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1.
贵州松桃高地特大型富锰矿床主要地质特征   总被引:1,自引:1,他引:0  
位于贵州铜仁松桃国家锰矿整装勘查区内的高地富锰矿床,(332)+(333)类碳酸锰富锰矿石资源量达7 166. 84万吨,锰平均品位25. 75%,矿体平均厚度4. 52 m,富锰矿体赋存于总资源量达1. 61亿吨的高地超大型锰矿床之中,由一个单一的富锰矿体构成,是我国新发现的首个特大型富锰矿床,富锰矿资源量相当于我国富锰矿资源量总和的2倍。成因类型属古天然气渗漏沉积型锰矿床,富锰矿产于古天然气渗漏沉积成矿系统中心相区。高地富锰矿床地处独特的"新月形"南华纪早期李家湾-高地-道坨(Ⅳ级)地堑盆地中心,菱锰矿体中均出现以块状构造夹被沥青充填的气泡状富菱锰矿石。地表燕山期北北东向的断裂构造十分发育,但主要为上陡下缓犁式正断层,未触及高地深部隐伏巨型锰矿体,以致富锰矿体保存亦十分完整,易于开发利用。  相似文献   

2.
黔东松桃地区凉风坳锰矿床是我国较为典型的"大塘坡式"锰矿床之一,由于矿物组成复杂,锰矿物晶形较差且粒度细小,对其矿物学的认识程度较低,矿床成因方面尚存在较大争议。野外地质调查和矿物学的研究表明,凉风坳锰矿床的锰矿层,主要产出于含锰岩系的菱锰矿-碳质页岩组合和菱锰矿-含锰碳酸岩-碳质页岩组合中,矿石类型有致密块状、条带状、角砾状和含方解石脉4种,主要锰矿物为菱锰矿和钙菱锰矿。矿物化学研究表明,由致密块状锰矿石→条带状锰矿石→角砾状锰矿石→含方解石脉锰矿石,锰矿物的MnCO_3、MgCO_3和FeCO_3总体上具逐渐减少,而CaCO_3具逐渐增多趋势;Mn/Fe比值变化范围为22.7~84.9,MnO_2+FeO与CoO+NiO呈极差的负相关关系。综上表明,凉风坳锰矿床形成于一个地堑式同沉积断陷盆地中,形成过程中处于较强的还原沉积环境,锰矿物为成岩成因类型,Fe、Mn两种元素的沉积受到强烈的陆源和火山活动等影响。  相似文献   

3.
蒙凯 《地质与勘探》2018,54(S1):1392-1401
虽然传统物探方法在大多数金属矿产勘查中都取得了良好的效果,但在锰矿勘查中的应用却相对较少,这主要是由于锰矿与其围岩的地球物理性质和化学性质差异较小,加大了锰矿的勘探难度,尤其是埋深较大、后期改造强烈的一些锰矿床,勘探难度更大,导致进行直接找矿效果并不显著。笔者近几年主要在巴山锰矿带和塔里木盆地西南缘锰多金属矿区采用不同的物探方法进行锰矿勘查工作,在部分矿区取得了较好的勘查效果。本文主要以塔里木盆地西南缘锰多金属矿区的新疆奥尔托喀讷什一带锰矿区为例,主要介绍了采用激发极化法在该工区开展的具体工作情况以及取得的一些成果认识,表明该方法在寻找隐伏含锰层位具有较好的效果。  相似文献   

4.
后沟-大坪山矿区位于南秦岭磷、锰成矿带的中东段,近年来在下寒武统塔南坡组中发现了3条含磷、锰矿化带,并圈定出多个锰矿体和磷矿体。磷、锰矿体具有多层性,常表现为磷、锰的分层成矿,多呈上锰下磷的空间分布特征。通过分析Ⅱ矿化带内地表和深部样品的常量元素、微量元素和稀土元素的地球化学特征,发现磷、锰矿其物质来源具有一定的相似性,但是磷、锰矿石沉积的氧化-还原条件、沉积区域以及沉积水体条件都存在差别,这可能是引起磷、锰分离单独成矿的主要原因。  相似文献   

