广西清明山铜镍硫化物矿床上升气流微粒研究     

李映葵  曹建劲  陈杰  易杰 《岩石学报》2017,33(3):831-842

为探讨上升气流微粒与深部隐伏矿体之间关系,在广西清明山铜镍硫化物矿床上方土壤中采集上升气流微粒,并采用透射电子显微镜(TEM)对微粒的形貌、大小、聚合状态、化学组分及结构等进行分析。结果表明,微粒主要由Cu、Co、Zn、Fe、Ca、Si、S等元素组成,其中成矿元素Cu、Co以自然Cu-Fe-Co、Zn-Fe-Co及Fe-Co合金微粒的形式存在,其余如Fe、Ca、Si、S等元素则以氢氧化物、氧化物及碳酸盐微粒形式存在。微粒可分为微粒聚合体及单个微粒,微粒的大小为50~500nm,微粒的形状多为不规则状、近椭圆形、近球状、水滴状和近长方体等。微粒中高含量的Cu、Co、Zn来源于深部隐伏矿体,含Fe、S微粒来源于矿床中金属硫化物矿物。此外,高价态的微粒组分指示微粒处于相对氧化的环境。清明山铜镍硫化物矿床的上升气流微粒组分与矿床矿物组分间存在着较好的对应性,本研究为隐伏铜镍硫化物矿床提供了新的找矿方法。  相似文献   

Relative contribution of magmatic and post-magmatic processes in the genesis of the Thompson Mine Ni-Co sulfide ores,Manitoba, Canada     

《Ore Geology Reviews》2017

The Ni-Co-(PGE) sulfide deposits of the Thompson Nickel Belt (TNB) in Northern Manitoba, Canada are part of the fifth largest nickel camp in the world based on contained nickel; past production from the TNB deposits is 2500 kt Ni. The Thompson Deposit is located on the eastern and southern flanks of the Thompson Dome structure, which is a re-folded nappe structure formed during collision of the Trans-Hudson Orogen with the Canadian Shield at 1.9–1.7 Ga. The Thompson Deposit is almost entirely hosted by P2 member sulfidic metasedimentary rocks of the Paleoproterozoic Ospwagan Group. Variably serpentinised and altered dunites, peridotites and pyroxenites contain disseminated sulfides and have a spatial association with sediment-hosted Ni sulfides which comprise the bulk of the ore types. These rocks formed from rift-related komatiitic magmas that were emplaced at 1.88 Ga, and subsequently deformed by boudinage, thinning, folding, and stacking.Disseminated sulfide mineralization in the large serpentinised peridotite and dunite intrusions that host the Birchtree and Pipe Ni-Co sulfide deposits typically has 4–6 wt% Ni in 100% sulfide. The disseminated sulfides in the less abundant and much smaller boudinaged serpentinised peridotite and dunite bodies associated with the Thompson Deposit have 7–10 wt% Ni in 100% sulfide. The majority of Thompson Mine sulfides are hosted in the P2 member of the Pipe Formation which is a sulfidic schist developed from a shale prololith; the mineralization in the schist includes both low Ni tenor (<1 wt% Ni in sulfide) and barren sulfide (<200 ppm Ni) and a Ni-enriched sulfide with 1–18 wt% Ni in 100% sulfide. The semi-massive and massive sulfide ores show a similar range in Ni tenor to the metasediment-hosted mineralization, but there are discrete populations with maximum Ni tenors of ∼8, 11 and 13 wt% Ni in 100% sulfide. The variations in Ni tenor are related to the Ni/Co ratio (high Ni/Co correlates with high Ni tenor sulfide) and this relationship is produced by the different Ni/Co ratios in sulfides with a range in proportions of pyrrhotite and pentlandite. Geological models of the ore deposit, host rocks, and sulfide geochemical data in three dimensions reveal that the Thompson Deposit forms an anastomosing domain on the south and east flanks of a first order D3 structure which is the Thompson Dome. In detail, a series of second order doubly-plunging folds on the eastern and southern flank control the geometry of the mineral zones. The position of these folds on the flank of the Thompson Dome is a response to the anisotropy of the host rocks during deformation; ultramafic boudins and layers of massive quartzite in ductile metasedimentary rocks control the geometry of the doubly-plunging F3 structures. The envelope of mineralization is almost entirely contained within the P2 member of the Pipe formation, so the deposit is clearly folded by the first order and second order D3 structures. The sulfides with highest Ni tenor (typically >13 wt% Ni in sulfide) define a systematic trend that mirrors the configuration of the second order doubly-plunging F3 structures on the flanks of the Dome. Although moderate to high Ni tenor mineralization is sometimes localized in fold hinges, more typically the highest Ni tenor mineralization is located on the flanks of the fold structures.There is no indication of the mineralogical and geochemical signatures of sedimentary exhalative or hydrothermal processes in the genesis of the Thompson ores. The primary origin of the mineralization is undoubtedly magmatic and this was a critical stage in the development of economic mineralization. Variations in metal tenor in disseminated sulfides contained in ultramafic rock indicate a higher magma/sulfide ratio in the Thompson parental magma relative to Birchtree and Pipe. The variation in Ni tenor of the semi-massive and massive sulfide broadly supports this conclusion, but the variations in metal tenor in the Thompson ores was likely created partly during deformation. The sequence of rocks was modified by burial and loading of the crust (D2 events) to a peak temperature of 750 °C and pressure of 7.5 kbar. The third major phase of deformation (D3) was a sinistral transpression (D3 event) which generated the dome and basin configuration of the TNB. These conditions allowed for progressive deformation and reformation of pyrrhotite and pentlandite into monosulfide solid solution as pressure and temperature increased; this process is termed sulfide kinesis. Separation of the ductile monosulfide solid solution from granular pentlandite would result in an effective separation of Ni during metamorphism, and the monosulfide solid solution would likely be spread out in the stratigraphy to form a broad halo around the main deposit to produce the low Ni tenor sulfide. Reformation of pentlandite and pyrrhotite after the peak D2 event would explain the broad footprint of the mineral system. The effect of the D3 event at lower pressure and temperature would have been to locally redistribute, deform, and repeat the lenses of sulfide.The understanding of the relationships between petrology, stratigraphy, structure, and geochemistry has assisted in formulating a predictive exploration model that has triggered new discoveries to the north and south of the mine, and provides a framework for understanding ore genesis in deformed terrains and the future exploration of the Thompson Nickel Belt.  相似文献   

