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1.
彭润民  王建平 《地学前缘》2020,27(2):420-441
狼山-渣尔泰山是华北克拉通北缘西段元古宙伸展构造体制下被动陆缘的重要热水喷流成矿带,内产东升庙、炭窑口、霍各乞、甲生盘等大型-超大型矿床,其含矿建造是元古宇渣尔泰山群。该成矿带的主体在狼山山脉主峰地区,产有东升庙、炭窑口、霍各乞三大矿床。自2010年在狼山西南原渣尔泰山群阿古鲁沟组地层中发现新元古代酸性火山岩(锆石年龄816~805 Ma)以来,其东部狼山主峰地区的渣尔泰山群及产在其中的炭窑口、东升庙、霍各乞矿床是否也都可以归于新元古代形成是需要进一步研究的重要科学问题。本文依据的事实有:(1)狼山西南新元古界的碎屑锆石最小年龄为1 155 Ma与碳酸盐岩是方解石大理岩;(2)炭窑口矿区渣尔泰山群顶部刘鸿湾组地层的碎屑锆石年龄的两个年龄峰值分别为1 862~1 762 Ma(最小年龄为1 732 Ma)和2 448 Ma,所含碳酸盐岩全部是白云石大理岩类;(3)狼山北侧狼山群含矿岩组中发现年龄为887 Ma±的新元古代基性火山岩; (4)霍各乞矿床含重晶石与微晶长石的硅质层发育,多与黄铁矿层互层状产出,也有与闪锌矿+磁黄铁矿及方铅矿层互层,激光原位分析得到的黄铁矿、方铅矿、闪锌矿和磁黄铁矿的δ34S为17.60‰~21.97‰,显示喷流成矿的硫同位素组成特征。根据以上事实可以确认:(1)狼山西南含酸性火山岩与方解石大理岩的前寒武纪地层是与狼山南侧炭窑口矿区含白云石大理岩的渣尔泰山群在不同盆地中沉积而成;(2)狼山南侧是中元古代裂谷带,产有以炭窑口、东升庙矿床为代表的中元古代喷流-沉积成矿系统;(3)狼山北侧是新元古代裂谷带,产有以霍各乞矿田为代表的新元古代热水喷流成矿系统。产在新元古代狼山群中的霍各乞矿是介于SEDEX型与VMS型之间、但靠近SEDEX型一侧的热水喷流-沉积矿床。  相似文献   

2.
狼山—渣尔泰山中元古代SEDEX型成矿带与世界典型SEDEX型矿床有重要差别 ,成矿期间火山活动明显,在霍各乞、东升庙、炭窑口矿床唯一含矿岩组中各有岩类不同的变质海相火山岩夹层。依据:① 基性火山岩的SmNd等时线年龄为1491~1824 Ma(稍老或接近各矿床的铅模式年龄),εNd(t)=3.48~6.4、轻稀土富集、重稀土亏损,其成岩物质来自地幔或下地壳;② 一些矿石也是轻稀土富集、重稀土亏损、与火山岩夹层的稀土球粒陨石标准化曲线具有相似性;③ 各种硫化物的铅同位素都有一些分布在地幔和下地壳铅演化曲线附近;④ 部分黄铁矿的Co/Ni1;⑤ 在有些矿石中还新见到火山岩块与岩屑、凝灰岩块和晶屑;⑥各矿床的Zn、Pb、Cu、Fe硫化物矿体都是在火山岩夹层的上覆地层中大量产出,甲生盘矿床缺少火山岩(只有凝灰岩)夹层时,没有铜矿体,而霍各乞、东升庙、炭窑口矿床含矿岩组中有火山岩夹层时,便都有铜矿体,可以推测同沉积期内间歇性的小规模海底火山喷发与成矿关系密切:它既直接提供了一部分成矿物质(与火山岩夹层同源),又导致长期存在地热异常,极有利于海底热水对流系统的形成与循环,使深部富含Zn、Pb、Cu、Fe的成矿流体不断地顺同生断裂上升至海盆喷流沉积成矿。这也证明元古宙SEDEX型矿床成矿作用的多样性和复杂性。  相似文献   

