TY - JOUR
T1 - Implications of mylonitic microstructures for the geotectonic evolution of the Median Tectonic Line, central Japan
AU - Takagi, Hideo
N1 - Funding Information:
Acknowledgernents--I wish to express my sincere thanks to Prof. S. Mizutani of Nagoya University for valuable suggestions during the course of this work. I am much indebted to Prof. Y. Saka of Waseda University, Prof. T. Uemura of Niigata University and two anonymous reviewers for critical reading of the manuscript and for helpful comments. Thanks are also due to Mr. F. Yogo and Mr. M. Rikita for preparation of thin sections. This work was supported partly by the Annual Project organized by Waseda University 1983 (No. 58A-26).
PY - 1986
Y1 - 1986
N2 - The Median Tectonic Line (MTL), the most prominent onshore fault in Japan, demarcates the Cretaceous Hiji quartz dioritic gneiss of the Ryoke belt on the west from the high P/T type Sambagawa metamorphic rocks on the east in the Takato area. Toward the MTL, the Hiji gneiss grades into strongly mylonitized rocks characterized by grain-size reduction of quartz. In the mylonitic rocks, the development of fluxion banding (Sm) is remarkably influenced by the existence of K-feldspar, forming a myrmekitic intergrowth. Brittle microstructures indicative of truly cataclastic deformation are observed only in mylonitic rocks close to the MTL. Early deep-level ductile deformation apparently gave way to shallower, brittle deformation at a later stage. The attitude of stretching lineations (Lm) and asymmetric microstructures observed in the mylonites suggest that sinistral strike-slip shearing with a subordinate component of vertical-slip took place during mylonitization in mid-Cretaceous time. The mylonitic rocks and their protolith, supposed to have constituted the eastern limb of the shear zone, were probably eroded out and lost by upheaval of the Sambagawa belt relative to the Ryoke belt.
AB - The Median Tectonic Line (MTL), the most prominent onshore fault in Japan, demarcates the Cretaceous Hiji quartz dioritic gneiss of the Ryoke belt on the west from the high P/T type Sambagawa metamorphic rocks on the east in the Takato area. Toward the MTL, the Hiji gneiss grades into strongly mylonitized rocks characterized by grain-size reduction of quartz. In the mylonitic rocks, the development of fluxion banding (Sm) is remarkably influenced by the existence of K-feldspar, forming a myrmekitic intergrowth. Brittle microstructures indicative of truly cataclastic deformation are observed only in mylonitic rocks close to the MTL. Early deep-level ductile deformation apparently gave way to shallower, brittle deformation at a later stage. The attitude of stretching lineations (Lm) and asymmetric microstructures observed in the mylonites suggest that sinistral strike-slip shearing with a subordinate component of vertical-slip took place during mylonitization in mid-Cretaceous time. The mylonitic rocks and their protolith, supposed to have constituted the eastern limb of the shear zone, were probably eroded out and lost by upheaval of the Sambagawa belt relative to the Ryoke belt.
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U2 - 10.1016/0191-8141(86)90013-1
DO - 10.1016/0191-8141(86)90013-1
M3 - Article
AN - SCOPUS:0022554508
SN - 0191-8141
VL - 8
SP - 3
EP - 14
JO - Journal of Structural Geology
JF - Journal of Structural Geology
IS - 1
ER -