Diagenesis and mineralization in the Central African Copperbelt, implications from the reflectance of pyrobitumen and Kübler (illite crystallinity) index

IF 5.6 2区 工程技术 Q2 ENERGY & FUELS
Qiuping Liu , Pascal Mambwe , Ralf Littke , Philippe Muchez
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引用次数: 0

Abstract

The Central African Copperbelt stands out as one of the world's largest sediment-hosted Cu-Co provinces, contributing to over 60% of global Co production. A comprehensive basin analysis approach is imperative for unraveling the ore-forming processes, encompassing an understanding of the diagenesis or metamorphism that the mineralized rocks underwent. In this study, two types of pyrobitumen (burial related and burial plus hydrothermal related) reflectance values have been measured, which record maximum temperatures during deep burial and hydrothermal imprint. The calculated temperatures provide important information about the maximum burial and hydrothermal fluid temperatures in distinct regions of the Copperbelt. The average burial related pyrobitumen reflectance for Nkana, the southeastern part of the Copperbelt, ranges between 3.43 and 3.75% BRr, indicating a maximum burial temperature of about 240 °C. Moving towards the central part of the Copperbelt at Luiswishi, the average pyrobitumen reflectance varies between 2.65 and 2.87% BRr, with calculated maximum burial temperatures reaching about 220 °C. In the northwestern part (Tenke Fungurume mining district, TFMD), the maximum burial temperatures decrease to approximately 200 °C, based on the calculation of pyrobitumen reflectance at 2.10% BRr. This decreasing temperature trend from southeast to northwest corresponds to the observed decrease in metamorphic grade across the Copperbelt, ranging from amphibolite and upper greenschist facies in the Zambian part to prehnite-pumpellyite facies in the Congolese Copperbelt. The temperatures calculated during maximum burial, especially at the Nkana ore deposit, are lower than those previously proposed based on the mineralogy of the rocks, i.e. upper greenschist facies. However, the latter does correspond to the temperatures reached by the mineralizing fluids in this area and thus rather reflects the alteration assemblage and temperature. The average burial plus hydrothermal related pyrobitumen reflectance measured at TFMD ranges between 3.06 and 5.36% BRr, indicating calculated average temperatures of 300–350 °C. These temperatures align with those recorded for the late diagenetic to syn-orogenic mineralization by fluid inclusion microthermometry (180–340 °C) at TFMD. The data suggests a pervasive migration of hydrothermal fluid through the rocks, contributing to the observed pyrobitumen reflectance. The illite crystallinity of the examined samples is notably high. At Nkana, the KI values range between 0.10 Δ°2θ and 0.22 Δ°2θ, for Luiswishi between 0.12 Δ°2θ and 0.24 Δ°2θ, for Kamoto between 0.17 Δ°2θ and 0.23 Δ°2θ, for TFMD between 0.17 Δ°2θ and 0.25 Δ°2θ, which indicates all these samples were placed in epizone, with only a few in anchizone. This high value could be attributed to two potential factors: the admixing of detrital muscovite to the sediments or the influx of potassium due to the pervasive alteration throughout the Copperbelt, but the latter one is less likely since the selected samples show no evidence of alteration.

非洲中部铜带的成因和矿化,热沥青反射率和库伯勒(伊利石结晶度)指数的影响
非洲中部铜带是世界上最大的沉积成矿铜-钴矿产地之一,占全球钴产量的 60% 以上。要揭示成矿过程,就必须采用全面的盆地分析方法,包括了解成矿岩石所经历的成岩作用或变质作用。本研究测量了两种类型的热沥青(与埋藏有关和埋藏加热液有关)反射率值,它们记录了深埋和热液印记过程中的最高温度。计算得出的温度为了解铜带不同地区的最大埋藏温度和热液温度提供了重要信息。铜带东南部的恩卡纳(Nkana)地区与埋藏有关的热液沥青平均反射率在 3.43 至 3.75 BRr 之间,表明最大埋藏温度约为 240 °C。在铜带中部的 Luiswishi,火成沥青的平均反射率在 2.65 至 2.87% BRr 之间,计算得出的最高埋藏温度约为 220 °C。在西北部(Tenke Fungurume 矿区,TFMD),根据 2.10% BRr 的热沥青反射率计算,最高埋藏温度降至约 200 °C。这种从东南到西北的温度下降趋势与所观察到的整个铜带地区变质岩等级的下降相吻合,从赞比亚地区的闪长岩和上绿泥石岩层到刚果铜带地区的辉绿岩-黝帘石岩层。计算出的最大埋藏期的温度,尤其是在恩卡纳矿床,低于之前根据岩石矿物学(即上绿辉石层)提出的温度。不过,后者确实与该地区成矿流体达到的温度相符,因此更能反映蚀变组合和温度。在 TFMD 测得的平均埋藏加热液相关火成沥青反射率介于 3.06 至 5.36% BRr 之间,表明计算得出的平均温度为 300-350 °C。这些温度与 TFMD 通过流体包裹体微测温(180-340 °C)记录的成岩晚期到同生成矿期的温度一致。这些数据表明,热液在岩石中广泛迁移,从而导致了所观察到的热沥青反射率。受检样品的伊利石结晶度很高。在 Nkana,KI 值在 0.10 Δ°2θ 和 0.22 Δ°2θ 之间;在 Luiswishi,KI 值在 0.12 Δ°2θ 和 0.24 Δ°2θ 之间;在 Kamoto,KI 值在 0.17 Δ°2θ 和 0.23 Δ°2θ,而 TFMD 在 0.17 Δ°2θ和 0.25 Δ°2θ之间,这表明所有这些样本都被置于表层,只有少数被置于锚层。这个高值可以归因于两个潜在的因素:在沉积物中掺入了浊锰矿,或者由于整个铜带地区普遍的蚀变作用导致钾的流入。
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
International Journal of Coal Geology
International Journal of Coal Geology 工程技术-地球科学综合
CiteScore
11.00
自引率
14.30%
发文量
145
审稿时长
38 days
期刊介绍: The International Journal of Coal Geology deals with fundamental and applied aspects of the geology and petrology of coal, oil/gas source rocks and shale gas resources. The journal aims to advance the exploration, exploitation and utilization of these resources, and to stimulate environmental awareness as well as advancement of engineering for effective resource management.
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