Abstract
Rift-basins are the shallow effects of lithosphere-scale extensional processes often producing polyphase faulting. Their sedimentary evolution depends on the mutual interplay between tectonics, climate, and eustasy. Estimating the role of each factor is generally a challenging issue. This paper is focused on the tectono-sedimentary evolution of the Neogene Siena-Radicofani Basin, a polyphase structural depression located in the inner Northern Apennines. Since Miocene, this basin developed after prolonged extensional tectonics, first as a bowl-shaped structural depression, later reorganized into a half-graben structure due to the activation of high-angle normal faults in the Zanclean. At that time the basin contained coeval continental and marine settings controlled by the normal faulting that caused the development of local coarse-grained depositional systems. These were investigated to: (i) discriminate between the influences of tectonics and climate on sedimentation patterns, and (ii) provide detailed time constraints on fault activity. The analysed successions were deposited in an interval between 5.08 and 4.52 Ma, when a climate-induced highstand phase occurred throughout the Mediterranean. However, evidence of local relative sea-level drops is registered in the sedimentary record, often associated with increased accommodation space and sediment supply. Such base-level fluctuations are not connected to climate changes, suggesting that the faults generally control sedimentation along the basin margins.
Highlights
One of the main effects of lithosphere extension is the development of structural depressions that form due to the activity of normal faults (McKenzieBaltzerstrasse 1 + 3, 3012 Bern, Switzerland1978; Lister and Davis 1989; Gibbs 1990)
This paper aims at: (i) defining the timing of the LANF to HANF transition in the Siena-Radicofani Basin; (ii) assessing the change of sedimentation patterns resulting from the activation of HANFs, and (iii) providing criteria to discriminate between tectonic vs climate control in the developments of marginal/paralic clastic successions
The Siena-Radicofani Basin is a polyphase extensional basin. It originated as a bowl-shaped structural depression during late Serravalian- “early Pliocene” extensional tectonics and was subsequently deformed by HANFs whose activity started in the Zanclean and during a time interval between 5.08 and 4.52 Ma
Summary
One of the main effects of lithosphere extension is the development of structural depressions (i.e., sedimentary basins) that form due to the activity of normal faults (McKenzieBaltzerstrasse 1 + 3, 3012 Bern, Switzerland1978; Lister and Davis 1989; Gibbs 1990). Hangingwall and supradetachment basins represent end-members of extensional basins, which are typical of highly-extended terrains (Friedman and Burbank 1995), where most of the sedimentary infill overlies the detachment (i.e., supradetachment) or detachment-roof (i.e., hangingwall basins). These basins are different from those bounded by high-angle normal faults (hereafter HANFs) and typified by a lower amount of extension (Friedman and Burbank 1995). These two end-member basin types can be found coexisting in the same extensional settings, typically resulting from decreasing strain rates combined with the progressive exhumation. The opposite is observed, i.e., high-angle normal faulting followed by detachment faulting (Froitzheim and Manatschal 1996)
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