A multi-disciplinary approach for defining nickel and gold mineral systems; Halls Creek Orogen, Western Australia

ASEG Extended Abstracts Pub Date : 2019-12-01 DOI:10.1080/22020586.2019.12072939

F. Kohanpour, S. Occhipinti, M. Lindsay, W. Gorczyk

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Abstract

Summary Geodynamic models, geological-geophysical interpretations, and isotope analysis illustrate that there are links between the nickel and gold mineral systems in the Halls Creek Orogen, Western Australia. Whole-rock Nd and Ar-Ar analysis of rocks throughout the region, when compared with the geodynamic models suggest that nickel and gold mineralization in the Halls Creek Orogen can be related to basin development and subsequent basin closure during the convergence of North Australian Craton and Kimberley Craton, respectively. Whole-rock Nd analysis confirmed the input of juvenile melts in the centre of the orogen before the 1835-1805 Ma Halls Creek Orogeny, supporting the upwelling of decompression mantle melts during the basin development. These analyses also revealed the spatial links between nickel and gold mineralization and lithological units with positive εNd values. The results of geodynamic models, geophysical interpretation, and isotopic analysis are used to understand the critical processes in the gold and nickel mineralization, which are presented by predictor maps. The GIS-based knowledge-driven fuzzy method used to integrate the predictor maps and create the prospectivity maps. Herein we show that mafic-ultramafic units prospective for nickel mineralization formed by upwelling of decompression mantle melt during crustal thinning and extension during basin development, and typically consist of the most juvenile magmas in the region. Whereas, gold deposits formed during the compressional regime and basin closure, and are located along a major shear zone separating two terranes. Another critical element that appears to be related to gold prospectivity is the presence of lithologies with a juvenile signature. In contrast to nickel analyses which are closely related to mafic-ultramafic units, the source component seems less influential when attempting to target orogenic gold deposits.

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界定镍和金矿系统的多学科方法;澳大利亚西部的霍尔斯克里克造山带

地球动力学模型、地质-地球物理解释和同位素分析表明，西澳大利亚霍尔斯克里克造山带的镍矿和金矿系统之间存在联系。全岩Nd和Ar-Ar分析结果与地球动力学模型对比表明，霍尔斯克里克造山带的镍矿化和金矿化可能分别与北澳大利亚克拉通和金伯利克拉通辐合期间的盆地发育和随后的盆地闭合有关。全岩Nd分析证实了1835-1805年马霍尔斯河造山运动之前，造山带中心有幼体熔体的输入，支持了盆地发育过程中减压地幔熔体的上涌。这些分析还揭示了镍、金成矿作用与εNd为正的岩性单元之间的空间联系。利用地球动力学模型、地球物理解释和同位素分析的结果，通过预测图来了解金镍成矿的关键过程。采用基于gis的知识驱动模糊方法对预测图进行整合，生成远景图。本文认为，镍成矿远景基性-超基性单元是由地壳减薄过程中减压地幔熔体的上涌和盆地发育过程中的伸展作用形成的，通常由该地区最多的幼岩浆组成。而金矿床形成于挤压期和盆地闭合期，并沿两个地体分离的主剪切带发育。另一个似乎与金矿远景有关的关键因素是具有幼年特征的岩性的存在。与镍分析密切相关的基性-超基性单元相比，源成分在试图寻找造山带金矿时似乎影响较小。

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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ASEG Extended Abstracts

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