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岩浆液态不混溶形成的浆液过渡态熔体是与高度分异花岗岩有关的钨锡多金属成矿流体的重要形式。湘南地区与钨锡多金属成矿有关的浆液过渡态熔体有两种类型,一种富钠富挥发分,以芙蓉矿田矿化蚀变碱长花岗岩中的钠长石电气石石英囊为代表;另一种富钾富挥发分,以界牌岭矿床矿化蚀变花岗斑岩中的锂白云母萤石囊(团块)为代表。两种浆液过渡态熔体可形成于同一矿床,为同期岩浆活动产物,成分上K2O与Na2O负相关,表明它们具有密切的时空和成因联系,熔体-流体包裹体发育,为高度分异的花岗质岩浆液态不混溶产物。两种浆液过渡态熔体富含成矿物质,与成矿关系密切,湘南地区多数钨锡多金属矿床的云英岩型、构造蚀变带型、钾化花岗岩型钨锡多金属成矿可能与富钾富挥发分的浆液过渡态熔体有关,钠化花岗岩型铌钽矿化与富钠富挥发分的浆液过渡态熔体有关。 相似文献
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粤西银岩—锡坪地区燕山晚期花岗岩类成岩特征、演化规律及其与锡、钼、钨成矿关系研究 总被引:4,自引:0,他引:4
银岩—锡坪地区燕山晚期花岗岩类划分为两个阶段三次侵入。第一阶段有花岗斑岩、石英斑岩两次侵入;第二阶段为中细粒黑云母钾长化岗岩。燕山晚期花岗岩类属板块内部张性构造环境理形成的陆壳改造型花岗岩类,定位浅,其分布明显受北西构造带控制。研究花岗岩特征与锡、钼、钨矿床成矿火系,认为第一阶段花岗斑岩与斑岩型锡钼矿床有关,第二阶段黑云母钾长共花岗岩与云英岩锡钨钼矿化关系密切。 相似文献
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大兴安岭南段多金属矿成矿作用和找矿潜力 总被引:4,自引:0,他引:4
大兴安岭南段多金属成矿带位于中亚造山带东部贺根山断裂与西拉沐伦河断裂之间,处于古亚洲洋构造与古太平洋构造的叠加部位。具有双层结构特征(基底以二叠纪地层为主,盖层为侏罗纪早白垩世地层),发育了多期的构造、岩浆活动,以及众多的多金属矿床。区内矿床以多成矿元素共生、伴生为特点,按成矿作用特征划分为4个成矿系统(斑岩、矽卡岩、热液脉状、碱性花岗岩成矿系统)。斑岩成矿系统包括斑岩钼多金属、锡多金属2个亚成矿系统,矽卡岩成矿系统包括矽卡岩型铁锡、铅锌银2个亚成矿系统,热液脉状成矿系统包括银多金属、铜多金属、锡多金属3个亚成矿系统,碱性花岗岩成矿系统为稀有稀土成矿系统。大兴安岭南段多金属矿床形成于2个主要时期:晚二叠—世三叠纪、晚侏罗世—早白垩世。两期成矿作用均与花岗质岩浆活动密切相关,成矿物质来源既包括深部岩浆带来的物质,也包括区内地层,具有多来源特点。晚二叠—世三叠纪多金属矿床形成于古亚洲洋构造体系,晚侏罗世—早白垩世多金属矿床形成于古太平洋构造体系。优越的成矿地质条件及良好的地球物理与地球化学异常表明大兴安岭南段仍具有巨大的找矿潜力。 相似文献
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南岭地区钨锡多金属成矿作用和区内中酸性-酸性花岗岩有着密切的成因联系。利用已发表的和野外收集的地质资料,本文尝试对区内成钨锡花岗岩组合(包括与钨锡矿相关的含钨锡花岗岩和成钨锡花岗岩)进行宏观地质判别。判别过程采用循序渐进的方式,首先将成钨锡花岗岩组合与不成矿花岗岩相区别,然后将含锡花岗岩和含钨花岗岩互相区别开来。相对于不成矿花岗岩,成钨锡花岗岩组合通常具有W、Sn、F、B化探组合异常、多期多阶段演化特点、适度的构造叠加(即存在明显的热液活动)等共同特点,且三者缺一不可。不成矿花岗岩一般具有W、Sn、F、B化探组合为背景值,岩性单一,少见晚期岩株、岩脉(演化不充分)及蚀变的特征。在野外地质工作中,含锡花岗岩一般为花岗闪长岩-二长花岗岩-二云母花岗岩岩性组合。基性端元以普遍发育暗色微粒包体、常见角闪石、含较多的黑云母为鉴别特征。酸性端元中可以含有少量白云母。而含钨花岗岩以黑云母二长花岗岩-二云母花岗岩-白云母花岗岩岩性组合为主,常见含B矿物电气石,基性端元少见或不见角闪石、含较少的黑云母,仅见变质岩、围岩捕掳体和黑云母团块,酸性端元白云母含量较高等组合特征可以与含锡花岗岩相区别。 相似文献
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甘肃毛藏寺铜钼矿是与花岗质岩石有关的斑岩型矿床,矿区内花岗质岩石类型主要为似斑状二长花岗岩和花岗闪长岩。对矿区岩体进行年龄、地球化学研究,以约束其形成时代,并探讨岩石成因及其与成矿的关系。LA-ICP-MS锆石UPb测年分别获得似斑状二长花岗岩与花岗闪长岩谐和年龄为455.8±3.1Ma和425.0±2.8Ma,属于晚奥陶世和晚志留世岩浆活动的产物。地球化学数据显示,似斑状二长花岗岩属于过铝质钙碱性岩浆系列,花岗闪长岩属于准铝质高钾钙碱性岩浆系列,二者均富集大离子亲石元素,亏损高场强元素,稀土元素配分曲线呈右倾型,轻、重稀土元素分馏明显。似斑状二长花岗岩具有弱正Eu异常(δEu=1.18~1.24),显示埃达克岩的地球化学特征,形成于北祁连洋俯冲消减阶段,由俯冲洋壳(含海洋沉积物)部分熔融形成,源区主要残留物为石榴子石。花岗闪长岩显示弱负Eu异常,形成于碰撞后伸展环境,是洋壳板片断离后软流圈上涌诱发的下地壳玄武质岩石部分熔融的产物。似斑状二长花岗岩符合成矿期埃达克岩特征,具有较好的成矿条件。结合前人资料,在北祁连东段寻找和勘查与埃达克岩有关的铜-钼-金矿可能是一个新的方向。 相似文献
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广西苍梧社洞钨钼矿床花岗岩类岩石的地球化学特征及其与成矿关系 总被引:7,自引:2,他引:5
