参考文献

世界地质 2019 38 (2): 339-353 ISSN: 1004-5589 CN: 22-1111/P



福建德化地区东洋浅成热液金矿床成矿作用与成因研究
雷凤至, 孙景贵, 徐智涛, 韩吉龙, 刘阳
吉林大学地球科学学院, 长春 130061
收稿日期 2018-12-30 修回日期 2019-02-12 网络版发布日期 null
参考文献 [1] Bonham H F J. Models for volcanic-hosted epithermal precious metal deposits[J]. Bulk Mineable Precious Metal Deposits of the Western United States, 1988, 1:13-17. [2] Corbett G. Epithermal gold for explorationists[J]. AIG Journal-Applied Geoscientific Practice and Research in Australia, 2002, April:1-26. [3] Heald P. Comparative anatomy of volcanic-hosted epithermal deposits:acid-sulfate and adularia-sericite types[J]. Economic Geology, 1987, 8(1):1-26. [4] Hedenquist J W, Lowenstern J B. The role of magmas in the formation of hydrothermal ore deposits[J]. Nature, 1994, 370(6490):519-527. [5] Hedenquist J W, Arribas R A, Gonzalez U E. Exploration for epithermal gold deposits[J]. Reviews in Economic Geology, 2000, 13:245-277. [6] Kerrich R, Goldfarb R, Groves D, et al. The characteristics, origins, and geodynamic settings of supergiant gold metallogenic provinces[J]. Science in China (Earth Sciences), 2012, 43:1-68. [7] Gammons C H, Williams-Jones A E. Chemical mobility of gold in the porphyry-epithermal environment[J]. Economic Geology, 1997, 92(1):45-59. [8] Hedenquist J W, Arribas A J, Reynolds T J. Evolution of an intrusion-centered hydrothermal system:far southeast-Lepanto porphyry and epithermal Cu-Au deposits, Philippines[J]. Economic Geology, 1998, 93(4):373-404. [9] 张德全, 佘宏全, 李大新, 等.紫金山地区的斑岩-浅成热液成矿系统[J].地质学报, 2003, 77(2):253-261. ZHANG De-quan, SHE Hong-quan, LI Da-xin, et al. The porphyry-epithermal metallogenic system in the Zijinshan region, Fujian province[J]. Acta Geologica Sinica, 2003, 77(2):253-261. [10] 芮宗瑶.中国斑岩铜(钼)矿床[M]. 北京:地质出版社, 1984:1-350. RUI Zong-yao. Porphyry copper (molybdenum) deposit in China[M]. Beijing:Geological Publishing House, 1984:1-350. [11] 江思宏, 聂凤军, 张义, 等.浅成低温热液型金矿床研究最新进展[J].地学前缘, 2004, 11(2):401-411. JIANG Si-hong, NIE Feng-jun, ZHANG Yi, et al. The latest advances in the research of epithermal deposits[J]. Earth Science Frontiers, 2004, 11(2):401-411. [12] 陈毓川, 王登红.华南地区中生代岩浆成矿作用的四大问题[J].大地构造与成矿学, 2012, 363:315-321. CHEN Yu-chuan, WANG Deng-hong. Four main topics concerning the metallogeny related to Mesozoic magmatism in south China[J]. Geotectonica et Metallogenia, 2012, 363:315-321. [13] 毛建仁, 陶奎元, 李寄嵎, 等.闽西南晚中生代四方岩体同位素年代学、地球化学及其构造意义[J].岩石学报, 2002, 184:449-458. MAO Jian-ren, TAO Kui-yuan, LI Ji-yu, et al. Geochronology and geochemical characteristics in Late Mesozoic Sifang luton,southwestern Fujian,and their significance[J]. Acta Petrologica Sinica, 2002, 184:449-458. [14] 林全胜.福建武平悦洋银多金属矿床特征及成因探讨[J].