东准噶尔北部地区铜钼矿床地质-地球化学特征及成因研究
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摘要
按照板块构造观点,研究区位于西伯利亚板块与哈萨克斯坦-准噶尔板块的碰撞缝合部位,额尔齐斯挤压带系西伯利亚板块与哈萨克斯坦板块的碰撞缝合线,主体位于东准噶尔北部。区域地质显示东准噶尔北部在早古生代以前属古亚洲板块的一部分,为稳定大陆边缘,至少从早奥陶世开始,形成了分割准噶尔板块与阿尔泰地块的准噶尔洋,并发生了俯冲、碰撞、增生等过程,并于晚古生代期间逐渐闭合。闭合后,准噶尔地区逐渐进入后碰撞造山演化阶段,以碰撞深成岩浆活动为特征。因此区内构造活动复杂,海西期的火山活动、岩浆作用等广泛发育。与之相关的铜、钼、金等矿产资源丰富。
研究区内的哈腊苏、希勒库都克、索尔库都克铜钼矿床的铜钼矿体赋存形式、矿床地球化学特征和矿床成因等方面都存在较大差别。例如:哈腊苏铜钼矿床表现为斑岩铜矿特征,Mo元素在早期的浸染状矿化和后期脉状或裂隙充填状矿化矿石中也都达到伴生有益组分工业指标;希勒库都克铜钼矿中Mo为主要工业元素,主要附存在花岗斑岩岩体中,Cu则赋存在岩体边部和围岩接触带及矽卡岩中;索尔库都克矿体主要赋存在安山玢岩外的接触带凝灰岩中,安山玢岩也有一定铜钼矿化。因此本文主要以区域构造演化为背景,以哈腊苏、希勒库都克、索尔库都克三个铜钼矿床地质、矿床地球化学特征为线索,试图建立洋-陆转化过程与Cu-Mo组合成矿的关系。
本文的研究手段为结合野外地质工作和室内工作(收集、整理、采样、实验等手段获取相关矿床的稀土、微量元素、S同位素、Sr-Nd同位素等矿床地球化学数据),以区域构造演化为背景,尝试推导成矿过程中的成矿期次、物质迁移、成矿物质来源等问题,最后建立铜钼矿床成因与该阶段的区域构造演化特征的关系。
According to the view of the tectonic plates,The tectonic position of the study areais on the tectonics binding site of the Siberian plate and the Kazakhstan-Junggarplate.EErJiSi compressive belt is the Collision suture line of the Siberian plate and theKazakhstan plate,The main body is located in the north of east Junggar.Regional geologyshows that, the north of east Junggar is a part of Adop ted plate before Early PalaeozoicEra,which formd the Junggar ocean, since Lower Ordovician at least, It divided theJunggar Blocks and the Altai plots,they experienced the subduction,collision andhyperplasia processes,then closed gradually in Neopaleozoic.Then,The study areaentranced the period of post-collision,which was characterized by hypogene magmaticactivity.So, the tectonic environment is more complex, volcanic activity, magmatismwas widely developed in hercynian. Mineral resources of copper, nickel, gold areextremely rich, which show very good exploration prospects.
The Modes of Occurrence of Cu-Mo orebodies,geochemical characteristic ofdeposit and ore genesis of Halasu, Xilekuduk,Suoerkuduke Cu-Mo deposit aredifferent.for example, Halasu Cu-Mo deposit manifestes as characteristics of porphyrycopper,and Mo slso reaches the industrial index in the early Disseminated ores and thelate Nervation Ores;Mo is the main industry element in xilekuduke Cu-Mo deposit,which occurrences in the granite porphyry body,and Cu ore hosting on the margin andcontact zone of the granite porphyry body; The copper body of Suoerkuduke occurrencesin tuff,which is the contact zone of andesitic porphyrite. With the regional tectonicevolution as the background,and the deposit geology, geochemical characteristics of theore deposit as the clues, the author want to establish the realationship of the ocean-landtransformation and the Cu-Mo mineralization
The research means of this paper is combining with the field geological work andindoor work(obtain deposit geochemical data about rare earth elements, trace element, Sisotope, Sr-Nd isotopes and so on by Collecting, sorting, sampling, testing.Then theauthor attempts derivation the period of mineralizing, material migration, ore-formingmaterial source, etc,finally establishes the relationship between the ore genesis and theregional tectonic evolution.
