青海省格尔木市那陵郭勒河西地区铁多金属矿工艺矿物学研究

青海省格尔木市那陵郭勒河西地区铁多金属矿规模大,具有铁铜金等多金属矿化,属于接触交代型铁多金属矿床。本文采用工艺矿物学研究方法,查明了矿石工艺矿物学特性。研究结果表明,矿石的组成矿物种类较为简单,金属硫化物主要是黄铜矿、磁黄铁矿、黄铁矿、闪锌矿;铁矿物主要是磁铁矿、赤铁矿。脉石矿物主要是石英、方解石、透闪石、透辉石;其次为石榴子石、白云母、蛇纹石。矿石中铁、铜锌矿物均具均匀细粒—微细粒嵌布特征;通过选矿可获得铜精矿、锌精矿、铁精矿。     

内蒙古达茂旗宫忽洞矽卡岩型铜矿床地质、地球化学特征及其意义

宫忽洞是内蒙古中部的一例典型矽卡岩型铜矿床,位于华北板块北缘中段中元古代白云鄂博裂谷带内,赋存于矿区东南部花岗斑岩与白云鄂博群呼吉尔图组结晶灰岩形成的矽卡岩中。矿体呈透镜状、似层状分布,主要金属矿物为黄铜矿、斑铜矿、闪锌矿、辉铜矿、黄铁矿、磁黄铁矿等,脉石矿物为石榴石、透辉石、方解石、萤石等,矽卡岩类主要为透辉石-石榴石矽卡岩。花岗斑岩LA-ICP-MS锆石U-Pb年龄为(299.6±1.7)Ma,推断宫忽洞铜矿床是晚古生代构造岩浆活动的产物。花岗斑岩高Si、贫Al;亏损Ba、Sr、P、Ti等元素;10000Ga/Al值变化于2.32~3.49;稀土配分曲线呈典型的"V"字形;Fe OT/Mg O值介于9.86~12.27;其成因类型为A1亚类的A型花岗岩,可能形成于后造山拉张构造环境。3件热液方解石δ13CV-PDB值介于-10.6‰~-8.6‰,对应的δ18OV-SMOW值为4.6‰~15‰,宫忽洞铜矿床成矿期的CO2可能由花岗斑岩与灰岩地层的相互作用形成。4件不同硫化物的δ34S值介于1.2‰~10‰,表明成矿所需的硫可能来自于岩浆硫与海相硫酸盐的混合;4件不同硫化物的206Pb/204Pb=17.706~17.828,207Pb/204Pb=15.506~15.564;208Pb/204Pb=37.841~37.969,表明后造山阶段拉张环境形成的A型花岗斑岩体可能是成矿物质的主要提供者。     

云南郎都铜矿地质特征与矿床成因分析

郎都铜矿位于义敦-中甸岛弧带南段,红山复式背斜北东翼。矿体主要赋存于张性破碎带、层间破碎带、褶皱的转折端以及外接触带。矿床的形成与围岩性质、构造破碎带和围岩蚀变类型有较为直接的联系。矿床类型属接触交代热液型铜矿床,与成矿有密切关系的岩体为石英二长斑岩,围岩为碳酸盐岩类中的灰岩类,典型的矽卡岩矿物为透辉石,其次为石榴子石,其中透辉石矽卡岩含矿性明显高于石榴子石矽卡岩。根据同位素研究成果,郎都铜矿的成矿年龄大致为214.8±3.8 Ma;成矿的大地构造环境属于造山带环境。成矿物质主要来源为下地壳,次为地幔,具备壳幔混合和深源-浅源混合的特征。矿床的形成是多期次交代作用叠加的结果,具典型的矽卡岩型铜矿床基本特征。     

山东齐河—禹城地区矽卡岩型富铁矿的发现及其意义

在山东省齐河—禹城一带,选择航磁异常与区域重力异常套合地区,实施了大比例尺重磁测量,经钻探验证在该区首次发现了总厚度72.73m、全铁平均品位56.75%的厚大富磁铁矿,取得了地质找矿的重大新发现。矿体产于燕山晚期中-基性岩浆岩与奥陶纪马家沟群灰岩的接触带上,矿床成因为矽卡岩(接触交代)型磁铁矿床。该铁矿的发现是山东省近年来地质找矿的重大发现之一,预示在齐河—禹城地区进一步开展富铁矿找矿工作具有十分广阔的前景。     

