塔里木-中朝准地台北部内生磷矿成矿带研究

塔里木一中朝两个准地台相关构造-岩浆带中,有两个巨大的超基性-碱性-碳酸岩杂岩型磷矿成矿带。塔里木准地台北缘巴楚-柯坪区、黑应山区、焉耆县胡拉沟区、赛列克布拉克-且干布拉克-阔克塔格区、团结村-北山区等是一个与碱性杂岩有关的磷、蛭石、铁、铌、钽、铍、锆石、稀土等系列矿种的成矿带。中朝准地台北部可划分出蒙中卓资-兴和区、阳原-怀来区、蓟县东部区、兴隆-青龙-绥中区、辽宁凤城-朝鲜朔州区等磷成矿远景区,其中阳原、怀来区中还可进一步确定出5个磷矿找矿靶区。     

西秦岭礼岷前陆盆地构造演化与多金属成矿探讨

礼岷前陆盆地经历了早期深海—半深海的复理石沉积阶段和晚期陆相磨拉石沉积阶段。该盆地在成盆及盆山转换过程中在其前渊、隆后盆地以及褶皱冲断带内形成了Au、Ag、Pb、Zn、Cu、Mo等多金属矿床。     

江西银山铜铅锌金银矿床成矿流体及成矿机制研究

银山铜铅锌金银矿床住于江西省德兴市乐德成矿带中段，是我国南方规模巨大的铜铅锌金银矿化集中区。区内构造复杂、岩浆活动频繁，具有独特的成矿环境和有利的区域成矿背景。本文主要研究了银山矿床成矿流体种类、成矿温度、流体盐度、成矿物质来源和成矿机理。根据包裹体均一温度、盐度、成分和氢氧同位素等资料，推断本区成矿流体早期以岩浆热液为主，与铜金矿化关系密切。岩浆热液演化过程中与富含有机质的大气降水不断混合，由于有机质的作用，带来了从围岩中活化、萃取的有用元素，晚期铅锌银矿化与富含有机质的热液流体关系密切。研究表明流体的沸腾对矿质沉淀意义有限．而多种流体的混合在成矿过程中起了重要作用．其中有机流体在成矿中的作用不容忽视。     

Crust-Mantle Structure and Coupling Effects on Mineralization： An Example from J iaodong Gold Ore Deposits Concentrating Area, China

Based on the results of two-dimension velocity structure, 1 : 100 000 aeromagnetic anoma-ly, 1 : 200 000 bouguer gravity anomaly and seismic anisotropy of Jiaodong and neighboring region in Shandong, China, the information of geophysical field was divided into two parts: deep- and shallow-focus fields. And then, the information of two different fields was combined with that of deep-seated ge-ology and ore deposit features. The synthetic result was adopted to analyze three-dimension structure, to probe into crust-mantle coupling effects of mineralization and dynamics of ore formation system.     

青海东昆仑造山型金矿硫、铅同位素地球化学

对青海东昆仑地区典型金矿床基本地质特征及岩(矿)石S、Pb同位素地球化学进行了研究，认为矿床具有相似的地质-地球化学特征，并与这里的造山过程有密切的成因联系，为典型的造山型金矿床；硫化物S同位素组成变化较大且出现两个峰值，塔式分布效应明显；Pb同位素组成分布集中、比值较高且矿床围岩与矿石的Pb同位素组成十分接近，反映硫、铅等成矿物质主要来自围岩地层；晚古生代-早中生代强烈的俯冲与碰撞作用产生了深断裂、大型剪切带及次一级的褶皱和断裂-裂隙控矿构造，并诱发了流体成矿作用，从而导致区内数个大中型金矿床和矿点的形成与规律性分布。     

北山地区照壁山金矿床地质特征及成因

照壁山金矿床是北山地区中部金矿集中区最具代表性的金矿床之一,金矿化主要在黑云母花岗岩株内或沿其与志留系公婆泉群火山-沉积岩的接触带产出,黑云母⁴⁰Ar-³⁹Ar同位素年龄为296±5 Ma.金矿体主要由含金石英脉,网脉和细脉浸染状块体组成,金属矿物主要有黄铁矿、方铅矿、闪锌矿、黄铜矿、自然金和银金矿,脉石矿物为石英和绢云母.围岩蚀变自含金矿脉(体)向外,分别为硅化、绢云母化和绿泥石化;另外,沿岩体与火山-沉积岩接触带常可观察到黄铁绢英岩化.微量元素和硫、氧、氢及铅同位素数据表明:黑云母花岗岩是同碰撞造山期深源岩浆与地壳物质相互作用的结果,成(岩)矿物质主要来自壳幔混合源,含矿热液是岩浆热流体与大气降水混合的产物.海西期花岗质岩浆活动不仅为金矿床的形成提供了物质和热力来源,而且是成矿热液对流循环的"发动机",成矿体系温、压降低是导致金沉淀与富集的重要控制因素.     

