|
|
基性岩地球化学特征及其与金矿的关系——以云南富宁者桑金矿为例
|
Abstract:
基性岩与金矿在时间、空间及成矿物质来源上关系十分密切。本文以云南富宁者桑金矿的基性岩为例,详细讨论了两期基性岩的成岩时间、成因机制、源区特征及构造演化等地球化学特征,并结合前人对者桑金矿的年龄测定、对岩矿石的主微量元素测定、及华南区域大地构造动力演化史,从年代学、地球化学、大地构造学等方面详细探讨基性岩与金矿的关系,并建立出华南地区卡林型金矿的成矿模型,为以后该类矿床的勘探研究工作提供详实的理论指导。
Basic rocks are closely related to gold deposits in terms of time, space, and ore-forming sources. This paper takes the basic rocks of the Zhesang gold deposit in Funing, Yunnan as an example, and discusses in detail the geochemical characteristics of the two phases of basic rocks such as the diagenesis time, genetic mechanism, source area characteristics, and structural evolution. Combined with the age determination of the Zhesang gold deposit by the predecessors, the determination of the main and trace elements of the rock ores, and the dynamic evolution history of the geotectonic in South China, from the aspects of geochronology, geochemistry and geotectonics, the relationship between basic rocks and gold deposits is discussed in detail. The mineralization model of Carlin-type gold deposits in the area provides detailed theoretical guidance for future exploration and research work of such deposits.
| [1] | Bierlein, F.-P., Arne, D.-C., Mcknight, S., Lu, J., Reeves, S., Besanko, J., Marek, J. and Cooke, D. (2000) Wall-Rock Petrology and Geochemistry in Alteration Halos Associated with Mesothermal Gold Mineralization, Central Victoria, Australia. Economic Geology, 95, 283-311. https://doi.org/10.2113/gsecongeo.95.2.283 |
| [2] | Cai, J.-X. and Zhang, K.-J. (2009) A New Model for the Indochina and South China Collision during the Late Permian to the Middle Triassic. Tectonophysics, 467, 35-43. https://doi.org/10.1016/j.tecto.2008.12.003 |
| [3] | Chen, M.H., Zhang, Z.Q., Santosh, M., Dang, Y. and Zhang, W. (2015) The Carlin-Type Gold Deposits of the “Golden Triangle” of SW China: Pb and S Isotopic Constraints for the Ore Genesis. Journal of Asian Earth Sciences, 103, 115-128. https://doi.org/10.1016/j.jseaes.2014.08.022 |
| [4] | Gan, T. and Huang, Z.L. (2017) Platinum-Group Element and Re-Os Geochemistry of Lamprophyres in the Zhenyuan Gold Deposit, Yunnan Province, China: Implications for Petrogenesis and Mantle Evolution. Lithos, 282-283, 228-239.
https://doi.org/10.1016/j.lithos.2017.03.018 |
| [5] | Groves, D.I., Goldfarb, R.J., Gebre-Mariam, M., Hagemann, S.G. and Robert, F. (1998) Orogenic Gold Deposits: A Proposed Classification in the Context of Their Crustal Distribution and Relationship to Other Gold Deposit Types. Ore Geology Reviews, 13, 7-27. https://doi.org/10.1016/S0169-1368(97)00012-7 |
| [6] | Feng, J.Z., Wang, D.B., Wang, X.M., Zeng, Y.S. and Li, T.F. (2004) Magmatic Gold Mineralization in the Western Qinling Orogenic Belt: Geology and Metallogenesis of the Baguamiao, Liba and Xiaogouli Gold Deposits. Acta Geologica Sinica English Edition, 78, 529-533. https://doi.org/10.1111/j.1755-6724.2004.tb00163.x |
| [7] | Kovalev, K.-R., Kuzmina, O.-N., Dyachkov, B.-A., Vladimirov, A.-G., Kalinin, Y.-A., Naumov, E.-A., Kirillov, M.-V. and Annikova, I.-Y. (2016) Disseminated Gold-Sulfide Mineralization at the Zhaima Deposit, Eastern Kazakhstan. Geology of Ore Deposits, 58, 116-133. https://doi.org/10.1134/S1075701516020045 |
| [8] | Shubhangi, L. and Kirtikumar, R. (2017) Lamprophyres from the Harohalli Dyke Swarm in the Halaguru and Mysore Areas, Southern India: Implication for Backarc Basin Magmatism. Journal of Asian Earth Sciences, 157, 329-347.
