Chemical and boron isotopic compositions of tourmaline in the Longtoushan hydrothermal gold deposit, Guangxi, China:implications for gold mineralization

The Longtoushan hydrothermal gold deposit is located in the southwestern region of the Dayaoshan Uplift.Tourmaline is widespread in the Longtoushan gold deposit and is mainly distributed in the rhyolite porphyry and associated cryptoexplosive breccia. The spatial distribution of tourmaline enrichment is similar to that of the gold orebody. Feldspar has been largely replaced by tourmaline in the rhyolite porphyry and cryptoexplosive breccia.Electron microprobe analysis revealed that tourmalines in the Longtoushan deposit belong mainly to the alkali group and partly to the X-vacant group; they mostly fell in the schorl-dravite series field. Two distinct sets of dominant substitutions were observed: MgFe_(-1) and Al□(NaR2+)-1,where R = Fe, Mg. In addition, minor substitutions include(CaMg)(NaAl)_(-1) and FeAl_(-1). The calculated d11 B value for the mineralizing fluids ranged from-12.8 to-9.7%,which is typical of S-type granites, and boron-enriched fluids predominantly derived from rhyolitic melt. Part of the tourmaline from the rhyolite porphyry crystallized during the magmatic-hydrothermal stage, whereas most tourmalines from the deposit formed in the post-magmatic hydrothermal stage. The tourmalines were deposited from a relatively reduced and acidic fluid system, and the gold predominantly precipitated during the post-magmatic hydrothermal stage in the Longtoushan deposit.

Coupling mechanism of mineralization and hydrocarbon-forming in hydrothermal convection system: An example from Longtoushan Sn-polymetal deposit, Dachang

Longtoushan Sn-polymetal deposit is a large-scale deposit of high-tenor. The ore-bodies occur in reef limestone of middle Devonian. There is much anthraxolite in reef limestone and ore-bodies. The anthraxolite is the postmature result of oil-gas' thermal metamorphism. The close relationship of anthraxolite and Sn-polymetal deposit reveals the space-time relation between oil-gas evolution and Sn-polymetal mineralization. Sulfur isotope of Longtoushan deposit is close to oil's sulfur in Devonian, which indicates obvious relationship between the sulfur's source of deposit and oil-gas' activity. The forming of Longtoushan deposit relates to exhalative-sedimentary mineralization in Devonian. Because of the favorable hydrocarbon-forming condition of Longtoushan reef and surrounding basin facies' black shale and peat, coupling of ore-formation and hydrocarbon-forming occurs in seabed's hydrothermal convection. The distributing of ore-forming elements indicates the presence of hydrothermal convection system. The thermal fluid containing organic matters conduces to Sn-polymetal elements' activation and transfer, and provides catalyzing condition to the transforming from SO42- to S2-. The erosion action of brine containing organic acid to reef limestone induces the growing of crannies and karst's caverns, which provides advantageous space to Sn-polymetal mineralization. The heat source of mineralization provides thermocatalysis condition to hydrocarbon-forming. When the circulatory fluid containing oil-gas enters the high-temperature region(＞150 ℃ ), the oil-gas is decomposed and anthraxolite comes into being.

Geochronology and Geochemistry of the Granites from the Longtoushan Hydrothermal Gold Deposit in the Dayaoshan Area,Guangxi:Implication for Petrogenesis and Mineralization

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.

赣江龙头山枢纽一线船闸通航水流条件及改善措施研究

赣江龙头山枢纽已建1座Ⅲ级船闸,可通航1000 t级船舶。2019年4月船闸试运行后,发现船闸最大通航流量较低,达不到原设计标准,影响船闸的通航安全和船舶过境效率。在资料分析和物理模型试验的基础上,分析现状船闸通航水流条件及存在问题,剖析其不达标原因,首次提出新型的百叶窗式横向透空隔流堤结构,可改善已建一线船闸通航水流条件,有效提升最大通航流量,为已建船闸方案完善、预留二线船闸设计和以后运行管理提供科学依据,也可为已建工程类似问题的解决提供新途径。

