Serpentinite Dehydration as a Source of Fluids and Metals In Hydrothermal Gold-Bearing Veins In the Bullrun Creek District, Northeastern Oregon
This study focused on a ~16 m wide outcrop of serpentinite, into which a ~2 m thick dike of porphyritic tonalite intruded. In comparison to unaltered serpentinite at either end of the outcrop, serpentinite adjacent to the dike has low total Fe, MgO, and H2O, and higher SiO2, CaO, and CO2. Loss of H2O in these rocks is suggestive of thermal dehydration during dike emplacement. Results of thermal analyses indicate that serpentine (as opposed to anthophyllite or talc) was the principal dehydrating phase adjacent to the dike, and that dehydration occurred at temperatures below the tonalite solidus. It is suggested that breakdown of serpentine and an Fe-bearing phase (e.g., orthopyroxene, magnetite) supplied Mg and Fe, respectively, that was removed by the dehydration fluid. These results suggest that dehydration of serpentinite adjacent to the Bullrun Creek stock may have provided the fluid and metals (Mg and Fe) that formed the hydrothermal veins within the pluton. The presence of numerous gold mines within the serpentinized peridotite suggests that serpentinite dehydration might have supplied the Au observed in the hydrothermal veins as well. Similarities between these veins and Fe-oxide CuAu deposits worldwide suggest that these results may have implications for the origin of Feoxide Cu-Au mineralization elsewhere.