S. Martin et al., Neogene kinematics of the Giudicarie fault (Central-Eastern Alps, Italy): new apatite fission-track data, TERRA NOVA, 10(4), 1998, pp. 217-221
The Neogene kinematics of the Giudicarie fault (part of Periadriatic lineam
ent, NE Italy) have been re-examined using apatite fission-trick analysis.
Twenty samples were collected along two geological sections; the first one
crossing the tertiary Corno Alto pluton (Adamello batholith) and the Varisc
an basement (Southalpine domain) adjacent to the South Giudicarie fault, th
e second one close to the North Giudicarie fault, in the Variscan basement
of the Tonale nappe (Austroalpine system), Samples from the southern sectio
n show short tracks and ages between 14.7 +/- 1.2 Myr and 22.5 +/- 2.2 Myr
along 1570 m of the profile; samples from the northern profile present long
tracks and ages between 11.3 +/- 1.3 Myr and 14.7 +/- 3.4 Myr along 1225 m
of the vertical profile. In the former, the presence of short tracks might
indicate either a long permanence of the rocks in the apatite partial anne
aling zone, or a more complex thermal history; in the latter case we are de
aling with rocks which experienced more rapid cooling.
The two differing segments of the Giudicarie fault can be explained either
as two completely independent tectonic features or, more likely, by hypothe
sizing a single fault active in its southern and northern parts at differen
t times. Fission track data support a first exhumation of this single fault
c. 15 Ma along the North Giudicarie, with a final exhumation towards the s
outh, in the Adamello area, at c. 8-10 Ma (Mid Tortonian). This age fits wi
th the so-called 'Giudicarie' phase, during which sigma(1) in the stress fi
eld was orientated N280-290 degrees.