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Microstructural evidence for the deep pulverization in a lower crustal meta‐anorthosite
Author(s) -
Soda Yusuke,
Okudaira Takamoto
Publication year - 2018
Publication title -
terra nova
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.353
H-Index - 89
eISSN - 1365-3121
pISSN - 0954-4879
DOI - 10.1111/ter.12355
Subject(s) - geology , plagioclase , misorientation , anorthosite , shear (geology) , mylonite , geochemistry , shear zone , petrology , microstructure , mineralogy , seismology , materials science , composite material , tectonics , paleontology , grain boundary , quartz
We report on the evidence of the pulverization in a deep‐seated meta‐anorthosite in the Eidsfjord shear zone, Vesterålen, northern Norway. Some plagioclase porphyroclasts comprise a few large relict clasts and many fine grains that preserve the outlines of the original grains. The fine‐grained plagioclase does not show any plastic‐deformation microstructures and has strong crystallographic preferred orientations, which are inherited from the twinned porphyroclast. Misorientation‐axis distributions indicate that the grains have rotated randomly, so that the misorientation axes are not aligned with either the crystallographic or kinematic axes. The observed grain‐size distribution has a fractal dimension, suggesting their fracturing/fragmentation origin. The microstructures are characterized by the fracturing/fragmentation with a very low shear strain, indicating that it may be associated with pulverization at ~20–25 km depth.