Geodetic imaging of plate motions, slip rates, and partitioning of deformation in Japan

Loveless, John P.; Meade, Brendan J.

doi:10.1029/2008jb006248

Cited by 292 publications

(347 citation statements)

References 155 publications

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“…In addition, the length of the rupture area with a slip >10 m is about 240 km, extending from 39.6 to 36.97°N and mostly located at depths shallower than 40 km. The derived slip concentration is generally consistent with the highly "coupled" area inferred from inter-seismic terrestrial observations [17,18]. However, it seems that the highly coupled area is just deeper than the area of concentrated slip and closer to the coastline of northeastern Japan.…”

Section: Resultssupporting

confidence: 72%

Static slip model of the M w 9.0 Tohoku (Japan) earthquake: Results from joint inversion of terrestrial GPS data and seafloor GPS/acoustic data

2012

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Based on co-seismic displacements recorded by terrestrial GPS stations and seafloor GPS/acoustic stations, the static slip model of the 2011 M w 9.0 Tohoku earthquake was determined by inverting the data using a layered earth model. According to a priori information, the rupture surface was modeled with a geometry that is close to the actual rupture, in which the fault dip angle increases with depth and the fault strike varies with the trend of the trench. As shown by the results inferred from the joint inversion, the "geodetic" moment is 3.68 × 10 22 N m, corresponding to M w 9.01, and the maximum slip is positioned at a depth of 13.5 km with a slip magnitude of 45.8 m. Rupture asperities with slip exceeding 10 m are mainly distributed from 39.6 to 36.97°N, over a length of almost 240 km along the trench. The slip was mostly concentrated at depths shallower than 40 km, up-dip of the hypocenter. "Checkerboard" tests reveal that a joint inversion of multiple datasets can resolve the slip distribution better than an inversion with terrestrial GPS data only-especially when aiming to resolve slip at shallow depths. Thus, the joint inversion results obtained by this work may provide a more reliable slip model than the results of other studies that are only derived from terrestrial GPS data or seismic waveform data. M w 9.0 Tohoku earthquake, static slip model, terrestrial GPS data, seafloor GPS/acoustic data, curved rupture surface Citation:Diao F Q, Xiong X, Zheng Y. Static slip model of the M w 9.0 Tohoku (Japan) earthquake: Results from joint inversion of terrestrial GPS data and seafloor GPS/acoustic data.

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Section: Resultssupporting

confidence: 72%

Static slip model of the M w 9.0 Tohoku (Japan) earthquake: Results from joint inversion of terrestrial GPS data and seafloor GPS/acoustic data

2012

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“…In addition, stationary westward trends were obtained at all stations for the seismic quiescence period before 2002 (red lines in Fig. 1b), and we assumed that these represent regular deformations that were due to slip deficit, as in all previous studies [13][14][15][16] . We conducted an additional analysis of the time series; the results shown in Supplementary Note 1 and Supplementary Fig.…”

Section: Resultsmentioning

confidence: 99%

“…We use a data set from the dense Global Positioning System (GPS) network GEONET, operated by the Geospatial Information Authority of Japan (GSI). In previous studies [13][14][15][16] , the slip deficit rate in the JTSZ was imaged using partial data sets covering the period of seismic quiescence before the 2003 Tokachi-oki earthquake. In this study, we use the whole data set from 21 March 1996 to 8 March 2011 (one day before the foreshock).…”

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confidence: 99%

A very long-term transient event preceding the 2011 Tohoku earthquake

Yokota

Koketsu

2015

Nat Commun

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“…inter-plate coupling is relatively high (Hashimoto et al, 2009;Loveless and Meade, 2010) except the boundary between Segments 3 and 4 (Ye et al, 2012), and it is difficult to attain the landward velocity anomaly by simply increasing the inter-plate friction. We hence hypothesize that the decoupling at Segments 2 and 4 temporarily accelerated the subduction of the Pacific Plate over a multi-segment scale in NE Japan and enhanced coupling in Segments 1 and 3.…”

Section: Enhanced Coupling In the Nemuro-oki And Aomori-oki Segmentsmentioning

confidence: 99%

Accelerated pacific plate subduction following interplate thrust earthquakes at the Japan trench

Heki

Mitsui

2013

Earth and Planetary Science Letters

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Interplate thrust earthquakes are usually followed by afterslips, and they let the fore-arc move slowly trenchward. However, we do not know if the subducting oceanic plate is accelerated landward after such earthquakes. The westward velocity of Global Positioning System (GPS) stations in NE Japan show gradient decreasing from east to west reflecting the E-W contractional strain built up by the inter-plate coupling. Here we show that such coupling significantly enhanced (~1.5 times) after the 2003 Tokachi-Oki earthquake (M w 8.0), Hokkaido, in the segments adjacent to the ruptured fault. The coupling seems to be further enhanced (~3 times) after the 2011 Tohoku-Oki earthquake (M w 9.0). It is unlikely that interplate friction suddenly increased over such a large region, and relatively strong pre-2003 coupling there would not allow such enhancements even if full coupling is attained. Hence they are attributable to the temporary acceleration of the Pacific Plate subduction. We propose a simple 2-dimensional model in which down-dip acceleration of the slab let the force balance rapidly recover promoted by a thin low-viscosity layer on the slab surface. The accelerated subduction would account for temporary activations of regional interplate seismicity after megathrust earthquakes.

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Geodetic imaging of plate motions, slip rates, and partitioning of deformation in Japan

Cited by 292 publications

References 155 publications

Static slip model of the M w 9.0 Tohoku (Japan) earthquake: Results from joint inversion of terrestrial GPS data and seafloor GPS/acoustic data

Static slip model of the M w 9.0 Tohoku (Japan) earthquake: Results from joint inversion of terrestrial GPS data and seafloor GPS/acoustic data

A very long-term transient event preceding the 2011 Tohoku earthquake

Accelerated pacific plate subduction following interplate thrust earthquakes at the Japan trench

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