云南镍钴矿成矿规律及找矿方向

镍、钴是我国重要的紧缺战略性矿产, 其保障程度对国家稳定和发展具有重要意义。云南省作为有色金属王国, 已发现了镍矿床(点)42处, 钴矿床(点)48处, 查明资源量位于全国前列, 具有较好的镍、钴矿找矿潜力。本文在前人研究工作基础上, 梳理了云南省镍、钴矿床的成因类型、时空分布和成矿作用, 总结成矿规律, 并探讨找矿方向。云南省镍、钴矿床可划分为岩浆型、岩浆热液型、海相火山岩型、受变质型、中-低温热液型和风化型6种矿床类型。镍、钴矿主要集中于扬子陆块及三江造山带, 镍矿床主要形成于印支期及喜马拉雅期, 钴矿床主要形成于喜马拉雅期、晋宁期及印支期。岩浆型和风化型镍、钴矿床与印支期扬子陆块的基性-超基性岩侵入活动关系密切, 中-低温热液型钴矿与喜马拉雅期的构造活动相关, 海相火山岩型和受变质型钴矿则是位于扬子陆块内与晋宁期火山活动相关的昆阳群和大红山岩群中。通过对全省镍、钴矿成矿作用分析和成矿规律总结, 结合潜力评价工作成果, 全省共圈定8处找矿远景区。为云南省新一轮找矿突破战略行动镍、钴矿勘查部署提供思路。     

印度尼西亚卫古岛风化壳型硅酸镍矿床地质特征与成矿机制

通过对印度尼西亚卫古岛风化壳型硅酸镍矿床的成矿地质条件、矿床地质特征、成矿机制的分析和研究,认为矿床是由于超铗铁岩-橄榄岩在中生代、第三纪、第四纪的热带、亚热带气候条件下,经过风化作用,镍从含镍的硅酸盐矿物中淋滤出来,随地表水向下渗透到风化壳的下部,形成富含镍的次生矿物,具有典型的风化壳型硅酸镍矿床特点.     

全球镍资源分布及云南镍矿床

根据近年全球镍矿勘查和开发资料，简述镍资源的全球分布，并对当前主要开发的硫化镍矿床的成因类型进行分类。以我省金平白马寨镍矿、墨江镍矿为例，介绍岩浆熔离、风化壳型镍矿两种成因类型矿床，指出后者的开发利用应加强选矿技术的研发。     

中国镍矿成矿规律初探

我国镍矿可分为岩浆型、海相沉积型和风化壳型3种预测类型.矿床形成时代较为连续,最早形成于中—新元古代,最晚形成于新生代,其中中—新元古代和晚古生代是形成矿床的两个高峰期;中—新元古代矿床主要分布在华北地块和扬子地块周缘,晚古生代镍矿主要分布在中亚造山带、峨眉山和塔里木大火成岩省范围内.岩浆型镍矿主要形成于大陆边缘裂解、造山带后碰撞伸展以及地幔柱3种构造背景,根据不同构造背景并结合主要岩浆作用特点,将与幔源基性—超基性岩有关的镍-铜-钴-铂族元素矿床成矿系列类型划分出与大陆裂解边缘幔源基性—超基性岩浆作用有关的镍-铜-钴-铂族元素矿床成矿亚类型、与地幔柱基性—超基性岩浆作用有关的镍-铜-钴-铂族元素矿床成矿亚类型、与造山带俯冲作用下幔源基性—超基性岩有关的镍-铜-钴-铂族元素矿床成矿亚类型、与造山带后碰撞伸展背景下幔源基性—超基性岩有关的镍-铜-钴-铂族元素矿床成矿亚类型等4种亚类型.分别对中—新元古代与大陆边缘裂解有关的镍铜(铂)矿床、寒武纪与黑色页岩有关的海相沉积型镍钼钒矿床、早二叠世与造山带伸展背景有关的镍铜矿床、晚二叠世与大火成岩省有关的镍铜(铂)矿床、新生代与风化壳有关的镍金矿床及其对应的典型矿床特征和成矿模式进行了叙述;认为大陆裂解边缘、地幔柱、造山带后碰撞伸展是我国镍矿形成的有利成矿地质背景,与邻近深大断裂、镁铁—超镁铁岩体、高MgO的原生岩浆(高镁玄武质岩浆)、深部岩浆作用、硫饱和与硫化物熔离共同组成岩浆型镍矿的6个重要地质条件.     

