首页 | 本学科首页   官方微博 | 高级检索  
相似文献
 共查询到20条相似文献,搜索用时 31 毫秒
1.
富氟花岗岩浆液态不混溶作用及其成岩成矿效应   总被引:4,自引:0,他引:4  
除了结晶分异模式外,富氟花岗岩浆液态不混溶作用也是伟晶岩成岩成矿的重要机制。熔体包裹体和实验研究表明,富氟花岗岩浆的液态不混溶会形成富挥发份的贫硅熔体和与其共轭的富硅酸盐熔体。花岗岩中的异离体型伟晶岩和贯入状脉型伟晶岩,挥发份、助熔剂等元素和同位素组成在不混溶相间的突变性是该类不混溶作用的主要标志。富氟花岗岩浆不混溶作用不但可以解释伟晶岩的特征性矿物分带,对传统的伟晶岩成岩理论提出了挑战;还对稀有金属有高度富集作用,这主要归功于F、B、P等挥发份对稀有金属元素的亲和力。然而,目前该类不混溶作用成矿效应的研究还比较薄弱,这主要要归因于没有理想的地质对象。甲基卡矿床是亚洲最大的固体锂矿床,初步研究表明该矿床发生了富氟花岗岩浆液态不混溶作用,是研究氟花岗岩浆液态不混溶过程中稀有金属的分配、迁移、富集规律和机制的理想对象。  相似文献   

2.
花岗岩浆的分异过程是制约稀有金属成矿的重要因素,造山过程中多期次岩浆活动的叠加作用易导致伟晶岩熔体的大量聚集成矿.华南幕阜山复式花岗岩体由多期次多阶段的花岗岩侵入体构成,在区域持续而频繁的多期次岩浆活动作用下形成了华南地区重要的稀有金属矿集区.对幕阜山复式花岗岩体边部的断峰山含铌钽铁矿白云母钠长石伟晶岩以及岩体中部大兴含绿柱石白云母钠长石伟晶岩进行了40Ar/39Ar同位素定年研究,其白云母40Ar/39Ar坪年龄分别为127.7±0.9 Ma和130.5±0.9 Ma.结合野外观察基础及区域已有的同位素年代学数据,推断出在燕山早期至中期该地区经历了多期岩浆演化,且持续时间较长,而伟晶岩的稀有金属矿化发生在岩浆活动末期的白垩纪,体现了区域岩浆多期次的分异演化作用导致稀有金属逐渐富集成矿的过程.这些地质现象说明,幕阜山区域在印支期经历了广泛的陆陆碰撞造山作用,进入燕山期后构造背景开始由陆内碰撞挤压向伸展减薄转变,在岩石圈伸展过程中经由玄武质岩浆底侵作用的影响,下地壳发生熔融,多期次岩浆活动导致了最终的稀有金属成矿.   相似文献   

3.
川西甲基卡二云母花岗岩和伟晶岩内发育大量原生熔体包裹体和富晶体流体包裹体。为了查明甲基卡成矿熔体、流体性质与演化特征,运用激光拉曼光谱和扫描电镜鉴定了甲基卡花岗伟晶岩型锂矿床中二云母花岗岩及伟晶岩脉不同结构带内的原生熔体、流体包裹体的固相物质。分析结果表明,甲基卡二云母花岗岩石英内熔体包裹体的矿物组合为磷灰石+白云母、白云母+钠长石、白云母+石墨;伟晶岩绿柱石内富晶体流体包裹体的矿物组合主要为刚玉、富铝铁硅酸盐+刚玉+锂辉石、锂辉石+石英+锂绿泥石;伟晶岩锂辉石内富晶体流体包裹体的矿物组合主要为磷灰石、锡石、磁铁矿、石英+钠长石+锂绿泥石、萤石、富钙镁硅酸盐+富铁铝硅酸盐+富铁硅酸盐+石英;花岗岩浆熔体与伟晶岩浆熔体(流体)具有一定的差异,成矿熔体、流体成分总体呈现出碱质元素(Na、Si、Al)、挥发分(F、P、CO_2)含量增高及基性元素(Fe、Mg、Ca)降低的特征;包裹体中子矿物与主矿物的化学成分具有一定的差别,揭示出伟晶岩熔体(流体)存在局部岩浆分异作用,具不混溶性及非均匀性。因此认为,伟晶岩熔浆(流体)为岩浆分异与岩浆不混溶共同作用的产物,挥发分含量的增高(F、P、CO_2)使伟晶岩能够与稀有金属组成各类络合物或化合物,这对于稀有金属成矿起到了至关重要的作用。  相似文献   

