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NARROW
GeoRef Subject
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all geography including DSDP/ODP Sites and Legs
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Europe
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Southern Europe
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Italy
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Abruzzi Italy (2)
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Apennines
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metamorphic rocks
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metamorphic rocks
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Europe
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Southern Europe
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Apennines
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Sicily Italy
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Mediterranean Sea
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East Mediterranean
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Ionian Sea (1)
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West Mediterranean
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Tyrrhenian Sea (1)
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metamorphic rocks
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Fault Rheology Control on Rupture Propagation and Aftershocks Distribution during the 2016–2017 Central Italy Earthquakes
Source‐Parameter Estimation after Attenuation Correction through the Use of Q Tomography
Erratum to Fault and Fluid Interaction during the 2012 Emilia (Northern Italy) Seismic Sequence
Slab damage and the pulsating retreat of the Ionian-Apennines subduction
Fault and Fluid Interaction during the 2012 Emilia (Northern Italy) Seismic Sequence
Erratum to Minimum 1D V P and V P / V S Models and Hypocentral Determinations in the Central Mediterranean Area
Minimum 1D V P and V P / V S Models and Hypocentral Determinations in the Central Mediterranean Area
ABSTRACT The Pliocene–Quaternary igneous record of the Tyrrhenian Sea area features a surprisingly large range of compositions from subalkaline to ultra-alkaline and from ultrabasic to acid. These rocks, emplaced within the basin and along its margins, are characterized by strongly SiO 2 -undersaturated and CaO-rich to strongly SiO 2 -oversaturated and peraluminous compositions, with sodic to ultrapotassic alkaline and tholeiitic to calc-alkaline and high-K calc-alkaline affinities. We focused on the different models proposed to explain the famous Roman Comagmatic Region, part of the Quaternary volcanism that spreads along the eastern side of the Tyrrhenian area, in the stretched part of the Apennines thrust-and-fold belt. We reviewed data and hypotheses proposed in the literature that infer active to fossil subduction up to models that exclude subduction entirely. Many field geology observations sustain the interpretation that the evolution of the Tyrrhenian-Apennine system was related to subduction of the western margin of Adria continental lithosphere after minor recycling of oceanic lithosphere. However, the lateral extent of the subducting slab in the last millions of years, when magmatism flared up, remains debatable. The igneous activity that developed in the last millions of years along the Tyrrhenian margin is here explained as originating from a subduction-modified mantle, regardless of whether the large-scale subduction system is still active.