菲律宾迪纳加特岛红土型镍矿床地质特征及找矿勘查方法

通过对菲律宾迪纳加特岛风化壳氧化镍-硅酸镍矿床的成矿地质条件、矿床地质特征、成矿机制的分析和研究,认为矿床是由于超镁铁岩-橄榄岩在中生代、第三纪、第四纪的热带、亚热带气候条件下,经过风化作用,镍从含镍的硅酸盐矿物中淋滤出来,随地表水向下渗透到风化壳的下部,形成富含镍的次生矿物,具有典型的风化壳型硅酸镍矿床特点。找矿勘探工作要在找矿区域进行地质填图及工程取样扫面来确定矿化区。     

华北地区稀土矿床特征及找矿方向

在系统收集华北地区稀土矿床资料基础上,分析了华北地区稀土资源现状及稀土矿床的时间、空间分布规律.分析认为,华北地区稀土矿床成矿类型主要包括沉积变质型、火成碳酸岩浆型、岩浆热液型、伟晶岩型和离子吸附型.根据华北地区稀土矿床构造位置及控矿特征,认为华北地区古老变质基底、太古宙—古元古代陆块边缘裂谷带、中元古代陆缘裂谷带、燕...     

中国成镍带与找矿方向探讨

中国镍资源丰富,同时也是镍资源消费大国。矿床类型相对简单,主要为岩浆型,其次为海相沉积型和风化壳型3种。矿床形成时代从中—新元古代一直延续到新生代,主要集中在新元古代和晚古生代两个高峰期;空间分布较为集中,主要分布在西北、西南和东北地区,往往具有成群分布的特征。大陆边缘裂解、碰撞造山期后伸展以及地幔柱是形成中国镍矿床的3种重要构造背景。在全国Ⅲ级成矿区带的基础上,以镍矿床的空间分布特征为基础,以成矿规律和成矿条件为依据,在全国范围内划分30个成镍带;对东天山、甘—新北山、龙首山、吉中—延边、康滇、扬子南缘等6个成镍带的主要特征进行了简单叙述;从成镍带的角度,探讨了中国镍矿找矿方向,认为深部找矿尤其值得重视。     

中国镍矿床地质特征与矿产预测

我国是镍矿资源消费大国,同时又是镍矿资源相对匮乏的国家。为了科学地评估我国镍矿资源潜力,指导找矿勘查工作,进而提高我国镍矿资源的自我保障能力,国土资源部在2006-2013年部署了包括镍矿在内的25个矿种的全国矿产资源潜力评价项目。该项目以矿产预测类型为主线,通过分析我国镍矿的矿床地质特征和时空分布规律,对代表预测要素的地质、物探、化探和遥感信息进行综合,最终形成预测模型,并在此基础上采用相似类比的思想圈定预测区,估算资源量。结果表明：（1）我国镍矿包括岩浆型、风化壳型和沉积型3种矿产预测类型,其中以岩浆型镍矿占绝对主导地位,其查明资源储量约占全国镍矿资源总量的93%;（2）我国共划分了30个成镍带,其中重点成镍带13个,大部分集中在西部地区;（3）不同预测类型对应的预测模型,其主要预测要素存在明显差异,岩浆型镍矿最重要的预测要素是基性超基性岩体,风化壳型镍矿最重要的预测要素是超基性岩顶部形成的风化壳,沉积型镍矿最重要的预测要素是寒武系下统黑色岩系;（4）全国圈定了524个镍矿最小预测区,在此基础上,全国共圈定98个镍矿3级预测区,在3级预测区中,大于10万t的镍矿预测区共有35个;（5）镍矿累计查明镍资源储量共计1 345万t,预测镍资源量共计2 820万t。     

