Development of a laser ablation ICP-MS method for the analysis of fluid inclusions associated with volcanogenic massive sulfide deposits

IF 1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Geochemistry-Exploration Environment Analysis Pub Date : 2021-03-17 DOI:10.1144/geochem2020-043
M. Schmidt, M. Leybourne, J. Peter, D. Petts, S. Jackson, D. Layton-Matthews
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引用次数: 2

Abstract

There is increasing acceptance of the presence of variable magmatic contributions to the mineralizing fluids in the formation of volcanogenic massive sulfide (VMS) deposits. The world-class Windy Craggy Cu-Co-Au deposit (>300 MT @ 2.12 wt% Cu) in northwestern British Columbia is of interest because, unlike most VMS deposits, fluid inclusions in quartz from within the deposit range from relatively low to intermediate salinity (most 6–16 wt% equivalent). In this study we used an excimer (193 nm) laser ablation system interfaced to a quadrupole inductively coupled plasma mass spectrometer to quantify key metals and metalloids that are considered by many to be indicative of magmatic contributions to hydrothermal ore deposits. Although LA-ICP-MS signals from these low-salinity inclusions are highly transient, we were able to quantify Na, Mg, K, Ca, Mn, Fe, Co, Cu, Zn, Sr, Sn, Ba, Ce, Pb and Bi consistently – of the 34 elements that were monitored. Furthermore, Cl, Sb, Cd, Mo, Rb, Br and As were also measured in a significant number of inclusions. Comparison of the fluid inclusion chemistry with unaltered and altered mafic volcanic and sedimentary rocks and mineralized samples from the deposit indicate that enrichment in the main ore metals (Cu, Zn, Fe, Pb) in the inclusions reflects that of the altered rocks and sulfides. Metals and metalloids that may indicate a magmatic contribution typically show much greater enrichments in the fluid inclusions over the host rocks at the same Cu concentration; in particular Bi, Sn and Sb are significantly elevated when compared to the host rock samples. These data are consistent with the ore-forming fluids at Windy Craggy having a strong magmatic contribution. Supplementary material: fluid inclusion data for temperature of homogenization and salinity, and full analytical results for laser ablation ICP-MS analyses of individual inclusions for the two analytical sessions are available at https://doi.org/10.6084/m9.figshare.c.5443094
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火山块状硫化物矿床流体包裹体激光烧蚀ICP-MS分析方法的建立
在火山成因块状硫化物(VMS)矿床的形成过程中,人们越来越接受各种岩浆对成矿流体的贡献。世界级Windy Craggy Cu-Co Au矿床(>300 MT@2.12 与大多数VMS矿床不同,矿床内石英中的流体包裹体盐度从相对较低到中等(大多数为6-16 wt%当量)。在这项研究中,我们使用了准分子(193 nm)激光烧蚀系统,该系统与四极电感耦合等离子体质谱仪接口以量化被许多人认为指示岩浆对热液矿床的贡献的关键金属和准金属。尽管这些低盐度包裹体的LA-ICP-MS信号是高度瞬态的,但我们能够始终如一地量化监测的34种元素中的Na、Mg、K、Ca、Mn、Fe、Co、Cu、Zn、Sr、Sn、Ba、Ce、Pb和Bi。此外,在大量夹杂物中还测量到Cl、Sb、Cd、Mo、Rb、Br和As。流体包裹体化学与未经改变和蚀变的镁铁质火山岩和沉积岩以及矿床的矿化样品的比较表明,包裹体中主要矿石金属(Cu、Zn、Fe、Pb)的富集反映了蚀变岩和硫化物的富集。在相同的Cu浓度下,可能表明岩浆作用的金属和准金属通常在宿主岩石上方的流体包裹体中显示出更大的富集度;特别是Bi、Sn和Sb与宿主岩石样品相比显著升高。这些数据与Windy Craggy的成矿流体一致,后者具有强烈的岩浆贡献。补充材料:均化温度和盐度的流体包裹体数据,以及两次分析会议中单个包裹体的激光烧蚀ICP-MS分析的完整分析结果,可在https://doi.org/10.6084/m9.figshare.c.5443094
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来源期刊
Geochemistry-Exploration Environment Analysis
Geochemistry-Exploration Environment Analysis 地学-地球化学与地球物理
CiteScore
3.60
自引率
16.70%
发文量
30
审稿时长
1 months
期刊介绍: Geochemistry: Exploration, Environment, Analysis (GEEA) is a co-owned journal of the Geological Society of London and the Association of Applied Geochemists (AAG). GEEA focuses on mineral exploration using geochemistry; related fields also covered include geoanalysis, the development of methods and techniques used to analyse geochemical materials such as rocks, soils, sediments, waters and vegetation, and environmental issues associated with mining and source apportionment. GEEA is well-known for its thematic sets on hot topics and regularly publishes papers from the biennial International Applied Geochemistry Symposium (IAGS). Papers that seek to integrate geological, geochemical and geophysical methods of exploration are particularly welcome, as are those that concern geochemical mapping and those that comprise case histories. Given the many links between exploration and environmental geochemistry, the journal encourages the exchange of concepts and data; in particular, to differentiate various sources of elements. GEEA publishes research articles; discussion papers; book reviews; editorial content and thematic sets.
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