Separation of iron and copper in skarn deposits from the Yueshan ore field, eastern China: The control of magma physicochemical conditions

IF 3.2 2区 地球科学 Q1 GEOLOGY Ore Geology Reviews Pub Date : 2024-11-01 DOI:10.1016/j.oregeorev.2024.106316
Xian Liang , Fang-Yue Wang , Long Zhang , Tao-Fa Zhou , Yu Fan , Xian-Zheng Guo , Jun-Wu Zhang
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Abstract

Iron and copper mineralization in the Yueshan ore field is intricately linked to the Cretaceous Yueshan diorite intrusions, yet they frequently materialize as distinct deposits. Despite this, the key factors dictating the segregation of these metals remain poorly understood. To gain insights into the role of magma physicochemical conditions in this segregation, we conduct a comparative analysis of the U-Pb dating, whole-rock geochemistry, and mineral chemistry of the newly uncovered Zhuchong skarn iron deposit (Fe:Cu ratio = 197) and the Anqing skarn copper deposit (Fe:Cu ratio = 35), both situated within the Yueshan ore field of the Middle Lower Yangtze River Valley Metallogenic Belt (MLYB) in eastern China. The garnet U-Pb dating of the Zhuchong and Anqing deposits are 138.3 Ma and 137.2 Ma, respectively, which are consistent with the zircon U-Pb dating (138.3 Ma) of diorites from the Zhuchong and Anqing deposit. The emplacement of diorite intrusions and Fe-Cu mineralization occurred at 137 – 139 Ma, consistent with the Cu-polymetallic mineralization epoch (145 – 137 Ma) in the MLYB. The diorite samples from the Yueshan intrusion and the Zhuchong and the Anqing deposits exhibit typical characteristics of adakites, such as high Sr/Y (28 – 174) and (La/Yb)N (26 – 40), along with similar and enriched Sr-Nd (εNd(t) =  − 7.95 ∼  − 7.33) and zircon Hf isotope (−14.9 ∼  − 6.4) compositions. This suggests that the magma source regions for the diorites from the three locations were all likely derived from the melting of sediment-rich subducted oceanic crust with the potential of copper mineralization. However, chemical compositions of zircon, apatite, and amphibole from diorites reveal that diorites in the Zhuchong and Anqing deposits were emplaced at different depth levels and physicochemical conditions. Specially, the diorite in the Zhuchong Fe deposit was emplaced at shallower levels (1.9 km), with higher oxygen fugacity (mean = ΔNNO + 1.9) and fluorine concentration (2096 ppm), water deficiency (3.3 ± 0.4 wt%), sulfur-poor conditions (avg = 494 ppm), lower pressure (49.2 MPa), temperature (746 ℃), and chlorine (945 ppm) concentration relative to the Anqing Cu deposit (Emplacement depth: 2.53 km; oxygen fugacity: ΔNNO + 1.5; F: 1720 ppm; H2Omelt: 3.9 ± 0.4 wt%; S: 816 ppm; P: 66.9 MPa; T: 778 ℃; Cl: 945 ppm).
It is proposed that a shallower emplacement depth may have promoted extensive exsolution of magmatic fluids, leading to the outward migration of water, S, Cl, and Cu elements, which resulted in the high iron-copper ratio observed at the Zhuchong Fe deposit. This process could have led to the relative Cl-poor nature and smaller Cu size at the Zhuchong Fe deposit, as well as the widespread development of vein-type copper ore bodies in the region.

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中国东部月山矿田矽卡岩矿床中铁和铜的分离:岩浆物理化学条件的控制
月山矿区的铁和铜矿化与白垩纪月山闪长岩侵入体有着千丝万缕的联系,但它们经常以不同的矿床形式出现。尽管如此,人们对决定这些金属偏析的关键因素仍然知之甚少。为了深入了解岩浆物理化学条件在这种偏析中的作用,我们对新发现的朱冲矽卡岩铁矿床(铁铜比=197)和安庆矽卡岩铜矿床(铁铜比=35)的铀-铅年代测定、全岩地球化学和矿物化学进行了对比分析。朱冲和安庆矿床的石榴石U-Pb年代分别为138.3 Ma和137.2 Ma,与朱冲和安庆矿床闪长岩的锆石U-Pb年代(138.3 Ma)一致。闪长岩侵入体和铁-铜成矿作用发生在137-139Ma,与MLYB的铜-多金属成矿纪(145-137Ma)一致。岳山侵入体、朱冲矿床和安庆矿床的闪长岩样品表现出典型的英安岩特征,如高Sr/Y(28 - 174)和(La/Yb)N(26 - 40),以及相似和富集的Sr-Nd(εNd(t) = - 7.95 ∼ - 7.33)和锆石Hf同位素(-14.9 ∼ - 6.4)成分。这表明三地闪长岩的岩浆源区都可能来自富含沉积物的俯冲洋壳的熔融,具有铜矿化的潜力。然而,闪长岩中锆石、磷灰石和闪石的化学成分显示,朱冲矿床和安庆矿床的闪长岩是在不同的深度和物理化学条件下喷出的。其中,朱冲铁矿床的闪长岩赋存深度较浅(1.9 千米),氧富集度(平均值 = ΔNNO + 1.9)和氟浓度(2096 ppm)较高,缺水(3.3 ± 0.4 wt%)、贫硫条件(平均 = 494 ppm)、较低的压力(49.2 MPa)、温度(746 ℃)和氯浓度(945 ppm):据推测,较浅的成矿深度可能促进了岩浆流体的广泛溶解,导致水、S、Cl和Cu元素向外迁移,从而使朱冲铁矿床出现了较高的铁铜比。这一过程可能导致了朱冲铁矿床相对贫Cl和较小的铜粒度,以及该地区脉型铜矿体的广泛发育。
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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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