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    试论国内外大型超大型锂辉石矿床的特殊性与找矿方向

    王登红 刘丽君 代鸿章 刘善宝 侯江龙 吴西顺

    王登红, 刘丽君, 代鸿章, 刘善宝, 侯江龙, 吴西顺, 2017. 试论国内外大型超大型锂辉石矿床的特殊性与找矿方向. 地球科学, 42(12): 2243-2257. doi: 10.3799/dqkx.2017.142
    引用本文: 王登红, 刘丽君, 代鸿章, 刘善宝, 侯江龙, 吴西顺, 2017. 试论国内外大型超大型锂辉石矿床的特殊性与找矿方向. 地球科学, 42(12): 2243-2257. doi: 10.3799/dqkx.2017.142
    Wang Denghong, Liu Lijun, Dai Hongzhang, Liu Shanbao, Hou Jianglong, Wu Xishun, 2017. Discussion on Particularity and Prospecting Direction of Large and Super-Large Spodumene Deposits. Earth Science, 42(12): 2243-2257. doi: 10.3799/dqkx.2017.142
    Citation: Wang Denghong, Liu Lijun, Dai Hongzhang, Liu Shanbao, Hou Jianglong, Wu Xishun, 2017. Discussion on Particularity and Prospecting Direction of Large and Super-Large Spodumene Deposits. Earth Science, 42(12): 2243-2257. doi: 10.3799/dqkx.2017.142

    试论国内外大型超大型锂辉石矿床的特殊性与找矿方向

    doi: 10.3799/dqkx.2017.142
    基金项目: 

    中国地质调查局“大宗急缺矿产和战略性新兴产业矿产调查”工程“川西甲基卡大型锂矿资源基地综合调查评价”项目 DD20160055

    中国地质调查局中国矿产地质与成矿规律综合集成和服务(矿产地质志)项目 DD20160346

    华南重点矿集区稀有稀散和稀土矿产调查”项目 DD20160056

    国家重点研发计划“锂能源金属矿产基地深部探测技术示范”项目“我国锂能源金属成矿规律、靶区优选与重点查证”课题 2017YFC0602701

    详细信息
      作者简介:

      王登红(1967-), 研究员, 博导, 主要从事矿产资源研究

    • 中图分类号: P577

    Discussion on Particularity and Prospecting Direction of Large and Super-Large Spodumene Deposits

    • 摘要: 锂辉石矿床是锂矿的重要类型,但曾经因为开采成本高于盐湖提锂而被停止勘查.近年来随着新兴产业快速发展对锂的需求成倍增长,对锂辉石的重新开采已经成为锂资源的重要来源.通过对国内外7个大型超大型锂辉石矿床一些成矿特点的归纳总结,认为大规模的锂辉石成矿作用总是伴有一定的特殊性,如:伟晶岩型的锂辉石矿床可以产出在基性岩而不局限于花岗岩、片麻岩、片岩等常见的围岩中;锂辉石在伟晶岩中可以是粗晶的,也可以是细晶的;含锂辉石的伟晶岩脉可以是分带性良好的,也可以是分带性很差的;矿脉的形态可以是简单的板状体也可以是极其复杂的;成矿时代可以老到太古宙也可以晚到新生代;成矿构造环境可以是稳定的地台区也可以是构造活跃的喜马拉雅造山带.从容矿围岩特殊性、成矿时代特殊性、构造背景特殊性、矿化分带特殊性等方面探讨了大型超大型锂辉石矿床的找矿方向,指出,在找矿的过程中不能局限于花岗岩体的周边,也不能只以古老地台区的西澳的格林布什或北美的坦科为唯一模板,更不能只想到新疆可可托海的复杂性而忽略还有四川甲基卡、可尔因这样规模可十倍于大型矿床但形态却十分简单的超大型矿床的存在,找矿过程中也不能只考虑传统地质方法而要结合实际情况建立适当的物探化探等勘查模型.只要具体问题具体分析,拓展找矿思路,恰当使用勘查技术手段,要取得新的找矿突破是完全可能的.

