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    新疆喀拉通克铜镍矿田成矿条件、岩浆通道与成矿潜力分析

    Metallogenetic conditions, magma conduit and exploration potential of the Kalatongk Cu-Ni orefield in Northern Xinjiang

    • 摘要: 提要:位于中亚造山带北缘的喀拉通克早二叠世铜镍硫化物矿区是新疆规模最大的铜镍矿山,包含13个岩体,相当部分为隐伏岩体,其中1号、2号、3号、9号矿床为主力矿床,经过30余年持续开发,最大开采深度已达740 m,已面临后备资源不足的危机。已知矿体主要产于辉长岩、苏长岩、辉长苏长岩以及橄榄苏长岩中,甚至角闪辉长岩局部也含矿,未见超镁铁岩产出,具有显著的磁性(200 nT)、重力(0.29×10-5 m/s2)、激化率异常,以镁铁岩含矿、岩体规模小且成群成带、分异演化程度高、富铜(Cu/Ni约3∶2)、PGE较高、块状硫化物贯入矿体普遍发育为特色。其围岩为含炭质板岩、片岩和凝灰岩,变形强烈,常规电法受到炭质层的干扰。依据岩石学、地球化学研究,岩浆源于软流圈地幔,基于与东天山同期铜镍矿床含矿岩相及其比例和剩余重力异常的比较,推断其应发育有相当比例的超镁铁岩,因而深部出现超基性岩的可能性很高,且含矿性应更好。这一推断得到坑道钻探的证实,2013年矿区在Y2岩体东段650~740 m深度和Y2岩体西段400~500 m深度发现隐伏超镁铁岩且含矿,局部见贯入块状矿体。橄榄辉石岩、辉石橄榄岩系矿区首次发现,粒度很细,发育强烈的蛇纹石化、纤闪石化,推测只是隐伏超基性岩的头部。结合控岩控矿构造的追溯及南、北岩带的侧伏和倾伏方向判断,硫化物珠滴构造的发现与系统观测统计,围岩烘烤边和角岩化的研究分析,提出南岩带主岩浆通道位于Y2与Y3岩体之间,而不是原普遍认为的岩浆通道位于Y1与Y2岩体之间。结合矿区的现状,提出采用高分辨率浅层地震、CSAMT和瞬变电磁地-井测量,结合传统的高精度重力勘探、磁法勘探和激发极化法来勘探和预测南岩带深部隐伏含矿超镁铁岩的空间位置和产状,圈定岩浆通道和隐伏铜镍矿体,进而推动北岩带和外围G21、22号岩体的深部探矿工作。

       

      Abstract: Abstract:The Kalatongk early-Permian Cu-Ni sulfide orefield, which consists of 13 small mafic intrusions and is located in the north of the central Asian orogenic belt (CAOB), is the largest Cu-Ni ore deposit in Xinjiang. Some intrusions are unexposed, and the major economic Ni-Cu sulfide ores are found within four of these intrusions, i.e., Y1, Y2, Y3 and Y9 intrusions. What is the biggest crisis is the shortage of reserved resources of copper and nickel in the Kalatongk deposit after more than 30 years’ continuous mining and exploitation, with the deepest mining depth reaching 740 meters. The main host rock types are gabbro, norite, gabbro-norite and olvine-norite, with ores also occurring in the hornblende gabbro. However, the ultramafic rock, which is the main host rock in most of the Cu-Ni deposits in the world, has not been found in these intrusions. The deposits have significant magnetic anomalies (200 nT), gravity anomalies (0.29×10-5 m/s2), and induced polarizability anomalies, and are characterized by ore-bearing mafic rock, small-size intrusion clusters, full magmatic evolution, high copper content (Cu/Ni radios approximately 3∶2), high PGE content and widespread massive sulfide lens. The country rocks are highly deformed carbonaceous slate, schist and tuffaceous rocks, which hinder the conventional electrical exploration. Kalatongk mafic intrusions were derived from the upwelling of asthenosphere components, as shown by the study of petrology and geochemistry of the intrusions. Compared with the same-period magmatic Cu-Ni deposits in East Tianshan in the aspects of the petrographic types and percentages and the residual gravity anomalies, it is supposed that the Kalatongk intrusions are more likely to have a high content ultramafic rock, which could probably be found in the depth of mafic intrusions and has a much better ore-bearing potential. This inference has been confirmed by the discovery of ultramafic rock in the eastern part of Y2 intrusion 650-740 meters below the surface and in the western part of Y2 intrusion at the depth of 410-590 meters in 2013, through drilling in underground tunnel. This was for the first time that the fine-grained, intensely serpentinized and uralitized olivine pyroxenite and pyroxene peridotite were found in the ore district, which are thought to constitute the top of the buried ultramafic rock. In combination with the rock-controlling and ore-controlling structure, the pitch and dip direction of the intrusion clusters, the discovery and systematic observation of multiphase sulfide droplet structure and the researches on hornstone and baking of the country rocks, it seems more reasonable that the main magma conduit may be located between Y2 and Y3 intrusions instead of between Y1 and Y2 intrusions which was thought to be the main magma conduit in the past years. In consideration of the background of the Kalatongk orefield, the authors suggest that the utilization of the high-resolution shallow-level seismic survey, Controlled Source Audio-frequency Magnetotelluric methods (CSAMT) and borehole electromagnetic survey, combined with the conventional high-precision gravity, magnetic and induced polarization methods, can detect and predict the spatial location, shape and mineralization extent of the buried ore-bearing mafic-ultramafic bodies in the southern intrusion belt, and can then promote the deep prospecting work in the northern intrusion belt and the peripheral G21, G22 concealed mafic intrusions.

       

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