OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

地质论评 2007

锡铁山喷流沉积矿床卤水与海水的相互作用

Keywords: 铅锌矿,大理岩,SEDEX,喷流沉积矿床,稀土元素,锶同位素,青海

Full-Text Cite this paper Add to My Lib

Abstract:

锡铁山大型铅锌矿床发育有完好的喷流沉积系统,赋矿地层产状倒转。与成矿关系密切的大理岩延长约2km,延深约1km,往深部厚度增大,至代表管道相的网脉状蚀变岩,厚度迅速减薄、尖灭。角砾状非层状铅锌矿体赋存于紧邻网脉状蚀变岩的厚层状大理岩中,条带状层状矿体赋存于外侧条带状大理岩的下盘。对锡铁山矿床两条典型剖面系统的地质地球化学研究表明,近喷口相大理岩与远离喷口相大理岩相比,具有相似的变化规律。以反映远端沉积的剖面为例,自下往上,条带状矿体条带状大理岩块状大理岩,Al2O3、Fe2O3、Sr、B、Tl以及MgO/(CaOMgO)、Na2O/(Na2OK2O)比值等逐渐降低,Sr/Rb、Sr/Ba比值等迅速降低,REE总量降低,分异增强,Eu异常减弱,Ce负异常更加明显;δ18OSMOW=10.1‰～12.5‰,向上增高,δ13CV-PDB=-0.9‰～0.2‰;大理岩87Sr/86Sr=0.7113～0.7148,低于矿石方解石的0.7146～0.7147,高于同时期的正常海相灰岩。综合这些地质地球化学特征,锡铁山矿床的容矿大理岩明显不同于正常海相沉积碳酸盐岩,而是介于喷流卤水与海水特征之间,上部的大理岩中有更多的海水参与。以Sr同位素数据计算出本区大理岩来自海水的组分约占1/3,来自卤水的组分约占2/3,大理岩总体上仍主要分布于喷口附近,更多地受到卤水的影响。通过大理岩的地质地球化学研究揭示出,矿床中发育有两条同生断层,一条沿以网脉状蚀变带代表的管道相分布,另一条分布于25线附近,共同制约着大理岩与成矿物质的堆积。锡铁山矿床可能存在着规模巨大的层状矿体,其分布范围可能超越一直作为重要找矿评价标志的大理岩。

