Maria Paula Castellanos-Melendez , John Dilles , Marcel Guillong , Olivier Bachmann , Cyril Chelle-Michou
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引用次数: 0
Abstract
The current race towards greener energy and its intertwined increase in Cu demand imposes the need to find mineralized centers that are economic despite greater depths. To this end, a better understanding of the processes controlling the metal tonnage of porphyry Cu deposits, the main source of Cu, is needed and the focus of current research and debate. This study provides a comprehensive view of the duration of upper-crustal magmatism and its significance in the degree of metal endowment in porphyry Cu deposits using the Yerington batholith, Nevada, USA, as a case study. The Yerington district constitutes an exceptional example of an exposed porphyry Cu system where the plutonic environment that fed the porphyritic dikes is accessible. Combining trace element geochemistry and high-precision geochronology of zircon from all exposed units, we propose that the thermal maturation of the upper crust by a continuum in magmatic activity without significant hiatuses is a key factor in enabling the formation of large porphyry Cu style mineralization. The Yerington magmatic system transitioned from a volcanically active environment with coeval plutonism to a growing upper-crustal magmatic reservoir that fed the porphyritic dikes and associated mineralized centers to then resume its volcanic activity terminating the ore-forming episode. A relatively high volcanic/plutonic ratio characterized the first expressions of Jurassic magmatism in the district from ∼170 Ma with the coeval eruption of the Artesia Lake volcanics and the protracted emplacement of the McLeod Hill pluton. Geochemically, this period recorded distinctive negative Eu anomalies and a gentle increase in Yb/Dy ratios in zircon with decreasing Ti contents over a large range of zircon crystallization temperatures. This persistent magmatism over ∼2 Myr thermally matured the upper crust, enabling the growth of magmatic reservoirs that formed the Bear and Luhr Hill plutons without known volcanic activity for ∼1.3 Myr. Zircon trace element compositions indicate that this transition occurred as a continuum in decreasing negative Eu anomalies and increasing Yb/Dy with decreasing Ti contents and age across the plutonic units, reaching the more evolved signatures and lowest crystallization temperatures in the zircon from porphyry dikes. An increase in the volcanic/plutonic ratio with the eruption of the Fulstone Spring sequence likely terminated the ore-forming potential of the district. Although many other studies have provided important views on the timing and duration of porphyry Cu deposit formation, the link to their plutonic roots has been limited due to their inaccessibility. Therefore, this study offers the first complete picture into the temporal and chemical evolution of an upper-crustal magmatic system and the roles that factors like prolonged magmatism and volcanism play before and after ore formation. We argue that without the thermal maturation of the upper crust, the construction of a long-lived magmatic reservoir would not have been possible, precluding the formation of porphyry Cu deposits. Under this premise, not only the duration of ore-related magmatic activity, but the occurrence of long-lived precursor magmatism might exercise crucial control on the final tonnage of the deposit and should be considered during exploration for new porphyry deposits.
当前的绿色能源竞赛与铜需求的增加相互交织,这就要求我们必须找到尽管深度更大但仍具有经济价值的矿化中心。为此,需要更好地了解控制斑岩铜矿床(铜的主要来源)金属吨位的过程,这也是当前研究和讨论的重点。本研究以美国内华达州耶灵顿岩床为案例,全面探讨了上部岩壳岩浆作用的持续时间及其对斑岩型铜矿床金属禀赋程度的影响。耶林顿地区是斑岩铜矿系统出露的一个特殊例子,在这里可以看到斑岩岩脉的成岩环境。结合所有出露单元的痕量元素地球化学和高精度锆石地质年代学,我们提出,岩浆活动的连续性和无明显间断的上地壳热成熟是形成大型斑岩型铜矿化的关键因素。耶灵顿岩浆系统从火山活动环境与共生深成岩活动过渡到不断增长的上地壳岩浆储层,该储层为斑岩岩钉和相关矿化中心提供了能量,然后又恢复了火山活动,终止了矿石形成过程。该地区侏罗纪岩浆活动的最初表现形式是火山/岩浆比率相对较高,从 170 Ma 开始,阿特西亚湖火山岩同时喷发,McLeod Hill 长岩浆岩长期喷发。从地球化学角度看,这一时期的锆石在很大的锆石结晶温度范围内出现了明显的负Eu异常和Yb/Dy比值的平缓上升,同时Ti含量不断下降。这种持续了2 Myr以上的岩浆活动使上地壳热成熟,使岩浆储层得以增长,形成了Bear和Luhr Hill岩浆柱,在1.3 Myr以上的时间里没有已知的火山活动。锆石痕量元素组成表明,这种转变是一个连续的过程,随着Ti含量和年龄的降低,负Eu异常不断降低,Yb/Dy不断增加,在斑岩岩峰的锆石中达到了更先进的特征和最低的结晶温度。随着富尔斯通泉序列的喷发,火山/岩浆岩比率的增加很可能终止了该地区的成矿潜力。尽管许多其他研究对斑岩型铜矿床形成的时间和持续时间提出了重要观点,但由于无法进入这些矿床,因此与其板岩根源的联系一直很有限。因此,本研究首次完整地揭示了上地壳岩浆系统的时间和化学演变,以及延长岩浆活动和火山活动等因素在矿石形成前后所起的作用。我们认为,如果没有上地壳的热成熟,就不可能形成长寿岩浆储层,也就不可能形成斑岩型铜矿床。在此前提下,不仅与矿石有关的岩浆活动持续时间,而且长寿命前生岩浆活动的发生也可能对矿床的最终吨位起着至关重要的控制作用,因此在勘探新斑岩矿床时应加以考虑。
期刊介绍:
Earth and Planetary Science Letters (EPSL) is a leading journal for researchers across the entire Earth and planetary sciences community. It publishes concise, exciting, high-impact articles ("Letters") of broad interest. Its focus is on physical and chemical processes, the evolution and general properties of the Earth and planets - from their deep interiors to their atmospheres. EPSL also includes a Frontiers section, featuring invited high-profile synthesis articles by leading experts on timely topics to bring cutting-edge research to the wider community.