云南播卡金矿成因分析

播卡金矿位于扬子地台西缘康滇地轴中南段的东北侧,容矿地层为中元古界昆阳群的因民组和平顶山组岩石和部分中—基性脉岩,矿床受小江脆—韧性剪切带的直接控制,矿床形态为透镜状、脉状、囊状等;矿体规模小,数量多,矿石以构造角砾岩型及石英脉型为主,矿物组合较为简单;围岩蚀变发育,且与矿化关系密切;流体包裹体测试结果显示,矿床成矿温...     

辽宁省朝阳市小塔子沟金矿1~#脉成矿流体特征及成因

研究区大地构造位置属华北克拉通北缘中段,是中国重要的金、有色金属成矿区段。小塔子沟金矿的容矿围岩为太古宙建平群小塔子沟组变质杂岩,NE和NEE向断裂为主要的容矿断裂,燕山早期北大山二长花岗岩是与成矿关系密切的岩体。矿区内最具工业意义的矿脉是1~#脉,其矿石自然类型为石英脉型。1~#脉石英流体包裹体有富CO_2三相、气液两相和纯气相3种类型。流体盐度介于2.06%～11.72%NaCl_(eqv),集中在2.06%～3.37%NaCl_(eqv),4.69%～6.97%NaCl_(eqv)和9.86%～11.72%NaCl_(eqv);流体密度介于0.689～0.977 g/cm~3;成矿温度在174～348℃,集中在302～348℃和174～187℃。研究表明成矿早阶段流体为低盐度、富CO_2的高温流体,而且富CO_2型和气液两相型包裹体共存;后者可能是由两种不同流体的混合作用造成的不均匀捕获而形成。成矿中晚阶段温度突然降低,盐度明显升高。温度的突然降低导致以CO_2逸失为特征的沸腾,由于沸腾使残余流体盐度和密度升高。通过等容线图解法估算成矿压力范围在16～28 MPa,用静水压力梯度计算成矿深度为1.6～2.8 km。通过与典型的造山型金矿特征对比,该矿床成因类型为浅成造山型金矿,其形成动力学背景为J_1—J_2时期华北与西伯利亚克拉通碰撞对接后的陆内造山。     

内蒙古中部召河庙地区金矿成矿规律及找矿预测

总结了召河庙地区金矿的成矿规律，指出本区所发现的具一定规模的金矿（化）点在区域上主要集 分布于青灰窑子－大井－程二沟－东柜一线，矿体均为含金石英脉。容矿岩系为新太古代变质石英闪长岩、斜长岩花岗岩。成矿物质来源主要为古老的变质中基性深成侵入岩，即所谓广义的绿岩带。矿源岩中金物质的活化受深断裂作用、韧性剪切作用、退变质作用、变质流体以及岩浆热液的多重影响，其中以构造作用和岩浆热液最为重要。金矿的形成时期较长，主成矿时期在元古代。预测程二沟－白音查干－东柜一带为今后进一步寻找金矿的优选靶区。     

Compositional zoning of fluid inclusions in the Archaean Junction gold deposit,Western Australia: A process of fluid ‐ wall‐rock interaction?