5.
浅论贵州铜仁松桃锰矿区大塘坡组地层与锰矿成矿的关系   总被引:2,自引:2,他引:0  
贵州铜仁松桃锰矿区位于扬子陆块与华南陆块的过渡区,跨越上扬子地块和江南造山带。通过对本区7个较大成锰沉积盆地中大塘坡组地层进行对比分析,总结出本区大塘坡组地层厚度与锰矿品位及矿体厚度呈正相关性,即大塘坡组地层厚度越厚,锰矿品位越高、矿体厚度越厚,其中,锰矿品位与大塘坡组第二、三段地层厚度呈较强正相关性,锰矿体厚度与大塘坡组第一段呈较强正相关性。同时大塘坡组及锰矿体的厚度变化表明松桃道坨-冷水成锰沉积盆地和杨立掌-李家湾成锰沉积盆地为同一个成锰沉积盆地,深部找矿潜力较大。  相似文献   

6.
鄂东北鹰咀山锰矿床地质特征及找矿标志   总被引:1,自引:0,他引:1       下载免费PDF全文
鹰咀山锰矿床产出在桐柏—大别造山带中,目前已发现有4条锰矿(化)体,其产出受控于红安群黄麦岭组和七角山组。本文基于矿区锰矿勘查工作和室内观察、测试研究相结合等手段,对研究区含矿岩系(建造)特征、矿体及矿石矿物特征、成矿过程和找矿标志等方面进行了分析探讨。结果表明:鹰咀山锰矿为沉积变质型矿床,锰矿(化)体主要赋存在黄麦岭组云母石英片岩夹硅质(有时含少量泥质)大理岩建造的岩性段中;矿石类型主要为片岩型锰矿石和大理岩型锰矿石,矿石中锰矿物主要为硬锰矿、软锰矿、菱锰矿、锰白云石和黑锰矿等;初步认为锰矿的形成经历了沉积、变质改造和次生氧化富集的成矿阶段;含锰硅质大理岩和含锰云母石英片岩可作为该地区锰矿的典型找矿标志,该标志对鄂东北地区锰矿找矿具有重要意义。  相似文献   

7.
新疆西昆仑奥尔托喀讷什锰矿地质、地球化学及成因   总被引:2,自引:1,他引:1  
近年来,西昆仑玛尔坎苏地区富锰矿找矿取得重大突破,新发现奥尔托喀纳什等大型锰矿床。该矿床层位稳定,厚度较大,Mn平均品位达35%以上,为中国最富的碳酸锰矿床,属于典型的海相沉积型锰矿床。锰矿体主要赋存于晚石炭世喀拉阿特河组地层中,该组岩性为一套浅海碳酸盐岩台地相沉积建造组合,可划分为台内浅滩、潮坪、开阔台地、局限台地等4个相类型。成矿分为三个期次,第一期为沉积成岩成矿期,矿石矿物由菱锰矿、锰方解石、硼锰矿组成;第二期为热液改造期,形成锰镁绿泥石、红锰矿、硫锰矿、锰方解石(脉)、重结晶菱锰矿、蔷薇辉石及滑石、石膏等;第三期为表生氧化期,发育少量软锰矿、水锰矿、硬锰矿等。锰矿石具有较低的Fe/Mn比值、V/(V+Ni)比值和强烈的Ce正异常,表明Mn是在氧化环境下,以氧化物或氢氧化物的形式沉积富集。含锰岩系顶、底板岩石中含较多成熟度较差的中酸性火山岩岩屑,以及具有较低Al/(Al+Fe+Mn)、Y/Ho、Co/Ni比值的锰矿石,说明其成矿物质来源于海底热水活动。奥尔托喀纳什锰矿具有"内源外生"的特点,锰矿石及菱锰矿具有负的δ~(13)C值(-23.3‰~-13.2‰),表明锰矿经历了先成锰氧化物或氢氧化物、再被还原转化成菱锰矿的过程。此外,有机质所导致的更为强烈的还原作用是本矿床富锰矿形成的重要机制。后期构造叠加致使矿体发生变形,矿体形态受褶皱控制。矿石受到强烈改造,形成锰镁绿泥石、红锰矿、蔷薇辉石等,晚期经历氧化淋滤作用形成软锰矿、水锰矿等。  相似文献   

