Seismic evidence for a metastable olivine wedge in the subducting Pacific slab under Japan Sea

Guoming Jiang; Dapeng Zhao; Guibin Zhang

doi:10.1016/j.epsl.2008.03.037

Seismic evidence for a metastable olivine wedge in the subducting Pacific slab under Japan Sea

Guoming Jiang, Dapeng Zhao, Guibin Zhang

SCI - Research Center for Prediction of Earthquakes and Volcanic Eruptions (RCPEVE)

Research output: Contribution to journal › Article › peer-review

48 Citations (Scopus)

Abstract

We apply a forward-modeling approach to high-quality arrival time data from 23 deep earthquakes greater than 400 km depth to investigate the detailed structure of the subducting Pacific slab beneath the Japan Sea. Our results show that a finger-like anomaly exists within the subducting Pacific slab below 400 km depth, which has a P-wave velocity 5% lower than the surrounding slab velocity (or 3% lower than that of the normal mantle), suggesting the existence of a metastable olivine wedge (MOW) in the slab. The MOW top and bottom depths are 400 and 560 km, respectively. The MOW is estimated to be about 50 km wide at 400 km depth and close to the slab upper boundary. At 560 km depth the MOW is located at about 25 km below the slab upper boundary. Most of the deep earthquakes are located in the MOW. Our results favor transformational faulting as the mechanism for deep earthquakes.

Original language	English
Pages (from-to)	300-307
Number of pages	8
Journal	Earth and Planetary Science Letters
Volume	270
Issue number	3-4
DOIs	https://doi.org/10.1016/j.epsl.2008.03.037
Publication status	Published - 2008 Jun 30

Keywords

deep earthquakes
forward modeling
metastable olivine wedge
Pacific slab
transformational faulting

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10.1016/j.epsl.2008.03.037

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title = "Seismic evidence for a metastable olivine wedge in the subducting Pacific slab under Japan Sea",

abstract = "We apply a forward-modeling approach to high-quality arrival time data from 23 deep earthquakes greater than 400 km depth to investigate the detailed structure of the subducting Pacific slab beneath the Japan Sea. Our results show that a finger-like anomaly exists within the subducting Pacific slab below 400 km depth, which has a P-wave velocity 5% lower than the surrounding slab velocity (or 3% lower than that of the normal mantle), suggesting the existence of a metastable olivine wedge (MOW) in the slab. The MOW top and bottom depths are 400 and 560 km, respectively. The MOW is estimated to be about 50 km wide at 400 km depth and close to the slab upper boundary. At 560 km depth the MOW is located at about 25 km below the slab upper boundary. Most of the deep earthquakes are located in the MOW. Our results favor transformational faulting as the mechanism for deep earthquakes.",

keywords = "deep earthquakes, forward modeling, metastable olivine wedge, Pacific slab, transformational faulting",

author = "Guoming Jiang and Dapeng Zhao and Guibin Zhang",

note = "Funding Information: We thank the data centers of the Hi-net, JMA and Japan university seismic networks for providing the data used in this study. We are grateful to Y. Ohta and A. Yamada for their help in computer facilities and thoughtful discussions. We thank Prof. G.D. Price and an anonymous reviewer for providing constructive comments and suggestions that improved the manuscript. This work was partially supported by a research grant (Kiban-A 17204037) to D. Zhao from the Japanese Ministry of Education and Science. All the figures are made by using GMT ( Wessel and Smith, 1998 ).",

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doi = "10.1016/j.epsl.2008.03.037",

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AU - Jiang, Guoming

AU - Zhao, Dapeng

AU - Zhang, Guibin

N1 - Funding Information: We thank the data centers of the Hi-net, JMA and Japan university seismic networks for providing the data used in this study. We are grateful to Y. Ohta and A. Yamada for their help in computer facilities and thoughtful discussions. We thank Prof. G.D. Price and an anonymous reviewer for providing constructive comments and suggestions that improved the manuscript. This work was partially supported by a research grant (Kiban-A 17204037) to D. Zhao from the Japanese Ministry of Education and Science. All the figures are made by using GMT ( Wessel and Smith, 1998 ).

PY - 2008/6/30

Y1 - 2008/6/30

N2 - We apply a forward-modeling approach to high-quality arrival time data from 23 deep earthquakes greater than 400 km depth to investigate the detailed structure of the subducting Pacific slab beneath the Japan Sea. Our results show that a finger-like anomaly exists within the subducting Pacific slab below 400 km depth, which has a P-wave velocity 5% lower than the surrounding slab velocity (or 3% lower than that of the normal mantle), suggesting the existence of a metastable olivine wedge (MOW) in the slab. The MOW top and bottom depths are 400 and 560 km, respectively. The MOW is estimated to be about 50 km wide at 400 km depth and close to the slab upper boundary. At 560 km depth the MOW is located at about 25 km below the slab upper boundary. Most of the deep earthquakes are located in the MOW. Our results favor transformational faulting as the mechanism for deep earthquakes.

AB - We apply a forward-modeling approach to high-quality arrival time data from 23 deep earthquakes greater than 400 km depth to investigate the detailed structure of the subducting Pacific slab beneath the Japan Sea. Our results show that a finger-like anomaly exists within the subducting Pacific slab below 400 km depth, which has a P-wave velocity 5% lower than the surrounding slab velocity (or 3% lower than that of the normal mantle), suggesting the existence of a metastable olivine wedge (MOW) in the slab. The MOW top and bottom depths are 400 and 560 km, respectively. The MOW is estimated to be about 50 km wide at 400 km depth and close to the slab upper boundary. At 560 km depth the MOW is located at about 25 km below the slab upper boundary. Most of the deep earthquakes are located in the MOW. Our results favor transformational faulting as the mechanism for deep earthquakes.

KW - deep earthquakes

KW - forward modeling

KW - metastable olivine wedge

KW - Pacific slab

KW - transformational faulting

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Seismic evidence for a metastable olivine wedge in the subducting Pacific slab under Japan Sea

Abstract

Keywords

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