An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies

Paleopiezometry and paleowattometry studies are essential to validate models of lithospheric deformation and therefore increasingly common in structural geology. These studies require a single measure of dynamically recrystallized grain size in natural mylonites to estimate the magnitude of differen...

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Main Authors: M. A. Lopez-Sanchez, S. Llana-Fúnez
Format: Article
Language:English
Published: Copernicus Publications 2015-05-01
Series:Solid Earth
Online Access:http://www.solid-earth.net/6/475/2015/se-6-475-2015.pdf
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spelling doaj-2165ad79daee4f27b50b9ccd3833625b2020-11-24T21:22:16ZengCopernicus PublicationsSolid Earth1869-95101869-95292015-05-016247549510.5194/se-6-475-2015An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studiesM. A. Lopez-Sanchez0S. Llana-Fúnez1Departamento de Geología, Universidad de Oviedo, Oviedo, SpainDepartamento de Geología, Universidad de Oviedo, Oviedo, SpainPaleopiezometry and paleowattometry studies are essential to validate models of lithospheric deformation and therefore increasingly common in structural geology. These studies require a single measure of dynamically recrystallized grain size in natural mylonites to estimate the magnitude of differential paleostress (or the rate of mechanical work). This contribution tests the various measures of grain size used in the literature and proposes the frequency peak of a grain size distribution as the most robust estimator for paleopiezometry or paleowattometry studies. The novelty of the approach resides in the use of the Gaussian kernel density estimator as an alternative to the classical histograms, which improves reproducibility. A free, open-source, easy-to-handle script named <i>GrainSizeTools</i> (<a href=" https://sourceforge.net/projects/grainsizetools/"target="_blank"> http://www.TEOS-10.org</a>) was developed with the aim of facilitating the adoption of this measure of grain size in paleopiezometry or paleowattometry studies. The major advantage of the script over other programs is that by using the Gaussian kernel density estimator and by avoiding manual steps in the estimation of the frequency peak, the reproducibility of results is improved.http://www.solid-earth.net/6/475/2015/se-6-475-2015.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. A. Lopez-Sanchez
S. Llana-Fúnez
spellingShingle M. A. Lopez-Sanchez
S. Llana-Fúnez
An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
Solid Earth
author_facet M. A. Lopez-Sanchez
S. Llana-Fúnez
author_sort M. A. Lopez-Sanchez
title An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
title_short An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
title_full An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
title_fullStr An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
title_full_unstemmed An evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
title_sort evaluation of different measures of dynamically recrystallized grain size for paleopiezometry or paleowattometry studies
publisher Copernicus Publications
series Solid Earth
issn 1869-9510
1869-9529
publishDate 2015-05-01
description Paleopiezometry and paleowattometry studies are essential to validate models of lithospheric deformation and therefore increasingly common in structural geology. These studies require a single measure of dynamically recrystallized grain size in natural mylonites to estimate the magnitude of differential paleostress (or the rate of mechanical work). This contribution tests the various measures of grain size used in the literature and proposes the frequency peak of a grain size distribution as the most robust estimator for paleopiezometry or paleowattometry studies. The novelty of the approach resides in the use of the Gaussian kernel density estimator as an alternative to the classical histograms, which improves reproducibility. A free, open-source, easy-to-handle script named <i>GrainSizeTools</i> (<a href=" https://sourceforge.net/projects/grainsizetools/"target="_blank"> http://www.TEOS-10.org</a>) was developed with the aim of facilitating the adoption of this measure of grain size in paleopiezometry or paleowattometry studies. The major advantage of the script over other programs is that by using the Gaussian kernel density estimator and by avoiding manual steps in the estimation of the frequency peak, the reproducibility of results is improved.
url http://www.solid-earth.net/6/475/2015/se-6-475-2015.pdf
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