G. Zito scite author profile

The Apennines comprise a Neogen—Quaternary accretionary prism that shows several anomalies with respect to classic alpine‐type mountain belts, namely (i) low elevation, (ii) a shallow new Moho below the core of the belt, (iii) high heat flow in the internal parts, (iv) mainly sedimentary cover involved in the prism, (v) a deep foredeep and (vi) a fully developed back‐arc basin. The suction exerted by a relatively eastward migrating mantle can determine the eastward retreat of the subduction zone and an asthenospheric wedging at the retreating subduction hinge. Heat flow, geochemical and seismological data support the presence of a hot mantle wedge underlying the western side of the Apenninic accretionary prism. A thermal model of the belt with foreland dipping isotherms fits with deepening of the seismicity toward the east. Mantle volatiles signatures are also widespread in springs along the Apennines.

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Geothermal ranking of Italian territory

Cataldi

et al. 1995

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Heat flow and geodynamics in the Tyrrhenian Sea

et al. 2003

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The present heat flow in the southern Tyrrhenian Sea appears as a transient thermal wave that has migrated eastward in time. The higher heat flow in the south‐eastern side of the basin confirms the suggestion of an eastward‐migrating rift. Punctuation of the Tyrrhenian backarc extension in lithospheric boudins is accompanied by a concentrated increase in heat flow generated by asthenospheric intrusions and related magmatism progressively moving eastward. The migration of the asthenosphere in the same direction could explain these phenomena.

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Application of gravity and deep dipole geoelectrics in the volcanic area of Mt. Etna (Sicily)

Loddo

Patella

Quarto

et al. 1989

Journal of Volcanology and Geothermal Research

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Interpretation of heat flow density of the Apennine chain, Italy

et al. 1989

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G. Zito

A geodynamic model of the Southern Apennines accretionary prism

Geothermal ranking of Italian territory

Heat flow and geodynamics in the Tyrrhenian Sea

Application of gravity and deep dipole geoelectrics in the volcanic area of Mt. Etna (Sicily)

Interpretation of heat flow density of the Apennine chain, Italy

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