Genesis of the Wulong gold deposit,Liaoning Province,NE China:Constrains from noble gases,radiogenic and stable isotope studies

TheWulong lode deposit contains over 80 tonnes of gold with an average grade of 5.35 g/t.It is one of the largest deposits in Dandong City,Liaoning Province in northeast China.Previous studies on the deposit focused on its geological characteristics,geochemistry,fluid inclusions,and the timing of gold mineralization.However,controversy remains regarding the origin of the ore-forming fluids and metals,and the genesis of the gold deposit.This paper presents zircon UePb and pyrite RbeSr ages and S,Pb,He,and Ar isotopic results along with quartz H and O isotopic data for all litho-units associated with the deposit.Laser ablation inductively coupled mass spectrometry measurements yielded zircon UePb dates for samples of pre-mineralization rocks like granite porphyry dike,the Sanguliu granodiorite,fine-grained diorite,and syn-mineralization diorite,as well as post-mineralization dolerite,and lamprophyre;their emplacement ages are 126
1 Ma,124
1 Ma,123
1 Ma,120
1 Ma,119
2 Ma,and 115
2 Ma,respectively.The pyrite RbeSr isochron age is 119
1 Ma,indicating that both magmatism and mineralization occurred during the Early Cretaceous.The d18OH2O values of ore-forming hydrothermal fluids from the quartzepolymetallic sulfide vein stage vary from 4.8&to 6.5&,and the dDV-SMOW values are between67.7&and75.9&,indicating that the ore-forming fluids were primarily magmatic.The noble gas isotope compositions of fluid inclusions hosted in pyrite suggest that the ore-forming fluids were dominantly derived from crustal sources with minor mantle input.Sulfur isotopic values of pyrite vary between 0.2&and 3.5&,suggesting that S was derived from a homogeneous magmatic source or possibly from fluids derived from the crust.The Pb isotopic compositions of sulfides(207Pb/204Pb?15.51 e15.71,206Pb/204Pb?17.35e18.75,208Pb/204Pb?38.27e40.03)indicate that the Pb of the Wulong gold deposit is a mixture of crust and mantle components.Geochronological and geochemical data,together with the regional geological history,indicate that Early Cretaceous magmatism and mineralization of the Wulong gold deposit occurred during the rollback of the subducting Paleo-Pacific Plate,which resulted in lithospheric thinning and the destruction of the North China Craton(NCC),which indicates that the deposit is of magmaticehydrothermal origin.

Geochemistry of Ore Fluids and Rb-Sr Isotopic Dating for the Wulong Gold Deposit in Liaoning, China

On the basis of detailed geological studies of the Wulong gold deposit, three metallogenic stages can be identified. With quartz fluid inclusions as an object of study, the authors investigated phase characteristics, compositional variations, temperature and pressure changes, fluid evolution, Pb isotope tracing and Rb-Sr isotopic dating of fluid inclusions entrapped in the above three metallogenic stages. The results show that Na+ is decreased obviously with metallogenic evolution, while K+ and other cations and gas compositions (H2, CO, CH4 and CO2) are increased slightly, and that the temperature and salinity vary in a pulsating manner along with the metallogenic evolution. Inverse calculation of hydrogen and oxygen isotopes indicate that at the first metallogenic stage the fluids were magmatic water, at the second stage they were dominated by magmatic water with a minor amount of meteoric water involved, and at the third stage, i.e., the final stage of metallogenesis, the fluids were composed completely of meteoric water. Its Pb isotopic composition implicates that the ore lead has some affinities with the lead in the Sanguliu granite, but the linear array of the ore-lead isotopic data reflects a mixing source of two end members. It can be deduced that the ore-forming materials and magma were both derived mainly from the same magma source region at depths. The Rb-Sr isotopic ages of the fluid inclusions are 112.2±3.2 Ma, indicating that the Wulong gold deposit was formed during the Yanshanian period.

