The effects of a Meso-Alpine collision event on the tectono-metamorphic evolution of the Peloritani mountain belt (eastern Sicily, southern Italy)

Catalano, Stefano; Cirrincione, Rosolino; Mazzoleni, Paolo; Pavano, Francesco; Pezzino, Antonino; Romagnoli, Gino; Tortorici, Giuseppe

doi:10.1017/s0016756817000413

Cited by 11 publications

(8 citation statements)

References 31 publications

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“…area in the west (Catalano & D'Argenio, 1982;Lentini et al, 1994), Meso-Cenozoic accretionary wedge chaotic terrains (e.g., Sicilide Unit) and Paleogene terrigenous deposits (e.g., Numidian Flysch) are exposed in the Madonie-Nebrodi Mts. in the middle (Lentini et al, 1994;Roure et al, 1990), and the Europe-affinity Hercynian crystalline basement terranes are exposed to the east in the Peloritani Mts (Ben Avraham et al, 1990;Catalano, Cirrincione, et al, 2018;Lentini et al, 1994Lentini et al, , 2000 Figure 1a). To the south of the PMNPM, progressive emplacement of the accretionary wedge includes several Miocene-to-Pleistocene wedge-top basin sedimentary sequences (Decima & Wezel, 1971;Di Grande & Giandinoto, 2002).…”

Section: Tectonic and Geological Backgroundmentioning

confidence: 99%

A Geomorphic Examination of the Calabrian Forearc Translation

Pavano

Gallen

2021

Tectonics

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The tectonic setting of the Mediterranean basin features several convergent plate boundaries with small, highly arcuate subduction zones. Slabs in several of these subduction zones are rapidly rolling back (e.g., Doglioni, 1993), resulting in diverse kinematics of upper plate deformation, including paired compression and extensional fronts in overlying forearcs (Elter et al., 1975). The Calabrian Peninsula in southern Italy represents one such forearc where only the extensional domain is exposed above sea level today (D' Agostino et al., 2011;Tortorici et al., 1995). Calabria is widely thought to have rifted away from Sardinia 6 Ma, and rapidly translated eastward as the leading edge of a wave of the backarc extension that opened the

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Section: Tectonic and Geological Backgroundmentioning

confidence: 99%

A Geomorphic Examination of the Calabrian Forearc Translation

Pavano

Gallen

2021

Tectonics

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“…The Peloritani Mountains compose the northeastern tip of Sicily, which is embedded in the actively translating Calabrian Forearc, marking the subduction of Nubian plate beneath Eurasian plate in the central Mediterranean (Amodio Morelli et al., 1976; Dewey et al., 1989; Malinverno & Ryan, 1986) (Figure 1a). The forearc is an orocline made up of crystalline basement with Europe‐affinity (Catalano et al., 2018; Lentini & Vezzani, 1975; Pezzino et al., 2008) that separated from Sardinia ca. 6 Ma (Malinverno, 2012).…”

Section: Settingmentioning

confidence: 99%

“…Southeast‐directed translation of the forearc (Figure 1b), presumably by Ionian slab rollback, led to the Sicilian collision and the opening of the Tyrrhenian basin (Boccaletti et al., 1990; Faccenna et al., 2004, 2011; Kastens et al., 1988; Rosenbaum & Lister, 2004). The Peloritani Mountains are underlain by stacked tectonic‐metamorphic units consisting of juxtaposed, top‐to‐bottom, high‐grade and medium‐to‐low‐grade Hercynian European‐affinity crystalline basement (Catalano et al., 2018; Lentini et al., 2000; Lentini & Vezzani, 1975) (Figure 1c,d). This metamorphic backbone is encircled by late Miocene to late Pleistocene sedimentary rocks deposited within basins controlled by normal fault systems, often arranged in an én‐echelon geometry (Lentini et al., 1995; Lentini & Vezzani, 1975).…”

Section: Settingmentioning

confidence: 99%

Integrated uplift, subsidence, erosion and deposition in a tightly coupled source‐to‐sink system, Pagliara basin, northeastern Sicily, Italy

