新疆阿克陶县塔木—卡兰古铅锌矿带矿体地质特征

新疆塔木－卡兰古铅锌矿带矿床属于台缘碳酸盐岩容矿的超低温度热液成因。矿麻赋存于中泥盆统一下石炭统３个控矿的由碎屑岩与碳酸盐岩组成的古含水层中,角砾岩、矿体均具有复杂的产状,影响矿体产出了主要因素包括碎屑岩－碳酸盐岩界面、构造、低温热液交代作用以及容矿围岩的岩性,铅锌、铜、铁矿均是统一的成矿系统的一部分,锌（铅）矿围岩以碳酸盐岩为主,铜矿围岩为紫工色碎屑岩,铅矿围岩为灰白色碎屑岩,各主要矿空部及外围均存在较好的找矿前景。     

青海赛什塘铜矿床流体包裹体研究

对青海赛什塘铜矿床内与成矿有关的矽卡岩中石榴子石、透辉石及硫化物石英脉中流体包裹体的岩相学、显微测温学和显微激光拉曼光谱分析等的研究结果表明,流体包裹体有富液相、富气相和含子矿物多相包裹体3种类型;早期矽卡岩阶段均一温度436～562℃,盐度为34 wt ％～45wt％NaCl eqv.,代表了高温、高盐度岩浆流体;退变质阶段均一温度322～419℃,盐度为15wt ％～39 wt％NaCl eqv.;硫化物阶段均一温度235～366℃,盐度5wt％～36wt％NaCl eqv..激光拉曼光谱分析结果表明,包裹体中气相成分以CH4、H2S、CO2和H2O为主.成矿流体属于中高温、高盐度的NaCl-H2O-CO2-CH4体系,在290～360℃之间发生了强烈的流体沸腾作用,导致大量的金属硫化物沉淀,成矿流体的沸腾作用是导致铜矿床形成的重要因素.     

内蒙古孟恩陶勒盖银铅锌铟矿床成因研究

文章从地质特征及地球化学特征方面论证了孟恩陶勒盖矿床的成因。地质特征显示该矿床的形成与花岗岩之间不存在成因联系，矿床相对于岩浆岩围岩是后成的，花岗岩及断裂构造只是为矿床提供了储存空间。矿床地球化学特征显示该矿床的成因与可能位于深部的燕山期岩浆活动有关，成矿元素及硫主要来自岩浆，成矿流体以岩浆水为主。因此该矿床属于岩浆热液型多金属矿床。     

酸溶-电感耦合等离子发射光谱法测定密西西比型铅锌矿床矿石中的铅

密西西比型(MVT)铅锌矿床的主要矿物有方铅石、闪锌矿,常伴生有重晶石、萤石等矿物,使得MVT型矿石在酸处理过程中易生成不溶于水和酸的硫酸铅钡复盐,故而检测矿样中铅的含量偏低。本文建立了采用盐酸-硝酸-氢氟酸体系酸溶分解MVT型矿石,电感耦合等离子体发射光谱法(ICP-OES)测定铅含量的分析方法。实验比较了盐酸-硝酸-氢氟酸、盐酸-硝酸-氢氟酸-高氯酸、盐酸-硝酸-硫酸三种酸溶体系的溶样效果,并通过X射线衍射论证了方法的可行性。结果表明,盐酸-硝酸-氢氟酸体系克服了复盐硫酸铅钡和硫酸铅沉淀的生成,适量的氢氟酸促进了Pb SO4的溶解,X射线衍射表征也表明此种酸溶体系的沉淀中不含有Pb SO4,可更彻底地分解MVT型矿石。本方法精密度(RSD)为0.3%~0.6%,实际样品的加标回收率为96.0%~99.2%,铅的最佳检测范围为0.01%~20.0%。     

