Stress sensitivity of stylolite morphology

Stylolites are rough surfaces that form by localized stress-induced dissolution. Using a set of limestone rock samples collected at different depths from a vertical section in Cirque de Navacelles (France), we study the influence of the lithostatic stress on the stylolites morphology on the basis of...

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Veröffentlicht in:	Earth and planetary science letters 2009-01, Vol.277 (3), p.394-398
Hauptverfasser:	Ebner, Marcus, Koehn, Daniel, Toussaint, Renaud, Renard, François, Schmittbuhl, Jean
Format:	Artikel
Sprache:	eng
Schlagworte:	Earth Sciences Geochemistry Geophysics Mineralogy morphogenesis paleo-stress roughness Sciences of the Universe self-affine scaling stylolites Tectonics
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container_title	Earth and planetary science letters
container_volume	277
creator	Ebner, Marcus Koehn, Daniel Toussaint, Renaud Renard, François Schmittbuhl, Jean
description	Stylolites are rough surfaces that form by localized stress-induced dissolution. Using a set of limestone rock samples collected at different depths from a vertical section in Cirque de Navacelles (France), we study the influence of the lithostatic stress on the stylolites morphology on the basis of a recent morphogenesis model. We measured the roughness of a series of bedding-parallel stylolites and show that their morphology exhibits a scaling invariance with two self-affine scaling regimes separated by a crossover-length ( L) at the millimeter scale consistent with previous studies. The importance of the present contribution is to estimate the stylolite formation stress σ from the sample position in the stratigraphic series and compare it to the crossover-length L using the expected relationship: L ∼ σ −2. We obtained a successful prediction of the crossover behavior and reasonable absolute stress magnitude estimates using relevant parameters: depth of stylolite formation between 300 to 600 m with corresponding normal stress in the range of 10–18 MPa. Accordingly, the stylolite morphology contains a signature of the stress field during formation and we thus suggest that stylolites could be used as paleo-stress gauges of deformation processes in the upper crust.
doi_str_mv	10.1016/j.epsl.2008.11.001
format	Article
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Using a set of limestone rock samples collected at different depths from a vertical section in Cirque de Navacelles (France), we study the influence of the lithostatic stress on the stylolites morphology on the basis of a recent morphogenesis model. We measured the roughness of a series of bedding-parallel stylolites and show that their morphology exhibits a scaling invariance with two self-affine scaling regimes separated by a crossover-length ( L) at the millimeter scale consistent with previous studies. The importance of the present contribution is to estimate the stylolite formation stress σ from the sample position in the stratigraphic series and compare it to the crossover-length L using the expected relationship: L ∼ σ −2. We obtained a successful prediction of the crossover behavior and reasonable absolute stress magnitude estimates using relevant parameters: depth of stylolite formation between 300 to 600 m with corresponding normal stress in the range of 10–18 MPa. 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subjects	Earth Sciences Geochemistry Geophysics Mineralogy morphogenesis paleo-stress roughness Sciences of the Universe self-affine scaling stylolites Tectonics
title	Stress sensitivity of stylolite morphology
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