Fe-isotopic evidence for hydrothermal reworking as a mechanism to form high-grade Fe-Ti-V oxide ores in layered intrusions

IF 4.5 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS Geochimica et Cosmochimica Acta Pub Date : 2024-11-26 DOI:10.1016/j.gca.2024.11.017
Dachuan Wang , Tong Hou , Roman Botcharnikov , Stefan Weyer , Sarah-Lynn Haselbach , Zhaochong Zhang , Meng Wang , Ingo Horn , Francois Holtz
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Abstract

The genesis of high-grade Fe-Ti-V oxide ores (up to >90 vol%) in layered intrusions remains highly debated. Here, on example of Hongge layered intrusion in China, we show that hydrothermal dissolution and precipitation of Fe-Ti-V oxides played a critical role in forming high-grade massive ore deposits as demonstrated by textural-compositional evidence and in-situ iron isotope data (δ56Fe), analyzed with femtosecond laser ablation multicollector (LA-MC-) ICP-MS. Hongge is a mafic layered intrusion composed of a Lower olivine clinopyroxenite Zone (LZ), a Middle clinopyroxenite Zone (MZ), where thick massive ore layers (with up to 90 % Fe-Ti-V oxides) formed, and an Upper gabbro Zone (UZ). Magnetite in Hongge exhibits two contrasting generations: 1) Mag1, observed in all lithological zones and formed at the magmatic stage, has extensive ilmenite exsolution lamellae and high Ti and Cr content. The δ56Fe of Mag1 shows considerable variations from −0.23 to 0.63 ‰ and strikingly an offset of ∼0.3 ‰ towards lower values in the massive ore zone compared to the zones below and above; 2) Mag2, concentrated mainly in thick massive ore layers in MZ without exsolution lamellae, is almost pure magnetite (with low Ti, Al content) and has extremely low δ56Fe values (−1.24 to −0.09 ‰), indicating precipitation from Fe-enriched hydrothermal fluids. Similarly, the δ56Fe of ilmenite shows significant variations from −1.08 to −0.27 ‰ and is significantly lower than typical values for igneous ilmenite (−0.4–0 ‰). Ilmenite displays a similar Fe isotope variation pattern to Mag1 along the stratigraphic position, i.e., with significantly lower δ56Fe in the massive ore zone. As magnetite and ilmenite together contain essentially all Fe, the isotopic shift of these minerals in the ore zone translates to a bulk isotopic offset of ∼−0.3 ‰ compared to the zones below and above. This requires a bulk flux of isotopically light Fe resulting in Fe enrichment in this zone to form massive or even monomineralic ores. The very light isotopic values, particularly hydrothermal magnetite (Mag2) and petrologic evidence, strongly indicate that the Fe flux into the massive ore layers occurred during hydrothermal reworking. This scenario is furthermore supported by magnetite-ilmenite elemental and isotopic thermometry, according to which Fe-Ti oxides experienced hydrothermal re-equilibration in a temperature range of 400–300 °C. Iron isotopic mass balance calculations imply that ∼20–30 % of the Fe in the thick massive ore layers may result from secondary enrichment through hydrothermal precipitation, significantly increasing the ore tonnages and grades. Potentially, other layered intrusions experienced similar mechanisms of hydrothermal Fe enrichment, which will have to be proven in future investigations.
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热液再加工作为层状侵入体中高品位铁-钛-钒氧化物矿石形成机制的铁同位素证据
关于层状侵入体中高品位Fe-Ti-V氧化物矿(含量高达90%)的成因仍存在很大争议。在这里,我们以中国红格尔层状侵入体为例,通过质构证据和原位铁同位素数据(δ56Fe)(用飞秒激光烧蚀多收集器(LA-MC-)ICP-MS分析),证明热液溶解和Fe-Ti-V氧化物沉淀在形成高品位块状矿床中发挥了关键作用。红格是一个黑云母层状侵入体,由下部橄榄石烊辉石区(LZ)、中部烊辉石区(MZ)和上部辉长岩区(UZ)组成,其中下部橄榄石烊辉石区形成了厚厚的块状矿层(Fe-Ti-V 氧化物含量高达 90%)。红格地区的磁铁矿呈现出两种截然不同的世代:1)Mag1,可在所有岩性区观察到,形成于岩浆阶段,具有广泛的钛铁矿外溶蚀层,Ti 和 Cr 含量高。Mag1 的 δ56Fe 在 -0.23 至 0.63 ‰ 之间有相当大的变化,并明显偏移了 ∼0.3 ‰,与下面和上面的矿带相比,块状矿带的δ56Fe 值偏低;2)Mag2 主要集中在 MZ 厚的块状矿层中,没有外溶蚀层,几乎是纯磁铁矿(Ti、Al 含量低),δ56Fe 值极低(-1.24 至-0.09 ‰),表明是从富含铁的热液中沉淀出来的。同样,钛铁矿的 δ56Fe 值在 -1.08 至 -0.27 ‰ 之间有显著变化,明显低于火成钛铁矿的典型值(-0.4-0 ‰)。钛铁矿沿地层位置显示出与 Mag1 相似的铁同位素变化模式,即在块状矿石带中,δ56Fe 明显较低。由于磁铁矿和钛铁矿基本上都含有铁,因此这些矿物在矿石区的同位素位移与上下矿石区相比会产生 ∼-0.3 ‰的整体同位素偏移。这就需要大量的轻同位素铁通量,导致铁在这一区域富集,形成块状甚至单矿物矿石。极轻的同位素值,特别是热液磁铁矿(Mag2)和岩石学证据都有力地表明,进入块状矿层的铁通量是在热液再加工过程中产生的。此外,磁铁矿-钛铁矿元素和同位素温度测定法也支持这一假设,根据该测定法,铁-钛氧化物在 400-300 °C 的温度范围内经历了热液再平衡。铁同位素质量平衡计算表明,厚块状矿层中 20-30% 的铁可能来自热液沉淀的二次富集,从而大大提高了矿石的吨位和品位。其他层状侵入体可能也经历了类似的热液富集铁的机制,这需要在今后的研究中加以证实。
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来源期刊
Geochimica et Cosmochimica Acta
Geochimica et Cosmochimica Acta 地学-地球化学与地球物理
CiteScore
9.60
自引率
14.00%
发文量
437
审稿时长
6 months
期刊介绍: Geochimica et Cosmochimica Acta publishes research papers in a wide range of subjects in terrestrial geochemistry, meteoritics, and planetary geochemistry. The scope of the journal includes: 1). Physical chemistry of gases, aqueous solutions, glasses, and crystalline solids 2). Igneous and metamorphic petrology 3). Chemical processes in the atmosphere, hydrosphere, biosphere, and lithosphere of the Earth 4). Organic geochemistry 5). Isotope geochemistry 6). Meteoritics and meteorite impacts 7). Lunar science; and 8). Planetary geochemistry.
期刊最新文献
Fe-isotopic evidence for hydrothermal reworking as a mechanism to form high-grade Fe-Ti-V oxide ores in layered intrusions Copper isotopic evidence of microbial gold fixation in the Mesoarchean Witwatersrand Basin The partitioning of chalcophile and siderophile elements (CSEs) between sulfide liquid and carbonated melt An oxygen fugacity-temperature-pressure-composition model for sulfide speciation in Mercurian magmas Layer-to-tunnel manganese oxides transformation triggered by pyrogenic carbon and trace metals: Key role of reducing and oxidizing components cooperation
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