Iron-rich CaMg skarns from the SW East European Craton (Lithuania): Microstructural study, mineral reactions and direct age constraints of ore-forming events using LA-ICPMS

IF 2.9 2区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Grazina Skridlaite , Laurynas Siliauskas , Ulf Söderlund , Tomas Næraa
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Abstract

The Varena Iron Ore deposit in the SW East European Craton is a significant ore body that occurs within metamorphosed and hydrothermally reworked Paleoproterozoic dolostones. We have performed microstructural investigations supplemented with mineral chemistry and geochronological investigations (LA-ICP-MS) to obtain age constraints on the ore-forming event(s) and improve the understanding of the conditions during mineralization process. Mineral chemistry and textures suggest a drop in pressure after the event of peak metamorphic skarn formation. Influx of oxidized, iron-rich H2O fluids resulted in (1) Mg mobility that caused secondary dolomitization of calcite, (2) dissolution of metamorphic magnetite and formation of a new, inclusion-rich (Mag-1) and inclusion-poor (Mag-2) magnetite, and (3) replacement of the peak skarn assemblages. During these fluid-related processes, accessory phases of monazite, baddeleyite, and zircon were formed. Their UPb dating yield individually robust ages of 1721 ± 9 Ma (monazite, 23 spots), 1703 ± 10 Ma (baddeleyite, 18 spots) and 1706 ± 54 Ma (zircon, 14 spots), respectively. The weighted mean age of 1713 ± 7 Ma (2σ internal) is considered to represent the best age estimate of the iron-ore mineralization in the Varena Iron Ore deposit, and possibly also dates influx of P, REEs etc. into the system. This mineralization event is contemporaneous with ca. 1.73–1.70 Ga metamorphic reworking of the host rocks in the region and may be linked to regional continental-margin type Transscandinavian Igneous Belt (TIB) magmatism in south-central Sweden.

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东欧西南克拉通(立陶宛)富含铁的钙镁矽卡岩:微结构研究、矿物反应以及利用 LA-ICPMS 对成矿事件的直接年龄限制
位于东欧克拉通西南部的瓦雷纳铁矿是一个重要的矿体,位于变质和热液重整的古近纪白云岩中。我们进行了微结构研究,并辅以矿物化学和地质年代研究(LA-ICP-MS),以获得成矿事件的年龄限制,并加深对成矿过程中条件的了解。矿物化学和质地表明,在变质矽卡岩形成峰值之后,压力有所下降。氧化、富含铁的 H2O 流体的流入导致:(1)镁的流动导致方解石的二次白云石化;(2)变质磁铁矿的溶解和新的、富含包体(Mag-1)和贫含包体(Mag-2)磁铁矿的形成;以及(3)峰值矽卡岩集合体的置换。在这些与流体相关的过程中,形成了独居石、巴德来石和锆石等附属相。它们的 UPb 测定年龄分别为 1721 ± 9 Ma(独居石,23 个点)、1703 ± 10 Ma(baddeleyite,18 个点)和 1706 ± 54 Ma(锆石,14 个点)。1713 ± 7 Ma(内部 2σ)的加权平均年龄被认为是瓦雷纳铁矿矿床铁矿成矿作用的最佳年龄估计,也可能是 P、REE 等元素流入该系统的日期。这一成矿事件与该地区约 1.73-1.70 Ga 的母岩变质再加工同时发生,可能与瑞典中南部的区域大陆边缘型跨斯堪的纳维亚火成岩带岩浆活动有关。
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来源期刊
Lithos
Lithos 地学-地球化学与地球物理
CiteScore
6.80
自引率
11.40%
发文量
286
审稿时长
3.5 months
期刊介绍: Lithos publishes original research papers on the petrology, geochemistry and petrogenesis of igneous and metamorphic rocks. Papers on mineralogy/mineral physics related to petrology and petrogenetic problems are also welcomed.
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