Abstract
In the Sauce Chico Complex (Neoproterozoic-middle Cambrian age; Ventania System, Argentina), polymetamorphosed carbonate xenoliths known as the Loma Marcelo skarn are hosted in an Ediacaran peraluminous granite. The skarn has three types of vesuvianite, namely a, b and c, with different colors, habits, and/or mineral assemblages. They were studied through petrographic microscopy, electron microprobe, inductively-coupled mass and atomic emission spectrometry, Raman and Mössbauer spectroscopy, X-ray (powder and single crystal) diffraction, and fluid inclusions and stable isotope analyses. The averaged composition of the Loma Marcelo skarn vesuvianite is XCa19.00Y(Al9.57Fe2+1.29Fe3+0.50Mg1.17Ti0.48Mn2+0.04)Σ = 13.05T□Z(Si18O68)W(OH5.79F3.03Cl0.28O0.90)Σ = 10.00 and corresponds to vesuvianite sensu stricto. Negligible amounts of XNa and TB were detected. Only Zn, Sr, Ce, La, and Sn are in concentrations >50 ppm. Through single-crystal XRD, the crystal structure of vesuvianite types a and b was refined in the P4/nnc space-group (domains with P4/n symmetry are also present). Type c vesuvianite could not be satisfactorily refined; however, a P4/n symmetry is suspected. By comparing the Loma Marcelo skarn vesuvianite cell parameters with those from other vesuvianites worldwide, it becomes clear that the symmetry does not influence such parameters. Based on Raman, single-crystal XRD data, and structural and chemical characteristics, formation temperatures of 550 °C (type b), 450 °C (type a), and 300–400 °C (type c) were estimated. δ18OH2O values of ca. +11.9‰ calculated for these temperatures from δ18O values determined on vesuvianite concentrates and the vesuvianite-water fractionation factors are compatible with a peraluminous granitic source. According to this, the Loma Marcelo skarn vesuvianite appear to reflect a retrograde process related to the crystallization of the Ediacaran granite hosting the metasomatized xenoliths. During a subsequent protracted Permian tectono-metamorphic event, biphasic secondary fluid inclusions were trapped at ca. 270–339 °C (ca. 250 MPa) from low salinity metamorphic fluids. Stable isotope determinations of H and O on vesuvianite concentrates indicate that the interaction with magmatic and metamorphic aqueous fluids promoted modifications in the 2H/1H ratios of the hydroxyl groups from the W sites, whereas the 18O/16O ratios of the silicate groups were not substantially modified. Notably, the vesuvianite structure is highly stable, remaining unchanged after formation. This stability suggests vesuvianite-group minerals could serve as a reliable XRD-based thermometer.