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31.
折腰山矿区含铁硅质岩赋存于含矿岩系与上部岩系间的沉积间断界面。含铁硅质岩矿物主要由细晶石英和赤铁矿组成,二者含量占90%以上,含少量的绢云母、钠长石、绿泥石等。该含铁硅质岩具有低的TiO2、A12O3和高的成矿元素(Fe、Cu、Pb、Zn)含量特征。Al/(Al+Fe+Mn)值具有热水沉积岩特征。在Fe-Mn-Al三角图解、Fe-Mn-(Cu+Co+Ni)×10三角图解和Zr-Cr图解中,该区含铁硅质岩均落在热水沉积岩区域中,含铁硅质岩的稀土元素总量很低,其北美页岩标准化配分模式为右倾曲线,具有弱的负Eu异常或正Eu异常和负Ce异常。部分样品MnO/TiO2值偏小,U/Th值偏大,Al2O3含量较高,出现负Eu异常,表明该矿区含铁硅质岩也有正常沉积硅质岩成分的加入。结合含铁硅质岩的地质产状、含矿岩系(石英角斑质凝灰岩)和含矿石英的稀土元素特征,认为含铁硅质岩的物源主要为石英角斑质凝灰岩,属于与火山作用有关的非生物成因类型,是该铜多金属矿田重要的找矿标志。 相似文献
32.
宫同伦 《地球科学与环境学报》1991,(1)
本文用动力成矿观点对小秦岭金矿田富矿体的形成提出了新的解释,对本区的动力成矿特点作了较详细的说明。文中联系到地壳演化的不同阶段对金矿的富化过程进行了较深入的讨论,并提出了新的成矿系列。笔者以基础地质、大地构造和同位素年龄资料为依据对小秦岭金矿田含金石英脉的成因提出了与前人不同的新观点,认为它是晋宁晚期岩浆期后热液矿床。 相似文献
33.
世界上绝大部分锡矿床均与富F、Cl、Li、B等挥发份的高分异花岗岩有关,前人对F、Cl、Li等组份在花岗质岩浆演化及锡成矿过程中的作用已有较为深入的认识,但对挥发份B关注较少。南岭中段的芙蓉超大型锡矿床是我国重要锡矿产地,我们首次在该矿床发现了硼硅酸盐矿物中罕见的斧石,为研究挥发份B对锡成矿的作用提供了机会。通过详细的岩石学、矿物学和地球化学研究,揭示了斧石的产出特征、晶体结构和化学成分特征,进而探讨了挥发份B与该区花岗岩成岩成矿的关系。芙蓉锡矿床新发现的斧石为丁香褐色、块状构造、硬度较大,显微镜下呈无色、浅黄色等,主要为自形尖劈状的楔形、长条状等自形结构、正高突起、干涉色较低,与符山石、萤石、石榴子石、榍石等矿物共生。电子探针分析表明,芙蓉矿床的斧石属铁斧石,其平均化学式为Ca_(2.22)(Fe_(0.52),Mn_(0.41),Mg_(0.13))1.06Al_(2.11)B_(0.72)Si_(3.98)O_(15.5)。结合前人研究成果,芙蓉矿床斧石、电气石、硼镁铁矿等富B矿物的广泛产出,指示了骑田岭花岗岩富含挥发份B;硅酸盐熔体中挥发份B的存在,能降低岩浆粘度,增加岩浆的结晶分异程度,延长岩浆寿命,进而有利于Sn等不相容元素在岩浆演化过程中向残余熔体富集。B与锡成矿的关系密切,岩浆中的B能提高源区Sn的萃取效率,增加原始岩浆中Sn的含量;B能形成锡的络合物,有利于锡的长距离运移;B与Sn具有相似的地球化学行为,在岩浆演化过程中,富集于残余熔体中,进一步演化后富集于成矿流体中。此外,在芙蓉锡矿床,随着含B矿物的不断被发现,表明该矿床可能具有寻找伴生硼矿的潜力。 相似文献
34.
