胶东大庄子金矿地质特征与成因探讨

大庄子金矿是我国首次发现赋存于胶东变质岩中大规模韧－脆性剪切带内的蚀变岩型及石英脉型金矿床。金矿化与绢英岩化、黄铁矿化、硅化和碎裂岩化有关。矿体受韧－脆性剪切带、黄铁绢英岩化、晚元古代晚期角闪岩相变质岩的共同控制。矿石矿物组合以自然金－金属硫化物－架状硅酸盐为主的组合类型。矿床属于在韧－脆性剪切作用下,与含金量较高的下元古界荆山群变质岩的形成、演化有成因联系的蚀变、重熔、交代中温动力热液改造型金矿     

山东沂沭断裂带中段金矿床地质特征

沂水-汤头断裂具有控、容矿构造之特点,金矿的定位经历了复杂的过程,它产于沂水-汤头断裂主裂面下盘的绿泥片岩、糜棱岩化碎裂岩和花岗质碎裂岩中.矿体总体形态较为简单,其产状与主裂面产状一致,局部沿与脆-韧性剪切带斜交的一组裂隙充填交代而成.钾化、黄铁绢英岩化、绿泥石化、绿帘石化为主要找矿标志,矿体的圈定几乎全凭样品分析结果来进行.有用矿物以银金矿为主,自然金次之,裂隙金和晶隙金是其主要的赋存状态,黄铁绢英岩化与金矿关系密切.金矿床的主成矿期为晚侏罗世-早白垩世.根据区域成矿地质条件分析,沿沂水-汤头断裂有良好的找矿前景.     

新疆布尔根韧脆性剪切带金矿地质特征

布尔根金矿带产于上泥盆统卡希翁组中基性火山岩中．金矿带严格地受韧性剪切带控制，赋矿岩石是韧脆性变形的破碎蚀变岩，主要是糜棱岩和石英细脉和网脉，围岩蚀变有硅化、黄铁绢英岩化、黄铁矿化、绿泥石化和高岭土化等．该金矿具韧性剪切破碎蚀变型金矿的特征．     

山西省五台白云叶蜡石矿地质特征及其对深部找矿的启示

山西五台县北约15 km的白云村一带出露有叶蜡石矿及金矿化点,其形成特点与关系对区域深部找矿具有重要启示意义。该叶蜡石矿体产于经历古元古代绿片岩相变质的新太古代酸性火山岩之中(绢英片岩),切割区域片理并被晚期的辉绿玢岩截切。矿体总体呈透镜状产出,倾向北西,近东-西向延伸大于5 km,最厚处约1 km,未见底。该叶蜡石矿形成于中生代早白垩世。矿石矿物以叶蜡石和石英为主,含少量绢云母、伊利石、硬水铝石和赤铁矿等,反映出蚀变流体酸性及氧化的特征。叶蜡石矿体外围发育黄铁绢英岩化带,强度由近及远逐渐减弱。在靠近叶蜡石矿的黄铁绢英岩中,硫化物颗粒边缘常见赤铁矿化现象,应与叶蜡石化流体叠加有关。以上蚀变特征与叶蜡石化细脉灌入黄铁绢英岩相吻合。叶蜡石矿体上盘的黄铁绢英岩化带宽约0.4 km,其内发育一小型石英脉型金矿(岭底金矿),下盘的黄铁绢英岩化带最宽约1.5 km,局部发育金矿化现象((1~18)×10^-6)。黄铁绢英岩中硫化物以黄铁矿为主,可见少量黄铜矿、斑铜矿和辉铜矿。金矿化黄铁绢英岩以发育大量浸染型黄铁矿为特征,该类黄铁矿无韧性变形,未见其他共生硫化物,SEM-EDS分析结果显示其内发育有明显的不可见金。黄铁绢英岩化可依据矿物变形与否分为两期。早期的蚀变分布局限,见于新太古代糜棱岩化奥长花岗岩与酸性火山岩(绢英片岩)接触带,其中的黄铁矿、绢云母和石英等矿物发育韧性变形特征;晚期的蚀变带内硫化物、绢云母和石英均无韧性变形特征。依据样品的岩相学及全岩Au、As含量特征,可以确认金矿化与晚期黄铁绢英岩化有关,与早期蚀变无关。叶蜡石矿石的H-O同位素组成(δ¹⁸O_V-SMOW=11.2‰~13.9‰;δD_V-SMOW=-34‰~-20‰)显示流体以气相为主,且缺乏大气水的混合。上述特征说明白云叶蜡石矿是深部岩浆侵位固结后出溶的以气相为主的热液与浅部新太古代变质火山岩反应的结果,类似于斑岩成矿系统中普遍发育的高级泥化带(岩帽)的底部蚀变特征。     