我国有关铁矿资源的矿床类型及其综合利用研究现状

我国铁矿床的成因类型,具有工业意义的有沉积变质型铁矿,沉积型铁矿,岩浆型铁矿,接触交代型(矽卡岩)铁矿,热液型铁矿和风化壳型铁矿,风化淋滤型铁矿等。在地质普查勘探过程中,常常遇到的矿床类型,如沉积铁矿,岩浆型铁矿,热液型等铁矿床,由于矿石组成复杂,共生金属多,含有多种有害元素,粒度细小,或属新矿石类型又无现     

高镍铜镍矿床的特征、形成机制与勘查展望

岩浆铜镍矿床100%硫化物中的Ni含量与赋矿岩石和成矿过程紧密相关,记录岩浆成分、分异程度与硫化物演化过程。硫化物异常高镍(高镍硫化物)往往被认为与科马提质岩浆或者后期热液作用密切相关。近年研究结合勘查证实,赋含高镍硫化物的矿床(高镍铜镍矿床)不仅限于科马提岩,还与苦橄质、玄武质岩浆有关,另外,热液富集作用并不是必要因素。本文总结了世界上高镍铜镍矿床的基本特征和形成机制,分析提出了不同机制的判别标志,并展望了其勘查前景。详细对比高镍铜镍矿床的产出环境、赋矿岩相、矿石特征、矿物组合等特征,该类矿床往往产于大陆裂谷和造山带环境,与基性程度较高的岩浆有关,以橄榄岩赋矿为主,含镍硫化物组合主要为镍黄铁矿-磁黄铁矿-黄铜矿组合,少数为针镍矿-镍黄铁矿-黄铁矿组合。科马提岩相关矿床可将Ni含量大于16%的硫化物定义为高镍硫化物,苦橄质-玄武质岩浆相关矿床的硫化物可分为高镍硫化物(Ni10%)、中镍硫化物(5%～10%)和富铜硫化物(Ni5%,CuNi)。原生高镍硫化物可由富镍岩浆熔离、硫化物从橄榄石中吸取Ni、硫化物结晶分异、硫化物与硫不饱和岩浆反应等机制形成。苦橄质-玄武质岩浆相关的矿床,硫化物与橄榄石的Fe-Ni交换反应是高镍硫化物形成的重要机制。辉石岩源区地幔部分熔融形成富镍岩浆是否为高镍硫化物形成的必要条件尚存争议。不同机制形成的高镍硫化物具有迥异的岩石-矿物组合和地化特征。硫化物矿物组合、橄榄石成分(Fo值、Ni含量、Fo值-Ni含量的相关性)、伴生元素(铜、铂族元素)丰度-配分模式等特征可作为区分不同高镍硫化物形成机制的有效指标。我国新疆黄山南、坡一和青海夏日哈木矿床(部分浸染状矿化橄榄岩)以赋含高镍硫化物为特征,新疆喀拉通克矿床的硫化物则以富铜为特征,中国其余矿床的硫化物均属中镍硫化物。目前研究指示中国的高镍铜镍矿床与母岩浆相对富镍、硫化物与橄榄石Fe-Ni交换作用密切相关,后者可使硫化物Ni含量提升3%～5%。在铜镍矿床勘查方面,稀疏-中等浸染状高镍硫化物矿石即可达到工业品位,稠密浸染状-块状高镍硫化物矿石可达到很高的Ni品位(10%),是高品位镍矿勘查的一个重要方向。造山带环境富水、相对高氧逸度(可高达QFM+1)的岩浆可能是形成高镍硫化物的有利条件,该环境橄榄石Fo值较高(87mol%)的岩体有利于形成高镍硫化物。     