研究区内的哈腊苏、希勒库都克、索尔库都克铜钼矿床的铜钼矿体赋存形式、矿床地球化学特征和矿床成因等方面都存在较大差别。例如:哈腊苏铜钼矿床表现为斑岩铜矿特征,Mo元素在早期的浸染状矿化和后期脉状或裂隙充填状矿化矿石中也都达到伴生有益组分工业指标;希勒库都克铜钼矿中Mo为主要工业元素,主要附存在花岗斑岩岩体中,Cu则赋存在岩体边部和围岩接触带及矽卡岩中;索尔库都克矿体主要赋存在安山玢岩外的接触带凝灰岩中,安山玢岩也有一定铜钼矿化。因此本文主要以区域构造演化为背景,以哈腊苏、希勒库都克、索尔库都克三个铜钼矿床地质、矿床地球化学特征为线索,试图建立洋-陆转化过程与Cu-Mo组合成矿的关系。
本文的研究手段为结合野外地质工作和室内工作(收集、整理、采样、实验等手段获取相关矿床的稀土、微量元素、S同位素、Sr-Nd同位素等矿床地球化学数据),以区域构造演化为背景,尝试推导成矿过程中的成矿期次、物质迁移、成矿物质来源等问题,最后建立铜钼矿床成因与该阶段的区域构造演化特征的关系。
According to the view of the tectonic plates,The tectonic position of the study areais on the tectonics binding site of the Siberian plate and the Kazakhstan-Junggarplate.EErJiSi compressive belt is the Collision suture line of the Siberian plate and theKazakhstan plate,The main body is located in the north of east Junggar.Regional geologyshows that, the north of east Junggar is a part of Adop ted plate before Early PalaeozoicEra,which formd the Junggar ocean, since Lower Ordovician at least, It divided theJunggar Blocks and the Altai plots,they experienced the subduction,collision andhyperplasia processes,then closed gradually in Neopaleozoic.Then,The study areaentranced the period of post-collision,which was characterized by hypogene magmaticactivity.So, the tectonic environment is more complex, volcanic activity, magmatismwas widely developed in hercynian. Mineral resources of copper, nickel, gold areextremely rich, which show very good exploration prospects.
The Modes of Occurrence of Cu-Mo orebodies,geochemical characteristic ofdeposit and ore genesis of Halasu, Xilekuduk,Suoerkuduke Cu-Mo deposit aredifferent.for example, Halasu Cu-Mo deposit manifestes as characteristics of porphyrycopper,and Mo slso reaches the industrial index in the early Disseminated ores and thelate Nervation Ores;Mo is the main industry element in xilekuduke Cu-Mo deposit,which occurrences in the granite porphyry body,and Cu ore hosting on the margin andcontact zone of the granite porphyry body; The copper body of Suoerkuduke occurrencesin tuff,which is the contact zone of andesitic porphyrite. With the regional tectonicevolution as the background,and the deposit geology, geochemical characteristics of theore deposit as the clues, the author want to establish the realationship of the ocean-landtransformation and the Cu-Mo mineralization
The research means of this paper is combining with the field geological work andindoor work(obtain deposit geochemical data about rare earth elements, trace element, Sisotope, Sr-Nd isotopes and so on by Collecting, sorting, sampling, testing.Then theauthor attempts derivation the period of mineralizing, material migration, ore-formingmaterial source, etc,finally establishes the relationship between the ore genesis and theregional tectonic evolution.
引文
Alderton D H M, Pearce J A and Potts P J.Rare earth element mobility during graltealteration:evidence from south westEngland[J].Earth and Planetary Seienci Letters,1980,49:149~165
Green T H. Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantlesystem. Chemical Geology,1995,120(3-4):347-359