https://doi.org/10.1016/j.jseaes.2017.11.031 |
| [9] | Li, L., Li, S.-R., Santosh, M., Li, Q., Gu, Y., Lü, W.-J., Zhang, H.-F., Shen, J.-F. and Zhao, G.-C. (2016) Dyke Swarms and Their Role in the Genesis of World-Class Gold Deposits: Insights from the Jiaodong Peninsula, China. Journal of Asian Earth Sciences, 130, 2-22. https://doi.org/10.1016/j.jseaes.2016.06.015 |
| [10] | Nie, F., Jiang, S., Hou, W., Liu, Y. and Xiao, W. (2010) Language Original. Geological Features and Genesis of Gold Deposits Hosted by Low-Grade Metamorphic Rocks in Central-Western Inner Mongolia. Mineral Deposits, 29, 58-70. |
| [11] | 黄文龙, 刘希军, 时毓, 许继峰, 廖帅, 郭琳, 吴伟男, 李政林, 梁琼丹. 桂西巴马地区极高Ti/Y值基性岩地球化学特征——来自峨眉山地幔柱高Ti母岩浆[J]. 地质通报, 2015, 34(Z1): 474-486. |
| [12] | 贾大成, 胡瑞忠. 滇黔桂地区卡林型金矿床成因探讨[J]. 矿床地质, 2001, 20(4): 378-384. |
| [13] | 李杰, 梁细荣, 董彦辉, 涂湘林, 许继峰. 利用多接收器电感耦合等离子体质谱仪(MC-ICPMS)测定镁铁-超镁铁质岩石中的铼-锇同位素组成[J]. 地球化学, 2007, 36(2): 153-160. |
| [14] | 李政林, 刘希军, 时毓, 吴伟男, 姚野, 梁琼丹, 闫海忠, 谭森. 右江盆地南缘二叠-三叠纪基性岩研究及其与金矿的成矿关系探讨[J]. 矿物学报, 2015(S1): 227-228. |
| [15] | 李政林, 刘希军, 许继峰, 康志强, 时毓, 黄文龙, 陈雪峰, 吴伟男, 梁琼丹, 姚野. 右江盆地基性岩的地球化学演化特征及其区域构造意义[J]. 桂林理工大学学报, 2015, 35(4): 727-735. |
| [16] | 廖帅, 刘希军, 时毓, 黄文龙, 郭琳. 地幔柱与岛弧岩浆相互作用的产物: 来自桂西辉绿岩型金矿中基性岩证据[J]. 矿物学报, 2013, 49(S2): 111-113. |
| [17] | 毛景文, 李延河, 李红艳, 王登红, 宋鹤彬. 湖南万古金矿床地幔流体成矿的氦同位素证据[J]. 地质论评, 1997, 43(6): 646-649. |
| [18] | 聂凤军, 江思宏, 侯万荣, 刘翼飞, 肖伟. 内蒙古中西部浅变质岩为容矿围岩的金矿床地质特征及形成过程[J]. 矿床地质, 2010, 29(1): 58-70. |
| [19] | 庞保成, 林畅松. 滇黔桂地区微细浸染型金矿成因的地球化学制约[J]. 地学前缘, 2000, 7(3): 38. |
| [20] | 皮桥辉, 胡瑞忠, 彭科强, 吴建标, 韦朝文, 黄勇. 云南富宁者桑金矿床与基性岩年代测定——兼论滇黔桂地区卡林型金矿成矿构造背景[J]. 岩石学报, 2016, 32(11): 3331-3342. |
| [21] | 丘元禧, 张伯友. 华南古特提斯东延问题的探讨[J]. 中国区域地质, 2000, 19(2): 175-180. |
| [22] | 仕竹焕, 杨云保. 初论滇东南地区微细粒型金矿找矿标志[J]. 西部探矿工程, 2007(5): 65-68. |
| [23] | 宋博, 闫全人, 向忠金, 陈辉明, 马铁球, 杨广元. 广西凭祥中三叠世盆地沉积特征与构造属性分析[J]. 地质学报, 2013, 87(4): 453-473. |
| [24] | 涂光炽. 我国西南地区两个别具一格的成矿带(域) [J]. 矿物岩石地球化学通报, 2002, 21(1): 1-2. |
