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31.
湖南仁里超大型钽铌矿床钽铌铍矿资源丰富,Ta2O5资源量达到了超大型规模,BeO资源量达到了大型规模。为进一步研究湖南仁里超大型钽铌矿床稀有金属的赋存特征、成矿规律及矿产资源综合利用前景,开展了地球化学分析、电子探针、包裹体、同位素测年及可选性试验等研究工作,通过系统梳理仁里超大型钽铌矿床的工作进展,进一步探讨了该矿床的下一步找矿思路。仁里钽铌矿床共(伴)生矿种多,稀有金属综合回收率及矿产资源采选综合利用率高,具有极大的开发利用价值,可作为绿色、环保、无尾矿范例进行高效勘查与开发。仁里矿区钽铌铍矿资源丰富,具有较好的找矿潜力,加大地质勘查资金投入有望取得钽铌铍锂等稀有金属找矿新进展。下一步应对矿区2、3、5、6号主矿脉深部矿体进行控制,力争取得钽铌铍矿找矿突破,同时加强对矿区西部或西南部隐伏锂辉石白云母钠长石伟晶岩的研究工作,力争取得锂辉石白云母钠长石伟晶岩型锂矿找矿突破。 相似文献
32.
Fluid Inclusions and Hydrogen,Oxygen, and Lead Isotopes of the Antuoling Molybdenum Deposit,Northern Taihang Mountains,China 总被引:1,自引:0,他引:1 
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下载免费PDF全文 Meng Zhe Jian‐zhong Hu Yang Song Xue‐qin Zhang Hai‐yang Ding Wei Zhou 《Resource Geology》2017,67(4):399-413
The Antuoling Mo deposit is a major porphyry‐type deposit in the polymetallic metallogenic belt of the northern Taihang Mountains, China. The processes of mineralization in this deposit can be divided into three stages: an early quartz–pyrite stage, a middle quartz–polymetallic sulfide stage, and a late quartz–carbonate stage. Four types of primary fluid inclusions are found in the deposit: two‐phase aqueous inclusions, daughter‐mineral‐bearing multiphase inclusions, CO2–H2O inclusions, and pure CO2 inclusions. From the early to the late ore‐forming stages, the homogenization temperatures of the fluid inclusions are 300 to >500°C, 270–425°C, and 195–330°C, respectively, with salinities of up to 50.2 wt%, 5.3–47.3 wt%, and 2.2–10.4 wt% NaCl equivalent, revealing that the ore‐forming fluids changed from high temperature and high salinity to lower temperature and lower salinity. Moreover, based on the laser Raman spectra, the compositions of the fluid inclusions evolved from the NaCl–CO2–H2O to the NaCl–H2O system. The δ18OH2O and δD values of quartz in the deposit range from +3.9‰ to +7.0‰ and ?117.5‰ to ?134.2‰, respectively, reflecting the δD of local meteoric water after oxygen isotopic exchange with host rocks. The Pb isotope values of the sulfides (208Pb/204Pb, 36.320–37.428; 207Pb/204Pb, 15.210–15.495; 206Pb/204Pb, 16.366–17.822) indicate that the ore‐forming materials originated from a mixed upper mantle–lower crust source. 相似文献
33.
We investigate the growth of the northern Tibetan Plateau and associated climate change by applying oxygen and carbon isotopic compositions in Cenozoic strata in the southwestern Qaidam basin. The X-ray diffraction and isotopic studies reveal that the carbonate minerals are mainly authigenic and they do not preserve any evidence for detrital carbonate and diagenesis. The isotope data show large fluctuations in the δ18O and δ13C values in the middle–late Eocene, indicating relatively warm and seasonal dry climate. The positive correlation of the δ18O and δ13C values in the Oligocene and the positive shift of the δ13C values from the Eocene to Oligocene suggest that the climate changed to arid in the Oligocene. However, the δ18O values show negative shift, which is closely related to the global cooling event. During the Miocene, the δ13C values vary between –2‰ and –4‰, whereas the δ18O values show continuous negative shift. The mean δ18O values decrease from –8.5‰ in the early Miocene to –10.0‰ in the late Miocene. The stable isotope-based paleoaltimetry results suggest that the elevation of the southwestern Qaidam basin was approximately 1500 m in the middle–late Eocene and Oligocene. Subsequently, during Miocene the crustal uplift process started and the elevation reached approximately 2000 m in the early Miocene and 2500 m in the late Miocene, which suggests large-scale growth of the northern Tibet Plateau during the Miocene. 相似文献
34.
