The Variscan subduction inheritance in the Southern Alps Sub-Continental Lithospheric Mantle: Clues from the Middle Triassic shoshonitic magmatism of the Dolomites (NE Italy)

Although often speculated, the link between the Middle Triassic shoshonitic magmatism at the NE margin of theAdria plate and the subduction-related metasomatism of the Southern Alps Sub-Continental Lithospheric Mantle(SCLM) has never been constrained. In this paper, a detailed geochemical and petrological characterization of thelavas, dykes and ultramafic cumulates belonging to the shoshonitic magmatic event that shaped the Dolomites(Southern Alps) was used to model the composition and evolution of the underlying SCLM in the time comprisedbetween the Variscan subduction and the opening of the Alpine Tethys. Geochemical models and numerical simulations enabled us to define that 5-7% partial melting of an amphibole + phlogopite-bearing spinel lherzolite,similar to the Finero phlogopite peridotite, can account for the composition of the primitive Mid-Triassic SiO2-saturated to -undersaturated melts with shoshonitic affinity (87Sr/86Sri = 0.7032-0.7058; 143Nd/144Ndi =0.51219-0.51235; Mg # ~ 70; ~1.1 wt% H2O). By taking into account the H2O content documented in mineralphases from the Finero phlogopite peridotite, it is suggested that the Mid-Triassic SCLM source was able topreserve a significant enrichment and volatile content (600-800 ppm H2O) for more than 50 Ma, i.e. since theslab-related metasomatism connected to the Variscan subduction. The partial melting of a Finero-like SCLM represents the exhaustion of the subduction-related signature in the Southern Alps lithosphere that predated theLate Triassic-Early Jurassic asthenospheric upwelling related to the opening of the Alpine Tethys.