The fracture permeability of Hard Rock Aquifers is due neither to tectonics, nor to unloading, but to weathering processes

Terra Nova, 23, 145–161, 2011 The hydrogeology of superficial (∼0–100 m b.g.l.) Hard Rock Aquifers (HRA; i.e. plutonic and metamorphic rocks) has so far been dominated by a few concepts considered to be relevant by a large majority of the HRA community. One of the most fundamental of these concepts...

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Bibliographic Details
Published in:Terra nova (Oxford, England) England), 2011-06, Vol.23 (3), p.145-161
Main Authors: Lachassagne, Patrick, Wyns, Robert, Dewandel, Benoît
Format: Article
Language:English
Subjects:
Aquifers
Earth Sciences
Fractures
Geophysics
Permeability
Plate tectonics
Sciences of the Universe
Seismology
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Summary:Terra Nova, 23, 145–161, 2011 The hydrogeology of superficial (∼0–100 m b.g.l.) Hard Rock Aquifers (HRA; i.e. plutonic and metamorphic rocks) has so far been dominated by a few concepts considered to be relevant by a large majority of the HRA community. One of the most fundamental of these concepts is that their (secondary, fissure/fracture) permeability is either of tectonic origin or related to unloading processes. We will show that these genetic concepts are erroneous. We will demonstrate how the hydraulic conductivity of HRAs is a consequence of the (palaeo) weathering processes, with a stratiform fissured layer located immediately below the unconsolidated saprolite and, to a lesser extent, a verticalized fissured layer at the periphery of (or within) pre‐existing discontinuities (veins, joints, ancient faults, lithological contacts, etc.). This result opens up large perspectives in terms of applied hydrogeology and applied geology. A specifically dedicated methodological toolkit well adapted to the operational survey, management and protection of HRAs is briefly presented.
ISSN:0954-4879
1365-3121
DOI:10.1111/j.1365-3121.2011.00998.x