以不同浓度Li元素标准样品和K、Ca、Na、Mg、Fe单元素标准样品的混合溶液为研究对象,采用3根阳离子交换树脂(AG 50W X8,200~400目)填充的聚丙烯交换柱和石英交换柱对Li进行分离富集,淋洗液分别为28 mol/L HCl、015 mol/L HCl以及05 mol/L HCl 30%乙醇,淋洗液体积小,仅为38 mL。分离回收率高,均大于976%。国际标样AGV 2(相对于IRMM 016)、BHVO 2(相对于IRMM 016)和IRMM 016(相对于L SVEC)的δ7Li值分别为(513±094)‰(2σ,n=10)、(408±060)‰(2σ,n=4)和(0038±073)‰(2σ,n=10),与前人分析结果吻合,分析精度与国际同类实验室水平相当。并对比了马里兰大学同位素实验室和笔者实验室对同种岩石矿物样品的分析结果,在误差范围内具有很好的一致性。此外,对美国地质调查局提供的准标样NKT 1霞石岩(相对于IRMM 016)给出了定值,δ7Li值为(871±046)‰(2σ,n=4)。因此,本方法可用于测定天然样品的Li同位素组成。 相似文献
35.
西藏甲玛铜多金属矿床深部斑岩矿体找矿突破及其意义 总被引:7,自引:0,他引:7
甲玛铜多金属矿是西藏冈底斯成矿带中东段勘查程度最高、成矿元素与矿体类型复杂的超大型斑岩-矽卡岩型矿床。通过4年多、近350 个钻孔的验证,不仅实现了矽卡岩矿体的找矿突破,同时在0-40线深部发现了产于二长花岗斑岩与石英闪长玢岩中的斑岩钼(铜)矿体,建立了“四位一体”的找矿勘查模式。斑岩矿体赋存标高一般处于4 600 m以下,矿体走向NW-SE,倾向NE,近直立,矿体垂向延伸大于350 m;斑岩矿石以发育细脉-浸染状、网脉状构造为特征;矿石中的矿石矿物主要为黄铜矿与辉钼矿,少见斑铜矿;脉石矿物主要为石英。初步查明:与铜矿化有关的含矿岩体主要为偏中性的石英闪长玢岩,蚀变以典型的细粒热液黑云母交代角闪石斑晶和基质而成的黑云母化蚀变为主;与钼矿化有关的含矿岩体主要为二长花岗斑岩,蚀变以硅化为主,次为绿帘石化、泥化和钾化。斑岩体与碳酸盐岩接触带常产出厚度超过200 m的巨厚矽卡岩矿体,且在岩体一侧有内矽卡岩产出。甲玛深部斑岩矿体的发现不仅证实了“斑岩-矽卡岩型”的矿床成因观点,而且完善了甲玛矿床成矿模式与勘查模型。 相似文献
36.
赣西北矿集区是中国重要的花岗岩型锂矿资源基地,以发育多期次多阶段岩浆作用和大规模锂等稀有金属矿床著称。区内花岗质岩浆与稀有金属成矿关系密切,为进一步研究该地区花岗质岩浆演化特征及其与稀有金属成矿的联系,确定相关花岗岩成岩时代及成因类型,查明稀有金属成矿机制,笔者选择九岭地区狮子岭花岗岩作为研究对象,对其开展了岩相学、锆石U-Pb年代学及岩石地球化学分析。结果显示,狮子岭花岗岩属高钾钙碱性系列,具有高Si,富P,贫Ca、Mg、Fe,富集U、Hf等高场强元素,亏损Ba、Sr等大离子亲石元素,稀土元素总量较低(ΣREE=2.12×10-6~146.24×10-6),轻稀土元素相对富集(LREE/HREE=3.5~16.53),弱Eu负异常(δEu=0.23~0.59)的特征。整体上具有S型花岗岩的地球化学特征。锆石U-Pb定年显示,黑云母二长花岗岩成岩年龄为(141.02±0.59)Ma,锂(白)云母碱长花岗岩成岩年龄为(113.96±0.72)Ma。锂(白)云母碱长花岗岩成岩过程中形成磷锂铝石及锂云母等含锂矿物,其成岩年龄可视为锂等稀有金属成矿年龄。该区稀有金属矿化受燕山晚期岩浆结晶分异作用及后期热液交代作用共同影响,岩浆结晶分异作用是Li、Nb、Ta成矿的决定性因素,后期热液交代作用为Li等成矿元素的二次富集提供条件。 相似文献
37.
