Shear-enhanced compaction bands formed at shallow burial conditions; implications for fluid flow (Provence, France)

Field observations of highly porous and permeable sandstone in the Orange area (S-E Basin, France) show that networks of shear-enhanced compaction bands can form in a contractional regime at burial depths of about 400 m ± 100 m. These bands show equal compaction and shear displacements, are organized in conjugate and densely distributed networks, and are restricted to the coarse-grained (mean grain diameter of 0.6 ± 0.1 mm) and less porous (porosity of 26 ± 2%) sand layers. The bands are crush microbreccia with limited grain comminution and high grain microfracture density. They show reductions of permeability (mD) ranging from 0 to little more than 1 order of magnitude. They show no control on the alteration products related to meteoric water flow, which suggests that these shear-enhanced compaction bands have no or only negligible influence on subsurface fluid flow. Their selective occurrence and small (20%) reduction in transmissibility in densely populated layers prevented them from compartmentalizing the sandstone reservoirs. A comparison with compaction-band populations in the Navajo and Aztec sandtsones (western U.S.) emphasizes the role of burial depth and the presence of chemical compaction processes for the sealing potential of deformation bands.

► Description of shear-enhanced compaction bands formed in poorly consolidated sands. ► Bands formed during Pyrenean contraction involved cataclasis at only ∼400 m burial depth. ► These deformation bands are too permeable to significantly influence fluid flow. ► Such bands are restricted in coarse-grained and less porous sand layers within the sand unit. ► Comparison with US bands shows the influence of burial depth on the sealing capacity of such bands.