津巴布韦中南部含石棉温石棉Zvishavane超镁铁杂岩中极改性铬铁矿的地球化学特征

Pub Date : 2023-11-09 DOI:10.1080/25726838.2023.2265248
Jeff B. Chaumba, Antony Mamuse
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引用次数: 0

摘要

Zvishavane超基性杂岩(ZUC)是津巴布韦中南部Zvishavane片麻岩杂岩中的一个变质超基性岩体。该综合体拥有非洲最大的矿山和高品位温石棉储量。ZUC的岩石类型包括蛇纹岩、变长岩和变长岩。副铬铁矿蚀变为铁铬铁矿,赋存于元长岩和蛇纹岩中。铬值Cr# (100*Cr/(Cr + Al))极高,为90.6 ~ 99.5。低镁值,Mg# 100*Mg/(Mg + Fe2+),范围为5.1 ~ 8.4。大多数ZUC铁铬铁矿以包裹体或标记残余橄榄石晶体的轮廓出现,并在穿过蛇纹岩的细脉中出现。在100*Fe3+/(Al + Fe3+)图和100*Fe2+/(Mg + Fe2+)图上,铬铁矿均位于镁铁氧体区,而在铁铬铁矿区则位于Fe3+-Cr-Al三元图上。在wt% Al2O3与wt% Cr2O3的对比图和100*Cr/(Cr + Al)与100*Mg/(Mg + Fe2+)的对比图中,铬铁矿均位于修正趋势场中。大部分铬铁矿在≤500℃的温度下发生变质,没有样品经历超过550℃的温度。Fe3+/(Fe3++ Fe2+)与wt% MnO的关系图表明了ZUC铬铁矿的水变质作用。研究表明,在热液蚀变过程中,ZUC铬铁矿发生了广泛的变质,其氧化作用比石英-费长石-磁铁矿强,但比磁铁矿-赤铁矿弱,并伴随形成了ZUC以其闻名的高品位温石棉。在ZUC 50km范围内暴露的4个花岗质岩体可能是热液流体的来源,热液蚀变可能导致高品位温石棉的形成,并在此过程中几乎完全改变了铬铁矿。在其他地方的温石棉超镁铁质体中,辅助铬铁矿的成分可能发生了极大的变化。关键词:津巴布韦铬铁矿化学铬铁矿改性温石棉石棉超细复合物太古铁质铬铁矿岩相学致谢:米德兰州立大学资助采样和运输费用。我们感谢在实地工作中提供宝贵帮助的实地助理。北卡罗来纳大学彭布罗克分校资助了分析成本和薄片成本。来自匿名审稿人的建议和评论有助于改进我们的手稿。杂志编辑亚当西蒙感谢他的评论和对文章的处理。披露声明作者未报告潜在的利益冲突。本研究得到了北卡罗来纳大学彭布罗克分校的支持。
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Geochemistry of extremely modified chromites from the chrysotile asbestos-bearing Zvishavane Ultramafic Complex, south central Zimbabwe
ABSTRACTThe Zvishavane Ultramafic Complex (ZUC) is a metamorphosed ultramafic-mafic body exposed within the Zvishavane gneiss complex in south central Zimbabwe. The complex hosts Africa's largest mine and reserves of high-grade chrysotile asbestos. Rock types of the ZUC range from serpentinites, metadunites, and metagabbros. Accessory chromites, which are altered to ferrian chromites, are hosted in metadunites and serpentinites. Chromium number, Cr# (100*Cr/(Cr + Al)), is extremely high, and ranges from 90.6 to 99.5. Low magnesium number, Mg# 100*Mg/(Mg + Fe2+), ranges from 5.1 to 8.4.Most ZUC ferrian chromites occur as inclusions or marking the outlines of relict olivine crystals, and in veinlets traversing the serpentinites. On 100*Fe3+/(Al + Fe3+) versus 100*Fe2+/(Mg + Fe2+) diagram, the chromites all plot in the magnesioferrite field, and in the ferrian chromite field on a Fe3+-Cr-Al ternary diagram. On wt% Al2O3 versus wt% Cr2O3 and 100*Cr/(Cr + Al) versus 100*Mg/(Mg + Fe2+) plots, chromites all plot in the modified trend fields. The bulk of the chromites were metamorphosed at temperatures of ≤500°C, and no samples experienced temperatures exceeding 550°C. A plot of Fe3+/(Fe3++ Fe2+) versus wt% MnO is indicative of hydrous metamorphism of ZUC chromites. It is interpreted that extensive modification of the ZUC chromites occurred during hydrothermal alteration, under conditions more oxidising than quartz-fayalite-magnetite but less than magnetite-hematite, which accompanied the formation of high-grade chrysotile asbestos for which the ZUC is famous. Four granitic plutons exposed within 50km of ZUC were likely the source of hydrothermal fluids responsible for extensive hydrothermal alteration, which likely led to the formation of high-grade chrysotile asbestos, and almost completely modifying the chromites in the process. Compositions of accessory chromites in chrysotile asbestos meta-ultramafic bodies elsewhere are likely to be extremely modified.KEYWORDS: Zimbabwe cratonchromite chemistrychromite modificationchrysotile asbestosultramafic complexArcheanferrian chromitepetrography AcknowledgementsMidlands State University funded sampling and couriering costs. We are grateful to the field assistants who offered invaluable help during fieldwork. The University of North Carolina at Pembroke funded analytical costs and the costs of thin sections. Suggestions and comments from anonymous reviewers helped improve our manuscript. Journal Editor Adam Simon is thanked for his comments and for handling of the article.Disclosure statementNo potential conflict of interest was reported by the author(s).Additional informationFundingThis work was supported by University of North Carolina at Pembroke.
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