Discovery of Cu-Zn,Cu-Sn intermetallic minerals and its significance for genesis of the Mianning-Dechang REE Metallogenic Belt,Sichuan Province,China

Mianning-Dechang Himalayan REE Metallogenetic Belt in Sichuan Province lies along the western margin of the Yangtze Craton. We have conducted detailed mineralogical studies on ore minerals collected from Maoniuping and Dalucao, the two largest deposits in the belt. With optical microscope, SEM/EDS, and EPMA, three rare intermetallic minerals, i.e., zinccopperite (Cu2Zn), Sn- bearing native copper, and Cu-bearing jupiter were found to occur in the main ore along with barite, fluorite, apatite, sulfide and bastnaesite. Since the conditions under which zinccopperite and Sn- bearing native copper formed are quite unique, finding of these minerals, for the first time in domestic REE deposits, has significant implications for the genesis of the ore deposits in which they occur. In comparison with Cu-Zn intermetallic minerals in other occurrences, we propose that the formation of this REE metallogenetic belt is associated with fast upwelling of the Himalayan magma from deep source.

东秦岭钼矿带内碳酸岩脉型钼(铅)矿床地质-地球化学特征、成矿机制及成矿构造背景

东秦岭钼矿带位于华北板块南缘,NW—NWW向的固始?栾川深断裂带控制着钼矿床的空间分布。黄水庵碳酸岩脉型钼(铅)矿床的确定,为本矿带内已有碳酸岩脉型钼(铅)矿床(黄龙铺地区的大石沟、石家湾和桃园等)增添了又一新成员。本矿带不仅钼金属储量居世界已知单个钼矿带之首,而且碳酸岩脉和花岗斑岩两个成矿体系并存,亦是本区钼矿带的一大特色。业已查明,黄水庵和黄龙铺(大石沟)等碳酸岩脉型钼(铅)矿床的δ13C=-5.3‰～-7.0‰,87Sr/86Sr=0.7049～0.7065。同时,方解石富含轻稀土(LREE/HREE=1.8～2.9)。辉钼矿以富含Re(平均为110×10-6～244×10-6)为特征。基于含矿碳酸岩脉方解石的Sr、Nd、Pb同位素比值(87Sr/86Sr对206Pb/204Pb、207Pb/204Pb对206Pb/204Pb和143Nd/144Nd对87Sr/86Sr)的关系图,我们初步判断本矿带区域陆壳之下可能存在有EMI(富集地幔Ⅰ),这些含矿碳酸岩脉是源于EMI的碱性硅酸盐-碳酸盐熔体-溶液结晶分异的产物,成矿金属Mo、Pb主要来自EMI。根据黄水庵和黄龙铺(大石沟)钼(铅)矿床的成矿年龄(Re-Os年龄分别为209.5Ma和221Ma),我们推断,碳酸岩脉型钼(铅)矿床形成于华北和扬子两大板块三叠纪碰撞造山后伸展阶段的晚三叠世时期,而在侏罗纪陆内造山晚期的伸展阶段,形成了晚侏罗-早白垩世的斑岩型和斑岩-矽卡岩型钼矿床(Re-Os年龄介于147～116Ma)。

安徽庐江泥河铁矿矿床地球化学特征及其对成因的制约

泥河铁矿位于长江中下游成矿带庐枞中生代火山岩盆地中,矿床具有典型玢岩型铁矿的地质特征,是研究玢岩型铁矿成因的良好对象。本次工作在详细的野外观察及室内研究的基础上,对泥河铁矿主成矿期矿石矿物的稀土元素、硫同位素及铅同位素进行了分析测试工作。主成矿期磁铁矿、黄铁矿稀土元素配分模式呈现LREE富集、HREE曲线平直、Eu轻微负异常的特征,与赋矿砖桥组熔岩、闪长玢岩的稀土元素配分模式较为一致,结合矿石矿物与围岩的铅同位素特征,推测成矿金属元素主要来源于赋矿的火山-次火山岩,可能有少量壳源物质的加入。黄铁矿与硬石膏的硫同位素表现出双峰式分布的特征,说明岩浆活动与三叠纪膏盐层均对硫有所贡献。三叠纪膏盐层在泥河铁矿的成矿过程中,不仅仅是重要的矿化剂,同样是铁质沉淀的氧化剂。综合矿床地质与地球化学特征,认为泥河铁矿是由次火山岩体演化产生的含矿高温热液在闪长玢岩穹窿顶部,通过交代充填作用形成的玢岩型铁硫矿床。