8.
荣华锰矿赋存于桂西三叠系百逢组中,为该层位首次发现的中型规模锰矿。笔者通过参与矿区锰矿勘查工作,采用室内外观测、测试、工程揭露和验证等手段,对研究区地层、构造、沉积演化、含矿层位、矿体及矿石矿物特征、矿床成因和找矿标志等方面进行了分析探讨。研究发现荣华锰矿为典型的沉积-锰帽型矿床,严格受地层和构造因素控制;矿石类型主要为氧化锰矿贫锰矿石;氧化锰矿物主要为水羟锰矿、硬锰矿及软锰矿;矿床成因与原始沉积作用、后期风化淋滤等有重要关系;百逢组浊积岩之下、罗楼组碳酸盐岩之上的狭窄范围是荣华锰矿的典型找矿标志,该标志对大量出露三叠系百逢组的桂西地区具有普遍意义,同时指出桂西地区该组地层内具有良好的找矿前景。  相似文献   

9.
中国锰矿的现状与展望   总被引:2,自引:3,他引:2  
孙家富 《地质与勘探》1997,33(3):8-10,28
新中国成立迄今,已累计探明锰矿石7.17亿t。中国锰矿床有4种类型:海相沉积型、沉积受变质型、层控型和风化型。锰矿以地台型为主,地槽型次之。锰矿具有多时代,多层位的特点。矿石贫,富矿短缺。多数矿区已开发利用。钢铁工业要求锰业同步发展。今后应加强我国中西部地区锰矿的勘查与开发,重视两种资源的利用。  相似文献   

10.
【研究目的】锰矿作为一种金属矿产,应用于国民经济的多个领域。黔阳成锰盆地是中国重要的锰矿基地,其锰矿床类型为赋存于南华系大塘坡组地层中的一套海相碳酸锰矿床,资源储量大,开采历史长,但其成矿模式尚不清楚。【研究方法】本文以锰矿集中分布的湖南靖州地区为例,在野外剖面实测、地球化学数据分析的基础上,通过Co/Zn-(Cu+CO+Ni)图解、Fe-Mn-(Cu+CO+Ni)×10三端元判别图解、(Zr+Ce+Y)×100-(Cu+Ni)×15-(Fe+Mn)/4三角图解以及Al/(Fe+Mn+Al)比值、(Fe+Mn)/Ti比值和Fe/Ti比值等一系列判别指标分析了锰矿中锰元素的来源。利用锰矿石的V/Cr、Th/U、Ce/La以及Ce标志分析了锰矿石沉积时的古环境。【研究结果】黔阳成锰盆地靖州地区锰矿石中锰元素主要来源于海底热液系统,沉积时水体处于贫氧—缺氧环境,前期形成的断裂带为锰元素的运移提供了通道。【结论】黔阳成锰盆地靖州地区锰矿石是冰期由地壳深部经众多断裂带上升到海盆中的锰元素,在间冰期与海水中的CO23-相结合富集而成。  相似文献   