3.
内蒙古狼山-渣尔泰山矿集区海底喷流成矿特征与勘查   总被引:4,自引:0,他引:4  
狼山-渣尔泰山矿集区内的东升庙、炭窑口、霍各乞和甲生盘等大型-超大型矿床的产出受华北古陆北缘裂陷槽内三级断陷盆地控制,都具有鲜明的层控与岩控特征、矿体总体呈层产在中元古界的白云石大理岩、炭质千枚岩(或片岩)中,成矿过程中的同生断裂活动与强度在一定程度上控制了矿体的空间分布与矿床规模。狼山地区的霍各乞、东升庙、炭窑口矿床成矿期间伴有明显的火山喷发活动,可归于SEDEX-VMS型之间、但靠近SEDEX型一侧的矿床,而甲生盘矿床则表现出较典型的SEDEX型矿床的成矿特点。古生代以来的造山过程对本类矿床有明显的改造与叠加成矿。新区与现有矿床深部及外围的找矿宜注重对容矿岩组中同生断裂活动遗迹与同沉积期火山活动产物的识别以及后期蚀变特征的追踪。  相似文献   

4.
狼山-渣尔泰山中元古代被动陆缘裂陷槽内产有炭窑口、东升庙、霍各乞和甲生盘等海底喷流-沉积铅锌铜铁硫化物矿床。它在裂解过程中产生了明显的间歇性海底火山喷发。已分别在霍各乞、东升庙和炭窑口矿床容矿岩组中已找到岩性不同、并具有变余斑状或聚斑状或显微球粒结构、变余杏仁构造的海相火山岩与凝灰岩层,它们是确认该裂陷槽裂解过程的有效标志。依据(1)西部炭窑口矿区容矿岩组中发育钾质"双峰式"火山岩,其基性火山岩的K_2O(4.23~5.93%)>Na_2O (2.15~3.14%)、Na_2O K_2O=6.51~8.08%、长石斑晶为钠长石(No.=2.8~7.2),酸性火山岩的K_2O(6.22~4.83%)>Na_2O(2.78~3.87%)、Na_2O K_2O=8.63~9.00%、长石斑晶为钠长石(No.=0.2~0.7)、长石微晶主要为钾长石;(2)东升庙矿区则发育钠质"双峰式"火山岩,其基性火山岩的Na_2O(3.84~4.30%)>K_2O(2.49~3.80%)、Na_2O K_2O=6.44~7.92%、长石斑晶为更长石(No.=11~25),酸性火山岩的Na_2O(3.64~5.31%)>K_2O(1.19~2.75%)、Na_2O K_2O=6.28~7.68%,长石斑晶与基质均为钠长石(No.=0~1.1);(3)霍各乞矿区发育基性火山岩,其Na_2O(1.36~3.78%)>K_2O (0.30~2.16%),Na_2O K_2O=2.03~4.09%;(4)炭窑口、东升庙与霍各乞矿床三矿区火山岩的稀土元素与微量元素蛛网图的标准化曲线有相似性和显著差别;(5)炭窑口、东各庙和霍各乞矿区基性火山岩的Sm-Nd模式年龄依次为1857~1877Ma和2006~2132Ma、1740~1867Ma、1486~1606Ma;(6)容矿岩组中有多层凝灰岩与火山碎屑及少量含火山碎屑的矿石,再结合该裂陷槽内各矿床的铅同位素模式年龄和甲生盘矿区只有少量凝灰质夹层,可以揭示该裂陷槽在中元古代的不均匀裂解过程,表现出从西部炭窑口→东升庙→东部的甲生盘一带先后裂解、狼山南侧早于北侧裂解以及从狼山→渣尔泰山同沉积期火山活动由明显→微弱的明显变化趋势。  相似文献   

5.
<正>SEDEX矿床即喷流-沉积矿床(Sedimentary Exhalative Deposit),通常是指碎屑岩或碳酸盐为主的沉积岩中整合产出的层状矿床,国内也称作热水沉积矿床,以规模大、延伸稳定为特征。SEDEX型矿床是一种很容易与其他矿床类型混淆的矿床类型。首先,它是一种同生沉积矿床,成矿与成岩几乎同时形成,而MVT型Pb、Zn矿、砂岩型Pb、Zn矿、砂岩型Cu矿等虽然也常层状产于沉积岩中,  相似文献   