闽西北地区中生代花岗岩类成矿作用探讨

闽西北中生代花岗岩总体上可分为重熔型和同熔型两种类型。根据研究区两种类型花岗岩产出构造部位，成岩物质来源以及成矿元素本身地球化学属性之间的差异；结合岩矿石多元素统计分析，岩石稀土元素特征及其配分型式，单矿物微量元素比值，铅同位素、氢氧同位素特征等，较系统地阐述了闽西北地区重熔、同熔型花岗岩类的成矿特点。     

Biogeochemical Prospecting of Sulphide Minerals in Winder Valley, Balochistan, Pakistan

Abstract: The Mor Range is mountainous terrain in southern Balochistan dominantly occupied by exposures of rocks of the Ferozabad Group which is comprised of Lower‐Middle Jurassic carbonates and siliciclastics. This group contains syngenetic and epigenetic Zn–Pb–Ba mineralization classified as Stratiform Sediment‐Hosted (SSH) and Mississippi Valley Type (MVT) deposits. Three important flora of the Saharo–Sindian, phytogeographical region of Pakistan, namely Tamarix aphyl–la, Salvadora oleoides and Acacia arabica have been studied as a mineralization prospecting tool. Samples of these species were collected from Winder Valley adjoining the Mor Range to prospect for new areas of mineralization, besides the known sulphide deposits. This study revealed the Draber, Thorar, Raj, Mithi and Kanrach localities as new prospect. Quantitative estimation of biophile elements (Zn–Cu–Pb) from the three species was made. A number of new Zn, Cu and Pb anomalies were distinguished in the area. The variation in the constituents of these species from different localities possibly varies with nature and distance from bedrock, mobility, climate, average abundance in the plant ash and exclusion mechanism of the flora. Acacia arabica with deep penetrating roots shows the best results and could be used to delineate new horizons of mineralization. In these species Zn and Cu are relatively concentrated whereas Pb shows limited enrichment. Lead therefore is the element best suited for pinpointing the mineralization owing to its relatively less mobile character. Relationships among Zn–Cu–Pb have been established using scattergrams and triangular variation diagram, which also demonstrate their genetic affiliation. Statistical analyses, such as determination of mean, mode, median, standard deviation, and coefficient of correlation, were also made to improve the raw geochemical data. These biogeochemical methods appear to be suitable in arid climate of Balochistan, if proper attention is paid to species selection.     

Mid–Cretaceous Episodic Magmatism and Tin Mineralization in Khingan-Okhotsk Volcano–Plutonic Belt, Far East Russia

Abstract: Age of magmatism and tin mineralization in the Khingan‐Okhotsk volcano–plutonic belt, including the Khingan, Badzhal and Komsomolsk tin fields, were reviewed in terms of tectonic history of the continental margin of East Asia. This belt consists mainly of felsic volcanic rocks and granitoids of the reduced type, being free of remarkable geomagnetic anomaly, in contrast with the northern Sikhote‐Alin volcano–plutonic belt dominated by oxidized‐type rocks and gold mineralization. The northern end of the Khingan‐Okhotsk belt near the Sea of Okhotsk, accompanied by positive geomagnetic anomalies, may have been overprinted by magmatism of the Sikhote‐Alin belt. Tin–associated magmatism in the Khingan‐Okhotsk belt extending over 400 km occurred episodically in a short period (9510 Ma) in the middle Cretaceous time, which is coeval with the accretion of the Kiselevka‐Manoma complex, the youngest accretionary wedge in the eastern margin of the Khingan‐Okhotsk accretionary terranes. The episodic magmatism is in contrast with the Cretaceous‐Paleogene long–lasted magmatism in Sikhote–Alin, indicating the two belts are essentially different arcs, rather than juxtaposed arcs derived from a single arc. The tin‐associated magmatism may have been caused by the subduction of a young and hot back‐arc basin, which is inferred from oceanic plate stratigraphy of the coeval accre‐tionary complex and its heavy mineral assemblage of immature volcanic arc provenance. The subduction of the young basin may have resulted in dominance of the reduced‐type felsic magmas due to incorporation of carbonaceous sediments within the accretionary complex near the trench. Subsequently, the back‐arc basin may have been closed by the oblique collision of the accretionary terranes in Sikhote–Alin, which was subjected to the Late Cretaceous to Paleogene magmatism related to another younger subduction system. These processes could have proceeded under transpressional tectonic regime due to oblique subduction of the paleo‐Pacific plates under Eurasian continent.     

Hydrothermal Gold Mineralization at the Rodnikovoe Deposit in South Kamchatka, Russia

Abstract. The Rodnikovoe gold deposit situated in a presently active hydrothermal system located north of the Mutnovsko-Asachinskaya geothermal area in southern Kamchatka, Far Eastern Russia, consists of typical low-sulfidation quartz-adularia veins in a host rock of diorite. The age of the mineralization was dated by the K-Ar method as 0.9 to 1.1 Ma based on adular-ia collected from the veins. Representative ore minerals in the deposit are electrum, argentite, aguilarite, polybasite, pearceite and lenaite. Dominant alteration minerals are adularia, α-cristobalite, chlorite, illite and kaolinite. Hydrothermal solutions of neutral pH were responsible for the mineralization, which is divided into six stages defined by tectonic boundaries. Gold mineralization occurred in stages I and III. Hydrothermal brecciation occurred during stages III, IV and VI. Stages II, IV, V and VI were barren. The estimated ore formation temperature based on a fluid inclusion study is 150 to 250 °C at a depth of approximately 170 m below the paleo-water table. Boiling of hydrothermal fluids is hypothesized as the cause of the intermittent deposition of gold ore. The sulfur and oxygen fugacities during the deposition of anhydrite prior to the hydrothermal brecciation were higher than those during the gold mineralization stages. The occurrence in the hydrothermal breccia of fragments of high grade Au-Ag and polymetallic ores suggests that higher grade mineralization of these metal ores might have occurred in a deeper portion of the deposit.