Abstract
Porphyry copper–molybdenum deposits (PCDs) are the world’s most important source of copper, molybdenum and rhenium. Previous studies have reported that some PCDs can have sub-economic to economic grades of critical metals, i.e., those elements that are both essential for modern societies and subject to the risk of supply restriction (e.g., platinum group elements (PGE), rare earth elements (REE), In, Co, Te, Ge, Ga, among others). Even though some studies have reported measured concentrations of Pd and Pt in PCDs, their occurrence and mineralogical forms remain poorly constrained. Furthermore, these reconnaissance studies have focused predominantly on porphyry Cu–Au deposits, but very limited information is available for porphyry Cu–Mo systems. In this contribution, we report the occurrence of critical metal (Pd, Pt, Au, Ag, and Te) inclusions in copper sulfides from one of the largest PCDs in the world, the supergiant Río Blanco-Los Bronces deposit in central Chile. Field emission scanning electron microscope (FESEM) observations of chalcopyrite and bornite from the potassic alteration zone reveal the presence of micro- to nano-sized particles (<1–10 μm) containing noble metals, most notably Pd, Au, and Ag. The mineralogical data show that these inclusions are mostly tellurides, such as merenskyite ((Pd, Pt) (Bi, Te)2), Pd-rich hessite (Ag2Te), sylvanite ((Ag,Au)Te2) and petzite (Ag3AuTe2). The data point to Pd (and probably Pt) partitioning in copper sulfides during the high-temperature potassic alteration stage, opening new avenues of research aimed at investigating not only the mobility of PGE during mineralization and partitioning into sulfides, but also at exploring the occurrence of critical metals in porphyry Cu–Mo deposits.
Highlights
Porphyry Cu–Mo deposits (PCDs) are typically associated with calc–alkaline intrusive rocks, and currently provide 60% of world’s copper supply [1]
Our results show that platinum group elements (PGE) minerals may be more frequent in PCDs than previously thought, and that high-resolution Field emission scanning electron microscope (FESEM) techniques greatly facilitate the imaging and characterization of micrometer to nanometer-sized particles in copper sulfides
The occurrence of Pd, Pt, and Au-bearing minerals in copper sulfides at Río Blanco opens new avenues of research aimed at assessing the noble metal content of the deposit
Summary
Porphyry Cu–Mo deposits (PCDs) are typically associated with calc–alkaline intrusive rocks, and currently provide 60% of world’s copper supply [1]. Mo and Re [2], and previous studies have reported the presence of relevant amounts of other metals including Au, Ag, Se, Te, U, W, Bi, Co, and platinum group elements (PGE) [3,4,5,6,7,8,9,10,11]. Minerals 2018, 8, 519 they are both essential for modern societies and subject to the risk of supply restriction [12,13,14] Despite their strategic importance, surprisingly few trace element concentration data are available for sulfides in PCDs when compared to other deposits such as orogenic, epithermal, Carlin-type Au deposits, and volcanogenic massive sulfide (VMS) deposits [15,16,17,18].
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