Rifted margin formation in the south Tyrrhenian Sea: A high-resolution seismic profile across the north Sicily passive continental margin

Citation
F. Pepe et al., Rifted margin formation in the south Tyrrhenian Sea: A high-resolution seismic profile across the north Sicily passive continental margin, TECTONICS, 19(2), 2000, pp. 241-257
Citations number
75
Categorie Soggetti
Earth Sciences
Journal title
TECTONICS
ISSN journal
02787407 → ACNP
Volume
19
Issue
2
Year of publication
2000
Pages
241 - 257
Database
ISI
SICI code
0278-7407(200004)19:2<241:RMFITS>2.0.ZU;2-B
Abstract
A new, 150 km long seismic line across the continental margin of north Sici ly has been acquired and interpreted. The overall structure of the margin i s controlled by extension, which caused crustal thinning and widespread nor mal faulting. Two main thinned zones are observed in the south in correspon dence with the Cefalu basin and farther to the north at the continent-ocean transition. Zones of thinned crust coincide with zones of intense normal f aulting. Extension began in late Tortonian times and caused the opening of the Cefalu basin controlled by a northward dipping listric fault. Messinian stretching affected most of the future margin and provoked a widening of t he Cefalu basin and normal faulting in the north. Following a phase of rela tive quiescence in the early Pliocene, renewed extension determined further opening of the Cefalu basin and subordinate normal faulting in the north. Here, however, the record is unclear because of the emplacement of the calc alkaline Sisifo volcano with associated volcanoclastic deposits. Breakup to ok place in the late Pliocene and was followed by the deposition of postrif t Pleistocene sediments. At the lithospheric scale the sites of extension/t hinning did not migrate during rifting. On the smaller scale, on the contra ry, the Cefalu basin displays a remarkably systematic pattern of migration toward the foot-wall of the listric fault, which controlled the opening of the basin. The spacing of 4-6 km between faults is also quite systematic. E longation experienced by the continental part of the margin (presently -97 km) has been derived by comparing the present-day and the preextensional le ngths and is -10 km. The corresponding strain rate is 5x10(-16) s(-1).