Three sets of crystallographic sub-planar structures in quartz formed by tectonic deformation

Tine Derez; Gill Pennock; Martyn Drury; Manuel Sintubin

doi:10.1016/j.epsl.2016.03.005

Three sets of crystallographic sub-planar structures in quartz formed by tectonic deformation

Tine Derez
, Gill Pennock
, Martyn Drury
, Manuel Sintubin^*

^*Corresponding author for this work

KU Leuven

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

In quartz, multiple sets of fine planar deformation microstructures that have specific crystallographic orientations parallel to planes with low Miller-Bravais indices are commonly considered as shock-induced planar deformation features (PDFs). ¹ diagnostic of shock metamorphism. Using polarized light microscopy, we demonstrate that up to three sets of tectonically induced sub-planar fine extinction bands (FEBs), sub-parallel to the basal, γ, ω, and π crystallographic planes, are common in vein quartz in low-grade tectonometamorphic settings. We conclude that the observation of multiple (2-3) sets of fine scale, closely spaced, crystallographically controlled, sub-planar microstructures is not sufficient to unambiguously distinguish PDFs from tectonic FEBs.

Original language	English
Pages (from-to)	157-161
Number of pages	5
Journal	Earth and Planetary Science Letters
Volume	442
DOIs	https://doi.org/10.1016/j.epsl.2016.03.005
Publication status	Published - 15 May 2016

Keywords

Fine extinction bands (FEB)
Low temperature tectonic deformation
Planar deformation features (PDF)
Shock metamorphism

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10.1016/j.epsl.2016.03.005

ThreeFinal published version, 1.53 MBLicence: Taverne

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title = "Three sets of crystallographic sub-planar structures in quartz formed by tectonic deformation",

abstract = "In quartz, multiple sets of fine planar deformation microstructures that have specific crystallographic orientations parallel to planes with low Miller-Bravais indices are commonly considered as shock-induced planar deformation features (PDFs). 1 diagnostic of shock metamorphism. Using polarized light microscopy, we demonstrate that up to three sets of tectonically induced sub-planar fine extinction bands (FEBs), sub-parallel to the basal, γ, ω, and π crystallographic planes, are common in vein quartz in low-grade tectonometamorphic settings. We conclude that the observation of multiple (2-3) sets of fine scale, closely spaced, crystallographically controlled, sub-planar microstructures is not sufficient to unambiguously distinguish PDFs from tectonic FEBs.",

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author = "Tine Derez and Gill Pennock and Martyn Drury and Manuel Sintubin",

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T1 - Three sets of crystallographic sub-planar structures in quartz formed by tectonic deformation

AU - Derez, Tine

AU - Pennock, Gill

AU - Drury, Martyn

AU - Sintubin, Manuel

PY - 2016/5/15

Y1 - 2016/5/15

N2 - In quartz, multiple sets of fine planar deformation microstructures that have specific crystallographic orientations parallel to planes with low Miller-Bravais indices are commonly considered as shock-induced planar deformation features (PDFs). 1 diagnostic of shock metamorphism. Using polarized light microscopy, we demonstrate that up to three sets of tectonically induced sub-planar fine extinction bands (FEBs), sub-parallel to the basal, γ, ω, and π crystallographic planes, are common in vein quartz in low-grade tectonometamorphic settings. We conclude that the observation of multiple (2-3) sets of fine scale, closely spaced, crystallographically controlled, sub-planar microstructures is not sufficient to unambiguously distinguish PDFs from tectonic FEBs.

AB - In quartz, multiple sets of fine planar deformation microstructures that have specific crystallographic orientations parallel to planes with low Miller-Bravais indices are commonly considered as shock-induced planar deformation features (PDFs). 1 diagnostic of shock metamorphism. Using polarized light microscopy, we demonstrate that up to three sets of tectonically induced sub-planar fine extinction bands (FEBs), sub-parallel to the basal, γ, ω, and π crystallographic planes, are common in vein quartz in low-grade tectonometamorphic settings. We conclude that the observation of multiple (2-3) sets of fine scale, closely spaced, crystallographically controlled, sub-planar microstructures is not sufficient to unambiguously distinguish PDFs from tectonic FEBs.

KW - Fine extinction bands (FEB)

KW - Low temperature tectonic deformation

KW - Planar deformation features (PDF)

KW - Shock metamorphism

UR - https://www.scopus.com/pages/publications/84960905297

U2 - 10.1016/j.epsl.2016.03.005

DO - 10.1016/j.epsl.2016.03.005

M3 - Article

AN - SCOPUS:84960905297

SN - 0012-821X

VL - 442

SP - 157

EP - 161

JO - Earth and Planetary Science Letters

JF - Earth and Planetary Science Letters

ER -

Three sets of crystallographic sub-planar structures in quartz formed by tectonic deformation

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