广西龙头山斑岩型金矿成岩成矿锆石SHRIMP U-Pb年代学研究

贵县龙头山金矿位于大瑶山隆起西南部,成矿作用与燕山晚期流纹斑岩和花岗斑岩有关。金(银)矿体主要赋存于斑岩和断裂破碎带中。运用高分辨率和高灵敏度离子探针(SHRIMP)分析技术,作者对矿区流纹斑岩和花岗斑岩进行了锆石U-Pb定年,获得流纹斑岩和花岗斑岩的年龄分别为103.3±2.4Ma(95%可信度,MSWD=2.1)和100.3±1.4Ma(95%可信度,MSWD=0.40),表明龙头山金矿区的成岩成矿作用都发生于中-晚白垩世。并认为花岗斑岩和流纹斑岩系同期岩浆作用的产物,矿床是在同一成矿作用下形成的,似乎不存在多期矿化的可能。

华南燕山晚期构造-岩浆事件与成矿作用——来自广西大瑶山龙头山金矿床的地球化学约束

广西贵港大瑶山成矿带位于华南东南沿海成矿带西南端,对矿带内龙头山金矿黄铁矿化斑岩进行定年的结果为96.1±3.0Ma,与区域内邻近的平天山侵入岩体(96.2±0.4Ma)相同。龙头山矿床的Sr同位素组成与其锆石的REE特征表明,成矿作用伴随有大量的流体参与;矿化斑岩与区内侵入相岩石相同的形成时代以及矿化斑岩中锆石Ce的正异常明显强于侵入岩锆石的现象指示,成矿过程经历了快速的区域地壳抬升和体系氧逸度大幅增高;两类岩浆岩Nd同位素组成与华南低Nd模式年龄带相当,反映岩浆活动有不同比例的幔源物质参与。因此,大量成矿流体的参与、区域地壳抬升、流体沿深大断裂上迁过程中的突然冷却以及氧逸度增高是导致龙头山金矿成矿作用发生的重要条件;中生代古太平洋板块的低角度俯冲作用导致了区域地壳较大范围的流体释放,而地幔岩浆物质的板底垫托作用导致高溶解度成矿流体沿构造通道向上迁移,应是华南中生代大规模成矿发生的重要背景。

广西龙头山斑岩金矿成矿岩体的岩石学、岩石地球化学及热液蚀变作用特征

根据镜下特征及SiO2含量,将龙头山金矿成矿岩体的构成主体重新定名为花岗闪长斑岩。岩浆期后气液导致岩体上部发生弥散型绢云母化和高岭石化;受热流体的酸碱分离作用影响,形成高岭石化相对在上、绢云母化在下的垂直蚀变分带。侵入岩浆带来的热能,同时形成有大气降水加入的富硼含矿热液,并沿岩体接触带及顶部发育的碎裂构造等开放空间充填,交代已绢云母化、高岭石化的花岗闪长斑岩,形成围绕岩体的近环状含金隐爆角砾岩和电气石-硅化带。微量元素与同位素测年研究表明,成矿岩体的成岩物质来源于燕山晚期受混染的I型花岗岩浆;与周边岩体在成岩物质、侵位空间及成岩时代等方面表现出岩浆活动的一致性。

综合地球物理勘探在龙头山银铅锌多金属矿床中的应用

为了避免地球物理方法的局限性和结果解释的多解性,充分发挥了各个方法的优势,使之取得地质上和经济上的最佳勘查效果,在龙头山地区矿床地质勘查中,综合运用了甚低频(VLF-EM)、电导率成像系统(EH4)、可控源音频电磁法(CSAMT)和激电中梯测量(TDIP)等地球物理勘探方法,取得了较好的勘查效果。通过异常的验证,将原来一个"银锰矿点",升级为潜在资源规模为大型以上的银-铅-锌多金属矿床。综合物理勘探的方法的运用,在该区的矿产勘查中具有指导意义。

利用地脉动HVSR研究2014年鲁甸6.5级地震场地效应

2014年鲁甸6.5级地震导致龙头山镇位于洪积扇上的大量房屋倒塌,而位于河流阶地上的房屋破坏相对较轻。为找出造成该震害差异的原因,在龙头山镇布设间距50~200 m的高密度观测台阵进行连续地脉动观测,采用HVSR谱比法来研究该地区的场地地震响应,确定场地的卓越频率和放大系数。结果表明:HVSR谱比结果与钻孔资料给出的结果较为一致,位于洪积扇上的场地HVSR峰值频率介于1.5~5.0 Hz,河流阶地上的峰值频率多介于6.0~10 Hz,卓越频率值相对较小(5 Hz以下)的场地与地震中破坏最严重的区域较为相符。

