热液成因有色金属矿多维异常体系:以马头斑岩型钼铜矿为例

从深部矿地球化学勘查实际需求出发,根据近年来20余个矿床研究结果,总结提出了热液成因有色金属矿床矿致异常规律--多维异常体系。多维异常体系是指产出在特定成矿地质时期地质体中,空间有序共存、形成机理各异、成矿指向递进的多属性地球化学异常体系,将在斑岩型、矽卡岩型、热液型以及沉积改造型等与热液作用有关的有色金属矿产深部矿预测和评价中发挥重要作用。以安徽马头斑岩型钼铜矿为例,对该矿床多维异常体系进行了探讨。结果表明: 在该矿床中,存在着以Na₂O为代表的负异常体系、以S为代表的矿化剂元素异常体系、矿化剂元素S与Fe和成矿元素间协同平衡体系、成矿及其伴生元素异常体系等,这些异常体系对成矿的指示作用是递进的,从而证实了多维异常体系的存在。对应用多维异常体系思路预测和评价深部矿进行了说明。     

鄂东鸡冠嘴矿区成矿岩体锆石SHRIMP U-Pb定年及其意义

鄂东鸡冠嘴铜金(铁)矿床位于阳新岩体西北端,与铜绿山铜金矿床毗邻。矿区成矿岩体主要岩性为石英正长闪长玢岩、石英闪长岩、闪长岩和安山玢岩。其中石英正长闪长玢岩与成矿关系密切。在前人矿床地质特征研究基础上,笔者对成矿岩体进行了锆石SHRIMP U-Pb定年,获得石英正长闪长玢岩和闪长岩的年龄为146±2Ma(95%可信度,MSWD=1.3)和132±4Ma(95%可信度,MSWD=3)。测定结果表明,区内石英正长闪长玢岩和闪长岩分属燕山早期和燕山晚期岩浆活动的产物。鉴于矿体在空间上主要赋存于岩体内外接触带及层间破碎带中,推测成矿作用应略晚于石英正长闪长玢岩(146±2Ma)而早于闪长岩侵位的时间(132±4Ma),这与前人获得长江中下游铜铁金成矿带代表性矿床的辉钼矿Re-Os模式年龄分布在134.7～143Ma的研究结果一致。     

福建德化下坂斑岩金矿地质特征及成因探讨

下坂金矿位于中国东南沿海中生代陆相火山岩带之中,是近年来勘查的金矿床。通过对矿床的地质学、矿床学、地球化学等特征的研究,该矿床成因上与流纹斑岩关系密切,具有广义斑岩型矿床特点。     

集安南部大青沟铜及多金属矿区成矿潜力及找矿方向

大青沟铜及多金属矿区地表矿化线索较多,矿化类型复杂。在充分研究已有资料的基础上,认为该区的成矿在初始矿源层(块状硫化物的矿化阶段)的背景上,叠加了与燕山期火山岩、次火山岩有关的多种矿化类型,成矿潜力较大。     

河北省丰宁县茶棚银矿地质、地球物理特征及找矿意义

茶棚银矿位于河北省北部坝上草原向山区过渡地带,风成砂覆盖严重,示矿标志不明显,地表找矿难度大;地表矿体断续出露,而深部银矿体主要以隐伏矿体的形式赋存于近南北向展布的构造破碎带中,数量明显增多、品位变富、厚度变大;在这种特殊的景观地质特征下,利用激电中梯扫面,可发现厚覆盖状态下构造矿化蚀变带,利用EH4连续导电率测量可厘定矿化蚀变带的规模、产状并可提供隐爆角砾岩体等深部控矿地质信息,利用可控源音频大地电磁测深的中低阻陡变带和中阻带,特别是陡变带中的转折部位（形态呈耳状部位）可具体定位银矿体的赋存空间。     

青海龙尾沟铜、金矿床地质特征、矿床成因及成矿远景分析

龙尾沟铜、金矿床是在青海省柴北缘成矿亚区内所取得的重大找矿突破,该矿床产于下元古界达肯大坂群(Pt1dk)地层内,并受F6断裂破碎带控制.通过对矿床地质特征、矿石及花岗斑岩脉地球化学特征研究,首次提出龙尾沟铜、金矿床是与岩浆作用有关的斑岩型矿床.从已查明铜、金矿床(体)的控矿因素和矿化特征分析,深部存在规模较大矿化体的前景,应进一步加强该地区深部勘探及研究力度,以期获得找矿的更大突破.     

豫西马超营断裂带中段石窑沟钼矿地质特征

石窑沟钼矿位于豫西马超营断裂带中段,区内北西西向、北东向断裂构造发育,深部有隐伏斑岩体侵入.钼矿体赋存于隐伏花岗斑岩与围岩的内外接触带上,其成矿作用与燕山期中酸性岩浆活动密切相关.独特的构造背景、丰富的矿质来源、强烈的流体作用、适宜的矿体定位空间等诸多因素结合,形成了隐伏斑岩体控制的大型斑岩型钼矿.     

