云南东川播卡金（铜）矿区辉绿（辉长）-钠长岩系岩相学及其成矿意义

云南播卡金（铜）矿床构造上位于小江断裂西侧,新近勘查工作表明,其金（铜）矿体的赋存于辉绿（辉长）-钠长岩系有密切的成因联系。进一步研究表明,除构造控矿因素外,岩浆热液中碱金属元素（K、Na）的活动交代也是金（铜）矿床形成的重要因素。     

宾川小龙潭斑岩铜钼矿矿化特征及控矿条件

区域性的程海深大断裂是该区的导岩、导矿构造,直接控制了富碱性斑岩和次级构造的展布,富碱性斑岩又是区内铜钼矿化的直接成矿因素,所以应重视沿北东向构造—岩浆带的找矿工作.     

云南绿春杨家寨金多金属矿矿床特征及成矿规律

杨家寨金多金属矿位于西藏—三江造山系,兰坪—普洱双向弧后陆内盆地与绿春陆缘弧带结合部,矿体近矿围岩主要为下二叠统高井朝组安山质凝灰岩及安山岩,少部分为石英斑岩,矿体就位于与莫马洛断层（F4）成锐角度相交的次级构造、层间破碎带及层间剥离—滑脱构造带.成矿作用共分三个阶段：早二叠世晚期——矿源岩（层）形成阶段,燕山早期——矿床形成阶段;燕山晚期——矿床定位阶段.矿床类型为浅成低温热液构造—蚀变岩型多金属矿床.     

云南省施甸县东山铅锌矿成因分析

云南省施甸县东山铅锌矿为一中型铅锌矿床.矿体赋存于二叠系沙子坡组,主要受近SN向的区域断裂F2和F18及次级断裂构造控制,岩石（性）控矿也十分明显,成矿与构造、深部断裂、岩浆热液活动密切相关.成矿地质背景及成矿地质条件有利,通过对矿床成因分析,展示了矿区较好的找矿前景和资源潜力.     

滇东北下寒武统黑色岩系钼、镍矿床特征及找矿前景

滇东北地区钼镍多金属矿床主要产于下寒武统筇竹寺组黑色页岩、黑色粉砂岩地层中,矿体与围岩界线明显,呈似层状、层状产出,为层控矿床。矿体厚度薄、品位高,但往深部有变富、变厚的趋势.     

德钦佛山托罗铅锌矿地质特征及成因分析

在对该区野外地质调查的基础上,本文对该铅锌矿化带的成矿构造背景、矿化体特征进行了初步分析与总结,认为该矿受区域构造断裂控制,矿床类型为中低温热液脉状铅锌多金属矿床.该区成矿地质条件优越,矿化体较多,矿体在走向和倾向延伸方向仍可有新突破,并有找到新矿体的可能.     

小石头山金矿地质特征及矿床成因

小石头山金矿位于川北阿坝藏族羌族自治州,该矿处于"若尔盖中间地块"西南部"阿坝复理石地体褶皱带"范围内,矿体产于印支晚期花岗闪长岩体内、外接触带上。矿体主要受张裂型矿化裂隙、张剪性复合型矿化裂隙和破碎带型矿化裂隙控制,是较为典型的构造蚀变岩型金矿。     

广西田林县八渡平乐金矿找矿远景

平乐金矿床位于桂西北-黔西南-滇东南金锑银多金属成矿区,与其东侧典型金矿床高龙金矿成矿地质背景有一定的类似性。本次工作通过调查取样,结合高龙金矿地质特征及控矿因素对比分析,对该矿床的成矿远景进行了初步分析。     

辽宁省建平县高杖子金矿地质特征及成因探讨

高杖子金矿成因类型为中温热液蚀变岩型,新太古代叶柏寿片麻杂岩为其矿源层,燕山期发育的北东、北北东及北西向断裂是控制金矿的主要构造.在区域岩浆热动力作用下,金元素活化转移,金在富含挥发份及碱质的流体中迁移,在适当的压力、温度和介质条件下,在有利的构造部位富集成矿.     

Geochemistry,and zircon U–Pb and molybdenite Re–Os geochronology of Jilongshan Cu–Au deposit,southeastern Hubei Province,China

The Jilongshan skarn Cu–Au deposit is located at the Jiurui ore cluster region in the southwestern part of the Middle–Lower Yangtze River valley metallogenic belt. The region is characterized by NW‐, NNW‐ and EW‐trending faults and the mineralization occurs at the contact of lower Triassic carbonate rocks and Jurassic granodiorite porphyry intrusions. The intrusives are characterized by SiO₂, K₂O, and Na₂O concentrations ranging from 61.66 to 67.8 wt.%, 3.29 to 5.65 wt.%, and 2.83 to 3.9 wt.%, respectively. Their A/CNK (A/CNK = n(Al₂O₃)/[n(CaO) + n(Na₂O) + n(K₂O)]) ratio, δEu, and δCe vary from 0.77 to 1.17, 0.86 to 1, and 0.88 to 0.96, respectively. The rocks show enrichment in light rare earth elements ((La/Yb)_N = 7.61–12.94) and large ion lithophile elements (LILE), and depletion in high field strength elements (HFSE), such as Zr, Ti. They also display a peraluminous, high‐K calc‐alkaline signature typical of intrusives associated with skarn and porphyry Cu–Au–Mo polymetallic deposits. Laser ablation inductively coupled plasma spectrometry (LA‐ICP‐MS) zircon U–Pb age indicates that the granodiorite porphyry formed at 151.75 ± 0.70 Ma. A few inherited zircons with older ages (677 ± 10 Ma, 848 ± 11 Ma, 2645 ± 38 Ma, and 3411 ± 36 Ma) suggest the existence of an Archaean basement beneath the Middle–Lower Yangtze River region. The temperature of crystallization of the porphyry estimated from zircon thermometer ranges from 744.3 °C to 751.5 °C, and 634.04 °C to 823.8 °C. Molybdenite Re–Os dating shows that the Jilongshan deposit formed at 150.79 ± 0.82 Ma. The metallogeny and magmatism are correlated to mantle–crust interaction, associated with the subduction of the Pacific Plate from the east. Copyright © 2013 John Wiley & Sons, Ltd.