The sagging deep-seated gravitational movements on the eastern side of Mt. Amiata (Tuscany,Italy) |
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Authors: | Mauro Coltorti Andrea Brogi Lorenzo Fabbrini Dario Firuzabadì Lapo Pieranni |
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Institution: | (1) Dipartimento di Scienze della Terra, Universita di Siena, Via di Laterina, 8, 53100 Siena, Italy |
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Abstract: | The eastern side of the Mt. Amiata volcano is affected by a series of deep-seated gravitational slope deformations (DsGSDs).
The San Piero and the Podere Mezzavia DsGSDs affect the lower part of the slope. The main escarpments are located on the outer
edges of the lava flows, but the landslides mostly affect the pre-volcanic Ligurian Terrains. A deeper movement, possibly
exceeding 100 m in thickness, is evidenced by a long trench at the base of the main escarpment that indicates a sagging type
movement. This deeper movement is responsible for the activation of a series of superficial rock and mud flows that show evidence
of ongoing activity. The most likely location of the sliding surface is the tectonized contact between the Santa Fiora and
Argille a Palombini Fms within the Ligurian units, although the superficial landslides prevent our determining with certainty
if a clear-cut sliding surface already developed connecting the upper and the lower parts of the slope. These DsGSDs were
activated along the flanks of a larger movement that affects the lava flow units cropping out in the middle slope of the volcano.
A long main escarpment, secondary escarpments, trenches and borehole data suggest that the thickness could locally exceed
200 m and generate another sagging type movement. Up-slope and up-movement-facing counterscarps indicate the existence of
a listric elongated spoon-shaped compound embryonic sliding surface. This sagging, which hosts the towns of Abbadia San Salvatore
and Piancastagnaio, appears to be in a quiescent stage, according to preliminary monitoring with a global positioning system
(GPS) network. The downcutting of the river network along the softer Pliocene terrains of the Radicofani basin is enhanced
by the general uplift of the Apennines and seems to be the major factor in the activation of these DsGSDs. |
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