Hollister VF,Potter RR,Barker AL.Porphyry-type deposits of Appalachian Orogen[J].EconGeol.,1974,69:618~630
Hollister VF.Models for prospect evaluation of porphyry copper deposits.Hollister V F.PorphyryCopper,Molybdenum,and Gold Deposits,Volcanogenic Deposits(Massive Sulfides)andDepositsin Layered Rock[M].New York:Society for Mining,Metallurgy andExploration,1991,3:5210
Jahn, B.M., Windley, B., Natal’in, B., et al.2004a, Phanerozoic continental growth in Central Asia:Journal of Asian Earth Sicences,23:599~603
Küster D and U Harms. Post-collisional potassic granitoids from the southern and northwesternparts of the Late Neoproterozoic East African Orogen: a review.Lithos,1998,45(1-4):177-195
Li J Y, Xiao W J, Wang K Z, Sun G H and Gao L M.(2003). Neoproterozoic-Paleozoictectonostratigraphy, magmatic activities and tectonic evolution of eastern Xinjiang, NWChina. Tectonic evolution and metallogeny of the Chinese Altay and Tianshan: London,Center for Russian and Central Asian Mineral Studies and Natural History MuseumInternational Association on the Genesis of Ore Deposits Guidebook Series,10:31~74
Li J, Xiao W, Wang K, et al. Neoproterozoic to Paleozoic tectonostratigraphy, magmatic activiesand tectonic evolution of eastern Xinjiang, NW China.Mao J, Gldfarb R J, Seltmann R, etal.Tectonic Evolution and Metallogeny of the Chinese Altay and Tianshan, IAGODGuidebook Series, London,2003,10:31~74
Li J, Xiao W, Wang K, et al. Neoproterozoic to Paleozoic tectonostratigraphy, magmatic activiesand tectonic evolution of eastern Xinjiang, NW China[M].Mao J, Gldfarb R J, Seltmann R, etal.Tectonic Evolution and Metallogeny of the Chinese Altay and Tianshan, IAGODGuidebook Series, London,2003,10:31~74
Li X Y; Cui et al. Reaction pathways and mechanisms of the electrochemical degradation ofphenol on different electrodes. Water Research,200339(10):1972-1981
Lowell JD,Guilber TJM.Lateral and vertical alteration mineralization zoning in porphyry oredeposits[J].Econ Geol,1970,65:373~404
Masterman GJ,Cooke DR,Berry RF,et al.Fluid chemistry,structural setting,and emplacementhistory of the Rosario Cu-Mo porphyry and Cu-Ag-Au epithermal veins,Collahuas iDistrict,Northern Chile[J].Economic Geology,2005,100:835~863
Ohmoto H. Stable isotope geochemistry of ore deposits. Reviews in Mineralogy andGeochemistry,1986,16(1):491-559
Singer D A. Basic concepts in three~part quantitative assessments of undiscovered mineralresources[J]. Nonrenewable Resources,1993,2(2):69~81
Sun S S, McDonough W F. Chemical and isotopic systematics of oceanic basalts: implications formantle composition and processes. In: Magmatism in Ocean Basalts, Geological Society ofLondon Special Publication,1989,313~345
Taylor R B. Steven T A. Definition of mineral resource potential[J]. EconomicGeology.1983,78:1268~1270
Wood D A, Joron J L, Treuil M, et al,. Elemental and Sr isotope variations in basin lavas fromIceland and the surrounding ocean floor. Contri. Mineral. Petrol.,1979,70:3219~3339
