中国西北地区镍铜矿床的橄榄石镍同位素:玄武岩岩浆系统中潜在的硫化物偏析指标

IF 3.2 2区 地球科学 Q1 GEOLOGY
Ya-Jing Mao , Shui-Jiong Wang , Min Li , Ben-Xun Su , Xin-Yi Li , Xu-Yang Zheng , Ke-Zhang Qin
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引用次数: 0

摘要

从硅酸盐岩浆中分离出硫化物是形成岩浆硫化物矿床的关键,但一直缺乏可靠的镍同位素指标。本研究调查了中国西北天山东部三个岩浆镍铜矿床橄榄石和共生硫化物的镍同位素组成,揭示了岩浆分异和硫化物偏析过程中镍同位素的行为。橄榄石分离物中的δ60/58Ni值(+0.15至+0.68‰,中值0.40‰)明显高于典型的地幔和玄武岩值(+0.11至+0.23‰)。铁镁质未分区橄榄石边缘的镍含量降低,表明硫化物和橄榄石之间存在一定程度的结晶后铁镍扩散。晶粒内扩散建模结果表明,当 Ni 的扩散改性扩展到核心时,橄榄石中的δ60/58Ni 值变化可达 0.5 ‰ 至 1 ‰。然而,在橄榄石样品的边缘观察到的较薄的镍梯度和在核心中相对平坦的镍剖面表明动力学修饰是有限的。此外,δ60/58Ni 值与橄榄石中的镍含量和镍/钴比呈负相关。硫化物分离物在同位素上比共存的橄榄石晶粒轻,δ60/58Niolivine - δ60/58Nisulfide值范围为+0.10至+0.40‰(中值+0.22‰)。鉴于橄榄石和硅酸盐熔体之间的镍同位素分馏有限,观测到的橄榄石和硫化物之间的镍同位素差异可归因于岩浆温度下硅酸盐熔体和硫化物熔体之间的镍同位素分馏,将同位素轻的镍有效地纳入硫化物熔体。硫化物偏析驱动的镍同位素分馏与在黄山东矿床两个高度分异的岩浆岩单元的橄榄石晶粒中观察到的不同镍同位素组成相吻合,这两个单元具有不同的硫化物演化历史。来自矿化辉长岩的橄榄石颗粒的δ60/58Ni值(+0.68 ‰,第三阶段)高于来自硫化物贫瘠橄榄石辉长岩的橄榄石颗粒(δ60/58Ni = +0.23‰,第一阶段)。黄山西橄榄岩中不同程度硫化物偏析和岩浆补给区间的系统地层Ni同位素变化进一步支持了这一解释。这些研究结果表明,只要仔细评估扩散作用,橄榄石中的Ni同位素是追踪硫化物偏析的可靠手段。在扩散修饰有限的情况下,橄榄石中广泛存在的重镍同位素特征(δ60/58Ni > 0.3 ‰)可作为硫化物偏析和探索岩浆镍铜矿床的重要指标。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Olivine Ni isotopes of Ni-Cu deposits in northwest China: A potential sulfide segregation indicator in basaltic magmatic systems

Olivine Ni isotopes of Ni-Cu deposits in northwest China: A potential sulfide segregation indicator in basaltic magmatic systems
Sulfide segregation from silicate magmas is essential in forming magmatic sulfide deposits, but a robust Ni isotopic indicator has been lacking. This study investigates the Ni isotopic compositions of olivine and coexisting sulfide from three magmatic Ni-Cu deposits in East Tianshan, northwest China, to reveal the behavior of Ni isotopes during magmatic differentiation and sulfide segregation processes. The δ60/58Ni values in olivine separates (+0.15 to +0.68 ‰, median 0.40 ‰) are notably higher than typical mantle and basalt values (+0.11 to +0.23 ‰). Decreased Ni at the rim of Fe-Mg unzoned olivine indicates certain degrees of post-crystallization Fe-Ni diffusion between sulfide and olivine. The intragrain diffusion modeling results show that the δ60/58Ni values in olivine can change up to 0.5 ‰ to 1 ‰ when the diffusional modification of Ni extends to the core. However, the observed thin Ni gradient at the rim and relatively flat Ni profiles in the cores of the olivine samples suggest limited kinetic modifications. Moreover, the δ60/58Ni values negatively correlate with the Ni content and Ni/Co ratio in olivine. The sulfide separates are isotopically lighter than the coexisting olivine grain, with δ60/58Niolivineδ60/58Nisulfide values ranging from +0.10 to +0.40 ‰ (median +0.22 ‰). Given limited Ni isotope fractionation between olivine and silicate melt, the observed Ni isotopic differences between olivine and sulfides are attributed to Ni isotope fractionation between silicate melt and sulfide melt at magmatic temperatures, efficiently incorporating isotopically light Ni into the sulfide melt. The sulfide segregation-driven Ni isotope fractionation aligns with the distinct Ni isotopic compositions observed in olivine grains from two highly differentiated mafic units of the Huangshandong deposit with different sulfide evolution histories. Olivine grains from mineralized gabbronorite have higher δ60/58Ni values (+0.68 ‰, Phase III) than those from sulfide-barren olivine gabbro (δ60/58Ni = +0.23 ‰, Phase I). Systematic stratigraphic Ni isotope variations in the Huangshanxi olivine from intervals with varying degrees of sulfide segregation and magma replenishment further support this interpretation. These findings demonstrate that Ni isotopes in olivine are reliable for tracing sulfide segregation, provided that diffusional modification is carefully assessed. With limited diffusional modification, the widespread isotopically heavy Ni signature in olivine (δ60/58Ni > 0.3 ‰) serves as a valuable indicator for sulfide segregation and exploring magmatic Ni-Cu deposits.
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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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