Element-Combinations from Evidences of Tectono-geochemistry of The Lekai Pb-Zn Deposit in Northwestern Guizhou, China

1 Introduction The Pb-Zn metallogenic area in Northwest Guizhou is located in the southwest margin of the Yangtze block,which is an important part of the Sichuan-Yunnan-Guizhou(SYG)Pb-Zn metallogenic province.So far,

Trace Elements in Sphalerite from the Dadongla Zn-Pb Deposit, Western Hunan-Eastern Guizhou Zn-Pb Metallogenic Belt, South China

The western Hunan-eastern Guizhou Zn-Pb metallogenic belt is one of the important Zn-Pb mineralization regions in China.The Dadongla deposit,located in the northeast of Guizhou Province,is one of the typical Zn-Pb deposits in the region and has estimated resources more than 12 million metric tons(Mt)with an average grade of 4.11 wt%Zn+Pb.Its orebodies are hosted in the lower Cambrian Aoxi Formation dolomite,occurring as bedded,para-bedded in shape,and in conformity with the wall rock.The ore mineral assemblage is simple,dominated by sphalerite with minor pyrite and galena,and the gangue minerals are composed of dolomite,calcite with minor bitumen and barite.In view of the lack of geological and geochemical researches,the genesis of Zn-Pb ore is still unclear.Laser ablation-inductively coupled plasma mass spectrometry(LA-ICPMS)spot and mapping analyses were used to obtain sphalerite trace element chemistry in the Dadongla Zn-Pb deposit in Guizhou,China,aiming to constrain its ore genesis.The results show that sphalerite is characterized by the enrichment of Cd,Fe,Ge and Hg,corresponding with that of typical MVT deposits.Four zones were identified in the sphalerite crystal from Dadongla from the center to margin according to the color bands.in which the zone in the center,representing the early ore-stage sphalerite,is characterized by enrichment of Cd relatively,while the zone forming at late ore-stage is enriched in Ge and Hg relatively.The finding was controlled by differential leached metals content in ore-forming fluid from its source rock.Notably,critical element Ge trends to be enriched at the late ore-stage and follows a substitution of 2 Zn^2+(?)Ge^4++□(vacancy).Moreover,the calculated ore-forming temperature ranges from 79.9℃to 177.6℃by the empirical formula,which is similar to that of typical Mississippi Valley-type(MVT)deposits.Compared with the features of trace elements in sphalerite from different types of deposits,together with the geology,the Dadongla deposit belongs to an MVT Zn-Pb deposit.

Ore-Forming Material Sources of the Shizishan Pb-Zn Deposit in Western Hunan Province,China

Objective The Shizishan Pb-Zn deposit is located in the southeastern margin of the Yangtze Block,and its Pb-Zn orebodies are mainly hosted in the Lower Cambrian Qingxudong Formation limestone.Previous researches have investigated the geological characteristics,geochemistry and fluid inclusions of this deposit.

A preliminary study on ore-forming environments of Xianglushan-type iron deposit and the weathering mineralization of Emeishan basalt in Guizhou Province, China

Xianglushan-type iron deposits are one of the new types of iron deposits found in the Weining Area of Western Guizhou. The iron-bearing rock system is a paleo-weathered crustal sedimentary(or accumulating) stratum between the top of the Middle-Late Permian Emeishan basalt formation and the Late Permian Xuanwei formation. Iron ore is hosted in the Lower-Middle part of the rock system. In terms of the genesis of mineral deposit, this type of deposit should be a basalt paleo-weathering crustal redeposit type, very different from marine sedimentary iron deposits or continental weathering crust iron deposits. Based on field work and the analytical results of XRD Powder Diffraction, Electron Probe, Scanner Electron Microscope, etc., the geological setting of the ore-forming processes and the deposit features are illustrated in this paper. The ore-forming environment of the deposit and the Emeishan basalt weathering mineralization are also discussed in order to enhance the knowledge of the universality and diversity of mineralization of the Emeishan Large Igneous Province(ELIP), which may be a considerable reference to further research for ELIP metallogenic theories, and geological research for iron deposits in the paleo-weathering crust areas of the Emeishan basalt,Southwestern, China.