胶东牟平照岛山金矿蚀变矿化阶段及控矿要素

照岛山金矿位于胶东牟平-乳山成矿带北段,矿体产于中生代燕山期昆嵛山二长花岗岩中,主要受NNE向金牛山断裂带的控制。对金的成矿背景、矿床地质、控矿因素和矿体隐伏特征的研究结果表明:围岩蚀变从近矿到远矿依次发育黄铁绢英岩化、绢英岩化和钾长石化;金的成矿分为黄铁矿石英、石英黄铁矿、多金属硫化物、石英碳酸盐矿物4个阶段;昆嵛山岩体和荆山群变质岩的接触带附近易于成矿;金牛山主断裂走向NE的拐折地段、不同期次断裂交会处和多期断裂破碎带部位都易于成矿;金品位高值区呈近似等距分布,32线以南有向SW侧伏的趋势,40线以北有向NE侧伏的趋势。总结了照岛山金矿的控矿因素,初步推测了深部找矿方向。     

胶东牟平照岛山金矿蚀变矿化阶段及控矿要素

照岛山金矿位于胶东牟平-乳山成矿带北段,矿体产于中生代燕山期昆嵛山二长花岗岩中,主要受NNE向金牛山断裂带的控制。对金的成矿背景、矿床地质、控矿因素和矿体隐伏特征的研究结果表明：围岩蚀变从近矿到远矿依次发育黄铁绢英岩化、绢英岩化和钾长石化;金的成矿分为黄铁矿石英、石英黄铁矿、多金属硫化物、石英碳酸盐矿物4个阶段;昆嵛山岩体和荆山群变质岩的接触带附近易于成矿;金牛山主断裂走向NE的拐折地段、不同期次断裂交会处和多期断裂破碎带部位都易于成矿;金品位高值区呈近似等距分布,32线以南有向SW侧伏的趋势,40线以北有向NE侧伏的趋势。总结了照岛山金矿的控矿因素,初步推测了深部找矿方向。     

山东界河金矿矿化类型、地质勘查模型及成矿预测

按照矿石矿物组成、矿石组构、矿石类型以及围岩蚀变特点等,将山东招远界河金矿的金矿化类型分为钾化花岗岩型、黄铁绢英岩型、石英一多金属脉型和似青盘岩型等4种.钾化花岗岩型金矿化分布于"蚀变岩型金矿"成矿系统的深部,是富钾岩浆热液钾交代作用和黄铁矿脉充填作用的结果,一般形成于大矿体的下部或旁侧或作为大矿体的下部或根部的一部分.黄铁绢英岩型矿化位于成矿系统中部的主控矿断裂中的最佳成矿部位,是深部岩浆和浅部天水热液发生混合、交代和充填的最理想部位,往往构成大型和特大型工业矿体.脉状多金属型矿化位于该成矿系统的中浅部,地下水热液参与较多,成矿温度低,只能形成小而富的多金属硫化物型金矿体.在成矿系统的边部,热液活动更弱,形成以绿泥石化为主的似青盘岩化带,矿化较弱或构成无矿节理化带,本身不具工业意义,但可以指示深部成矿作用和隐伏矿体的存在.不同金矿化类型在界河金矿范围内有规律地分布是界河金矿深部和外围探矿的重要地质依据.     