Pavano,

Pazzaglia,

Rittenour

et al. 2024

Basin Research

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How tectonic forcing, expressed as base level change, is encoded in the stratigraphic and geomorphic records of coupled source‐to‐sink systems remains uncertain. Using sedimentological, geochronological and geomorphic approaches, we describe the relationship between transient topographic change and sediment deposition for a low‐storage system forced by rapid rock uplift. We present five new luminescence ages and two terrestrial cosmogenic nuclide paleo‐erosion rates for the late Pleistocene Pagliara fan‐delta complex and we model corresponding base level fall history and erosion of the source catchment located on the Ionian flank of the Peloritani Mountains (NE‐Sicily, Italy). The Pagliara delta complex is part of the broader Messina Gravel‐and‐Sands lithostratigraphic unit that outcrops along the Peloritani coastal belt as extensional basins have been recently inverted by both normal faults and regional uplift at the Messina Straits. The deltas exposed at the mouth of the Pagliara River have constructional tops at ca. 300 m a.s.l. and onlap steeply east‐dipping bedrock at the coast to thickness between ca. 100 and 200 m. Five infrared‐stimulated luminescence (IRSL) ages collected from the delta range in age from ca. 327 to 208 ka and indicate a vertical long‐term sediment accumulation rate as rapid as ca. 2.2 cm/yr during MIS 7. Two cosmogenic 10Be concentrations measured in samples of delta sediment indicate paleo‐erosion rates during MIS 8–7 near or slightly higher than the modern rates of ca. 1 mm/yr. Linear inversion of Pagliara fluvial topography indicates an unsteady base level fall history in phase with eustasy that is superimposed on a longer, tectonically driven trend that doubled in rate from ca. 0.95 to 1.8 mm/yr in the past 150 ky. The combination of footwall uplift rate and eustasy determines the accommodation space history to trap the fan‐deltas at the Peloritani coast in hanging wall basins, which are now inverted, uplifted and exposed hundreds of metres above the sea level.

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“…The latter authors proposed indeed that the age of 301 ± 2 Ma was associated with mylonitisation during thrusting of the Aspromonte Unit over the Mandanici Unit. Nevertheless, the contact between the two units is marked by a 30 m-thick cataclastic to mylonitic shear zone that also involves Triassic to Cretaceous greenschist-facies metasediments from the original cover of the Mandanici Unit ( [124]; and references therein), therefore demonstrating the Alpine age of that shear zone. In fact, the age of~300 Ma in the mylonitic augen gneisses cannot be univocally ascribed to a shearing phase, because it corresponds to the age of the thermal peak of the Variscan metamorphism in the CPO, which is recurrently recorded in both sheared and unsheared rocks (e.g., [48,90,125,126]).…”

Section: A Late-variscan Shear Zone In the Peloritani Mountainsmentioning

confidence: 96%

Submagmatic to Solid-State Deformation Microstructures Recorded in Cooling Granitoids during Exhumation of Late-Variscan Crust in North-Eastern Sicily

Fazio¹,

Fiannacca²,

Russo³

et al. 2020

Geosciences

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Late-Variscan granitoid rocks of trondhjemitic and granitic composition, intruded in migmatitic paragneisses in the north-eastern Peloritani Mountains (southern Italy) at ~310 Ma and ~300 Ma, respectively, exhibit a range of deformation microstructures developed under a shear regime at decreasing temperatures. Non-coaxial deformation is documented by sigmoidal feldspar porphyroclasts, mica fish, and asymmetric boudins affecting tiny andalusite crystals. Late-Variscan shearing during granitoid cooling is constrained by largely represented chessboard patterns in quartz and, especially, submagmatic fractures in plagioclase, indicating deformation at high-temperature conditions (T > 650 °C), in the presence of melt. Submagmatic deformation was extensively superseded by deformation at lower temperatures. Examples of solid state-high temperature deformation-related microstructures (T > 450 °C) include feldspar bulging, quartz grain boundary migration, and subgrain rotation recrystallization. Finally, low temperature subsolidus microstructures (T < 450 °C) consist of quartz bulging, mica kinks, and feldspar twinning and bending. A complete sequence of deformation, operating from submagmatic to low-temperature subsolidus conditions is recorded in both the older and younger granitoids, suggesting a duration of ~20 Ma for shear zone activity during post-collisional exhumation of the Variscan middle crust in southernmost Italy.

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The effects of a Meso-Alpine collision event on the tectono-metamorphic evolution of the Peloritani mountain belt (eastern Sicily, southern Italy)

Cited by 11 publications

References 31 publications

A Geomorphic Examination of the Calabrian Forearc Translation

A Geomorphic Examination of the Calabrian Forearc Translation

Integrated uplift, subsidence, erosion and deposition in a tightly coupled source‐to‐sink system, Pagliara basin, northeastern Sicily, Italy

Submagmatic to Solid-State Deformation Microstructures Recorded in Cooling Granitoids during Exhumation of Late-Variscan Crust in North-Eastern Sicily

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