References

[1]	邓吉牛,1999b,青海锡铁山矿区褶皱构造及其找矿预测.有色金属矿产与勘查,8(5):283～288.
[2]	顾连兴,徐克勤.1986.论长江中、下游中石炭世海底块状硫化物矿床.地质学报,60(2):176～188
[3]	江茂生,朱井泉,陈代钊,张任枯,乔广生.2002.塔里木盆地奥陶纪碳酸盐岩碳、锶同位素特征及其对海平面变化的响应.中国科学(D辑),32(1):36～42
[4]	彭润民,翟裕生.2004.内蒙古狼山-渣尔泰山中元古代被动陆缘热水喷流成矿特征.地学前缘,11(1):257-268.
[5]	宋述光,张立飞,Niu Y,宋彪,刘墩一.2004.青藏高原北缘早古生代板块构造演化和大陆深俯冲.地质通报,33(9～10):918～925.
[6]	汪劲草,彭恩生,孙振家.2000.青海锡铁山铅锌矿床喷流沉积后的构造再造过程.大地构造与成矿学,24(2):163～169.
[7]	王集磊,何伯墀,李健中,何典仁.1996.中国秦岭型铅锌矿床.北京:地质出版社,92～96.
[8]	吴才来,杨经绥,许志琴,Wooden J L,Ireland T,李海兵,史仁灯,孟繁聪,陈松永,Persing H,Meibom A.2004.柴达木盆地北缘古生代超高压带中花岗质岩浆作.地质学报,78(5):659～674.
[9]	祝新友,汪东波,卫治国.2005b.甘肃洛坝铅锌矿床的构造控矿作用.地质与勘探.41(6):38～41.
[10]	De Baar J W,Brewer P G,Bacon M P.1985.Anomalies in rare earth distribution in seawater:Gd and Tb:Geochim.Cosmochim.Acta,49:1961 ～ 1969.
[11]	Jiang Shaoyong,Palmer M R,Slack J F,Yang J H,Shaw D R.2000.Trace element and rare earth element geochemistry of tourmalinites and related rocks and ores from the Sullivan Deposit and vicinity,southeastern British Columbia.In:Lydon J W,ed.The Geological Environment of the Sullivan Deposit,British Columbia.Special Publication 1.482 -495.
[12]	Klinkhammer G P,Eldrefield H,Edmond J M,Mitra A.1994.Geochemical implications of rare earth element patterns in hydrothermal fluids from mid-ocean ridges.Geochim.Cosmochim.Acta,58:5105 ～5113.
[13]	Large R R,McGoldrick P J.1998.Lithogeochemical halos and geochemical vectors to stratiform sediment hosted Zn-Pb-Ag deposits,1.Lady Loretta Deposit,Queensland.J.Geochem.Explor.,63:37～56.
[14]	Large R R,McGoldrick P J.2000.Lithogeochemical halos and geochemical vectors to stratiform sediment hosted Zn-Pb-Ag depositsPart 2.HYC deposit,McArthur River,Northern Territory.J.Geochem.Explor.,68:105 ～ 126.
[15]	Lydon J W,Paakki J J,Anderson H E,Reardon N C.2000.An overview of the geology and geochemistry of the Sullivan Deposit.In:Lydon J W,ed.The Geological Environment of the Sullivan Deposit,British Columbia.Special Publication Ⅰ,505 ～522.
[16]	Ma Guoliang,Beaudoin G,Qi Sijing,Li Ying.2004.Geology and geochemistry of the Changba SEDEX Pb-Zn deposit,Qinling orogenic belt,China.Mineralium Deposita,39:380～395.
[17]	Michard A.1989.Rare earth element systematic in hydrothermal fluids.Geochim.Cosmochim.Acta,53:745 ～ 750.
[18]	Perkins W G.1997.Mount Isa lead-zinc orebodies; replacement lodes in a zoned syndeformational copper-lead-zinc system? Ore Geology Review,12(2):61 ～111.
[19]	Sangster D F.2002.The role of dense brines in the formation of vent-distal sedimentary-exhalative (SEDEX) lead-zinc depositsfield and laboratory evidence.Mineral Deopsita,37:149 ～ 157.
[20]	Taylor B E,Turner R J W,Leitch C H B,Watanabe D H,Lydon J W.2000.Isotopic stratigraphy of carbonate in wall rocks and bedded ores,Sullivan Pb-Zn-Ag mine,British Columbia.In:Lydon J W,ed.The Geological Environment of the Sullivan Deposit,British Columbia.Special Publication Ⅰ,673 ～ 695.
[21]	Valdes-Nodarse E L.1998.Pb-Zn "SEDEX" deposits and their copper stockwork roots,western Cuba.Mineralium Deposita,33:560 ～567.
[22]	西部矿业股份有限公司.2003.青海省海西州锡铁山铅锌矿床3062米中段以下矿产资源储量报告.
[23]	张德会,周肃,王团华.2004.锡铁山铅锌矿床成矿年龄及流体包裹体地球化学研究(科研报告).
[24]	鲍志东,朱井泉.1998.塔里木盆地奥陶系层序地球化学研究.地质科技情报,17(4):43～47.
[25]	邓达文,孔华,奚小双.2003.青海锡铁山热水沉积型铅锌矿床的地球化学特征.矿物岩石地球化学通报,22(4):310～313.
[26]	邓吉牛.1999a.世纪我国金属矿山地质找矿预测新概念探讨.全国矿山地质及21世纪可持续发展会议.中国地质学会80周年学术文集.北京:地质出版社,681～685.
[27]	韩发,孙海田.1999.Sedex型矿床成矿系统.地学前缘,6(1):139～150.
[28]	马国良,祁思敬,李英.1998.厂坝铅锌矿床中钠长石岩的成因探讨.地质地球化学,26(2):29～34.
[29]	邬介人,任秉琛,张莓,高栋丞,赵统,张汉文,宋志高,张群力.1987.青海锡铁山块状硫化物矿床的类型及地质特征.见:中国地质科学院西安地质矿产研究所所刊,20号.西安:陕西科学技术出版社,1～70.
[30]	杨经绥,张建新,孟繁聪,史仁灯,吴才来,许志琴,李海兵,陈松永.2003.中国西部柴北缘-阿尔金的超高压变质榴辉岩及其原岩性质探讨.地学前缘,10(3):291～314.
[31]	曾普胜,蒙义峰,杨竹森,裴荣富,王训诚.2004.安徽铜陵矿集区与块状硫化物矿床有关的热水沉积岩.矿床地质,23(3):334～343.
[32]	张德全,王富春,李大新,丰成友,佘宏全,李进文.2005.柴北缘地区的两类块状硫化物矿床-Ⅰ,锡铁山式SEDEX型铅锌矿床.矿床地质.24(5):471～480.
[33]	赵风清,郭进京,李怀坤.2003青海锡铁山地区滩间山群的地质特征及同位素年代学.地质通报,22(1):28～31.
[34]	郑荣才,王成善,朱利东.2003.酒西盆地首例湖相"白烟型"喷流岩--热水沉积白云岩的发现及其意义.成都理工大学学报(自然科学版),30(1):1～8.
[35]	祝新友,汪东波,卫冶国,邱小平,王瑞廷.2005a.西成地区碳酸盐岩的REE特征及厂坝矿床白云岩的成因.矿床地质,24(6):613～620.
[36]	Chapman L H.2004.Geology and mineralization styles of the George Fisher Zn-Pb-Ag deposit,Mount Isa,Australia.Econ.Geol.,99:233 ～ 255.
[37]	Cooke D R,Bull S W,Large R R.2000.The importance of oxidized brines for the formation of Australian Proterozoic stratiform sedimenthosted Pb-Zn (sedex) deposits.Econ.Geol.,95 (1):1 ～ 17.
[38]	Davis J F,Prevec S A,Whitehead R E,Jackson S E.1998.Variations in REE and Sr-isotope chemistry of carbonate gangue,Castellanos Zn-Pb deposit,Cuba.Chem.Geo.,vol.144,p.99 ～119.
[39]	Veizer J,Ala D,Azmy K,Azmy K,Bruckschen P,Buhl D,Bruhn F,Carden G A F,Diener A,Ebneth S,Godderis Y,Jasper T,Korte C,Pawellek F,Podlaha O G and Strauss H.1999.87Sr/86Sr,δ13C and δ18O evolution of Phanerozoic seawater.Chemical Geology,161(1 ～3):59 ～88
[40]	Whitehead R E,Davies J F,Valdes-Nodarse E L,Diaz C A.1996.Mineralogical and Chemical variations.Castellanos Shale-hosted Zn-Pb-Ba deposit,northwestern Cuba.Econ.Geol.,91:713 ～722.
[41]	Wood S A.1990.The aqueous geochemistry of rare earth elements and yttrium.2.Theoretical prediction of speciation in hydrothermal solutions to 350℃ at saturation vapor pressure.Chem.Geol.,88:99 ～125.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133