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[1]张 勇,马东升*,潘家永.湘中盆地热液方解石的微量和稀土元素组成对区域性基底-盖层成矿流体演化的制约[J].地球化学,2018,47(05):522-540.[doi:10.19700/j.0379-1726.2018.05.006]
 ZHANG Yong,MA Dong-sheng* and PAN Jia-yong.Trace element compositions of calcites from W, Sb, and Au deposits in Central Hunan, China: Implications for ore-forming fluid evolution in the regional basement and cover[J].Geochimica,2018,47(05):522-540.[doi:10.19700/j.0379-1726.2018.05.006]
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湘中盆地热液方解石的微量和稀土元素组成对区域性基底-盖层成矿流体演化的制约

参考文献/References:

[1] Bau M, Dulski P. Comparative study of yttrium and rare-earth element behaviours in fluorine-rich hydrothermal fluids [J]. Contrib Mineral Petrol, 1995, 119: 213–223.
[2] 黄智龙, 陈进, 韩润生, 李文博, 高德荣, 赵德顺, 刘丛强. 云南会泽铅锌矿床脉石矿物方解石REE地球化学[J]. 矿物学报, 2001, 21(4): 659–666.
Huang Zhi-long, Chen Jin, Han Run-sheng, Li Wen-bo, Gao De-rong, Zhao De-shun, Liu Cong-qiang. REE geochemistry of calcite—A gangue mineral in the Huize ore deposit, Yunnan [J]. Acta Mineral Sinica, 2001, 21(4): 659–666 (in Chinese with English abstract).
[3] 彭建堂, 胡瑞忠, 漆亮, 赵军红, 符亚洲. 锡矿山热液方解石的REE分配模式及其制约因素[J]. 地质论评, 2004, 50(1): 25–32.
Peng Jian-tang, Hu Rui-zhong, Qi Liang, Zhao Jun-hong, Fu Ya-zhou. REE distribution pattern for the hydrothermal calcites from the Xikuangshan antimony deposit and its constraining factors [J]. Geol Rev, 2004, 50(1): 25–32 (in Chinese with English abstract).
[4] 双燕, 毕献武, 胡瑞忠, 彭建堂, 李兆丽, 李晓敏, 袁顺达, 齐有强. 芙蓉锡矿方解石稀土元素地球化学特征及其对成矿流体来源的指示[J]. 矿物岩石, 2006, 26(2): 57–65.
Shuang Yan, Bi Xian-wu, Hu Rui-zhong, Peng Jian-tang, Li Zhao-li, Li Xiao-min, Yuan Shun-da, Qi You-qiang. REE geochemistry of hydrothermal calcite from tin-polymetallic deposit and its indication of source of hydrothermal ore-forming fluid [J]. J Mineral Petrol, 2006, 26(2): 57–65 (in Chinese with English abstract).
[5] Li B, Zhou J X, Huang Z L, Yan Z F, Bao G P, Sun H R. Geological, rare earth elemental and isotopic constraints on the origin of the Banbanqiao Zn-Pb deposit, southwest China [J]. J Asian Earth Sci, 2015, 111: 100–112.
[6] Cai Y, Zhang Q, Zhang Y B, Zhang D P, Wang K W. Sm-Nd dating and rare earth element geochemistry of the hydro-thermal calcites from Guling carbonate-hosted talc minerali-zation in the central Guangxi province, South China [J]. Chinese J Geochem, 2015, 34(2): 156–66.
[7] 李荣清. 湘南多金属成矿区方解石的稀土元素分布特征及其成因意义[J]. 矿物岩石, 1995, 15(4): 72–77.
Li Rong-qing. Rare earth element distribution and its genetic signification of calcite in southern Hunan polymetallic metallogenic province [J]. J Mineral Petrol, 1995, 15(4): 72–77 (in Chinese with English abstract).
[8] Uysal I T, Zhao J X, Golding S D, Lawrence M G, Glikson M, Collerson K D. Sm-Nd dating and rare-earth element tracing of calcite: Implications for fluid-flow events in the Bowen Basin, Australia [J]. Chem Geol, 2007, 238: 63–71.
[9] Huang Z L, Li X, Zhou M F, Li W, Jin Z G. REE and C-O isotopic geochemistry of calcites from the world-class Huize Pb-Zn deposits, Yunnan, China: Implications for the ore genesis [J]. Acta Geol Sinica, 2010, 84(3): 597–613.
[10] 周家喜, 黄智龙, 周国富, 曾乔松. 黔西北天桥铅锌矿床热液方解石C、O同位素和REE地球化学[J]. 大地构造与成矿学, 2012, 36(1): 93–101.
Zhou Jia-xi, Huang Zhi-long, Zhou Guo-fu, Zeng Qiao-song. C, O isotope and REE geochemistry of the hydrothermal calcites from the Tianqiao Pb-Zn ore deposit in NW Guizhou Province, China [J]. Geotecton Metallogen, 2012, 36(1): 93–101 (in Chinese with English abstract).
[11] 包广萍, 崔银亮, 高建国. 滇东北茂租铅锌矿床热液方解石稀土元素地球化学特征[J]. 矿物学报, 2013, 33(4): 681–685.