MICROFOSSILS FROM LATE PROTEROZOIC MANGANESE ORE DEPOSITS IN WESTERN HUNAN PROVINCE AND EASTERN GUIZHOU PROVINCE, SOUTH CHINA

Abundant microfossils and organic residuals have been discovered by SEM and normal palynological maceration from manganese ore beds intercalated in late Proterozoic glacial rock units in western Hunan Province and eastern Guizhou Province. Taking isotopic dating into consideration, the age of manganese ore deposits in both regions is suggested to be about 750 Ma. A distinct character is that a great quantity of colonial microfossil——Sphaerocongregus (or Bavlinella) and their degradational variants have been obtained from rhodochrosite. Their biological and biochemical functions, combined with the geochemical effect of manganese in different ways, may play an important role in the manganese cycle.

Genetic relationship between unroofing of the Emeishan large igneous province and the iron-polymetallic deposit in western Guizhou, Southwestern China: Constraint from U-Pb geochronology and geochemistry of zircon

This paper reports an integrated study of in sire U-Pb geochronology and elemental geochemistry of zircons from the Xianglushan iron-polymetallic deposit in western Guizhou Province, Southwest China. Genetic relationship between this new type of deposit and unroofing of the Emeishan large igneous province （ELIP） is focused. Along with the zoning pattern in spatial distribution of diverse weathering-related deposits along the southern and southeastern margins of the ELIP, it is suggested that the genesis of the iron-polymetallic deposit was specialized by factors of coastal paleogeography in hot-humid climate, where iron-enriched laterites formed, and repetitive marine transgression-regression occurred during the Late Permian.

黔西南赖子山背斜南西段轴部金矿地质特征及找矿方向——以央友金矿为例

赖子山背斜为黔西南卡林型金矿重要的控矿构造之一,央友金矿床位于该背斜南西段轴部。本文以央友金矿床为例,基于区域矿产地质调查和对赖子山背斜南西段开展的地球化学、山地工程等综合地质研究,对矿床地质特征及找矿方向进行了探讨。研究表明,该区金矿在赖子山背斜两翼层间滑动构造、NE向断裂构造及其次级断裂构造带均有分布。矿床总体上受背斜东翼的层间滑动断裂控制,呈层状、似层状产于二叠纪猴子关组,即矿体具有断裂、断裂+多层岩性组合联合控制的形态特点。

滇黔交界地区玄武岩铜矿有机质的组成、结构及成因

滇黔交界地区玄武岩型铜矿有两种产出状态 ,一类产于玄武岩中 ,另一类产于玄武岩喷发旋回之间的沉积夹层中。两类铜矿石中均发育有机质。本文通过反射率测定、元素分析、红外光谱和碳同位素组成测定等方法对该区玄武岩铜矿有机质的成熟度、组成、结构及成因进行了研究。结果表明 :1铜矿石有机质的反射率为1.0 4 %～ 2 .172 % ;除个别样品外 ,n H/ n C值平均 0 .4 9,n O/ n C 值平均 0 .0 6 2 ,表明其有机质的成熟度均较高 ,有机质的物理性质及红外光谱特征也显示了这一点。 2有机质的组成以 C为主 ,其次为 H、O、N,两种铜矿石中有机质的 C、H、O元素含量类似 ,仅 N元素含量有一定差异。 3有机质的结构中以羟基、烷烃、芳烃官能团为主 ,有时有 C=O官能团 ;羟基红外吸收峰强度大 ,表明有机质经历了强烈的热液流体交代作用。 4玄武岩中铜矿石沥青的δ1 3CV- PDB为- 2 7.3‰～ - 33.2‰ ,平均 - 31.97‰ ,沉积岩中铜矿石碳质的 δ1 3CV- PDB为 - 2 0 .2‰～ - 2 3.2‰ ,平均 - 2 2 .11‰ ,表明二者无明显成因联系 ,前者属腐泥型 ,为石油的遗迹 ,来自下部地层 ;后者为腐植型 ,来自原地沉积的陆生高等植物。两种铜矿石中不同来源有机质成熟度。