Mapping fisheries in the German exclusive economic zone with special reference to offshore Natura 2000 sites     

Søren Anker Pedersen  Heino O. Fock  Anne F. Sell 《Marine Policy》2009

Large intensity and diversity of human activities result in an increase in complexity in the utilization of space. This paper describes the fisheries and a method to map fishing efforts and catches of different fleets by combining vessel monitoring system (VMS) data and logbook data. The method makes it possible to explore the spatial and temporal variability of fishing and the potential impacts of proposed management measures on the fisheries. The method is proposed to be used in the development of management plans for marine protected areas such as Natura 2000 sites, designated to protect vulnerable habitats and species.  相似文献   

四川省白玉县呷村-有热矿区成矿流体地球化学   总被引：1，自引：0，他引：1  

党院  陈懋弘  毛景文  薛志强  李义邦  辛天贵  马存虎  李倩倩 《岩石学报》2014,30(1):221-236

四川省白玉县呷村银多金属矿床是我国著名的VMS型矿床之一,该矿床由西矿带热液流体补给通道相的脉状-网脉状矿化系统和东矿带的海底盆(洼)地卤水池喷气-化学沉积系统组成。有热矿床紧邻呷村矿床的南部,实质上是呷村矿带(体)的自然南延部分,具有相同的地质背景和成矿环境。本文分别对呷村西矿带、东矿带以及有热矿床进行了主成矿期石英的流体包裹体测试和氢、氧同位素分析以及硫化物的硫同位素分析。显微测温结果显示,呷村矿床从西矿带到东矿带,即由深部向浅部表现为成矿温度下降(258.0～209.8℃),流体的盐度略变小(4.42%～4.18%NaCleqv),而流体的密度增大(0.816～0.894g/cm3),并且有热矿床成矿流体特征(平均成矿温度为244.3℃;平均盐度为4.71%NaCleqv;平均密度为0.841g/cm3)与呷村西矿带流体特征更类似。显微激光拉曼光谱分析显示流体包裹体的液相成分主要为H2O,气相成分为H2O、CO2、N2以及CH4。氢、氧同位素研究显示,成矿流体为海水和岩浆水的混合流体。硫同位素分析结果表明,呷村西矿带(δ34S平均值为-3.65‰)与呷村东矿带的硫(δ34S平均值为-0.68‰)和有热矿床(δ34S平均值为-3.74‰)的硫都由深部岩浆提供,并且有热矿床与呷村西矿带的硫同位素特征更类似。成矿流体物理化学特征和同位素示踪结果表明,有热矿床目前已知矿体可与呷村西矿带对比,暗示可能存在尚未发现的类似呷村东矿带的富矿体。呷村-有热矿区的成矿机制为:在海水对流的成矿模式下,由岩浆水和海水混合而成的成矿流体,携带来自岩浆来源的成矿物质,自下而上向上运移和循环,在热液补给通道和海底发生淀积作用,形成脉状-网脉状矿体和块状矿体。  相似文献   

甘肃白银厂矿区及其外围铜矿床成矿特征与定量预测     

高冀芸  陈守余  廖时理  孙小艳 《江苏地质》2014,38(3):421-427

北祁连地区是我国重要的海相火山成因铜多金属块状硫化物矿床成矿带,位于该区东段的白银矿田内产出有多个大型-特大型VMS矿床,具有较好的找矿前景.在该地区铜矿床成矿特征研究的基础上,利用GIS技术提取与成矿有关的地层、构造、岩浆岩、地球化学等多元找矿信息,构建了白银矿区及外围铜矿床的证据权重找矿模型,利用后验概率圈定出找矿远景区,按照各找矿远景区相对成矿可能性的大小和各找矿标志将远景区分为Ⅰ、Ⅱ、Ⅲ3级,各级找矿远景区各3个.  相似文献   

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     

董长春  舒良树  顾连兴 《江苏地质》2014,38(4):583-593

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。  相似文献   

云南省施甸县东山铅锌矿成因分析     

邢永辉  张岐能  杨剑洲  杨积转 《云南地质》2014,(2):188-193

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.  相似文献   

云南省施甸县摆田铅锌矿矿床地质特征及成因     

李星  王睿  和敬华  徐友智  胡兴涛 《云南地质》2014,(2):207-209

矿体赋存于上三叠统大水塘组顶部与中三叠统河湾街组底部断层接触带中,严格受构造控制.矿体呈透镜状～似层状,厚度变化较大.为一早期形成于断裂破碎带中后经地表长时间氧化淋滤叠加形成的热液—风化淋滤型铅锌矿床.  相似文献   

宾川小龙潭斑岩铜钼矿矿化特征及控矿条件     

张金学  罗洪昌  刘利超  杨枝斌  田锐锋 《云南地质》2014,(2):214-218

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.  相似文献   

云南绿春杨家寨金多金属矿矿床特征及成矿规律     

郭建刚 《云南地质》2014,33(3):320-328

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.  相似文献