6.
陈喜峰 《矿产与地质》2009,23(4):291-296
狼山-渣尔泰山多金属成矿带位于华北地台北缘西段的中元古代被动陆缘裂陷槽内,其产出的多处大型-超大型铜、铅、锌、铁多金属硫化物矿床的矿床特征具相似性和可对比性。通过分析该成矿带的区域地质背景、含矿建造特征及其产出的典型矿床(东升庙、炭窑口、霍各乞、甲生盘)的矿床地质特征,得出该成矿带内铜铅锌铁多金属硫化物矿床的以下特征:①盆地控矿特征十分明显;②成矿过程中伴有与成矿作用关系密切的同生断裂活动和同沉积期火山活动;③成矿元素具分带性和规律性组合的特征;④各典型矿床具鲜明的“时控”、“层控”和“岩控”特点;⑤成矿作用具有间歇性和多期演化成矿的特征;⑥含矿建造具有典型地球化学剖面结构序列特征;⑦矿体的产状与含矿岩系一致,且相应类型的矿石对应相应的容矿岩性。  相似文献   

7.
本文报道了内蒙古狼山成矿带内两个最大的铅锌多金属硫化物矿床——东升庙矿床和炭窑口矿床中黄铁矿、黄铜矿单矿物的铁同位素研究结果。东升庙矿床绢云石墨片岩中不规则状黄铁矿的铁同位素组成δ~(56)Fe_(-IRMM)值在+0.04‰~+1.11‰之间,呈现铁的重同位素富集,指示了海水中的铁以氧化态沉淀并在成岩期转化成黄铁矿的矿化过程。东升庙和炭窑口矿床富硫化物矿石中黄铁矿和黄铜矿的铁同位素组成δ~(56)Fe_(-IRMM)值的变化范围为-1.33‰~+0.08‰,具有热液成矿特征,指示金属成矿物质来源于热液流体。另外,绢云石墨片岩中脉状黄铁矿的铁同位素组成δ~(56)Fe_(-IRMM)值的变化范围为-0.39‰~-0.04‰,处于矿石黄铁矿和围岩不规则状黄铁矿之间,指示脉状黄铁矿是热液矿化的产物,并在成矿过程中混入了围岩中早先形成的富集铁的重同位素的黄铁矿。绢云石墨片岩中广泛发育的不规则状黄铁矿与赋存在绢云石墨片岩中的富硫化物矿体具有完全不同的铁同位素组成,指示热液活动对不规则状黄铁矿没有明显成矿物质贡献,因此同沉积热液活动成矿的可能性不大。结合赋存在白云石大理岩中硫化物矿体的顶、底部常见硅化的白云石大理岩角砾,本文提出后生矿化是东升庙多金属硫化物矿体的主要成矿方式。另外,东升庙矿床和炭窑口矿床的矿石硫化物具有相似的铁同位素组成特征,指示两者的成矿物质来源具有相似性。  相似文献   

8.
作者以连续的两篇文章综述了柴北缘地区的加里东造山带中产出的两类不同的块状硫化物矿床,这就是喷流沉积(SEDEX)型Pb-Zn矿床和火山岩容矿的块状硫化物(VHMS)型Cu-S矿床.认为它们在成矿后的造山过程中受到过不同程度和不同成矿作用的改造,使之兼有后生矿床的特征.锡铁山Pb-Zn矿床的主体是属于以沉积岩为容矿岩石的喷流沉积(SEDEX)型矿床.它的含矿岩系形成于早奥陶世[(486±13) Ma]弧后盆地环境中,并在加里东期碰撞造山过程中发生了强烈的北东-南西向斜向挤压缩短,导致喷流沉积成矿作用形成的原始铅-锌-黄铁矿层,后期遭受了强烈的构造改造,从而在一定程度上使矿体的空间分布受到后期构造的控制.此外,该矿床也程度不大地受到过后期热液改造.为更加显示它的地区性特色和强烈的后期改造,作者建议将其称为"锡铁山式SEDEX型铅锌矿床".在该式矿床的勘查过程中,既要注重研究同生成矿作用对矿体的控制,也要重视研究后期构造对含矿层和矿体的破坏和改造.  相似文献   

