Age, Geochemistry and Petrogenesis of the Ultramafic Pipes in the Ivrea Zone, NW Italy

doi:10.1093/petrology/42.2.433

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Journal of Petrology Volume 42 Number 2 Pages 433-457 2001
© Oxford University Press 2001

Age, Geochemistry and Petrogenesis of the Ultramafic Pipes in the Ivrea Zone, NW Italy

G. GARUTI¹^,*, F. BEA², F. ZACCARINI³ and P. MONTERO²

¹DEPARTMENT OF EARTH SCIENCES, UNIVERSITY OF MODENA, ST EUFEMIA 19, MODENA 41100, ITALY
²DEPARTMENT OF MINERALOGY AND PETROLOGY, UNIVERSITY OF GRANADA, CAMPUS FUENTENUEVA, 18002 GRANADA, SPAIN
³DEPARTMENT OF EARTH SCIENCES AND ENVIRONMENTAL GEOLOGY, UNIVERSITY OF BOLOGNA, PIAZZA DI PORTA S. DONATA 1, I-40126 BOLOGNA, ITALY

Pipe-like ultramafic bodies, hosting Ni–Cu–PGE sulphidedeposits, intrude the Main Gabbro and the roof metasedimentsof the Ivrea Zone, NW Italy. These bodies were emplaced at 287± 3 Ma and represent the last mantle-derived melts associatedwith an underplating event that largely drove the crustal evolutionof this area during the late Carboniferous ( $~$ 300–290 Ma).The pipes are composed of volatile-rich ultramafic rocks andgabbros with an alkaline signature simultaneously enriched inboth incompatible and the most compatible elements but depletedin elements of intermediate compatibility. The isotope compositionof these pipe rocks is ${epsilon}$ _{290 Ma}(Nd) $~$ 3·7 to -1·9and ${epsilon}$ _{290 Ma}(Sr) $~$ 0·8–26. In a ${epsilon}$ _{290 Ma}(Nd) vs ${epsilon}$ _{290 Ma}(Sr)diagram they define a linear array between the unmetasomatizedand metasomatized peridotites of Finero, but distinctly obliquewith respect to the trend defined by Balmuccia peridotites.The ${delta}$ ³⁴S ranges from 0·0 to +0·9 ${per thousand}$ and is indicativeof a mantle source. We suggest that the pipes represent infiltrationof melts derived from a depleted mantle protolith flushed withalkaline metasomatic fluids, probably of juvenile mantle origin,which underwent partial melting as a consequence of the depressionof the solidus owing to the increased activity of water andother volatiles. The similarity in age, trace-element, and isotopicsignatures indicates that the pipes were probably produced inthe course of the same metasomatic event that affected the Fineroultramafic body. The overall geochemical characteristics ofthe pipes are more consistent with magmatism related to a mantleplume than with a subduction setting.

KEY WORDS: Basic Complex; Ivrea Zone; mantle plume; underplating; zircon age

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