期刊文献+
共找到11篇文章
< 1 >
每页显示 20 50 100
^(40)Ar/^(39)Ar Dating of the Shaxi Porphyry Cu-Au Deposit in the Southern Tan-Lu Fault Zone, Anhui Province 被引量:6
1
作者 YANG Xiaoyong ZHENG Yongfei +2 位作者 XIAO Yilin DU Jianguo SUN Weidong 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2007年第3期477-487,共11页
Four samples of plagioclase and biotite from the Shaxi porphyry in the lower part of the Yangtze metallogenic belt were analyzed for age determination with the ^40 Ar/^39Ar method. The results yield reproducible ages ... Four samples of plagioclase and biotite from the Shaxi porphyry in the lower part of the Yangtze metallogenic belt were analyzed for age determination with the ^40 Ar/^39Ar method. The results yield reproducible ages of 126 Ma to 135 Ma with a high level of confidence according to the agreement between isochron and plateau ages. The four Ar-Ar ages are relatively consistent within the analytical error. These ages are also consistent with, but more precise than, previous K-Ar and Rb-Sr ages and thus provide better constraints on the time of porphyry formation and associated Cu-Au mineralization along the middle to lower part of the Yangtze metallogenic belt. The ages of 126 to 135 Ma are interpreted to represent the intrusive time of the Shaxi porphyry, so that the Cu-Au mineralization should have occurred later due to the post-magmatic hydrothermal event. 展开更多
关键词 Shaxi porphyry-type cu-au deposit ^40 Ar/^39 Ar dating Yangtze metallogenic belt Tancheng -Lujiang fault belt East China
下载PDF
Geological, Alteration and Mineralization Characteristics of Ali Javad Porphyry Cu-Au Deposit, Arasbaran Zone, NW Iran
2
作者 Behzad Hajalilou Mehraj Aghazadeh 《Open Journal of Geology》 2016年第8期859-874,共17页
Ali Javad porphyry Cu-Au deposit is located 20 Km north of Ahar city in Arasbaran metallogenic zone which is considered as a part of Alp-Himalayan mineralization belt. Magmatism in this area began in Late Cretaceous, ... Ali Javad porphyry Cu-Au deposit is located 20 Km north of Ahar city in Arasbaran metallogenic zone which is considered as a part of Alp-Himalayan mineralization belt. Magmatism in this area began in Late Cretaceous, followed by extensive magmatism in Cenozoic and Quaternary periods. Porphyry type mineralization developed in Ali Javad quartz monzonitic porphyry stock and Eocene pyroclastic and volcanic country rocks. Ali Javad porphyry intrusion has shoshonitic nature and shows characteristics of volcanic arc granitoids that it is have been emplaced in a post-collision tectonic setting. Alteration zones at the deposit demonstrated zoning which is comparable with Lowel-Guilbert model proposed for quartz-monzonite type porphyry copper deposits. Phyllic, argillic, silicic and propylitic alteration zones were observed at the surface while potassic alteration zone could be observed at depth in drill core samples. Mineralization was recognized both as supergene and hypogene, the latter was as veins, veinlets and disseminations. Dominant hypogene minerals were chalcopyrite, bornite, molybdenite, pyrite and magnetite while chalcocite, covellite and limonite were dominant supergene minerals. Four mineralization zones were observed in the deposit as leached, transitional, supergene and hypogene zones. Average grades were 0.75% for copper and 1.86 ppm for gold with 81.5 Mt proved reserve for copper and 37.8 Mt for gold. 展开更多