Turner S N, Arnaud et al. Post-collision, shoshonitic volcanism on the Tibetan Plateau:implications for convective thinning of the lithosphere and the source of ocean island basalts.Journal of petrology,1996,37(1):45-71
Windley F B, Kroner A, Gao J, et al. Neoproterozoic to Plaeozoic geology of the Altai orogen,NW China:New zircon age data and tectonic evolution. J. Geol.,2002,110:719~737
Xiao W, Windley BF, Badarch G, et al. Palaeozoic accretionary and convergent tectonics of thesouthern Altaids:implications for the growth of Central Asia. J. Geol. Soc.,2004,161:339~342
陈仁义,刘玉琳,苗宗瑶.新疆索尔库都克类矽卡岩铜(钼)矿床地质特征及矿床成因[J].地质论评.1995,41(2):165~173
陈毓川,刘德权,唐延龄,等.中国新疆战略性固体矿产大型矿集区研究[M].北京:地质出版社,2007
陈毓川,朱裕生.中国矿床成矿模式[M].北京:地质出版社,1993
董运如.新疆富蕴县索尔库都克铜(钼)矿床地质特征及成因分析[J].内蒙古科技与经济.2010,10:42~45
范永香,阳正熙.成矿规律与成矿预测[M].徐州:中国矿业大学出版社,2003
韩宝福,王式洸.正ε Nd(T)值的准铝-过铝花岗岩:新疆也布山岩体.科学通报,(1998),43(12):1323-1328
韩宝福,何国琦,王式洸.后碰撞幔源岩浆活动、底垫作用及准噶尔盆地基地的性质[J].中国科学(D辑),1999,29(1):16~21
韩春明,肖文交等.新疆北部晚古生代铜矿床主要类型和地质特征.地质学报,2006,80(1):74-89
侯增谦,莫宣学.埃达克岩:斑岩铜矿的一种可能的重要含矿母岩—以西藏和智利斑岩铜矿为例.矿床地质,2003,22(1):1-12
侯增谦,潘小菲.初论大陆环境斑岩铜矿.现代地质,2007,21(2):332-351
金章东.德兴铜厂斑岩铜矿床成矿流体地球化学及演化.南京大学,1999
李华芹,谢才富,常海亮,等.新疆北部有色贵金属矿床成矿作用年代学[M].北京:地质出版社,1998
李锦轶,王克卓,李亚萍,等.天山山脉地貌特征、地壳组成与地质演化[J].地质通报,2006,25(8):895~909
刘季花,石学法.东太平洋铁锰结核的Sr—Nd同位素体系及其对成矿环境的指示意义.海洋地质与第四纪地质,2003,23(1):41-48
刘铁庚,梅厚钧,于学元,等.据索尔库都克铜-钼矿床地化特征探讨其成因类型[J].新疆地质.1992,10(2):176~183
刘悟辉,廖启林.阿尔泰山南缘典型铜、镍、铅锌矿床成矿模式初探[J].地质找矿论丛,2006,21(3):173~177
龙灵利,王玉往,王京彬,等.新疆希勒库都克铜钼矿区岩浆混合作用:来自锆石U~Pb年代学的证据[J].岩石学报,2010,26(2):449~456
马军,杨海英,谷高中,等.新疆富蕴县乔夏哈拉金铜铁矿矿床地质特征探讨[J].新疆有色金属2005,(4):7~9
马天林.新疆萨尔布拉克金矿成矿模式[J].矿床地质.1994,13卷增刊
倪梁.新疆富蕴县乔夏哈拉金铜铁矿地质特征、控矿因素及找矿标志[J].新疆有色金属.2004,(2):13~15
裴荣富.中国矿床模式[M].北京:地质出版社,1995
芮行健,朱韶华,刘抗娟.新疆阿尔泰原生金矿基本特征及区域成矿模式[J].1993,39(2):138~148
芮宗瑶,王龙生,王天义,等.斑岩铜矿的矿床模式及其研究进展.见当代矿产资源勘查评价的理论与方法.北京:地震出版社.1999,238~245
闰升好、腾荣丽等.新疆阿尔泰山南缘卡拉先格尔斑岩铜矿带成因再认识一来自哈腊苏铜矿硫-铅-氢-氧同位素和40Ar-39Ar年龄的约束[J].矿床地质.2006,25(3):292-299
沈远超,申萍,李光明,等.新疆额尔齐斯金矿带构造控矿规律研究[J].矿床地质,2007,26(1):33~42
涂其军.新疆阿尔泰南缘东段哈腊苏斑岩铜矿成矿特征研究:[研究生学位论文].长安大学,2007
万博,张连昌.新疆阿尔泰东南缘卡拉先格尔铜矿带含矿斑岩地球化学及其成矿意义.中国地质,2003,33(3):618-625
万博、张连昌.新疆阿尔泰南缘泥盆纪多金属成矿带Sr-Nd-Pb同位素地球化学与构造背景探讨[J].岩石学报2006,22(1):145-152
汪云亮,李巨初,韩文喜,等.慢源岩浆岩源区成分判别原理与峨眉山地慢源区性质[J].地质
汪云亮,张成江,修淑芝.玄武岩类形成的大地构造环境的Th/Hf-Ta/Hf图解判别[J].岩石学报,2001,17(3):413一17
王道永,邓江红.东准噶尔地区板块构造特征及演化[J].成矿理工学院学报,1995,22(4):38~45
王登红,陈毓川,徐志刚,等.阿尔泰成矿省的成矿系列及成矿规律[M].北京:原子能出版社,2002
王福同,马天林,刘光海,等.喀拉通克铜镍成矿带地物化综合研究及找矿靶区优选[R].1990
王福同,马天林,刘光海,等.新疆喀拉通克铜镍金矿带成矿规律和找矿模式.北京:地质出版社,1992,25:186~190
王京彬,李博泉,张积斌,等.额尔齐斯聚矿带金铜成矿条件及找矿预测[M].北京:冶金工业出版社,1999
王京彬,徐新.新疆北部后碰撞构造演化与成矿.地质学报,2006,80(1):23~31.
王莉娟,王京彬,王玉往,等.新疆北部希勒库都克斑岩铜钼矿床赋矿岩石及其成矿流体.2010,28(4):210~217
王莉娟,王京彬,王玉往,等.准噶尔北部希勒库都克斑岩铜钼矿床地质与成矿流体[J].岩石学报,2009,25(4):944~954
王玉往,王京彬,王书来,等.新疆希勒库都克铜钼矿床地质特征和成因探讨[J].新疆地质.2010,28(4):370~376
卫振林.新疆富蕴索尔库都克铜矿矿床地质特征[J].西北地质1992,13(1):37-42
吴淦国,薛春纪,温长顺,等.新疆阿尔泰南缘东段哈腊苏斑岩铜钼金矿床地质[J].矿床地质.2006,增刊:325~328
吴淦国、董连慧等.新疆北部主要斑岩铜矿带[M].北京:地质出版社,2008
吴志亮.阿尔泰南缘泥盆纪火山—沉积盆地形成机制探讨.有色金属矿产与勘查.1996,5(5):272-277
相鹏,张连昌等.新疆青河卡拉先格尔铜矿带Ⅱ-Ⅲ矿区含矿斑岩锆石年龄及地质意义.岩石学报,2009,(006):1474-1483
肖文交,韩春明,袁超,等.新疆北部石炭—二叠纪独特的构造—成矿作用:对古亚洲洋构造域南部大地构造演化的制约.岩石学报,2006,22(5):1062~1076.