Geology and Isotope Geochemistry of the Dongzhongla Pb–Zn Deposit in Tibet: Implications for the Origin of the Ore‐Forming Fluids and Storage Condition of Certain Metals

As a newly discovered medium‐sized deposit (proven Pb + Zn resources of 0.23 Mt, 9.43% Pb and 8.73% Zn), the Dongzhongla skarn Pb–Zn deposit is located in the northern margin of the eastern Gangdese, central Lhasa block. Based on the geological conditions in this deposit of ore‐forming fluids, H, O, C, S, Pb, Sr, and noble gas isotopic compositions were analyzed. Results show that δ¹⁸O_SMOW of quartz and calcite ranged from −9.85 to 4.17‰, and δD_SMOW ranged from −124.7 to −99.6‰ (where SMOW is the standard mean ocean water), indicating magma fluids mixed with meteoric water in ore‐forming fluids. The δ¹³C_PDB and δ¹⁸O_SMOW values of calcite range from −1.4 to −1.1‰ and from 5.3 to 15.90‰, respectively, show compositions consistent with the carbonate limestone in the surrounding rocks, implying that the carbon was primarily sourced from the dissolution of carbonate strata in the Luobadui Formation. The ore δ³⁴S composition varied in a narrow range of 2.8 to 5.7‰, mostly between 4‰ and 5‰. The total sulfur isotopic value δ³⁴S was 4.7‰ with characteristics of magmatic sulfur. The ³He/⁴He values of pyrite and galena ranged from 0.101 to 5.7 Ra, lower than those of mantle‐derived fluids (6 ± 1 Ra), but higher than those of the crust (0.01–0.05 Ra), and therefore classified as a crust–mantle mixed source. The Pb isotopic composition for ²⁰⁶Pb/²⁰⁴Pb, ²⁰⁷Pb/²⁰⁴Pb, and ²⁰⁸Pb/²⁰⁴Pb values of the ores were in the ranges of 18.628–18.746, 15.698–15.802, and 39.077–39.430, respectively, consistent with the Pb isotopic composition of magmatic rocks in the deposit, classified as upper‐crust lead. The ore lead was likely sourced partially from the crustal basement of the Lhasa Terrane. The initial (⁸⁷Sr/⁸⁶Sr)_i value from five sulfide samples ranged from 0.71732 to 0.72767, and associated ore‐forming fluids were mainly sourced from the partial melting of the upper‐crust materials. Pb isotopic compositions of ore sulfides from the Dongzhongla deposit are similar to that of the Yuiguila and Mengya'a deposit, indicating that they have similar sources of metal‐rich ore‐forming solution. According to basic skarn mineralogy, the economic metals, and the origin of the ore‐forming fluids, the Dongzhongla deposit was classified as a skarn‐type Pb–Zn deposit.     