广西苍梧社洞钨钼矿是与花岗岩类有关的矿床。矿区主要花岗岩类包括加里东期花岗闪长岩、花岗闪长斑岩和燕山晚期花岗斑岩。加里东期花岗闪长岩、花岗闪长斑岩具有低Si、K,富Na、Al和基性组分特征,属于强过铝质的正常钙碱性系列岩石;稀土总量低,轻重稀土分馏明显,弱负Eu异常(δEu=0.62~0.70);Ti、Nb、Ta亏损,Th、U、Pb、Zr、Hf富集,Rb/Sr平均值为0.78,明显富集W、Cu、Mo,属于I型花岗岩,为陆内造山带碰撞早期挤压背景下岩浆活动的产物,表现为对钨、钼、铜的成矿专属性。燕山晚期花岗斑岩具有高Si、K,贫Na、Ca和基性组分,属于强过铝质的高钾-中钾钙碱性系列岩石;稀土总量高,轻重稀土分馏不明显,强负Eu异常(δEu=0.03~0.06);Ti、Ba、K、Eu亏损,Th、U、Sm、Dy、Y、Ho、Yb、Lu富集程度更高,Rb/Sr平均值为7.56,明显富集Sn、Bi,属于燕山晚期岩浆演化程度较高的S型花岗岩,为碰撞后伸展环境的板内花岗岩,表现为对锡、金的成矿专属性。 相似文献
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大兴安岭南段发育包括维拉斯托、黄岗、安乐、大井、毛登和边家大院等锡多金属矿床,是我国北方最重要的锡多金属成矿带。北大山岩体是该锡多金属成矿带规模最大,出露最完全的花岗质侵入体,其北部主要为石英二长斑岩,南部为黑云母花岗岩,且南部岩相中常见电气石和绿柱石,被认为是区内锡多金属矿床的成矿母岩。然而,目前对该岩体岩石成因及其稀有金属成矿潜力的认识却存在较大争议。本文在对北大山岩体开展岩相学观察和锆石U-Pb定年的基础上,通过全岩地球化学和锆石Hf同位素分析,结合MELTS热力学模拟计算,试图阐明该岩体的成因类型、源区特征和演化过程,并讨论其成矿潜力。锆石U-Pb定年结果显示,北大山岩体北部的石英二长斑岩形成于143.4±1.3Ma,南部黑云母花岗岩形成于142.6±1.3Ma,与大兴安岭南段早白垩世锡多金属成矿年龄峰值相一致。北大山岩体中含自形富水矿物角闪石及黑云母、富碱(K2O+Na2O=8.58%~9.34%)、ACNK/CNK值介于0.97~1.02,P2O5含量低(<0.14%)且与SiO<... 相似文献
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Abstract: The southern part of the Da Hinggan Mountains is the only tin-polymetallic concentration area in northern China. Based on ore-forming element assemblages, three metallogenic series, the Sn(W), paragenetic Sn–polymetallic, and poly-metallic series, are recognized. The Sn(W) series, consisting of greisen, skarn and vein types, is associated with ilmenite–series, potassic feldspar (Kf)–granites. The polymetallic Pb–Zn–Cu series with porphyry, skarn and vein types, is related to magnetite–series, granodiorite – monzonite. On the contrary, the paragenetic Sn-polymetallic series mineralization is associated with the coexisting igneous activities of Kf-granite and granodiorite–monzonite, and it is suggested that the paragenetic Sn-polymetallic series is caused by the superimposed mineralization with tin from ilmenite-series magma and polymetallic elements from magnetite-series magma–hydrothermal system. All the three series possess similar metallogenic age, concentrating on J3 –K1 (130–150 Ma). The melting of high maturity and tin-rich Xilinhot Proterozoic complex (micro–massif) during Mesozoic period, could generate the ilmenite–series, tin-bearing felsic magma, and cause the tin mineralization in the southern part of the Da Hinggan Mountains. 相似文献
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新疆阿图什彻依布拉克锡多金属矿点地质特征 总被引:2,自引:0,他引:2
