Apparent stress, fault maturity and seismic hazard for normal-fault earthquakes at subduction zones

Choy, George L.; Kirby, Stephen H.

doi:10.1111/j.1365-246x.2004.02449.x

Cited by 88 publications

(74 citation statements)

References 49 publications

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“…At this locale the failed Cocos ridge subducts [e.g., Protti et al, 1994], potentially increasing local high-frequency attenuation. Alternatively, because the rate of convergence gradually increases to the southeast from 70 to approximately 100 mm yr −1 [DeMets, 2001], there may be a modest increase in fault maturity due to increased cumulative slip, thus allowing for reduced t a [Choy and Kirby, 2004;Schorlemmer et al, 2005;Choy and Boatwright, 2009].…”

Section: Regional Resultsmentioning

confidence: 99%

“…The deficiency in radiated seismic energy in thrust events is potentially due to the preferential occurrence of these events on mature subduction megathrusts [Choy and Kirby, 2004], while increased relative radiated energy in strike-slip events likely occur because of their preferential occurrence on immature continental and oceanic transforms.…”

Section: Discussionmentioning

confidence: 99%

“…Because events with the same M 0 can have considerable differences in their radiated energy, damage evaluations based solely on M 0 may inaccurately characterize the true damage caused by an earthquake. This is particularly the case for both high stress earthquakes that have disproportionately energetic shaking given their M 0 [Choy and Kirby, 2004], and tsunami earthquakes (TsE hereafter), which can be energetically deficient by more than a factor of ten relative to global averages of E/M 0 , due to their slow rupture [Newman and Okal, 1998]. To better characterize the global distribution of earthquake energy release, we develop a catalog of recent earthquake energies and their energy-to-moment ratio using available broadband seismic recordings at teleseismic distances for events of M 0 ≥ 10 19 Nm (M W ≥ 6.7), and include earthquakes up to 20 times larger in moment release than in previous systematic studies.…”

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Global evaluation of large earthquake energy from 1997 through mid-2010

Convers

Newman

2011

J. Geophys. Res.

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[1] We develop an updated radiated seismic energy E catalog of global earthquakes with seismic moment M 0 ≥ 10 19 Nm (M W ≥ 6.7) from 1997 through mid-2010, recording 342 events using 17849 seismograms. Station-specific corrections and event duration-dependent total P wave group calculations allow for improved E determinations for large-and long-duration earthquakes. We find the global mean energy-to-moment ratio = log 10 (E/M 0 ) = −4.59 ± 0.36. Robust deviations are found for thrust ( T = −4.74), strike-slip ( SS = −4.44), and normal ( N = −4.51) faulting events. For two regions with recent energy deficient tsunami earthquakes (TsE), we examine all large thrust earthquakes with M 0 ≥ 5 × 10 17 Nm (M W ≥ 5.7), to identify a regional characterization in their relative radiated energy-to-moment ratio. While thrust events along Java, Indonesia, the site of two TsE events in 1994 and 2006, are comparable ( T−JV = −4.91) to the global thrust average, events along the Middle America Trench (MAT), the site of the 1992 Nicaragua TsE, are consistently deficient ( T−MAT = −5.15). Along the MAT, a trend of increased deficiency in radiated energy to the southeast occurs in the direction of more rapid plate convergence. Global thrust mechanisms become increasingly deficient in radiated seismic energy at shallow depths, with TsE events representing the shallowest and most energetically deficient end-member of the events in the study. Results suggest thrust events are highly variable but tend to increase in apparent stress from about 15 kPa near the surface to 2 MPa near 70 km depth.

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Section: Regional Resultsmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Global evaluation of large earthquake energy from 1997 through mid-2010

Convers

Newman

2011

J. Geophys. Res.

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“…The different source duration may be associated with the different fault maturity between the MNPE and WOFE. The difference in E R and V of the mainshocks can be related to the fault maturity model [Choy and Kirby, 2004;Choy et al, 2006]. An earthquake rupturing an immature fault radiates greater energy per unit of moment than an earthquake rupturing a mature fault.…”

Section: Discussionmentioning

confidence: 99%

Seismic scaling relations and aftershock activity from the sequences of the 2004 mid Niigata and the 2005 west off Fukuoka earthquakes (M_W 6.6) in Japan

