MODELO GENETICO DE LOS SKARNS DE Fe DE VEGAS PELADAS, MENDOZA, ARGENTINA

MAR&237A JOSEFINA PONSS; MARTA FRANCHINI; GRACIELA MAS; FRANCISCO JAVIER R&205OSS

Revista Asociacion Geologica Argentina

Asociacion Geologica Argentina

Lugar: Buenos Aires; Año: 2009 vol. 64 p. 615 - 634

0004-4822

Based on fluid inclusions (FI) studies, the Fe skarn associated with the diorite pluton in Vegas Peladas formed at 3,5 km depth, under lithostatic pressure of 950 bars, at expenses of high salinity (up to 70 wt. % NaCl eq.) - high temperature fluids (670°-400°C). These NaCl ± KCl ± FeCln ± hematite rich fluids along with vapour may have been formed by the immiscibility of low salinity (6-8 wt. % NaCl eq.) magmatic fluids. The isotopic data of the water in equilibrium with garnet (ä18O 7.2-8.5‰) and with magnetite (4.8-7.9‰) confirm the magmatic origin for these early fluids. During the interaction with the wall rocks and the formation of the prograde exoskarn, fluids decreased isobarically their temperatures (up to ~250°C). The continuum volatile exsolution from the magma and sealing of conducts by the precipitation of silicates generated overpressures, consequent fracturing of the exoskarn, and boiling of the fluids. Under hydrostatic pressures, the increase of permeability allowed the infiltration of external fluids (formations water ± meteoric water?) to the hydrothermal system, their mixing with the magmatic fluids and cooling, promoting early silicate mineral instability and their replacement by hydrous minerals, quartz (with ä18O values -0.55 a 4.5‰) and the massive precipitation of most iron oxides. The FI record indicates fluids with lower salinities (41.6-23 wt. % NaCl eq), temperatures between 420° and 320°C, and hydrostatic pressure of 325 to 125 bars for this stage. The decrease in temperature and salinitywere the main factors that favoured the iron ore precipitation. FI in calcite from later veins that cut all the prograde and retrograde assemblages indicate fluids with the lowest temperatures (165-315°C) and salinities (8.4 y 13.5 wt. % NaCl eq.). The ä18O values for the water in equilibrium with this epidote (-4.66 a 0.19‰) and calcite (-3.9 a 2.68 ‰), suggest mixing and dilutionof previous fluids with meteoric water (with a dominance of the later) during cooling and collapse of the hydrothermal system. The intrusion of the granite pluton increased the temperature of the previous skarn (>550°C) and generated saline fluids and vapour by immiscibility that caused dissolution of Fe from previous skarn. These brines carried Fe in solution and, when cooled, precipitated it as iron oxides along with the new skarn minerals around the granite