期刊
TECTONICS
卷 33, 期 11, 页码 2169-2194出版社
AMER GEOPHYSICAL UNION
DOI: 10.1002/2014TC003624
关键词
seismic reflection profiles; active fault-related folds; blind fault segment modeling; Ionian Basin; southern Italy
资金
- IAMC (Istituto per l'Ambiente Marino Costiero) CNR, Naples, Italy
- PRIN
High-resolution, single-channel seismic and multibeam bathymetry data collected at the Amendolara Ridge, a key submarine area marking the junction between the Apennine collision belt and the Calabrian subduction forearc, reveal active deformation in a supposedly stable crustal sector. New data, integrated with existing multichannel seismic profiles calibrated with oil-exploratory wells, show that middle to late Pleistocene sediments are deformed in growth folds above blind oblique-reverse faults that bound a regional pop-up. Data analysis indicates that similar to 10 to 20km long banks that top the similar to 80km long, NW-SE trending ridge are structural culminations above en echelon fault segments. Numeric modeling of bathymetry and stratigraphic markers suggests that three 45 degrees dipping upper crustal (2-10km) fault segments underlie the ridge, with slip rates up to similar to 0.5mm/yr. Segments may be capable with M similar to 6.1-6.3 earthquakes, although an unknown fraction of aseismic slip undoubtedly contributes to deformation. The fault array that bounds the southern flank of the ridge (Amendolara Fault System) parallels a belt of M-w<4.7 strike-slip and thrust earthquakes, which suggest current left-oblique reverse motion on the array. The eastern segment of the array shows apparent morphologic evidence of deformation and might be responsible for M(w)5.2 historic events. Late Pliocene-Quaternary growth of the oblique contractional belt is related to the combined effects of stalling of Adriatic slab retreat underneath the Apennines and subduction retreat of the Ionian slab underneath Calabria. Deformation localization was controlled by an inherited mechanical interface between the thick Apulian (Adriatic) platform crust and the attenuated Ionian Basin crust.
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