南萨里沙干花岗岩岩体(西巴尔喀什地区)成矿蚀变条件及流体制度特征

Q4 Earth and Planetary Sciences Litosfera Pub Date : 2023-11-04 DOI:10.24930/1681-9004-2023-23-5-887-909
G. Yu. Shardakova, A. V. Korovko, N. A. Antonishin
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引用次数: 0

摘要

研究课题。首次研究了南Saryshagan岩体(西巴尔喀什)花岗岩的矿物组成、岩石地球化学特征、生成和交代蚀变条件、流体状态(基于磷灰石中F、Sl和S的行为)以及成矿潜力。材料和方法。x射线荧光和原子发射方法的岩石分析(钻井岩心),以及微探针(抛光切片)的矿物组成研究。结果。岩石成分为中碱性花岗岩,形成于2 kbar左右的生成压力和670℃的温度下。随后的交代转化是中温(313-350℃)和多阶段的,即千层石化和绿泥石化。绿泥石的含铁成分及其发育区域局限于断裂带表明了该过程的局部规模。矿石成矿以黄铜矿为主,偶含金。根据花岗岩磷灰石的形态和组成特征,可将其分为岩浆成因颗粒和岩浆成因转化产物两大类。在F-Cl-S比值图中,它们的大部分组成点位于产铜斑岩矿化的岩石区。结论。矿物组合和对磷灰石中F、Cl和S行为的分析表明,在开放体系条件下,流体相的组成随时间的变化。在磷灰石中,硫的积累达到最大值(0.012 wt % S)的同时,Cl的量增加,F的量减少。当S达到这一水平后,磷灰石中Cl的含量降低,F的含量显著增加;结果表明,富铜斑岩体系中后两种元素的含量相对较低,富铜斑岩体系中后两种元素的含量相对较低。由于调动铜的量取决于流体中Cl和S的含量以及流体的体积(由侵入体本身的大小决定;在我们的例子中,它是一个小体),预测南Saryshagan侵入体上部层位的铜储量很小。
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Generation and alteration conditions, fluid regime features of the ore-magmatic system of the South Saryshagan granite intrusion (Western Balkhash region)
Research subject . For the first time, the mineral composition, petro- and geochemical features, generation and metasomatic alteration conditions, fluid regime (based on the behavior of F, Sl, and S in apatites), and ore-generating potential of granitoids from the South Saryshagan intrusion (Western Balkhash) were studied. Materials and methods . X-ray fluorescence and atomic emission methods of rock analysis (drilling well core), as well as microprobe (polished sections) studies of mineral composition. Results . The rock composition was found to correspond to moderately alkaline granites, formed at a generation pressure of about 2 kbar and T = 670°C. Subsequent metasomatic transformations were mediumtemperature (313–350°C) and multistage, i.e., phyllitization followed by chloritization. The ferrous composition of chlorite and the confinement of its development area to fracture zones indicate the local scale of the process. Ore mineralization is mainly represented by chalcopyrite, occasionally containing Au. According to the morphology and composition features, apatites from granites can be divided into two groups, i.e., magmatogenic grains and products of their transformations. In a diagram of F-Cl-S ratios, most points of their composition lie in the fields of rocks productive of Cu-porphyry mineralization. Conclusions . Mineral associations and the analysis of F, Cl, and S behavior in apatites indicate changes in the composition of the fluid phase over time under the conditions of an open system. In apatites, sulfur accumulates to the maximum level (0.012 wt % S) simultaneously with an increase in the amount of Cl and a decrease in the amount of F. After S reaches this level, the Cl content in apatites decreases followed by a notable increase in F; as a result, the late portions of the fluid become depleted of F, but enriched with Cl and S. In general, the content of the latter two components is low, compared with that typical of rich Cu–porphyry systems. Since the amount of mobilized copper depends on both the contents of Cl and S in the fluid and the volume of this fluid (determined by the size of the intrusion itself; in our case, it is a small body), the predicted copper reserves in the upper horizons of the South Saryshagan intrusion are small.
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来源期刊
Litosfera
Litosfera Earth and Planetary Sciences-Geophysics
CiteScore
0.70
自引率
0.00%
发文量
39
审稿时长
12 weeks
期刊最新文献
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