A Preliminary Review of the Metallogenic Regularity of Nickel Deposits in China

The nickel deposits mainly distributed in 19 provinces and autonomous regions in China are 339 ore deposits/occurrences, including 4 super large-scale deposits, 14 large-scale deposits, 26 middle-scale deposits, 75 small-scale deposits, and 220 mineralized occurrences. The prediction types of mineral resources of nickel deposits are magmatic type, marine sedimentary type and regolith type. The formation age is from the Neoarchean to the Cenozoic with two peaks in the Neoproterozoic and the late Paleozoic. The nickel deposits formed in the Neoproterozoic are located on the margin of the North China Block and Yangtze Block, and those formed in the late Paleozoic are mainly distributed in the Central Asian Orogenic Belt (CAOB), Emeishan and the Tarim Large Igneous Provinces (LIPs). Magmatic nickel deposits are mainly related with broken-up continental margin, post-collision extension of the orogenic belt and mantle plume. According to different tectonic backgrounds and main characteristics of magmatism, the Ni-Cu-Co-PGE metallogenic series types of ore deposits related with mantle-derived mafic-ultramafic rocks can be divided into 4 subtypes: (1) the Ni-Cu-Co-PGE metallogenic series subtype of ore deposits related with mantle-derived mafic-ultramafic rocks in the broken-up continental margin, (2) the Ni-Cu-Co-PGE metallogenic series subtype of ore deposits related with mantle-derived mafic-ultramafic rocks in mantle plume magmatism, (3) the Ni-Cu-Co-PGE metallogenic series subtype of ore deposits related with mantle-derived mafic-ultramafic rocks in the subduction of the orogenic belt, and (4) the Ni-Cu-Co-PGE metallogenic series subtype of ore deposits related with mantle-derived mafic-ultramafic rocks in post-collision extension of the orogenic belt. We have discussed in this paper the typical characteristics and metallogenic models for Neoproterozoic Ni-Cu-(PGE) deposits related with broken-up continental margin, Cambrian marine sedimentary Ni-Mo-V deposits related with black shale, early Permian Ni-Cu deposits related with post-collision extension of the orogenic belt, late Permian Ni-Cu-(PGE) deposits related with Large Igneous Provinces (LIPs), and Cenozoic Ni-Au deposits related with regolith. The broken-up continental margin, mantle plume and post-collision extension of the orogenic belt are important ore-forming geological backgrounds, and the discordogenic fault, mafic-ultramafic intrusion, high MgO primitive magma (high-MgO basaltic magma), deep magmatism, sulfur saturation and sulfide segregation are 6 important geological conditions for the magmatic nickel deposits.     

华北地区金矿成矿规律及资源潜力

【研究目的】金矿是华北地区的优势矿种之一,资源丰富、类型多样。开展华北地区金矿资源特征与成矿规律研究,对于进一步开展金矿勘查工作部署具有重要意义。【研究方法】本文系统收集和整理了已有金矿地质资料,全面总结了华北地区金矿资源禀赋、矿床类型、时空分布规律、控矿因素、成矿演化及资源潜力。【研究结果】从矿床成因角度,华北地区金矿类型可划分为花岗-绿岩型、火山岩型、岩浆热液型、变质碎屑岩中热液型、砂金型和风化壳型等6大类;从矿产预测角度,可划分为44个矿产预测类型,其中与岩浆岩、火山岩、绿岩建造有关金矿类型最为重要。根据金矿演化规律,将华北地区金成矿划分为五台—吕梁期、华力西期、印支期、燕山期、喜马拉雅期等5个主成矿期,其中燕山期为金矿爆发期。金矿主要产出于华北克拉通边缘、裂谷带及造山带内,形成于大陆裂谷、岛弧（火山弧）、活动大陆边缘等构造环境。【结论】本文在华北地区划分出47处金矿重要找矿远景区,并提出加强重要找矿远景区及矿集区深部金矿资源勘查是实现找矿突破的重要途径。创新点：全面系统地梳理、总结了华北地区金矿资源特征、矿床类型、时空分布规律及资源潜力,划分了47处金矿重要找矿远景区。     

