西昆仑山晚古生代伸展盆地的沉积成矿作用

IF 2 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Zhengwei Zhang , Xiaoyong Yang , Lianchang Zhang , Chengquan Wu , Taiyi Luo , Weiguang Zhu , Jinhong Xu , Pengcheng Hu , Xiyao Li , Ziru Jin
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引用次数: 5

摘要

在西昆仑山地区,由于晚古生代古特提斯洋的汇聚,通过西昆仑地块向北俯冲,形成康西洼—瓦恰弧岩浆活动和弧后伸展盆地,包括塔木—卡兰古和奥塔格—库尔梁盆地。本研究探讨了盆地演化与成矿作用的关系。首先,通过对盆地沉积构造的分析,区分了晚古生代弧后盆地和远场陆相弧后盆地;前者由于坳陷的存在,在中泥盆世-晚二叠世连续沉积于前寒武纪基底之上。后者由于加里东造山带上的裂陷作用,在中泥盆世-晚二叠世期间间歇性沉积。虽然这两个背景被铁科利克断裂分隔开,但它们的形成都受康西洼洋壳俯冲引起的地幔上升流的影响。划分了与盆地有关的海西期和印支期岩浆活动;前者随着盆地扩张形成双峰岩浆岩(339 ~ 291 Ma),形成热液沉积和热液岩浆成矿作用,主要包括火山块状硫化铜、Cu、Ni硫化物和热液矿床。印支造山期形成了与盆地闭合相关的中酸性岩浆岩(265 ~ 206 Ma),形成了热液型铜多金属矿床和斑岩型铜矿床。确定了盆地演化与成矿作用的关系。根据这些发现,我们认为盆地在中泥盆世和早二叠世之间伸展。同生沉积矿床形成于封闭盆地和局部坳陷缺氧环境,主要包括沉积岩带层状铜矿床、喷淋-沉积型铅锌矿床和沉积型锰矿床。中二叠世至早三叠世,盆地开始闭合,最终由盆地向山脉转变。沉积基底受褶皱和断裂作用改造,形成构造型矿床,包括热液脉状铅锌矿床和构造蚀变岩内的铜铅锌矿床。研究结果表明,晚古生代伸展构造环境同时形成了弧后盆地和远场陆相盆地。与裂陷和辐合有关的岩浆活动时期可以通过相应的成矿作用来区分。与盆地相关的成矿类型可分为沉积型、岩浆型和构造型热液型矿床。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Sedimentation and mineralization of the Late Paleozoic extensional basin in the western Kunlun Mountains, China

Sedimentation and mineralization of the Late Paleozoic extensional basin in the western Kunlun Mountains, China

In the western Kunlun Mountain region, due to the convergence of the Paleotethys Ocean in the Late Paleozoic, through northward subduction towards the West Kunlun Block, forming the Kangxiwa–Waqia arc magmatism and back-arc extensional basins, including the Tamu–Kalangu and Oytag–Kurliang basins. This study explores the relationship between basin evolution and mineralization. First, the Late Paleozoic back-arc and far-field continental back-arc basins were distinguished by analyzing sediment constructions in the basins. The former was continuously deposited in the Middle Devonian–Late Permian above the Precambrian basement due to the existence of the depressions. The latter were intermittently deposited in the Middle Devonian–Late Permian due to rifting above the Caledonian orogenic belt. Although the two settings were separated by the Tiekelike fault, their formations were subject to mantle upwelling caused by the subduction of the Kangxiwa oceanic crust. We also divided the Hercynian and Indosinian magmatic activities related to the basin; the former of which included the formation of bimodal magmatic rocks (339–291 Ma) as the basin expanded, which resulted in hydrothermal sediments and hydrothermal–magmatic mineralization, mainly including volcanic massive copper sulfide, Cu and Ni sulfide, and hydrothermal deposits. During the Indosinian orogeny, intermediate acidic magmatic rocks (265–206 Ma) associated with the closure of the basin was formed, leading to the development of hydrothermal Cu–polymetallic and porphyritic copper deposits. The relationship between basin evolution and mineralization was determined. Based on the findings, we concluded that the basin extended between the Middle Devonian and Early Permian. Syngenetic sedimentary deposits formed in the closed basins and anoxic environments of local depressions and mainly included sedimentary rock-hosted stratiform Cu deposits, exhalation-sedimentary Pb–Zn deposits, and sedimentary Mn deposits. Between the Middle Permian and Early Triassic, the basin began to close and the transformation from a basin to a mountain range finally occurred. The sedimentary basement was transformed by folding and faulting, thus forming tectonic deposits, including hydrothermal vein-type Pb–Zn deposits and Cu–Pb deposits within tectonically altered rocks. The results of this work show that the Late Paleozoic extensional tectonic environment formed both the back-arc basin and the far-field continental basin simultaneously. Periods of magmatism related to rifting and convergence could be distinguished by the corresponding mineralization. The metallogenic types related to the basin could also be divided into sedimentary, magmatic hydrothermal and tectonic hydrothermal deposits.

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来源期刊
Solid Earth Sciences
Solid Earth Sciences GEOSCIENCES, MULTIDISCIPLINARY-
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3.60
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5.00%
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103 days
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