对煤中锗矿化若干问题的思考——以临沧锗矿为例

本文在综述煤中锗矿化国内外研究现状的基础上，以临沧锗矿为例，深入讨论了在煤系地层中形成超大型独立锗矿床的特殊条件。结果表明，煤是锗成矿极有利的围岩，煤能否富集锗主要取决于有无富锗流体与煤相互作用。     

贵州大厂锑矿有机质与有机成矿作用

用有机地球化学方法对矿区与右江盆地有机质的分析研究表明，容矿的大厂层有机碳与锑含量相对较高；有机包裹体主要是气态烃包裹体与沥青包裹体，在气态烃包裹体中含0％～30％的液态烃，发暗黄色荧光；有机气相成分中四种烷烃甲烷、乙烷、丙烷、丁烷均有显示；从主成矿期萤石中的沥青及右江盆地再沉积火山碎屑岩中的干酪根的生物标志物测定结果来看，二者在正烷烃、类异戊二烯烷烃、萜烷与甾烷标志物特征上较为接近，表明右江盆地沉积物中的有机质与锑矿中的有机质有亲缘关系。模拟实验证明原油对锑有较强的萃取迁移能力；而有机质在锑成矿过程中主要起三方面的作用：淋滤、萃取迁移及还原沉淀。     

临沧锗矿床的稀土元素地球化学研究

通过对临沧锗矿床中基底花岗岩、矿化煤以及硅质岩的稀土元素地球化学研究认为盆地基底花岗提供了形成锗矿化的锗和形成硅质岩的硅；本区陆相热水成因硅质岩的Ce异常不明显，相对富集LREE；矿化煤相对富集HREE，这可能主要与矿化煤在含锗热液的相互作用过程中，煤对重烯土的优先富集有关。     

云南大平掌铜-多金属矿床成矿金属来源初探

大平掌铜-多金属矿床是我国西南“三江”地区新发现的火山岩型块状硫化物矿床,微量元素、稀土元素及铅同位素地球化学研究表明,成矿金属元素主要来源于对流循环的海底热卤水对火山岩围岩的淋滤作用。成矿过程中细碧岩、角斑岩、石英角斑岩均可能提供较多的Cu、Au,角斑岩、石英角斑岩可能贡献较多的Pb,而角斑岩则可能提供较多的Zn。     

Helium and argon isotopic geochemistry of Jinding superlarge Pb-Zn deposit

The study results of He and Ar isotopes from fluid inclusions in pyrites formed during mineralization stage of Jinding superlarge Pb-Zn deposit in west Yunnan, China are reported. The data show that the⁴⁰Ar/³⁶Ar and³He/⁴He ratios of fluid inclusions are respectively in the range of 301. 7–385. 7 and 0. 03–0.06Ra, suggesting the oreforming fluid is a kind of air saturated meteoric groundwater. On the basis of research on coupled relationships among He, Ar, S and Pb isotopes, the evolution history of ore-forming fluid of the deposit can be summarized as (i) air saturated meteogenic groundwater infiltrated down and was heated→ (ii) leached S, C and radiogenic He, Ar from the basinal strata → (iii) leached Pb and Zn from mantle-derived igneous rocks located in the bottom of the basin→ (iv) ore-forming fluid ascended and formed the deposit. Due to this process, the isotope signatures of crustal radiogenic He, atmospheric Ar (with partial radiogenic⁴⁰Ar), crustal S and mantle-derived Pb remained in the ore-forming fluid. Project supported by A30 Project of the National Climbing Program of China and University of Manchester.     

临沧锗矿床成因初探

本文根据临沧锗矿床中富锗煤与硅质岩的空间分布规律，富锗煤中黄铁矿的硫同位素组成，锗在矿化煤层中的品位变化规律以及硅质岩的地球化学特征，探讨了分散元素锗形成独立矿床的可能机制，研究结果表明，与矿化煤层互层的硅质岩为热水沉积成因，矿化煤层中的锗主要来自形成硅质岩的热水溶液，而这种热水溶液中的锗则主要由盆地基底的富锗花岗岩所提供。     

The Genesis of Lincang Germanium Deposit—A Preliminary Investigation

The mechanism of formation of the Lincang germanium deposit is discussed in the light of the spatial distribution of Ge-rich coal and siliceous rocks,the sulfur isotopic composition of pyrite in the Ge-rich coal,the variation of Ge abundance in the coal seams and the geochemical characteristics of the siliceous rocks.The results show that the siliceous rocks intercalated with the coal seamw were deposited from a hyrothermal medium through which germanium was enriched in the coal beds.The primary source of germanium is thought to be the Gerich granite in the basement of the sedimentary basin.     