西藏多龙矿集区地堡铜(金)矿床年代学、流体包裹体、地球化学特征及其成因类型研究 总被引:3,自引:0,他引:3
多龙矿集区位于班公湖-怒江成矿带西段北侧、羌塘地块南缘,是我国近年来发现的最大斑岩-浅成低温热液型Cu(Au)矿集区。地堡是多龙矿集区最西南边缘的矿床,资源潜力巨大,有望达到超大型规模,但研究程度薄弱。本次工作对地堡Cu(Au)矿开展了锆石U-Pb测年、流体包裹体、地球化学等方面的研究,为推动资源勘查和矿集区成矿规律的总结提供理论依据。含矿斑岩锆石206 Pb/238 U平均加权年龄为111.2±0.4Ma(MSWD=0.67),与矿集区成矿岩浆活动时限一致,是矿集区重要组成部分。石英脉流体包裹体显示矿床主成矿期成矿流体温度集中于140~382℃,主要集中在240~280℃。成岩阶段石英斑晶中Ⅰ型包裹体盐度范围为0.2%~20.7%NaCleqv.,含盐子晶包裹体盐度为33.6%NaCleqv.和43.9%NaCleqv.;成矿阶段不含石膏石英脉Ⅰ型包裹体盐度范围为0.2%~20.8%NaCleqv.,黄铁矿石英脉Ⅰ型包裹体盐度范围为1.1%~11.1%NaCleqv.,石膏中Ⅰ型包裹体盐度范围为0.5%~9.3%NaCleqv.。对钻孔DNZK6428样品进行主微量元素测试并进行因子分析计算,结果表明F1、F2、F3代表成岩阶段,因子主成分为Y-Ho-Er-Tm-Yb-Dy-Lu-Tb-Eu-Gd-Sm-La-Ce-Pr-Nd-SiO_2-Al_2O_3-CaO等,F4和F5代表铜金矿化阶段,因子主成分为Sn-Sb-Ba-Fe_2O_3-Sr-|SiO_2|-Ni-Cu-U-In-Cd-Au-Zn。黄铁矿δ34SV-CDT值总体较为集中,呈"双峰塔式"分布,变化范围为-7.8‰~4.1‰,均值为-4.23‰,为深源岩浆硫,硫的来源接近地幔硫。矿床粒状黄铁矿Co/Ni比值为0.207~10.775,平均值4.39,脉状黄铁矿Co/Ni比值为0.353~23.155,平均值3.802,均为热液成因。矿相学与岩相学研究结果显示矿床具明矾石和硫砷铜矿典型高硫化浅成低温热液矿床的矿物组合,地堡Cu(Au)矿为高硫型浅成低温热液矿床。 相似文献
38.
