Layered intrusions in the Precambrian: Observations and perspectives

IF 3.2 2区地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY

Precambrian Research Pub Date : 2024-11-16 DOI:10.1016/j.precamres.2024.107615

William D. Smith , M. Christopher Jenkins , Claudia T. Augustin , Ville J. Virtanen , Zoja Vukmanovic , Brian O’Driscoll

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Abstract

Layered intrusions are plutonic bodies of cumulates that form by the crystallization of mantle-derived melts. These intrusions are characterized by igneous layering distinguishable by shifts in mineralogy, texture, or composition. Layered intrusions have been fundamental to our understanding of igneous petrology; however, it is their status as important repositories of critical metals – such as platinum-group elements, chromium, and vanadium – that has predominantly driven associated research in recent decades. Many layered intrusions were emplaced during the Precambrian, predominantly at the margins of ancient cratons during intervals of supercontinent accretion and destruction. It appears that large, layered intrusions require rigid crust to ensure their preservation, and their geometry and layering is primarily controlled by the nature of melt emplacement.

Layered intrusions are best investigated by integrating observations from various length-scales. At the macroscale, intrusion geometries can be discerned, and their presence understood in the context of the regional geology. At the mesoscale, the layering of an intrusion may be characterized, intrusion-host rock contact relationships studied, and the nature of stratiform mineral occurrences described. At the microscale, the mineralogy and texture of cumulate rocks and any mineralization are elucidated, particularly when novel microtextural and mineral chemical datasets are integrated. For example, here we demonstrate how mesoscale observations and microscale datasets can be combined to understand the petrogenesis of the perplexing snowball oiks outcrop located in the Upper Banded Series of the Stillwater Complex. Our data suggest that the orthopyroxene oikocrysts did not form in their present location, but rather formed in a dynamic magma chamber where crystals were transported either by convective currents or within crystal-rich slurries.

Critical metals may be transported to the level of a nascent intrusion as dissolved components in the melt. Alternatively, ore minerals are entrained from elsewhere in a plumbing system, potentially facilitated by volatile-rich phases. There are many ore-forming processes propounded by researchers to occur at the level of emplacement; however, each must address the arrival of the ore mineral, its concentration of metals, and its accumulation into orebodies. In this contribution, several of these processes are described as well as our perspectives on the future of layered intrusion research.

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前寒武纪的层状侵入：观察与展望

层状侵入体是由来自地幔的熔体结晶而形成的积岩体。这些侵入体的特点是火成岩分层，可通过矿物学、质地或成分的变化加以区分。层状侵入体是我们了解火成岩岩石学的基础；然而，近几十年来，它们作为关键金属（如铂族元素、铬和钒）的重要储藏所，才是相关研究的主要驱动力。许多层状侵入体是在前寒武纪时期，主要是在超大陆增生和毁灭期间，在古火山口的边缘形成的。大型层状侵入体似乎需要坚硬的地壳来确保其保存，其几何形状和层状主要受控于熔体置入的性质。在宏观尺度上，可以辨别侵入体的几何形状，并根据区域地质情况了解它们的存在。在中尺度上，可以描述侵入体的分层特征，研究侵入体与母岩的接触关系，并描述层状矿点的性质。在微观尺度上，可以阐明堆积岩的矿物学和质地以及任何矿化现象，尤其是在整合了新型微纹理和矿物化学数据集之后。例如，我们在这里展示了如何将中尺度观测和微尺度数据集结合起来，以了解位于史迪威岩群上带状系列中令人困惑的雪球鲕粒露头的岩石成因。我们的数据表明，正长石黝帘石并不是在目前的位置形成的，而是在一个动态的岩浆腔中形成的，在这个岩浆腔中，晶体通过对流或在富含晶体的泥浆中被搬运。或者，矿石矿物从管道系统的其他地方夹带进来，富含挥发物的相可能会起到促进作用。研究人员提出了许多成矿过程，这些过程都发生在成矿层面；但是，每个过程都必须解决矿石矿物的到达、金属的富集以及矿体的累积等问题。本文将介绍其中的几个过程，以及我们对层状侵入研究未来的展望。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Precambrian Research 地学-地球科学综合

CiteScore

7.20

自引率

28.90%

发文量

325

审稿时长

12 months

期刊介绍： Precambrian Research publishes studies on all aspects of the early stages of the composition, structure and evolution of the Earth and its planetary neighbours. With a focus on process-oriented and comparative studies, it covers, but is not restricted to, subjects such as: (1) Chemical, biological, biochemical and cosmochemical evolution; the origin of life; the evolution of the oceans and atmosphere; the early fossil record; palaeobiology; (2) Geochronology and isotope and elemental geochemistry; (3) Precambrian mineral deposits; (4) Geophysical aspects of the early Earth and Precambrian terrains; (5) Nature, formation and evolution of the Precambrian lithosphere and mantle including magmatic, depositional, metamorphic and tectonic processes. In addition, the editors particularly welcome integrated process-oriented studies that involve a combination of the above fields and comparative studies that demonstrate the effect of Precambrian evolution on Phanerozoic earth system processes. Regional and localised studies of Precambrian phenomena are considered appropriate only when the detail and quality allow illustration of a wider process, or when significant gaps in basic knowledge of a particular area can be filled.