湘西黔东地区铅锌矿床C、O同位素地球化学特征及其对成矿过程的指示

近年来湘西黔东地区铅锌矿产勘查成果显著,已发现矿床（点）200余处,铅锌矿主要产于寒武系—奥陶系碳酸盐岩地层中。通过对该地区典型铅锌矿床碳酸盐围岩和成矿期方解石的C、O同位素组成分析,结果表明：碳酸盐围岩的δ13CPDB值（-1.16‰～1.70‰,均值0.51‰）和δ18OSMOW值（18.56‰～22.42‰,均值21.04‰）变化范围较小,组成相对均一,在δ13CPDB-δ18OSMOW图上投影点位于海相碳酸盐岩区;而成矿期方解石的δ13CPDB值（-5.80‰～0.42‰,均值-1.18‰）比围岩略低,δ18OSMOW值（12.96‰～23.05‰,均值18.36‰）有明显的下降,在δ13CPDB-δ18OSMOW图上投影点主要位于上地幔区和海相碳酸盐岩之间。根据C、O同位素组成特征并结合前人研究成果,认为成矿流体中的C主要来源于碳酸盐围岩,S来源于地层中的膏盐层,Pb、Zn主要来源于下寒武统牛蹄塘组地层,成矿流体是一种高盐度的低温热卤水,它与碳酸盐围岩的水-岩反应和降温的耦合作用是该地区成矿期方解石和矿石矿物沉淀的主要机制。

湘西黔东地区Zn地球化学块体特征及锌资源潜力估算

以湘西黔东地区Zn元素的1∶20万水系沉积物化探数据为基础,应用地球化学块体理论与方法 ,对该区内的Zn地球化学块体特征及Zn资源潜力进行了研究。确定了湘西黔东地区Zn地球化学块体的下限值为110×10-6,圈定了4个Zn地球化学块体和7个区域异常。通过统计地球化学块体和区域异常的参数特征,以1000 m岩块厚度计算了该区总的Zn金属供应量,并根据0.39%的成矿率预测出湘西黔东地区锌资源量为3085万t。其中,圈定的4个地球化学块体所在的花垣—铜仁—镇远地区、都匀—凯里地区、沅陵县董家河和沿河县三角塘等地区应作为下一步的重点找矿勘探区域。

贵州西部地区“玄武岩-古风化壳沉积(堆积)型”铁矿成矿作用与成矿模式

在阐述了"玄武岩-古风化壳沉积(堆积)型"铁矿的成矿背景和成矿地质特征的基础上,讨论了铁矿的风化、剥蚀、搬运、沉积(堆积)、成岩后期变化、淋滤富集成矿作用,并将成矿过程划分为3期6个阶段,3期分别为:矿源层形成期、含铁岩系形成期、淋滤富集成矿期;6个阶段分别为:峨眉地幔柱上隆-玄武岩浆喷溢阶段、风化蚀顶-玄武岩古风化壳形成阶段、古风化壳沉积物堆积-迁移-沉积-含矿层形成阶段,地壳振荡性升降-暴露-含矿层风化淋滤阶段、含矿层次生富集成矿阶段、含矿层被覆盖保存阶段,从而建立了"玄武岩-古风化壳沉积(堆积)型"铁矿的成矿模式。