Simulation of rock mass balance of two typical altered rocks in Wulong gold deposit of Liaoning, China

Wulong gold deposit hosted in granite and fine-grained d io rite dikes, is a typical gold deposit of quartz vein type. Granite and fine-gra ined diorite dikes in the ore deposit were altered by metallogenic fluid. Based on the altered zoning, the samples of petrochemistry were collected and major an d trace elements were analyzed systematically. Calculation of rock mass balance shows that the major elements (SiO 2, K 2O, P 2O 5, Fe 2O 3) in the two ty pical altered rocks are clearly added into the altered system, and that trace el ements (V, Y, Zr, Ni, Co, Sr) assume an increasing and decreasing tendencies in the altered granite and altered diorite dike, respectively. The fluid/rock ratio s are 30.17-181.00 and 115.44-692.67 respectively for altered granite and alte red diorite dike, they have profoundly effects on metallogenesis.

辽东半岛五龙金矿外围电性特征及找矿意义

辽东五龙金矿经过80余年的开采,矿山资源储备严重下滑,后备资源不足问题日益突出,亟需查明矿区深部和外围矿产资源。通过在v163号脉西北和东南两侧以及100号断裂南侧开展瞬变电磁法测量工作,构建了相应的二维和三维地电模型,分析了矿区低阻异常特征;结合前人研究成果,推断出金矿成因类型和下一步找矿方向。研究结果表明:v163号脉西北方向P0剖面上低阻区是由包括163号脉西北段的细粒闪长岩脉群引起的,属于石英脉型成矿的可能性较大;100号断裂南侧三维地电模型中的低阻区域与大孤顶子金矿矿化点相对应,该低阻区向北侧深部规模增大,异常未封闭,表明该区域北侧深部具有良好的找矿前景,值得进一步开展研究工作;v163号脉东南方向的三维地电模型中,低阻异常值在数量级上明显低于前二者,推测为蚀变带引起,后经工程验证孔揭露,该区域纵向存在多层不连续的硅化蚀变岩,最大厚度为41m,蚀变类型有硅化、绢云母化、绿泥石化以及不同程度的黄铁矿化。研究表明,五龙金矿不仅存在石英脉型金矿体,还有蚀变岩型金矿体,后者可能是该矿区下一个找矿的主要方向。

Role of metasomatized mantle lithosphere in the formation of giant lode gold deposits:Insights from sulfur isotope and geochemistry of sulfides

The Wulong deposit is one of the largest quartz vein-type gold deposits with at least 80 tons of identified gold reserves in the eastern part of the Liaodong Peninsula.Gold orebodies are mainly hosted in the Late Jurassic gneissic two-mica granite and Early Cretaceous diorite dykes,and are structurally controlled by the NNE-and NW-trending faults.Gold mineralization mainly occurs as veins with lenticular shapes and is closely associated with sulfides and Bi minerals.Previous studies on the deposit mainly focused on its geological characteristics,fluid inclusions and the timing of gold mineralization.However,the extreme enrichment mechanism of gold,the geodynamic setting and ore source of the gold deposit remain equivocal.Here we present results from geochemical studies of pyrite and pyrrhotite at Wulong to address these issues.Pyrrhotite can be grouped into euhedral(Po1)and anhedral(Po2)varieties based on the textures.Four generations of pyrite were identified based on petrographic studies:Py1 is coarse-grained subhedral to euhedral crystal coexisting with milky quartz,and Au-depleted in composition;Py2 is represented by medium-grained,subhedral to anhedral pyrite coexisting with euhedral Po1,smoky quartz and minor chalcopyrite;Py3 occurs as fined-grained anhedral grains in the quartz-polymetallic sulfide veins;Py4 occurs as veinlets or aggregates in the quartz-calcite veins and contains the lowest Au concentrations.The time-resolved LA-ICP-MS ablation depth profiles of sulfides combined with detailed petrological observations indicate that gold mainly occurs either as invisible solid solution within the crystal lattice of sulfides,to some extent,or as small blebs of native gold and electrum.The close temporal and spatial relationships among native bismuth,native gold and Bi-Te-S minerals suggest that Bi-rich melts may have significantly sequestered gold from the hydrothermal fluids in the Wulong gold deposit.Sulfides from auriferous quartz veins have a restricted D33S range(-0.2‰to+0.2‰)and a mean d34S value of+1.25‰with a feature of the mass-dependent fractionation(MDF)of sulfur isotopes,implying that the ore-forming materials were potentially derived from the mantle lithosphere that was metasomatized and fertilized by subduction-related fluids released from slab during the Early Cretaceous.This study demonstrates the Bi-rich melts as significant gold scavengers in As-deficient ore-forming fluid,and highlights the fundamental role of the metasomatized and fertilized mantle lithosphere in the formation of giant lode gold deposits in the eastern North China Craton at ca.120 Ma.