胶东大庄子金矿地质特征与成因探讨

大庄子金矿是我国首次发现赋存于胶东变质岩中大规模韧-脆性剪切带内的蚀变岩型及石英脉型金矿床.金矿化与绢英岩化、黄铁矿化、硅化和碎裂岩化有关.矿体受韧-脆性剪切带、黄铁绢英岩化、晚元古代晚期角闪岩相变质岩的共同控制.矿石矿物组合以自然金-金属硫化物-架状硅酸盐为主的组合类型.矿床属于在韧-脆性剪切作用下,与含金量较高的下元古界荆山群变质岩的形成、演化有成因联系的蚀变、重熔、交代中温动力热液改造型金矿床.     

云南墨江镍金矿床主要控矿因素分析与研究

采用控矿因素分析研究，通过构造岩石地层及构造变形筛分探讨镍金矿床的成矿过程，认为本区金镍矿主要为地层及构造控矿。在矿床内，热（泉）水喷溢构造（成矿构造）有似环状粘土岩化带及热水同生沉积－交代－喷流构造岩石层序，脆－韧性剪切带（储矿构造）由近水平的纵张裂隙构造、左行共轭剪切裂隙及相对封闭的脆韧性剪切带组成。脆性张剪性X形微裂隙系统为富金矿脉的定位提供了构造空间。成矿演化过程为：①晚泥盆世热水同生沉积成岩成矿期形成含金黄铁矿硅质岩；②印支期逆冲推覆型脆韧性剪切构造成岩成矿期形成含金脆韧性剪切带；③燕山－喜马拉雅山期深源热流体叠加成矿期形成富金矿脉。指出3处成矿远景区，认为红土型金矿很可能是本区一种新的金矿类型，值得重视研究。     

胶东棉花洲金矿地质特征及找矿方向

棉花洲矿区位于胶东隆起带,昆嵛山复背斜与ＮＥ,ＮＮＥ向断裂构造的复合部位。ＮＮＥ向左行压扭性断裂是主要控矿构造,已发现金矿脉８条。赋矿围岩为鹊山中粗黑云母花岗岩,金与黄铁绢英岩蚀变关系密切,为中低温热液多金属硫化物石英脉型金矿床,成矿温度为１６０￣３７０℃,可划分为４个成矿阶段;黄铁矿－石英;金－黄铁矿－石英;金－多金属硫化物－石英;石英－碳酸盐。根据找矿标志确定有利的成矿部位是已知矿脉（体）的深     

Isotopic Geochronology of the Late Paleozoic Kanggur Gold Deposit of East Tianshan Mountains, Xinjiang, NW China

Abstract: The Kanggur gold deposit lies in East Tianshan mountains, eastern section of Central Asia orogenic belt. The gold mineralization occurs on the northern margin of the Aqishan‐Yamansu Paleozoic island arc in the Tarim Plate. It was hosted mainly in Middle‐Lower Carboniferous calc‐alkaline volcanic rocks, and controlled by the distributions of syn‐tectonic intrusions and ductile shear zones. In order to determine ore‐forming age of the Kanggur deposit, samples were collected from ores, wall rocks, altered rocks and intrusions. The dating methods include Rb‐Sr isochron and Sm‐Nd isochron, and secondly ⁴⁰Ar/³⁹Ar age spectrum, U‐Pb and Pb‐Pb methods. Based on the mineral assemblage and crosscutting relationship of ore veins, five mineralization stages are identified. This result is confirmed by isotope geochronologic data. The first stage featuring formation of pyrite‐bearing phyllic rock, is mineralogically represented by pyrite, sericite and quartz with poor native gold. The Rb‐Sr isochron age of this stage is 2905 Ma. The second stage represents the main ore‐forming stage and is characterized by native gold–quartz–pyrite–magnetite–chlorite assemblage. Magnetite and pyrite of this stage are dated by Sm‐Nd isochron at 290.47.2 Ma and fluid inclusion in quartz is dated by Rb‐Sr isochron at 282.35 Ma. The third mineralization stage features native gold–quartz–pyrite vein. In the fourth stage, Au‐bearing polymetallic sulfide‐quartz veins formed. Fluid inclusions in quartz are dated by Rb‐Sr isochron method at 25821 Ma. The fifth stage is composed of sulfide‐free quartz–carbonate veins with Rb‐Sr age of 2547 Ma. The first and second stages are related to ductile‐brittle deformation of shear zones, and are named dynamo‐metamorphic hydrothermal period. The third to fifth stages related to intrusive processes of tonalite and brittle fracturing of the shear zones, are called magmato‐hydrothermal mineralization period. The Rb‐Sr isochron age of 2905 Ma of the altered andesite in the Kanggur mine area may reflect timing of regional ductile shear zone. The Rb‐Sr isochron age of 28216 Ma of the quartz‐syenite porphyry and the zircon U‐Pb age of 2757 Ma of tonalite in the north of Kanggur gold mine area are consistent with the age of gold mineralization (290‐254 Ma). This correspondence indicates that the tonalite and subvolcanic rocks may have been related to gold mineralization. The Rb–Sr, Sm‐Nd and U‐Pb ages and regional geology support the hypothesis that the Kanggur gold deposit was formed during collisional orogenesis process in Late Variscan.     

