Sacks, I. Selwyn and Suyehiro, Kiyoshi (2003): Leg 186 synthesis; drilling the forearc of the Northeast Japan Arc; causes and effects of subduction plate coupling over 20 m.y.

Leg/Site/Hole:
ODP 186
ODP 186 1150
ODP 186 1151
Identifier:
2004-011511
georefid
10.2973/odp.proc.sr.186.119.2003
doi
Creator:
Sacks, I. Selwyn
Carnegie Institution of Washington, Department of Terrestrial Magnetism, Washington, DC, United States
author
Suyehiro, Kiyoshi
Carnegie Institution of Washington, United States
author
Identification:
Leg 186 synthesis; drilling the forearc of the Northeast Japan Arc; causes and effects of subduction plate coupling over 20 m.y.
2003
In: Suyehiro, Kiyoshi, Sacks, I. Selwyn, Acton, Gary D., Acierno, Michael J., Araki, Eiichiro, Ask, Maria V. S., Ikeda, Akihiro, Kanamatsu, Toshiya, Kim, Gil Young, Li, Jingfen, Linde, Alan T., McWhorter, Paul N., Mora, German, Najman, Yanina M. R., Niitsuma, Nobuaki, Pandit, Benoy K., Roller, Sybille, Saito, Saneatsu, Sakamoto, Tatsuhiko, Shinohara, Masanao, Sun, Yue-Feng, Proceedings of the Ocean Drilling Program, scientific results, Western Pacific geophysical observatories; covering Leg 186 of the cruises of drilling vessel JOIDES Resolution; Yokohama, Japan, to Yokohama, Japan; sites 1150 and 1151, 14 June-14 August 1999
Texas A&M University, Ocean Drilling Program, College Station, TX, United States
186
High-recovery core sample and downhole logging data from Sites 1150 (39 degrees 11'N, 143 degrees 20'E) and 1151 (38 degrees 45'N, 143 degrees 20'E), drilled during Ocean Drilling Program Leg 186, generally confirmed the Neogene tectonic erosion history as discovered and described by Deep Sea Drilling Project Legs 56, 57, and 87, drilled between 39 degrees 44'N and 40 degrees 38'N in the northeast Japan Trench forearc. We propose that the sedimentary characteristics of the drilled cores can be explained as consequences of the change in plate coupling between the subducting Pacific plate and the Eurasian plate, dependent on the plate dip angle and water flux resulting from plate subduction. Our model explains the interrelationship among the observed and inferred changes in the plate dip angle, location of the volcanic front, sedimentation rate, volcanic activity, and horizontal stress field caused by the change in plate coupling, which dictates the amount of tectonic force transmitted across the plate boundary. Previously studied subsidence history of the forearc, ascribed to the subduction erosion process, is also incorporated.
English
Serial
Coverage:Geographic coordinates:
North:39.1100
West:143.2000East: 143.2000
South:38.4500
Stratigraphy; Solid-earth geophysics; basins; Cenozoic; cores; coupling; erosion; fore-arc basins; island arcs; Japan Trench; Leg 186; lithostratigraphy; models; Neogene; North Pacific; Northwest Pacific; Ocean Drilling Program; ocean floors; ODP Site 1150; ODP Site 1151; Pacific Ocean; Pacific Plate; paleo-oceanography; plate tectonics; seismotectonics; subduction; tectonics; Tertiary; volcanism; West Pacific;
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