9.
彭润民  王志刚 《地球科学》2000,25(4):404-409
东升庙Zn -Pb -Cu矿床和甲生盘Zn -Pb矿床具有鲜明的层控特征, 前者产在中元古界狼山群二组中, 后者则局限在中元古界渣尔泰山群阿古鲁沟组第二岩段内.二者产出层位相当, 根据(1) 含矿地层有岩相(性) 的突变; (2) 含矿岩段地层厚度顺走向和倾向变化性大、厚度突变现象明显, 并存在层间砾岩和滑塌角砾岩, 角砾成分为大小不一的白云石大理岩块、碳质千枚岩、石英团块、凝灰岩块、变粒岩块、变质火山岩碎块、黑云母片岩碎块; (3) 矿体总体呈层产出, 但有一些Zn -Pb -Cu矿体突然变薄, 甚至消失, 形成鱼头状矿体, 且发育角砾状矿石, 角砾成分与层间砾岩的相同, 且还含Pb -Zn矿石或Py矿石角砾; (4) 火山岩或凝灰岩夹层顺同生断裂带分布, 确认其唯一容矿岩组形成过程中有明显的同生断裂活动.同生断裂系统是含矿热水和火山熔浆进入沉积盆地的通道, 是两大矿床形成的有利因素, 但其活动频率、规模与持续时间的差异, 也造成不同的矿床规模和矿体分布.东升庙矿床同生断裂活动时限相对长、矿床规模大、矿种多.甲生盘矿床同生断裂活动时间短, 矿床规模为大型.   相似文献   

10.
长江中下游成矿带存在一套产于泥盆系五通组砂岩和石炭系黄龙组白云质灰岩层间的层状含铜硫化物矿体,对其成因存在很大争议。本文以产出典型层状矿体的武山铜矿为解剖重点,结合区域控矿地质要素、矿石结构构造特征及矿石中黄铁矿的稀土元素地球化学,提出层状矿体是海底喷流同生沉积与岩浆热液叠加成矿作用的产物。对武山铜矿层状矿体中的胶黄铁矿和黄铁矿、矽卡岩矿体中黄铁矿和脉状矿体中黄铁矿进行的稀土元素含量分析发现,从层状矿体胶黄铁矿、层状矿体黄铁矿、到矽卡岩和脉状矿体黄铁矿,稀土总量和稀土配分曲线显示递变规律,即层状矿体胶黄铁矿具有较低的稀土总量和轻重稀土分异不明显的较平坦型配分曲线;而矽卡岩和脉状矿体黄铁矿具有较高的稀土总量和轻重稀土分异较明显的右倾型配分曲线。层状矿体黄铁矿的稀土特征则介于两者之间,反映了岩浆热液的叠加作用。根据矿物组合共生关系及矿石结构构造的研究,可将武山铜矿黄铁矿分为3个期次:I期为微球粒、草莓状、条带状、纹层状沉积型黄铁矿; II期为半自形、自形粒状和港湾状黄铁矿,可见与长英质斑晶、岩屑或晶屑凝灰岩伴生或共生, 说明黄铁矿形成与同沉积期火山凝灰岩的密切关系。III期为块状、粗晶状、碎裂状黄铁矿。黄铜矿的形成晚于I、II期黄铁矿,成微粒状、脉状交错穿插或包裹早期球粒状、粒状黄铁矿及长英质矿物。对新发现的灰泥丘构造的详细研究表明,武山铜矿中含矿的灰泥丘与武山外围乌石街出露的不含矿的灰泥丘具有不同的特征,其中前者具有封闭的孔洞系统,而后者为开放的孔洞系统。总之,武山铜矿控矿地质条件、矿石结构构造及不同类型矿石黄铁矿的稀土元素证据表明矿床存在两期成矿事件,即海西期海底喷流同生沉积成矿期和燕山期岩浆热液叠加成矿期。  相似文献   