中国岩浆铜镍钴硫化物矿床成矿理论创新和找矿突破

中国岩浆铜镍钴硫化物矿床是国家镍、钴、铂族元素等战略性关键金属资源的主要来源,是需要特别关注的具有未来价值的重要矿床类型。该类矿床来源于上地幔,特别是软流圈的部分熔融形成的镁铁质、超镁铁质岩浆,硫化物液相?硅酸盐熔体的不混溶（熔离）作用是成矿的主要机制。它们主要形成于两种背景:大陆裂谷和造山带中的伸展环境。中国是岩浆铜镍钴硫化物矿床的产出大国,但与国外相比,形成背景和成矿动力学机制比较独特。世界上绝大多数岩浆铜镍钴硫化物矿床都形成于古老的克拉通,是地幔柱地球动力作用的结果,太古代—早元古代的科马提岩镍钴硫化物矿床是鲜明的产出特点。中国缺少古老的科马提岩有关的镍钴硫化物矿床,成矿时代相对较晚,主要形成于新元古代、晚古生代早期和晚期三个时期,新元古代以镍金属资源量居世界第三的金川超大型矿床为代表,晚古生代早期以近年来找矿突破发现的夏日哈木超大型矿床为代表。夏日哈木矿床也是迄今世界上特提斯造山带中发现的唯一一例超大型岩浆铜镍钴硫化物矿床。中国学者基于中国找矿实际提出的“大岩浆?深部熔离?贯入”表现为“小岩体成大矿”的成矿理论,广泛为野外地质勘查工作者接受并应用,取得了重要的找矿突破性成果,同时为国外同行认可,改变了岩浆铜镍钴硫化物矿床传统的成矿认识。造山带中岩浆铜镍钴硫化物矿床的广泛分布是中国该类矿床的一个重要特色,按形成造山带演化和成矿历史的不同,可分为特提斯型和中亚型两种重要的类型。特提斯型以夏日哈木矿床为代表,它是特提斯构造转换,原特提斯造山后,古特提斯裂解的产物;中亚型以中亚造山带中东天山?北山、阿尔泰分布的大批晚古生代晚期早二叠世岩浆铜镍钴硫化物矿床为代表,是板块构造和地幔柱双重地球动力学机制作用的结果。中国岩浆铜镍钴硫化物矿床找矿潜力巨大,金川矿床作为水平的“岩床”被推覆至地表呈倾斜的“岩墙”产出的结果,深边部仍具有重要找矿潜力,目前已在含矿岩体两端发现了重要的新矿体;夏日哈木矿床所在的东昆仑及其邻区已发现十余处新的矿床（点）。区域上,塔里木陆块东南缘、塔里木陆块北缘、扬子陆块西缘和华北陆块东北缘是亟待加强勘查的找矿远景区,而扬子陆块北缘、华北陆块北缘是急需调查的找矿新区。      