新疆北部晚古生代大规模岩浆作用与成矿耦合关系研究主要进展及成果

新疆北部晚古生代地质构造演化复杂,岩浆作用形式多样,造就了大规模的成矿作用。本研究紧紧围绕岩浆铜镍矿床、斑岩型铜(钼)矿床及火山岩型磁铁矿矿床,从含矿岩体的岩浆起源、岩浆演化及成矿特点,系统研究深部相应岩浆活动的地质过程。通过典型矿床的深入剖析,建立相应矿床类型的成矿模式,破解制约找矿突破的控制因素,系统阐述了板块构造与地幔柱体制叠加并存的地质特征与成矿表现。鉴于塔里木地幔柱的活动特点和成矿表现,将其与新疆北部三类主要矿床类型建立关联,对比岩石学、年代学及地球化学特点,发现其成矿类型与塔里木地幔柱及板块构造存有密切关系,可能是两种构造体制叠加并存的结果。塔里木克拉通深部熔融的地幔物质,围绕刚性塔里木克拉通边缘不断上涌,并与表壳物质发生交换,随着俯冲板块的持续和减弱,深部上涌的地幔物质不断加强,先后形成因深部地幔物质多寡而金属聚集的不同矿床类型。     

The oldest Mo porphyry mineralization in the Yangtze Valley Metallogenic Belt of eastern China: Constraints on its origin from geochemistry,geochronology and fluid inclusion studies at Matou

The Matou Mo(-Cu) deposit, located in the Yangtze Valley Metallogenic Belt of central-eastern China, is a typical porphyry-type Mo deposit. The orebodies at the deposit are hosted by Matou porphyritic granodiorite, which is the largest intrusive in the area. Quartz vein-type and disseminated sulfide mineralization are well developed in the porphyry and near its contact with Silurian sandstone. Crosscutting relationships indicate that porphyritic granodiorite is the oldest phase in the pluton, which is crosscut by a porphyritic diorite containing traces of chalcopyrite, and later dolerite dykes. These phases have U-Pb zircon dates of 147 ± 3, 140 ± 1 and 135 ± 1 Ma, which confirms the cross-cutting relationships observed in the field. A Re-Os molybdenite isochron age of 147 ± 4 Ma indicates that the porphyritic granodiorite is the source of the oldest Mo mineralization in the metallogenic belt and was formed during a change of the tectonic setting in the area, from an intracontinental orogeny to extensional tectonics. From 147 to 135 Ma, crust-mantle interaction played an important role in the formation of magmatic rocks at Matou. Systematic petrological and geochemistry investigations reveal that the three phases have a crust source with minor input from the mantle. Investigation of ore-forming fluid, H-O isotopes, S isotopes, and the Re content of molybdenite indicate that the ore-forming fluid and metals were derived from the lower crust. During the evolution of fluid from initial magmatic fluids (stage I) to ore-forming fluids (stage II), fluid boiling accompanied by the input of relatively cooler meteoric water led to the deposition of the Mo mineralization.     

Early Cretaceous porphyry copper mineralization in Northeast China: the Changfagou example

The Changfagou Cu deposit is a newly discovered porphyry deposit located in the southern Jilin Province of Northeastern China, on the northeastern margin of the North China Craton. To better understand the formation of the Cu deposit, we report the zircon U–Pb and molybdenite Re–Os dating, and Sr-, Nd-, and Hf- isotopic data of the granite porphyry. LA-ICP-MS dating of zircon grains from two mineral zones in the granite porphyry yield ages of 115.7 ± 0.8 and 115.3 ± 0.6 Ma, which is interpreted as the emplacement age of the granite porphyry. The molybdenite Re–Os model ages of 112.5 to 113.8 Ma, an isochron age of 113.3 ± 1.3 Ma, and a weighted mean model age of 113.0 ± 0.7 Ma, which represents the age of the Cu mineralization quite well. The Changfagou granite porphyry samples lack amphibole and muscovite, and are compositionally characterized by high SiO₂, high Na₂O+K₂O, and low P₂O₅, enriched in some Rb, Th, U, and Pb, and depleted in Nb, Ta, Ti, P, and Eu. Mineralogical and geochemical features suggest that the Changfagou granite porphyry samples are slightly peraluminous and are of highly fractionated I-type granitoids. The granitic rocks also have relatively high (⁸⁷Sr/⁸⁶Sr)_i (0.71199 to 0. 71422), and both low εNd(t) (?14.56 to ?13.19) and εHf(t) values (?14.916 to ?8.644), which suggest that Changfagou granite porphyry are derived from mixed sources of crustal and mantle, and diagenesis and mineralization were possibly related to the switch in subduction direction of the Palaeo-Pacific Plate in the late phase of Early Cretaceous.