Bao Guang-ping, Cui Yin-liang, Gao Jian-guo. REE geochemical features of hydrothermal calcite from Maozu Pb-Zn deposit, northeastern Yunnan Province, China [J]. Acta Mineral Sinica, 2013, 33(4): 681–685 (in Chinese with English abstract).
[12] USGS. Mineral Commodity Summaries 2015 [R]. 2015: 18–21.
[13] 杨照柱, 卢新卫, 丘卉. 锡矿山锑矿稳定同位素地球化学研究[J]. 地球科学与环境学报, 1998, 20(4): 3–7.
Yang Zhao-zhu, Lu Xin-wei, Qiu Hui. Stable isotope geoche?mistry research of Xikuangshan antimony deposit [J]. J Earth Sci Environ, 1998, 20(4): 3–7 (in Chinese with English abstract).
[14] 杨照柱, 马东升, 解庆林. 锡矿山超大型锑矿床流体成矿作用及矿床成因[J]. 地质找矿论丛, 1998, 13(3): 52–63.
Yang Zhao-zhu, Ma Dong-sheng, Xie Qing-lin. The genesis and ore-forming fluid of the super-large antimony deposit of Xikuangshan, China [J]. Contrib Geol Mineral Resour Res, 1998, 13(3): 52–63 (in Chinese with English abstract).
[15] 高斌, 马东升. 围岩蚀变过程中地球化学组份质量迁移计算——以湖南沃溪Au-Sb-W矿床为例[J]. 地质找矿论丛, 1999, 14(2): 25–31.
Gao Bin, Ma Dong-sheng. Identifying the immobile elements and evaluating mass transport in the geochemical process of the wall-rock alteration: Applied to the Woxi Au-Sb-W deposit in Hunan province, China [J]. Contrib Geol Mineral Resour Res, 1999, 14(2): 25–31 (in Chinese with English abstract).
[16] 彭建堂, 戴塔根. 湘西南金矿床成矿流体地球化学研究[J]. 矿床地质, 1999, 18(1): 73–82.
Peng Jian-tang, Dai Ta-gen. Geochemical studies of ore-forming fluids in gold deposits of southwestern Hunan [J]. Mineral Deposit, 1999, 18(1): 73–82 (in Chinese with English abstract).
[17] 卢新卫, 马东升. 湘中区域古流体的地球化学特征[J]. 地质找矿论丛, 2000, 15(4): 320–327.
Lu Xin-wei, Ma Dong-sheng. Geochemical characteristics of regional paleofluid of central Hunan [J]. Contrib Geol Mineral Resour Res, 2000, 15(4): 320–327 (in Chinese with English abstract).
[18] 彭建堂, 胡瑞忠. 湘中锡矿山超大型锑矿床的碳、氧同位素体系[J]. 地质论评, 2001, 47(1): 34–41.
Peng Jian-tang, Hu Rui-zhong. Carbon and oxygen isotope syste?matics in the Xikuangshan giant antimony deposit, central Hunan [J]. Geol Rev, 2001, 47(1): 34–41 (in Chinese with English abstract).
[19] 彭建堂, 胡瑞忠, 邹利群, 刘建雄. 湘中锡矿山锑矿床成矿物质来源的同位素示踪[J]. 矿物学报, 2002, 22(2): 155–159.
Peng Jian-tang, Hu Rui-zhong, Zou Li-qun, Liu Jian-xiong. Isotope tracing of ore-forming materials for the Xikuangshan antimony deposit, central Hunan [J]. Acta Mineral Sinica, 2002, 22(2): 155-159 (in Chinese with English abstract).
[20] 马东升. 中低温流体成矿作用: 地球化学指示及其找矿意义[C]. 第四届世界华人地质科学讨论会论文集, 2002: 327– 328.
Ma Dong-sheng. Geochemical signals for ore-forming process by mid-low temperature fluid and its significance of prospe?cting [C] // Proceedings of the Seminar on Chinese Geological Sciences, 2002: 327–328 (in Chinese).
[21] 马东升, 潘家永, 解庆林, 何江. 湘中锑(金)矿床成矿物质来源——Ⅰ.微量元素及其实验地球化学证据[J]. 矿床地质, 2002, 21(3): 366–376.
Ma Dong-sheng, Pan Jia-yong, Xie Qing-lin, He Jiang. Ore source of Sb(Au) deposits in Central Hunan: Ⅰ. Evidences of trace elements and experimental geochemistry [J]. Mineral Deposit, 2002, 21(3): 366–376 (in Chinese with English abstract).
[22] 马东升, 潘家永, 卢新卫. 湘西北-湘中地区金-锑矿床中-低温流体成矿作用的地球化学成因指示[J]. 南京大学学报(自然科学版), 2002, 38(3): 435–445.
Ma Dong-sheng, Pan Jia-yong, Lu Xin-wei. Geochemical signals for ore-forming process by mid-low temperature fluid in Au-Sb deposits in NW-Central Hunan, China [J]. J Nanjing Univ (Nat Sci), 2002, 38(3): 435–445 (in Chinese with English abstract).