中国西北部成矿地质特征及找矿新发现

西北地区地处中亚构造域和特提斯构造域的交汇处,中间夹有塔里木克拉通和华北克拉通的西段。地质历史上,两个克拉通及其裂解的微陆块的形成和运动史,基本约束了中国西北部的构造发展历程。围绕克拉通及微陆块的显生宙造山带基本是其周缘增生的结果,由于大陆运移,其他大陆边缘增生的产物,在早三叠世(210 Ma)大陆汇聚中也添加了进来,这些造山带及其陆块边缘的增生是西北各种内生金属矿床的重要形成背景。同时,新元古代、晚古生代陆内与地幔柱有关的大火成岩省的发育,为铜镍等重要矿床的形成提供了条件。此外,在克拉通及其微陆块形成和后期的叠生盆地中,形成了重要的沉积和沉积变质矿床。西北地区近年来重要找矿发现,不断印证了西北克拉通边缘板块构造增生和板内幔源构造岩浆作用成矿的特点,并对传统的地质背景构造认识提出了挑战。这其中,最具经济价值和地质意义的是3个超大型金属矿床的发现:西天山早石炭世阿吾拉勒火山-次火山岩浆喷溢型磁铁矿矿床、东昆仑早泥盆世夏日哈木岩浆深部熔离-贯入型铜镍矿床和西昆仑侏罗—白垩纪火烧云构造热液型铅锌矿床。阿吾拉勒磁铁矿矿床是中国首例火山-次火山岩浆喷溢型磁铁矿矿床,可与智利的拉科超大型典型磁铁矿矿床对比,且更具有经济价值,该矿床的勘查和研究为深入理解中亚造山带天山及其邻区石炭纪裂谷型火山岩浆作用与成矿提供了研究的范例;夏日哈木铜镍矿是中国近年来最重要的铜镍矿发现,探明镍资源量已达百万吨以上,该矿床的发现为查明中国早古生代末期新的岩浆铜镍成矿事件及其找矿潜力提供了研究新区;火烧云铅锌矿床是新近发现的具有超大型资源潜力的铅锌矿床,也是喀喇昆仑—三江造山带中蕴藏的中新生代巨型铅锌成矿带上最重要的成矿发现,为深化研究青藏高原东北缘巨型铅锌成矿带的成矿物质来源和构造控矿机制提供了新的基地。     

Gold mineralization in China: Metallogenic provinces,deposit types and tectonic framework

