Crustal Contributions to Late Hercynian Peraluminous Magmatism in the Southern Calabria-Peloritani Orogen, Southern Italy: Petrogenetic Inferences and the Gondwana Connection

doi:10.1093/petrology/egn035

Journal of Petrology Advance Access published online on July 11, 2008
Journal of Petrology, doi:10.1093/petrology/egn035

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Crustal Contributions to Late Hercynian Peraluminous Magmatism in the Southern Calabria–Peloritani Orogen, Southern Italy: Petrogenetic Inferences and the Gondwana Connection

Patrizia Fiannacca¹^,*, Ian S. Williams², Rosolino Cirrincione¹ and Antonino Pezzino¹

¹Dipartimento Di Scienze Geologiche, Università Di Catania, 95129 Catania, Italy
²Research School of Earth Sciences, The Australian National University, Canberra, Act 0200, Australia

Received September 24, 2007; Revised typescript accepted June 18, 2008

Abstract

Sensitive high-resolution ion microprobe (SHRIMP) analyses ofzircon from granites of the medium-high grade Aspromonte–PeloritaniUnit, Calabria–Peloritani Orogen (CPO), southern Italy,show that one of the minor trondhjemites (313·7 ±3·5 Ma) represents the earliest identified occurrenceof Late Hercynian peraluminous igneous rocks in the CPO, predatingthe emplacement of the more common peraluminous leucogranodioritesby about 14 Myr. Some of the trondhjemite zircon grains containsmall cores with ages of about 2·45 Ga, 625 Ma and 490Ma, consistent with the presence of a sediment component inthe magma. A newly dated leucogranodiorite (300·2 ±3·8 Ma) is rich in inherited zircon. Cores with agesof about 2·36 Ga, 870 Ma, 630 Ma, 545 Ma and 460 Ma areovergrown by two generations of Hercynian igneous zircon, thefirst with moderate to high Th/U (up to 1· 67), and thesecond with low Th/U (< 0·1). The overgrowths probablycrystallized from magmas of two compositions, the first metaluminousand the second peraluminous. This could indicate either magmamixing or, more probably, crystallization in a single, evolvingmagma. In either case, the leucogranodiorite magma is consideredto have been the product of anatexis of a metasedimentary source.Differences in the inherited zircon age spectra, and the relativelysmall amount of inheritance in the trondhjemite, indicate thatthe trondhjemite and leucogranodiorite are unlikely to be geneticallyrelated. The ages of the inherited zircons are consistent withthe sedimentary component in both magmas being derived fromNorth Africa, with a possible contribution from Pan-Africangranitoids similar to those exposed in southern Calabria.

KEY WORDS: Calabria–Peloritani Orogen; Hercynian peraluminous magmatism; inheritance; trondhjemite; SHRIMP zircon ages

*Corresponding author. Telephone: +39 095 7195604. E-mail: pfianna{at}unict.it

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