肖序常,汤耀庆,李锦轶,等.试论新疆北部大地构造演化[M].新疆地质科学,第一辑.北京:地质出版社,1990:47~68
新疆维吾尔自治区地质局区域地质调查大队.1978.富蕴幅区域地质调查报告-区域地质(1:200000).新疆维吾尔自治区地质局
新疆维吾尔自治区地质局区域地质调查大队.1978.富蕴幅区域地质调查报告-区域矿产(1:200000).新疆维吾尔自治区地质局
薛春纪,赵战锋,吴淦国,等.中亚构造域多期迭加斑岩铜矿化:以阿尔泰东南缘哈腊苏铜矿床地质,地球化学和成岩成矿时代研究为例[J].地学前缘2010,17(2):53~82
学报,1993,67(1):52一62
闫升好,张招崇,王义天,等.新疆阿尔泰山南缘乔夏哈拉式铁铜矿床稀土元素地球化学特征及其地质意义[J].矿床地质.2005,24(1):25~33
杨炳滨,敬占国.新疆北部铜矿床模式探讨[J].新疆有色金属,1996,(3):6~11
杨富全,闰升好,屈文俊,等.新疆哈腊苏铜矿床Ⅰ号矿化带流体包裹体和碳氢氧同位素地球化学[J].地学前沿.2010,17(2):359~374
杨富全,吴海,韩金良.新疆东准噶尔金属矿床成矿系列及成矿规律[J].新疆地质.2001,(1):54~58
杨海波,高鹏,唐兴国,等.新疆富蕴县索尔库都克铜(钼)矿床地质特征及成因探讨[J].陕西地质.2007,25(2):11~18
杨眉.新疆阿尔泰地区哈腊苏铜矿床的成因矿物学研究.[研究生学位论文].北京:中国地质大学(北京),2006
杨文平,张招崇.阿尔泰铜矿带南缘希勒克特哈腊苏斑岩铜矿的发现及其意义.中国地质.(2005),32(001):107-114
应立娟.新疆乔夏哈拉铁铜金矿床地质、地球化学特征与成因研究.[研究生学位论文].北京:中国地质科学院,2007
游军.新疆富蕴县希勒库都克钼铜矿床地球化学与成矿模式研究:[研究生学位论文].桂林理工大学,2011
张华.新疆索尔库都克-哈腊苏矿集区矿床地质_地球化学特征与找矿模型研究:[研究生学位论文].昆明理工大学,2011
张玉泉,谢应雯.钾玄岩系列:藏东玉龙铜矿带含矿斑岩Sr, Nd, Pb同位素组成.地质科学,1998,33(3):359-366
赵一鸣,林文蔚.中国矽卡岩矿床基本地质特征.中国地质科学院院报,1986
赵战锋,薛春纪,张立武,等.新疆青河玉勒肯哈腊苏铜矿区酸性岩锆石U~Pb法定年及其地质意义[J].矿床地质.28(4):425~433
周肃,蔡红,谢才富.新疆北部索尔库都克铜钼矿床年代学研究[J].华南地质与矿产1996,4:52~56
周涛,刘悟辉,戴塔根,等.新疆富蕴县乔夏哈拉铜(金)矿床成因[J].物探与化探.2008,32(2):131~134
Green T H. Significance of Nb/Ta as an indicator of geochemical processes in the crust-mantlesystem. Chemical Geology,1995,120(3-4):347-359
Hollister VF,Potter RR,Barker AL.Porphyry-type deposits of Appalachian Orogen[J].EconGeol.,1974,69:618~630
Hollister VF.Models for prospect evaluation of porphyry copper deposits.Hollister V F.PorphyryCopper,Molybdenum,and Gold Deposits,Volcanogenic Deposits(Massive Sulfides)andDepositsin Layered Rock[M].New York:Society for Mining,Metallurgy andExploration,1991,3:5210
Jahn, B.M., Windley, B., Natal’in, B., et al.2004a, Phanerozoic continental growth in Central Asia:Journal of Asian Earth Sicences,23:599~603
Küster D and U Harms. Post-collisional potassic granitoids from the southern and northwesternparts of the Late Neoproterozoic East African Orogen: a review.Lithos,1998,45(1-4):177-195
Li J Y, Xiao W J, Wang K Z, Sun G H and Gao L M.(2003). Neoproterozoic-Paleozoictectonostratigraphy, magmatic activities and tectonic evolution of eastern Xinjiang, NWChina. Tectonic evolution and metallogeny of the Chinese Altay and Tianshan: London,Center for Russian and Central Asian Mineral Studies and Natural History MuseumInternational Association on the Genesis of Ore Deposits Guidebook Series,10:31~74