4.
甲基卡稀有金属矿床是我国目前规模最大的伟晶岩型稀有金属矿床,308号伟晶岩脉为其中出露面积最大的伟晶岩脉,由于勘查及研究程度较低,其形成时代及成矿机制尚不明确.通过LA-MC-ICP-MS锡石U-Pb测年,首次获得产于308号伟晶岩脉中间带含锂辉石伟晶岩的年龄为210.9±4.6 Ma,表明其形成于印支晚期,为印支旋回强烈造山运动之后相对稳定阶段的产物.元素地球化学特征表明,308号伟晶岩脉中边缘带无矿细晶岩与矿床内二云母花岗岩具有相似的过铝质S型花岗岩特征,二者具有同源性,并认为其成矿机制为:花岗质岩浆在中浅成、偏还原的环境上升侵位,由细晶岩至伟晶岩演化过程中,相对分异程度升高,熔体相和富挥发分的流体相之间发生强烈碱交代作用,并在一定的结构分带中发生大规模稀有金属矿化.   相似文献   

5.
内蒙古赵井沟铌钽多金属矿是近年来取得较大找矿进展的大型稀有金属矿床,初步探明铌钽氧化物储量超过8200吨,前人对其矿床地质特征已有初步研究,但其成矿时代尚未精确厘定。本文以赵井沟铌钽多金属矿区内天河石花岗伟晶岩脉中的白云母为研究对象,利用~(40)Ar-~(39)Ar同位素年代学方法,以确定其成矿时代。研究发现矿区内铌钽矿化主要赋存在碱长花岗岩、碱长花岗细晶岩、云英岩和天河石花岗伟晶岩中,且铌钽矿物与白云母同时形成,有重要的共生关系,故本次研究获得的白云母坪年龄123.57±0.66 Ma和等时线年龄124.0±2.0 Ma具有地质意义,可代表成矿年龄。这一成果表明赵井沟铌钽多金属矿床形成于燕山晚期(至少延续至早白垩世),与前人获得的锆石年龄有较大差异,这对分析其矿床成因有重要意义。同时,结合区域地质资料,本文认为华北地台北缘内蒙古地轴中部在燕山运动的晚期存在一次重要的稀有金属成矿事件。  相似文献   

6.
湖南瑶岗仙复式花岗岩岩石成因及与钨成矿关系   总被引:6,自引:4,他引:2  
瑶岗仙复式花岗岩体位于南岭复杂构造带北端,赋存着大型瑶岗仙钨矿床。瑶岗仙花岗岩高硅、富碱,属于高钾钙碱性系列,为分异的S型花岗岩。系统的单颗粒锆石LA-ICP-MS U-Pb同位素年龄测定表明,瑶岗仙复式花岗岩体有多期成岩事件,分别为:170Ma形成的粗粒二云母花岗岩,162Ma形成的中细粒二云母花岗岩,157Ma形成的细粒白云母花岗岩,表明花岗质岩浆经历了多期脉动侵位。元素地球化学及Sr-Nd同位素特征表明,瑶岗仙花岗岩成岩物质来源于古元古代的泥质岩。瑶岗仙花岗岩成岩年龄为170~157Ma,处于燕山期陆内伸展-减薄的构造环境。瑶岗仙花岗岩的成岩事件与钨矿床成矿事件在时空上高度吻合,花岗岩岩浆经历了高度分离结晶并产生富挥发分的流体,表明花岗岩可能为岩浆期后热液阶段成矿作用提供了原始流体和物质来源。  相似文献   