辽东五龙金矿鸡心岭断裂的年代学约束及其对成矿潜力的指示

五龙金矿是辽东地区形成于早白垩世的代表性石英脉型金矿,与胶东地区“玲珑式”金矿相似。胶东地区早白垩世金矿受北东向断裂控制且规模宏大,五龙金矿已知矿体主要赋存于北西向和近南北向断裂内,其北东向断裂研究程度较低、成矿潜力尚不清楚。针对五龙矿区的鸡心岭断裂开展了地质调查,对侵位其中的岩脉和热液白云母进行定年,为断裂内构造-岩浆-热液活动提供年代学约束。调查发现,鸡心岭断裂整体为脆性变形,具有多期活动的特征,依次有煌斑岩、含白云母石英脉和闪长岩脉侵入其中。测年结果显示,煌斑岩的锆石^(206)Pb/^(238)U年龄加权平均值为132.1±1.7 Ma,热液白云母的40 Ar/39 Ar坪年龄为126.8±0.5 Ma,闪长岩的锆石^(206)Pb/^(238)U年龄加权平均值为112.9±1.4 Ma。年龄数据指示,鸡心岭断裂在132 Ma之前形成,在132~113 Ma之间经历了岩浆-热液活动,依次对应区域上的早白垩世初期北北西—南南东向挤压和早白垩世中期北西—南东向/北西西—南东东向伸展背景。从现有调查程度看,鸡心岭断裂较胶东地区北东向断裂具有序次低、规模小、构造和流体活动较弱的特征。辽东地区燕山期金矿找矿应注意关注更高序次的低角度断裂,五龙一带的北东向断裂找矿工作应优先评价断裂走向变化、深部由陡变缓的部位。

辽宁五龙金矿床地质特征及成矿流体地球化学性质

对五龙金矿床含金石英脉中发育的流体包裹体进行了系统的岩相学、显微测温及单个包裹体激光拉曼光谱成分分析,结果表明:含金石英脉中主要发育CO2±CH4、H2O-CO2±CH4及气液两相等3种类型的原生流体包裹体;H2O-CO2±CH4包裹体均一温度为287.8～382.5℃,盐度(w(NaCl))为0.42%～4.87%;气液两相包裹体均一温度为198.5～338.4℃,w(NaCl)为2.24%～6.88%;包裹体气相成分以CO2、CH4为主,且含量变化较大。综合分析认为,形成五龙金矿含金石英脉的流体系来源于岩浆的中温、低盐度含CO2流体,在其运移汇集过程中经与围岩反应导致CH4不断加入,而最终演化成为富含CO2、CH4等挥发分的含矿热液。