贵港龙头山金矿床地球化学异常分带理想模型与找矿预测标志

龙头山金矿是一个赋存于燕山晚期流纹斑岩间角砾岩带中的热液交代型矿床。研究了各微量元素和烃汞类组分在该矿床不同中段、地质体的含量变化特征以及在轴向上的展布特征,总结出龙头山金矿原生晕分带序列:烃类、Sb(矿前缘)→As(矿头)→Hg、Au、Ag、Pb(矿头至矿中上)→Cu、W、Mo、Zn(矿中下)→Mn、Ni、Ti、Co、V(矿尾)。该区成矿组分复杂,具有多期次脉动成矿的特征;根据成矿元素的分带规律,认为深部还存在金矿化体;建立了该矿床地球化学异常分带的理想模型,并总结出该区的找矿预测标志。

2014年鲁甸M_S6.5地震龙头山镇场地高密度电法勘探

鲁甸M_S6.5地震造成大量房屋损毁及人员伤亡,其中龙头山镇房屋损毁最严重、人员伤亡最多。地震后,骡马口场地被选为恢复重建的主要场所。应用高密度电法分别对鲁甸震区龙头山场地、骡马口场地进行了勘探作业,初步认为勘探场区内地质构造复杂,断裂发育,构造展布以北东、北西向为主。龙头山场地地层较为破碎,场地内存在一洪积扇,是造成其上建筑物破坏严重的重要因素;骡马口场地地形开阔、地势平坦,是地震恢复重建的有利场所,场地内存在断裂活动的迹象,建筑选址时应注意避让。同时,认为高密度电法具有高效快捷,资料分析处理相对简单,便于震后断裂构造快速判断和场地快速评估。

广西龙头山次火山-隐爆角砾岩型金矿床

龙头山金矿床与燕山晚期流纹斑岩、角砾熔岩等次火山岩相有关。据围岩和构造条件将矿体分为次火山隐爆角砾岩类、接触带－构造角砾岩类和围岩中断裂构造角砾岩等３种类型。主要金矿化与电气石化、硅化关系密切。通过矿石组成、Ａｕ及其伴生元素分布特征，以及Ｓ、Ｐｂ、Ｈ、Ｏ、Ｃ等稳定同位素、流体包裹体地球化学和成矿物理化学条件等综合研究结果，认为龙头山矿床是与次火山隐爆角砾岩有关的气成－高温热液型金矿床。

四川南充龙头山滑坡发育特征与形成演化

在龙头山滑坡基本发育特征详细调查的基础上,对滑坡的形成条件和演化过程进行了深入分析。滑坡的形成条件包括:(1)浅湖相和半深湖相的沉积建造是龙头山滑坡形成的物质条件;(2)斜坡多面临空的地形提供了良好的空间条件;(3)斜坡存在一组具有一定规模的NNW走向的陡倾导水横张节理系统是龙头山滑坡形成的结构条件,通过分析区域构造形迹和地表构造变形破裂认为,该组张节理是在NNW-SSE向历史构造挤压作用下形成的;(4)NNW走向的陡倾导水横张节理与暗红色泥岩顶面组成了斜坡内部垂直和水平的地下水渗透网络。滑坡的形成经历了成坡阶段、时效变形阶段和平推式滑移阶段。

大兴安岭南东段龙头山银铅锌多金属矿床成矿地质特征与远景评价

文章阐述了龙头山银铅锌多金属矿床的地质特征,初步确定了矿床的成矿期与成矿阶段、蚀变作用与蚀变分带,以及控矿构造系统与空间变化等;通过合理的探矿工程并借助于先进的地球物理探测手段,基本探明了Ⅰ、Ⅱ号矿带内矿体的空间产出形态、规模和产状,大致查明了矿石的类型、结构构造以及矿化特征,并合理地圈定了矿体;通过综合取样分析,估算并预测了远景资源储量。