南天山是重要的锡锑多金属成矿带,目前已发现几处锡矿床(点)和大量锡化探异常,具有良好的成矿前景.彻依布拉克锡多金属矿点赋存于塔木岩体围岩的夕卡岩中.塔木碱长花岗岩侵入时代为晚二叠世,化学成分具有富Si、富碱,贫Mg、Al的特点,Ga/Al比值大,富轻稀土,具强Eu负异常,具有A型花岗岩的特点.矿体严格受夕卡岩带控制,呈似层状、透镜状,与夕卡岩产状一致,二呈渐变过渡关系,矿体变化较大.矿石类型有:锡铁矿石、金(铜)矿石、锡矿石和锌铜矿石.成矿具有多阶段性,划分为夕卡岩阶段硼酸盐阶段、硫化物阶段和表生阶段,其中硼酸盐阶段是锡成矿的主要阶段.岩浆活动为成矿提供了热源和主要物质来源. 相似文献
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Previous studies have obtained some petrogenetic and metallogenic chronological data with SHRIMP (sensitive high-resolution ion microprobe) zircon U-Pb, zircon LA-ICPMS (laser-ablation–inductively coupled plasma mass spectroscopy) U-Pb, molybdenite Re-Os isochron and muscovite Ar-Ar methods in southern Jiangxi Province and its adjacent areas. Based on these, the purpose of this paper is to study the petrogenetic and metallogenic ages and their time gap for different genetic types of W-Sn deposits, and thus to research their numerous episodes, zonal arrangement and their geodynamic background. The result shows that the large-scale W-Sn mineralization in southern Jiangxi Province occurred in the middle to late Jurassic (170–150 Ma), the skarn W-Sn-polymetallic deposits formed much earlier (170–161 Ma), and all of the wolframite – quartz vein type, greisen type, altered granite type and fractured zone type tungsten deposits formed in the late Jurassic (160–150 Ma). In one ore field or ore district, greisen type tungsten deposits formed earlier than quartz vein type ones hosted in the endo- or exo-contact zone; and quartz vein type hosted in the endocontact zone formed earlier than that of exocontact zone. There is no significant time difference between tungsten-tin mineralization and its intimately associated parent granite emplacement (1–6 Ma). They all formed in the same rock-forming and ore-forming system and under the same geodynamic setting. Regionally, rock-forming and ore-forming processes of the W-Sn deposits in the Nanling region (include southern Jiangxi Province, southern Hunan Province, northern Guangdong Province and eastern Guangxi Zhuang Autonomous Region) exhibit numerous episodes. The mineralization in the Nanling region mainly occurred at (240–210) Ma, (170–150) Ma and (130–90) Ma. The tungsten-tin deposits in this region are centered by the largest scale in southern Jiangxi Province and southern Hunan Province, and become small in the east, west, south and north directions. This displays a zonal arrangement and temporal and spatial distribution regularity. Integrated with the latest research results, it is concluded that the W-Sn mineralization in southern Jiangxi Province and its adjacent areas corresponds to the second large-scale mineralization in South China. The Indosinian W-Sn mineralization formed under the extensional tectonic regime between collisional compressional stages, while the Yanshanian large-scale petrogenetic and metallogenic processes occurred in the Jurassic intraplate extensional geodynamic setting of lithosphere extension. 相似文献
