秘鲁南部斑岩铜矿典型蚀变带矿物信息提取及找矿远景区圈定

不同斑岩铜矿的构造地质、成矿时代和控矿因素具有其特殊性, 所以需要针对具体的矿区开展地质调查以获取矿区标志性蚀变矿物组合信息, 从而利用遥感技术手段提取矿区蚀变信息, 确定找矿远景区.通过综合分析秘鲁南部斑岩铜矿地质特征、控矿因素, 确立了以泥化-绢英岩化和青磐岩化组合蚀变矿物带为遥感找矿指示标志, 并以ASTER数据为遥感数据源开展蚀变矿物信息提取技术研究, 结合已有矿区地质资料、高光谱影像和实地勘查结果, 验证了典型蚀变带矿物信息提取结果的可靠性, 另圈定了2处找矿远景区.在综合分析、梳理已有研究基础上, 构建了多光谱遥感找矿模式, 并在智利、阿根廷等其他多个斑岩铜矿区取得了较好的应用效果.      

西藏玉龙斑岩铜矿床绢云母族蚀变矿物短波红外光谱特征及对勘查的指示意义

玉龙斑岩铜矿晚期绢云母化、黏土化蚀变强烈叠加在早期的钾硅酸盐化带内,模糊了蚀变分带特征及其与铜矿化之间的相关性.利用短波红外光谱(SWIR)可快速识别斑岩铜矿床内含羟基蚀变矿物,根据该类矿物的空间分布特征与矿化的对应关系,指导找矿勘查工作.本文对玉龙铜矿床靠近斑岩体中心的三个钻孔进行了详细的蚀变-矿化编录和SWIR分析...     

碰撞造山型斑岩铜矿蚀变分带模式--以西藏冈底斯斑岩铜矿带为例

岛弧环境斑岩铜矿蚀变分带模式已为人们所熟知 ,但碰撞造山环境的斑岩铜矿蚀变分带特征尚不清楚。对此 ,文中以西藏冈底斯斑岩铜矿带为例 ,选择驱龙、冲江、厅宫 3个典型斑岩铜矿 ,对其蚀变系统进行了系统研究。依据蚀变矿物组合可分为 3个蚀变带 ,呈环带状分布。从中心向外依次为钾硅酸盐化带、石英绢云母化带、青磐岩化带。泥化带不太发育 ,通常叠加在其它蚀变带之上。钾硅酸盐化带主要蚀变矿物为钾长石、黑云母、石英、硬石膏 ,伴有大量的黄铜矿与辉钼矿 ,是成矿物质的主要堆积区。石英绢云母化带与钾硅酸盐化带渐变过渡或叠加其上 ,是次于钾硅酸盐化带的储矿部位。蚀变矿物组合为绢云母 +石英 +钾长石 ,金属硫化物有黄铁矿、黄铜矿、辉钼矿、斑铜矿 ,少量的方铅矿、闪锌矿。主要的辉钼矿以石英 +辉钼矿脉的形式出现于本矿带。青磐岩化在斑岩体内不发育 ,矿化极微弱。蚀变岩石组分分析表明 ,岩石蚀变及其分带是岩浆流体 /岩石反应时K ,Na ,Ca ,Mg等组分迁移的结果 ,矿化伴随着蚀变发生。钾硅酸盐化带、石英绢云母化带和青磐岩化带的蚀变岩石与未 (弱 )蚀变斑岩具有一致的稀土配分模式 ,REE含量有规律地变化 ,说明蚀变岩石均经历了源于岩浆的流体的交代 ,不同的蚀变形成于岩浆流体演化的不同阶段。蚀?     