福建地质, 2006, 252:82-88. LIN Quan-sheng. On the characteristics and genesis of the Yueyang silver polymetallic deposit in Wuping county,Fujian province[J]. Geology of Fujian, 2006, 252:82-88. [15] 黄文婷, 李晶, 梁华英, 等.福建紫金山矿田罗卜岭铜钼矿化斑岩锆石LA-ICP-MS U-Pb年龄及成矿岩浆高氧化特征研究[J].岩石学报, 2013, 291:592-593. HUANG Wen-ting, LI Jing, LIANG Hua-ying, et al. Zircon LA-ICP-MS U-Pb ages and highly oxidized features of magma associated with Luoboling porphyry Cu-Mo deposit in Zijinshan ore field,Fujian province[J]. Acta Petrologica Sinica, 2013, 291:592-593. [16] 岳来群, 黄春鹏, 张克尧.福建省金矿床成矿时代特点[J].地质与勘探, 2002, 38(4):17-21. YUE Lai-qun, HUANG Chun-peng, ZHANG Ke-yao. Discussion on the metallogenic epoch of cold deposits in Fujian province, southeastern China[J]. Geology and Prospecting, 2002, 38(4):17-21. [17] 江启煜.福建德化东洋矿区金矿的发现与找矿意义[J].地质学刊, 2015, 39(2):301-305. JIANG Qi-yu. Discovery of the Dongyang gold deposit in Dehua county of Fujian province and its geological implications[J]. Journal of Geology, 2015, 39(2):301-305. [18] 徐楠.福建东洋金矿成矿系统及其成因研究:博士学位论文[D].北京:中国地质大学, 2017. XU Nan. Metallogenesis of the Dongyang gold deposit in Fujian province and its origin:doctor's degree thesis[D]. Beijing:China University of Geosciences, 2017. [19] 李霞.福建省大地构造单元划分及基本特征[J].世界地质, 2013, 32(3):549-557. LI Xia. Subdivision and characteristic of tectonic units in Fujian province[J]. Global Geology, 2013, 32(3):549-557. [20] 华仁民, 陈培荣, 张文兰, 等.论华南地区中生代3次大规模成矿作用[J].矿床地质, 2005, 24(2):99-107. HUA Ren-min, CHEN Pei-rong, ZHANG Wen-lan, et al. Three major metallogenic events in Mesozoic in South China[J]. Mineral Deposits, 2005, 24(2):99-107. [21] 李建华.华南中生代大地构造过程:博士学位论文[D]. 北京:中国地质科学院, 2013. LI Jian-hua. The Mesozoic tectonic evolution of South China:doctor's degree thesis[D]. Beijing:Chinese Academy of Geological Sciences, 2013. [22] 张国伟, 郭安林, 王岳军, 等.中国华南大陆构造与问题[J].中国科学(地球科学), 2013,43(10):1553-1582. ZHANG Guo-wei, GUO An-lin, WANG Yue-jun, et al. Tectonics of South China continent and its implications[J]. Science in China(Earth Science), 2013, 43(10):1553-1582. [23] 李海立.福建德化北部陆相火山岩地区与金(铜)有关的含矿建造地质地球化学研究:硕士学位论文[D].北京:中国地质大学, 2016. LI Hai-li. The geologic and geochemical research on the ore-bearing formation (related to Au/Cu ore-deposits) in volcanic area in north of Dehua, Fujian province:master's degree thesis[D]. Beijing:China University of Geosciences, 2016. [24] 王建芳.对福建地质构造特征以及岩浆活动的成矿关系的初步意见[J].江西建材, 2016(12):236. WANG Jian-fang. Preliminary opinions on the geological structure characteristics and mineralization relations of magmatic activities in Fujian[J]. Jiangxi Building Materials, 2016(12):236. [25] 黄宝, 倪培, 项洪亮, 等.福建邱村金矿地质特征及矿床成因[J].矿物岩石地球化学通报, 2017, 36(4):650-659. HUANG Bao, NI Pei, XIANG Hong-liang, et al. The geological characteristics and ore genesis of the Qiucun gold deposit, Fujian province[J]. 