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1.
Structural geometry of orogenic gold deposits: Implications for exploration of world-class and giant deposits 总被引:3,自引:0,他引:3
With very few exceptions, orogenic gold deposits formed in subduction-related tectonic settings in accretionary to collisional orogenic belts from Archean to Tertiary times. Their genesis, including metal and fluid source, fluid pathways, depositional mechanisms, and timing relative to regional structural and metamorphic events, continues to be controversial. However, there is now general agreement that these deposits formed from metamorphic fluids, either from metamorphism of intra-basinal rock sequences or de-volatilization of a subducted sediment wedge, during a change from a compressional to transpressional, less commonly transtensional, stress regime, prior to orogenic collapse. In the case of Archean and Paleoproterozoic deposits, the formation of orogenic gold deposits was one of the last events prior to cratonization. The late timing of orogenic gold deposits within the structural evolution of the host orogen implies that any earlier structures may be mineralized and that the current structural geometry of the gold deposits is equivalent to that at the time of their formation provided that there has been no significant post-gold orogenic overprint. Within the host volcano-sedimentary sequences at the province scale, world-class orogenic gold deposits are most commonly located in second-order structures adjacent to crustal scale faults and shear zones, representing the first-order ore-forming fluid pathways, and whose deep lithospheric connection is marked by lamprophyre intrusions which, however, have no direct genetic association with gold deposition. More specifically, the gold deposits are located adjacent to ~10°-25° district-scale jogs in these crustal-scale faults. These jogs are commonly the site of arrays of ~70° cross faults that accommodate the bending of the more rigid components, for example volcanic rocks and intrusive sills, of the host belts. Rotation of blocks between these accommodation faults causes failure of more competent units and/or reactivation and dilation of pre-existing structures, leading to deposit-scale focussing of ore-fluid and gold deposition.Anticlinal or antiformal fold hinges, particularly those of 'locked-up' folds with ~30° apical angles and overturned back limbs, represent sites of brittle-ductile rock failure and provide one of the more robust parameters for location of orogenic gold deposits.In orogenic belts with abundant pre-gold granitic intrusions, particularly Precambrian granitegreenstone terranes, the boundaries between the rigid granitic bodies and more ductile greenstone sequences are commonly sites of heterogeneous stress and inhomogeneous strain. Thus, contacts between granitic intrusions and volcano-sedimentary sequences are common sites of ore-fluid infiltration and gold deposition. For orogenic gold deposits at deeper crustal levels, ore-forming fluids are commonly focused along strain gradients between more compressional zones where volcano-sedimentary sequences are thinned and relatively more extensional zones where they are thickened. World-class orogenic gold deposits are commonly located in the deformed volcano-sedimentary sequences in such strain gradients adjacent to triple-point junctions defined by the granitic intrusions, or along the zones of assembly of micro-blocks on a regional scale. These repetitive province to district-scale geometrical patterns of structures within the orogenic belts are clearly critical parameters in geology-based exploration targeting for orogenic gold deposits. 相似文献
2.
大坪金矿是哀牢山造山型金矿的典型代表。矿床明显受到了红河—哀牢山断裂、小新街断裂以及小新街断裂的次级断裂的控制。研究断裂构造与矿体的空间分布特征以及新生代(58 Ma)以来研究区内发生的多次构造动力机制的转变对成矿的影响具有重要的理论价值和找矿意义。新生代以来,印度板块与欧亚板块发生汇聚碰撞,形成NW向的三级断裂构造系统;汇聚过程中,印度板块发生四次旋转方向的转变引发区内构造动力机制的四次转换,构造动力机制的转换与哀牢山造山带的大规模成矿作用具有重要关系,成矿物质主要来源于下地壳或上地幔,受壳—幔相互作用影响。红河—哀牢山断裂控制了区内造山型金矿的分布,小新街断裂是大坪金矿的导矿构造,次级断裂带构成了大坪金矿的容矿构造,断裂带中构造应力引张部位为金矿的矿化富集带。研究成果为大坪金矿成矿机制研究和深部找矿预测提供了重要的依据,对区内其他造山型金矿的研究也具有重要的参考意义。 相似文献
3.