湘西-黔东地区铅锌矿床找矿模型与定量预测

湘西-黔东地区位于扬子陆块东南缘,已发现铅锌矿床(点)200余处,是中国重要铅锌资源战略接续区之一。对该地区铅锌矿床控矿因素与找矿标志的研究结果表明:铅锌矿床受地层、岩相、构造三者的综合控制,即特定的地层岩性组合、台地边缘中缓坡相、区域性断裂和背斜及次生或派生裂隙构造为主要控矿因素;含菱锌矿或褐铁矿的氧化露头,方解石化、黄铁矿化、重晶石化或沥青化等围岩蚀变,Pb、Zn、Cd、CaO、Hg单元素化探异常及Pb-Zn-Cd元素组合化探异常为该地区铅锌矿床的主要找矿标志。综合控矿因素与找矿标志研究结果,构建了研究区铅锌矿床的地质-地球化学找矿模型,并以此模型为基础,在GIS平台上利用特征分析法进行了综合信息矿产定量预测。根据研究区铅锌矿床预测单元联系度等值线图,圈定出A级找矿远景区2个和B级找矿远景区2个,提出松桃、镇远-铜仁、都匀-凯里地区应作为后续铅锌找矿勘查工作重点区。

湘西-黔东地区寒武系都匀阶清虚洞期岩相古地理与铅锌成矿关系研究

依据地层记录中的两种相变面和两种穿时性,结合上扬子地区寒武系十余条代表性剖面的沉积特征及其横向展布规律,应用等时面优势相成图方法编制了寒武系都匀阶清虚洞期岩相古地理图。区内古地理格局具有西高东低、北浅南深(水深)的特点,沉积自北西向南东超覆,层位逐渐抬高穿时;岩性、厚度、颜色和沉积相类型上的差异是统一沉积背景下沉积物相变、穿时的结果。清虚洞组由灰岩段和白云岩段组成,以发育缓坡型碳酸盐台地为特征,纵向上构成总体向上变浅的沉积相序列,同时反映了缓坡型碳酸盐台地的生长发育过程;横向上从北西至南东发育从混积潮坪相、浅缓坡相、中缓坡相、深缓坡相和陆棚-盆地等沉积。岩相古地理对层控铅锌矿具有明显的控制作用,主要分布于中缓坡相藻灰岩微晶丘中,浊积岩、微晶丘、砾(粒)屑灰岩构成一完整的铅锌控矿序列。

湘西—黔东北地区下寒武统铅锌矿矿床地质特征及成因探讨

湘西—黔东北地区下寒武统铅锌矿严格赋存于台地边缘礁滩相产出的藻礁灰岩中,其实质属断裂构造控矿,具有MVT型矿床的典型特征。成矿时代可能为晚志留世至早石炭世。(中)低温度、中高盐度流体从上地壳岩石地层中浸出铅锌,顺断裂通道运移至碳酸盐岩围岩中,围岩受水岩反应和交换作用释放的海水硫酸盐经热化学还原作用转化为还原硫,还原硫与铅锌金属络合物相结合而成矿。该类成矿过程中受区域挤压应力影响的断裂构造始终起到至关重要的作用。

贵州西部玄武岩型铜矿成矿规律研究

为打开贵州西部寻找玄武岩型铜矿的新局面,本文通过对玄武岩型铜矿成矿规律进行系统的分析研究,并结合前人的研究成果,为在贵州西部玄武岩分布区寻找玄武岩型铜矿提供理论基础。

黔东铅锌矿床方解石稀土元素组成与矿床成因

湘西—黔东是我国重要的铅锌成矿区,具有类似的成矿地质背景。但是,贵州境内铅锌矿化的规模远不如湘西,何种原因导致这种差异性成矿尚不清楚。本文开展黔东卜口场、嗅脑和克麻铅锌矿床成矿期热液方解石稀土元素(REE)研究,并与区带上(花垣、牛角塘)和国内典型超大型铅锌矿床(会泽、金顶)进行对比,为认识成矿物质来源提供制约。卜口场、嗅脑和克麻矿床方解石具有一致的REESN配分模式,其ΣREE含量低(1.6×10-6~22.5×10-6),轻、重稀土分异不明显,有弱负Ce异常(δCeSN=0.62~0.81)和正Gd和Y异常(δGdSN=0.78~1.23;δYSN=0.99~1.78),指示成矿流体中的REE主要来源于赋矿围岩寒武系第二统清虚洞组碳酸盐岩。花垣和牛角塘矿床方解石ΣREE含量较高(平均为28×10-6和24×10-6),暗示富REE流体加入或者成矿流体与REE含量高的基底岩石发生过水岩反应。金顶和会泽矿床方解石ΣREE最高(平均为78×10-6和73×10-6),具有正Eu异常(δEuSN平均值为1.11和1.55),指示成矿流体在地壳深部或基底经历过高温水岩作用。综合分析认为,黔东铅锌矿床成矿流体主要来自赋矿的碳酸盐岩地层,而花垣、牛角塘、会泽和金顶铅锌矿床的成矿流体具有多源性或与富REE的基底岩石发生过强烈水岩反应,这可能是超大型-大型铅锌矿床形成的重要诱因。

