STUDY ON THE TECTONIC SETTING AND ORE-FORMING FLUIDS OF DEXING LARGE ORE-CONCENTRATING AREA,NORTHEAST JIANGXI PROVINCE
Received date: 2000-01-24
Revised date: 2000-04-03
Online published: 2000-10-01
Dexing area of northeast Jiangxi province is one of the large ore-concentrating areas in the Eastern Metallogenic Belt of China, which includes several large or superlarge ore deposits such as Tongchang porphyry copper deposit, Yinshan polymetallic deposit and Jinshan gold deposit. The area is geotectonically located in an important place of southeast China, therefore the study of Cu-Au mineralisation in this area is always associated with that of tectonic setting and evolution. The tectonic framework of Dexing area is the collision between Jiuling terrane in the northwest and Huaiyu terrane in the southeast along the Northeast Jiangxi Deep Fault. After this collision in late Proterozoic, the area was mainly under the intraplate tectonic evolution. The mineralisation in Dexing large Cu-Au ore-concentrating area was
closely related to the Yanshanian tectono-magmatic activities, whereas the mid-Proterozoic strata have higher concentrations of ore elements, which possibly provided ore-forming materials to the ore deposits of the area. Studies on ore-forming fluid show that different deposit has its own fluid system. The Tongchang porphyry copper deposit was predominated by magma-derived fluid in the early stage and meteoric water in the late and major ore-forming stage. The Yinshan poly-metallic deposit was mainly formed by fluid of meteoric water origin. While the ore-forming fluid of Jinshan gold deposit was mainly metamorphic water formed in the ductile shearing deformation.
Key words: Tectonic setting; Ore-forming fluid; Ore-concentrating area; Dexing.
HUA Ren-min,LI Xiao-feng,LU Jian-jun,CHEN Pei-rong,QIU De-tong,WANG Guo . STUDY ON THE TECTONIC SETTING AND ORE-FORMING FLUIDS OF DEXING LARGE ORE-CONCENTRATING AREA,NORTHEAST JIANGXI PROVINCE[J]. Advances in Earth Science, 2000 , 15(5) : 525 -533 . DOI: 10.11867/j.issn.1001-8166.2000.05.0525
[1] 郭令智,施央申,马瑞士.华南大地构造格架与地壳演化[A].见:第26届国际地质大会筹备办公室编.国际交流地质学术论文集(一)[C].北京:地质出版社,1980.109~116.
[2] 郭令智,施央申,马瑞士,等.江南元古代板块运动和岛弧构造的形成和演化[A].见:中国地质学会,中国地质科学院编.国际前寒武纪地壳演化讨论会论文集(一)[C] .北京:地质出版社,1986.30~39.
[3] 郭令智,施央申,马瑞士,等.中国东南部地体构造的研究[J].南京大学学报,1984,20(4):732~737.
[4] 舒良树,李雅锦.试论江西北部的地体构造[J].江西地质,1987,1(1):31~37.
[5] 徐备,郭令智,施央申.皖浙赣地区元古代地体和多期碰撞造山带[M].北京:地质出版社,1992.
[6] 水涛,徐步台.绍兴—江山古陆对接带[J].科学通报,1986,31(6):487~489.
[7] 许靖华.薄壳板块构造模式与冲撞型造山运动[J].中国科学,1980,(11):1 081~1 089.
[8] 许靖华,孙枢,李继亮.是华南造山带而不是华南地台[J].中国科学(B辑),1987,(10):1 107~1 115.
[9] 杨森楠.华南裂陷系的建造特征和构造演化[J].地球科学,1989,14(1):29~36.
[10] 任纪舜.论中国南部的大地构造[J].地质学报,1990,64(3):225~288.
[11] 舒良树,施央申,郭令智,等.江南中段板块—地体构造与碰撞造山运动学[M].北京:地质出版社,1995.
[12] 朱训,黄崇轲,芮宗瑶,等.德兴斑岩铜矿[M].北京:地质出版社,1983.336.
[13] 周国庆.赣东北元古代蛇绿岩和高温高压变质岩的发现及意义[J].南京大学学报(地球科学版),1989,(1~2):25~37.
[14] 华仁民.赣东北深大断裂带形成机制的讨论[J].南京大学学报(地球科学版),1988,(1):62~69.
[15] 徐备,乔广生.赣东北晚元古代蛇绿岩套的Sm-Nd同位素年龄及原始构造环境[J].南京大学学报(地球科学),1989,(3):108~114.