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Abstract: The southern segment of the Da Hinggan Mountains is a well‐known tin–polymetallic metallogenic belt of North China with Jurassic‐Cretaceous volcanic–plutonic rocks widespread. Principally because of this, most of the deposits are regarded as epigenetic hydrothermal deposits in genetic connection with the Mesozoic magmatism. But nearly 90 % of the deposits occur in Permian strata, and show concordant stratiform mineralization with a spatial distribution constrained by sedimentary facies of the Permian strata. A close association between mineralization and Permian strata is recognizable. The Huanggang Fe‐Sn deposit was regarded as a standard skarn‐type deposit formed by magmatic hydrothermal solutions in connection with Mesozoic granites. But there are abundant fabrics indicating submarine hydrothermal exhalation both in magnetite ores and in skarns, including bedding/lamination, soft–deformation, synsedimentary brecciation, and collo‐form fabrics. The magnetite orebodies and skarn‐bodies are predominantly concordant stratiform, and extend nearly 20 km along certain stratigraphic horizon, that is, the upper section of the Lower‐Permian submarine volcanic rocks. The Mesozoic granitic rocks crosscut the magnetite and skarn zone. Instead of skarnization, they show strong greisenization associated with cassiterite‐quartz veins, distinct from the magnetite skarn‐ore with disseminated tin in the Permian rocks. The Dajing Sn‐polymetallic deposit is generally regarded as subvolcanic‐hydrothermal origin, principally because of the close spatial association between ores and some of the Mesozoic subvolcanic dikes (called rhyolitic porphyry). Detailed geological, fabric, petrographical and mineralogical study demonstrates that this very kind of subvolcanic rocks is actually a new type of exhalites (called ‘siderite‐sericite chert’ according to its mineral assemblage), formed by hydrothermal sedimentation during the evolution of the Later‐Permian lacustrine basin. There are, however, indeed some rhyolitic porphyry dikes that crosscut orebod–ies. The