贵州西部香炉山式铁矿成矿控制因素初步研究

香炉山式铁矿是近年地质勘查工作中在贵州西部威宁-水城-赫章地区晚二叠世峨眉山玄武岩组和宣威组之间发现的新类型铁矿床。在矿床成因上,该矿床既不同于海相的沉积型铁矿床,也不同于陆相的古风化壳矿床,而是兼有二者的特征,属于玄武岩古风化壳-沉积(堆积)型铁矿床。通过野外观察、岩矿石分析测试、岩矿石鉴定、电子探针微区分析等手段对含铁岩系和矿石特征进行研究发现,矿石具有定向排列的火山碎屑、渗流管孔、姜结仁等典型结构构造。初步认为,香炉山式铁矿的形成除具有特殊的成矿背景外,还受到成矿物质来源、岩相古地理、古纬度、古气候、古生物生态、古风化作用等诸多因素的综合控制,是峨眉山大火成岩省外生成矿作用的典型实例。

黔西逆冲滑脱构造及其对铅锌矿床的控制

黔西地区位于上扬子地块西南缘,大地构造处于古特提斯构造域与太平洋构造域共同控制与影响的区域.该区广泛出露中上泥盆统-下三叠统(D2-T1)碳酸盐岩为主的沉积岩,下伏下泥盆统与志留系巨厚页岩和粉砂岩,构成了该区的底部滑脱层.在D2-T1碳酸盐岩为主的强硬岩层中夹有的页岩-粉砂岩、炭质页岩构成了次级滑脱层.在中生代,受上述两大构造域远程复合作用,黔西地区发生了多次构造活动与叠加变形.在挤压收缩过程中,强硬层与软弱层之间的滑脱作用形成了黔西地区复杂的构造格局.不同阶段不同规模的逆冲滑脱作用(顺层滑脱→切层滑脱→小型逆冲→大型逆冲)对铅锌富集起到了不同的控制作用.顺层滑脱形成了与层理一致的铅锌富集;切层滑动(小型逆冲)控制了稍陡于岩层的铅锌矿富集;小型平移或张性断层控制了陡倾铅锌矿的富集;而大型逆冲断层则控制了大型、超大型铅锌矿床的富集.因此,逆冲滑脱作用是控制黔西铅锌矿床富集的最重要因素.

湘黔汞矿带相关成矿问题的讨论

湘黔汞矿带的含汞建造与生油层系的特征相似，汞矿床的形成和油气的聚集一样具有“生、储、盖”的成矿地质条件。中寒武统敖溪组及下寒武统清虚洞组既是汞矿的容矿层，也是汞矿的矿源层。汞的成矿流体是一种以地下水为主、包括油气在内的混合热液，成矿作用是在低温低压高盐度的还原环境中进行的，属於沉积成岩—地下水热液的成因类型。

滇东黔西区层控锑、汞矿床的元素组合及其产生原因初析

根据滇东黔西区130余个层控锑、汞矿床(点)的资料,对该区主要控矿地层的成矿元素含量背景,层控锑、汞矿床的主要元素和微量元素组合的类型与特征进行了分析,在此基础上初步探讨了其产生的原因及其找矿意义.