甚低频电磁法在龙头山多金属矿床勘查中应用

为了寻找一种简捷、迅速的勘查和探矿方法,在内蒙古阿鲁科尔沁旗龙头山银铅锌多金属矿采用了甚低频电磁法进行了试探。实践证明,甚低频电磁法(VLF-EM)具有仪器轻便、方法简单、经济高效等优点。该方法的运用,结合矿区矿体赋存规律,在该区取得了良好的勘查和探矿效果,有效地达到了预测矿体空间赋存部位的目的,为该区的进一步的详查和深部找矿提供了依据。

贵州贞丰龙头山煤矿晚三叠世煤的元素地球化学特征及富集成因分析

运用电感耦合等离子体质谱仪(ICP-MS)和电感耦合等离子体发射光谱仪(ICP-AES)对贵州贞丰龙头山煤矿晚三叠世M2煤层的3件代表性的煤样和1件矸石样的微量元素及稀土元素地球化学特征进行了分析。结果表明:煤中明显富集Be、As、Sb、Tl、U、Mo、V、Ga、Zn等元素,其中V、Ga和Zn等元素的富集与物源区内受峨眉山玄武岩影响的早期岩层风化剥蚀产物的供给有直接关系;As、Sb、Tl等低温热液元素的异常富集则表明煤层可能受到了后期热液活动的影响。M2煤层中稀土元素总量较低,轻稀土元素相对富集,球粒陨石标准化后的稀土元素配分模式均呈缓右倾的"V"型曲线且存在明显的Eu负异常,反映出稀土元素与陆源碎屑岩关系密切。

龙头山公园森林广场的空间区划与植物配置

Longtoushan Forest Park consists of Longtoushan Mt., Wolonghu Lake, and the front square and back square. It locates the rim of Dasha Street and Nangang Street, Huangpu district. The coverage area of the park is about 330 hectares. In which there are some landscaping elements such as mountain, water, stone and forest, and it is a good place for citizens to enjoy south sub- tropical evergreen broadleaf forest in urban region. The square area both front and back in the park takes up 35000 m2. With a harmonious forest park, the square in the park was divided spatially into four parts, i.e. encircling space, open space, sparse space and heartspace. Correspondingly the space landscape displays different eyeful elements, including green trees, flower in blossom, colorful leaves and dense forest. Four patterns of the landscaping elements are gradually formed mainly depending on the species andstructure ofvaried vegetable communities. By road linkage, the spatial divisions and therelevant landscapes in the forest square are perfectly harmony with the forest park.

综合找矿模型在内蒙古龙头山Ag-Pb-Zn多金属矿找矿中的应用

随着找矿难度的不断加大,全方位、多元的综合找矿模型日益受到重视.本文根据在龙头山银铅锌多金属矿床的找矿实践,总结了其地质、物探、化探等多方面的找矿标志,建立了综合找矿模型,并进行了矿区范围和区域上的成矿预测.

广西龙头山金矿床热液蚀变及其分布特征

通过分析广西龙头山金矿热液蚀变矿物的分布特征,认为电气石化、硅化与金矿化关系最为密切;通过K-Ar同位素年龄测定,推断电气石化、硅化为早期热液蚀变,与流纹斑岩、角砾熔岩有关,而高岭石化、绢云母化等与后期花岗斑岩以及黑云母花岗斑岩脉等岩浆活动关系密切。结果表明这一金矿床的产出深度略大于一般所报道的大多浅热液金矿床。

内蒙古龙头山多金属硫化物矿床同生重晶石流体包裹体特征--海相热水沉积成因证据

龙头山多金属硫化物矿床位于内蒙古大兴安岭中南段东坡,海西期地槽褶皱带西拉木伦河深大断裂北侧。野外地质研究发现,该矿床主要发育层状和筒柱状两类矿化,两类矿化的产状、蚀变、矿物特征等显示出典型的海底热水沉积成矿作用特征。对与该矿床金属硫化物同生沉积的重晶石进行流体包裹体岩相学研究发现,重晶石中的包裹体反映了热水沉积成矿期快速沉淀的特征,除次生包裹体外,与成矿作用有关的流体包裹体中纯气相和富气相包裹体很少,主要是富液相包裹体;对重晶石中富液相包裹体的显微测温研究发现,其均一温度为101.4～279.9℃,冰点温度为-5.5～-0.3℃,盐度为0.5%～8.5%,所代表的成矿流体密度为0.75～0.97g/cm3,反映的成矿流体温度、盐度、密度等特征符合典型海底热水沉积硫化物矿床的包裹体特征。