机构地区:[1]Institute of Geology of Ore Deposits Petrography,Mineralogy & Geochemistry,Russian Academy of Sciences,Moscow,Russia [2]Lomonosov Moscow State University,Moscow,Russia [3]Lomonosov Moscow State University Moscow,Russia [4]Vinogradov Institute of Geochemistry Irkutsk,Russia [5]Institute of Precambrian Geology and Geochronology RAS,Saint-Petersburg,Russia [6]Vernadsky Institute of Geochemistry and Analytical Chemistry RAS,Moscow,Russia
出 处:《Geoscience Frontiers》2012年第1期59-71,共13页地学前缘(英文版)
基 金:carried out within the framework of the UNESCOIGCP project 540"Gold-bearing hydrothermal fluids of orogenic deposits"and the Russian Foundation for Basic Research(projects 09-05-00697 and 11-05-1207ofi-m)
摘 要:Zoned tourmaline (schorl-dravite) in the matrix of hydrothermal explosive breccia and ore veins in gold deposits, Chita region, Eastern Transbaikalia, Russia, are associated with Na- and K-rich porphyry-type subvolcanic intrusives. 61So values of tourmaline from three gold deposits (Darasun, Talatui, Teremkinskoye) are +8.3%, +7.6%, and --6.0% and calculated 6180 values of fluids respon- sible for the tourmalinization are +7.3%, +7.7%, and +4.2%, respectively. These data imply an igneous fluid source, except at the Teremkin deposit where mixing with meteoric water is indicated. Wide ranges of Fe3+/Fetot and the presence of vacancies characterize the Darasun deposit tourmaline indicating wide ranges off(O2) and pH of mineralizing fluids. Initial stage tourmalines from the gold deposits of the Darasun ore district are dravite or high mg schorl. Second stage tourmaline is characterized by oscillatory zoning but with Fe generally increasing towards crystal rims indicating decreasing temperature. Third stage tourmaline formed unzoned crystals with XMg (mole fraction of Mg) close to that of the first stage tourmaline, due to a close association with pyrite and arsenopyrite. From Fe^3+/Fetot values, chemical composition and crystallization temperatures, logf(O2) of mineralizing fluids ranged from ca. -25 to 20, much higher than for the gold-bearing beresite-listvenite association, indicating that tourmalinization was not related to gold mineralization.Zoned tourmaline (schorl-dravite) in the matrix of hydrothermal explosive breccia and ore veins in gold deposits, Chita region, Eastern Transbaikalia, Russia, are associated with Na- and K-rich porphyry-type subvolcanic intrusives. 61So values of tourmaline from three gold deposits (Darasun, Talatui, Teremkinskoye) are +8.3%, +7.6%, and --6.0% and calculated 6180 values of fluids respon- sible for the tourmalinization are +7.3%, +7.7%, and +4.2%, respectively. These data imply an igneous fluid source, except at the Teremkin deposit where mixing with meteoric water is indicated. Wide ranges of Fe3+/Fetot and the presence of vacancies characterize the Darasun deposit tourmaline indicating wide ranges off(O2) and pH of mineralizing fluids. Initial stage tourmalines from the gold deposits of the Darasun ore district are dravite or high mg schorl. Second stage tourmaline is characterized by oscillatory zoning but with Fe generally increasing towards crystal rims indicating decreasing temperature. Third stage tourmaline formed unzoned crystals with XMg (mole fraction of Mg) close to that of the first stage tourmaline, due to a close association with pyrite and arsenopyrite. From Fe^3+/Fetot values, chemical composition and crystallization temperatures, logf(O2) of mineralizing fluids ranged from ca. -25 to 20, much higher than for the gold-bearing beresite-listvenite association, indicating that tourmalinization was not related to gold mineralization.
关 键 词:Tourmaline composition Fluid inclusions Oxygen isotopes Gold deposits TRANSBAIKALIA RUSSIA
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