Spatiotemporal Evolution of Recurrent Slow Slip Events Along the Southern Ryukyu Subduction Zone, Japan, From 2010 to 2013

Kano, Masayuki; Fukuda, Jun’ichi; Miyazaki, S.; Nakamura, Mamoru

doi:10.1029/2018jb016072

Cited by 24 publications

(26 citation statements)

References 66 publications

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“…We considered case examples of well-characterized repeating SSEs in Cascadia 33 , Hikurangi 6 (New Zealand), Ryukyu 34 (Japan) and the Guerrero gap 35 (Mexico) (Fig. 4).…”

Section: Comparison To Natural Slow Slip Eventsmentioning

confidence: 99%

“…In the other examples we selected representative time series at particular GPS stations. We rescaled each time series for slip on the megathrust on the basis of published fault slip inversions 6,33,34,35 (second y-axis), assuming that repeated SSEs result from slip on the same segment and that GPS displacement varies linearly with fault slip.…”

Section: Slow-slip Datamentioning

confidence: 99%

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Slip-rate-dependent friction as a universal mechanism for slow slip events

Saffer

Marone

et al. 2020

Nat. Geosci.

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A growing body of observations worldwide has documented fault slip transients that radiate little or no seismic energy. The mechanisms that govern these slow slip events and their wide range of depths, slip rates, durations, stress drops, and recurrence intervals remain poorly known. Here we show that slow slip can be explained by a transition from rate-weakening frictional sliding at low slip rates toward rate-neutral or rate-strengthening behavior at higher slip rates, as has been observed experimentally. We use numerical simulations to illustrate that this rate-dependent transition quantitatively explains experimental data for natural fault rocks representative of materials in the source regions of slow slip events. With a standard constant-parameter rate-and-state friction law, slow slip events arise only near the threshold for slip instability. The inclusion of velocity dependent friction parameters significantly broadens the range of conditions for slow slip

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“…We considered case examples of well-characterized repeating SSEs in Cascadia 33 , Hikurangi 6 (New Zealand), Ryukyu 34 (Japan) and the Guerrero gap 35 (Mexico) (Fig. 4).…”

Section: Comparison To Natural Slow Slip Eventsmentioning

confidence: 99%

Section: Slow-slip Datamentioning

confidence: 99%

Slip-rate-dependent friction as a universal mechanism for slow slip events

Saffer

Marone

et al. 2020

Nat. Geosci.

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“…To overcome these difficulties, we use a modified version of the NIF (Fukuda et al, 2008) to examine the spatiotemporal evolution of slow slip. The modified NIF enables us to recover the slip evolution accurately, including initiation and propagation of slip (Fukuda et al, 2004(Fukuda et al, , 2008Fukuda, 2018;Kano et al, 2018). Furthermore, the modified NIF is capable of extracting small slow slip signals from noisy GNSS time series (Fukuda et al, 2004(Fukuda et al, , 2014.…”

Section: Introductionmentioning

confidence: 99%

Spatiotemporal Evolution of Long‐ and Short‐Term Slow Slip Events in the Tokai Region, Central Japan, Estimated From a Very Dense GNSS Network During 2013–2016

et al. 2019

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We analyzed Global Navigation Satellite System (GNSS) data from 1 January 2008 to 31 January 2016 for the Tokai region of the Nankai subduction zone, in order to study long‐ and short‐term slow slip events (SSEs) on the subduction interface. The dataset included our new temporary stations to obtain high resolution observations with station spacing of about 5 km. Long‐ and short‐term SSEs have been reported in the Tokai region, over the past two decades. It is difficult to directly compare those SSEs because long‐term SSEs were observed by GNSS, while short‐term SSEs were mainly observed by tiltmeters and strainmeters. We applied a time‐dependent inversion with improved temporal resolution to GNSS data and successfully obtained the spatiotemporal evolution of long‐ and short‐term SSEs. Our results show the very slow and stable slip of a long‐term SSE with Mw 6.6, along with several episodes of accelerated slip associated with short‐term SSEs (Mw 6.0–6.1). Our results showed the details of the migrating slip patterns and slip rates for the short‐term SSEs and possible relation with low frequency tremor (LFT). LFT is more associated with smaller magnitude short‐term SSEs rather than the larger long‐term SSEs. However, the maximum daily slip rates for short‐term SSEs are an order of magnitude larger than those for the long‐term SSEs. This suggests an explanation that the LFT may be directly related to the loading of the plate interface by the short‐term SSEs.

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“…The large slip areas of SSEs exhibit an average slip rate of ~ 13 cm/yr. These are comparable to the relative plate motion, indicating that the main slip area is entirely coupled during the inter-SSE period and the SSEs release most of the accumulated strain (Kano et al 2018b). On the shallower side of the SSE region at depths of ~ 10 to 20 km, the seismic signatures of slow fault slips with dominant frequencies of a few Hz and a few tens of seconds, known as lowfrequency earthquakes (LFEs) and very low-frequency earthquakes (VLFEs), have often been identi ed (Ando et al 2012; Nakamura and Sunagawa 2015; Arai et al 2016;Nakamura 2017).…”

Section: Introductionmentioning

confidence: 67%

“…1a) (Heki and Kataoka 2008;Nishimura 2014;Tu and Heki 2017). These SSEs occur approximately every six months with a moment magnitude (Mw) of 6.6-6.7 (Kano et al 2018b). The large slip areas of SSEs exhibit an average slip rate of ~ 13 cm/yr.…”

Section: Introductionmentioning

confidence: 99%

Potential of Megathrust Earthquakes Along the Southern Ryukyu Trench Inferred from GNSS Data

Kano

Ikeuchi

Nishimura

et al. 2021

Preprint

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The southern part of the Ryukyu subduction zone has recorded tsunami events with a recurrence interval of several hundred years. Although their source is controversial, one model suggested that the last 1771 Yaeyama tsunami was caused by a shallow megathrust earthquake with a magnitude of 8. However, the current knowledge on interplate coupling based on recent geodetic data is limited. This study analyzed a time series of Global Navigation Satellite System data from January 2010 to February 2021, including newly installed stations by Kyoto and Kyushu Universities to obtain the distance changes between stations and vertical secular velocities. The distance changes ranged 2.4 mm/yr in contraction and 4.7 mm/yr in extension, and the vertical velocities exhibited no clear uplift or subsidence of -2.4 to 1.1 mm/yr. The back slip inversion results indicated the slip deficit of 16–54 mm/yr in the south of the Yaeyama Islands. The large slip deficit area is complementarily intervened between the shallower source area of low-frequency earthquakes and the deeper slow slip region, suggesting the spatial heterogeneity of frictional properties along the plate interface. If the large slip deficit area accumulates stress in the same rate since the last 1771 earthquake, it could result in a megathrust event of at least greater than a moment magnitude of 7.7. Because the limited onshore data cannot resolve the slip deficit on the shallow plate interface, seafloor geodetic observations are essential to clarify the detailed spatial distribution of slip deficit and discuss its earthquake and tsunami potential.

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Spatiotemporal Evolution of Recurrent Slow Slip Events Along the Southern Ryukyu Subduction Zone, Japan, From 2010 to 2013

Cited by 24 publications

References 66 publications

Slip-rate-dependent friction as a universal mechanism for slow slip events

Slip-rate-dependent friction as a universal mechanism for slow slip events

Spatiotemporal Evolution of Long‐ and Short‐Term Slow Slip Events in the Tokai Region, Central Japan, Estimated From a Very Dense GNSS Network During 2013–2016

Potential of Megathrust Earthquakes Along the Southern Ryukyu Trench Inferred from GNSS Data

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