orebodies and their associated exhalite predate, and thus have no genetic relation, to the Mesozoic magmatic process. We thus conclude that subaqueous exhalative mineralization did occur during the basin evolution at the Permian time in the southern segment of the Da Hinggan Mountains, which is ignored and poorly understood, but might be as important as the hydrothermal mineralization connected with the Mesozoic magmatism. 相似文献
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中国锡矿成矿规律概要 总被引:11,自引:0,他引:11
我国锡矿资源丰富,矿床类型比较齐全。在锡矿资源储量中占有较大比重的主要是锡石—硫化物型、矽卡岩型和石英脉型;从开采和利用角度来说,最为重要的是锡石—硫化物型和石英脉型。锡石—硫化物型主要集中在桂北、滇东等地,矽卡岩型集中分布在南岭中段湘南等矿集区、石英脉型则主要集中在华南地区的闽西、赣中、粤北、湘南等地;成矿时代以中生代最为重要;成矿大地构造背景以造山运动之后的大陆环境为主,构造变动剧烈,深大断裂纵横交错,岩浆活动频繁,特别是与锡成矿作用关系密切的中生代花岗岩类非常发育,最具特色。本次在对全国873处锡矿矿产地资料进行系统梳理的基础上,深入总结了全国锡矿的成矿规律,厘定出20个以锡为主或锡较为重要的矿床成矿系列,认为锡石—硫化物型、矽卡岩(—云英岩型)、石英脉型和岩体型4类锡矿类型,应该作为重点预测类型,并划分出44个成锡带,提出了19个重要工作部署区,并编制了中国成锡带图、中国锡矿成矿规律图等系列图件,为潜力评价预测工作提供了理论依据。 相似文献
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湖南香花岭矽卡岩型锡矿床是南岭地区一个重要的锡多金属矿床,发育有丰富的含锡矿物。在野外和显微镜下观察
基础上,文章利用电子探针技术系统分析了香花岭矽卡岩中含锡矿物的矿物学特征,探讨了锡的成矿过程、成矿流体以及
锡的来源。研究结果表明,香花岭矽卡岩中含锡矿物由锡矿物(锡石、尼日利亚石、孟宪民石等)和富锡矿物(韭闪石、
尖晶石、葡萄石、塔菲石等)组成。锡的成矿有三个阶段:矽卡岩早阶段,Sn进入尖晶石、韭闪石等造岩矿物中,形成富
锡矿物;氧化物阶段,锡矿物如锡石、尼日利亚石、孟宪民石等逐渐晶出;晚期热液阶段,早期含锡矿物热液蚀变原位析
出锡石,或富Sn热液交代早期矿物形成了富锡环边。矽卡岩中成矿流体富含F,CO2,Li等挥发组分,控制了Sn的富集、迁
移、结晶等过程。香花岭矽卡岩中Sn根本上来源于地层,锡的成矿过程反映了Sn在地壳中的地球化学循环过程。 相似文献
18.
Geology and K-Ar Ages of the South, Huh Bulgiin Hundii, Saran Uul, Taats Gol and Han Uul deposits in the Bayankhongor Region, Mongolia 总被引:2,自引:0,他引:2
Yasushi WATANABE Daramjav TURMAGNAI Dolgor BYAMBASUREN Gurjav OYUNCHIMEG Yadamtsoo TSEDENBALJIR Yoichi SATO 《Resource Geology》1999,49(3):123-130
Abstract: The Bayankhongor region in central Mongolia consists of a Paleozoic subduction system including Precambrian microcontinents (Baidrag and Burd Gol zones), obducted ophiolites and accretionary sedimentary rocks (Bayankhongor and Dzag zones), and forearc sedimentary rocks (Khangay zone). Arc magmatism in the Bayankhongor region is characterized by dominance of Early Paleozoic ilmenite-series and Late Paleozoic magnetite-series granitoids. These granitoids accompany many hydrothermal deposits of such various types as porphyry, skarn and vein. K-Ar dating on four deposits in the region revealed that the South porphyry Cu-Au, Huh Bulgiin Hundii skarn Cu-Au, Han Uul shear zone-hosted Au and Taats Gol pegmatite W-Au deposits formed at 240±5 Ma, 252±5 Ma, 283±6 Ma and 329±7 Ma, respectively.
