Spatial‐temporal patterns of seismic tremors in northern Cascadia

Kao, Honn; Shan, S.; Dragert, H.; Rogers, Garry C.; Cassidy, John F.; Wang, Kelin; James, Thomas S.; Ramachandran, K.

doi:10.1029/2005jb003727

Cited by 95 publications

(159 citation statements)

References 38 publications

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“…LFEs are only rarely identified in regions with tremor outside of Japan (e.g. Kao et al, 2006, Sweet et al, 2008. It is unclear if this difference represents a real variation in tremor activity or simply a limitation in the observation capabilities of networks outside of Japan.…”

Section: Fundamental Properties Of Tremormentioning

confidence: 96%

“…Within an individual ETS episode, highlysimilar bursts of tremor repeat many times, suggesting that tremor radiates from an individual location many times . From ETS episode to ETS episode, tremor also typically occurs in the same locations Kao et al, 2006), whereby much of the area where tremor occurs is the same from event to event. Ambient tremor occurring outside ETS events is typically found in these same locations as well.…”

Section: Fundamental Properties Of Tremormentioning

confidence: 99%

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Non-volcanic Tremor: A Window into the Roots of Fault Zones

Rubinstein

Shelly

Ellsworth

2009

New Frontiers in Integrated Solid Earth Sciences

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The recent discovery of non-volcanic tremor in Japan and the coincidence of tremor with slow-slip in Cascadia have made earth scientists reevaluate our models for the physical processes in subduction zones and on faults in general. Subduction zones have been studied very closely since the discovery of slow-slip and tremor. This has led to the discovery of a number of related phenomena including low frequency earthquakes and very low frequency earthquakes. All of these events fall into what some have called a new class of events that are governed under a different frictional regime than simple brittle failure. While this model is appealing to many, consensus as to exactly what process generates tremor has yet to be reached. Tremor and related events also provide a window into the deep roots of subduction zones, a poorly understood region that is largely devoid of seismicity. Given that such fundamental questions remain about non-volcanic tremor, slow-slip, and the region in which they occur, we expect that this will be a fruitful field for a long time to come.

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Section: Fundamental Properties Of Tremormentioning

confidence: 96%

Section: Fundamental Properties Of Tremormentioning

confidence: 99%

Non-volcanic Tremor: A Window into the Roots of Fault Zones

Rubinstein

Shelly

Ellsworth

2009

New Frontiers in Integrated Solid Earth Sciences

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“…Recently it is found that LF events take place constantly in the uppermost mantle under the non-volcanic areas in western Japan, possibly related to the dehydration reactions of the subducting Philippine Sea plate (e.g., Ide et al, 2007;Ito et al, 2007;Obara, 2009;Schwartz and Rokosky, 2007;. Such LF events are also found to occur in the forearc region of other subduction zones, such as Cascadia (Kao et al, 2006;Schwartz and Rokosky, 2007). It is generally considered that the LF events reflect the fluid and magmatic activities in the crust and uppermost mantle under a tectonically active region.…”

Section: Introductionmentioning

confidence: 96%

Low-frequency earthquakes and tomography in western Japan: Insight into fluid and magmatic activity

Zhao

Wei

Nishizono³

et al. 2011

Journal of Asian Earth Sciences

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“…In Cascadia, when the multibeam-backprojection method is applied to the array data (Ghosh et al, 2012), nearly continuous tremor activities were detected. The array-based results provide detailed spatiotemporal evolutions of tremor activities when compared with the network-based methods, such as the WECC method (e.g., Wech and Creager, 2008), the source-scanning algorithm (Kao et al, 2006), and the waveform-matching technique (Shelly et al, 2007a).…”

Section: Introductionmentioning

confidence: 99%

Detecting Deep Tectonic Tremor in Taiwan with a Dense Array

Sun

Peng

Lin

et al. 2015

Bulletin of the Seismological Society of America

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We perform a systematic detection of deep tectonic tremor beneath the southern Central Range in Taiwan using a dense, small-aperture seismic array. Deployed in February 2011, the array has been recording tectonic tremor nearly continuously for 134 days, including tremor triggered by the 2011 M w 9.0 Tohoku-Oki earthquake. We use broadband frequency-wavenumber beamforming and moving-window grid-search methods to compute array parameters for all continuous data and identify tremor as coherent nonimpulsive seismic signals with deep incidence angles. The obtained array parameters closely match with those of relocated local earthquakes and triggered tremor bursts located by the waveform envelope correlation and clustering (WECC) method, indicating the robustness of our array technique. During the 134-day study period, we detect tremor for 44 days, with a total duration of 1481 min, three to six times as long as the detection of tremor by the WECC method. We find a relative quiescence in ambient tremor activity for about 20 days following the 2011 Tohoku-Oki earthquake, suggesting that dynamic stresses from the distant mainshock triggered most tremor close to failure, resulting in a temporary lack of tremor activity. In some cases, we observe rapid tremor migration with a speed at the order of 40-50 km=hr that is similar to the speed of fast tremor migration along dip on narrow streaks in Japan and Cascadia. Our results suggest that dense array techniques are capable of capturing detailed spatiotemporal evolutions of tremor behaviors in southern Taiwan.

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Spatial‐temporal patterns of seismic tremors in northern Cascadia

Cited by 95 publications

References 38 publications

Non-volcanic Tremor: A Window into the Roots of Fault Zones

Non-volcanic Tremor: A Window into the Roots of Fault Zones

Low-frequency earthquakes and tomography in western Japan: Insight into fluid and magmatic activity

Detecting Deep Tectonic Tremor in Taiwan with a Dense Array

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