The Junction gold deposit, in Western Australia, is an orogenic gold deposit hosted by a differentiated, iron‐rich, tholeiitic dolerite sill. Petrographic, microthermometric and laser Raman microprobe analyses of fluid inclusions from the Junction deposit indicate that three different vein systems formed at three distinct periods of geological time, and host four fluid‐inclusion populations with a wide range of compositions in the H₂O–CO₂–CH₄–NaCl ± CaCl₂ system. Pre‐shearing, pre‐gold, molybdenite‐bearing quartz veins host fluid inclusions that are characterised by relatively consistent phase ratios comprising H₂O–CO₂–CH₄ ± halite. Microthermometry suggests that these veins precipitated when a highly saline, >340°C fluid mixed with a less saline ≥150°C fluid. The syn‐gold mineralisation event is hosted within the Junction shear zone and is associated with extensive quartz‐calcite ± albite ± chlorite ± pyrrhotite veining. Fluid‐inclusion analyses indicate that gold deposition occurred during the unmixing of a 400°C, moderately saline, H₂O–CO₂ ± CH₄ fluid at pressures between 70 MPa and 440 MPa. Post‐gold quartz‐calcite‐biotite‐pyrrhotite veins occupy normal fault sets that slightly offset the Junction shear zone. Fluid inclusions in these veins are predominantly vapour rich, with CO₂?CH₄. Homogenisation temperatures indicate that the post‐gold quartz veins precipitated from a 310 ± 30°C fluid. Finally, late secondary fluid inclusions show that a <200°C, highly saline, H₂O–CaCl₂–NaCl–bearing fluid percolated along microfractures late in the deposit's history, but did not form any notable vein type. Raman spectroscopy supports the microthermometric data and reveals that CH₄–bearing fluid inclusions occur in syn‐gold quartz grains found almost exclusively at the vein margin, whereas CO₂–bearing fluid inclusions occur in quartz grains that are found toward the centre of the veins. The zonation of CO₂:CH₄ ratios, with respect to the location of fluid inclusions within the syn‐gold quartz veins, suggest that the CH₄ did not travel as part of the auriferous fluid. Fluid unmixing and post‐entrapment alteration of the syn‐gold fluid inclusions are known to have occurred, but cannot adequately account for the relatively ordered zonation of CO₂:CH₄ ratios. Instead, the late introduction of a CH₄–rich fluid into the Junction shear zone appears more likely. Alternatively, the process of CO₂ reduction to CH₄ is a viable and plausible explanation that fits the available data. The CH₄–bearing fluid inclusions occur almost exclusively at the margin of the syn‐gold quartz veins within the zone of high‐grade gold mineralisation because this is where all the criteria needed to reduce CO₂ to CH₄ were satisfied in the Junction deposit.     

热液成矿作用地球化学:以金矿为例

文中以金矿为例总结了热液成矿地球化学特征,包括热液蚀变、金在成矿热液中的地球化学行为、富集-沉淀机制以及在硫化物中的存在形式。热液蚀变过程中形成的矿物组合反映了成矿流体的地球化学特征,蚀变模式具有重要的找矿勘探意义。在热液体系中,金主要以Au-Cl或者Au-S络合物的形式进行运移,体系温度、压力、氧逸度以及硫逸度等条件的变化是导致络合物分解、金沉淀的主要机制。在较高压力条件下,金趋向于在热液蒸汽相中富集。As和Sb是金矿热液体系中常见的伴生元素,在较低硫逸度条件下,形成自然砷/自然锑-自然金组合。金从热液中沉淀后主要以显微包裹体或者固溶体金的形式赋存于黄铜矿、毒砂、磁黄铁矿以及黄铁矿等硫化物中,而硫化物中固溶体金的量主要受热液H_2S活动性的控制。     

Dynamics of shallow late-Variscan gold mineralization: the Le Châtelet Au-arsenopyrite quartz veins,Massif Central,France

The Le Châtelet gold deposit is unique among the mined deposits of the French Variscan basement in that the gold is not free but caught up in the arsenopyrite crystal lattice. Microstructural analysis shows that the Au-arsenopyrite quartz veins are hosted by north-trending dextral strike-slip faults resulting from NNE-SSW compression during the early Stephanian (around 300 Ma). Textural study indicates that vein emplacement was due to sequential dynamics related to spasmodic strike-slip movements along these brittle structures (seismic regime). The classic sequence begins with the slow crystallization of sulphide-free comb quartz followed by a co-deposition of microcrystalline quartz and needles of Au-arsenopyrite; the rapid crystallization of the Au-arsenopyrite-bearing microcrystalline quartz was due to a sudden drop in fluid pressure. The veins correspond to dilational jogs formed by a suction pump mechanism during a late phase of the Variscan orogeny; they were trapped in migmatite about 1 km below surface.     

澳大利亚伊尔岗地块诺斯曼-维卢纳绿岩带金矿成矿作用

诺斯曼-维卢纳金成矿带位于澳大利亚西澳克拉通伊尔岗地块东部黄金省次级地体内,是澳大利亚最重要的绿岩带型金矿成矿区。区内矿床可分为3类：剪切带中的蚀变晕±石英脉型,是区内最为重要的矿化类型,典型矿床为卡尔古利金哩矿床,矿床赋存在金哩粗玄岩中,矿化发生在绢云母-黄铁矿化蚀变带内;石英网脉型,典型矿床为卡尔古利夏洛特山金矿床。矿床也产于金哩粗玄岩中,矿化主要发生在硅化外围的碳酸盐-黄铁矿化蚀变带内;纹层状石英脉型,矿化表现出层控的特点,并多发育绿泥石化。通过对区域和典型矿床地质特征和区域成矿特征的总结,认为诺斯曼-维卢纳金成矿带的金主要赋存于铁硫化物或毒砂中,矿化与大规模的蚀变作用联系密切,太古宙绿岩带和条带状铁建造、深大断裂、褶皱等因素控制了矿床的分布。在此基础上,总结了绿岩带型金矿的找矿标志,并为在区内找矿提出若干建议。     