Tajima¹,

Tajima²

2007

J. Geophys. Res.

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[1] We investigate seismic scaling relations and seismic activity using two Japanese earthquake sequences, the 2004 mid Niigata prefecture earthquake (MNPE) and the 2005 west off Fukuoka prefecture earthquake (WOFE) sequences. Although the mainshocks of the two sequences have the same M W of 6.6, the aftershock activities are different from each other in term of moment release. The MNPE produced a large number of aftershocks including six events with M W ! 5.5 over a period of about two weeks. On the other hand, the WOFE sequence did not produce aftershocks that exceeded M W 5.5. In the scaling relationship of seismic moment (M 0 ) versus corner frequency ( f c ) obtained from the MNPE sequence, the f c 's tend to decrease with decreasing M 0 between M W 3.5 and 6.6 and the best fit line determined in a least squares sense is M 0 / f c À3.41 . In the WOFE sequence, the best fit line is M 0 / f c À3.06 in the same M W range. The f c range of small aftershocks is lower in the MNPE sequence than in the WOFE sequence. Moreover, the M 0 À f c relations for small events (3.5 M W 4.0) in the MNPE sequence are different between the events on the main faults (M 0 / f c À3.53 ) and the off-main fault events (M 0 / f c À4.44 ). These results suggest that there is difference (or variation) in the scaling relation even in the same M W range, probably reflecting different tectonic or seismogenic conditions.

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“…Prior to that, seismic activity is mainly bounded at the shallow layers within 10 km, but spreads in a wider range from 5 to 30 km afterwards in vertical direction. Previous studies on the subduction seismicity also reported the existence of the vertical delineation of aftershocks (a) (b) that is located at the top of the Wadati-Benioff zone or passes through the hypocenter of the main event (e.g., Hansen and Ratchkovsi 2001;Choy and Kirby 2004). They inferred that intraslab earthquakes could have ruptured into the upper mantle of the subducting lithosphere or, alternatively, that it could stress the upper mantle sufficiently to induce secondary activities.…”

Section: Seismic Parameter Analysis and Resultsmentioning

confidence: 99%

Earthquake Swarm Recorded by an Ocean Bottom Seismic Array in Southwest Offshore of Taiwan in October, 2005

Chang

Hsu²,

Lee

2008

Terr. Atmos. Ocean. Sci.

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We conduct a detailed analysis of the seismic records for 406 marine earthquakes in SW offshore of Taiwan recorded by a small OBS array during 7 -12 October 2005. The spatial distribution of the events, which included a complete main shock-aftershock sequence, show concentration in a vertical chain reaching 40 km in depth and that the deeper events slightly turns to the NE toward the Taiwan island. We use these recorded data to construct a 1-D layered velocity model for the local lithosphere. The model puts the Moho at around 13 km in depth and plate seismogenic thickness at about 40 km for the studied area. Our observations reveal that the local seismogenic structure is consistent with the character of the oceanic-origin crust and a non-subducting related mechanism. We also examine the polarizations of P-, S-wave first arrivals and P-to-SV ratios in the waveform to obtain focal mechanism solutions for a total of 26 events. However, their solutions particularly show a non-unique deforming comportment for the strain releases, implying a strain rebound corresponding to the back-and-forth motion and also affected by the complexity of the pre-existing structure in the region.

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Apparent stress, fault maturity and seismic hazard for normal-fault earthquakes at subduction zones

Cited by 88 publications

References 49 publications

Global evaluation of large earthquake energy from 1997 through mid-2010

Global evaluation of large earthquake energy from 1997 through mid-2010

Seismic scaling relations and aftershock activity from the sequences of the 2004 mid Niigata and the 2005 west off Fukuoka earthquakes (M_W 6.6) in Japan

Earthquake Swarm Recorded by an Ocean Bottom Seismic Array in Southwest Offshore of Taiwan in October, 2005

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Apparent stress, fault maturity and seismic hazard for normal-fault earthquakes at subduction zones

Cited by 88 publications

References 49 publications

Global evaluation of large earthquake energy from 1997 through mid-2010

Global evaluation of large earthquake energy from 1997 through mid-2010

Seismic scaling relations and aftershock activity from the sequences of the 2004 mid Niigata and the 2005 west off Fukuoka earthquakes (MW 6.6) in Japan

Earthquake Swarm Recorded by an Ocean Bottom Seismic Array in Southwest Offshore of Taiwan in October, 2005

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Product

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Seismic scaling relations and aftershock activity from the sequences of the 2004 mid Niigata and the 2005 west off Fukuoka earthquakes (M_W 6.6) in Japan