南岭离子吸附型稀土矿床成矿规律研究新进展 总被引:13,自引:1,他引:12
离子吸附型稀土矿是我国的优势资源,是全球重稀土的主要来源。20世纪80年代我国对此类矿床的成矿规律开展过大量研究,但仍有诸多未解之谜。为了解目前离子吸附型稀土资源的分布特征和成矿规律,2011~2015年中国地质科学院矿产资源所三稀项目组对52个离子吸附型稀土矿床进行了综合研究,本文介绍稀土成矿规律研究方面取得的一些新进展:(1)离子吸附型稀土矿床广泛分布在华南地区,以南岭最为发育,近些年在越南、老挝、泰国及美国也有发现。矿床主要产在花岗岩和酸性火山岩风化壳中,近几年也在变质岩和灰岩风化壳中有所发现,但花岗岩离子吸附型稀土矿床规模较大,品位较高,仍是最为重要的一类(亚类)稀土矿床;(2)成矿花岗岩的形成时代范围较宽,锆石U-Pb年龄集中在461~384Ma、228~242Ma和189~94Ma三个区间。相对于LREE型成矿花岗岩,HREE型更加富硅,富HREE,具有强烈的负Eu异常,普遍高Rb,低Ti、Zr、Hf、Nb、Ta、Ba、Sr等微量元素,暗示HREE型成矿花岗岩岩浆经历了高度分异。值得注意的是,部分LREE型成矿花岗岩相对富集HREE,特别是富集Y,轻重稀土元素比值(LREE/HREE)多介于1~3之间,风化易形成HREE型风化壳,这很可能是今后重稀土资源的重要来源之一;(3)成矿花岗岩中稀土矿物的成因多样,有岩浆成因(如榍石、褐帘石、独居石、磷钇矿等)、流体交代成因(稀土氟碳酸盐类)和表生成因(水磷铈矿、水磷镧矿等),稀土元素的内生矿化很大程度上受流体交代作用影响;(4)发育完整的风化壳垂向剖面中稀土元素含量呈"弓背式"分布,即表土层和半风化层中含量低,全风化层中含量高,但受地形、地貌及地表水等因素的影响,稀土含量变化曲线呈多种形态。垂向上LREE和HREE可分层富集,即全风化层上部富集LREE,下部富集HREE,也可以同时富集在全风化层下部。华南大量成矿母岩和风化壳样品的化学风化蚀变指数(CIA)与稀土元素总量(∑REE)之间存在明显的相关性,当CIA85%时,CIA与∑REE呈正相关,当85%CIA100%时,CIA与∑REE呈负相关;(5)表生过程中,母岩中易风化的稀土矿物不断释放出可交换性吸附态的稀土元素,酸性淋滤作用是稀土元素迁移的动力,黏土矿物是稀土元素赋存的载体,风化程度影响稀土元素的次生富集。 相似文献
39.
The Duolong district in central Tibet hosts a number of porphyry as well as high sulfidation epithermal copper–gold deposits and prospects, associated with voluminous calc-alkaline volcanism and plutonism. In this study, we present new geochronological, geochemical, isotopic and mineralogical data for both economically mineralized and barren porphyritic intrusions from the Duobuza and Naruo porphyry Cu–Au deposits. Zircon U–Pb analyses suggest the emplacement of economically mineralized granodiorite porphyry and barren granodiorite porphyry at Naruo deposit took place at 119.8 ± 1.4 Ma and 117.2 ± 0.5 Ma, respectively. Four molybdenite samples from the Naruo deposit yield an isochron Re–Os age of 119.5 ± 3.2 Ma, indicating mineralization occurred synchronously with the emplacement of the early granodiorite porphyry. At Duobuza deposit, the barren quartz diorite porphyry intruded at 119.5 ± 0.7 Ma, and two economically mineralized intrusions intruded at 118.5 ± 1.2 Ma (granodiorite porphyry) and 117.5 ± 1.2 Ma (quartz diorite porphyry), respectively. Petrographic investigations and geochemical data indicate that all of the porphyritic intrusions were oxidized, water rich, and subduction-related calc-alkaline magmas. Zircons from the porphyritic intrusions have a wide range in the εHf (0–11.1) indicating that they were sourced from mixing of mantle-derived mafic, and crust-derived felsic melts. Moreover, the variation of trace element content of plagioclase phenocrysts indicates that the magma chambers were recharged by mafic magmas.Comparison of the composition of amphibole phenocrysts indicates the porphyry copper–gold mineralization at Duolong was generated in magma chambers at low crystallization temperatures and pressures (754° to 791 °C, 59 M to 73 MPa, n = 8), and under highly oxidizing conditions (ΔNNO 2.2 to 2.7, n = 8). In contrast, barren intrusions were sourced from the magma chambers with higher crystallization temperatures and pressures (816° to 892 °C, 111 to 232 MPa, n = 22) that were less oxidizing (ΔNNO 0.6 to 1.6, n = 22). The requirement for a thermal contrast is supported by the declining of Ti content in magnetite crystals in barren intrusions (12,550 to 34,200 ppm) versus those from economically mineralized intrusions (600 to 3400 ppm). Moreover, the V content in magnetite crystals from economically mineralized intrusions (990 to 2510 ppm) is lower than those recorded from barren intrusions (2610 to 3510 ppm), which might reflect the variation in oxidation state of the magma. The calculated water