Constraints on the composition of ore fluids and implications for mineralising events at the Cleo gold deposit,Eastern Goldfields Province,Western Australia

The Cleo gold deposit, 55 km south of Laverton in the Eastern Goldfields Province of Western Australia, is characterised by banded iron‐formation (BIF)‐hosted ore zones in the gently dipping Sunrise Shear Zone and high‐grade vein‐hosted ore in the Western Lodes.There is evidence that gold mineralisation in the Western Lodes (which occurred at ca 2655 Ma) post‐dates the majority of displacement along the Sunrise Shear Zone, but it remains uncertain if the ore in both structures formed simultaneously or separately. Overall, the Pb, Nd, Sr, C, O and S isotopic compositions of ore‐related minerals from both the Western Lodes and ore zones in the Sunrise Shear Zone are similar. Early low‐salinity aqueous‐carbonic fluids and late high‐salinity fluids with similar characteristics are trapped in inclusions in quartz veins from both the Sunrise Shear Zone and the Western Lodes. The early CO₂, CO₂–H₂O, and H₂O‐dominant inclusions are interpreted as being related to ore formation, and to have formed from a single low‐salinity aqueous‐carbonic fluid as a result of intermittent fluid immiscibility. Homogenisation temperatures indicate that these inclusions were trapped at approximately 280°C and at approximately 4 km depth, in the deeper epizonal range. Differences between the ore zones are detected in the trace‐element composition of gold samples, with gold from the Sunrise Shear Zone enriched in Ni, Pb, Sn, Te and Zn, and depleted in As, Bi, Cd, Cu and Sb, relative to gold from the Western Lodes. Although there are differences in gold composition between the Sunrise Shear Zone and Western Lodes, and hence the metal content of ore fluids may have varied slightly between the different ore zones, no other systematic fluid or solute differences are detected between the ore zones. Given the fact that the ore fluids in each zone have very similar bulk properties, the considerable differences in gold grade, sulfide mineral abundance, and ore textures between the two ore zones most likely result from different gold‐deposition mechanisms. The association of ore zones in the Sunrise Shear Zone with pyrite‐replaced BIF suggests that wall‐rock sulfidation was the most significant mechanism of gold precipitation, through the destabilisation of gold‐bisulfide complexes. The Western Lodes, however, do not exhibit any host‐rock preference and multistage veins commonly contain coarse‐grained gold. Fluid‐inclusion characteristics and breccia textures in veins in the Western Lodes suggest that rapid pressure changes, brought about by intermittent release of overpressured fluids and concomitant phase separation, are likely to have caused the destabilisation of gold‐thiocomplexes, leading to formation of higher‐grade gold ore zones.     

造山型金矿的地质特征和成矿流体

造山型金矿是全球重要的金矿类型。造山型金矿包含三种类型:产于绿岩带的含金石英碳酸盐脉、产于浊积岩中的含金石英脉和产于条带状铁矿(BIF)中的含金石英脉。造山型金矿的形成受板块构造控制,处于压缩或者转换挤压的造山构造环境。造山型金矿中的绿岩带金矿主要受剪切带、转换断层控制,浊积岩型金矿受褶皱和层间走滑断层控制,而赋存于BIF中的金矿则受剪切带和断层所控制。在这些金矿床中发现了4类流体包裹体:H_2O-CO_2型、富CO_2型、气液包裹体和含Na Cl子矿物的包裹体。所有年代的造山型金矿成矿流体的成分均为低盐度的水溶液和富CO_2的流体,温度在200~400℃范围内。稳定同位素研究表明造山型金矿的成矿流体源自变质流体和岩浆流体。金在成矿流体中的络合物应为Au HS~-或Au H_2S。虽然成矿流体中有丰富的CO_2,但Au在CO_2流体中的溶解度很低,有丰富的CO_2时Au在H_2S中的溶解度增大。流体包裹体研究表明,Au的成矿流体是Na Cl-H_2O-CO_2体系的流体,并在成矿过程中发生了相分离,即Na Cl-H_2O-CO_2流体分成两个流体:H_2O-Na Cl和CO_2-H_2O,Au的沉淀是在这种相分离过程中发生的。     