安徽庐枞盆地龙桥铁矿床中钴的赋存状态和空间分布规律

中国东部的长江中下游、莱芜、邯邢和临汾等矿集区中发育大量的矽卡岩型铁矿床,其中普遍伴生钴,部分矿床估算伴生钴资源量大于1万t,达到中型钴矿床的规模。已有研究表明,中国东部富钴矽卡岩型铁矿床的成矿时代相同,成矿特征相似,均为中国东部130Ma大规模成矿作用的产物,反映较大规模的铁钴成矿作用受统一的动力学背景控制。钴与其他伴生组分一样,其工业价值主要不取决于矿石中钴的含量,而取决于钴的赋存状态,因此开展矽卡岩型铁矿床中钴的赋存状态和分布规律研究具有重要的理论和实践意义。龙桥矽卡岩型铁矿床位于长江中下游成矿带,是目前发现的成矿带内伴生钴含量最高的矿床。矿床主矿体长1000m,成矿岩体位于矿体中部,黄铁矿分布范围广,距离岩体中心不同距离均有分布,是研究矽卡岩型铁矿床中钴赋存状态和空间分布规律的理想对象。本次研究在龙桥铁矿床勘探巷道-370m平面自西向东采集了9件含黄铁矿样品,黄铁矿主要呈浸染状-细脉状交代磁铁矿。研究表明,龙桥铁矿床中钴主要赋存在黄铁矿和磁铁矿中,其次为独立钴矿物(主要为辉砷钴矿)。黄铁矿的LA-ICP-MS微区微量元素分析结果表明,龙桥黄铁矿中Co(0.019×10~(-6)～5639×10~(-6))、Ni(0.025×10~(-6)～5798×10~(-6))和As(0.46×10~(-6)～14526×10~(-6))的含量均具有较大的变化范围,黄铁矿总体上具有边缘富钴、核部贫钴的特征,黄铁矿边部的钴含量是核部的100～1000倍。通过对LA-ICP-MS测试数据以及时间分辨率剖面的逐一对比,推测Co主要以类质同象形式替代Fe进入黄铁矿晶格。由于钴在黄铁矿中分布极不均匀,不同空间位置采集的黄铁矿样品中Co含量平均值和变化范围没有明显规律。本文通过类比,提出中国东部矽卡岩型铁矿床中钴矿物可能是普遍存在的,但以前受限于分析测试手段未能发现;如何在选矿过程中分离富集钴矿物和富钴黄铁矿,是矽卡岩型铁矿床硫精粉中钴回收利用的关键。     

Re-Os Isotopic Age of Molybdenite of the Jingren Deposit and its Mineralogical Significance of Magnetite,Pyrite and Chalcopyrite

The Jingren deposit is part of the Qimantage metallogenic belt within the eastern Kunlun orogenic belt, the largest metallogenic belt in Qinghai Province, northwestern China. Exploration data show that the metal resources of the Jingren deposit are greater than 93000 t in a mining area of 76.15 km2, which indicates significant exploration potential in the near future. Three W–E-trending faults, F1-3, dominate the extension of the mineralization zone, which consists of chalcopyrite, pyrite, magnetite, galena, sphalerite, and molybdenite as well as bismuth-bearing minerals. The deposit contains a large amount of late Triassic intrusive rocks, however, previous research did not reach a consensus on the timing or the origin of the mineralization owing to a lack of geochronological data and poor exposure conditions. In the present study, Re-Os isotopic dating from six molybdenite samples collected from a borehole of the granodiorite in the Jingren deposit using negative thermal ionization mass spectrometry(NTIMS) showed 187 Re and 187 Os concentrations of 0.26–4.40 ppm and 1.03–16.46 ppb, respectively, with an initial 187 Os/188 Os value of 0.06 ± 0.19. This proves that the Jingren deposit has a metallogenic age of(225 ± 4) Ma and is the product of united mineralization of the Qimantage metallogenic belt and that the Jingren deposit might actually be an Indosinian metallogeny. In addition, the Re content of these samples, at 0.42 ppm to 7.00 ppm shows that the mineralization was derived mainly from a crustal source. Furthermore, electron probe microanalysis(EPMA) conducted on chalcopyrite obtained from 22 metallic mineral samples revealed(Fe + Cu)/S ratios of 1.801–1.947 with an average of 1.852, which is lower than the ideal value(1.875). Besides, the main ore body formed in a relatively higher temperature environment than the surrounding rocks in the Jingren deposit. These data indicate that the Jingren deposit formed in a metallogenic environment at lower temperature. Moreover, according to the TiO2-Al2 O3-(MgO+ MnO) and TiO2-Al2 O3-MgO genetic classification diagram for magnetite, the Jingren deposit most likely belongs to the skarn family. In addition, the Co-Ni-As genetic classification diagram of the pyrite indicates sedimentary and skarn genetic characteristics.     