论金矿床成矿年代的确定——以丹东地区成岩成矿Rb-Sr、U-Pb同位素年代为例

丹东地区是中国重要的金矿集中区,到目前为止还没有较准确的成岩成矿年代数据报道。本文采用Rb-Sr等时线法和单颗粒锆石U-Pb法分别测出了丹东三股流花岗岩成岩年龄为131±5Ma和129±3Ma,因此三股流花岗岩综合同位素年龄定为130 Ma。五龙金矿主成矿阶段石英流体包裹体Rb-Sr等时线年龄为120±3Ma。这一组年龄数据理顺了该地区构造—岩浆—成矿的时序关系,对中国东部金矿成矿对比研究提供了有效的年龄数据。Sr、Nd同位素的示踪结果表明三股流花岗岩的成岩物质与下地壳物质有关。三股流花岗岩和矿体(含金石英脉)相似的Sr同位素初始比值,说明成矿和成岩物质可能来自深部同一岩浆源区。

辽宁五龙金矿主成矿阶段成矿持续时限

在矿床地质研究的基础上,将五龙金矿的内生成矿作用从早到晚划分为5个成矿阶段,分别为纯石英阶段(Ⅰ)、黄铁矿—石英阶段(Ⅱ)、黄铁矿—辉铋矿—石英阶段(Ⅲ)、多金属硫化物—灰色石英阶段(Ⅳ)、碳酸盐阶段(Ⅴ)。对其中具有工业矿化的第二(Ⅱ)和第四(Ⅳ)主成矿阶段进行了石英流体包裹体Rb-Sr法测年,上述两个阶段年龄值分别为120±3Ma和112±1Ma,说明一个中、大型金矿的形成,其主成矿阶段可能要持续8Ma左右。Sr同位素的初始值(Ⅱ:I_(Sr)=0.71541±0.00008,Ⅳ:I_(sr)=0.71603±0.00006)表明,不同成矿阶段的成矿物质来自同一源区,且以壳源为主。

辽东五龙-四道沟金矿集区花岗杂岩SHRIMP U-Pb年龄、地球化学特征及地质意义

辽东五龙?四道沟金矿集区位于华北地台东北部营口?宽甸古隆起南部,鸭绿江断裂带西侧,为中国北方重要的金矿集中区之一。金矿化主要发生在早白垩世三股流二长花岗岩?花岗闪长岩岩体外围的晚侏罗世五龙二长花岗岩岩体内部。五龙岩体主体为含二云母二长花岗岩,获得锆石SHRIMP U-Pb年龄为165.0±3.3 Ma和157.1±1.8 Ma;以高硅(SiO_2=72.61%~74.45%)、中铝(Al_2O_3=13.46%~14.74%)、高钾(K_2O=3.99%~6.03%)、高镁(MgO=0.22%~0.28%)、A/CNK值为1.04~1.14和高DI(89.54~92.43)为特征,呈现高分异高钾钙碱性I型花岗岩特征;稀土元素总量较低,轻重稀土元素之间的分馏强烈,Eu负到正异常,亏损Nb、Ta、P、Ti、Y等高场强元素,富集Rb、Ba、K、Sr等大离子亲石元素;ε_(Hf)(t)值为-35.66^-25.26,单阶段Hf模式年龄t_(DM)为1805~2238 Ma,两阶段Hf模式年龄t^C_(DM)为2804~3453 Ma。三股流岩体主要由角闪黑云母二长花岗岩和花岗闪长岩组成,锆石SHRIMP U-Pb年龄为122.7±1.6 Ma和123.3±1.4 Ma;二长花岗岩以高硅(SiO_2=72.00%~73.50%),花岗闪长岩以低硅(SiO_2=67.09%~69.26%)为特征。两种岩石都具有高铝(Al_2O_3=14.23%~15.26%)、高钾(K_2O=3.77%~4.86%)、高镁(MgO=0.51%~1.74%)和A/CNK值为0.95~1.11的特征,呈现高钾钙碱性I型花岗岩特征;稀土元素总量较高,轻重稀土元素之间的分馏强烈,Eu负异常明显,亏损Nb、Ta、P、Ti等高场强元素,富集Rb、K等大离子亲石元素;ε_(Hf)(t)值为-25.31^-20.86,单阶段Hf模式年龄t_(DM)为1590~1766 Ma,两阶段Hf模式年龄t^C_(DM)为2510~2781 Ma。岩石学、地球化学和年代学研究显示,矿集区存在两期岩浆活动,即早白垩世和中?晚侏罗世,其中五龙岩体为金矿体的形成提供了容矿场所,三股流岩体则直接影响区内一期金矿化作用。三股流和五龙岩体均形成于活动大陆边缘大地构造环境,其中三股流岩体可能形成于弧后伸展环境,而五龙岩体可能形成于陆壳加厚的背景。综合研究表明,研究区金矿床成岩、成矿动力学背景属于中生代大陆边缘岩浆弧环境,经历了挤压到伸展的构造背景,古太平洋板块向亚洲大陆俯冲过程中板片断离作用可能是诱发与成矿有关岩浆活动的动力学因素。

