Estimation of paleostress field from 3-D orientation distribution of microcracks and their geothermal conditions in the Cretaceous granitic rocks in the northern Awaji Island, central Japan
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- Takagi Hideo
- Department of Earth Sciences, Faculty of Education and Integrated Arts and Sciences, Waseda University
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- Miwa Shigenori
- Department of Earth Sciences and Environmental and Resources Engineering, Graduate School of Science and Engineering, Waseda University
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- Yamada Tetsushi
- Department of Earth Sciences and Environmental and Resources Engineering, Graduate School of Science and Engineering, Waseda University
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- Nishijima Kei
- Department of Earth Sciences and Environmental and Resources Engineering, Graduate School of Science and Engineering, Waseda University
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- Yamazaki Satoshi
- Department of Earth Sciences and Environmental and Resources Engineering, Graduate School of Science and Engineering, Waseda University
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- Enjoji Mamoru
- Department of Earth Sciences, Faculty of Education and Integrated Arts and Sciences, Waseda University
Bibliographic Information
- Other Title
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- 淡路島北部に分布する白亜紀花崗岩類中の石英に発達するマイクロクラックの三次元方位分布による古応力場の復元と生成環境
- アワジシマ ホクブ ニ ブンプ スル ハクアキ ハナオカガンルイ チュウ ノ セキエイ ニ ハッタツ スル マイクロクラック ノ サンジゲン ホウイ ブンプ ニ ヨル コ オウリョクジョウ ノ フクゲン ト セイセイ カンキョウ
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Abstract
Measurements of temporal changes in the three-dimensional (3D) orientation and density of intracrystalline healed and sealed (open) microcracks in quartz grains have enabled the reconstruction of paleostress fields and determination of the history of microcracking in the Late Cretaceous Nojima Granodiorite of northern Awaji Island. This in turn has allowed the determination of the relationship between these features and the Nojima Fault, which was seismically reactivated during the 1995 Kobe Earthquake. The 3D orientations of healed microcracks (HC) indicate that σ3 stress directions had N–S orientations at almost all locations, whereas sealed microcracks (SC) preserve evidence of NW–SE and N–S σ3 orientations. K–Ar biotite ages for the Nojima Granodiorite and fluid inclusion formation temperatures (c. 320–370°C) suggest that the healed microcracks formed at around 80 Ma. Fission-track ages of associated pseudotachylytes indicate that initial movements on the Nojima Fault probably occurred at around 56 Ma, with spatial variations in microcrack density indicating that initial faulting occurred after HC formation but before SC formation. This indicates a NW–SE σ3 orientation during HC formation (after restoration incorporating the clockwise rotation of SW Japan at c. 15 Ma), with the subsequent formation of NE–SW and E–W trending high-angle SCs filled with limonite or iron oxides. These SCs probably formed at shallower crustal depths than the HCs. The fact that the σHmax SC orientation is not consistent with the current NW–SE or WNW–ESE regional stress field means that SC formation must have ceased by the Quaternary. In addition, the HC σ3 orientation is nearly normal to the general trend of the Median Tectonic Line, suggesting the existence of a significant NW–SE extensional stress field prior to the clockwise rotation of SW Japan, rather than a NW–SE regional compressive field that would be conformable with oceanic plate movement directions during the Late Cretaceous.
Journal
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- The Journal of the Geological Society of Japan
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The Journal of the Geological Society of Japan 118 (9), 571-581, 2012-09-15
The Geological Society of Japan
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Details 詳細情報について
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- CRID
- 1390001206241846784
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- NII Article ID
- 130003363896
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- NII Book ID
- AN00141768
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- COI
- 1:CAS:528:DC%2BC3sXitVOnuw%3D%3D
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- ISSN
- 13499963
- 00167630
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- NDL BIB ID
- 024015352
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- Text Lang
- ja
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- Data Source
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- JaLC
- NDL
- Crossref
- CiNii Articles
- KAKEN
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- Abstract License Flag
- Disallowed