关键词 GEOLOGY ALTERATION MINERALIZATION Ali Javad Porphyry cu-au deposit Iran
下载PDF
Study on Shaxi porphyry copper-gold deposit in Anhui:gold mineralization and occurrence determination by PIXE
3
作者 杨晓勇 李勋贵 +1 位作者 黄德志 王奎仁 《Journal of Central South University of Technology》 2003年第4期352-358,共7页
Shaxi porphyry Cu-Au deposit was one of the important discoveries of the exploration in the middle-lower reaches of Yangtze River in China in 1970s. Gold occurrence in the Shaxi porphyry copper-gold deposit (central (... Shaxi porphyry Cu-Au deposit was one of the important discoveries of the exploration in the middle-lower reaches of Yangtze River in China in 1970s. Gold occurrence in the Shaxi porphyry copper-gold deposit (central (Anhui) province, eastern China) was investigated by means of microscope analyses, EPMA and PIXE. Combined with geological and mineralogical methods, the characteristics of occurrence of gold in the large scale sulfide mineralization in this region were fully investigated. The results show that gold distributes in both chalcopyrite and pyrite as submicroscopic inclusions (less than 1 μm) . Au is positively correlated with As, Fe, S, Cu, Zn and Ti. The condition of gold transformation in thermal fluid system controlling deposition of Au in the region is probably the oxidation potential of the red sedimentary rocks of shale and fine grain sandstone which may be crucial as a geochemical barrier to the reducing fluid. This study lays foundation for the further research and exploration of the porphyry copper-gold deposit both theoretically and practically in the lower reaches of Yangtze region. 展开更多
关键词 EPMA PIXE gold OCCURRENCE Shaxi PORPHYRY cu-au deposit ANHUI
下载PDF
藏东芒康地区巴达金(铜)多金属矿床的发现及找矿意义
4
作者 解惠 张辉 +5 位作者 张庆松 杨辰雨 刘洪 丁枫 王建奎 扎平 《地质与勘探》 CAS CSCD 北大核心 2023年第2期223-235,共13页
芒康地区位于藏东玉龙-芒康斑岩铜多金属成矿带上,找矿潜力巨大。但由于工作程度低,多年来找矿效果不佳,区内急需新的找矿模型指导。近年来在本区新发现了与富碱斑岩有关的巴达大型金(铜)多金属矿床。本文在前人工作基础上,根据野外地... 芒康地区位于藏东玉龙-芒康斑岩铜多金属成矿带上,找矿潜力巨大。但由于工作程度低,多年来找矿效果不佳,区内急需新的找矿模型指导。近年来在本区新发现了与富碱斑岩有关的巴达大型金(铜)多金属矿床。本文在前人工作基础上,根据野外地质调查和室内镜下观察,研究总结出巴达矿床垂向矿化蚀变分带特征:以含矿石英二长斑岩为中心,由地表向深部蚀变分带依次划分为硅化+碳酸盐化带→粘土化+碳酸盐化带→硅化+粘土化+碳酸盐化带→青磐岩化+弱硅化+黄铁绢英岩化带;由地表向深部矿化分带依次划分为铜(银、铅)矿→褐铁矿→铅(银)矿→金(铜)矿。另外,在矿床地表分散流、铅矿物重砂异常重叠区域及附近新发现了7种直接找矿标志,总结出区内找矿突破的巴达金(铜)多金属矿找矿模型,并预测该矿床深部可能存在斑岩型金(铜)多金属矿床,同时在矿区外划分出2处找矿靶区,为今后巴达矿区外围找矿和本区勘查工作提供了重要参考。 展开更多
关键词 金(铜)多金属矿 找矿意义 找矿模型 巴达 芒康地区 藏东
下载PDF
Alunite spectral features and mineral chemistry of the ZijinshanDafanshan lithocap in SE China:Implications for mineral exploration
5
作者 Yandong Sun Guiqing Xie Jing Chen 《Acta Geochimica》 EI CAS CSCD 2023年第4期585-602,共18页
Lithocaps are composed of silicic and advanced argillic altered rocks,and represent an important target for porphyry-epithermal Cu-Au exploration.Previous studies showed that integrating alunite spectral and compositi... Lithocaps are composed of silicic and advanced argillic altered rocks,and represent an important target for porphyry-epithermal Cu-Au exploration.Previous studies showed that integrating alunite spectral and composition with lithocap whole-rock geochemistry can effectively aid exploration for concealed Cu-Au mineralization.The Zijinshan Cu-Au and Dafanshan alunite