后龙门山造山带辛家咀金矿床地质特征及成因探讨

辛家咀金矿床位于后龙门山造山带北东段,是2020年新发现的一个金矿床(年度金资源量约960 kg),找矿潜力巨大.基于详细的野外露头、探槽、钻孔编录和镜下观察,发现辛家咀金矿床中矿石类型以石英脉型为主,金主要以裂隙金和包裹金的形式赋存于黄铁矿、石英和少量多金属硫化物中.结合脉体穿插关系、矿物共生组合和矿石组构,将辛家咀...     

甘肃李坝金矿围岩蚀变与金成矿关系

西秦岭地区是目前国内造山型和卡林型金矿找矿的热点地区之一,已发现的甘肃李坝造山型金矿为超大型规模。以李坝金矿6号矿带为例,系统地研究了其蚀变矿物组合、近矿围岩蚀变分带及相应的金矿化特征,总结了矿床(带)的蚀变分带模式。该模式具典型的中心式环带结构,可分为3个蚀变带,由中心向外依次为黄铁绢英岩化带、绢云母化带和绿泥石化带。蚀变矿物组合分别为黄铁矿+绢云母+石英±毒砂±白云母±电气石±方解石、绢云母+绿泥石+石英+黄铁矿±黑云母及绿泥石+黑云母±绢云母±黄铁矿;与这3个蚀变带相对应的是金的富集带、矿化带和无矿带。蚀变岩石物质组分迁移分析表明,围岩蚀变及其分带是热水流体/岩石反应时岩石化学组分发生迁移的结果,矿化伴随着蚀变发生,且金矿化与黄铁矿化和浸染状硅化关系最为密切。     

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。     

Mineral Paragenesis of the Lepanto Copper and Gold and the Victoria Gold Deposits, Mankayan Mineral District, Philippines

Abstract: Mineral paragenesis of the alteration, ore and gangue minerals of the Lepanto epithermal copper‐gold deposit and the Victoria gold deposit, Mankayan Mineral District, Northern Luzon, Philippines, is discussed. The principal ore minerals of the Lepanto copper‐gold deposit are enargite and luzonite, with significant presence of tennantite‐tetrahedrite, chalcopyrite, sphalerite, galena, native gold/electrum and gold‐silver tellurides. Pervasive alteration zonations are commonly observed from silicification outward to advanced argillic then to propylitic zone. The ore mineralogy of the Lepanto copper‐gold deposit suggests high f_S2 in the early stages of mineralization corresponding to the deposition of the enargite‐luzonite‐pyrite assemblage. Subsequent decrease in the f_S2 formed the chalcopyrite‐tennantite‐pyrite assemblage. An increase in the f_S2 of the fluids with the formation of the covellite‐digenite‐telluride assemblage caused the deposition of native gold/electrum and gold‐silver tellurides. The principal ore minerals of the Victoria gold deposit are sphalerite, galena, chalcopyrite, tetrahedrite and native gold/electrum. The alteration halos are relatively narrow and in an outward sequence from the ore, silica alteration grades to illitic‐argillic alteration, which in turn grades to propylitic alteration. The Victoria gold mineralization has undergone early stages of silica supersaturation leading to quartz deposition. Vigorous boiling increased the pH of the fluids that led to the deposition of sulfides and carbonates. The consequent decrease in H₂S precipitated the gold. Gypsum and anhydrite mainly occur as overprints that cut the carbonate‐silica stages. The crosscutting and overprinting relationships of the Victoria quartz‐gold‐base metal veins on the Lepanto copper‐gold veins manifest the late introduction of near neutral pH hydrothermal fluids.     

