Two recently accepted papers:
Ferranti, L., P. Burrato,
F. Pepe, E. Santoro, M.E. Mazzella, D. Morelli, S. Passaro, G. Vannucci (2014).
An active oblique-contractional belt at the transition
between the Southern Apennines and Calabrian Arc: the Amendolara Ridge, Ionian
Sea, Italy. Tectonics, doi:10.1002/2014TC003624.
Tectonics web page
Tectonics web page
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| Seismotectonic map of the Amendolara Ridge showing thrust segments used in the dislocation modeling (solid boxes: segment; dashed box: relay ramp; red from this study, navy from Santoro et al. [2009]), epicenters of historical events (1917 event, and 1988 earthquake mainshock and aftershocks), and the trend of strain axis (average seismological Shmax axis from Presti et al [2013]; individual seismological P-axis from Figure 11 and Table S1; shortening axis derived from fault-slip inversion from Ferranti et al. [2009]). The Sparker lines used for elastic modeling (Figure S2) are indicated. Location of the active fault scarp detected from SCS profiles is shown. AS, Amendolara Segment; CS, Cariati Segment; RR, Rossano Relay; VS, Valsinni Segment; PS, Pollino Segment; VCS, Valsinni Coastal Segment. |
Vannoli, P., P. Burrato, G.
Valensise (2014). The seismotectonics of the Po Plain
(Northern Italy): tectonic diversity in a blind faulting domain. Pure and
Applied Geophysics, doi:10.1007/s00024-014-0873-0.
Pure and Applied Geophysics web page
Pure and Applied Geophysics web page
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Sketch showing the four groups of
seismogenic sources identified in this work. Group #1: shallow thrusts of the
Northern Apennines, including the sub-emergent Pedeapenninic Thrust Front;
Group #2: deep ramps of the Apennines thrusts; Group #3: inherited faults
cutting the foreland; Group #4: transverse structures (or lineaments),
interpreted as the response of the upper lithosphere to the variation of the
dip of the regional monocline. EA Emilia Arc, FRA Ferrara-Romagna Arc, PTF
Pedeapenninic Thrust Front.
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