The distribution of halogens and carbon in PGE-bearing ultramafics of the Acoje ophiolite block, Zambales, Philippines

Abstract

Evidence for redistribution of Pt and Pd in the Acoje ultramafic rocks led to an investigation of the role of Cl, Br, F, I and C in Pt and Pd transport in hydrothermal solution. Anomalously high contents of 300–1000 ppm Cl, ∼3 ppm Br, up to 50 ppm F, 180–380 ppm I and 300–3300 ppm C are characteristic of the Acoje ultramafic rocks. The Cl and Br concentrations are restricted to serpentinized dunites and a positive correlation between Br and Cl indicate their common origin and their introduction during serpentinization. The ratios Br/Cl,F/Cl, and I/Cl correspond to those of sediments that contain seawater which suggests that Cl, Br and I were partly expelled from deep sea sediments during emplacement of the ophiolite. Fluorine could have been derived from mantle material. Carbon occurs in fluid inclusions in olivines as CO 2, CO or CH 4 and/or submicroscopic graphite. The high C content in serpentinized dunites suggests that C, at least in part, is also of serpentinization origin. Chlorine is mainly incorporated into Fe-rich serpentines and Ca-amphiboles. Very low F concentration in hydrous phases is common, except in serpentines from pyroxenes, pargasites and edenites. Brucite is finely dispersed in serpentines derived from olivines, indicating low CO 2-activity during brucite formation and a pH of about 11. The presence of Pt and Pd tellurides, arsenides and bismuthides and the absence of selenides, in spite of elevated Se concentrations in bulk analyses of about 5 ppm, indicates that the stability conditions for selenide formation were not obtained during alteration. The formation of Pt and Pd halogen complexes, requiring highly oxidizing ( f O 2 > hematite-magnetite boundary (HM)) and acid environments is not favoured for Pt and Pd transport in Acoje ultramafics. An redistribution caused by the solubility reduction of Pt and Pd by Te, Bi and As and a precipitation of their intermetallic phases is proposed. No correlation between Cl and PGE-bearing rock units was observed, which indicates the minor role of halogens during redistribution of Pt and Pd in the Acoje ophiolite.