[23] 潘家永, 马东升. 热液矿床成矿元素地球化学异常探讨[J]. 地质与勘探, 2002, 38(6): 10–12.
Pan Jia-yong, Ma Dong-sheng. A discuss on geochemical anomaly of ore-forming elements in hydrothermal deposits [J]. Geol Prospect, 2002, 38(6): 10–12 (in Chinese with English abstract).
[24] 潘家永, 马东升. 湘中大规模低温成矿作用地球化学研究[C]. 全国包裹体及地质流体学术研讨会论文集, 2002: 51.
Pan Jia-yong, Ma Dong-sheng. The study on large-scale low temperature ore-forming fluid systems [C] // Symposium on Geological and Fluid Inclusion in China, 2002: 51 (in Chinese).
[25] 马东升, 潘家永, 解庆林. 湘中锑(金)矿床成矿物质来源——Ⅱ. 同位素地球化学证据[J]. 矿床地质, 2003, 22(1): 78–87.
Ma Dong-sheng, Pan Jia-yong, Xie Qing-lin. Ore sources of Sb(Au) deposits in Central Hunan: Ⅱ. Evidence of isotopic geochemistry [J]. Mineral Deposit, 2003, 22(1): 78–87 (in Chinese with English abstract).
[26] 潘家永, 马东升, 杨瑞琰, 曹双林, 夏菲. 湘中金-锑矿床氧同位素异常的发现及找矿意义[C]. 同位素地质新进展: 技术、方法、理论与应用学术研讨会. 北京, 2003: 1–85.
Pan Jia-yong, Ma Dong-sheng, Yang Rui-yan, Cao Shuang-lin, Xia Fei. O isotope anomaly of the Au-Sb deposit and its significance in prospecting [C] // Proceedings of the Isotopic Geology: Technology, and Academic Seminar on Theory and Application. Beijing, 2003: 1–85.
[27] 杨瑞琰, 马东升, 鲍征宇. 沉积盆地的成矿元素富集与成矿机制研究: 以湘中盆地锡矿山锑矿床为例[M]. 武汉: 中国地质大学出版社, 2005: 1–107.
Yang Rui-yan, Ma Dong-sheng, Bao Zheng-yu. The study of metallogenic element enrichment and metallogenic mechanism in sedimentary basins: a case study of the Xikuangshan antimony deposit in xiangzhong basin [M]. Wuhan: China Geological University Press, 2005: 1–107 (in Chinese).
[28] 杨瑞琰, 马东升, 潘家永. 地层渗透率对成矿流体热场和流场的影响——以锡矿山锑矿床成矿流体为例 [J]. 地质科技情报, 2005, 24(3): 80–84.
Yang Rui-yan, Ma Dong-sheng, Pan Jia-yong. Effect of permeability on the thermal and fluid fields of ore-forming fluids: A case study from Xikuangshan antimony deposit [J]. Geol Sci Technol Inf, 2005, 24(3): 80–84 (in Chinese with English abstract).
[29] 卢新卫, 马东升. 湘中断裂体系分维与锑矿分布[J]. 地质论评, 1998, 44(5): 542–546.
Lu Xin-wei, Ma Dong-sheng. Fractal dimension of fault systems and antimony deposit distribution in central Hunan [J]. Geol Rev, 1998, 44(5): 542–546 (in Chinese with English abstract).
[30] 彭建堂, 胡瑞忠, 邓海琳, 苏文超. 湘中锡矿山锑矿床的Sr同位素地球化学[J]. 地球化学, 2001, 30(3): 248–256.
Peng Jian-tang, Hu Rui-zhong, Deng Hai-lin, Su Wen-chao. Strontium isotope geochemistry of the Xikuangshan antimony deposit, Central Hunan [J]. Geochimica, 2001, 30(3): 248–256 (in Chinese with English abstract).
[31] 马东升. 华南重要金属矿床的成矿规律——时代爆发性、空间分带性、基底继承性和热隆起成矿[J]. 矿物岩石地球化学通报, 2008, 27(3): 209–217.
Ma Dong-sheng. Metallogenetic characteristics of the impor-tant deposits in South China [J]. Bull Mineral Petrol Geochem, 2008, 27(3): 209–217 (in Chinese with English abstract).
[32] 杨瑞琰, 马东升, 鲍征宇, 潘家永, 曹双林, 夏菲. 锡矿山锑矿床成矿流体的热场与运移的数值模拟[J]. 中国科学(D辑), 2006, 36(8): 698–705.
Yang Ruiyan, Ma Dongsheng, Bao Zhengyu, Pan Jiayong, Cao Shuanglin, Xia Fei. Geotherm and numerically simulate the geothermal field of fluids during ore-forming periods of the antimony deposits in Xikuangshan [J]. Sci China (D), 2006, 36(8): 698–705 (in Chinese).
[33] 马东升. 华南中、低温成矿带元素组合和流体性质的区域分布规律——兼论华南燕山期热液矿床的巨型分带现象和大规模成矿作用[J]. 矿床地质, 1999, 18(4): 347–358.
