Title of article
Fault zone characteristics, fracture systems and permeability implications of Middle Triassic Muschelkalk in Southwest Germany
Author/Authors
Meier، نويسنده , , Silke and Bauer، نويسنده , , Johanna F. and Philipp، نويسنده , , Sonja L.، نويسنده ,
Issue Information
ماهنامه با شماره پیاپی سال 2015
Pages
20
From page
170
To page
189
Abstract
Fault zone structure and lithology affect permeability of Triassic Muschelkalk limestone-marl-alternations in Southwest Germany, a region characterized by a complex tectonic history. Field studies of eight fault zones provide insights into fracture system parameters (orientation, density, aperture, connectivity, vertical extension) within fault zone units (fault core, damage zone). Results show decreasing fracture lengths with distances to the fault cores in well-developed damage zones. Fracture connectivity at fracture tips is enhanced in proximity to the slip surfaces, particularly caused by shorter fractures. Different mechanical properties of limestone and marl layers obviously affect fracture propagation and thus fracture system connectivity and permeability. Fracture apertures are largest parallel and subparallel to fault zones and prominent regional structures (e.g., Upper Rhine Graben) leading to enhanced fracture-induced permeabilities. Mineralized fractures and mineralizations in fault cores indicate past fluid flow. Permeability is increased by the development of hydraulically active pathways across several beds (non-stratabound fractures) to a higher degree than by the formation of fractures interconnected at fracture tips. We conclude that there is an increase of interconnected fractures and fracture densities in proximity to the fault cores. This is particularly clear in more homogenous rocks. The results help to better understand permeability in Muschelkalk rocks.
Keywords
fault zone , Permeability implication , Middle Triassic Muschelkalk , Southwest Germany , Fracture system
Journal title
Journal of Structural Geology
Serial Year
2015
Journal title
Journal of Structural Geology
Record number
2228472
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