Phyllosilicates geochemistry and distribution in the Altar porphyry Cu-(Au) deposit, Andes Cordillera of San Juan, Argentina:: Applications in exploration, geothermometry, and geometallurgy
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Date
August 2016
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Elsevier
Abstract
Biotite, chlorite, muscovite, illite, and kaolinite from the Altar porphyry Cu-(Au) deposit of the Andean Main Cordillera of San Juan Province (Argentina) were constrained using X-ray diffraction,
electron microprobe, and infrared spectroscopy analyses to map compositional variations. Magmatic and hydrothermal biotites from the andesite-dacite mineralized porphyries have
higher XMg, K, and F contents and lower Fe/(Fe+Mg) ratios compared to the magmatic biotites from the andesite-dacite barren porphyries of the district Hydrothermal biotites from deep levels with
potassic alteration and high Cu grades have the highest XMg ratios and high F contents. The similarity of the log fH2O/fHF, log fHF/fHCl, and log fH2O/fHCl fugacity ratios of biotites from Altar
mineralized porphyries and from the neighbouring Los Pelambres porphyry copper deposit suggests that these parameters may be a function of the magmatic source. Chlorite crystals associated with Cu
mineralization (0.2 to 1.2 % Cu) show lower Fe and Mn and higher Mg contents than chlorite from shallow and distal zones. Potassic dioctahedral phyllosilicates are the most abundant phyllosilicates in
the Altar deposit, occur in the phyllic and chloritic zones, and are superimposed on potassic alteration. In zones of high copper grades (> 0.8% Cu), potassic dioctahedral phyllosilicates have total Al (apfu)
between 2.4 and 2.8 and intermediate compositions between muscovite, phengitic muscovite, and illite, whereas those with higher and lower Al contents come from zones with lower Cu grades.
Temperatures obtained from XMg-Ti equilibria in biotite (691-800°C) and IVAl occupancy in chlorite (214-340C), agree with previous temperature estimates based on Ti in quartz and fluid
inclusion microthermometry. Muscovite is stable at temperatures higher than ~300°C, whereas phengitic muscovite indicates temperatures between 280 and 400°C and higher K+/H+ conditions (less
acidic enviroment) compared to muscovite. Illite represents a younger and cooler (220 to 310°C). Our study demonstrates that variations in phyllosilicate composition have the potential to be
used as vectors in ore exploration and to differentiate between barren and fertile intrusions. A detailed analysis of type and proportion of phyllosilicates, as well as the presence of ore minerals in fine
fractions, should be undertaken to optimize metal recoveries during the upcoming benefaction of these ores.