基于红外光谱技术研究云南普朗斑岩铜矿的蚀变和矿化特征

近年来红外光谱技术作为一种绿色、快速、无损、精确探测矿物的技术手段而倍受关注,针对斑岩型矿床蚀变矿物高度叠加、蚀变分带界线不明显、细粒蚀变矿物多、黏土蚀变矿物多等特征,该技术在蚀变矿物识别和勘探信息解读等方面优势突出。本文应用红外光谱技术对云南普朗斑岩铜矿区钻孔ZK1801岩心进行矿物识别和蚀变分带划分的研究,识别出钾硅酸盐化带、绿帘石-绿泥石化带、绿泥石-伊利石化带、石英-伊利石化带和泥化带。研究表明:普朗铜矿整个钻孔的蚀变矿物主要有石英、钾长石、绢云母、绿泥石、绿帘石、高岭石、蒙脱石、伊利石等;根据矿化特征,发现铜矿体广泛赋存在钾硅酸盐化带和绿帘石-绿泥石化带中,与矿化关系密切的蚀变矿物"石英+钾长石+绢云母"和"绿帘石+绿泥石",可以作为普朗矿床勘查的标型蚀变矿物组合;研究区广泛发育的绢云母Al—OH波长随钻孔深度增加而逐渐从2210～2205nm减小到2202～2198nm, Al—OH波长2210～2205nm(长波绢云母)与矿化关系密切,可以作为普朗矿床勘查的指示信息。     

蚀变矿物填图技术在斑岩型铜矿找矿勘查中的应用—以滇西北香格里拉松诺矿床为例

松诺铜矿区位于香格里拉格咱斑岩铜矿带红山-普朗铜多金属成矿亚带中段,矿区剥蚀程度较低,具有寻找斑岩型铜矿的潜力。本次蚀变矿物填图工作采用近红外光谱矿物分析技术,识别出绿泥石、绿帘石、高岭石、云母类、蒙脱石类及伊利石等6类主要蚀变矿物,蚀变类型为青磐岩化、绢英岩化;结合物探、化探异常分布,圈定3处找矿靶区,经对KHT2、KHT3钻孔验证,深部均圈定多层铜矿化体。结果表明,近红外光谱矿物分析技术在斑岩型铜多金属矿床勘查评价中可以较好地划分热液矿化蚀变带,进一步明确斑岩型矿化-蚀变中心,为探矿工程部署提供依据。     

短波红外光谱矿物测量技术在普朗斑岩铜矿区热液蚀变矿物填图中的应用

利用便携式短波红外光谱测量仪（PIMA）在云南普朗斑岩铜矿区开展了短波红外光谱测量工作,通过系统的野外数据采集,获得了研究区蚀变矿物组合及主要蚀变矿物的分布,并建立了普朗斑岩铜矿区蚀变矿物分带模式。在此基础上,建立了斑岩铜矿床找矿模型,该模型对普朗铜矿区及其外围的找矿工作具有积极的指导意义。     

新疆西准噶尔包古图斑岩铜矿蚀变岩石的光谱特征及其意义

地物的光谱特征是遥感识别地物的主要依据,不同地物的反射光谱具有其特定的吸收特征谱带。利用ASD和PIMA反射光谱测试仪对新疆西准噶尔包古图斑岩铜矿Ⅱ号、Ⅴ号斑岩铜矿岩体的蚀变围岩(地表采样与钻井采样)进行测试,并对结果进行分析总结。根据反射光谱特征谱带获得蚀变矿物的种类,确定了岩体的蚀变矿物组合,得到反射光谱的吸收谷在ASTER数据中所处的波段;对反射光谱曲线进行数学积分,获得ASTER数据中的强吸收波段。将以上2种分析得到的吸收性波段组合应用于蚀变遥感异常信息提取,结果表明蚀变遥感异常与野外地质特征吻合程度较高。反射光谱分析表明确定岩石矿物的反射光谱特征谱带是进行遥感信息提取工作的前提,波段组合选取对提取蚀变遥感异常信息非常重要。     

斑岩铜矿中的绿泥石及其形成条件

绿泥石是斑岩铜矿床特征蚀变矿物之一,它分布范围广,生长延续时间长,贯穿各个蚀变带。许多研究者均认为它是典型的低温蚀变矿物。本文通过对一些斑岩铜矿床绿泥石的研究,探索它与矿化的关系,提出了其成因上的看法。     