deposits are located in the Coastal Volcanic Belt in SE China,where alunite is an indicator of hypogene mineralization and alteration.Detailed mineralogical studies of alunite from these two deposits were performed with short-wavelength infrared spectroscopy(SWIR),whole-rock geochemistry and laser ablation inductively coupled plasma mass spectrometry(LA-ICP-MS).For Zijinshan,wavelength variation of the SWIR alunite absorption peak at 1480 nm is proportional to the whole-rock Na/(Na+K)molar ratio of alunitebearing samples.Different percentage of alunite and mineral assemblages in the lithocap samples would both affect the wavelength of the SWIR alunite absorption peak at1480 nm.We suggest that the alunite Ba-Bi contents and the whole-rock Nb/La value(of alunite-bearing rocks)are reliable vectoring tools for detecting magmatic-hydrothermal mineralization center in the district.Comparing the alunite SWIR spectral and mineral geochemical features and whole-rock geochemistry of alunite-bearing rocks between the Zijinshan and Dafanshan deposits,Au–Ag mineralization may be concealed at depth in northwestern Dafanshan. 展开更多
关键词 Lithocap SWIR Geochemical indicators Zijinshan cu-au epithermal deposit Dafanshan alunite deposit
下载PDF
藏东芒康县巴达铜金矿床地质特征及找矿方向研究 被引量:5
6
作者 杨富成 李文昌 +6 位作者 祝向平 江小均 刘俊 廖忠礼 刘鸿飞 杨后斌 李勇 《地学前缘》 EI CAS CSCD 北大核心 2020年第4期232-243,共12页
巴达铜金矿位于藏东富碱斑岩带南段,是藏东地区近年来新发现的大型铜金矿。虽然对巴达铜金矿开展了大量勘查工作,但对该矿床的成因尚未取得共识。本文基于详细的野外调研、岩心与坑道编录及系统的镜下鉴定,对巴达铜金矿床地质特征进行... 巴达铜金矿位于藏东富碱斑岩带南段,是藏东地区近年来新发现的大型铜金矿。虽然对巴达铜金矿开展了大量勘查工作,但对该矿床的成因尚未取得共识。本文基于详细的野外调研、岩心与坑道编录及系统的镜下鉴定,对巴达铜金矿床地质特征进行研究。巴达矿床主要产于石英二长斑岩中,局部产于斑岩和砂岩地层的接触带内。矿床发育的围岩蚀变主要为青磐岩化、钾化、绢英岩化,高岭土化、蛋白石化、蒙脱石化次之,蚀变分带从内向外依次为钾硅酸盐化带、绢英岩化带、青磐岩化带、高岭土化带,铜金矿体主要赋存于钾硅酸盐化和绢英岩化带内,铜矿化主要以黄铜矿形式产出,金矿化主要以银金矿形式产于白云石±石英+细粒黄铁矿±黄铜矿脉中,铜矿化与金矿化呈正相关,矿体的产出受北西向逆冲断层的控制。与典型斑岩和浅成低温热液矿床不同,巴达铜金矿化主要产于白云石±石英+黄铁矿脉中;矿床内既发育碳酸盐、伊利石、绢云母和黄铁矿、黄铜矿、方铅矿、黝铜矿、低FeS闪锌矿等一套中硫型浅成低温热液矿床的蚀变矿物组合,又发育符合碱性斑岩系统的特征矿物赤铁矿。基于以上特征判断,巴达铜金矿矿床成因类型应为与富碱斑岩有关的浅成低温热液矿床,巴达铜金矿矿床成因的厘定,为下一步找矿提供了理论指导。 展开更多
关键词 巴达铜金矿床 浅成低温热液矿床 中硫型 藏东富碱斑岩成矿带 描述模型
下载PDF
藏东巴达Cu—Au矿区富碱火山—侵入岩序列锆石年龄及地球化学特征 被引量:1
7
作者 孟会明 李文昌 +4 位作者 李超 祝向平 江小均 杨富成 杨后斌 《地质论评》 CAS CSCD 北大核心 2021年第6期1876-1897,共22页
巴达Cu—Au矿床位于玉龙成矿带南段,为新近发现的碰撞型斑岩Cu—Au矿床,具有独特的板内构造背景和较大的找矿潜力,引起了地质学家的广泛关注。然而,矿区岩浆岩岩性组合复杂,厘定该区火山—岩浆的侵位时序及其岩石组合类型,有利于精细刻... 巴达Cu—Au矿床位于玉龙成矿带南段,为新近发现的碰撞型斑岩Cu—Au矿床,具有独特的板内构造背景和较大的找矿潜力,引起了地质学家的广泛关注。然而,矿区岩浆岩岩性组合复杂,厘定该区火山—岩浆的侵位时序及其岩石组合类型,有利于精细刻画矿区的Cu—Au成矿作用,丰富碰撞型斑岩成矿理论模型。本文基于详细的野外剖面实测及相关岩体侵位关系厘定,认为矿区存在同期2阶段岩浆事件:(1)始新世早阶段富碱火山—侵入岩喷发—侵位事件,(2)始新世晚阶段云煌岩侵位事件。并对早阶段凝灰岩、粗面岩和晚阶段云煌岩进行锆石U-Pb年代学研究,分别获得,Pb/,U加权平均年龄为34.47±0.60 Ma、34.88±0.59 Ma和34.18±0.53 Ma,代表巴达火山—岩浆岩的喷发—侵位时代为始新世末期。岩石地球化学及Sr—Nd—Hf同位素研究显示,巴达富碱火山杂岩体富集大离子亲石元素(LILE)Rb、Sr、Ba和轻稀土元素,而亏损高场强元素(HFSE)Nb、Ta、Hf和重稀土元素,并表现出弱的Eu负异常(0.68~0.88),岩石的[n(,Sr)/n(,Sr)],值介于0.70629~0.70851之间,ε,(t)值为-6.41~-1.57,ε,(t)值为0~4.4,两阶段Nd模式年龄和两阶段Hf模式年龄分别为0.98~1.37 Ga、0.72~1.09 Ga,表明巴达Cu—Au矿区富碱火山—侵入杂岩体主要来源于受流体交代的富集地幔,并混染了少量地壳物质。综合上述特征,认为巴达富碱火山—岩浆杂岩体形成于青藏高原后碰撞岩石圈拆沉伸展环境。 展开更多
关键词 锆石U-Pb年代学 岩石地球化学 Sr—Nd—Hf同位素 火山—侵入岩序列 巴达Cu—Au矿床
下载PDF
Geochemistry and genesis of the Nadun Nb-enriched arc basalt in the Duolong mineral district,western Tibet:Indication of ridge subduction 被引量:1
8
作者 Tian-Yu Zhang Jianghong Deng +3 位作者 Ming Wang Cai Li Lipeng Zhang Weidong Sun 《Geoscience Frontiers》 SCIE CAS CSCD 2022年第1期230-243,共14页
