加丹加超群中的流体流动:从卢菲力脆性构造阶段到后卢菲力时期(刚果民主共和国)

IF 2.2 4区 地球科学 Q2 GEOSCIENCES, MULTIDISCIPLINARY Journal of African Earth Sciences Pub Date : 2024-09-04 DOI:10.1016/j.jafrearsci.2024.105414
Pascal Mambwe , Damien Delvaux , Stijn Dewaele , Louis Kipata , Philippe Muchez
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引用次数: 0

摘要

非洲中部铜带新新生代-寒武纪加丹加超群的变质岩演替显示了多个复杂构造事件的证据。该超群的变形从大约 570 Ma 的构造反转开始,一直持续到今天,但在∼550 Ma 时达到顶峰。在这一漫长的时期内,褶皱和断层贯穿了多个压缩和延伸事件,一方面控制了区域流体的流动,另一方面在地层状至地层状铜-钴(镍、铀)矿床和多金属铜-锌-铅(银、锗、钼、镉)脉型矿床的形成过程中发挥了重要作用。根据结构分析和古应力重建,以及对恩古巴、昆德隆古和比阿诺群岩石中矿化结构的流体包裹体特征描述,本研究证明了热液的成分在陆相造山运动期间的脆性构造变形以及随后的隆起和后陆相断裂过程中发生了变化。在沿走向滑动断层的早期脆性构造变形过程中,与NE-SW换位有关的正弦和右旋运动,铜矿化流体为中温(Th=128-216 °C)的高盐流体(27.9-31.1 eq. wt% NaCl)。随后的铜矿化或铜(锌、铅)矿化是在东西向延伸应力机制下形成的,与晚期陆相造山塌陷有关。与后一种成矿作用相关的煤矸石矿物中的流体包裹体显示出较大的温度(50-264 °C)和盐度(26.7-36.0 eq. wt% NaCl)范围。据解释,温度的降低是由于造山带抬升和侵蚀之后,流体在次表层较浅的位置迁移所致。流体盐度的增加与蒸发岩(主要是氯化钠)的溶解有关。还发现了第二种H2O-NaCl-CaCl2流体,其均化温度低于55 °C,与这一脆性阶段和成矿阶段有关,但仅存在于属于昆德隆古组的岩石中。第三个成矿阶段也以铜或铜(锌、铅)为特征,形成于后陆相时期的西北-东南转位反转系统中。与前几代流体包裹体相比,该成矿期煤矸石矿物中的流体包裹体均化温度范围较小(Th = 37-172 °C),盐度范围最大(0.71-30 eq. wt% NaCl)。盐度范围如此之大,可能是由于沉积盆地早期构造阶段已经存在的高盐度流体与陨石水混合造成的。在近期与断裂有关的延伸过程中,在填充 NNE-SSW 至 NE-SW 向断层和断裂的矿物中发现了一种均化温度范围更大(Th = 47-257 °C)、盐度更低(<10 eq. wt% NaCl)的流体。相对低盐度的流体从地下深处向上迁移,解释了在这一构造事件中观察到的温度变化。
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Fluid flow in the Katanga Supergroup: From Lufilian brittle tectonic stages to the post-Lufilian period (Democratic Republic of Congo)

The metasedimentary rock succession of the Neoproterozoic-Cambrian Katanga Supergroup in the Central Africa Copperbelt shows evidence of several complex tectonic events. The deformation of this supergroup started from the tectonic inversion at about 570 Ma and lasted up to today, but reached paroxysm at ∼550 Ma. This long period was characterized by folding and faulting throughout multiple compressive and extensional events, which controlled the regional fluid flow on the one hand, and played an important role during formation of the stratiform to stratabound Cu-Co (Ni, U) deposits and the polymetallic Cu-Zn-Pb (Ag, Ge, Mo, Cd) vein type deposits on the other hand. Based on the structural analysis and paleostress reconstruction, coupled with fluid inclusion characterization from mineralized structures in rocks from the Nguba, Kundelungu and Biano Groups, this study demonstrates that the composition of hydrothermal fluids changed during brittle tectonic deformation during the Lufilian orogeny and subsequent uplift and post-Lufilian faulting.

During early brittle tectonic deformation along strike slip faults with sinistral and dextral movement related to a NE-SW transpression, the Cu-mineralizing fluid was hypersaline (27.9–31.1 eq. wt% NaCl) with moderate temperatures (Th = 128–216 °C). The subsequent Cu or Cu (Zn, Pb) mineralization formed within an E-W extensional stress regime, related to the late Lufilian orogenic collapse. The fluid inclusions present in the gangue minerals associated with this latter mineralization show a large range in Th (50–264 °C) and salinity (26.7–36.0 eq. wt% NaCl). The decrease in temperature is interpreted to be due to migration of the fluids at shallower depth in the subsurface after uplift and erosion of the orogen. The increased salinity of the fluid is related to the dissolution of evaporites, mainly NaCl. A second H2O-NaCl-CaCl2 fluid with a homogenization temperature below 55 °C has also been found associated with this brittle stage and mineralization phase, but only in rocks belonging to the Kundelungu Group. A third mineralization phase, also characterized by Cu or Cu (Zn, Pb), formed during the post-Lufilian period within a NW-SE transpressional inversion regime. The fluid inclusion in the gangue minerals of this mineralization phase have a smaller range in homogenization temperature (Th = 37–172 °C) and the largest range in salinity (0.71–30 eq. wt% NaCl), compared to the earlier fluid inclusions generations. This large range in salinity may be explained by the mixing of a high salinity fluid, already present during the earlier tectonic stages in the sedimentary basin, with meteoric water. During the more recent rift-related extension, a fluid with again a large and higher range in homogenization temperatures (Th = 47–257 °C) and with a typical low salinity (<10 eq. wt% NaCl) has been recognized in minerals filling NNE-SSW to NE-SW oriented faults and fractures. The upward migration of a relatively low-salinity fluid from deeper parts in the subsurface explains the variation in the temperatures observed with this tectonic event.

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来源期刊
Journal of African Earth Sciences
Journal of African Earth Sciences 地学-地球科学综合
CiteScore
4.70
自引率
4.30%
发文量
240
审稿时长
12 months
期刊介绍: The Journal of African Earth Sciences sees itself as the prime geological journal for all aspects of the Earth Sciences about the African plate. Papers dealing with peripheral areas are welcome if they demonstrate a tight link with Africa. The Journal publishes high quality, peer-reviewed scientific papers. It is devoted primarily to research papers but short communications relating to new developments of broad interest, reviews and book reviews will also be considered. Papers must have international appeal and should present work of more regional than local significance and dealing with well identified and justified scientific questions. Specialised technical papers, analytical or exploration reports must be avoided. Papers on applied geology should preferably be linked to such core disciplines and must be addressed to a more general geoscientific audience.
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