Fluid evolution of the Nulasai Cu deposit, Xinjiang, NW China: Evidence from fluid inclusions and O-H-C isotopes

IF 3.2 2区 地球科学 Q1 GEOLOGY
Renke Wang , Xiaobo Zhao , Chunji Xue , Haixia Chu , Yun Zhao , Qing Sun , Wanjin Zhu
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Abstract

The Nulasai deposit is the earliest Cu mine in Xinjiang, NW China, and has been mined and smelted since the warring state period. Another striking characteristic of the deposit is the high-grade (ave. 1.34 % Cu) with bornite, chalcopyrite and chalcocite as main ore minerals. Through a field and petrographic investigation, three phases of hydrothermal evolution have been recognized at the Nulasai Cu deposit, including the stage I magnetite – quartz ± chalcopyrite ± bornite veins, the stage II calcite – barite ± chalcopyrite ± chalcocite ± pyrite ± bornite veins, and the stage III calcite – barite ± chalcopyrite ± sphalerite ± pyrite ± galena veins. Fluid inclusions of the stage I veins were captured under two-phase condition indicates that existence of both contemporaneous daughter mineral-bearing and liquid-rich fluid inclusions; they have an intermediate-high salinity (11.5 ∼ 38.5 wt% NaCl equiv) and homogenization temperature (266 ∼ 376 °C), with entrapment pressures from 47 to 167 bar (depth of approximately 0.5 to 1.7 km). The coexistence of vapor-rich and liquid-rich fluid inclusions was a defining feature of the stage II fluid inclusions, and they have an intermediate salinity (6.2 ∼ 10.7 wt.%NaCl equiv) and homogenization temperature (211 ∼ 287 °C), with entrapment pressures from 18 to 70 bar (depth of approximately 0.2 to 0.7 km). Fluid inclusions of the stage III veins were captured under two-phase condition, and intermediate-low salinity (3.2 ∼ 9.2 wt.%NaCl equiv) and homogenization temperature (155 ∼ 241 °C), with entrapment pressures of 6 to 32 bar (depth of 0.1 to 0.6 km). According to the stable isotope (O-H-C) data for the three mineralization phases, magmatic water containing organic carbon made up the majority of the early ore-forming fluids, whereas abundant meteoric water has been involved during the late stage of mineralization. Therefore, we suggest that fluid mixture between magmatic water and meteoric water may have led to simultaneous decrease of fluid temperature, salinity and their stable isotope values, and finally facilitates the Cu ore precipitation. This study emphasizes how high-grade Cu deposition in orogenic belts is initiated by fluid dilution.

Abstract Image

中国西北部新疆努拉赛铜矿床的流体演化:流体包裹体和 O-H-C 同位素提供的证据
努拉赛矿床是中国西北部新疆最早的铜矿,自战国时期就开始开采和冶炼。该矿床的另一个显著特点是品位高(平均含铜 1.34%),主要矿石矿物为辉铜矿、黄铜矿和白铜矿。通过实地考察和岩相学研究,努拉赛铜矿床的热液演化分为三个阶段,包括第一阶段磁铁矿-石英±黄铜矿±辉铜矿脉、第二阶段方解石-重晶石±黄铜矿±黄铁矿±辉铜矿±辉铜矿脉和第三阶段方解石-重晶石±黄铜矿±闪锌矿±黄铁矿±方铅矿脉。第一阶段矿脉的流体包裹体是在两相条件下捕获的,表明同时存在含子矿物和富液流体包裹体;它们具有中高盐度(11.5 ∼ 38.5 wt%氯化钠当量)和均质化温度(266 ∼ 376 °C),夹带压力为 47 至 167 巴(深度约为 0.5 至 1.7 千米)。富含蒸汽和富含液体的流体包裹体共存是第二阶段流体包裹体的主要特征,它们具有中等盐度(6.2 ∼ 10.7 wt.%氯化钠当量)和均质化温度(211 ∼ 287 °C),夹带压力为 18 ∼ 70 巴(深度约为 0.2 ∼ 0.7 千米)。第三阶段矿脉的流体包裹体是在两相条件下捕获的,中低盐度(3.2 ∼ 9.2 wt.%氯化钠当量)和均质温度(155 ∼ 241 °C),夹带压力为 6 至 32 巴(深度约 0.1 至 0.6 千米)。根据三个成矿期的稳定同位素(O-H-C)数据,含有机碳的岩浆水占早期成矿流体的绝大部分,而在成矿晚期则有丰富的陨石水参与。因此,我们认为岩浆水与陨石水之间的流体混合可能导致了流体温度、盐度及其稳定同位素值的同时下降,并最终促进了铜矿的沉淀。这项研究强调了造山带高品位铜矿沉积是如何通过流体稀释作用开始的。
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来源期刊
Ore Geology Reviews
Ore Geology Reviews 地学-地质学
CiteScore
6.50
自引率
27.30%
发文量
546
审稿时长
22.9 weeks
期刊介绍: Ore Geology Reviews aims to familiarize all earth scientists with recent advances in a number of interconnected disciplines related to the study of, and search for, ore deposits. The reviews range from brief to longer contributions, but the journal preferentially publishes manuscripts that fill the niche between the commonly shorter journal articles and the comprehensive book coverages, and thus has a special appeal to many authors and readers.
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