M. Lefevre scite author profile

M. Lefevre

2Publications

23Citation Statements Received

30Citation Statements Given

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Affiliations

Centre for Research and Teaching in Environmental Geoscience, Aix-Marseille University, École Nationale Supérieure Agronomique de Toulouse

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Calcite veins as an indicator of fracture dilatancy and connectivity during strike-slip faulting in Toarcian shale (Tournemire tunnel, Southern France)

Lefevre

Guglielmi

Henry

et al. 2016

Journal of Structural Geology

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Calcite veins as an indicator of fracture dilatancy and connectivity during strike-slip faulting in Toarcian shale (Tournemire tunnel, Southern France) Author links open overlay panelMélodyLefèvre a YvesGuglielmi a PierreHenry a PierreDick b ClaudeGout c Show more https://doi.org/10.1016/j.jsg.2016.01.002 Get rights and content Highlights • Cathode-luminescence observations indicate that two phases of vein formation occurred. • Fluids circulations mainly off the shear surfaces in centimeter scale dilatant volumes. • Relationships between calcite concentration and strain partition around the fault main slip surface. AbstractThe reactivation of faults induced by natural/human induced fluid pressure increases is a major concern to explain subsurface fluid migration and to estimate the risk of losing the integrity of reservoir/seal systems. This study focusses on paleo-fluid migration in a strike slip fault with >100 m long, affecting a Toarcian shale (Causses Basin, France).A high calcite concentration is observed in a 5 cm thick zone at the boundary between the fault core and damage zone. Cumulated displacements in this zone are of millimeter-to-centimeter-scale offsets and different dilatant deformation textures are observed. The zone is affected by thin slip planes containing gouge. Cathodoluminescence observations indicate that two phases of vein formation occurred. The first phase coincides with the fluid migration along this centimeter thick dilatant zone.The second one is associated to re-shear along the millimeter thick slip planes that results in more localized mineralization, but also in a better hydrologic connection through the shale formation. These results show that in shales fluids may migrate off a slipping surface in centimeter scale dilatant volumes, at first controlled by the intact shale anisotropy related to bedding and then favored by brecciating, structures reorientation and strengthening processes induced by calcite sealing effects. 

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Alkalization of nutrient solutions by sorghum

Vallès

Lefevre

Ponizovsky

1993

Communications in Soil Science and Plant Analysis

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M. Lefevre

Calcite veins as an indicator of fracture dilatancy and connectivity during strike-slip faulting in Toarcian shale (Tournemire tunnel, Southern France)

Alkalization of nutrient solutions by sorghum

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