Critical differences between typical arc magmas and giant porphyry Cu ± Au systems: Implications for exploration

IF 3.5 2区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
Hongda Hao, Ian H Campbell, Jung-Woo Park
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Abstract

Porphyry Cu, and porphyry Cu-Au deposits, are associated with arc magmatism and their ore-forming systems generally follow the magmatic evolution of typical arcs. However, most arc magmas are barren and giant economic porphyry Cu ± Au deposits are rare. In this study, we model variations in rare earth element concentrations in the evolving arc magmas and giant porphyry Cu ± Au systems to quantify the percentage of the fractionating minerals required to produce the observed changes. We find that, during the andesitic stage of fractionation, ore-forming systems in thick crusts fractionate ~35% more amphibole than an average of thick arc magma systems (the thick-crust reference suite) and that ore-forming systems in thin crusts fractionate twice as much amphibole as their equivalent thin-arc magma reference suite. Thick-crust ore-forming suites also fractionate ~50% less plagioclase, and thin-crust ore systems ~40% less plagioclase, than their associated reference suites during the same andesitic stage of fractionation. Taken together, these observations imply that ore-producing magmas are appreciably wetter than their associated barren reference suites. Our modelling also shows that 80% more amphibole is required to reproduce the andesite stage of fractionation in the thick-crust reference suite than in its thin-crust equivalent, suggesting that magmas produced under thick crusts are wetter than those produced under thin crusts. On the other hand, the chalcophile element contents of the thick- and thin-crust ore-forming systems are similar to and higher than those of the thick- and thin-crust reference suites, respectively. Therefore, we suggest that the high water content plays a critical role in the formation of giant porphyry Cu ore in thick crusts, whereas both high chalcophile contents and high water contents are required to form giant porphyry Cu-Au deposits in thin crusts. The high fraction of amphibole fractionation in giant economic porphyry suites, compared with their relevant reference suites, results in lower Y in the ore-associated suites and this difference increases with fractionation. As a consequence, plots of Y against MgO can be used to identify porphyries that have economic potential and are preferred to Sr/Y plots because they are less affected by the intense alteration associated with giant porphyry Cu ± Au deposits.
典型弧岩浆与巨型斑岩铜±金系统之间的关键差异:对勘探的影响
斑岩铜和斑岩铜金矿床与弧岩浆作用有关,其成矿系统一般遵循典型弧的岩浆演化过程。然而,大多数弧岩浆是贫瘠的,巨型经济斑岩铜±金矿床非常罕见。在这项研究中,我们模拟了演化中的弧岩浆和巨型斑岩铜±金系统中稀土元素浓度的变化,以量化产生观测到的变化所需的分馏矿物的百分比。我们发现,在安山岩分馏阶段,厚壳成矿系统分馏出的闪石比厚弧岩浆系统(厚壳参照套)的平均值多出约35%,而薄壳成矿系统分馏出的闪石是其等效薄弧岩浆参照套的两倍。在相同的安山岩分馏阶段,厚壳成矿套系的斜长石分馏量比其相关参照套系少约50%,薄壳成矿系统的斜长石分馏量比其相关参照套系少约40%。总之,这些观察结果表明,产矿岩浆明显比其相关的贫瘠参照岩浆湿润。我们的模型还显示,在厚壳参照岩套中再现安山岩分馏阶段所需的闪石比在薄壳参照岩套中再现安山岩分馏阶段所需的闪石多80%,这表明在厚壳下产生的岩浆比在薄壳下产生的岩浆更潮湿。另一方面,厚壳和薄壳成矿系统的亲钙元素含量分别与厚壳和薄壳参照岩套相似并高于它们。因此,我们认为高含水量对厚壳巨型斑岩型铜矿的形成起关键作用,而在薄壳中形成巨型斑岩型铜金矿床则需要高亲钙元素含量和高含水量。与相关的参照岩套相比,巨型斑岩经济岩套中闪石的分馏率较高,导致矿石相关岩套中的Y值较低,而且这种差异随着分馏率的增加而增大。因此,Y 与 MgO 的对比图可用来识别具有经济潜力的斑岩,而且比 Sr/Y 图更可取,因为它们受与巨型斑岩铜±金矿床相关的强烈蚀变的影响较小。
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来源期刊
Journal of Petrology
Journal of Petrology 地学-地球化学与地球物理
CiteScore
6.90
自引率
12.80%
发文量
117
审稿时长
12 months
期刊介绍: The Journal of Petrology provides an international forum for the publication of high quality research in the broad field of igneous and metamorphic petrology and petrogenesis. Papers published cover a vast range of topics in areas such as major element, trace element and isotope geochemistry and geochronology applied to petrogenesis; experimental petrology; processes of magma generation, differentiation and emplacement; quantitative studies of rock-forming minerals and their paragenesis; regional studies of igneous and meta morphic rocks which contribute to the solution of fundamental petrological problems; theoretical modelling of petrogenetic processes.
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