       

    • 图  1  中国新疆可可托海3号伟晶岩脉的地质简图

      1.第四系;2.十字石-黑云母-石英片岩;3.淡色花岗岩;4.微晶花岗岩;5.黑云母花岗岩;6.石英闪长岩;7.角闪辉长岩;8.辉长闪长岩;9.角闪岩;10.暗色岩墙;11.闪长玢岩脉;12.Be-Nb-Ta矿化伟晶岩脉;13.Li-Be-Nb-Ta-Cs矿化伟晶岩脉;14.地质界线;15.断层;16.深部缓倾斜岩脉范围;简编自栾世伟等(1995)邹天人和李庆昌(2006)

      Fig.  1.  Geological sketch map of Koktokay No.3 pegmatite vein in Xinjiang, China

      图  2  四川甲基卡锂矿田地质简图

      新三号脉X03未出露地表,图上标示的是矿体的投影;改编自唐国凡和吴盛先(1984)

      Fig.  2.  Geological Sketch map of the Jiajikaspodumeneore field, Sichuan

      图  3  四川可尔因伟晶岩矿田党坝锂辉石矿床地质简图

      据四川马尔康金鑫矿业公司内部资料简化;饶魁元(2016)

      Fig.  3.  Geological Sketch map of the Dangbaspodumene deposit in Ke'eryin pegmatite field, Sichuan

      图  4  西澳大利亚格林布什伟晶岩矿床地质图(a)、伟晶岩内各带分布剖面图(b)

      1.粒玄岩岩墙;2.伟晶岩;3.花岗变晶岩;4.细粒和粗粒角闪岩;5.角闪岩、超镁铁质片岩;6.糜棱岩;据Partington et al.(1995)改绘

      Fig.  4.  Geological plan (a) and sectional drawing (b) of Greenbushes pegmatite deposit in Western Australia

      图  5  津巴布韦卡玛提维锂辉石矿床地质及剖面地质简图

      袁忠信等(2016)

      Fig.  5.  Geological plan and section of Kamativi spodumene deposit in Zimbabwe

      图  6  阿富汗尼拉维-库兰伟晶岩田地质图

      改编自Rossovskiy et al.(1977)British Geological Survey(2016)

      Fig.  6.  Geological map of Nilawe-Kulan pegmatite field, Afghanistan

      图  7  美国北卡罗来纳金斯山伟晶岩带的区域地质剖面示意图

      1.二叠系Yorkville石英二长岩;2.二叠系(?)Cherryville石英二长岩;3.薄层角闪岩;4.含硅质夹层的变质泥质岩;5.结晶灰岩;6.具片理的火山碎屑岩;7.片岩和片麻岩;转袁忠信等(2016)

      Fig.  7.  Regional geological section of Kings Mountain pegmatite belt in North Carolina, America

      图  8  北卡罗来纳金斯山伟晶岩田地质简图

      Kesler et al.(2012)改绘

      Fig.  8.  Simple geological map of Kings Mountain pegmatite field in North Carolina

      图  9  全球主要锂辉石矿床分布略图

      1.前寒武纪地台;2.加里东褶皱带;3.海西-印支褶皱带;4.中生代褶皱带;5.喜马拉雅褶皱带;6.主要锂辉石矿床;7.主要锂辉石成矿区带

      Fig.  9.  Sketch distribution of major spodumene deposits in the world

      图  10  中国西南部锂的地球化学异常图

      谢学锦等(2008)