11.
Most ore-forming characteristics of the Langshan-Zha'ertaishan hydrothermal exhalation belt, which consists of the Dongshengmiao, Huogeqi, Tanyaokou and Jiashengpan large-superlarge Zn-Pb-Cu-Fe sulfide deposits, are most similar to those of Mesoproterozoic SEDEX-type provinces of the world. The characteristics include: (1) All deposits of this type in the belt occur in third-order fault-basins in the Langshan-Zha'ertaishan aulacogen along the northern margin of the North China Platform; (2) these deposits with all their orebodies hosted in the Mesoproterozoic impure dolomite-marble and carbonaceous phyllite (or schists) have an apparent stratabound nature; ores display laminated and banded structures, showing clear depositional features; (3) there is some evidence of syn-sedimentary faulting, which to a certain extent accounts for the temporal and spatial distribution and the size of the orebodies in all deposits and the formation of intrabed conglomerates and breccias; (4) they show lateral and vertical  相似文献   

12.
Most ore-forming characteristics of the Langshan-Zha'ertaishan hydrothermal exhalation belt, which consists of the Dongshengmiao, Huogeqi, Tanyaokou and Jiashengpan large-superlarge Zn-Pb-Cu-Fe sulfide deposits, are most similar to those of Mesoproterozoic SEDEX-type provinces of the world. The characteristics include: (1) All deposits of this type in the belt occur in third-order fault-basins in the Langshan-Zha'ertaishan aulacogen along the northern margin of the North China Platform; (2) these deposits with all their orebodies hosted in the Mesoproterozoic impure dolomite-marble and carbonaceous phyllite (or schists) have an apparent stratabound nature; ores display laminated and banded structures, showing clear depositional features; (3) there is some evidence of syn-sedimentary faulting, which to a certain extent accounts for the temporal and spatial distribution and the size of the orebodies in all deposits and the formation of intrabed conglomerates and breccias; (4) they show lateral and vertical  相似文献   

13.
Most ore-forming characteristics of the Langshan-Zha‘ertaishan hydrothermal exhalation belt, which consists of the Dongshengmiao, Huogeqi, Tanyaokou and Jiashengpan large-superlarge Zn-Pb-Cu-Fe sulfide deposits, are most similar to those of Mesoproterozoic SEDEX-type provinces of the world. The characteristics include: (1) All deposits of this type in the belt occur in third-order fault-basins in the Langshan-Zha‘ertaishan aulacogen along the northern margin of the North China Platform; (2) these deposits with all their orebodies hosted in the Mesoproterozoic impure dolomite-marble and carbonaceous phyllite (or schists) have an apparent stratabound nature; ores display laminated and banded structures, showing clear depositional features; (3) there is some evidence of syn-sedimentary faulting, which to a certain extent accounts for the temporal and spatial distribution and the size of the orebodies in all deposits and the formation of intrabed conglomerates and breccias; (4) they show lateral and vertical zonation of sulfides; (5) The Cu/(Pb Zn Cu) ratio of the large and thick Pb Zn Cu orebodies gradually decreases from bottom to top; and (6) barite is interbedded with pyrites and sometimes with sphalerite. However, some characteristics such as the Co/Ni radio of the pyrites, the volcanism, for example, of the Langshan-Zha‘ertalshan metallogenic belt, are different from those of the typical SEDEX deposits of the world. The meta-basic volcanic rock in Huogeqi, the sodic bimodal volcanic rocks in the Dongshengmiao and potassic bimodal-volcanic rocks with blastoporphyfitic and blasto-glomeroporphyritic texture as well as blasto-amygdaloidal structure in the Tanyaokou deposits have been discovered in the only ore-bearing second formation of the Langshan Group in the past 10 years. The metallogeny of some deposits hosted in the Langshan Group is closely related to syn-sedimentary volcanism based on the following facts: most of the lead isotopes in sphalerite, galena, pyrite, pyrrhotite and chalcopyrite plot on both sides of the line for the mantle or between the lines for the mantle and lower crust in the lead isotope composition diagram; cobalt content of some pyrites samples is much higher than the nickel content (Co/Ni= 11.91-12.19). Some volcanic blocks and debris have been picked out from some pyritic and pyrrhotitic ores. All Zn-Pb-Cu-Fe sulfide orebodies in these deposits occur in the strata overlying metamorphic volcanic rocks in the only ore-bearing second formation. In the Jiashengpan deposit that lacks syn-sedimentary volcanic rocks in the host succession only Pb and Zn ores occur without Cu ore, but in the Dongshengmiao, Tanyaokou and Huogeqi deposits with syn-sedimentary volcanic rocks in the host succession Cu ores occur. This indicates a relatively higher ore-forming temperature. The process of synsedimentary volcanic eruption directly supplied some ore-forming elements, and resulted in secular geothermal anomaly favorable for the circulation of a submarine convective hydrothermal system, which accounts for the precipitation of deep mineralizing fluids exhaling into anoxidic basins along the syn-sedimentary fault system in the Langshan-Zha‘ertai rift. The Dongshengmiao, Tanyaokou, and Huogeqi deposits hosted in the Langshan Group appear to be a transitional type of mineral deposit between SEDEX and VMS-types but with a bias towards SEDEX, while the Jiashengpan deposit hosted in the Zha‘ertai Group is of a characteristic SEDEX type. This evidence, together with other new discoveries of Mesoproterozoic volcanic rocks and the features of lithogeny and metallogeny of the Bayun Obo deposit in the neighborhood emphasize the diversity, complexity and uniqueness of the Mesoproterozoic Langshan-Zha‘ertal-Bayun Obo ore belt.  相似文献   