7.
扎乌龙-草陇锂矿床位于松潘-甘孜造山带中西部,为典型的花岗伟晶岩型稀有金属矿床.前人基于矿区花岗岩和伟晶岩紧密的时空及成因关系,认为伟晶岩与白云母花岗岩同源且成矿与花岗质岩浆的分异相关.然而,岩浆分异演化过程中熔体的信息记录及其何种地质过程对成矿起主导作用,仍缺乏有效制约.本文对矿区花岗质岩浆来源及其演化过程开展了研究...  相似文献   

8.
陕西陈家庄铀矿床是我国北秦岭商州—丹凤伟晶岩型铀矿集区中一个重要的矿床,铀矿体均产于加里东期花岗岩体周边花岗伟晶岩脉与围岩(秦岭群变质杂岩)的接触部位。本文对矿区花岗岩体、花岗伟晶岩脉开展了详细的岩石学、岩石地球化学、锆石U-Pb年代学研究,进而对其成因、成岩构造环境和铀矿化机理进行了探讨。LA-ICP-MS锆石U-Pb年代学研究表明,黄龙庙黑云母花岗岩体,陈家庄二长花岗岩体和非矿、贫矿、富矿花岗伟晶岩脉的成岩年龄分别为(446±3) Ma、(419±2) Ma、(417±3) Ma、(414±4) Ma和(416±3) Ma。地球化学分析显示:黄龙庙黑云母花岗岩体具有Ⅰ型花岗岩、埃达克质岩特征,源自加厚下地壳的部分熔融,形成于块体碰撞构造环境;陈家庄二长花岗岩体也具有I型花岗岩特征,但源区深度略浅,形成于碰撞后的减压环境。花岗伟晶岩脉与陈家庄二长花岗岩体近于同时形成,且具有亲缘性。铀矿物及富铀黑云母均产于花岗伟晶岩脉中。对比研究揭示,非矿、贫矿、富矿花岗伟晶岩脉地球化学特征和铀赋存状况的差异由同化混染作用程度高低所致。在花岗伟晶岩脉与秦岭群变质杂岩的接触部位,同化混染作用较弱的部位形成的二云母花岗伟晶岩脉仅具有弱的铀富集,同化混染作用较强的部位所形成的富石英、黑云母花岗伟晶岩脉则高度富集铀且构成铀矿体。综合研究表明,花岗伟晶岩脉成岩期后的同化混染作用是铀富集成矿的主导因素。  相似文献   

9.
The Koktokay No. 3 pegmatite is the largest Li–Be–Nb–Ta–Cs pegmatitic rare‐metal deposit of the Chinese Altai orogenic belt, and is famous for its concentric ring zonation pattern (nine internal zones). However, the formation age and evolution time span have been controversial. Here, we present the results of LA‐ICP–MS zircon U–Pb dating and muscovite 40Ar–39Ar dating. Four groups of zircon U–Pb ages (~210 Ma, ~193–198 Ma, ~186–187 Ma and ~172 Ma) for Zones II, V, VI, VII, and VIII, and a weighed mean 206Pb/238U age of 965 ± 11 Ma for Zone IV are identified. Also, Zones II, IV, and VI have muscovite 40Ar–39Ar plateau ages of 179.7 ± 1.1 Ma, 182.1 ± 1.0 Ma, and 181.8 ± 1.1 Ma, respectively. Considering previous U–Pb age studies (Zones I, V, and VII), the ages of emplacement, Li mineralization peak, hydrothermal stage of the No. 3 pegmatite are in ranges of 193–198 Ma, 184–187 Ma and 172–175 Ma, with weighted mean 206Pb–238U ages of 194.8 ± 2.3 Ma, 186.6 ± 1.3 Ma and 173.1 ± 3.9 Ma, respectively. The No. 3 pegmatite formed in the early Jurassic. The results of xenocrysts suggest that there is another pegmatite forming event of around 210 Ma in the mining district and the old zircon U–Pb ages imply that Neoproterozoic crustal rocks pertain to sources of the No. 3 pegmatite. Including the previous muscovite 40Ar–39Ar age studies (Zones I and V), a cooling age range of 177–182 Ma is considered as the time of hydrothermal stage and end of formation. The evolution process of the No. 3 pegmatite lasted 16 Ma. Therein, the magmatic stage continued for 9–11 Myr and the magmatic–hydrothermal transition and hydrothermal stages were sustained at 5–7 Ma. These time spans are long because of huge scale, cupola shape, large formation depth, and complex internal zoning patterns and formation processes. Considering some pegmatite dikes in the Chinese Altai, there is an early Jurassic pegmatite forming event.  相似文献   