Ma Dong-sheng. Regional pattern of element composition and fluid character in medium-low temperature metallogenic province of south China [J]. Mineral Deposit, 1999, 18(4): 347–358 (in Chinese with English abstract).
[34] 卢新卫, 马东升. 湘中锑矿带断裂体系分维及其对成矿流体运移和矿床定位的指示作用[J]. 矿床地质, 1999, 18(2): 168–174.
Lu Xin-wei, Ma Dong-sheng. Fractal dimensions of fracture systems in antimony metallogenic zones of central Hunan and their indicating significance for migration of ore-forming fluids and location of ore deposits [J]. Mineral Deposit, 1999, 18(2): 168–174 (in Chinese with English abstract).
[35] 马若龙. 湘中、湘东南及湘东北地区泥页岩层系地质特征与页岩气勘探潜力[D]. 成都: 成都理工大学, 2013: 1–190.
Ma Ruo-long. The geological characteristics of the argillutite formation and potentiality for the exploration of the shale gas in Central Hunan, southeastern Hunan and northeastern Hunan [D]. Chengdu: Chengdu University of Technology, 2013: 1–190 (in Chinese with English abstract).
[36] 舒良树. 华南前泥盆纪构造演化: 从华夏地块到加里东期造山带[J]. 高校地质学报, 2006, 12(4): 418–431.
Shu Liang-shu. Predevonian tectonic evolution of South China: From Cathaysian block to Caledonian period folded orogenic belt [J]. Geol J China Univ, 2006, 12(4): 418–431 (in Chinese with English abstract).
[37] 柏道远, 贾宝华, 钟响, 贾朋远, 刘耀荣, 马铁球. 雪峰造山带新元古代构造演化框架[J]. 沉积与特提斯地质, 2011, 31(3): 78–87.
Bai Dao-yuan, Jia Bao-hua, Zhong Xiang, Jia Peng-yuan, Liu Yao-rong, Ma Tie-qiu. Neoproterozoic tectonic evolution of the Xuefeng orogenic zone in Hunan [J]. Sediment Geol Tethyan Geol, 2011, 31(3): 78–87 (in Chinese with English abstract).
[38] 柏道远, 贾宝华, 钟响, 贾朋远, 刘耀荣. 湘中南晋宁期和加里东期构造线走向变化成因[J]. 地质力学学报, 2012, 18(2): 165–177.
Bai Dao-yuan, Jia Bao-hua, Zhong Xiang, Jia Peng-yuan, Liu Yao-rong. Potential genesis of the trending changes of Jinning period and Caledonian structural lineamens in middle-sou-thern Hunan [J]. J Geomech, 2012, 18(2): 165–177 (in Chinese with English abstract).
[39] 钱劲, 马若龙, 步少峰, 徐昉昊. 湘中、湘东南拗陷泥页岩层系岩相古地理特征[J]. 成都理工大学学报(自然科学版), 2013, 40(6): 688–695.
Qian Jin, Ma Ruo-long, Bu Shao-feng, Xu Fang-hao. Lithofacies -palegeographical characteristics of marine shale series of strata in Xiangzhong and Xiangdongnan depressions, Hunan, China [J]. J Chengdu Univ Technol (Sci Technol), 2013, 40(6): 688–695 (in Chinese with English abstract).
[40] 徐先兵, 张岳桥, 贾东, 舒良树, 王瑞瑞. 华南早中生代大地构造过程[J]. 中国地质, 2009, 36(3): 573–593.
Xu Xian-bing, Zhang Yue-qiao, Jia Dong, Shu Liang-shu, Wang Rui-rui. Early Mesozoic geotectonic processes in South China [J]. Geol China, 2009, 36(3): 573–593 (in Chinese with English abstract).
[41] 张岳桥, 徐先兵, 贾东, 舒良树. 华南早中生代从印支期碰撞构造体系向燕山期俯冲构造体系转换的形变记录[J]. 地学前缘, 2009, 16(1): 234–247.
Zhang Yue-qiao, Xu Xian-bing, Jia Dong, Shu Liang-shu. Deformation record of the change from Indosinian collision-related tectonic system to Yanshanian subduction-related tectonic system in South China during the Early Mesozoic [J]. Earth Sci Front, 2009, 16(1): 234–247 (in Chinese with English abstract).
[42] 杨瑞琰, 马东升, 潘家永. 锡矿山锑矿床成矿流体的热场研究[J]. 地球化学, 2003, 32(6): 509–519.
Yang Rui-Yan, Ma Dong-sheng, Pan Jia-yong. Geothermal field of ore-gorming fluids of antimony deposit in Xikuang?shan [J]. Geochimica, 2003, 32(6): 509–519 (in Chinese with English abstract).
[43] 康如华. 湖南白马山-龙山东西向构造带金锑矿找矿前景分析[J]. 华南地质与矿产, 2002 (1): 57–61.
Kang Ru-hua. Analysis of exploration perspectives of gold-antimony deposits in Baimashan-Longshan EW-striking structural zone, Hunan province [J]. Geol Mineral Resour South China, 2002 (1): 57–61 (in Chinese with English abstract).