辽东半岛五龙金矿床航空电磁场特征及找矿意义

五龙金矿床位于五龙矿集区中部,是矿集区内规模大的石英脉型金矿。为查明矿集区深部构造及指导深部找矿预测,需结合深部地球物理资料综合分析研究。本文基于五龙矿集区航空探测任务,并结合其成矿地质特征,研究了五龙金矿在平面、剖面、空间等维度的航磁、航空TEM、航空大地电磁特征及其找矿意义。研究表明:平面上矿体位于鸡心沟断裂东侧负磁背景场中NE与近SN、NW向弱磁异常带交汇处,中等-强剩余磁异常带的转折端、梯度带,视电阻率低阻区及中低阻梯度带,深部存在团块状视磁化率高值区;剖面上矿体位于"左低右高,上高下低"的视电阻率梯度带上,呈中低阻、低阻特征及强磁场区至弱磁场区的视磁化率梯度带上,呈浅部"上高下低"、深部"下高上低"的中等-弱磁特征;空间上矿体位于鸡心沟断裂东侧的断裂构造低阻带与岩体高阻异常带的梯度带。五龙金矿地质地球物理找矿标志的建立和深部高视磁化率异常区的存在,表明矿区深部1000~2000m空间与五龙金矿体视电阻率、视磁化率特征相似的地段,仍具有较好找矿潜力。

五龙金矿脉岩对金矿体的制约机制

从五龙金矿矿体与各类脉岩的同源性入手,结合矿区成矿构造的发生、发展及演变规律,系统阐述了脉岩与金矿体的相互制约关系及成生机理,总结了各类脉岩对金矿体的控制规律。

辽宁省五龙金矿床成岩成矿年代学及同位素地球化学特征

五龙矿床是中国辽东地区最大的石英脉型金矿床,赋存于中生代黑云母花岗岩中。金矿体多呈脉状产出,与中生代细粒闪长岩有成因联系。文章采用LA-ICP-MS锆石U-Pb定年方法,获得矿区内黑云母花岗岩、花岗斑岩、细粒闪长岩的结晶年龄分别为(155.4±0.9)Ma、(154.2±1.2)Ma、(123.1±0.9)Ma。文章选取金矿石中绢云母样品开展了Ar-Ar定年,获得Ar-Ar坪年龄为(122.8±0.8)Ma(MSWD=0.09)。金属硫化物的δ34S值介于+1.1‰^+2.4‰,平均值为+1.8‰,表明硫主要来自深源岩浆。黄铁矿中流体包裹体3He/4He比值为0.36~0.65Ra,平均值为0.50 Ra,表明地幔流体参与成矿作用的比例为3.9%~7.2%,地壳流体占主导地位。五龙金矿的成矿时代为早白垩世,形成于华北克拉通东部的构造体制转折和大规模岩石圈减薄背景。