Relations between A-type granites and copper mineralization as exemplified by the Machangqing Cu deposit

This paper deals with the relations between the Machangqing rockbody which corresponds to the A-type granites and porphyry copper mineralization in terms of petrochemistry, trace element geochemistry, fluid inclusion geochemistry and isotope geochemistry. The results show that the Machangqing porphyry copper deposit was formed from the fluid predominated by mag-matic fluid. This kind of ore-forming fluid was just differentiated from the magma responsible for the A-type granites. Therefore, as viewed from whether they contain water or not, the A-type granites can, at least, be divided into two types: water-bearing and water-free. The water-bearing A-type granites can serve as the host of porphyry copper deposits under certain geological conditions.     

Evidence for a magmatic origin for Carlin-type gold deposits: isotopic composition of sulfur in the Betze-Post-Screamer Deposit, Nevada, USA

We report here new sulfur isotope analyses from the Betze-Post-Screamer deposit, the largest Carlin-type gold deposit in the world. Carlin-type deposits contain high concentrations of arsenic, antimony, mercury, tellurium and other elements of environmental interest, and are surrounded by large volumes of crust in which these elements are also enriched. Uncertainty about the source of sulfur and metals in and around Carlin-type deposits has hampered formulation of models for their origin, which are needed for improved mineral exploration and environmental assessment. Previous studies have concluded that most Carlin-type deposits formed from sulfide sulfur that is largely of sedimentary origin. Most of these studies are based on analyses of mineral separates consisting of pre-ore diagenetic pyrite with thin overgrowths of ore-related arsenian pyrite rather than pure, ore-related pyrite. Our SIMS spot analyses of ore-related pyrite overgrowths in the Screamer zone of the Betze-Post-Screamer deposit yield δ³⁴S values of about −1 to 4‰ with one value of about 7‰. Conventional analyses of realgar and orpiment separates from throughout the deposit yield δ³⁴S values of about 5–7‰ with one value of 10‰ in the Screamer zone. These results, along with results from an earlier SIMS study in the Post zone of the deposit and phase equilibrium constraints, indicate that early arsenian pyrite were formed from fluids of magmatic origin with variable contamination from sulfur in Paleozoic sedimentary rocks. Later arsenic sulfides were formed from solutions to which sulfur of sedimentary origin had been added. The presence of Paleozoic sedimentary sulfur in Carlin-type deposits does not require direct involvement of hydrothermal solutions of sedimentary origin. Instead, it could have been added by magmatic assimilation of Paleozoic sedimentary rocks or by hydrothermal leaching of sulfur from wall rocks to the deposit. Thus, the dominant process delivering sulfur, arsenic, gold and mineralizing fluids to Carlin-type systems and their surrounding country rocks was probably separation of fluids from a magmatic source. Editorial handling: G. Beaudoin     

Relation of Carlin-type gold mineralization to lithology,structure and alteration: Screamer zone,Betze-Post deposit,Nevada

An evaluation of the relation between geologic features and gold grade has been undertaken in the Screamer zone of the Betze-Post deposit, the largest Carlin-type gold deposit in the world. Screamer, which forms the western end of Betze-Post, is a stratiform ore zone that is hosted almost entirely by the wispy member of the Popovich Formation. The wispy member is overlain by the planar member of the same formation and underlain by the Roberts Mountains Formation, both of which contain much smaller amounts of gold mineralization in the Screamer zone. Geologic features recognized at Screamer reflect the long history of events that have affected the area since mid-Paleozoic time. The two earliest events at Screamer were probably sulfidation and formation of flat fractures, and the two latest events were pyritization and formation of kaolinite-filled fractures, which took place at least partly during gold mineralization. Gold mineralization at Screamer shows ambiguous relations to most lithologic, alteration and structural features. For instance, gold grades in the wispy member of the Popovich Formation are slightly higher in rock units that contain the largest proportion of debris flow material, but this relation does not account for most ore. The correlation of gold grades with fracture density is also generally poor, but gold grades are slightly higher in samples containing vertical and/or kaolinite-bearing fractures, particularly those with a northeasterly trend. Most early veins at Screamer are horizontal and most later veins are vertical, suggesting that the long-term trend of fluid pressures in the area has been from lithostatic to hydrostatic. Finally, gold grades correlate poorly with silicification and decarbonatization, and although some gold appears to be associated with rock containing kaolinite, much is not. The only rock feature that shows a direct relation to gold grade is pyrite. Some pyrite formed by sulfidation of the original rock, but much of it formed by addition of pyrite to the rock. Stability limits for ore and alteration assemblages at Screamer indicate that pressures of mineralization were probably not less than about 300 bar, which require depths of about 3 km for the hydrostatic conditions that probably prevailed in the Betze-Post hydrothermal system.