4.5 Article

Quartz Microstructures from the Sambagawa Metamorphic Rocks, Southwest Japan: Indicators of Deformation Conditions during Exhumation

Journal

MINERALS
Volume 11, Issue 10, Pages -

Publisher

MDPI
DOI: 10.3390/min11101038

Keywords

quartz microstructures; dynamic recrystallization; CPOs; exhumation; Sambagawa metamorphic rocks

Funding

  1. Japan Society for the Promotion of Science [14340151, 21H01181]
  2. Grants-in-Aid for Scientific Research [21H01181, 14340151] Funding Source: KAKEN

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The Sambagawa metamorphic rocks in central Shikoku, southwest Japan exhibit an inverted metamorphic sequence and a large-scale recumbent fold called the Besshi nappe. Recrystallized quartz grain size in quartz schist increases with structural level, and temperatures in the quartz schist deformations are calculated to increase with structural level, suggesting a rapid cooling of the Besshi nappe from above.
The Sambagawa metamorphic rocks in central Shikoku, southwest Japan consist of an inverted metamorphic sequence from the upper chlorite to oligoclase-biotite zones at the lower structural level (LSL), which is overlain by a normal metamorphic sequence consisting of the albite-biotite and garnet zones at the upper structural level (USL). These sequences form a large-scale recumbent fold called the Besshi nappe. To unravel the mechanism of recrystallization and physical conditions in quartz, and their relation to exhumation tectonics, microstructures of recrystallized quartz grains in quartz schist from the Asemi-Saruta-Dozan River traverse were analyzed. The recrystallized quartz grain size increases with increasing structural level from 40 mu m in the upper chlorite zone to 160 mu m in the garnet zone of the USL. Further, the mechanism of dynamic recrystallization of quartz changes from subgrain rotation to grain boundary migration with increasing structural level across the uppermost garnet zone of the LSL. From these data, the deformation temperatures in quartz schist are calculated to increase with increasing structural level within the range between 300 and 450 & DEG;C using paleopiezometers and experimental flow laws. It could be interpreted that a rapid cooling of the Besshi nappe from above is responsible for the deformation temperatures recorded in quartz schist.

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