115 research outputs found

    Tectonics and sedimentation of the central sector of the Santo Onofre rift, north Minas Gerais, Brazil

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    PIXE analysis of skarn ore fluids Bismark, Mexico

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    Metal budgets in porphyry copper deposit have been widely investigated in recent years through microanalysis (e.g. laser ablation-inductively coupled plasma-mass spectrometry (LA-ICP-MS) and proton-induced x-ray emission (PIXE)) of fluid inclusions. To date, however, there has been little application of such research to skarn systems. The Bismark deposit is a fault controlled, Zn-rich, stock-contact skarn deposit with early gamet-pyroxene alteration overprinted by massive sulfide (sphalerite-galena). Fluid inclusion studies reveal that pre-ore skarn formed from high temperature (> 400 0c), immiscible magmatic brine (type\ud 3 inclusions) and vapor (type 2 inclusions) under lithostatic conditions (- 450 bars, 1.5 km depth). Subsequent movement on the Bismark fault induced major changes in pressure « 150 bars) that resulted in entrapment of lower temperature (400 to 100°C), moderate to low salinity magmatic fluids (critical to liquid-rich type IC\ud and l A/B inclusions. PIXE analysis of the early brine and vapor fluid inclusions contain high Zn (0.3 and 0.] wt % respectively) and Pb (0.3 and 03 wI. % respectively), The later fluid inclusions contain lower Zn and Pb concentrations « 750ppm). Copper concentrations are highest in the early immiscible vapor-rich inclusions (- 400 ppm), but low overall compared to Zn and Pb (<200ppm in all other inclusion types). Ore precipitation occurred from a combination of pressure, temperature and salinity decrease and wall-rock reaction

    Water in the Supra‐Subduction‐Zone Mantle of the Mariana‐Izu‐Bonin Forearc: Constraints From Peridotitic Orthopyroxene

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    Abstract Orthopyroxene was analyzed as a proxy for water supra‐subduction‐zone peridotite by polarized infrared radiation. Samples from Conical and Torishima seamounts, Mariana‐Izu‐Bonin forearc (ODP‐Leg 125), have very similar average H2O contents of 215 ppm (range: 122–363 ppm; Conical) and 191 ppm (range: 116–292 ppm; Torishima). Conical peridotite equilibrated at lower temperature (760°C) and oxygen fugacity (ΔlogFMQ −0.65) than samples from Torishima (830°C; ΔlogFMQ +0.33). The degree of partial melting is almost identical for the two sites (18% and 20%). The H2O concentrations are considerably higher compared to samples from the Bismarck forearc (31–92 ppm; Tollan and Hermann, 2019). Instead, the average values resemble those of peridotitic orthopyroxene from MOR settings. The measured H2O contents by far exceed values expected for residual peridotite. This implies that secondary uptake of water must have occurred after melt‐extraction but prior to exhumation to shallow crustal levels. Most likely, re‐equilibration took place at c. 50 km depth. As indicated by elemental correlations and/or enhanced contents, the secondary fluid(s) must have been enriched in B, K, Li, and Sr. The boron contents of orthopyroxene are c. 10 times higher those in MOR samples. These findings suggest that peridotite from Conical and Torishima seamounts was presumably infiltrated by fluid generated by dehydration reactions in a subducting plate. The elemental spectrum points to two source lithologies: (i) serpentinite (liberation of B) and metasediments (liberation of K, Li, and Sr). The varying H2O contents point to heterogeneous fluid supply suggesting that fluid infiltration was not pervasive

    Chem. Geol.

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