[44] 孙际茂, 娄亚利, 高利军, 鲍振襄. 湘中前寒武系金矿地质及相关成矿问题探讨[J]. 地质与资源, 2007, 16(3): 189–195.
Sun Ji-mao, Lou Ya-li, Gao Li-jun, Bao Zhen-xiang. Geology and metallogenesis of Precambrian gold deposits in central Hunan province [J]. Geol Resour, 2007, 16(3): 189–195 (in Chinese with English abstract).
[45] 张利军, 邵拥军, 赖健清, 石坚, 徐质彬. 湘中包金山-金坑冲金矿床构造控岩控矿分析[J]. 矿产勘查, 2015, 6(3): 245–253.
Zhang Li-jun, Shao Yong-jun, Lai Jian-qing, Shi Jian, Xu Zhi-bin. Analysis on ore-controlling alteration rocks and structures in the Baojinshan-Jinkengchong gold deposit, Hunan [J]. Mineral Explor, 2015, 6(3): 245–253 (in Chinese with English abstract).
[46] 陈卫锋, 陈培荣, 黄宏业, 丁兴, 孙涛. 湖南白马山岩体花岗岩及其包体的年代学和地球化学研究[J]. 中国科学(D辑), 2007, 37(7): 873–893.
Chen Weifeng, Chen Peirong, Huang Hongye, Ding Xing, Sun Tao. Zircon U-Pb dating and geochemistry of Baimashan granite and its dark inclusion, Hunan [J]. Sci China (D), 2007, 37(7): 873–893 (in Chinese).
[47] Wang Y J, Fan W M, Sun M, Liang X Q, Zhang Y H, Peng T P. Geochronological, geochemical and geothermal constraints on petrogenesis of the Indosinian peraluminous granites in the South China Block: A case study in the Hunan Province [J]. Lithos, 2007, 96(3): 475–502.
[48] Chu Y, Lin W, Faure M, Wang Q C, Ji W B. Phanerozoic tectonothermal events of the Xuefengshan Belt, central South China: Implications from U-Pb age and Lu-Hf determinations of granites [J]. Lithos, 2012, 150(10): 243–255.
[49] Peng J T, Hu R Z, Burnard P G. Samarium-neodymium isotope systematics of hydrothermal calcites from the Xikuangshan antimony deposit (Hunan, China): The potential of calcite as a geochronometer [J]. Chem Geol, 2003, 200(1): 129–136.
[50] 彭建堂, 胡瑞忠, 赵军红, 林源贤. 锡矿山锑矿床热液方解石的Sm-Nd同位素定年[J]. 科学通报, 2002, 47(10): 789– 792.
Peng Jiantang, Hu Ruizhong, Zhao Junhong, Lin Yuanxian. Sm-Nd isotope dating of hydrothermal calcites from the Xikuangshan antimony deposit, central Hunan [J]. Chinese Sci Bull, 2002, 47(10): 789–792 (in Chinese).
[51] 王永磊, 陈毓川, 王登红, 徐珏, 陈郑辉. 湖南渣滓溪W-Sb矿床白钨矿Sm-Nd测年及其地质意义[J]. 中国地质, 2012, 39(5): 1339–1344.
Wang Yong-lei, Chen Yu-chuan, Wang Deng-hong, Xu Jue, Chen Zheng-hui. Scheelite Sm-Nd dating of the Zhazixi W-Sb deposit Hunan and its geological significance [J]. Geol China, 2012, 39(5): 1339–1344 (in Chinese with English abstract).
[52] 万嘉敏. 湘西西安白钨矿矿床的地球化学研究[J]. 地球化学, 1986, 15(2): 183–192.
Wan Jia-min. Geochemical studies of the Xi’an tungsten ore deposit, West Hunan, China [J]. Geochimica, 1986, 15(2): 183–192 (in Chinese with English abstract).
[53] 史明魁, 傅必勤, 勒西祥, 周雪昌. 湘中锑矿[M]. 长沙: 湖南科学出版社, 1994: 1–96.
Shi Ming-kui, Fu Bi-qin, Jin Xi-xiang, Zhou Xue-chang. Antimony Deposit in Xiangzhong [M]. Changsha: Hunan Science Press, 1994: 1–96 (in Chinese).
[54] 彭建堂, 胡瑞忠, 赵军红, 符亚洲, 林源贤. 湘西沃溪Au-Sb-W矿床中白钨矿Sm-Nd和石英Ar-Ar定年[J]. 科学通报, 2003, 48(18): 1976–1981.
Peng Jiantang, Hu Ruizhong, Zhao Junhong, Fu Yazhou, Lin Yuanxian. Scheelite Sm-Nd dating and quartz Ar-Ar dating for Woxi Au-Sb-W deposit, western Hunan [J]. Chinese Sci Bull, 2003, 48(18): 1976–1981 (in Chinese).
[55] 潘家永. 湘中锑金矿床地球化学特征及成矿机理[D]. 南京: 南京大学, 2004: 1–108.