11.
马公锰矿是川西北地区近年来新发现的具有找矿潜力的石坎式锰矿床,矿区共发现2个锰矿层,共圈出锰矿体5个,矿体倾向NW,呈层状、似层状分布,厚度大、延深稳定,地表以氧化锰矿为主,深部为碳酸锰。在阐述马公锰矿矿床地质特征的基础上,总结了矿区的找矿标志,认为马公锰矿属于海相沉积型锰矿,严格受地层层位的控制,多形成于沉积环境转变之际,其含矿层位为下寒武统邱家河组,含矿岩性为含碳白云质硅质板岩;预测矿区附近同层位具有较好的锰矿找矿前景。  相似文献   

12.
王军 《地质与勘探》2018,54(S1):1338-1343
新疆阿克陶县奥尔托喀讷什地区具有巨大的锰矿找矿潜力,并在近年来取得重大找矿突破。目前该锰矿区已累计查明资源储量(121b+122b+331+332+333)1206.74万吨,矿床平均品位37.82%。锰矿赋存于上石炭统喀拉阿特河组(C2k)含碳泥质灰岩夹薄层细晶灰岩条带中,该套含锰岩系岩石组合具有滨浅海相沉积物的特征。矿体呈层状、似层状、条带状产出,层位稳定,出露长度40km,矿体厚度0.5~22m不等,矿石的矿物主要为菱锰矿,其次软锰矿,少量硅酸锰。矿石主要为微晶结构、细粒结构,致密块状构造、浸染状构造。该锰矿床P/Mn平均值为0.0056,Mn/TFe平均值为14.01,属于中磷富锰矿床。奥尔托喀讷什锰矿床的形成可能与晚古生代期间强烈拉张环境下火山活动形成的大量的火山岩以及在弧后拉张拗陷环境海水热液活动有关。  相似文献   

13.
主乌鲁克锰矿床位于西昆仑北缘晚古生代陆缘裂谷恰尔隆弧盆系的北部,含锰层位为下石炭统他龙群细碎屑岩夹碳酸盐岩,锰矿层为黑色泥质碳质页岩夹铁锰质泥晶灰岩。锰矿体严格受地层的控制,呈NWW向展布,延伸较为稳定,规模较大,共见有13条锰矿体,其中有3个矿体较大构成主矿体;锰矿石以原生菱锰矿为主体,氧化矿石不多。该矿床与近年发现的玛尔坎苏地区锰矿床既有相似之处,又有明显不同,矿床类型为在深海-半深海陆缘裂谷环境中形成的与黑色碳质页岩有关的沉积型锰矿床,锰矿的成矿时代为早石炭世。由于下石炭统他龙群是西昆仑地区新发现的含锰层位,具有较大的找矿潜力,应加强矿床外围及深部的找矿工作。  相似文献   

14.
四川九龙中咀铜矿床为近年来新发现的一个产于江浪变质核杂岩中的富铜矿床。矿体呈似层状,受韧性剪切带控制,矿体在走向和倾向上延伸稳定。主要矿石类型为浸染状、网脉状、角砾状、块状铜锌矿石。矿石建造为FeCu-Zn建造。金属矿物由黄铜矿、磁黄铁矿、闪锌矿、方铅矿等组成。主要蚀变类型为石榴子石化、绢云母化、绿泥石化、黑云母化。矿体铜品位较高,平均品位为1.65%。目前该矿床仍在进行详查地质工作,矿区向东和向北西方向仍具有较好的找矿前景。该矿床的发现与评价,对于重新认识里伍铜矿床外围找矿潜力和进一步指导该区找矿工作具有重要意义。  相似文献   

