Publication Date:
2017-11-21
Description:
The Piano di Pezza fault is the central section of the 35 km long L’Aquila-Celano active
normal fault-system in the central Apennines of Italy. Although palaeoseismic data
document high Holocene vertical slip rates (∼1mm yr−1) and a remarkable seismogenic
potential of this fault, its subsurface setting and Pleistocene cumulative displacement are
still poorly known. We investigated for the first time the shallow subsurface of a key
section of the main Piano di Pezza fault splay by means of high-resolution seismic and
electrical resistivity tomography coupled with time-domain electromagnetic soundings
(TDEM). Our surveys cross a ∼5-m-high fault scarp that was generated by repeated surfacerupturing
earthquakes displacing Holocene alluvial fans. We provide 2-D Vp and resistivity
images, which show significant details of the fault structure and the geometry of the shallow
basin infill material down to 50m depth. Our data indicate that the upper fault termination
has a sub-vertical attitude, in agreement with palaeoseismological trench evidence, whereas it
dips ∼50◦ to the southwest in the deeper part.We recognize some low-velocity/low-resistivity
regions in the fault hangingwall that we relate to packages of colluvial wedges derived from
scarp degradation, which may represent the record of some Holocene palaeo-earthquakes.We
estimate a ∼13–15m throw of this fault splay since the end of the Last Glacial Maximum
(∼18 ka), leading to a 0.7–0.8mm yr−1 throw rate that is quite in accordance with previous
palaeoseismic estimation of Holocene vertical slip rates. The 1-D resistivity models from
TDEM soundings collected along the trace of the electrical profile significantly match with
2-D resistivity images. Moreover, they indicate that in the fault hangingwall, ∼200m away
from the surface fault trace, the pre-Quaternary carbonate basement is at ∼90–100m depth.
We therefore provide a minimal ∼150–160m estimate of the cumulative throw of the Piano
di Pezza fault system in the investigated section. We further hypothesize that the onset of the
Piano di Pezza fault activity may date back to the Middle Pleistocene (∼0.5 Ma), so this is a
quite young active normal fault if compared to other mature normal fault systems active since
2–3 Ma in this portion of the central Apennines.
Description:
Published
Description:
1482–1494
Description:
2TR. Ricostruzione e modellazione della struttura crostale
Description:
JCR Journal
Keywords:
Fault characterization
;
TDEM
;
electrcal resistivity method
;
seismic tomography
;
paleoseismology
;
continental neotectonics
;
04.02. Exploration geophysics
Repository Name:
Istituto Nazionale di Geofisica e Vulcanologia (INGV)
Type:
article
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