10.
它温查汉西铁多金属矿床是东昆仑祁漫塔格成矿带新发现的又一典型矽卡岩型矿床。利用LA-ICP-MS锆石U-Pb定年方法,获得矿区主要成矿岩体花岗闪长斑岩的成岩年龄为236.0±2.3Ma,该结果与前人利用~(40)Ar-~(39)Ar法获得的矽卡岩型磁铁矿矿石中白云母229.9±3.5Ma的等时线年龄一致。花岗闪长斑岩为过铝质高钾钙碱性系列,成因类型属于Ⅰ型;微量元素配分型式表现为轻稀土元素和高场强元素富集、重稀土元素和大离子亲石元素亏损、中等负Eu异常的特征。花岗闪长斑岩形成于晚古生代—早中生代构造-岩浆旋回的碰撞-后碰撞阶段,与区域上大规模的幔源岩浆底侵及其与壳源岩浆的混合作用有关。  相似文献   

11.
The Yaogangxian deposit in the central Nanling region, South China consists of vein-type ore bodies hosted in Cambrian to Jurassic strata and Mesozoic granitic intrusions. Wolframite and molybdenite are the dominant ore minerals intergrown with gangue minerals of quartz, feldspar, phlogopite, and muscovite. We have carried out molybdenite Re–Os and phlogopite and muscovite 40Ar/39Ar dating to better understand the timing and genesis of mineralization. Re–Os dating of eight molybdenite samples yielded model ages ranging from 152.0±3.5 to 161.1±4.5 Ma, with an average of 156.0 Ma. The Re–Os analyses give a well-defined 187Re/187Os isochron with an age of 154.9±2.6 Ma (MSWD=2.4). Hydrothermal phlogopite and muscovite display extremely flat 40Ar/39Ar age spectra. Phlogopite yields a 40Ar/39Ar plateau age of 153.0±1.1 Ma, whereas muscovite yields a plateau age of 155.1±1.1 Ma. Both 40Ar/39Ar ages are in good agreement with the Re–Os ages, placing the timing of tungsten mineralization at about 154 Ma. This age is consistent with the field relationships. Our new data, when combined with published geochronological results from other major deposits in this region, suggest that large scale W–Sn mineralization occurred throughout the central Nanling region in the Late Jurassic.  相似文献   