辽东半岛五龙金矿成矿系统新认识:来自外围热液角砾岩型铅锌矿化的指示

五龙金矿是辽东半岛形成于早白垩世的代表性石英脉型金矿。本文报道了在五龙矿区边部新发现的热液角砾岩型铅锌矿化及其密切相关的闪长岩的特征,这对进一步认识五龙成矿系统提供了新的指示。热液角砾岩属于岩浆热液爆破角砾岩,铅锌矿化分布在角砾岩石英胶结物和石英脉内。角砾岩下伏和旁侧的闪长岩内可见梳状结构和晶洞结构,也可见蚀变和矿化发育,指示闪长岩与角砾岩具有密切的成因联系。角砾岩的石英胶结物和含矿石英脉的δ^(18)O_(H2O)在-2.7‰~0.1‰之间、δD_(V-SMOW)在-71.5‰~-85.9‰之间,指示矿化流体为岩浆水和大气降水混合成因,与五龙金矿晚阶段成矿流体性质基本相同。闪长岩的锆石U-Pb测年指示其结晶年龄为120.9±1.3Ma,与五龙金矿成矿时代近于一致。闪长岩与五龙成矿系统具有密切的时间、空间和成因联系,可以作为"桥梁"连接岩浆作用和成矿作用。闪长岩属于高钾钙碱性系列,具有轻稀土富集、无铕异常的稀土配分模式,以及富集大离子亲石元素(Rb、Ba)而亏损高场强元素(Nb、Zr、Hf)的微量元素特征,其(^(87)Sr/^(86)Sr)t值在0.711~0.712之间、εHf(t)值在-8.2~-9.0之间、εHf(t)值在-21.2~-22.8之间,推测其主要为富集岩石圈地幔部分熔融的产物,认为富含相容元素的幔源岩浆源区是金成矿的重要物质基础。五龙矿床石英脉型金矿与热液角砾岩型铅锌矿化属于同一岩浆热液系统的不同位置的表现样式,预测整个成矿系统深部可能发育有赋存于岩体(株)内外接触带的席状石英脉型矿化和浸染状矿化。

辽宁五龙金矿黄铁矿标型特征研究及深部找矿预测

辽宁五龙金矿位于营口-宽甸古隆起的南部,鸭绿江成矿带西北侧.该矿的主要载金矿物为黄铁矿,针对m2-3,m2-6和m4-2矿脉黄铁矿标型特征的系统研究表明:其黄铁矿的S/Fe为1.90~1.98,属亏硫型;在-454^-609m标高范围内ω(Fe)/ω(S+As)为0.888~0.908,微量元素(As+Sb+Se+Te)组合、(Ag+Cu+Pb+Zn)组合和(Co+Ni+Ti+Cr)组合在-530 m标高以下具有首尾晕显著叠加同步增加的变化;成矿延伸指数(γ)变化为29.5%~64.5%,呈现波动式变化,且在-609 m标高出现明显折返趋势,表明-454^-609 m标高范围属于矿床的中上部位;此外,黄铁矿出现率平均为81.28%,垂向上呈"S"型波动,-609 m标高P导型出现率在80%以上,并有下延增大趋势,同样说明在-609 m标高下部仍具较好找矿潜力.矿石中微量元素Ag,Cu,As,Pb,Bi高值区相互叠加,在南部-609 m标高处见有两处高值叠加区向下尚未闭合,暗示有向下延伸的趋势.综合认为南部矿体向下找矿前景更大.