Li J, Xiao W, Wang K, et al. Neoproterozoic to Paleozoic tectonostratigraphy, magmatic activiesand tectonic evolution of eastern Xinjiang, NW China.Mao J, Gldfarb R J, Seltmann R, etal.Tectonic Evolution and Metallogeny of the Chinese Altay and Tianshan, IAGODGuidebook Series, London,2003,10:31~74
Li J, Xiao W, Wang K, et al. Neoproterozoic to Paleozoic tectonostratigraphy, magmatic activiesand tectonic evolution of eastern Xinjiang, NW China[M].Mao J, Gldfarb R J, Seltmann R, etal.Tectonic Evolution and Metallogeny of the Chinese Altay and Tianshan, IAGODGuidebook Series, London,2003,10:31~74
Li X Y; Cui et al. Reaction pathways and mechanisms of the electrochemical degradation ofphenol on different electrodes. Water Research,200339(10):1972-1981
Lowell JD,Guilber TJM.Lateral and vertical alteration mineralization zoning in porphyry oredeposits[J].Econ Geol,1970,65:373~404
Masterman GJ,Cooke DR,Berry RF,et al.Fluid chemistry,structural setting,and emplacementhistory of the Rosario Cu-Mo porphyry and Cu-Ag-Au epithermal veins,Collahuas iDistrict,Northern Chile[J].Economic Geology,2005,100:835~863
Ohmoto H. Stable isotope geochemistry of ore deposits. Reviews in Mineralogy andGeochemistry,1986,16(1):491-559
Singer D A. Basic concepts in three~part quantitative assessments of undiscovered mineralresources[J]. Nonrenewable Resources,1993,2(2):69~81
Sun S S, McDonough W F. Chemical and isotopic systematics of oceanic basalts: implications formantle composition and processes. In: Magmatism in Ocean Basalts, Geological Society ofLondon Special Publication,1989,313~345
Taylor R B. Steven T A. Definition of mineral resource potential[J]. EconomicGeology.1983,78:1268~1270
Wood D A, Joron J L, Treuil M, et al,. Elemental and Sr isotope variations in basin lavas fromIceland and the surrounding ocean floor. Contri. Mineral. Petrol.,1979,70:3219~3339
Turner S N, Arnaud et al. Post-collision, shoshonitic volcanism on the Tibetan Plateau:implications for convective thinning of the lithosphere and the source of ocean island basalts.Journal of petrology,1996,37(1):45-71