Geological characteristics and origin of the Hadamengou gold deposit in Inner Mongolia,China

The Hadamengou gold deposit is located in the western segment of the northern margin of the North China Craton (NCC). It is hosted by Archean metamorphic rocks of the Wulashan Group. The main ore types include gold-bearing quartz vein type, gold-bearing quartz-potassic feldspar vein type, and gold-bearing altered rock type. Gold mineralization is closely related to K-feldspathization. Hydrogen and oxygen isotope data indicate that ore-forming fluids were dominated by magmatic water mixed with minor meteoric water. Sulfur and lead isotope data indicate that metallogenic materials were mainly supplied by the magmatic and Archean Wulashan Group. The gold mineralization was mainly formed during the Early Indosinian tectonic movement, which drove ore-forming fluids to the favorable depositional environment. The northern margin of the NCC is a prospective area for gold exploration. Gold deposits hosted by or related to alkaline intrusions have become one of the most important mineral exploration targets in northern China.     

豫陕小秦岭脉状金矿床三期流体运移成矿作用

位于豫陕交界处的小秦岭脉状金矿是我国第二大黄金产出集中地。流体包裹体研究表明，脉状金矿床石英及碳酸盐矿物中流体包裹体主要有富CO2包裹体、CO2-H2O包裹体和H2O溶液包裹体等三种类型，各热液阶段形成的脉体内有不同的流体包裹体组合。脉状金矿体的形成经历了三期流体成矿作用，第一期形成乳白色石英大脉，它构成了矿脉的主体，流体的性质为富H2O热液，但无金的成矿；第二期(成矿期)流体为中低盐度CO2-H2O-NaCl热液，它叠加在了石英大脉之上，形成(块状)黄铁矿-浅色石英矿体和(网脉状)多金属硫化物-烟灰色石英矿体，成矿期内热液的温度、压力及流体组成的变化是金沉淀成矿的原因；第三期热液又转成低盐度的富水流体，形成石英-碳酸盐脉体，金矿化微弱。     

吉林延边闹枝金矿床地质特征及矿床成因

闹枝金矿床地处延边—东宁金矿带西段,为一主体产于海西期花岗闪长岩体内的石英脉型矿床。矿床地质特征及含金石英脉内流体包裹体研究结果表明,该区含金石英脉中主要发育气液两相及少量的含子矿物三相、气相--富气相包裹体。气液两相包裹体均一温度为283.5℃～375.9℃,盐度为3.4～8.13 wt%NaCl;富气相包裹体均一温度为416.5℃～431.6℃;含NaCl子矿物三相流体包裹体均一温度为303.9℃～393.2℃,盐度为38.21～45.3 wt%NaCl。包裹体氢、氧同位素分析结果表明,成矿流体以岩浆热液为主,可能混有少量大气降水。矿床成因属中温岩浆热液金矿床。     

Genetic aspects of gold mineralization in the Southern Granulite Terrain,India

Gold mineralization in Southern Granulite Terrain (SGT) of India has close spatial relationship with the shear zones (Moyar–Bhavani) present in Cauvery Suture Zone. Gold is found to be associated with primary quartz veins, placers and laterites. The gold prospects in SGT can be broadly grouped into three provinces i) Wynad-Nilgiri, ii) Malappuram and iii) Attappadi. The auriferous quartz veins are within the deformed biotite/hornblende bearing gneisses and amphibolite. Wall rock alteration is conspicuous around the mineralized veins and gives an assemblage of muscovite–calcite–ankerite–chlorite–biotite–pyrite related to fluid–rock interaction at the time of vein formation. Fluid inclusion studies of vein quartz gives an idea of the nature of the ore forming fluids, the fluid involved in gold mineralization is of low saline and aqueous-carbonic in composition and quite similar to the orogenic lode gold deposits reported world-wide. Micro-thermometric data indicates fluid immiscibility (phase separation) during trapping of fluid inclusions and this must have played an important role in gold deposition. Geochronological studies of mineral separates from Wynad-Nilgiri province using Rb–Sr and Sm–Nd isochron methods of the auriferous quartz veins gave an age of approximately 450 Ma for the vein formation. The present studies on SGT gold mineralization indicate 1. During the Pan-African orogeny, extensive fluid influx from mantle and metamorphism extracted gold from a mafic source and were focused along major structural discontinuities of Moyar–Bhavani Shear Zone, 2. The aqueous–carbonic ore fluid interacted with rocks of the upper crust and triggered a set of metasomatic changes responsible for the dissolved components such as Ca, Si and Fe and finally precipitating in the veins and 3. The mineralizing fluid with dissolved gold in sulphide complex got destabilized due to fluid immiscibility and wall rock alteration leading to the deposition of gold with associated sulphide minerals in the vein system.     