The Duolong mineral district in western Tibet is one of the largest porphyry Cu–Au deposit fields with significant metallogenic potential in China.Its tectonic environment relevant to Early Cretaceous Cu–Au minerali... The Duolong mineral district in western Tibet is one of the largest porphyry Cu–Au deposit fields with significant metallogenic potential in China.Its tectonic environment relevant to Early Cretaceous Cu–Au mineralization remains controversial.Here we report new whole-rock major and trace element,and Sr-Nd-Hf-Pb isotopic data for the newly discovered basalt in the Nadun area,Duolong mineral district,to decipher their genesis and further constrain the tectonic environment.A contemporaneous rhyolite sample interbedded with the basalt in the lower part of the volcanic section in the Nadun area yields an LA-ICP-MS zircon U–Pb age of 122.5±1.2 Ma.The basalt samples exhibit high-K calc-alkaline/shoshonite properties and are enriched in high field strength elements,e.g.,high Ti O_(2)(1.43–1.79 wt.%)and Nb(14.6–19.5 ppm)contents,with high Nb/La ratios(0.4–0.6),which are compositionally comparable to those of Nb-enriched arc basalts(NEABs).The(^(87) Sr/^(86) Sr)iratios of 0.7052 to 0.7056,negative eNd(t)(-0.7 to-0.2)and eHf(t)values(+6.0 to+6.5),and high(^(206) Pb/^(204)Pb)i,(^(207) Pb/^(204)Pb)i,(^(208) Pb/^(204)Pb)iand ratios(18.522 to 18.561,15.641 to 15.645 and 38.679 to 38.730,respectively)suggest that the Nadun NEABs are more enriched than those of the island arc basalts(IABs)in the area.The slightly enriched radiogenic isotopes for the Nadun NEABs indicate that the subducting sediments play an important role in the source.Furthermore,their high Nb,Ti,and Cu contents indicate that the source mantle wedge was metasomatized by slab melts.The Nadun NEAB and other coeval magmatic rocks in the Duolong mineral district,including adakite,OIB-like basalt,MORB-type basalt,A-type rhyolite,and common IAB,are typical rock assemblages of ridge subduction.We infer that the Duolong mineral district were formed by ridge subduction in the Early Cretaceous. 展开更多
关键词 TIBET Duolong porphyry cu-au deposit Nb-enriched arc basalt Tethys ocean Ridge subduction
下载PDF
望谟县坝达金矿土壤地球化学特征及远景分析 被引量:1
9
作者 周雷 何卫军 +1 位作者 陈志友 陆国章 《贵州大学学报(自然科学版)》 2020年第4期30-34,共5页
望谟县坝达金矿位于黔西南地区,大地构造位置为扬子板块西南缘。本文通过对望谟县坝达金矿矿床地质特征、1∶10 000土壤地球化学特征进行综合分析和研究,旨在对望谟县坝达金矿进行找矿远景分析。通过矿床地质特征研究表明,Ⅰ、Ⅱ、Ⅲ矿... 望谟县坝达金矿位于黔西南地区,大地构造位置为扬子板块西南缘。本文通过对望谟县坝达金矿矿床地质特征、1∶10 000土壤地球化学特征进行综合分析和研究,旨在对望谟县坝达金矿进行找矿远景分析。通过矿床地质特征研究表明,Ⅰ、Ⅱ、Ⅲ矿体均呈脉状,赋矿岩石为领好组一段的含碳酸盐碎屑岩类;矿体产出受两条走向北西的断层破碎带控制;产出于两断裂之间的次级断层内金以自然金、半裸露金和碳酸盐、黄铁矿等包裹金形式存在。1∶10 000土壤地球化学圈定了Ⅰ-Au-As,Ⅱ-Au-As,Ⅲ-As-Sb-Hg,Ⅳ-Au-Hg四个综合异常区,并发现Au和As相关性最强,且在Ⅰ-Au-As异常查证中发现了金矿化。因此,综合研究认为该矿区存在深部隐伏矿体的可能。 展开更多
关键词 远景分析 地球化学特征 坝达金矿 望谟县
下载PDF
Geochronology and Geochemistry of the Granites from the Longtoushan Hydrothermal Gold Deposit in the Dayaoshan Area,Guangxi:Implication for Petrogenesis and Mineralization 被引量:5
10
作者 Lihua Qian Jianqing Lai +3 位作者 Lifang Hu Rong Cao Shilong Tao Bei You 《Journal of Earth Science》 SCIE CAS CSCD 2019年第2期309-322,共14页