| [25] | 王迎春, 张小兵, 秦辉. 广南—富宁微细浸染型金矿分类及代表性矿床[J]. 云南地质, 2013, 32(3): 259-263. |
| [26] | 王忠诚, 吴浩若, 邝国敦. 桂西晚古生代海相玄武岩的特征及其形成环境[J]. 岩石学报, 1997, 13(2): 135-140. |
| [27] | 文志林, 邓腾, 董国军, 邹凤辉, 许德如, 王智琳, 林舸, 陈根文. 湘东北万古金矿床控矿构造特征与控矿规律研究[J]. 大地构造与成矿学, 2016, 7(2): 281-294. |
| [28] | 吴根耀, 吴浩若, 钟大赉, 邝国敦, 季建清. 滇桂交界处古特提斯的洋岛和岛弧火山岩[J]. 现代地质, 2000, 14(4): 393-400. |
| [29] | 谢建成, 杨晓勇, 杜建国, 孙卫东. 铜陵地区中生代侵入岩LA-ICP-MS锆石U-Pb年代学及Cu-Au成矿指示意义[J]. 岩石学报, 2008, 24(8): 1782-1800. |
| [30] | 徐伟, 刘玉平, 郭利果, 叶霖, 皮道会, 廖震. 滇东南八布蛇绿岩地球化学特征及构造背景[J]. 矿物学报, 2008, 28(1): 6-14. |
| [31] | Ressel, M.-W. (2006) Igneous Geology of the Carlin Trend, Nevada: Development of the Eocene Plutonic Complex and Significance for Carlin-Type Gold Deposits. Economic Geology, 101, 347-383.
https://doi.org/10.2113/gsecongeo.101.2.347 |
| [32] | Sillitoe, R.-H. (2008) Special Paper: Major Gold Deposits and Belts of the North and South American Cordillera: Distribution, Tectonomagmatic Settings, and Metallogenic Considerations. Economic Geology, 103, 663-687.
https://doi.org/10.2113/gsecongeo.103.4.663 |
| [33] | Qin, X.F., Wang, Z.Q., Zhang, Y.L. and Pan, L.Z. (2012) Geochemistry of Permian Mafic Igneous Rocks from the Napo-Qinzhou Tectonic Belt in Southwest Guangxi, Southwest China Implications for Arc-Back Arc Basin Magmatic Evolution. Acta Geologica Sinica (English Edition), 85, 1182-1199. https://doi.org/10.1111/j.1755-6724.2012.00740.x |
| [34] | Yan, Y.T., Zhang, N., Li, S.R. and Li, Y.S. (2014) Mineral Chemistry and Isotope Geochemistry of Pyrite from the Heilangou Gold Deposit, Jiaodong Peninsula, Eastern China. Geoscience Frontiers, 5, 205-213.
https://doi.org/10.1016/j.gsf.2013.05.003 |
| [35] | Yang, J.H., Cawood, P.A., Du, Y.S., Huang, H. and Hu, L.S. (2012) Detrital Record of Indosinian Mountain Building in SW China: Provenance of the Middle Triassic Turbidites in the Youjiang Basin. Tectonophysics, 574-575, 105-117.