Magmatic Sulfide Ni-Cu Deposits in China

Deep-seated magmatic liquation-injection deposits form a major type of magmatic sulfide deposit in China. The reserves of nickel and copper in this type of deposit may attain several hundred thousand tons (e.g.Hongqi 7 and Karatunggu) to nearly ten million tons (e.g.Jinchuan). Those deposits can be classified as large or superlarge deposits. The ore grade is relatively high, commonly with w(Ni)＞1 %.The mineralized intrusions are small in size, generally only 0.0n km2 to 0.n km2, with the largest one not exceeding a few km2. Before intruding, the primary magmas have undergone liquation and partial crystallization at depth; as a result, the magmas have partitioned into barren magma, ore-bearing magma, ore-rich magma and ore magma, which then ascended and injected into the present locations once or multiple times, to form ore deposits. The above-mentioned mineralizing process is known as deep-seated magmatic liquation-injection mineralization. The volume of the barren magma is generally much larger than those of the ore-bearing magma, ore-rich magma and ore magma. In the ascending process, most of the barren magma intruded into different locations or outpoured onto the ground surface, forming intrusions or lava flows. The rest barren magma, ore-bearing magma, ore-rich magmaand ore magma may either multiple times inject into the same place in which rocks and ores are formed or separately inject into different spaces to form rocks and ores. Such deep-seated magmatic liquation-injection deposits have a much smaller volume, greater ore potential and higher ore grade than those of in-situ magmatic liquation deposits. Consequently, this mineralizing process leads to the formation of large deposits in small intrusions.     

Mineralogy,Fluid Inclusion,and Hydrogen and Oxygen Isotope Studies of the Intrusion‐Related Yangla Cu Deposit in the Sanjiang Region,SW China: Implications for Metallogenesis and Deposit Type

The Yangla deposit is an intrusion‐related Cu deposit in the Jinshajiang tectonic belt (eastern Sanjiang region, SW China). Despite extensive studies that have been conducted on this deposit, the relationship between the granitic magma and Cu mineralization is still unclear, and hence, the genesis is debated. To answer this question, we conducted an integrated study of mineralogy, fluid inclusions (FIs), and hydrogen and oxygen (H‐O) isotopes. Three mineralization stages were identified based on the ore textures, alteration zonation, and crosscutting relationships: (i) pre‐ore prograde skarn (stage I), with the garnet and pyroxene dominated by andradite and diopside, respectively; (ii) syn‐ore retrograde alteration (stage II), which is subdivided into the early syn‐ore stage (stage IIa) marked by retrograde hydrated mineral assemblages and significant Fe‐Cu‐Mo‐Pb‐Zn sulfide mineralization, and the late syn‐ore stage (stage IIb) featured by quartz‐calcite veins; and (iii) late supergene mineralization (stage III), which is characterized by secondary azurite and malachite. These results of mineralogy, FIs, and H‐O isotopes indicate that: (i) Cu mineralization has a close temporal, spatial, and genetic relationship with skarn alteration; (ii) the ore fluids were magmatic dominated with late‐stage meteoric water incursion; and (iii) Type‐S (halite‐bearing) and Type‐V (vapor‐rich) FIs coexisted in garnet and clinopyroxene of stage I, indicating that fluid boiling might have occurred during this stage. From stage I to stage IIa, the FI type transformed from Type‐S + Type‐V + Type‐L (liquid‐rich) to Type‐V + Type‐L with the conduct of mineralization and was accompanied by the disappearance of Type‐S, and homogenization temperature and salinity also tended to decrease dramatically, which may be caused by the deposition of skarn minerals. At stage IIa, boiling of the ore fluids still continued due to the change from lithostatic to hydrostatic pressure, which triggered the precipitation of abundant quartz‐Cu‐Mo‐Fe sulfides. Furthermore, fluid mixing between a high‐temperature magmatic fluid and a low‐temperature meteoric water might cause a considerable drop in temperature and the deposition of Cu‐bearing quartz/calcite veins during stage IIb. Hence, we consider the Yangla deposit to be of a skarn type, genetically related to the Mesozoic magmatism in the Sanjiang region.     