利用ASTER提取德兴斑岩铜矿遥感蚀变分带信息

在遥感光谱分析的基础上,结合德兴斑岩铜矿矿床地质特征,利用ASTER遥感数据提取了德兴斑岩铜矿的遥感蚀变分带信息.德兴斑岩铜矿蚀变分带根据蚀变矿物特征来分析,主要的蚀变矿物为白云母、伊利石、绿泥石、方解石、白云石;根据光谱特征,采用比值、斜率、相关吸收和主成分分析4种提取方法提取各蚀变矿物的信息,并采用叠加法对各蚀变矿物信息进行叠加,从而形成各个蚀变分带的遥感信息.各蚀变分带的遥感信息总体特征比较明显.最后,根据矿床成矿模式对蚀变分带信息进行了分析.     

西藏尕尔勤铜金矿多光谱遥感蚀变分带矿物提取

针对西藏多龙矿集区尕尔勤铜金矿床多光谱遥感蚀变分带矿物提取问题,在分析该区典型矿物波谱曲线的基础上,基于ASTER和L8_OLI多光谱数据采用MTMF和主成分分析方法对研究区蚀变分带矿物信息进行了提取。结果表明:(1)用MTMF方法可将Al-OH矿物细分为白云母和白云母+高岭石/蒙脱石;(2)尕尔勤铜金矿多光谱遥感地表蚀变分带矿物(组合)由内而外为:白云母→白云母+高岭石/蒙脱石→绿帘石,分别对应于斑岩型铜金矿的绢英岩化带→绢英岩化+泥化带→青磐岩化带。多光谱遥感地表蚀变分带特征对该区斑岩型铜金矿地面勘查和部署工作提供了重要的遥感线索。     

Application of Spectral Angle Mapper Classification to Discriminate Hydrothermal Alteration in Southwest Birjand,Iran, Using Advanced Spaceborne Thermal Emission and Reflection Radiometer Image Processing

The purpose of this study is to evaluate the Spectral Angle Mapper (SAM) classification method for determining the optimum threshold (maximum spectral angle) to unveil the hydrothermal mineral assemblages related to mineral deposits. The study area indicates good potential for Cu-Au porphyry, epithermal gold deposits and hydrothermal alteration well developed in arid and semiarid climates, which makes this region significant for Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) image processing analysis. Given that achieving an acceptable mineral mapping requires knowing the alteration patterns, petrochemistry and petrogenesis of the igneous rocks while considering the effect of weathering, overprinting of supergene alteration, overprinting of hypogene alteration and host rock spectral mixing, SAM classification was implemented for argillic, sericitic, propylitic, alunitization, silicification and iron oxide zones of six previously known mineral deposits: Maherabad, a Cu-Au porphyry system; Sheikhabad, an upper part of Cu-Au porphyry system; Khoonik, an Intrusion related Au system; Barmazid, a low sulfidation epithermal system; Khopik, a Cu-Au porphyry system; and Hanish, an epithermal Au system. Thus, the investigation showed that although the whole alteration zones are affected by mixing, it is also possible to produce a favorable hydrothermal mineral map by such complementary data as petrology, petrochemistry and alteration patterns.     

铜矿自然重砂矿物组合规律及其对铜矿成因类型的指示

根据铜矿床的成因类型,对全国177个铜矿床的自然重砂矿物进行统计分析。结果显示,自然重砂矿物对于铜矿床成因类型具有较好的指示意义。不同成因类型铜矿床的自然重砂矿物组合不同,尤其是岩浆型、斑岩型、矽卡岩型、火山岩型铜矿床均具有特征自然重砂指示矿物。除了铜矿物、铅锌矿物、黄铁矿、白钨矿等各类型铜矿床共有自然重砂矿物外,铬铁矿、镍黄铁矿、辉石、橄榄石等为岩浆型铜矿床的特征指示矿物,自然金、辉钼矿、磷灰石、磷钇矿等可以指示斑岩型铜矿床;锆石、锡石和石榴子石是矽卡岩型铜矿床的特征指示矿物;火山岩型铜矿床则以雄黄、雌黄作为特征指示矿物。这些研究对于建立不同成因类型铜矿的自然重砂找矿模型具有重要意义。     