广西大厂锡多金属矿田西矿带稀散元素铟的富集规律研究——来自矿石组构和闪锌矿地球化学的证据 总被引:7,自引:2,他引:5
广西大厂锡多金属矿田是世界最主要的铟产地之一,对其的富集机制还有很大争议。文章以大厂矿田西矿带高峰矿床和铜坑矿床中的闪锌矿为研究对象,在野外和室内矿相显微观察的基础上,应用高精度电子探针与等离子体质谱分析手段,研究稀散元素铟的空间分布规律、赋存状态及与主成矿元素的关系,揭示其在闪锌矿中的富集规律。实验结果表明,铜坑矿床中闪锌矿内稀散元素铟的含量随深度增加而减少,而高峰矿床中铟含量却保持稳定;铟主要以类质同象形式赋存,与铜以双替代锌的形式进入闪锌矿晶格中,也不排除铟以微细包体形式赋存的可能。结合前人研究,推断燕山晚期复式岩体岩浆演化末期花岗斑岩侵位冷却过程中,岩浆结晶产生的富铟、铜等流体对早期生成的闪锌矿进行交代并富集。这一研究结果为寻找稀散元素铟指示了方向。 相似文献
35.
福建省紫金山矿田龙江亭矿床地质和成矿流体特征及成因意义 总被引:1,自引:0,他引:1
龙江亭矿床地处福建省紫金山矿田的西南部,矿体受北西向断裂控制,产于燕山早期中细粒花岗岩中。含矿岩体整体遭受硅化-绢云母化-伊利石化-蒙脱石化,浅部为强硅化-迪开石化,深部保留有钾化;后期蚀变主要分布在地表,为硅化-高岭土化和褐铁矿化,偶见萤石化、重晶石化、石膏化。矿物组合和穿插关系显示,成矿前为无矿石英脉;成矿期脉体矿物组合为石英-绢云母-黄铁矿-铜硫化物;成矿后脉体矿物组合为石英-方解石±石膏。根据矿石组构和铜硫化物类型,成矿期脉体可细分为3个亚类或阶段:早阶段为黄铁矿-黄铜矿组合,浸染状和网脉浸染状构造,见于矿体深部;中阶段为黄铁矿-黄铜矿-斑铜矿-硫砷铜矿组合,具梳状、胶状或皮壳状构造,见于矿体中部;晚阶段为蓝辉铜矿-铜蓝组合,浸染状或晶簇构造,见于浅部坑道和地表。早阶段脉体矿物含大量富液相包裹体,少量富气相包裹体,均一温度为262~403℃,w(Na Cleq)介于0.2%~18.6%,显示中-高温热液的特征;中阶段脉体中的包裹体几乎全部均一到液相,完全均一温度为201~302℃,峰值为250℃,w(Na Cleq)介于0.2%~10.1%,总体显示中-低温热液的特征;晚阶段包裹体全部均一到液相,均一温度为117~250℃,w(Na Cleq)介于0.4%~9.5%之间,表现出低温、低盐度大气降水热液的特征。根据蚀变类型确定成矿期logf(O2)=-42~-38,p H值=3~5;根据金属矿物组合估算出中阶段logf(S2)=-9±,晚阶段logf(S2)=-6.5±。龙江亭矿床硫逸度-温度变化规律不同于世界上其他岩浆-流体成矿系统,可能经历了2次成矿事件,后期的高硫型浅成低温热液成矿作用叠加在早期的斑岩型矿床之上,一方面造成了复杂多样的蚀变类型、矿物组合和矿石组构,另一方面继承、残留了斑岩型矿床的特征。因此,其属于叠合成因的斑岩型-浅成低温热液型矿床,而非斑岩型与浅成低温热液型之间的过渡。 相似文献
36.