We present a review of major gold mineralization events in China and a summary of metallogenic provinces, deposit types, metallogenic epochs and tectonic settings. Over 200 investigated gold deposits are grouped into 16 Au-metallogenic provinces within five tectonic units such as the Central Asian orogenic belt comprising provinces of Northeast China and Tianshan-Altay; North China Craton comprising the northern margin, Jiaodong, and Xiaoqinling; the Qinling-Qilian-Kunlun orogenic belt consisting of the West Qingling, North Qilian, and East Kunlun; the Tibet and Sanjiang orogenic belts consisting of Lhasa, Garzê-Litang, Ailaoshan, and Daduhe-Jinpingshan; and the South China block comprising Youjiang basin, Jiangnan orogenic belt, Middle and Lower Yangtze River, and SE coast. The gold deposits are classified as orogenic, Jiaodong-, porphyry–skarn, Carlin-like, and epithermal-types, among which the first three types are dominant.The orogenic gold deposits formed in various tectonic settings related to oceanic subduction and subsequent crustal extension in the Qinling-Qilian-Kunlun, Tianshan-Altay, northern margin of North China Craton, and Xiaoqinling, and related to the Eocene–Miocene continental collision in the Tibet and Sanjiang orogenic belts. The tectonic periods such as from slab subduction to block amalgamation, from continental soft to hard collision, from intracontinental compression to shearing or extension, are important for the formation of the orogenic gold deposits. The orogenic gold deposits are the products of metamorphic fluids released during regional metamorphism associated with oceanic subduction or continental collision, or related to magma emplacement and associated hydrothermal activity during lithospheric extension after ocean closure. The Jiaodong-type, clustered around Jiaodong, Xiaoqinling, and the northern margin of the North China Craton, is characterized by the involvement of mantle-derived fluids and a temporal link to the remote subduction of the Pacific oceanic plate concomitant with the episodic destruction of North China Craton. The Carlin-like gold metallogenesis is related to the activity of connate fluid, metamorphic fluid, and meteoric water in different degrees in the Youjiang basin and West Qinling; the former Au province is temporally related to the remote subduction of the Tethyan oceanic plate and the later formed in a syn-collision setting. Porphyry–skarn Au deposits are distributed in the Tianshan-Altay, the Middle and Lower Yangtze River region, and Tibet and Sanjiang orogenic belts in both subduction and continental collision settings. The magma for the porphyry–skarn Au deposits commonly formed by melting of a thickened juvenile crust. The epithermal Au deposits, dominated by the low-sulfidation type, plus a few high-sulfidation ones, were produced during the Carboniferous oceaic plate subduction in Tianshan-Altay, during Early Cretaceous and Quaternary oceanic plate subduction in SEt coast of South China Block, and during the Pliocene continental collision in Tibet. The available data of different isotopic systems, especially fluid D–O isotopes and carbonate C–O systems, reveal that the isotopic compositions are largely overlapping for different genetic types and different for the same genetic type in different Au belts. The isotopic compositions are thus not good indicators of various genetic types of gold deposit, perhaps due to overprinting of post-ore alteration or the complex evolution of the fluids.Although gold metallogeny in China was initiated in Cambrian and lasted until Cenozoic, it is mainly concentrated in four main periods. The first is Carboniferous when the Central Asian orogenic belt formed by welding of micro-continental blocks and arcs in Tianshan-Altay, generating a series of porphyry–epithermal–orogenic deposits. The second period is from Triassic to Early Jurassic when the current tectonic mainframe of China started to take shape. In central and southern China, the North China Craton, South China Block and Simao block were amalgamated after the closure of Paleo-Tethys Ocean in Triassic, forming orogenic and Carlin-like gold deposits. The third period is Early Cretaceous when the subduction of the Pacific oceanic plate to the east and that of Neo-Tethyan oceanic plate to the west were taking place. The subduction in eastern China produced the Jiaodong-type deposits in the North China Craton, the skarn-type deposits in the northern margin (Middle to lower reaches of Yangtze River) and the epithermal-type deposits in the southeastern margin in the South China Block. The subduction in western China produced the Carlin-like gold deposits in the Youjiang basin and orogenic ones in the Garzê-Litang orogenic belt. The Cenozoic is the last major phase, during which southwestern China experienced continental collision, generating orogenic and porphyry–skarn gold deposits in the Tibetan and Sanjiang orogenic belts. Due to the spatial overlap of the second and third periods in a single gold province, the Xiaoqinling, West Qinling, and northern margin of the North China Craton have two or more episodes of gold metallogeny.     

内蒙古苏尼特右旗毕力赫大型斑岩型金矿床辉钼矿Re-Os同位素年龄及其地质意义

内蒙古苏尼特右旗毕力赫大型斑岩型金矿的发现在华北板块北缘尚属首例.为了查明该斑岩型金(铜)矿化发生的时间,作者采集了斑岩体内6件辉钼矿样品进行铼-锇同位素测试,获得等时线年龄为(272.7±1.6)Ma(MSWD=0.57).毕力赫晚古生代金矿成矿地质事件的厘定,为华北板块北部晚古生代汇聚板块构造体系提供了新证据,促使...     

中国北方磷矿成矿类型和找矿方向

笔者是在“五国编图项目”(中国、俄罗斯、哈萨斯坦、蒙古国、韩国)的中国北方磷矿床资料研究基础之上完成本论文的。中国北方磷矿床分为“沉积型”、“沉积变质型”和“岩浆型”三大类型。沉积型磷矿床主要产生于晚震旦纪陡山沱期和早古生代寒武纪早期,磷质来源以海洋生物磷为主;沉积变质型磷矿床主要产生于中元古代,磷质来源以火山磷质为主,也可能有生物磷质参与;沉积型和沉积变质型磷矿都包含陆地风化迁入盆地中的磷成分;岩浆磷矿床主要产生于海西期和加里东期的超镁铁岩浆岩,多与铁、钒、钛成为成矿系列。沉积型磷矿在华北地台南缘和塔里木地块北缘应重视,而沉积变质型在华北地台北缘有远景;岩浆型则主要勘查超镁铁岩系列。