[16] 周国庆,舒良树,吴洪亮.与赣东北蛇绿岩有关的高温高压变质岩和重变质作用机制[J].岩石矿物学杂志,1989,8(3):220~231.
[17] 朱钧,张景垣.试论浙皖赣深断裂带[J].地质论评,1964,22(2):91~98.
[18] 汪新,马瑞士.怀玉山蛇绿混杂岩及古碰撞缝合线的确定[J].南京大学学报(地球科学),1989,(1-2):72~81.
[19] 江西省地质矿产厅.江西省岩石地层[M].武汉:中国地质大学出版社,1997.
[20] 谢代强,熊文亮.江西德兴地区金矿成矿地质特征及找矿方向[J].江西地质,1997,11(4):17~22.
[21] 占天卫.德兴市金三角成矿规律的几个重要问题的探讨[J].江西地质,1998,12(4):273~277.
[22] 谢代强,熊文亮,熊丁根.德兴地区怀玉地体前震旦纪地层划分与对比[J].江西地质,1999,13(2):85~92.
[23] 赵崇贺,何科昭,莫宣学,等.赣东北深断裂带蛇绿混杂岩中含晚古生代放射虫硅质岩的发现及其意义[J].科学通报,1995,40(23):2 161~2 163.
[24] 周耀华,梅占魁,王传松,等.德兴斑岩铜矿物质来源之刍议[J].江西地质科技,1981,(1):32~41.
[25] 芮宗瑶,黄崇轲,齐国明,等.中国斑岩铜(钼)矿床[M].北京:地质出版社,1984.
[26] 季克俭,吴学汉,张国柄.热液矿床的矿源、水源和热源及矿床分布规律[M].北京:北京科学技术出版社,1989.
[27] 梁祥济.江西德兴斑岩铜矿成矿物质来源的实验研究[J].地质论评,1995,41(5):463~471.
[28] 金章东,朱金初.关于德兴斑岩铜矿的成矿物质来源——与梁祥济研究员商榷[J].地质论评,1998,44(5):464~469.
[29] 刘英俊主编.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.
[30] 刘英俊,沙鹏,朱恺军.江西德兴地区中元古界双桥山群含金建造的地球化学研究[J].桂林冶金地质学院学报,1989,(2):115~126.
[31] 韦星林.江西金山韧性剪切带型金矿地质特征[J].江西地质,1996,10(1):52~64.
[32] 奚舣,廖洪鑫,周新民.赣东北地区前震旦系地层金的原生富集趋势探讨[J].江西地质,1997,11(1):46~50.
[33] 邱德同.江西银山矿床成矿构造及成因的新认识[J].地质与勘探,1991,27(6):8~10.
[34] 华仁民,陈克荣,赵连泽.江西银山外围地层中金的地球化学降低场及其成矿意义[J].矿床地质,1993,12(4):289~296.
[35] 赵崇贺,何科昭,邰道乾,等.赣东北地区重要火成岩的40Ar/39Ar年龄[J].地球科学——中国地质大学学报,1997,22(3):257~260.
[36] 华仁民,董忠泉.德兴地区两个系列花岗岩类的特征对比及成因探讨[A].见:徐克勤,涂光炽主编.花岗岩地质与成矿关系[C].南京:江苏科技出版社,1984.226~240.
[37] 胡志宏,胡受奚.挤压—俯冲作用与A型孪生花岗岩带[M].北京:地质出版社,1993.
[38] 周耀华.江西某地斑岩铜(钼)矿田地质成矿特征[A].见地质科学院地质矿产所编.铁铜矿产专辑(5)[C].北京:地质出版社,1975.
[39] 邵克忠.论德兴斑岩铜矿床热液蚀变分带模式[J].河北地质学院学报,1979,(2):1~7.
[40] 叶德隆,叶松,王群,等.德兴式斑岩型矿床的构造—岩浆—成矿体系[J].地球科学——中国地质大学学报,1997,22(3):252~256.
[41] 叶庆同.赣东北铅锌矿床成矿系列和成矿机理[M].北京:北京科学技术出版社,1987.
[42] 华仁民.江西银山铅锌铜矿化机制的讨论[J].矿床地质,1987,6(2):90~96.
[43] 华仁民,陈克荣,沈兆龙,等.江西银山矿床多元成矿作用[A].见:第五届全国矿床会议论文集[C].北京:地质出版社,1993.43~45
[44] 胡受奚,陈武,华仁民,等.气化-热液矿床的侧向分带及其成因机制[J].矿床地质,1992,11(4):291~300.