Gang Yu Jiangfeng Chen Chunji Xue Yuchuan Chen Fukun Chen Xiaoyue Du 《Ore Geology Reviews》2009,35(3-4):367-382
The Qingchengzi orefield in northeastern China, is a concentration of several Pb–Zn, Ag, and Au ore deposits. A combination of geochronological and Pb, Sr isotopic investigations was conducted. Zircon SHRIMP U–Pb ages of 225.3 ± 1.8 Ma and 184.5 ± 1.6 Ma were obtained for the Xinling and Yaojiagou granites, respectively. By step-dissolution Rb–Sr dating, ages of 221 ± 12 Ma and 138.7 ± 4.1 Ma were obtained for the sphalerite of the Zhenzigou Zn–Pb deposit and pyrargyrite of the Ag ore in the Gaojiabaozi Ag deposit, respectively. Pb isotopic ratios of the Ag ore at Gaojiabaozi (206Pb/204Pb = 18.38 to 18.53) are higher than those of the Pb–Zn ores (206Pb/204Pb = 17.66 to 17.96; Chen et al. [Chen, J.F., Yu, G., Xue, C.J., Qian, H., He, J.F., Xing, Z., Zhang, X., 2005. Pb isotope geochemistry of lead, zinc, gold and silver deposit clustered region, Liaodong rift zone, northeastern China. Science in China Series D 48, 467–476.]). Triassic granites show low Pb isotopic ratios (206Pb/204Pb = 17.12 to 17.41, 207Pb/204Pb = 15.47 to 15.54, 208Pb/204Pb = 37.51 to 37.89) and metamorphic rocks of the Liaohe Group have high ratios (206Pb/204Pb = 18.20 to 24.28 and 18.32 to 20.06, 207Pb/204Pb = 15.69 to 16.44 and 15.66 to 15.98, 208Pb/204Pb = 37.29 to 38.61 and 38.69 to 40.00 for the marble of the Dashiqiao Formation and schist of the Gaixian Formation, respectively).Magmatic activities at Qingchengzi and in adjacent regions took place in three stages, and each contained several magmatic pulses: ca. 220 to 225 Ma and 211 to 216 Ma in the Triassic; 179 to 185 Ma, 163 to 168 Ma, 155 Ma and 149 Ma in the Jurassic, as well as ca. 140 to 130 Ma in the Early Cretaceous. The Triassic magmatism was part of the Triassic magmatic belt along the northern margin of the North China Craton produced in a post-collisional extensional setting, and granites in it formed by crustal melting induced by mantle magma. The Jurassic and Early Cretaceous magmatism was related to the lithospheric delamination in eastern China. The Triassic is the most important metallogenic stage at Qingchengzi. The Pb–Zn deposits, the Pb–Zn–Ag ore at Gaojiabaozi, and the gold deposits were all formed in this stage. They are temporally and spatially associated with the Triassic magmatic activity. Mineralization is very weak in the Jurassic. Ag ore at Gaojiabaozi was formed in the Early Cretaceous, which is suggested by the young Rb–Sr isochron age, field relations, and significantly different Pb isotopic ratios between the Pb–Zn–Ag and Ag ores. Pb isotopic compositions of the Pb–Zn ores suggest binary mixing for the source of the deposits. The magmatic end-member is the Triassic granites and the other metamorphic rocks of the Liaohe Group. Slightly different proportions of the two end-members, or an involvement of materials from hidden Cretaceous granites with slightly different Pb isotopic ratios, is postulated to interpret the difference of Pb isotopic compositions between the Pb–Zn–(Ag) and Ag ores. Sr isotopic ratios support this conclusion. At the western part of the Qingchengzi orefield, hydrothermal fluid driven by the heat provided by the now exposed Triassic granites deposited ore-forming materials in the low and middle horizons of the marbles of the Dashiqiao Formation near the intrusions to form mesothermal Zn–Pb deposits. In the eastern part, hydrothermal fluids associated with deep, hidden Triassic intrusions moved upward along a regional fault over a long distance and then deposited the ore-forming materials to form epithermal Au and Pb–Zn–Ag ores. Young magmatic activities are all represented by dykes across the entire orefield, suggesting that the corresponding main intrusion bodies are situated in the deep part of the crust. Among these, only intrusions with age of ca. 140 Ma might have released sufficient amounts of fluid to be responsible for the formation of the Ag ore at Gaojiabaozi.Our age results support previous conclusions that sphalerite can provide a reliable Rb–Sr age as long as the fluid inclusion phase is effectively separated from the “sulfide” phase. Our work suggests that the separation can be achieved by a step-resolution technique. Moreover, we suggest that pyrargyrite is a promising mineral for Rb–Sr isochron dating. 相似文献
37.
