岩浆和岩浆-热液过程对英格兰西南部康努比岩床云母锂赋存的影响

IF 4.4 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
F. Putzolu, R. Seltmann, A. Dolgopolova, R. N. Armstrong, R. K. Shail, J. Spratt, Y. Buret, C. Broderick, W. Brownscombe
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引用次数: 0

摘要

Cornubian Batholith(英格兰西南部)是典型的Variscan稀有金属花岗岩,具有锂云母成矿潜力。我们对来自康努比安浴成岩花岗岩系列和相关热液蚀变单元的云母进行了岩相学、痕量元素和多元统计研究,以评估岩浆与次固结过程以及通量元素(F 和 B)在该系统演化过程中对锂循环的作用。云母类型如下(1) 岩浆型,包括最原始花岗岩中的铁-生物云母、原铁云母 I 和黝帘石-黝帘石,以及分馏程度更高的岩性中的黝帘石 I;(2) 亚固结型,包括高温自生型锂云母和低温热液型黝帘石-黝帘石。自热锂辉石包括原锂辉石 II、锌钒锂辉石 II 和鳞片锂辉石,它们出现在分馏和热液蚀变最严重的单元中,是岩浆云母的替代品。低温热液贫锂辉石是通过岩浆和自生云母的蚀变或长石的置换作用形成的,尽管出现在所有研究岩性中,但以富含变质电气石的花岗岩面最能体现。云母的演化遵循两大趋势,强调了 Li(F)和 B 通量之间的耦合和解耦。这些趋势包括(1)Li(F)递增趋势,解释了原闪长岩I和黝帘石I的形成,它们在结晶的后期岩浆阶段将Li与Cs、Nb和Sn一起分馏;以及黝帘石II和鳞片岩的形成,它们是原生云母与富含Li-B-W-Tl-Cs-Mn-W-的高温自生流体再平衡后形成的;(2) 低温热液蕈云母化的Li(F)递减趋势,代表了主要的Li耗竭过程。晚期黝帘石-黝帘石的微量元素地球化学和成因支持黝帘石化是一个地区尺度的过程,它通过酸性和B(Fe-Sn)饱和的热液影响花岗岩冲天炉的上部,这些热液与元热液化有关,并与低Eh的流星成分混合。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Influence of magmatic and magmatic-hydrothermal processes on the lithium endowment of micas in the Cornubian Batholith (SW England)

Influence of magmatic and magmatic-hydrothermal processes on the lithium endowment of micas in the Cornubian Batholith (SW England)

The Cornubian Batholith (SW England) is an archetypal Variscan rare metal granite with potential for Li-mica mineralization. We present a petrographic, trace element and multivariate statistical study of micas from the Cornubian Batholith granite series and related hydrothermally altered units to assess the role of magmatic vs subsolidus processes and of fluxing elements (F and B) on the Li cycle during the evolution of the system. The mica types are as follows: (1) magmatic, which include Fe-biotite, protolithionite I and phengite-muscovite from the most primitive granites, and zinnwaldite I from more fractionated lithologies; (2) subsolidus, which encompass high-temperature autometasomatic Li-micas and low-temperature hydrothermal muscovite-phengite. Autometasomatic species include protolithionite II, zinnwaldite II and lepidolite, which were observed in the most fractionated and hydrothermally altered units, and occur as replacements of magmatic micas. Low-temperature hydrothermal Li-poor micas formed via alteration of magmatic and autometasomatic micas or as replacement of feldspars, and albeit occur in all studied lithologies they are best represented by the granite facies enriched in metasomatic tourmaline. The evolution of micas follows two major trends underlining a coupling and decoupling between the Li(F) and B fluxes. These include as follows: (1) a Li(F)-progressive trend explaining the formation of protolithionite I and zinnwaldite I, which fractionate Li along with Cs, Nb and Sn during the late-magmatic stages of crystallization, and of zinnwaldite II and lepidolite forming from the re-equilibration of primary micas with high-temperature Li-B-W-Tl-Cs-Mn-W-rich autometasomatic fluids; (2) a Li(F)-retrogressive trend explaining the low-temperature hydrothermal muscovitization, which represents the main Li depletion process. Trace element geochemistry and paragenesis of late muscovite-phengite support that muscovitization is a district-scale process that affected the upper parts of the granite cupolas through acidic and B(Fe-Sn)-saturated hydrothermal fluids associated with metasomatic tourmalinization, which were mixed with a low Eh meteoric component.

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来源期刊
Mineralium Deposita
Mineralium Deposita 地学-地球化学与地球物理
CiteScore
11.00
自引率
6.20%
发文量
61
审稿时长
6 months
期刊介绍: The journal Mineralium Deposita introduces new observations, principles, and interpretations from the field of economic geology, including nonmetallic mineral deposits, experimental and applied geochemistry, with emphasis on mineral deposits. It offers short and comprehensive articles, review papers, brief original papers, scientific discussions and news, as well as reports on meetings of importance to mineral research. The emphasis is on high-quality content and form for all articles and on international coverage of subject matter.
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