Phanerozoic Geodynamic Evolution of the Circum-Italian Realm |
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| Abstract: | The Phanerozoic geodynamic evolution of Europe is reviewed for the purpose of identifying its bearing on the petrogenesis of the Cenozoic European Volcanic Province. Several events capable of modifying the chemistry and mineralogy of the mantle, such as subduction of oceanic crust, continent-continent collision, and ocean formation are emphasized. The area now occupied by the Mediterranean Sea and, in general, all of Europe, underwent a complex geodynamic evolution, involving large relative crustal movements. The Paleozoic to Recent evolution of the circum-Mediterranean Sea area can be summarized as follows: (1) extension during the Precambrian (presence of ~3000 to 4000 km wide oceanic crust between Laurussia (consisting of the Laurentian and Baltica-Fenno-scandian cratons) and Gondwana (South America, Africa, Australia, India, and Antarctica); (2) collisional movements with the formation of “Andean-type” margins during the Late Precambrian to Middle Paleozoic, followed by “Himalayan-type” margins during the Carboniferous (Hercynian orogeny sensu stricto); (3) change of plate movements and development of tensional (transtensive) stresses at the end of the Paleozoic, as indicated by the formation of the North Atlantic-Tethys rift system, with the Cretaceous formation of the Ligurian-Piedmontese and the Mesogean Ocean; (4) the Alpine orogeny, with a two-stage compressive cycle-(a) Eoalpine (Paleogene closure of the Ligurian-Piedmontese Ocean; formation of the Betic Cordillera, western-northern Alps, and Carpatho-Balkan Arc), with Europe-verging thrusts; and (b) Neoalpine (Neogene-Pleistocene formation of the Apennine, Maghrebide, Dinaride, and Hellenide chains, plus the backthrusted southern Alps, all with African vergence; opening of two diachronous backarc basins-the Ligurian-Provencal Basin and the Tyrrhenian Sea-in the western Mediterranean). Hercynian-age modifications (the most important of which are subduction-related) led to almost unique isotopic ratios, such as low 143Nd/144Nd, 206Pb/204Pb, 3He/4He, and slightly radiogenic 87Sr/86Sr ratios. During the Cenozoic and Quaternary, widespread magmatic activity developed throughout Europe. These products, mainly represented by mildly to strongly alkaline rocks with sodic affinity and tholeiitic mafic rocks (basanite, alkali basalts, tholeiitic basalts), show quite uniform geochemical and isotopic compositions typical of a within-plate tectonic setting. Moreover, subduction-related magmatism (mainly represented by low-to high-K calc-alkaline and shoshonitic series + ultrapotassic rocks such as lamproites) developed in response to the subduction systems of the Alpine orogeny. With respect to the circum-Italian realm, the igneous rocks emplaced during the last 30 Ma are essentially related to the Alpine orogeny. This activity is represented by rocks of extremely variable composition (alkaline-both sodic and potassic to ultrapotassic-and subalkaline tholeiitic and calc-alkaline]) and probably carbonatitic. |
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