The gold mineralization in the Longtoushan hydrothermal gold deposit is concentrated within the contact zone of the granitic complex. Whole rock geochemistry and in-situ U-Pb and Hf isotopic data were used to constrai... The gold mineralization in the Longtoushan hydrothermal gold deposit is concentrated within the contact zone of the granitic complex. Whole rock geochemistry and in-situ U-Pb and Hf isotopic data were used to constrain the genesis and age of the granites and related Cu-Au mineralization in the Longtoushan Deposit. The granites mainly consist of the granite porphyry, rhyolite porphyry, porphyritic granite and quartz porphyry. LA-ICP-MS U-Pb dating of zircons from the granite porphyry, rhyolite porphyry and quartz porphyry indicates that they intruded from ca. 94 to 97 Ma. These intrusions exhibit similar trace element characteristics, i.e., right-dipping REE patterns, depletion of Ba, Sr, P and Ti, and enrichment of Th, U, Nd, Zr and Hf. The εHf(t) values of zircons from the granite porphyry, rhyolite porphyry and quartz porphyry range from-26.81 to-8.19,-8.12 to-5.33, and-8.99 to-5.83, respectively, suggesting that they were mainly derived from the partial melting of the Proterozoic crust. The Cu-Au mineralization is mainly related to the rhyolite porphyry and porphyritic granite, respectively. The Longtoushan granites were most likely formed in a post-collisional extensional environment, and the deposit is a part of the Late Yanshanian magmatism related mineralization in the Dayaoshan area and its adjacent areas. 展开更多
关键词 Longtoushan gold deposit RHYOLITE PORPHYRY zircon U-Pb dating Hf isotopes PETROGENESIS cu-au mineralization
原文传递
Ridge subduction and porphyry copper-gold mineralization:An overview 被引量:103
11
作者 SUN WeiDong LING MingXing +3 位作者 YANG XiaoYong FAN WeiMing DING Xing LIANG HuaYing 《Science China Earth Sciences》 SCIE EI CAS 2010年第4期475-484,共10页
Many large porphyry Cu-Au deposits are connected to adakitic rocks known to be closely associated with ridge subduction. For example, there are several subducting ridges along the east Pacific margin, e.g., in Chile, ... Many large porphyry Cu-Au deposits are connected to adakitic rocks known to be closely associated with ridge subduction. For example, there are several subducting ridges along the east Pacific margin, e.g., in Chile, Peru, and South America, most of which are associated with large porphyry Cu-Au deposits. In contrast, there are much fewer ridge subductions on the west Pacific margin and porphyry Cu-Au deposits are much less there, both in terms of tonnage and the number of deposits. Given that Cu and Au are moderately incompatible elements, oceanic crust has much higher Cu-Au concentrations than the mantle and the continental crust, and thus slab melts with their diagnostic adakitic chemistry have systematically higher Cu and Au, which is favorable for mineralization. Considering the geotherm of subducting slabs in the Phanerozoic, ridge subduction is the most favorable tectonic setting for this. Therefore, slab melting is the likely link in the spatial association between ridge subduction and Cu-Au deposits. Geochemical signatures of slab melting and hence maybe ridge subduction in less eroded regions in eastern China, the central Asian orogenic belt etc. may indicate important exploration targets for large porphyry Cu-Au deposits. 展开更多
关键词 ridge SUBDUCTION PORPHYRY cu-au deposits ADAKITE SLAB melting
原文传递
上一页 1 下一页 到第
使用帮助 返回顶部