辽东五龙金矿围岩片麻状花岗岩的侵位和变形时代:SHRIMP U-Pb年代学制约

为了确定五龙金矿围岩的侵位和变形时代,进一步探讨辽东地区晚中生代构造体制转折时限,采用岩相学观察和锆石SHRIMP U-Pb定年技术,对辽东五龙大型金矿的围岩五龙岩体、侵入五龙岩体中的花岗斑岩脉和三股流岩体进行了研究。结果表明,五龙岩体具弱片麻状、片麻状构造,花岗斑岩脉也发生了变形作用,三股流岩体未发生变形作用。五龙岩体SHRIMP UPb年龄为(159. 2±1. 9) Ma和(160. 0±1. 4) Ma,花岗斑岩SHRIMP U-Pb年龄为(132. 14±0. 85) Ma,三股流岩体SHRIMP U-Pb年龄为122~124 Ma。辽东五龙岩体经历的推覆、挤压事件止于132~124 Ma。辽东地区晚侏罗世的推覆、挤压事件与古太平洋板块向欧亚大陆俯冲作用关系密切,五龙金矿的成矿大地构造背景亦与此次俯冲有关。

辽宁五龙金矿床成因与成矿模式探讨

辽宁五龙金矿床是以断裂控矿为主的大型金矿床 ,其导矿构造、配矿构造、容矿构造均为不同规模的断裂 ,构成一个断裂构造成矿体系。笔者以现场地质事实为依据 ,通过细致的研究认为 ,该矿床属于大型高中温岩浆热液金矿床 ,具有明显的 2个不同成矿特征的成矿梯段 ,并建立了该矿区的成矿模式 ,为今后地质探矿提供了理论依据。

辽宁五龙金矿黄铁矿标型特征

文章论述了五龙金矿床黄铁矿的分布特征、化学成分特征、晶体结构特征、晶体形态特征及热电性特征 ,为矿床的成因研究及深部远景评价提供矿物学依据。

辽宁五龙地区中生代火成岩成因及其找矿意义

辽宁五龙金矿是辽东地区大型岩浆热液型矿床之一,成矿作用主要与中生代火成岩有关,为了进一步理清五龙地区中生代火成岩成因,笔者等对五龙金矿区大量花岗斑岩脉、闪长岩脉、三股流岩体和其中的各类脉岩进行了单颗粒锆石LA-ICPMS U-Pb测年和岩石主、微量元素地球化学研究。结果表明,五龙地区岩浆岩形成时代主要有晚侏罗世和早白垩世,矿区内近南北向展布的花岗斑岩脉形成于晚侏罗世(154.3±0.9~155.6±1.1 Ma),指示矿区在晚侏罗世受到区域最大主应力方向为近南北向;三股流岩体成岩最新年龄(116.8±0.8~117.3±0.7 Ma)基本位于前人报道的年龄范围(111~129 Ma);地球化学数据表明各类岩浆岩属于高钾钙碱性—钾玄岩系列,具有相同源区特征,形成于活动大陆边缘俯冲伸展环境下的弧岩浆,并且具有壳幔混合及进一步演化特征;结合不同深度标高成矿元素丰度特征,指示闪长岩与成矿作用密切相关,并且越往深部成矿潜力越大,对该地区找矿预测具有重要指导意义。

流体-岩石相互作用——流体包裹体及蚀变岩某些成分变异的特征

以五龙金矿为例 ,在同一剖面上采集了不同成矿阶段的含金石英脉和近矿蚀变岩样品 ,根据矿物流体包裹体和蚀变岩成分的测定结果 ,系统地讨论了不同成矿阶段流体包裹体成分 (K+ 、Na+ 、Ca+ 、Mg+ 、CO2 等 )和不同蚀变岩成分 (K2 O、Na2 O、CaO、MgO、CO2 等 )的变化规律 ,结果表明 ,从第二成矿阶段到第四成矿阶段 ,流体中的Na+ 、Ca+ 、Mg+ 含量有明显的升高的趋势 ,K+ 含量降低 ,蚀变岩中 ,K2 O由远离矿体的原岩到靠近矿体的蚀变岩其含量增加 ,而Na2 O、CaO、MgO逐渐降低 ,这种流体包裹体和蚀变岩中的某些相应成分的变化特征 ,应该是流体 岩石相互作用的结果。