西藏冈底斯成矿带西段鲁尔玛晚三叠世斑岩型铜(金)矿点的发现及意义

鲁尔玛斑岩型铜(金)矿为冈底斯成矿带西段新发现的斑岩型矿点,目前已发现赋存于石英二长斑岩体中的斑岩型铜矿体1条,赋存于构造破碎带中的热液型脉状金(铜)矿体1条、热液型脉状铜矿体1条。以鲁尔玛含矿斑岩为中心,依次发育钾硅酸盐化、绢英岩化、青磐岩化,表现出斑岩型矿床的典型蚀变分带模式。其中,热液脉体从早到晚被可划分为：钾硅酸盐化脉(A脉)、石英-金属硫化物脉(B脉)以及石英-绿帘石-碳酸盐化脉(D脉)。这一新的发现,证实冈底斯成矿带西段具有斑岩型铜(金)矿床的找矿潜力,有望将冈底斯斑岩型铜矿带向西延伸近200km,同时也表明拉萨地体南缘的冈底斯成矿带斑岩型铜成矿作用最晚应该开始于晚三叠世。鲁尔玛斑岩型铜(金)矿点的发现,对深入理解冈底斯斑岩铜(金)矿带的成矿作用,完善冈底斯成矿带的成矿理论,更好地评价冈底斯西段找矿潜力,指导该地区的找矿突破,均具有重要意义。     

哈萨克斯坦阿克斗卡超大型斑岩型铜矿田地质特征与成矿模式

中亚成矿域巴尔喀什成矿带阿克斗卡矿田主要由阿克斗卡、艾达里和库兹尔基亚等矿床组成, 是发育在火山岛弧环境的典型斑岩型Cu-Mo-Au矿床群, 其中阿克斗卡为超大型斑岩铜矿。斑岩型铜成矿作用发生在晚古生代哈萨克马蹄形构造形成过程中, 成矿构造背景为乌拉尔-天山断裂系统的大型左行走滑作用和大陆地壳侧向增生过程, 具有典型的斑岩铜矿围岩蚀变和矿石矿物分带特征; 成矿作用受东西向、北东东向和北西西向断裂控制, 主要与早期碱性阶段的硅化蚀变有关, 酸性蚀变阶段发生了再矿化与富集成矿作用; 据含矿花岗闪长岩中锆石SHRIMP定年本文给出主要成矿时代为327.5 ± 1.9 Ma (早石炭世晚期), 成矿模式为"花岗闪长岩"型, 属于浅成斑岩铜矿成矿系统。      

Delineation of mineralization zones in porphyry Cu deposits by fractal concentration–volume modeling

The purpose of this study was to identify the various mineralization zones especially supergene enrichment and hypogene in two different Iranian porphyry Cu deposits, based on subsurface data and by using the proposed concentration–volume (C–V) fractal method. The Sungun and Chah-Firuzeh porphyry Cu deposits, which are situated in NW and SE Iran, respectively, were selected for this study. Straight lines fitted through log–log plots showing C–V relations for Cu were employed to separate supergene enrichment and hypogene zones from oxidation zones and barren host rocks in the two deposits and to distinguish a skarn mineralized zone from the hypogene zone in Sungun deposit. In the proposed C–V fractal method, the identification of mineralization zones is based on power–law relationships between Cu concentrations and the volume of rocks hosting porphyry Cu mineralization. Separate subsurface data from the two deposits were analyzed by C–V fractal method and the results have been compared with geological models which included alteration and mineralogical models. The comparison shows that the interpreted zones based on the C–V fractal method are consistent with the geological models. The proposed C–V method is a new approach to defining zones in a mineral deposit and there was no commercial software available to perform the relevant calculations; therefore, a fractal concentration–volume (FCV) software was designed by the authors to achieve this goal.     