Windley F B, Kroner A, Gao J, et al. Neoproterozoic to Plaeozoic geology of the Altai orogen,NW China:New zircon age data and tectonic evolution. J. Geol.,2002,110:719~737
Xiao W, Windley BF, Badarch G, et al. Palaeozoic accretionary and convergent tectonics of thesouthern Altaids:implications for the growth of Central Asia. J. Geol. Soc.,2004,161:339~342
陈仁义,刘玉琳,苗宗瑶.新疆索尔库都克类矽卡岩铜(钼)矿床地质特征及矿床成因[J].地质论评.1995,41(2):165~173
陈毓川,刘德权,唐延龄,等.中国新疆战略性固体矿产大型矿集区研究[M].北京:地质出版社,2007
陈毓川,朱裕生.中国矿床成矿模式[M].北京:地质出版社,1993
董运如.新疆富蕴县索尔库都克铜(钼)矿床地质特征及成因分析[J].内蒙古科技与经济.2010,10:42~45
范永香,阳正熙.成矿规律与成矿预测[M].徐州:中国矿业大学出版社,2003
韩宝福,王式洸.正ε Nd(T)值的准铝-过铝花岗岩:新疆也布山岩体.科学通报,(1998),43(12):1323-1328
韩宝福,何国琦,王式洸.后碰撞幔源岩浆活动、底垫作用及准噶尔盆地基地的性质[J].中国科学(D辑),1999,29(1):16~21
韩春明,肖文交等.新疆北部晚古生代铜矿床主要类型和地质特征.地质学报,2006,80(1):74-89
侯增谦,莫宣学.埃达克岩:斑岩铜矿的一种可能的重要含矿母岩—以西藏和智利斑岩铜矿为例.矿床地质,2003,22(1):1-12
侯增谦,潘小菲.初论大陆环境斑岩铜矿.现代地质,2007,21(2):332-351
金章东.德兴铜厂斑岩铜矿床成矿流体地球化学及演化.南京大学,1999
李华芹,谢才富,常海亮,等.新疆北部有色贵金属矿床成矿作用年代学[M].北京:地质出版社,1998
李锦轶,王克卓,李亚萍,等.天山山脉地貌特征、地壳组成与地质演化[J].地质通报,2006,25(8):895~909
刘季花,石学法.东太平洋铁锰结核的Sr—Nd同位素体系及其对成矿环境的指示意义.海洋地质与第四纪地质,2003,23(1):41-48
刘铁庚,梅厚钧,于学元,等.据索尔库都克铜-钼矿床地化特征探讨其成因类型[J].新疆地质.1992,10(2):176~183
刘悟辉,廖启林.阿尔泰山南缘典型铜、镍、铅锌矿床成矿模式初探[J].地质找矿论丛,2006,21(3):173~177
龙灵利,王玉往,王京彬,等.新疆希勒库都克铜钼矿区岩浆混合作用:来自锆石U~Pb年代学的证据[J].岩石学报,2010,26(2):449~456
马军,杨海英,谷高中,等.新疆富蕴县乔夏哈拉金铜铁矿矿床地质特征探讨[J].新疆有色金属2005,(4):7~9
马天林.新疆萨尔布拉克金矿成矿模式[J].矿床地质.1994,13卷增刊
倪梁.新疆富蕴县乔夏哈拉金铜铁矿地质特征、控矿因素及找矿标志[J].新疆有色金属.2004,(2):13~15
裴荣富.中国矿床模式[M].北京:地质出版社,1995
芮行健,朱韶华,刘抗娟.新疆阿尔泰原生金矿基本特征及区域成矿模式[J].1993,39(2):138~148
芮宗瑶,王龙生,王天义,等.斑岩铜矿的矿床模式及其研究进展.见当代矿产资源勘查评价的理论与方法.北京:地震出版社.1999,238~245
闰升好、腾荣丽等.新疆阿尔泰山南缘卡拉先格尔斑岩铜矿带成因再认识一来自哈腊苏铜矿硫-铅-氢-氧同位素和40Ar-39Ar年龄的约束[J].矿床地质.2006,25(3):292-299
沈远超,申萍,李光明,等.新疆额尔齐斯金矿带构造控矿规律研究[J].矿床地质,2007,26(1):33~42
涂其军.新疆阿尔泰南缘东段哈腊苏斑岩铜矿成矿特征研究:[研究生学位论文].长安大学,2007
万博,张连昌.新疆阿尔泰东南缘卡拉先格尔铜矿带含矿斑岩地球化学及其成矿意义.中国地质,2003,33(3):618-625
万博、张连昌.新疆阿尔泰南缘泥盆纪多金属成矿带Sr-Nd-Pb同位素地球化学与构造背景探讨[J].岩石学报2006,22(1):145-152
汪云亮,李巨初,韩文喜,等.慢源岩浆岩源区成分判别原理与峨眉山地慢源区性质[J].地质
汪云亮,张成江,修淑芝.玄武岩类形成的大地构造环境的Th/Hf-Ta/Hf图解判别[J].岩石学报,2001,17(3):413一17
王道永,邓江红.东准噶尔地区板块构造特征及演化[J].成矿理工学院学报,1995,22(4):38~45
王登红,陈毓川,徐志刚,等.阿尔泰成矿省的成矿系列及成矿规律[M].北京:原子能出版社,2002
王福同,马天林,刘光海,等.喀拉通克铜镍成矿带地物化综合研究及找矿靶区优选[R].1990
王福同,马天林,刘光海,等.新疆喀拉通克铜镍金矿带成矿规律和找矿模式.北京:地质出版社,1992,25:186~190
王京彬,李博泉,张积斌,等.额尔齐斯聚矿带金铜成矿条件及找矿预测[M].北京:冶金工业出版社,1999
王京彬,徐新.新疆北部后碰撞构造演化与成矿.地质学报,2006,80(1):23~31.