The New Consort Gold Mine,Barberton greenstone belt,South Africa: orogenic gold mineralization in a condensed metamorphic profile

The New Consort Gold Mine in the Palaeo- to Mesoarchaean Barberton greenstone belt, South Africa is one of the oldest recognized orogenic gold deposits on Earth. The gold mineralization is hosted by discrete mylonitic units that occur at, or close to, the contact between the mafic and ultramafic volcanic rocks of the c. 3,280 Ma Onverwacht Group and the mainly metasedimentary rocks of the overlying c. 3,260–3,230 Ma Fig Tree Group. This contact, locally referred to as the Consort Bar, formed during ductile D₁ imbrication of the metavolcanosedimentary sequence and predates the main stage of the gold mineralization. The imbricate stack is situated in the immediate hanging wall of the basal granitoid–greenstone contact along the northern margin of the greenstone belt. It is characterized by a condensed metamorphic profile in which the metamorphic grade increases from upper greenschist facies conditions (510–530°C, 4 kbar) in rocks of the Fig Tree Group to upper amphibolite facies grades (600–700°C, 6–8 kbar) in the basal Onverwacht Group. Detailed structural and petrological investigations indicate that the Consort Bar represents a major structural break, which is largely responsible for the telescoping of metamorphic isograds within the structural sequence. Two stages of mineralization can be distinguished. Loellingite, pyrrhotite, and a calc–silicate alteration assemblage characterize an early high-T mineralization event, which is restricted to upper amphibolite facies rocks of the Onverwacht Group. This early mineralization may correlate with the local D₁ deformation. The second and main stage of gold mineralization was associated with renewed ductile shearing during D₂. The D₂ deformation resulted in the reactivation of earlier structures, and the formation of a NNW trending, steeply dipping shear zone system, the Shires Shear Zone, which separates two regional SE plunging D₁ synclines. The mineralized shear zones are intruded by abundant syn-kinematic pegmatite dykes that have previously been dated at c. 3040 Ma. Petrological and geothermobarometric data on ore and alteration assemblages indicate that the main stage of gold mineralization, which affected a crustal profile of ca. 1.5 km, was characterized by increasing temperatures (c. 520 to 600°C) with increasing structural depth. Sulfide assemblages in the ore bodies change progressively with metamorphic grade, ranging from arsenopyrite + pyrite + pyrrhotite in the structurally highest to arsenopyrite + pyrrhotite + chalcopyrite + loellingite in the structurally deepest part of the mine. The main stage of gold mineralization was broadly syn-peak metamorphic with respect to the Fig Tree Group, but postdates the peak of metamorphism in upper amphibolite facies rocks of the structurally underlying Onverwacht Group. This indicates that the mineralization coincided with the juxtaposition of the two units. As the footwall rocks were already on their retrograde path, metamorphic devolatilisation reactions within the greenstone sequence can be ruled out as the source of the mineralizing fluids.     

吉林荒沟山金矿床成矿流体特征

荒沟山金矿床为吉南老岭金-多金属成矿带内较具代表性矿床之一,产于元古宇老岭群珍珠门组地层之中,受韧性剪切带构造控制.按地质特征、矿物组合及矿脉之间的穿切关系,将荒沟山金矿床热液成矿作用划分为Ⅰ黄铁矿-毒砂-石英阶段和Ⅱ晚期辉锑矿-乳白色石英两个阶段.系统的流体包裹体岩相学及显微测温研究表明:Ⅰ阶段石英中发育含CO₂三相、碳质及气液两相3种类型的原生流体包裹体,成矿流体属不混溶的中低温、低盐度NaCl-H₂O-CO₂体系热液,在成矿过程中发生过不混溶作用而导致金等有用元素沉淀富集;Ⅱ阶段石英颗粒中主要发育气液两相包裹体,成矿流体属均匀的NaCl-H₂O体系热液.碳、氢、氧同位素研究表明,Ⅰ阶段成矿流体主要来源于岩浆热液,Ⅱ阶段流体除继承早阶段的热液外,还有大气降水的混入;δD和δ13C_V-PDB值分析结果证明两个成矿阶段流体均与地层发生过较强的水岩反应.矿床成因属于中温岩浆热液矿床.      