Geology of gold-bearing skarn deposits in the middle and lower Yangtze River Valley and adjacent regions

The middle and lower Yangtze River Valley and adjacent regions are the most important metallogenic belt of gold (and copper)-bearing skarn deposits in China. The total gold reserves in this belt have been estimated at more than 600 t. The gold-bearing skarns are mainly distributed in the southeastern Hubei, Tongling and northern Anhui regions. Favorable tectonic settings are depressions and fold zones of the platforms, i.e., mobile belts. These skarns are hosted by platformal limestone, dolomitic limestone and dolomite of the Triassic, Carboniferous-Permian and Middle to Lower Cambrian formations. The related intrusions are Yenshanian (180 to 113 Ma) calc-alkaline quartz monzodiorite, granodiorite, quartz monzonite, monzogabbro, and their hybabyssal facies. The intrusions have high Fe₂O₃/FeO (>0.5) and intermediate initial ⁸⁷Sr/⁸⁶Sr ratios (0.7046 to 0.7087). Their REE distribution patterns are LREE-enriched and exhibit smooth, right-dipping curves. These suggest that the source materials mainly came from upper mantle, with contamination by sialic crustal components. The auriferous skarns are both calcic and magnesian, but calcic skarns are most common. The constituent minerals of the calcic skarns are diopside, garnet, wollastonite, vesuvianite and scapolite, whereas magnesian skarns are dominated by forsterite, spinel, diopside, phlogopite, chondrodite and clinohumite, with abundant superimposed serpentine, clinochlore and brucite. The compositions of coexisting pyroxenes and garnets are diopside and andradite, indicating the high oxygen fugacity and low acidity conditions. Gold is closely associated with Cu (Pb, Zn) sulfides and exists mainly in the form of native gold and electrum. Arsenides, tellurides, bismuthides and selenides are present in many ore deposits. Therefore, Cu, As, Bi, Te, Ag, Pb, Zn, Se and Co are the major metals present in the deposits and are important geochemical ore-searching indicators. In some Au (Fe, Cu) magnesian skarns, magnesiomagnetite, magnesioferrite and ludwigite are locally abundant. The metasomatic zoning in many gold skarn deposits is very distinct consisting of an outward sequence of: Fe (Cu)→Cu (Mo)→Cu (Au)→Au (Cu)→Au (Pb, Zn). The geologic characteristics of Au (Cu) skarn deposits that formed in the mobile platformal setting of China have distinct differences compared to Au skarns formed in orogenic belts at convergent plate margins in British Columbia and the western USA.     

长江中下游成矿带龙角山矽卡岩钨矿床成矿作用过程 ——来自白钨矿和石榴子石主微量元素的证据

白钨矿和石榴子石的原位微量元素特征能提供成矿流体的演化信息.长江中下游成矿带鄂东南矿集区龙角山矿床是近年发现的大型矽卡岩钨矿床,为区域找矿勘查和成科学研究提供了新的方向.龙角山矿床的流体演化和矿床成因亟待开展系统研究.文章在详细的野外工作和前人研究基础上,通过对矿床中矽卡岩阶段、退蚀变阶段和石英硫化物阶段的白钨矿和石榴...     

豫西南栾川地区铅锌矿床碳、氧同位素地球化学

豫西南地区铅锌矿产勘查工作近年来进展迅速,尤其在栾川地区先后发现十余处铅锌银多金属矿脉群、上百条含矿断裂带,铅、锌、银资源前景广阔。对该区铅锌矿的科学研究丰富了华北陆块南缘区域成矿学认识,并促进了进一步找矿勘查工作。栾川地区铅锌矿产在燕山期斑岩体周围矽卡岩中和外围的断裂带(脉状)中。脉状铅锌矿脉石矿物碳酸盐C、O同位素的组成(赤土店矿床1δ3C为-3.66‰~-2.82‰,1δ8O为10.31‰~15.86‰;百炉沟矿床1δ3C为-3.00‰~1.80‰,1δ8O为9.40‰~17.70‰;冷水北沟矿床1δ3C为-4.90‰~-0.40‰,1δ8O为6.00‰~12.50‰)介于典型海相石灰岩(1δ3C为0±2‰,1δ8O为28‰~30‰)和岩浆岩(1δ3C为-3‰~-30‰,1δ8O为6‰~12‰;地幔1δ3C为-7‰~-5‰)之间,指示成矿流体、成矿物质的岩浆和地层双重作用、两种来源特点。综合分析认为,栾川地区铅锌矿有矽卡岩型和岩浆热液充填-交代型两种。