王莉娟,王京彬,王玉往,等.新疆北部希勒库都克斑岩铜钼矿床赋矿岩石及其成矿流体.2010,28(4):210~217
王莉娟,王京彬,王玉往,等.准噶尔北部希勒库都克斑岩铜钼矿床地质与成矿流体[J].岩石学报,2009,25(4):944~954
王玉往,王京彬,王书来,等.新疆希勒库都克铜钼矿床地质特征和成因探讨[J].新疆地质.2010,28(4):370~376
卫振林.新疆富蕴索尔库都克铜矿矿床地质特征[J].西北地质1992,13(1):37-42
吴淦国,薛春纪,温长顺,等.新疆阿尔泰南缘东段哈腊苏斑岩铜钼金矿床地质[J].矿床地质.2006,增刊:325~328
吴淦国、董连慧等.新疆北部主要斑岩铜矿带[M].北京:地质出版社,2008
吴志亮.阿尔泰南缘泥盆纪火山—沉积盆地形成机制探讨.有色金属矿产与勘查.1996,5(5):272-277
相鹏,张连昌等.新疆青河卡拉先格尔铜矿带Ⅱ-Ⅲ矿区含矿斑岩锆石年龄及地质意义.岩石学报,2009,(006):1474-1483
肖文交,韩春明,袁超,等.新疆北部石炭—二叠纪独特的构造—成矿作用:对古亚洲洋构造域南部大地构造演化的制约.岩石学报,2006,22(5):1062~1076.
肖序常,汤耀庆,李锦轶,等.试论新疆北部大地构造演化[M].新疆地质科学,第一辑.北京:地质出版社,1990:47~68
新疆维吾尔自治区地质局区域地质调查大队.1978.富蕴幅区域地质调查报告-区域地质(1:200000).新疆维吾尔自治区地质局
新疆维吾尔自治区地质局区域地质调查大队.1978.富蕴幅区域地质调查报告-区域矿产(1:200000).新疆维吾尔自治区地质局
薛春纪,赵战锋,吴淦国,等.中亚构造域多期迭加斑岩铜矿化:以阿尔泰东南缘哈腊苏铜矿床地质,地球化学和成岩成矿时代研究为例[J].地学前缘2010,17(2):53~82
学报,1993,67(1):52一62
闫升好,张招崇,王义天,等.新疆阿尔泰山南缘乔夏哈拉式铁铜矿床稀土元素地球化学特征及其地质意义[J].矿床地质.2005,24(1):25~33
杨炳滨,敬占国.新疆北部铜矿床模式探讨[J].新疆有色金属,1996,(3):6~11
杨富全,闰升好,屈文俊,等.新疆哈腊苏铜矿床Ⅰ号矿化带流体包裹体和碳氢氧同位素地球化学[J].地学前沿.2010,17(2):359~374
杨富全,吴海,韩金良.新疆东准噶尔金属矿床成矿系列及成矿规律[J].新疆地质.2001,(1):54~58
杨海波,高鹏,唐兴国,等.新疆富蕴县索尔库都克铜(钼)矿床地质特征及成因探讨[J].陕西地质.2007,25(2):11~18
杨眉.新疆阿尔泰地区哈腊苏铜矿床的成因矿物学研究.[研究生学位论文].北京:中国地质大学(北京),2006
杨文平,张招崇.阿尔泰铜矿带南缘希勒克特哈腊苏斑岩铜矿的发现及其意义.中国地质.(2005),32(001):107-114
应立娟.新疆乔夏哈拉铁铜金矿床地质、地球化学特征与成因研究.[研究生学位论文].北京:中国地质科学院,2007
游军.新疆富蕴县希勒库都克钼铜矿床地球化学与成矿模式研究:[研究生学位论文].桂林理工大学,2011
张华.新疆索尔库都克-哈腊苏矿集区矿床地质_地球化学特征与找矿模型研究:[研究生学位论文].昆明理工大学,2011
张玉泉,谢应雯.钾玄岩系列:藏东玉龙铜矿带含矿斑岩Sr, Nd, Pb同位素组成.地质科学,1998,33(3):359-366
赵一鸣,林文蔚.中国矽卡岩矿床基本地质特征.中国地质科学院院报,1986
赵战锋,薛春纪,张立武,等.新疆青河玉勒肯哈腊苏铜矿区酸性岩锆石U~Pb法定年及其地质意义[J].矿床地质.28(4):425~433
周肃,蔡红,谢才富.新疆北部索尔库都克铜钼矿床年代学研究[J].华南地质与矿产1996,4:52~56
周涛,刘悟辉,戴塔根,等.新疆富蕴县乔夏哈拉铜(金)矿床成因[J].物探与化探.2008,32(2):131~134