https://doi.org/10.1016/j.tecto.2012.08.027 |
| [36] | Zhai, M.G. and Santosh, M. (2013) Metallogeny of the North China Craton: Link with Secular Changes in the Evolving Earth. Gondwana Research, 24, 275-297. https://doi.org/10.1016/j.gr.2013.02.007 |
| [37] | Zhao, H.-X., Frimmel, H.E., Jiang, S.Y. and Dai, B.Z. (2011) LA-ICP-MS Trace Element Analysis of Pyrite from the Xiaoqinling Gold District, China: Implications for Ore Genesis. Ore Geology Reviews, 43, 142-153.
https://doi.org/10.1016/j.oregeorev.2011.07.006 |
| [38] | Zhou, M., Zhao, J., Qi, L., Su, W. and Hu, R. (2006) Zircon U-pb Geochronology and Elemental and Sr-nd Isotope Geochemistry of Permian Mafic Rocks in the Funing Area, Sw China. Contributions to Mineralogy and Petrology, 151, 1-19. https://doi.org/10.1007/s00410-005-0030-y |
| [39] | Zhu, R.X., Fan, H.R., Li, J.W., Meng, Q.R., Li, S.R. and Zeng, Q.D. (2015) Decratonic Gold Deposits. Science China Earth Science, 58, 1523-1537. https://doi.org/10.1007/s11430-015-5139-x |
| [40] | 陈阳阳, 陈兵. 黔西南水银洞卡林型金矿地质地球化学特征及成因[J]. 中国地质调查, 2016, 3(2): 10-14. |
| [41] | 代鸿章, 陈翠华, 顾雪祥, 李保华, 董树义, 程文斌. 云南省富宁县者桑金矿床成矿流体特征[J]. 现代地质, 2014, 28(5): 893-904. |
| [42] | 代鸿章, 陈翠华, 刘家军, 张燕, 何朝鑫. 云南者桑金矿床元素地球化学特征及其地质意义[J]. 矿物岩石地球化学通报, 2015, 34(4): 744-754. |
| [43] | 范蔚茗, 彭头平, 王岳军. 滇西古特提斯俯冲-碰撞过程的岩浆作用记录[J]. 地学前缘, 2009, 16(6): 291-302. |
| [44] | 范蔚茗, 王岳军, 彭头平, 苗来成, 郭峰. 桂西晚古生代玄武岩Ar-Ar和U-Pb年代学及其对峨眉山玄武岩省喷发时代的约束[J]. 科学通报, 2004, 49(18): 1892-1900. |
| [45] | 方维萱, 张海, 贾润幸. 滇桂个旧-那坡三叠纪弧后裂谷盆地动力学与成矿序列[J]. 大地构造与成矿学, 2011, 35(4): 552-566. |
| [46] | 何鸿, 韦龙明, 张寿庭, 高阳, 徐毅. 陕西八卦庙金矿床成矿流体He、Ar、H、O同位素特征[J]. 黄金, 2009, 30(8): 9-11. |
| [47] | Pi, Q.H., Hu, R.Z., Xiong, B., Li, Q.L. and Zhong, R.C. (2017) In Situ SIMS U-Pb Dating of Hydrothermal Rutile: Reliable Age for the Zhesang Carlin-Type Gold Deposit in the Golden Triangle Region, SW China. Miner Deposita, 52, 1179-1190. https://doi.org/10.1007/s00126-017-0715-y |
| [48] | 国家辉. 桂西北地区岩浆活动与超微粒型金矿化的关系[J]. 贵金属地质, 2000, 9(3): 133-143. |
| [49] | 胡瑞忠, 付山岭, 肖加飞. 华南大规模低温成矿的主要科学问题[J]. 岩石学报, 2016, 32(11): 3239-3251. |
| [50] | Hu, R.-Z., Su, W.-C., Bi, X.-W., Tu, G.-Z. and Albert, H. (2002) Geology and Geochemistry of Carlin-Type Gold Deposits in China. Mineralium Deposita, 37, 378-392. https://doi.org/10.1007/s00126-001-0242-7 |