12.
<正>Thus far,our understanding of the emplacement of Xuebaoding granite and the occurrence and evolution of the Songpan-Garze Orogenic Belt has been complicated by differing age spectra results.Therefore,in this study,the ~(40)Ar/~(39)Ar and sensitive high resolution ion micro-probe(SHRIMP) U-Pb dating methods were both used and the results compared,particularly with respect to dating data for Pankou and Pukouling granites from Xuebaoding,to establish ages that are close to the real emplacements.The results of SHRIMP U-Pb dating for zircon showed a high amount of U,but a very low value for Th/U.The high U amount,coupled with characteristics of inclusions in zircons,indicates that Xuebaoding granites are not suitable for U-Pb dating.Therefore,muscovite in the same granite samples was selected for ~(40)Ar/~(39)Ar dating.The ~(40)Ar/~(39)Ar age spectrum obtained on bulk muscovite from Pukouling granite in the Xuebaoding,gave a plateau age of 200.1±1.2 Ma and an inverse isochron age of 200.6±1.2 Ma.The ~(40)Ar/~(39)Ar age spectrum obtained on bulk muscovite from Pankou granite in the Xuebaoding gave another plateau age of 193.4±1.1 Ma and an inverse isochron age of 193.7±1.1 Ma. The ~(40)Ar/~(36)Ar intercept of 277.0±23.4(2σ) was very close to the air ratio,indicating that no apparent excess argon contamination was present.These age dating spectra indicate that both granites were emplaced at 200.6±1.3 Ma and 193.7±1.1 Ma,respectively.Through comparison of both dating methods and their results,we can conclude that it is feasible that the muscovite in the granite bearing high U could be used for ~(40)Ar/~(39)Ar dating without extra Ar.Based on this evidence,as well as the geological characteristics of the Xuebaoding W-Sn-Be deposit and petrology of granites,it can be concluded that the material origin of the Xuebaoding W-Sn-Be deposit might partially originate from the Xuebaoding granite group emplacement at about 200 Ma.Moreover,compared with other granites and deposits distributed in various positions in the Songpan-Garze Orogenic Belt,the Xuebaoding emplacement ages further show that the main rare metal deposits and granites in peripheral regions occurred earlier than those in the inner Songpan-Garze.Therefore,~(40)Ar/~(39)Ar dating of Xuebaoding granite will lay a solid foundation for studying the occurrence and evolution of granite and rare earth element deposits in the Songpan-Garze Orogenic Belt.  相似文献   

13.
云南个旧是全球最大的锡铜多金属矿区,主要成矿作用是与燕山期花岗岩密切相关的岩浆-热液体系。矿区内铜矿的主要矿床类型为变玄武岩型层状铜矿和接触带型铜矿。赋存于花岗岩体的凹陷部位,接触带型铜矿体和氧化型矿体的精确年龄尚未有报道。以老厂矿田内与铜矿体同期的等粒花岗岩脉中的黑云母和与氧化矿同时形成的白云母作为研究对象,利用常规~(40)Ar/~(39)Ar同位素定年方法,获得了黑云母和白云母的~(40)Ar/~(39)Ar坪年龄分别为82.47±0.49Ma和76.17±0.42Ma,相应的正等时线年龄为82.38±0.48Ma和76.07±0.66Ma,反等时线年龄为82.38±0.49Ma和76.07±0.73Ma。结合野外地质接触关系和矿区内其他年代学结果认为,黑云母的~(40)Ar/~(39)Ar年龄82.38±0.48Ma可以代表接触带型铜矿体的形成年龄,也揭示了新山花岗岩体形成后的快速冷却作用过程;白云母的~(40)Ar/~(39)Ar年龄76.07±0.73Ma指示了氧化型矿体的形成年龄,也记录了矿区内与甲介山同期的南北向断裂的晚期活动时限。该年龄与个旧锡铜多金属矿床的成矿时代一致。  相似文献   