solubility of the magma forming the economically mineralized intrusions (3.2–3.7 wt%) is lower than that of magma forming the barren intrusions (4.6–6.4 wt%). Based on the chemical–physical characteristics of economically mineralized magma, our study suggests that the development of porphyry Cu–Au mineralization at Duolong was initiated by shallow-level emplacement of a magma that crystallized at lower temperatures and pressures. Experimental studies show that copper and water solubilities in silicate melts decrease with falling temperatures and pressures, indicating metals and ore-forming fluids are more likely to be released from a magma reservoir emplaced at shallow crustal levels. We propose the magnetite might be a convenient exploration tool in the search for porphyry copper mineralization because the variations in Ti and V content of mineral concentrates and rock samples are indicative of barren versus mineralized intrusions. 相似文献
40.
The giant Jianchaling gold deposit is located in the Shaanxi Province, China. The mineralization is hosted by WNW-trending faults in the Mianxian-Lueyang-Yangpingguan (MLY) area. The mineralization can be divided into three stages based on mineralogical assemblages and crosscutting relationships of mineralized quartz veins. These stages, from early to late, are characterized by the mineral assemblage of: (1) quartz – coarse-grained pyrite – pyrrhotite – pentlandite – dolomite; (2) quartz – pyrite – gold – sphalerite – galena – carbonate – arsenopyrite – fuchsite; and (3) dolomite – calcite – quartz – fine-grained pyrite – realgar – orpiment.Three types of fluid inclusions have been recognized in this study based on petrographic and microthermometric measurements, including pure CO2 and/or CH4 (PC-type), NaCl-H2O (W-type), and NaCl-CO2-H2O (C-type) fluid inclusions. These fluid inclusion types are present in quartz from the Stage 1 and 2 assemblages, whereas the Stage 3 quartz only contains W-type fluid inclusions. The Stage 2 assemblage is associated with the mineralization at the Jianchaling deposit. Fluid inclusions of Stage 1 quartz homogenize mainly between 250° and 360 °C, with salinities up to 15.6 wt.% NaCl equiv., whereas the Stage 3 dolomite with homogenization temperatures of 160° – 220 °C and salinities of 1.1–7.4 wt.% NaCl equiv. This indicates that the ore fluid system evolved from CO2-rich, probably metamorphic hydrothermal to CO2-poor, meteoric fluid. All three types of fluid inclusions can be observed in the Stage 2 quartz, suggesting that this heterogeneous association was trapped from a boiling fluid system. These inclusions homogenized at temperatures of 200°–250 °C and salinities of 1.2–12.4 wt.% NaCl equiv. The estimated trapping pressures of the fluid inclusions are between 117 and 354 MPa in Stage 1, suggesting an alternating lithostatic–hydrostatic fluid system, which was controlled by a fault-valve at the depth of ~ 12 km.Two fuchsite samples collected from the Stage 2 polymetallic-quartz veins yielded well-defined 40Ar/39Ar isotopic plateau ages of 197 ± 2 and 194 ± 2 Ma, and 39Ar/36Ar-40Ar/36Ar normal isochrones of 198 ± 2 and 199 ± 2 Ma. This indicates that the mineralization at Jianchaling is Early Jurassic (ca. 198 Ma) in age. We propose that Jianchaling is an orogenic gold deposit, and formed during continental collision related to the northward subduction of the Mian-Lue oceanic plate during the Early Jurassic. We also conclude that the beginning of the continental collision between the Yangtze and the North China Cratons took place around 200 Ma. 相似文献