Deposition of finely disseminated gold mineralization in black shales: A hypothesis of microstructural control

The deposition of finely disseminated gold in the deposits hosted in black shales is considered. It is suggested that gold deposition is controlled by microstructure of pore space in host rocks. The pore space structure of tight shales indicates that most pore volume is occupied by nanopores with hundredths of micrometers in characteristic dimension. The balance calculations show that deposition of native gold in nanopore channels of filtration is hampered by shortage of number of atoms necessary to overcome a nucleation threshold of the future gold crystal in the pore volume. When ore-transporting solution meets on its way the cavities (pores, micro- and macrofractures), whose volume is sufficient to overcome the nucleation threshold, the excess content of ore component, which exceeds equilibrium concentration, is released with formation of crystallization centers and further precipitation of gold. The conditions of ore deposition are exemplified in the reference Sukhoi Log deposit hosted in black shales. On the basis on the PT conditions of ore deposition and physical features of fluid heat and mass transfer, it is suggested that ore disseminations were deposited at the early high-temperature stage under a fluid pressure close to lithostatic and at a host rock permeability markedly exceeding its present-day value.     

Evidence for fluid phase separation in high-grade ore zones at the Porgera gold deposit, Papua New Guinea

Coexisting, liquid-rich and vapor-rich primary fluid inclusions in quartz provide direct evidence for fluid phase separation in high-grade quartz–roscoelite–gold veins and breccias from the Porgera alkalic-type gold deposit. Vapor-rich fluid inclusions are CO₂-rich, and sometimes contain liquid CO₂ at room temperature. The close spatial and paragenetic relationship between these “boiling assemblage” fluid inclusions and gold suggests that gold was precipitated by phase separation, at least locally. Additionally, the occurrence of carbonate and sulfate minerals in high-grade veins (reflecting pH increase and oxidation of the boiled fluid) and the appearance of hydrothermal breccias, are consistent with the process of fluid phase separation. Liquid CO₂-bearing fluid inclusions are rare in near-surface epithermal deposits, and indicate that the Porgera vein system was formed at greater depths and pressures (our estimates suggest pressures between 250 and 340 bars). It is suggested that alkalic-type gold deposits may be distinguished from other epithermal deposit types by the more gaseous nature of the ore-forming fluids, in addition to their association with alkalic magmas. Received: 24 February 2000 / Accepted: 6 April 2000     

四川会东小街金矿床成矿机理分析

四川会东小街金矿床为川西产于元古宙绿片岩地层中的菱铁矿型金矿床的典型代表。金矿体呈脉状产于中元古界会理群青龙山组碳质板岩、流纹质凝灰岩、变粗面炭和花岗斑岩的内外接触带中,受ＥＷ向基底断裂的次级断裂和层间破碎带的严格控制。矿石矿物组合为黄铁矿、毒砂、黄铜矿、黔铜矿族、Ａｕ－Ａｇ系列矿物,石英和菱铁矿。其成矿元素组成为Ａｕ－Ｃｕ－Ａｇ－Ｐｂ－Ｓｂ－Ａｓ－Ｆｅ。围岩蚀变以硅化、粘土化和碳酸盐化（菱铁矿化     