14.
湖南仁里稀有金属矿田是中国近年来新发现的一处重要的花岗伟晶岩型铌、钽、锂等稀有金属矿产地,文章针对矿田含锂伟晶岩地球化学特征、成矿时代及其与花岗岩的关系,选取传梓源锂铌钽矿床内规模最大的206号锂辉石伟晶岩脉开展地球化学和白云母Ar-Ar定年工作,并与区内其他伟晶岩、花岗岩的地球化学特征、成岩时代对比分析.传梓源206号锂辉石伟晶岩属高分异稀有金属伟晶岩,形成时代为(135.4±1.4)Ma,岩石地球化学表现为高硅、高铝、低钙、相对富碱、钙碱性及过铝质特征;稀土元素总量很低,以轻稀土元素为主;微量元素富集Cs、Rb、U、Ta、Nb、Zr、Hf,相对亏损Ba、Ti,Zr/Hf、Nb/Ta比值低且集中.幕阜山地区稀有金属成矿可分为2期:第1期稀有金属成矿时代约145 Ma,与燕山早期岩浆活动有关;第2期稀有金属成矿时代135~125 Ma,为主成矿期,该期稀有金属伟晶岩与燕山晚期的二云母二长花岗岩存在成因联系,两者为同源岩浆连续结晶分异过程中不同阶段的产物.稀有金属富集成矿经历了岩浆-热液两阶段作用,Be、Nb、Ta、Li、Rb、Cs等稀有元素的富集多发生于岩浆结晶分异晚期,热液作用使Ta、Li、Rb、Cs再次富集.  相似文献   

15.
良源铌钽铷钨矿床位于南岭东西向构造岩浆带与武夷山北东向构造带交汇部位.良源铌钽铷钨矿床是粤北地区近年在石英型钨矿、云英岩型铌钽铷钨矿和花岗岩型铌钽铷多金属矿勘查评价取得最重要突破矿区,新发现铌钽铷钨矿体4条,共、伴生Nb2O5资源量3425.72吨,平均品位0.0108%;Ta2O5资源量1428.99吨,平均品位0....  相似文献   

16.
马厂箐矿集区铜、钼、金矿化之间的关系对于认识该矿床的成矿作用过程及地质勘查具有重要意义。利用40Ar-39Ar同位素定年方法对乱硐山矿段夕卡岩型铜钼金矿化和人头箐矿段蚀变岩型金矿石中热液白云母进行同位素定年,得到夕卡岩化矿石中白云母样品(B119)40Ar-39Ar坪年龄为35.25±0.36Ma,等时线年龄为35.0±1.8Ma,反等时线年龄为34.8±1.9Ma。蚀变岩型金矿化矿石中白云母样品(B118)40Ar-39Ar坪年龄为35.35±0.32Ma,等时线年龄为34.44±0.99Ma,反等时线年龄为34.4±1.2Ma。这与正长斑岩(35.6±0.3Ma)、花岗斑岩(35.0±0.2Ma)、斑岩型铜钼矿化成矿年龄(35.8±1.6Ma)和(33.9±1.1Ma)较为一致,显示马厂箐铜钼金矿床与正长(斑)岩+二长(斑)岩+花岗斑岩+斑状花岗岩岩性组合有关,铜钼金成矿属于同一个构造—岩浆—成矿系统的产物。  相似文献   

17.
Limu W–Sn–Nb–Ta mining district is located in the Nanling Range W–Sn poly‐metallic mineralization belt in south China. The district includes a number of Sn–Nb–Ta and W–Sn ore occurrences; all of them are spatially associated with granite stocks of a largely‐unexposed pluton, the Limu granitic pluton. A granite sample collected from the Sn–Nb–Ta‐bearing Jinzhuyuan granite stock yields a zircon SHRIMP U–Pb age of 218.3 ± 2.4 Ma, a muscovite 40Ar/39Ar plateau age of 212.4 ± 1.4 Ma, and a muscovite 40Ar/39Ar isochron age of 213.2 ± 2.2 Ma. Another granite sample collected from the W–Sn‐bearing Sangehuangniu granite stock yields a zircon SHRIMP U–Pb age of 214 ± 5 Ma. The geochronological data provide new constraints on the age of the Limu granite pluton and the timing of the associated W–Sn–Nb–Ta mineralization—at least it sets a reasonable upper age limit for the mineralization of the W–Sn–Nb–Ta ores. The reported ages suggest an active Late Triassic granitic magmatism in Limu area which is part of a regional magmatic event near the end of the Indosinian orogeny in south China.  相似文献   