Extraction of Mineral Alteration Zone from ETM+ Data in Northwestern Yunnan,China

Alteration is regarded as significant information for mineral exploration. In this study, ETM remote sensing data are used for recognizing and extracting alteration zones in northwestern Yunnan (云南), China. The principal component analysis (PCA) of ETM bands 1, 4, 5, and 7 was employed for OH- alteration extractions. The PCA of ETM bands 1, 3, 4, and 5 was used for extracting Fe2 (Fe3 ) alterations. Interfering factors, such as vegetation, snow, and shadows, were masked. Alteration components were defined in the principal components (PCs) by the contributions of their diagnostic spectral bands. The zones of alteration identified from remote sensing were analyzed in detail along with geological surveys and field verification. The results show that the OH" alteration is a main indicator of K-feldspar, phyllic, and prophilized alterations. These alterations are closely related to porphyry copper deposits. The Fe2 (Fe3 ) alteration indicates pyritization, which is mainly related to hydrothermal or skarn type polymetallic deposits.     

羌塘南缘多龙矿集区荣那斑岩-高硫型浅成低温热液Cu-(Au)套合成矿:综合地质、热液蚀变及金属矿物组合证据

位于羌塘南缘多龙矿集区内的荣那斑岩-高硫型浅成低温热液Cu-(Au)矿床系近年来中铝西藏与西藏地质五队合作勘查取得重大找矿突破的铜矿床,控制资源量已达超大型规模,但对该矿床的成因类型仍存在争议。本文根据详细的钻孔岩芯、结合光学显微镜、扫描电镜观察、硫化物的电子探针分析,认为该矿床成矿与早白垩世花岗闪长斑岩有关。矿体主要产于下中侏罗统色哇组长石石英砂岩和成矿斑岩体中,矿体呈东西走向、南倾的隐伏状,延深巨大,金属矿化以铜为主,伴有金、银矿化,偶见钼矿化。热液蚀变具有两阶段蚀变:与斑岩型矿化有关的黑云母化、角岩化、硅化-绢云母化及硅化-伊利石-绿泥石化以上部叠加的高级泥化,蚀变分带明显。相应的该矿床具有斑岩型细脉浸染状矿化和以硫砷铜矿为特征的高硫型矿化,含铜矿物主要分为4个带,大致与蚀变分带相对应,下部主要为斑铜矿-黄铜矿;过渡带以斑铜矿-铜蓝组合为特征;中上部为蓝辉铜矿-砷黝铜矿-硫砷铜矿组合;顶部主要由为辉铜矿-蓝辉铜矿组成。总体上,矿床中上部为Cu-S体系、向下转变Cu-Fe-S体系。与其它类似矿床相比,该矿床硫化物中以富Zn、贫金为特征。综上认为该矿床为斑岩-高硫型浅成低温热液Cu-(Au)套合成矿的典型实例,其勘查突破为羌塘南缘火山岩区及覆盖区的找矿打开了一扇窗口。     

The use of the weights-of-evidence modeling technique to predictive porphyry Cu potential mapping in Ahar–Arasbaran zone,Iran

The weights-of-evidence is a data-driven method that provides a simple approach to integration of diverse geo-data set information. In this study, we will use weights-of-evidence to build a model for predicting tracts in the Ahar–Arasbaran zone of Urumieh-Dokhtar orogenic belt (northwestern Iran) that are favorable for porphyry copper deposits. Weights of evidence are a data-driven method requiring known deposits and occurrences that are used as training points in the evaluated area. This zone hosts two major porphyry Cu deposits (The Sarcheshmeh deposit contains 450 million tonnes of sulfide ore with an average grade of 1.13 % Cu and 0.03 % Mo and Sungun deposit, which has 500 million tonnes of sulfide reserves grading 0.76 % Cu and 0.01 % Mo), and a number of subeconomic porphyry copper deposits are all associated with Mid- to Late Miocene diorite/granodiorite to quartz-monzonite stocks. Five evidential layers including geology, alteration, geochemistry, geophysics, and faulting are chosen for potential mapping. Weight factors were determined based on the applied method to generate last mineral prospectivity map. The studied area reduces to less than 11.78 %, while large zones are excluded for further studies. This result represents a significant area reduction and may help to better focus on mineral exploration targeting porphyry copper deposits in the Ahar–Arasbaran zone.