Pan Jia-yong. Geochemistry and metallogenic mechanism of Au-Sb deposit in Xiangzhong, Hunan [D]. Nanjing: Nanjing University, 2004: 1–108 (in Chinese with English abstract).
[56] 刘光模, 简厚明. 锡矿山锑矿田地质特征[J]. 矿床地质, 1983, 1(3): 43–50.
Liu Guang-mo, Jian Hou-ming. Geological characteristics of the Xikuangshan antimony ore field [J]. Mineral Deposit, 1983, 1(3): 43–50 (in Chinese with English abstract).
[57] 湖南冶金地质246 勘探队地质科. 锡矿山童家院矿床破碎层(带)成因分类与成矿关系[J]. 湖南冶金地质, 1978 (2): 11–22.
No.246 Exploration Geology Team of Hunan Metallurgy Geology. Classification of fragmentation and the relation to the mineralization, at Xikuangshan Tongjiayuan antinomy deposit [J]. Hunan Metall Geol, 1978 (2): 11–22 (in Chinese).
[58] 裴荣富, 吴良士, 熊群尧, 徐志刚, 宋学信, 孙海田. 中国特大型金属矿床成矿偏在性与成矿构造聚敛(场)[M]. 北京: 地质出版社, 1998.
Pei Rong-fu, Wu Liang-shi, Xiong Qun-rao, Xu Zhi-gang, Song Xue-xin, Sun Hai-tian. Metallogenic preferentiality and exceptional metallotect convergence of giant ore deposits in China [M]. Beijing: Geological Publishing House, 1998 (in Chinese).
[59] 李成生, 杨楚雄, 丁传谱, 易诗军. 湘中禾青铅锌矿床中上泥盆统沉积相及其与成矿关系之研究[J]. 湖南地质, 1988, 7(3): 17–24.
Li Cheng-sheng, Yang Chu-xiong, Ding Chuan-pu, Yi Shi-jun. On the sedimentary facies of the middle-upper Devonian carbonate rocks and their relation with the formation of Pb-Zn deposits in Heqing, Central Hunan [J]. Hunan Geol, 1988, 7(3): 17–24 (in Chinese).
[60] 杨树庄. 论禾青铅锌矿床的“入字型”构造及其与成矿的关系[J]. 湖南地质, 1986, 5(4): 26–35.
Yang Shu-zhuang. On the 入-type structure of Heqing lead-zinc ore deposit and its relation to the oregenesis [J]. Hunan Geol, 1986, 5(4): 26–35 (in Chinese).
[61] 罗年华. 我国层控铅锌矿床某些地球化学特征及其找矿标志[J]. 地质与勘探, 1985, 21(2): 57–62.
Luo Nian-hua. Geochemical characteristics and indicator of the strata bound Pb-Zn deposits in China [J]. Geol Explor, 1985, 21(2): 57–62 (in Chinese with English abstract).
[62] 鲍振襄, 万溶江. 湘西钨锑金矿床成矿的特征性地质标志[J]. 黄金地质, 1999, 5(1): 22–29.
Bao Zhen-xiang, Wan Rong-jiang. Characteristic geologic indicators for the mineralization of W-Sb-Au deposits in Western Hunan [J]. Gold Geol, 1999, 5(1): 22–29 (in Chinese with English abstract).
[63] 尤泽峰, 李丰收, 杨兵, 甘先平. 湖南省桃源县李家冲金矿主要控矿因素及找矿方向[J]. 矿产与地质, 2006, 20(4): 374–378.
You Ze-feng, Li Feng-shou, Yang Bing, Gan Xian-ping. Major ore controlling factors and prospecting orientation of Lijia-chong gold deposit in Taoyuan county, Hunan [J]. Mineral Resour Geol, 2006, 20(4): 374–378 (in Chinese with English abstract).
[64] 申萍, 沈远超, 王京彬, 刘铁兵, 刘正桃, 付水兴, 李丰收. 湘西桃源县西安钨金矿床褶皱构造的发现及控矿意义[J]. 矿床地质, 2008, 27(3): 357–366.
Shen Ping, Shen Yuan-chao, Wang Jing-bin, Liu Tie-bing, Liu Zheng-tao, Fu Shui-xing, Li Feng-shou. Discovery of fold structure in Xi’an W-Au deposit of Taoyuan County, western Hunan, and its ore-controlling significance [J]. Mineral Deposit, 2008, 27(3): 357–366 (in Chinese with English abstract).
[65] 何谷先, 曾德斌. 桃源县西安白钨矿床特征及其成因[J]. 湖南地质, 1987 (3): 23–29.
He Gu-xian, Zeng De-bin. Features and genesis of the Xi’an scheelite deposit, Taoyuan county, Hunan [J]. Hunan Geol, 1987 (3): 23–29 (in Chinese with English abstract).
[66] 韩吟文. 地球化学[M]. 北京: 地质出版社, 2003: 56–58.
Han Yin-wen. Geochemisty [M]. Beijing: Geological Publishing House, 2003: 56–58 (in Chinese).
[67] Anders E, Grevesse N. Abundances of the elements: Meteoritic and solar [J]. Geochim Cosmochim Acta, 1989, 53(1): 197–214.