湘西金矿床构造成矿分析

本文对湘西金矿的大地构造、中、小构造、显微构造成矿进行了探索,在此基础上作了构造成矿机理分析。     

南秦岭柞水—山阳矿集区夏家店金矿床黄铁矿微量元素和氢、氧、硫同位素对矿床成因的制约

为了研究柞水—山阳矿集区夏家店金矿床成因,采用LA-ICP-MS和LA-MC-ICP-MS技术分析夏家店金矿床矿体及围岩样品中黄铁矿原位微量元素及氢、氧、硫同位素组成特征。结果表明,该矿床黄铁矿的Co/Ni 比值为0.11~0.76,说明其与沉积作用有关。矿石中黄铁矿的δ³⁴S值(-9.40‰~7.16‰)与围岩碳质板岩的δ³⁴S值(-8.84‰~10.64‰)接近,黄铁矿的δ³⁴S均值(2.47‰)基本落在岩浆硫的范围内,指示矿石硫可能由地层硫和岩浆硫混合而成。氢、氧同位素测试结果表明,夏家店矿床成矿流体可能主要来自岩浆水,成矿后期有大气降水的加入。综合矿床地质特征、成矿温度、金赋存状态等特征和黄铁矿微量元素、硫同位素组成可知,夏家店金矿床属于卡林型金矿,其成矿流体主要来自岩浆水,成矿后期有大气降水加入;其成矿物质是由深部岩浆与地层混合而成。     

杭州湾庵东浅滩现代沉积物中的生物遗迹

杭州湾庵东浅滩沉积物中发现有多种造迹生物,主要有蝼蛄、泥甲虫、宁波泥蟹、珠带拟蟹守螺、泥螺、弹涂鱼、蚂蚁和鸟类等,营造的生物遗迹主要为觅食迹、居住迹和爬行迹(爬迹、拖迹和鸟足迹)等。分析表明,浅滩不同亚环境的造迹生物及其遗迹的主要类型和分布特征具有明显的差异性: (1)在潮上带植被茂密的草滩环境中,以层面上的生物觅食迹、居住迹和鸟足迹为主,造迹生物主要有蝼蛄、泥甲虫、蚂蚁和鸟类等,其中以蝼蛄的潜穴最为丰富。(2)在高潮滩的积水泥沼环境中,有大量近海喜盐植物,生物遗迹主要有宁波泥蟹的“J”形、“W”形和“Y”形潜穴、弹涂鱼的羽状爬迹、珠带拟蟹守螺在层面上营造的弧形、圆圈状的觅食迹和“C”形的条带状生殖迹。(3)在中、低潮间带的粉砂质环境中,以层面上珠带拟蟹守螺不规则的觅食迹为主。生物遗迹的分布与浅滩沉积底质沉积物粒度与含水量等特征密切相关。本研究不仅丰富了杭州湾浅滩沉积的新遗迹学研究,而且对古代潮汐沉积及其环境研究有重要的借鉴意义。     

会泽超大型富锗银铅锌矿床矿化-蚀变分带规律及构造的控制作用

会泽超大型富锗银铅锌矿床是川—滇—黔铅锌多金属成矿区滇东北矿集区的典型代表。基于大量的地表调研和坑道精细编录,通过赋矿白云岩的岩石学、地球化学与矿化蚀变分带规律、构造对矿化-蚀变带控制作用的研究,认为赋矿粗晶白云岩是成矿过程中白云石化的产物,具有典型的热液蚀变成因,与沉积-成岩成因的摆佐组细晶白云岩、白云质灰岩明显不同;根据矿石和蚀变围岩中铅锌矿物组成与矿化、蚀变程度及其分布特征,该矿床矿化-蚀变分带规律:从矿体到围岩依次为铅锌矿石—铅锌矿化黄铁矿带→铅锌矿化/黄铁矿化粗晶白云岩带→灰白色粗晶白云岩带、米黄色粗晶白云岩带、肉红色粗晶白云岩带、网脉状白云石化灰岩带(蚀变残留体)、弱白云石化灰岩带。矿化-蚀变带明显受冲断褶皱构造(矿山厂、麒麟厂、银厂坡斜冲断层及其派生褶皱)上盘的层间断裂带控制,形成了典型的"成矿构造-蚀变白云岩-铅锌矿体"的矿化结构。该认识不仅丰富了会泽型(HZT)铅锌矿床成矿理论,而且对指导滇东北铅锌矿集区,乃至川滇黔成矿区的资源危机矿山的综合地质研究与找矿勘查具有重要的现实意义。