[45] 朱庆祖.对江西金山金矿床的成因认识[J].华东地质矿产,1992,(2):56~62.
[46] 黄宏立,杨文思.赣东北金山金矿床的地质特征及矿床成因[J].地质找矿论丛,1990,5(2):29~39.
[47] 华仁民.流体在金属矿床形成过程中的意义——水岩反应研究进展系列评述(3)[J].南京大学学报(地球科学版),1993,5(3):351~360.
[48] 张理刚,刘敬秀,陈振胜,等.江西德兴铜厂铜矿水-岩体系氢氧同位素演化[J].地质科学,1996,31(3):250~263.
[49] 郭新生,季克俭,黄耀生,等.德兴斑岩铜矿成矿热液来源及其演化——花岗闪长斑岩的氧同位素制约[J].高校地质学报,1999,5(3):260~268.
[50] 王德滋,陈克荣,杜杨松,等.江西德兴银山火山机构特征及矿床成因研究[J].南京大学学报,1984,(增刊):1~8.
[51] 黄世全.银山矿床的矿床类型及成因[J].地质与勘探,1992,28(4):11~17.
[52] 江西有色地勘局.江西银山铜铅锌金银矿床[M].北京:地质出版社,1996.
[53] 沈渭洲,陈繁荣,刘昌实,等.江西银山多金属矿床的稳定同位素研究[J].南京大学学报(地球科学版),1991,3(2):186~194.
[54] 何国朝,林德松.江西银山矿床的稳定同位素组成特征[J].矿产与地质,1992,6(5):406~412.
[55] 莫测辉,冯志文,夏卫华,等.江西银山金铜多金属矿床构造动力热液与火山岩浆热液双重耦合成矿作用[J].江西地质,1995,9(2):93~101.
[56] 吴志军.江西德兴银山多金属矿床稳定同位素地球化学特征[J].矿物岩石地球化学通报,1998,17(1):28~30.
[57] 华仁民,吴佩红,陈克荣.江西银山多金属矿床水岩反应及成矿流体来源的讨论[J].高校地质学报,1995,1(2):37~44.
[58] Sheppard S M F, Nielson R L, Taylor H P. Hydrogen and oxygen isotope ratios in minerals from porphyry copper deposits[J]. ECON GEOL, 1971,66: 512~542.
[59] Beane R E, Titley S R. Porphyry copper deposits, PartⅡ:hydrothermal, alteration and mineralisation. In: Skinner B J, ed. Econ Geol, 75th Anniversary,1981, Vol: 235~269.
[60] Corbett G J, Leach T M. Southwest Pacific Rim Gold-Cop-per Systems: Structure, Alteration and Mineralisation[C].A workshop at the Pacrim Conference, Auckland, New Zealand, 1995.182.
[61] 郭国章,任启江,方长泉,等.德兴斑岩铜矿成矿过程中地下水运移的动力学模拟[J].地球化学,1994,23(4):402~412.
[62] 陈繁荣.成矿过程流体地球化学模拟及其矿床学意义——以江西银山矿床为例[J].地质论评,1995,41(1):42~47.
[63] Zhang Dehui, Yu Chongwen, Bao Zhengyu,et al. Ore zoning and the dynamics of ore-forming processes of Yinshan polymetallic deposit, Jiangxi[J]. Chinese Journal of Geochemistry, 1997, (2):123~132.
[64] 朱恺军,范宏瑞.江西金山金矿床层控成因的地质地球化学证据[J].地质找矿论丛,1991,6(4):18~27.
[65] 韦星林.金山金矿田地质特征及成矿地质作用[J].矿产与地质,1995,9(6):471~480.
[66] 孙承辕,张金春.江西金山金矿韧性剪切过程中物质的迁移[J].矿床地质,1994,13(4):371~379.
[67] 季峻峰,孙承辕,郑晴.江西金山剪切带型金矿床中含金石英脉的成矿特征[J].地质论评,1994,40(4):361~367.
[68] 季峻峰,刘英俊,孙承辕,等.江西金山剪切带型金矿床两类矿石的地球化学特征——兼论两阶段成矿机制[J].地球化学,1994,(3):226~234.
[69] 华仁民.试论中国东部中生代成矿大爆发[J].矿床地质,1999,(4):300~308.
[70] 张德会.乐华-德兴成矿带成矿作用研究的进展、问题及展望[J].地质论评,1998,44(5):502~510.
/
| 〈 |
|
〉 |
甘公网安备62010202000687