[68] 杨俊, 柏道远, 王先辉, 何江南. 加里东期白马山岩体锆石SHRIMP U-Pb年龄、地球化学特征及形成构造背景[J]. 华南地质与矿产, 2015, 31(1): 48–56.
Yang Jun, Bai Dao-yuan, Wang Xian-hui, He Jiang-nan. Zircon SHRIMP U-Pb dating and geochemistry of Caledonian Baimashan pluton and its tectonic significance [J]. Geol Mineral Resour South China, 2015, 31(1): 48–56 (in Chinese with English abstract).
[69] 李建华, 张岳桥, 董树文, 马之力, 李勇. 湘东宏夏桥和板杉铺岩体LA-MC-ICPMS锆石U-Pb年龄及地质意义[J]. 地球学报, 2015, 36(2): 187–196.
Li Jian-hua, Zhang Yue-qiao, Dong Shu-wen, Ma Zhi-li, Li Yong. LA-MC-ICPMS zircon U-Pb geochronology of the Hongxiaqiao and Banshanpu granitoids in eastern Hunan Province and its geological Implications [J]. Acta Geosci Sinica, 2015, 36(2): 187–196 (in Chinese with English abstract).
[70] 陈佑纬, 毕献武, 付山岭, 董少花. 湘中地区龙山金锑矿床酸性岩脉U-Pb年代学和Hf同位素特征及其地质意义[J]. 岩石学报, 2016, 32(11): 3469–3480.
Chen You-wei, Bi Xian-wu, Fu Shan-ling, Dong Shao-hua. Zircon U-Pb dating and Hf isotope of the felsic dykes in the Longshan Au-Sb deposit in Central Hunan Province and their geological significance [J]. Acta Pertrol Sinica, 2016, 32(11): 3469–3480 (in Chinese with English abstract).
[71] Chu Y, Faure M, Lin W, Wang Q C, Ji W B. Tectonics of the Middle Triassic intracontinental Xuefengshan Belt, South China: New insights from structural and chronological constraints on the basal décollement zone [J]. Int J Earth Sci, 2012, 101(8): 2125–2150.
[72] 付山岭, 胡瑞忠, 陈佑纬, 骆金诚. 湘中龙山大型金锑矿床成矿时代研究——黄铁矿Re-Os和锆石U-Th/He定年[J]. 岩石学报, 2016, 32(11): 3507–3517.
Fu Shan-ling, Hu Rui-zhong, Chen You-wei, Luo Jin-cheng. Chronology of the Longshan Au-Sb deposit in central Hunan Province: Constraints from pyrite Re-Os and zircon U-Th/He isotopic dating [J]. Acta Pertrol Sinica, 2016, 32(11): 3507– 3517 (in Chinese with English abstract).
[73] 舒良树. 华南构造演化的基本特征[J]. 地质通报, 2012, 31(7): 1035–1053.
Shu Liang-shu. An analysis of principal features of tectonic evolution in South China Block [J]. Geol Bull China, 2012, 31(7): 1035–1053 (in Chinese with English abstract).
[74] 马东升, 刘英俊. 江南金成矿带层控金矿的地球化学特征和成因研究[J]. 中国科学(B辑), 1991 (4): 424–433.
Ma Dongsheng, Liu Yingjun. The geochemical characteristics and genetic study of gold ore deposit in jiangnan gold meta-llogenic belt [J]. Sci China (B), 1991 (4): 424–433 (in Chinese).
[75] 刘英俊, 孙承辕, 马东升. 江南金矿及其成矿地球化学背景[M]. 南京: 南京大学出版社, 1993: 1–260.
Liu Ying-jun, Sun Cheng-yuan, Ma Dong-sheng. Metallogenic and Geochemical Background of Jiangnan-Type Gold Deposit [M]. Nanjing: Nanjing University Press, 1993: 1–260 (in Chinese).
[76] 马东升. 华南热隆起成矿及其机制探讨[J]. 矿床地质, 2006, 25(S1): 359–362.
Ma Dong-sheng. A tentative discussion on heat uplift mine-ralization in South China and its mechanism [J]. Mineral Deposit, 2006, 25(S1): 359–362 (in Chinese with English abstract).
[77] 蒋宏意. 湖南省类石墨矿床成因类型及其地质特征[J]. 非金属矿, 1994 (4): 12–15.
Jiang Hong-yi. Genetic types of graphite deposits in Hunan province and its geological characteristics [J]. NonMet Mine, 1994 (4): 12–15 (in Chinese).
[78] 周春光, 龚玉红, 张惠良. 湖南中生代岩浆活动与晚二叠世煤变质特征[J]. 现代地质, 1996, 10(4): 470–477.
Zhou Chun-guang, Gong Yu-hong, Zhang Hui-liang. Mesozoic magmatic activities and metamorphic characteristics of upper Permian coal in Hunan province [J]. Geosciences, 1996, 10(4): 470–477 (in Chinese with English abstract).
[79] 李超, 王登红, 赵鸿, 裴浩翔, 李欣尉, 周利敏, 杜安道, 屈文俊. 中国石墨矿床成矿规律概要[J]. 矿床地质, 2015, 34(6): 1223–1236.