The geology of the Lega Dembi gold deposit, southern Ethiopia: implications for Pan-African gold exploration

The Lega Dembi deposit is the largest gold producer in Ethiopia. It is situated in late-Precambrian metamorphosed sediments of the N-S trending, volcano-sedimentary Megado belt, which forms part of the late-Proterozoic Adola granite-greenstone terrane in southern Ethiopia. The lode-gold mineralization occurs in a N-S trending, steep westerly dipping quartz-vein system that follows the structural contact between underlying feldspathic gneisses and the volcanosedimentary sequence of the Megado belt. This contact also marks the northernmost extension of the regional-scale, sinistral strike-slip Lega Dembi-Aflata shear zone. Mineralization and intense quartz-veining is best developed in graphite-rich sediments within an area not more than 80 m away from this tectonic contact. Hydrothermal wall-rock alteration includes actinolite/tremolite-biotite-calcite-sericite and chlorite-calcite-epidote assemblages. Gold occurs preferentially in the sericite alteration zone, where it is closely associated and intergrown with galena. The variable deformation of the gold-quartz veins suggests a syn-kinematic timing for the gold mineralization during transcurrent shearing in a dilational segment of the shear zone. In addition to the structural control, lithological control on gold deposition is indicated by the almost exclusive occurrence of the gold mineralization in graphite-rich metasediments. This close relationship suggests that gold precipitation was the result of chemical reduction of regional ore-bearing fluids. Temperature conditions of mineralization are constrained by the actinolite-biotite alteration assemblage and by arsenopyrite chemistry, which indicate that ore deposition occurred at or close to peak metamorphic conditions at upper-greenschist to lower-amphibolite metamorphic grades. Rb-Sr dating of sericite indicates an age of about 545 Ma. for hydrothermal alteration and, thus, for gold mineralization. The style of gold mineralization, structural pattern and lithological assemblages at Lega Dembi are very similar to lode-gold deposits most commonly reported from Archaean granite-greenstone terranes. These similarities may open new perspectives for the exploration of lode-gold deposits, which has previously primarily focused on Archaean greenstone belts rather than Proterozoic or even Phanerozoic meta-volcanosedimentary belts. Received: 26 July 1996 / Accepted: 8 January 1997     

陕西略阳铧厂沟金矿床地质与矿床类型

铧厂沟金矿床位于勉略缝合带中泥盆系三河口群郭镇岩组中。含矿与容矿岩系为泥盆系三河口群郭镇岩组中的细碧岩和结晶灰岩。主控矿构造为寨子湾韧-脆性剪切构造带。围岩蚀变包括退化蚀变和矿化蚀变。在矿区内产出南北两条矿化带，矿石类型为蚀变细碧岩型、黄铁绢英片岩型和石英脉型。主要的金属矿物为黄铁矿和黄铜矿，金矿物是自然金。韧脆性剪切构造叠加和岩石强烈变形、彻底退化蚀变以及后期含矿热液交代与充填是主要的成矿作用，属于火山-沉积岩系中的类卡林型金矿床。     

辽宁省清原县南龙王庙金矿地质特征与成矿

南龙王庙金矿位于抚顺-清原太古宙绿岩带内.金矿赋存于太古宇鞍山群红透山岩组上部的火山岩-碎屑岩建造中,容矿围岩为磁铁角闪石英岩、黑云变粒岩及浅粒岩.矿体产出受韧性剪切带控制,金矿体沿韧性剪切带分布,呈透镜状、脉状、似层状,矿体规模一般较小.矿体为浸染-细脉含金黄铁矿和含金黄铁矿石英脉.金以自然金形式产出.硫同位素源自深部,铅同位素表明矿质来自绿岩,氢氧同位素指示成矿流体是变质水和大气降水的混合.研究认为南龙王庙金矿为具层控性受韧性剪切带控制的变质-大气降水混合热液型金矿.