15.
The southwestern Sabzevar basin is the north of Central Iranian Microcontinent hosts abundant mineral deposits, including exhalative Mn mineralization and Cu-Zn volcanogenic massive sulfide (VMS) deposits. Amongst them, the Nudeh Besshi-type Cu–Zn volcanogenic massive sulfide (VMS) deposit is hosted within the lower part of a Late Cretaceous volcano-sedimentary sequence composed of alkali olivine basalt flows and tuffaceous silty sandstone. Based on investigations into the ore geometry, mineralogy, and texture, we recognized three different ore facies: (1) a stockwork of sulfide-bearing quartz veins cutting across the footwall volcano-sedimentary rocks and representing the stringer zone; (2) a massive ore type, displaying replacement texture with pyrite, chalcopyrite, sphalerite, friedrichite, and minor magnetite; and (3) a bedded ore type, with laminated to disseminated pyrite and chalcopyrite. EPMA studies indicate a distinctive minor element distribution between the different ore types of the Nudeh deposit. The Fe content in the sphalerite ranges from 0.65–1.80?wt.%, indicating the Fe-poor nature of the sphalerite. However, the Cd content in sphalerite ranged between 0.164–0.278?wt.%. According to the mineral compositions, Zn, Se, and Ag are found in bornite as minor elements. In the bedded ore facies, the pyrite contains higher levels of Se (up to 0.35?wt.%). The Zn content in the friedrichite in all of the ore samples is low. The Co/Ni ratios in pyrite from the Nudeh ore are lower than those of most magmatic deposits, but are similar to those from volcanogenic deposits, and hence support the proposed hydrothermal origin of the deposit. Two generations of quartz, Q1 and Q2 in the stockwork veins, contain primary fluid inclusions and these contain two phases (liquid and vapor). The lack of vapor-rich inclusions or variable liquid/vapor ratios indicate that the fluids did not boil at the site of trapping. Salinity for both Q1 and Q2 fluid inclusions ranges between 2.2–6.8?wt.% eq. NaCl. Homogenization temperatures for inclusions in the Q1 and Q2 veins average at about 296?°C and are similar to the temperatures of hydrothermal fluids discharged through vents in many modern seafloor VMS deposit. The Nudeh Besshi-type VMS deposit appears to have formed on the seafloor and based on the salinity and temperature constraints from the underlying stockwork, a buoyancy plume model is proposed as a mechanism for precipitation.  相似文献   

16.
The Cheshmeh-Frezi Mn deposit belongs to the southwest Sabzevar basin to the north of the Central Iranian microcontinent. This basin, which hosts abundant mineral deposits including Mn exhalative and Besshi-type Cu-Zn volcanogenic massive sulfide deposits, followed an evolution closely related to the subduction of the Neo-Tethys oceanic crust beneath the Central Iranian microcontinent. Two major sedimentary sequences are recorded within this basin: (I) the Lower Late Cretaceous volcano-sedimentary sequence (LLCVSS) and (II) the Upper Late Cretaceous sedimentary dominated sequence (ULCSS). The Cheshmeh-Frezi Mn deposit is hosted within red tuff with interbeds of green tuffaceous sandstone of the LLCVSS. Mineralization occurs as stratiform blanket-like and tabular orebodies. Psilomelane, pyrolusite and braunite are the main minerals of the ore, which display a variety of textures. Such as layered, laminated, disseminated, massive, replacement or open space fillings. The footwall and hanging-wall volcanic rocks are predominantly andesite and trachyandesite rocks. Footwall and hangingwall volcanic rocks at Cheshmeh-Frezi are enriched in light rare earth elements (LREEs) compared to chondrite, have steep REE patterns, and generally show Ta and Nb depletions relative to chondrite which are characteristic of back-arc environments. The significant geochemical characteristics of ore such as high Mn content (12.41–33.14 wt%; average 19.41 wt%), low concentration of Fe (0.64–2.27 wt%; average 1.63 wt%), high Ba (49.7–9901 ppm, average 2728.67 ppm), LREE > HREE, and negative Ce and Eu anomalies reveal a primary distal hydrothermal-exhalative source for mineralization. Cheshmeh-Frezi deposit, in comparison with different types of volcanogenic manganese deposits shows broad similarities with the Cuban-type Mn deposits such as tectonic, host and associated rock types, geometry, textures, structures, mineralogy and lithogeochemistry.  相似文献   

