Veining and post-nappe transtensional faulting in the SW Helvetic Alps (Switzerland)
Résumé
In the Rawil Depression of the south-western
Helvetic Alps, oblique (normal plus dextral strike slip) faults
are common but their relative age, regional role and the
processes leading to their development are not yet fully
determined. This field study establishes the orientation and
distribution of these faults and associated veins, the fault
geometries and kinematics, and the relationship between
veining and faulting. Three post-nappe sets of faults can be
distinguished on the basis of their strike: (1) NNW/NWstriking;
(2) WNW/W-striking; and (3) WSW-striking ones.
Faults sets (1) and (2) generally dip at moderate angle to the
SW and typically develop domino-like structures, with a
spacing of around 1 km. Fault set (3) is steeper, the strikeslip
component is larger, and it is directly associated with the
main regional-scale branch of the Simplon–Rhoˆne Fault.
Although these faults are broadly coeval, there are clear
examples of set (2) cross-cutting set (1), and set (3) crosscutting
(1) and (2), which establishes, at least locally, a relative
chronological succession. This transtensional faulting
largely post-dates folding related to nappe formation because
fold geometry can be matched across the obliquely crosscutting
faults. Regional dextral-transtensional fault development
is related to differential exhumation of the External Crystalline Massifs over the last 15–17 Ma, coeval with
related movement on the Simplon–Rhoˆne Fault. Locally there is a transition from an initial more ductile mylonitic
fabric to cataclasite, accompanied by brittle-ductile veining
and intense pressure solution. This progressive embrittlement
during faulting is due to exhumation and cooling during
faulting, higher strain rates, or increased pore-fluid pressures.
Faults of sets (1) and (2) developed across the brittleductile
transition and may represent fossil seismogenic zones
in rocks with high pore-fluid pressure, providing exposed
examples of seismic faults in similar rocks currently active at
depth north of the Rhoˆne Valley.
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