      Fig.  10.  The geochemical anomaly map of Li in Western China

      表  1  国内外重要锂辉石矿床

      Table  1.   Simple list of important spodumene deposits at home and abroad

      矿床所在洲 国家 锂矿床/项目 矿产 Li金属(104 t) Li品位(%) 地质特征简介 参考文献
      亚洲 俄罗斯 Vishnyakovskoe 21.00 0.49 3组缓倾斜伟晶岩,矿化体宽1~3 km厚500 m;伟晶岩群之间隔以40~120 m宽的无矿地带;单个伟晶岩体厚达12 m,单个伟晶岩体和伟晶岩群都具有分带性;锂辉石和透锂长石出现在最深部的伟晶岩群中. Kesler et al.(2012)
      亚洲 阿富汗 Pasgushta Pass 49.00 0.92 围岩可以是片麻岩也可以是辉长岩;矿体形态复杂,产状变化大;成矿于渐新世. Rossovskiy and Chmyrev(1977)施俊法等(2006)
      亚洲 阿富汗 Jamanak 21.00 0.72 锂辉石伟晶岩岩墙状侵入到三叠系变质岩中,4个带,长1 km,宽10~20 m. Rossovskiy and Chmyrev(1977)施俊法等(2006)
      亚洲 阿富汗 Taghawlor 68.8 0.03~1.30 含锂辉石岩墙侵入上三叠统钙质石英黑云母片岩,单个岩墙0.6~1.0 km长,3~7 m厚. British Geological Survey(2016)
      亚洲 阿富汗 Drumgal 12.00 0.65~0.74 3个含锂辉石伟晶岩岩墙侵入上三叠统板岩,单个岩墙1~2 km长,7~30 m厚. British Geological Survey(2016)
      亚洲 中国 甲基卡 锂、铍 30.00 0.71 产于三叠系堇青石、红柱石片岩中;板状复合矿脉;缓倾斜;锂占绝对优势. 王登红和付小方(2013)付小方等(2014)
      亚洲 中国 可可托海 铍、锂、钽、铯等 7.30 产于海西期中基性岩中,形态呈草帽状,形成于中生代;锂为大型,铍为超大型. 王登红等(2002)
      欧洲 捷克 Cinovec 锂、锡、钨等 130.00 0.20 除了锂之外还有锡、钨大量共伴生,锂可能主要呈锂云母形式出现,尚在勘查. 国土资源部(2015, 2017)
      澳洲 澳大利亚 Greenbushes 锂、钽 56.00 0.74 产于片麻岩、角闪岩、角闪片岩等,被辉绿岩脉和花岗岩脉穿切,形成于太古宙. 何金祥(2015)Kesler et al.(2012)
      澳洲 澳大利亚 Pilgangoora 锂、钽 72.17 0.56 埋深浅,矿体厚,高品位,产于绿岩带;伴生丰富的钽资源. Pilbara Minerals Ltd.(2016)
      澳洲 澳大利亚 Wodgina East - 0.74 位于Pilgangoora西15 km处,锂辉石为主. Altura Mining Ltd.(2016).
      澳洲 澳大利亚 Lynas Find North - 1.23 产于绿岩带,距离Pilgangoora仅8 km. Metalicity Ltd.(2016)
      非洲 津巴布韦 Bikita 锂、钽、锡、铍等 15.00 1.40 伟晶岩产于由火山岩变质而成的绿岩带角闪岩和角闪石片岩中,锂云母和透锂长石大量发育;分带性复杂(可分10个带). Symons (1961)Kesler et al.(2012)
      非洲 津巴布韦 Kamativi 锂、锡 28.00 0.28 产于穹隆变质岩中;伟晶岩常见电气石;锡与锂“反相关”;产状平缓,分带不明显. Kesler et al.(2012)
      非洲 马里 Goulamina 49.00 0.58 尚未公开地质资料. Birimian Ltd.(2017)
      非洲 扎伊尔 Manono-Kitotolo 72.00 0.60 伟晶岩脉长可达5 km,宽约400 m;开采锂辉石、绿柱石和锡石,锡渣中回收铌钽. Kesler et al.(2012)
      北美洲 加拿大 Whabouchi 12.00 0.71 可能是北美品位最高规模最大的锂辉石矿床,产于加拿大地盾的绿岩带,伟晶岩脉群宽90 m,长1.3 km,锂辉石为主. Nemaska Lithium Inc.(2016)
      北美洲 美国 Bessemer City 42.00 0.67 美国最大的锂矿山之一,矿化均匀. Kesler et al.(2012)
      北美洲 美国 Kings Mountain 32.00 0.70 围岩、矿脉产状、形态及矿化分带均多样性、复杂化,内带锂外带铍,产黑钨矿. Kesler et al.(2012)
      北美洲 加拿大 Tanco 锂、钽、铯 14.00 0.64 近平坦的板状伟晶岩产于绿岩带褶皱中. Kesler et al.(2012)
        注:“-”待补充或核实相关数据资料;表中锂金属量数据由参考文献原始资源储量数据换算成金属锂当量.
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