Li Chao, Wang Deng-hong, Zhao Hong, Pei Hao-xiang, Li Xin-wei, Zhou Li-min, Du An-dao, Qu Wen-jun. Minero-genetic regularity of graphite deposits in China [J]. Mineral Deposit, 2015, 34(6): 1223–1236 (in Chinese with English abstract).
[80] Karimzadeh Somarin A, Ashley P. Hydrothermal alteration and mineralisation of the Glen Eden Mo-W-Sn deposit: A leucogranite-related hydrothermal system, Southern New England Orogen, NSW, Australia [J]. Min Deposita, 2004, 39(3): 282–300.
[81] Pirajno F. Hydrothermal processes and wall rock alteration [M] // Hydrothermal Processes and Mineral Systems. Dordrecht: Springer Netherlands, 2009: 73–164.
[82] Komori S, Kagiyama T, Takakura S, Ohsawa S, Mimura M, Mogi T. Effect of the hydrothermal alteration on the surface conductivity of rock matrix: Comparative study between relatively-high and low temperature hydrothermal systems [J]. J Volcanol Geotherm Res, 2013, 264: 164–171.
[83] Gupta S. Occurrence of paragonite in the hydrothermalwall rock alteration zone of GR Halli gold deposit, Chitradurga Schist Belt, Western Dharwar Craton, Southern India [J]. J Geol Soc India, 2013, 82(5): 461–73.
[84] Wood S A. The aqueous geochemistry of the rare-earth elements and yttrium: 2. Theoretical predictions of speciation in hydrothermal solutions to 350 ℃ at saturated water vapor pressure [J]. Chem Geol, 1990, 88: 99–125.
[85] Zhong S, Mucci A. Partitioning of rare earth elements (REEs) between calcite and seawater solutions at 25 ℃ and 1 atm, and high dissolved REE concentrations [J]. Geochim Cosmochim Acta, 1995, 59(3): 443–53.
[86] Rimstidt J D, Balog A, Webb J. Distribution of trace elements between carbonate minerals and aqueous solutions [J]. Geochim Cosmochim Acta, 1998, 62(11): 1851–1863.
[87] Wood S A. The aqueous geochemistry of the rare-earth elements and yttrium: 1. Review of available low-temperature data for inorganic complexes and the inorganic REE speciation of natural waters [J]. Chem Geol, 1990, 88: 159–186.
[88] Lottermoser B G. Rare earth elements and hydrothermal ore formation processes [J]. Ore Geol Rev, 1992, 7(1): 25–41.
[89] Haas J R, Shock E L, Sassani D C. Rare earth elements in hydrothermal systems: Estimates of standard partial molal thermodynamic properties of aqueous complexes of the rare earth elements at high pressures and temperatures [J]. Geochim Cosmochim Acta, 1995, 59(21): 4329–4350.
[90] Taylor S R, Mclennan S M. The Continental Crust: Its Composition and Evolution, an Examination of the Geo-chemical Record Preserved in Sedimentary Rocks [M]. Blackwell Scientific Publishing, 1985: 1–328.
[91] 孙国涛, 沈能平, 苏文超, 俸月星, 赵建新, 彭建堂, 董文斗, 赵海. 贵州苗龙金锑矿床方解石微量元素、Sr-Nd同位素地球化学特征及其意义 [J]. 矿物学报, 2016, 36(3): 404–412.
Sun Guo-tao, Shen Neng-ping, Su Wen-chao, Feng Yue-xing, Zhao Jian-xin, Peng Jian-tang, Dong Wen-dou, Zhao Hai. Characteristics and implication of trace elements and Sr-Nd isotope geochemistry of calcites from the Miaolong Au-Sb deposit, Guizhou Province, China [J]. Acta Mineral Sinica, 2016, 36(3): 404–412 (in Chinese with English abstract).
[92] 曹华文, 裴秋明, 张寿庭, 向辉, 张林奎, 唐利. 河南栾川三道沟铅锌银矿床方解石地球化学特征及Sm-Nd年龄研究[J]. 地球化学, 2016, 45(2): 144–154.
Cao Hua-wen, Pei Qiu-ming, Zhang Shou-ting, Xiang Hui, Zhang Lin-kui, Tang Li. Geochemistry and Sm-Nd age of calcites from the Sandaogou Pb-Zn-Ag deposit in Luanchuan, western Henan Province [J]. Geochimica, 2016, 45(2): 144– 154 (in Chinese with English abstract).

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备注/Memo

收稿日期(Received): 2017-08-22; 改回日期(Revised): 2018-03-29; 接受日期(Accepted): 2018-04-03
基金项目: 国家重点基础研究发展计划(2014CB440904)
作者简介: 张勇(1983–), 男, 博士、讲师, 从事矿床地球化学方面的研究。E-mail: zhycy2004@163.com
* 通讯作者(Corresponding author): MA Dong-sheng, E-mail: dongsma@qq.com; Tel: +86-791-83897197

更新日期/Last Update: 2018-09-30