Thus the former three are related to the Permian to earliest Triassic magnetite-series granitoids, whereas the W-Au pegmatite at Taats Gol to the Early Carboniferous ilmenite-series granitoids. Porphyry and skarn Cu-Au mineralization occurred at latest Permian to earliest Triassic, when the Andean-type arc magmatism was immediately followed by the collision between the Baidrag and Tarbagatai microcontinents. 相似文献
Thus the former three are related to the Permian to earliest Triassic magnetite-series granitoids, whereas the W-Au pegmatite at Taats Gol to the Early Carboniferous ilmenite-series granitoids. Porphyry and skarn Cu-Au mineralization occurred at latest Permian to earliest Triassic, when the Andean-type arc magmatism was immediately followed by the collision between the Baidrag and Tarbagatai microcontinents. 相似文献
19.
Yangyang Feng Zuohai Feng Wei Fu Zhiqiang Kang Jian Jiang Along Guo Xi Wang Meng Feng Chunzeng Wang 《Resource Geology》2019,69(4):430-447
The Xinlu Sn‐polymetallic ore field is located in the western Nanling Polymetallic Belt in northeastern Guangxi, South China, where a number of typical skarn‐, hydrothermal vein‐type tin deposits have developed. There are two types of Sn deposits: skarn‐type and sulfide‐quartz vein‐type. The tin mineralizations mainly occur on the south side of the Guposhan granitic complex pluton and within its outer contact zone. To constrain the Sn mineralization age and further understand its genetic links to the Guposhan granitic complex, a series of geochronological works has been conducted at the Liuheao deposit of the ore field using high‐precision zircon SHRIMP U‐Pb, molybdenite Re‐Os, and muscovite Ar‐Ar dating methods. The results show that the biotite‐monzogranite, which is part of the Xinlu intrusive unit of the Guposhan complex pluton, has a SHRIMP U‐Pb zircon age of 161.0 ± 1.5 Ma. The skarn‐type ore has a 40Ar‐39Ar muscovite plateau age of 160 ± 2 Ma (same as its isochron age), and the sulfide‐quartz vein‐type ore yields an Re‐Os molybdenite isochron age of 154.4 ± 3.5 Ma. The magmatic‐hydrothermal geochronological sequence demonstrated that the hydrothermal mineralization took place immediately following the emplacement of the monzogranite, with the skarn metasomatic mineralization stage predating the sulfide mineralization stage. Geochronologically, we have compared this ore field with 26 typical Sn deposits distributed along the Nanling Polymetallic Belt, leading to the suggestion of the magmatic‐metallogenic processes in the Xinlu ore field (ca. 161–154 Ma) as a component of the Early Yanshanian large‐scale Sn‐polymetallic mineralization event (peaked at 160–150 Ma) in the Nanling Range of South China. Petrogenesis of Sn‐producing granite and Sn‐polymetallic mineralization were probably caused by crust–mantle interaction as a result of significant lithospheric extension and thinning in South China in the Late Jurassic. 相似文献
20.
红岭(浩布高)铅锌多金属矿床位于我国大兴安岭南段主峰黄岗-甘珠尔庙成矿带的东北端。该地区成矿地质条件优越,是我国重点矿产勘查区之一。前人对红岭铅锌矿的矿床成因、成矿规律做了大量研究,但对基础地质特征研究不够深入,特别是对矿区主要赋矿围岩的岩石类型、矿区蚀变-矿化的类型及空间分布规律等方面的研究相对薄弱,制约了研究区矿床成因研究及勘察找矿的进展。本文通过详细的野外地质观察、室内岩矿相鉴定及扫描电镜/能谱(SEM/EDS)研究发现,矿区内出露的二叠纪地层除大理岩外,其余均为火山岩和火山碎屑岩,未见正常碎屑岩,与已有勘查资料认识不同,且在片理化二叠系晶屑凝灰岩中发现了由黄铜矿和闪锌矿组成的压力影,表明该区二叠系中可能发育同生的铜、锌矿化。矿区内除矽卡岩型矿化外还存在角砾岩型、热液脉型、碳酸盐交代型等多种矿化类型,为该区找矿提供了新思路。 相似文献