2017, 36(4):650-659. [26] 陈世忠, 黄正清, 朱筱婷, 等.武夷山成矿带桃溪环形构造区典型矿床成矿背景[J].中国地质, 2013, 40(5):1569-1582. CHEN Shi-zhong, HUANG Zheng-qing, ZHU Xiao-ting, et al. Magmatism and ore-forming background of the main deposits in Taoxi circular structure along the Wuyishan ore belt[J]. Chinese Geology, 2013, 40(5):1569-1582. [27] 李亮.吉林省夹皮沟-海沟金成矿带金矿床成矿流体特征与深部成矿潜力评价:博士学位论文[D].长春.吉林大学,2016. LI Liang. Research on ore-forming fluids of gold deposits in Jiapigou-Haigou gold belt, Jilin province and deep-seated metallogenic assessment:doctor's degree thesis[D]. Changchun:Jilin University, 2016. [28] 卢焕章, 范宏瑞, 倪培, 等.流体包裹体[M]. 北京:科学出版社, 2004:1-487. LU Huan-zhang, FAN Hong-rui, NI Pei, et al. Fluid inclusion[M]. Beijing:Science Press, 2004:1-487. [29] 刘斌, 段光贤.NaCl-H₂O溶液包裹体的密度式和等容式及其应用[J].矿物学报, 1987(4):345-352. LIU Bin, DUAN Guang-xian. The density and isochoric formulae for NaCI-H₂O fluid inclusions (salinity<25wt%) and their applications[J]. Acta Mineralogica Sinica, 1987(4):345-352. [30] 刘斌, 沈昆.流体包裹体热力学[M]. 北京:地质出版社, 1999:171-248. LIU Bin, SHEN Kun. Thermal mechanics of fluid inclusion[M]. Beijing:Geological Publishing House, 1999:171-248. [31] 刘斌.中高盐度NaCl-H₂O包裹体的密度式和等容式及其应用[J].地质论评, 2001, 47(6):617-622. LIU Bin. Density and isochoric formula for NaCl-H₂O inclusions with medium and high salinity and their applications[J]. Geological Review, 2001, 47(6):617-622. [32] Potter R W, Brown D L. The volumetric properties of aqueous sodium chloride solutions from 0 to 500℃ at pressures up to 2000 bars based on a regression of available data in the literature[J]. Modern Law Review, 1977, 1421(2):286-318. [33] Hall D L, Sterner S M, Bodnar R J. Freezing point depression of NaCl-KCl-H[J]. Economic Geology, 1988, 83(1):197-202. [34] Roedder E. Fluid inclusions-Reviews in mineralogy[J]. Mineral Society of American, 1984, 12:644. [35] Clayton R N, O'Neil J R, Mayeda T K. Oxygen isotope exchange between quartz and water[J]. Journal of Geophysical Research, 1972, 77:3057-3067. [36] Taylor H P. Oxygen and hydrogen isotope relationships in hydrothermal mineral deposits:doctor's degree thesis[D]. New York:Geochemistry of Hydrothermal Ore Deposits, 1997. [37] Ohmoto, H. Sulfur and carbon isotopes[J]. Geochemistry of Hydrothermal Ore Deposits, 1997, 1:517-612. [38] Allegre C. Earth Science and History[J]. Science, 1988, 242:1451-1452. [39] 毛景文, 谢桂青, 李晓峰, 等.华南地区中生代大规模成矿作用与岩石圈多阶段伸展[J].地学前缘, 2004, 11(1):45-55. MAO Jing-wen, XIE Gui-qing, LI Xiao-feng, et al. Mesozoic large scale mineralization and multiple lithospheric extension in South China[J]. Earth Science Frontiers, 2004, 11(1):45-55.

通讯作者: 孙景贵(1961),男,博士生导师,主要从事地球化学及热液矿床的研究与教学工作.E-mail:sunjinggui@jlu.edu.cn