et al, 2012;Yue et al, 2014b;Wetzler et al, 2017;Sladen and Trevisan, 2018). Some of these intraplate extensional events are within the outer rise, seaward of the trench, or on plate-bending related faults below the megathrusts, while others are found within the upper plate adjacent to the zone of high slip (e.g., Farías et al, 2011;Hicks and Rietbrock, 2015).…”
Section: Aftershock Distributionmentioning
confidence: 98%
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“…Normal faulting aftershocks have been observed after many large megathrust ruptures (Fig. 18), particularly those that rupture very shallowly near a trench (e.g., Kanamori, 1971;Christensen and Ruff, 1988;Lin and Stein, 2004;Ammon et al, 2008;Lay et al, 2009;Asano et al, 2011;El Hariri and Bilek, 2011;Bilek et al, 2011;Ide et al, 2011;Kato et al, 2011;Lange et al, 2012;Rietbrock et al, 2012;Yue et al, 2014b;Wetzler et al, 2017;Sladen and Trevisan, 2018). Some of these intraplate extensional events are within the outer rise, seaward of the trench, or on plate-bending related faults below the megathrusts, while others are found within the upper plate adjacent to the zone of high slip (e.g., Farías et al, 2011;Hicks and Rietbrock, 2015).…”
Section: Aftershock Distributionmentioning
confidence: 98%
“…We set M c = 5.2 for both populations, based on prior estimates of the GCMT catalog completeness (Ekström et al, 2012;Wetzler et al, 2017). This choice appears to be adequate for all of the cases shown here, and use of a higher M c value did not change the relative values significantly.…”
Section: B Valuesmentioning
confidence: 99%
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“…The two new events involve initially deep ruptures (the 2016 Solomon Islands event likely begins as an intraplate rupture) that propagate or trigger updip, and while the finite‐fault models do suggest that some slip may extend to near the trench, the resolution is limited and the amount of shallow slip varies among the finite‐fault models. The 2016 Solomon Islands event produced outer rise normal faulting aftershocks along part of the rupture, a common indicator of shallow coseismic slip (e.g., Sladen & Trevisan, ; Wetzler et al, ), while the 2015 Papua had shallow thrust‐faulting aftershocks all the way to the trench (Wetzler et al, ). Such events, with relatively deep moment tensor centroid depths, present particular difficulties for tsunami warning.…”
Section: Rms Coda Measures For Interplate Thrust Eventsmentioning
confidence: 99%
“…Many major earthquakes/slip deficits associated with occasional thrust faulting have been observed in the subduction zones no deeper than 30-50 km Tape et al, 2018). In shallow megathrust interface of subduction zones, they yield to typical intervals of strain accumulation and release driven by plate converge and are capable of >Mw 9 destructive ruptures (e.g., Wetzler et al, 2017;Hayes et al, 2018). Numerous studies related to seismic gap, earthquake recurrence period, and earthquake nucleation process have been carried out for fault slip behavior in these subduction regions (e.g., Freymueller & Beavan, 1999;Li & Freymueller, 2018;Tape et al, 2018).…”
Section: Introductionmentioning
confidence: 99%