18.
张娟  毛景文  程彦博  李肖龙 《矿床地质》2012,31(6):1149-1162
在个旧锡铜多金属矿集区发育有矽卡岩型和热液脉型等锡铜矿化体,其形成时代是晚白垩世,属与花岗岩有关的岩浆热液成因矿床。赋存于三叠纪蚀变玄武岩层中,呈(似)层状的铜矿体的精确年龄尚未有报道,成因仍备受争议。文章选择赋存于卡房矿田蚀变玄武岩层中,呈(似)层状分布的铜矿体中的金云母,及新山岩体接触带云英岩中的白云母为研究对象,利用40Ar-39Ar阶段加热同位素定年方法对它们进行了年代学研究,获得了金云母和白云母的40Ar-39Ar同位素坪年龄分别为(79.55±0.47) Ma和(79.53±0.57) Ma,对应等时线年龄分别为(79.8±1.3) Ma和(79.7±1.0) Ma,反等时线年龄分别为(79.7±2.0) Ma和(79.61±0.75) Ma,两者年龄基本一致。结合矿物共生组合特征和流体包裹体测温资料,认为金云母的坪年龄(79.55±0.47) Ma,可以代表卡房蚀变玄武岩中(似)层状铜矿的形成时代,而白云母的坪年龄(79.53±0.57) Ma,则代表新山岩体形成后期岩浆热液活动的年龄。这2个年龄与个旧锡铜多金属矿床的成矿时代基本一致,应是同一构造-岩浆-流体活动形成的成矿系列产物。  相似文献   

19.
云南老君山矿集区的晚侏罗世-早白垩世成矿事件   总被引:1,自引:0,他引:1  
云南省老君山矿集区产出南秧田、花石头、茶叶山等众多钨矿床, 是南岭成矿带西段为数不多的以钨为主的矿集区.由于受到多期构造热事件的影响, 该矿集区的成矿年龄存在较大的争议.为此, 选择白钨矿Sm-Nd同位素体系测定了南秧田钨矿田中长石石英脉型矿体的年龄, 用白云母和黑云母Ar-Ar方法厘定了区域花岗伟晶岩的形成时代及其变质围岩的变质时限.研究表明, 南秧田钨矿田中长石石英脉型白钨矿矿体的形成年龄为159±14 Ma, 明显晚于印支期形成的矽卡岩型矿体; 两花岗伟晶岩及其围岩变质作用的时代分别为144~141 Ma和121~112 Ma, 说明老君山矿集区存在晚侏罗世-早白垩世的构造热事件和成矿作用.综合前人的研究成果, 老君山矿集区受到区域花岗片麻岩和花岗岩产出特征的制约, 成矿时代分布与南岭成矿带一致, 存在晚三叠世、晚侏罗世-早白垩世和晚白垩世3个成矿高峰期.而且, 老君山矿集区的成矿特点与南岭东段的钨矿床有一定的可类比性, 是"东钨西扩"的典型实例, 这可能与老君山矿集区遭受了较高的剥蚀程度有关, 暗示南岭西段的高剥蚀区是寻找晚侏罗世钨矿床的远景区.   相似文献   

20.
40Ar/39Ar dating was conducted on the Da Lien granite related to greisen‐skarn type polymetallic (W‐CaF2‐Cu‐Bi‐Au) mineralization in Nui Phao, northern part of Vietnam in the South China Plate. Biotite and muscovite separates from the biotite‐muscovite granite and greisenized granite indicate four plateau ages: 82.2 ± 0.4 Ma, 82.8 ± 0.3 Ma, 81.5 ± 0.3 Ma and 82.5 ± 0.4 Ma. The plateau ages were not significantly influenced by excess 40Ar in dated minerals or by loss of radiogenic 40Ar due to hydrothermal activities. The results indicate that solidification of granite related to the polymetallic mineralization occurred in the Late Cretaceous between 82.8 Ma and 81.5 Ma.  相似文献   

设为首页 | 免责声明 | 关于勤云 | 加入收藏

Copyright©北京勤云科技发展有限公司  京ICP备09084417号