鄂东丰山矿田卡林型金矿地质地球化学特征 总被引:5,自引:0,他引:5
鄂东丰山矿田主要由丰山 (封山洞 )铜矿床、鸡笼山金铜矿床和李家湾铜矿床组成。经野外调查和室内研究 ,确认矿田内存在卡林型金矿 ,金平均品位约 5× 1 0 -6,远景储量在大型以上。该卡林型金矿的主要特征是 :(1 )分布于丰山斑岩体周围的中酸性岩脉发育区 ;(2 )容矿岩石为下三叠统大冶组薄层状 -纹层状和角砾状碳酸盐岩 ;(3)矿体主要受高角度断层控制 ,通常产于岩脉的一侧或附近 ;(4 )矿石普遍具白色细网脉状方解石化和碳泥化 ,裂面上常见黑色碳质被膜 ;(5 )金主要为次显微金 ;(6 )成矿物质主要来自矿源层 ,部分来自岩浆 ,成矿热液水主要来自大气降水 相似文献
38.
ZANG Wenshuan WU Ganguo ZHANG D LI Jinwen ZHANG Xiangxin LIU Aihua ZHANG Zhongyi Faculty of Geosciences Resources China University of Geosciences Beijing Institute of Mineral Resources Chinese Academy of Geological Sciences Beijing 《《地质学报》英文版》2004,78(2):548-557
The Xinqiao S-Fe-Cu-Au orefield is located in the Tongling ore cluster in the middle and lower reaches of the Yangtze River in East China. There have been many researches regarding the genesis of the Xinqiao orefield in recent years, showing that it belongs to various types, such as sedimentary-reformed type, stratabound-skarn type, sedimentary submarine rocks-hosted exhalative type. We propose that it was formed in two periods of mineralization base on systematic field observation and Pb and S isotopic analyses in nearly ten years. The first period was formed during a syngenetic sedimentary process, whereas the massive sulphide orebodies are mainly related to the Yanshanian granitic magmatism. Sulfide metallic mineral associations show zoning around a granite intrusion, i.e. magnetite and pyrite→pyrite, chalcopyrite and native gold→pyrite, sphalerite and galena. Gold orebodies occur outside the contact zone of the granite intrusion. 相似文献
39.
40.
湖南仁里稀有金属矿田地质特征、成矿时代 及其找矿意义 总被引:4,自引:3,他引:1
仁里稀有金属矿田位于幕阜山岩体西南缘,是华南地区重要的稀有金属矿产地之一。文章旨在通过对区域成矿条件、矿田地质特征、地球化学特征、成岩成矿时代与稀有金属成矿作用的综合分析,为矿田勘查设计乃至华南地区稀有金属找矿与研究提供理论依据。在矿田范围内对燕山期、武陵期花岗岩及每个矿区代表性伟晶岩进行了系统采样,开展了岩石化学成分分析,同时对矿田内二云母二长花岗岩及锂辉石伟晶岩分别进行了锆石U-Pb、白云母Ar-Ar同位素定年。研究表明:①多期造山与燕山期陆内活化是成矿的有利地质背景,多阶段伸展作用导致幕阜山地区多期大规模的多金属成矿作用发生;②矿田构造主要以NE(或NNE)向构造为主,复合改造NW向及近EW向构造,NE(或NNE)向和NW(或近EW)向构造呈现立交桥式的构造格局,控制了花岗岩和伟晶岩分布;③矿田内伟晶岩属极高分异、富硅、过铝质花岗质岩石,燕山期花岗岩属陆壳改造"S型"花岗岩;④幕阜山岩体由岩体内接触带往岩体外接触带(10 km),由黑云母伟晶岩→二云母伟晶岩→白云母伟晶岩→锂云母伟晶岩→锂辉石白云母伟晶岩过渡,形成了较完整的稀有金属演化序列:无矿化→Be→Be+Nb+Ta→Be+Nb+Ta+Li→Be+Nb+Ta+Li+Cs;⑤稀有金属成矿与构造岩浆时空演化、构造组合、特别是岩浆的分异程度密切相关,矿田内燕山期花岗岩年龄139.3~146.2 Ma,稀有金属成矿年龄为130.5~130.8 Ma。 相似文献