14.
INTRODUCTIONThe L angshan- Zhaertai metallogenic belt is a typicalSEDEX belt of the Mesoproterozoic passive continental m ar-gins in the west section of the northern margin of the NorthChina platform(Zhai et al.,1997) (Fig.1) .The ore- form inggeological setting,the division and correlation of the host suc-cession,the geological features of typical ore deposits andtheir genesis of the belt have been described in references(Zhai et al.,1997;Wang and Zhao,1994;Wang et al.,1992 ;L i et…  相似文献   

15.
阿贵庙地区位于狼山造山带的西段,同狼山成矿带东段的东升庙、炭窑口、霍各乞等大型-超大型铜铅锌多金属矿区具有相似的成矿地质背景和其他有利的成矿地质条件。笔者在分析区域构造地质背景的基础上,重点研究了阿贵庙地区的地质构造演化过程与成矿作用。研究结果表明:阿贵庙地区经历了古太古代基底岩石建造的形成、太古宙晚期-古元古代早期结晶基底形成和变质与变形、中元古代陆缘裂解与接受沉积-成矿、新元古代末裂陷槽闭合、晚古生代(海西期)-中生代(印支期)以来的挤压造山变形、大量岩浆上侵、地壳增生与变形的多个构造演化阶段。在不同的构造演化阶段形成不同类型的矿床:新太古代主要形成海底火山热水沉积条带状铁矿、在中元古代主要形成了与被动陆缘裂解过程相关的热水沉积硫化物矿床、晚古生代则形成与次火山岩浆热液成矿作用相关的斑岩型铜金矿床以及其他与火山岩有关的多个铜矿点。  相似文献   

16.
位于甘肃北山瓜州县境内的花牛山银铅锌矿是北山地区唯一的喷流(气)沉积型块状硫化物矿床,它赋存于一套浅变质细碎屑岩或中基性火山岩夹碎屑岩-碳酸盐岩建造中。关于该矿床的成矿时代,因无确切的同位素年代学和化石证据,争议较大。对花牛山银铅锌矿三矿区铅锌矿体的赋矿围岩玄武岩样品中的锆石进行了LA-ICP-MS法U-Pb定年研究,获得了207Pb/206Pb年龄1071Ma±5Ma,表明花牛山地区中基性火山喷溢活动发生在晚蓟县世。进而揭示花牛山银铅锌矿床是蓟县纪末期强烈拉张构造环境下,与海底火山喷溢活动相伴随的热液活动的产物。它与北山红山铁矿和东天山彩霞山,北祁连山西段石硐沟,华北地块西北缘东升庙、炭窑口、霍各乞等层控铅锌多金属矿床具可对比性,蓟县纪末期是北山地区一个重要的成矿时期。  相似文献   