Fluid inclusions,stable isotopes and gold deposition at Björkdal,northern Sweden

The Björkdal gold deposit is located in the eastern part of the Early Proterozoic Skellefte district in northern Sweden. The ore zone is hosted by a granitoid which intrudes a 1.9 Ga old supracrustal sequence and consists of a network of quartz veins between two shear zones. The ore mineralogy, alteration assemblages, ore fluid characteristics and general setting of the Björkdal deposit reveal many similarities with mesothermal Archean systems. Three types of fluids are represented by fluid inclusions observed in quartz, scheelite and calcite. The first type consists of a CO₂-rich fluid which is syngenetic with the formation of the quartz veins. These inclusions occur in quartz and scheelite. Isotopic equilibrium temperatures derived from quartz-scheelite pairs reflect depositional temperatures around 375 °C. Molar volumes of the carbonic fluid inclusions, ranging down to 55 cm³mole, indicate a maximum lithostatic trapping pressure of 1.8 kbar. These fluids were generated at depth in conjunction with early orogenic magma-forming processes. The gold was introduced to the vein system by the carbonic fluid but the gold was deposited after reactions between this fluid and the wall-rock, producing a slightly alkaline, more CH₄-rich aqueous type 2 fluid. Fluid inclusions of this chemically modified fluid indicate that the precipitation of the gold, together with pyrrhotite, pyrite and chalcopyrite, occurred under heterogenous conditions at a temperature of 220 °C and a hydrostatic pressure of 0.5 kbar. The gold deposition occurred from fluids with a δ ¹⁸O signature of around +8‰ and δD values close to zero per mil. Any metamorphic influence on the stable isotopic signatures is regarded as minimal. The isotope data suggest rather that a surface-derived fluid component had access to the vein system during this process. At a post-vein forming stage (metamorphic stage ?) a secondary episode of gold mobilization occurred as suggested by the aqueous type 3 inclusions trapped in cross-cutting microfractures in quartz and randomly in calcite, and with homogenization temperatures between 145–220 °C and a salinity up to 11eq. wt.% NaCl. The Skellefte district is a major ore province, which forms a 200 by 50 km area in northern Sweden (Fig. 1), comprising numerous stratabound massive sulfide ore deposits. During the last decade epigenetic gold deposits have received increasing interest from a prospecting point of view. The Björkdal deposit is one of several epigenetic gold discoveries made recently in the Skellefte district. In 1985 a geochemical survey, designed on a grid-pattern basis, revealed a gold anomaly about 12 km north-east of the Boliden community and three years later the Björkdal gold mine was in operation. The annual production is about 960 000 metric tons of ore (1992) and the total reserves are estimated at a minimum of 7 Mton of ore with a gold grade of 2.9 ppm. This paper reports on the geological features of the Björkdal deposit and discusses the genesis of the deposit on basis of fluid inclusions and distribution of oxygen and hydrogen isotopes.     

工准噶尔库布苏金矿床岩脉与金矿成因关系的研究

库布苏金矿床的三个金矿带均产于闪长玢岩和花岗闪长斑岩内。为了研究这些岩脉与金矿的成因关系,测定了含金石英脉中英流体包裹体均一温度、成分、盐度和Ｈ２Ｏ的氢氧同位素,分析了含英脉和相关脉岩及围岩的稀土元素及微量元素,发现石英流体包裹体属有较高的均一温度、低盐度、富ＣＯ２的还原性流体,其阳离子组合为Ｃａ＾２＋〉Ｎａ＾＋〉Ｋ＾＋或Ｎａ＾＋〉Ｋ＾＋〉Ｍｇ＾２＋,阴离子组合属Ｃｌ＾１〉ＳＯ４＾２－〉Ｆ＾－型,     

黔东南金矿形成时代的确定兼论湘黔加里东金矿带

黔东南金矿是赋存在新元古代浅变质岩系中的石英脉型金矿,变质岩的原岩是一套火山-沉积岩,由凝灰岩、凝灰质砂岩、粉砂岩等组成,多具清楚的条纹韵律结构,反映了一种浊流沉积的环境。石英脉的产出受背斜构造和剪切断裂控制,有整合层间脉与断裂破碎带充填脉两种类型。石英脉的组成比较简单,除石英外,主要是硫化物类矿物及捕获的围岩成分。通过对5个矿点的石英中包裹体的Rb-Sr同位素测定和等时线法定年,确定其成矿时代为加里东期,与比邻的湘西同类型金矿的形成时代一致。根据赋矿地层岩性、地质演化历史与构造环境的比较,圈划出了一个湘黔加里东金矿带,对今后的找矿工作会有参考价值。