Preface

IF 2 4区 地球科学 Q1 GEOLOGY Geus Bulletin Pub Date : 2023-07-27 DOI:10.34194/geusb.v54.8347
R. Larsen
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Abstract

In this special issue of GEUS Bulletin, the many riddles regarding the platinum group elements and gold (PGE-Au) mineralisation of the East Greenland Skaergaard intrusion are untangled and discussed. The Skaergard PGE-Au mineralisation, as defined in this study, embodies an enigmatic and rich ore-formation that arguably could have been an economic resource, had it not been for its ice-locked position in central East Greenland. The authors of this study (Rudashevsky et al. 2023, this volume) characterise the systematic variability in the precious metal mineralogy from the contact towards the interior of the intrusion based on the analysis of more than 4000 individual PGE-Au grains. This variability is interpreted in the light of 90 years of research and over 1000 publications pertaining to magma chamber processes in the Skaergaard intrusion.  With such an impressive library of knowledge, on a comparatively simple magmatic system such as the Skaergard intrusion, we should have discovered a few islands of truth in igneous petrology and ore-deposit formation. And indeed, we have. But we are also enriched with an evolving story, where answering one question only serves to raise three new questions.  This study demonstrates the variability of PGE-Au phases throughout the ore-forming zone of the Skaergaard intrusion. As previously observed, PGE-Au mineralisation in the central parts is divided into several layers over 30–40 m of the cumulus stratigraphy with increasing Pd/Pt ratios upwards, an Au-rich upper part and a low sulphide content throughout all layers. Close to the contact the precious metal zonation is less pronounced, and it is significantly more sulphide rich. The PGE mineralogy deviates significantly from the centre to the margin. These complex lateral and vertical variations cannot be explained by one genetic model but require an intricate combination of igneous processes including silicate-melt liquid immiscibility, sulphide-melt immiscibility, sulphide-melt resorptions, precious metal transport by volatile-rich fluids and, finally, the solidification rate of the cumulus mushes.  For other well-preserved PGE-Au deposits throughout the world, we observe a great variation of ore-forming models. Remarkably, most of these models may be applied to various parts of the Skaergaard mineralisation. The authors suggest that the Skaergaard intrusion preserves different steps in PGE-Au ore-genesis which, in many other intrusions are obliterated by later igneous events. Therefore, the legacy of the Skaergaard mineralisation is the preservation of igneous ore-forming events that may also precede the genesis of other PGE-Au deposits in the world. After the last conclusion, I guarantee that you will be confused and perhaps a bit triggered but hopefully also inspired and bursting with new questions on the genesis of PGE-Au deposits in mafic and ultramafic igneous complexes. In light of the recent study, you may even be encouraged to look at your favourite PGE-Au deposit with fresh eyes. This study beautifully demonstrates that turning the next page in the book of magma chamber processes is more important than seeing ‘The End’.
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前言
在本期《GEUS公报》特刊中,解开并讨论了东格陵兰斯卡加德侵入体的铂族元素和金(PGE-Au)矿化的许多谜团。本研究中定义的Skergard PGE Au矿化体现了一种神秘而丰富的矿床,可以说是一种经济资源,这项研究的作者(Rudashevsky et al.2023,本卷)根据对4000多个单独的PGE Au颗粒的分析,描述了从接触到入侵内部的贵金属矿物学的系统变化。这种可变性是根据90年的研究和1000多篇关于斯卡加德侵入体岩浆室过程的出版物来解释的。有了这样一个令人印象深刻的知识库,在斯卡加德侵入体这样一个相对简单的岩浆系统上,我们本应该在火成岩石学和矿床形成中发现一些真理岛。事实上,我们做到了。但我们也被一个不断发展的故事所丰富,在这个故事中,回答一个问题只会引发三个新问题。这项研究证明了整个斯卡加德侵入体成矿带PGE-Au相的可变性。如前所述,中部的PGE Au矿化在30–40 m的积云地层中分为几个层,Pd/Pt比例向上增加,上部富含Au,所有层的硫化物含量都很低。在接触面附近,贵金属分带不太明显,硫化物含量明显更高。PGE矿物学从中心向边缘明显偏离。这些复杂的横向和垂直变化不能用一个遗传模型来解释,而是需要火成过程的复杂组合,包括硅酸盐熔体-液体不混溶性、硫化物熔体不混溶、硫化物熔体再吸收、富含挥发性流体的贵金属输运,以及积云糊状物的固化速率。对于世界各地其他保存完好的PGE Au矿床,我们观察到成矿模式的巨大变化。值得注意的是,这些模型中的大多数可以应用于斯卡加德矿化带的各个部分。作者认为,Skergaard侵入体在PGE Au成矿过程中保留了不同的步骤,在许多其他侵入体中,这些步骤被后来的火成事件所抹去。因此,Skergaard矿化的遗产是火成成矿事件的保存,这些事件也可能先于世界上其他PGE Au矿床的成因。在最后一个结论之后,我保证你会感到困惑,也许会有点激动,但希望也会对镁铁质和超镁铁质火成岩杂岩中PGE Au矿床的成因提出新的问题。根据最近的研究,你甚至可以被鼓励以全新的眼光看待你最喜欢的PGE Au矿床。这项研究完美地证明,翻开岩浆室过程书的下一页比看到“末日”更重要。
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来源期刊
Geus Bulletin
Geus Bulletin GEOLOGY-
CiteScore
2.80
自引率
17.60%
发文量
8
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