17.
华北地台北缘西段主要成矿系统分析   总被引:12,自引:0,他引:12       下载免费PDF全文
肖荣阁  彭润民 《地球科学》2000,25(4):362-368
研究了华北地台北缘地质演化、构造分区, 从南到北依次为乌拉山-色尔腾山-大青山陆内隆起区、东升庙-渣尔泰山陆内裂陷区、狼山-石哈河陆缘隆起区、霍各乞-白云鄂博陆缘裂陷区、白乃庙-白银都西隆起裂陷带、温都尔庙-爱力格庙裂陷带、苏左旗-锡林浩特槽内隆起区.分析了陆缘基底建造和裂谷沉积建造, 划分出裂谷裂陷期和沉降期沉积.研究了成矿系统, 以成矿物质来源的同一性和继承性划分出3个成矿系统: (1) 变质岩金矿成矿系统, 以绿岩建造为物源基础, 有多种矿床类型组合, 主要产于古陆隆起带的变质岩区. (2) 海相火山细碧岩及喷流沉积成矿系统, 主要产于裂谷裂陷期形成的火山岩建造中, 与火山活动岩浆同期的热水喷流有关, 有铜、铅、锌多金属矿床. (3) 碱性-碳酸岩及喷流叠生成矿系统, 产于白云鄂博裂谷早期碱性-碳酸岩火山岩中, 其中伴随高温硅钾热水喷流沉积, 形成稀有-稀土-铁叠生矿床.主、东矿床新生代以来经受了强烈风化剥蚀, 并有冲积富集现象.   相似文献   

18.
The Huogeqi orefield located on the northern side of Mt. Langshan, Inner Mongolia occurs in the Middle Proterozoic Langshan Group metamorphic rocks, and the orebodies arc stratiform. In the past twenty years, many Chinese geologists have conducted researches on the Huogeqi Cu-Pb-Zn deposit, but there has been still a controversy on its origin. Some advocate that the deposit is of sedimentary-metamorphic rcworking origin, some hold that it is of sea-floor SEDEX origin, and others have a preference for magmatic superimposition origin. The crux of the controversy is that there is no common understanding about the source of ore-forming materials. In this paper, the Pb isotopic compositions of regional Achaean-Early Proterozoic basement rocks, various types of sedimentary- metamorphic rocks and volcanic rocks in the mining district, Late Proterozoic and Hercynian magmatic rocks arc introduced and compared with the orc-lead composition, so as to constrain the source of the ore lead. The result indicates that (1) sulfides in the ores have homogeneous Pb isotopic compositions, showing a narrow variation range. Their ^206pb/^204pb ratios arc within a range of 17.027- 17.317; ^207Pb/^204pb ratios, 15.451-15.786 and ^208Pb/^204pb ratios, 36.747-37.669; (2) the Pb isotopic compositions of the regional Achaean-Early Proterozoic basement rocks arc characteristic of the old Pb isotopic composition at the early-stage evolution of the Earth, which varies over a wider range, reflecting significant differences in Pb isotopic compositions of the ores. All this indicates that the source of ore lead has no bearing on the basement rocks; (3) the sedimentary-metamorphic rocks in the mining district arc characterized by highly variable and more radiogenic Pb isotopic compositions and their Pb isotopic ratios arc obviously higher than those of ores, demonstrating that ore lead did not result from metamorphic rcworking of these rocks; (4) Pb isotopic compositions of Late Proterozoic diorite-gabbro and Hercynian granite are higher than those of ores. Meanwhile, the Pb isotopic compositions of sulfides in the small-sized strata-penetrating mineralized veinlets formed at later stages arc completely consistent with that of sulfides in stratiform-banded ores, suggesting that these veiniets arc the product of autochthonous rcworking of the stratiform-banded ores during the period of metamorphism and the late magmatic superimposition-mineralization can be excluded; (5) amphibolite, whose protolith is basic volcanic rocks, has the same Pb isotopic compositions as ores, implying that ore lead was derived probably from basic volcanism. So, the source of ore-forming materials for the Huogeqi deposit is like that of the volcanic massive sulfide (VMS) deposits. However, the orebodies do not occur directly within the volcanic rocks, and instead they overlie the volcanic rocks, showing some differences from those typical VMS-type deposits.  相似文献   

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