17.
延边东部五道沟脉型白钨矿矿床地质特征及流体包裹体   总被引:1,自引:0,他引:1  
延边东部五道沟矿床内的钨矿体主要呈平行脉状赋存于华力西晚期蚀变花岗闪长岩中,与相邻的杨金沟大型钨矿相比,具有矿脉数量少、单脉厚度大和品位高的特点;矿石中金属矿物以白钨矿为主,呈团块状、粗粒浸染状、细脉状产于石英脉及碎裂蚀变围岩中,具有热液脉型矿床的矿化特征.主成矿阶段形成的粗粒白钨矿及石英颗粒中主要发育气液两相包裹体,...  相似文献   

18.
鸭子口铜锌矿属刘山岩矿区的西延部分,是分布于刘山岩挤压带内的同类型铜锌矿点。矿体赋存于纹层状硅质-钠长石岩层中,自矿体中心向边缘存在黄铁矿-黄铜矿-方铅矿-重晶石-石英的相对分带。激电异常表现出高极化率低电阻率的电性特征,与矿区铜矿(体)石具有相同的电性特征。各主要元素异常中,Cu,Zn套合较好,呈带状分布,反映了区内构造、蚀变及矿化特征。本文着重对成矿地质背景,地球物理特征和地球化学特征进行总结,以期为该类型矿床的普查评价提供借鉴。  相似文献   

19.
敦煌金滩子金矿床系20世纪70年代初,在区调工作中检查古代采矿遗迹时发现,80年代开展过普查,经2014~2015年详查提交的一处中型金矿床。矿区由梭子山、八卦图和金滩子3个矿段组成。金矿化受断裂破碎带控制,加里东晚期石英闪长岩为八卦图和金滩子矿段石英脉型金矿的赋矿岩石,华力西中期二长花岗岩为梭子山矿段蚀变岩型金矿的赋矿岩石。目前控制主矿体长151~320 m、斜深155~350 m、矿体平均品位7.61×10~(-6)~17.94×10~(-6),矿体延伸较稳定,金品位较高。黄铁矿、褐铁矿、石英、方解石为主要载体矿物。据对金滩子金矿各矿段深部矿化特点及走向上控矿因素的分析,认为该矿床具有较好的找矿前景。  相似文献   

20.
The large Gacun silver–lead–zinc–copper deposit in Sichuan Province is one of the largest volcanogenic massive sulfide(VMS) deposits in China. The deposit consists of western and central ore bodies, which form a vein–stockwork mineralization system corresponding to hydrothermal channels, and eastern ore bodies, which form an exhalative chemical sedimentary system derived from a brine pool in a submarine basin. The Youre lead–zinc deposit, which is currently under exploration and lies adjacent to the southern part of the Gacun deposit, is characterized by intense silicification and vein–stockwork structures and consists of massive silicified rhyolitic volcanics, banded rhyolitic tuff, and phyllitic sericite tuff. From a comparison of their ore-bearing horizons, the Gacun and Youre deposits have a continuous and stable hanging wall(calcareous slate and overlying andesite) and foot wall(rhyolite–dacite breccia and agglomerate), and the lithologic sequence includes lower intermediate to felsic rocks and upper felsic rocks. Thus, the Youre deposit, which comprises relatively thinly layered low–grade ore, is regarded as forming a southward extension of the Gacun deposit. A further comparison of the structures of the ore-bearing belts between the two deposits suggests that the Youre ore bodies are similar to the western ore bodies of the Gacun deposit. Moreover, the characteristics of fluid inclusions and stable isotopes in the Youre deposit are also similar to those of the western ore bodies of the Gacun deposit. Genetic models of the deposits are proposed for the Gacun–Youre ore district, and massive concealed ore bodies may occcur in the Youre deposit at depths that are similar to those of the eastern ore bodies of the Gacun deposit.  相似文献   

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