Abstract. In the Western Alps, the Penninic frontal thrust (PFT) is the main
crustal-scale tectonic structure of the belt. This thrust transported the
high-pressure metamorphosed internal units over the non-metamorphosed
European margin during the Oligocene (34–29 Ma). Following the propagation
of the compression toward the European foreland, the PFT was later
reactivated as an extensional detachment associated with the development of
the High Durance extensional fault system (HDFS). This inversion of tectonic
displacement along a major tectonic structure has been widely emphasized as
an example of extensional collapse of a thickened collisional orogen.
However, the inception age of the extensional inversion remains
unconstrained. Here, for the first time, we provide chronological
constraints on the extensional motion of an exhumed zone of the PFT by
applying U–Pb dating on secondary calcites from a fault zone cataclasite.
The calcite cement and veins of the cataclasite formed after the main fault
slip event, at 3.6 ± 0.4–3.4 ± 0.6 Ma. Cross-cutting calcite veins
featuring the last fault activity are dated at 2.6 ± 0.3–2.3 ± 0.3 Ma. δ13C and δ18O fluid signatures derived from
these secondary calcites suggest fluid percolation from deep-seated
reservoir at the scale of the Western Alps. Our data provide evidence that the PFT
extensional reactivation initiated at least ∼ 3.5 Myr ago with
a reactivation phase at ∼ 2.5 Ma. This reactivation may result
from the westward propagation of the compressional deformation toward the
external Alps, combined with the exhumation of external crystalline massifs.
In this context, the exhumation of the dated normal faults is linked to the
eastward translation of the HDFS seismogenic zone, in agreement with the
present-day seismic activity.
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