江南造山带位于组成华南大陆的扬子地块和华夏地块之间,是揭示华南陆块演化及其动力学过程、探索该地区大规模岩浆多金属成矿作用的关键窗口。前人在构造学、岩石学和矿床学等方面取得了诸多进展,但仍对江南造山带的深部结构认识不明,导致对其定义、边界范围、形成时代及演化过程等方面长期存在争议,故亟需开展综合地球物理探测工作,为解决上述争议问题提供约束。鉴于后期构造运动对上地壳大幅改造的影响,致使对于江南造山带的深部边界存在不同认识,本文以重力数据和航磁数据为主、辅以大地电磁测深结果、并与水系沉积物地球化学资料相结合,厘定江南造山带的深部边界。综合重磁多尺度边缘检测、深部电性结构及75种元素水系沉积物地球化学数据聚类分析结果,推测钦杭结合带可能为江南造山带东南侧深部边界,并推断了江南造山带北部可能的深部边界和周缘的断裂构造。基于上述结果和认识,分析了区域构造对金、铜矿床的控制作用,认为江南造山带深部边界及深部断裂扮演了成矿系统中“导矿通道”的角色,从深大断裂形成之初就提供了铜、金等幔源成分为主的矿物质,在合适位置就位成矿;后期复杂的构造运动,使得局部位置再次活化,成矿物质重新富集迁移,在次级断裂等有利... 相似文献
4.
《地学前缘(英文版)》2020,11(3):719-738
Concept-based orogenic gold exploration requires a scale-integrated approach using a robust mineral system model.Most genetic hypotheses for orogenic gold deposits that involve near-surface or magmatic-hydrothermal fluids are now negated in terms of a global mineral system model.Plausible models involve metamorphic fluids,but the fluid source has been equivocal.Crustal metamorphic-fluid models are most widely-accepted but there are serious problems for Archean deposits,and numerous Chinese provinces,including Jiaodong,where the only feasible fluid source is sub-crustal.If all orogenic gold deposits define a coherent mineral system,there are only two realistic sources of fluid and gold,based on their syn-mineralization geodynamic settings.These are from devolatilization of a subducted oceanic slab with its overlying gold-bearing sulfide-rich sedimentary package,or release from mantle lithosphere that was metasomatized and fertilized during a subduction event,particularly adjacent to craton margins.In this model,CO_2 is generated during decarbonation and S and ore-related elements released from transformation of pyrite to pyrrhotite at about 500 ℃.This orogenic gold mineral system can be applied to conceptual exploration by first identifying the required settings at geodynamic to deposit scales.Within these settings,it is then possible to define the critical gold mineralization processes in the system:fertility,architecture,and preservation.The geological parameters that define these processes,and the geological,geophysical and geochemical proxies and responses for these critical parameters can then be identified.At the geodynamic to province scales,critical processes include a tectonic thermal engine and deep,effective,fluid plumbing system driven by seismic swarms up lithosphere-scale faults in an oblique-slip regime during uplift late in the orogenic cycle of a convergent margin.At the district to deposit scale,the important processes are fluid focussing into regions of complex structural geometry adjacent to crustal-scale plumbing systems,with gold deposition in trap sites involving complex conjugations of competent and/or reactive rock sequences and structural or lithological fluid caps.Critical indirect responses to defined parameters change from those generated by geophysics to those generated by geochemistry with reduction in scale of the mineral system-driven conceptual exploration. 相似文献
5.
The dilemma of the Jiaodong gold deposits: Are they unique? 总被引:2,自引:0,他引:2
The ca. 126e120 Ma Au deposits of the Jiaodong Peninsula, eastern China, define the country's largest gold province with an overall endowment estimated as>3000 t Au. The vein and disseminated ores are hosted by NE-to NNE-trending brittle normal faults that parallel the margins of ca. 165e150 Ma, deeply emplaced, lower crustal melt granites. The deposits are sited along the faults for many tens of kilometers and the larger orebodies are associated with dilatational jogs. Country rocks to the granites are Pre-cambrian high-grade metamorphic rocks located on both sides of a Triassic suture between the North and South China blocks. During early Mesozoic convergent deformation, the ore-hosting structures developed as ductile thrust faults that were subsequently reactivated during Early Cretaceous "Yan-shanian"intracontinental extensional deformation and associated gold formation. 〈br〉 Classification of the gold deposits remains problematic. Many features resemble those typical of orogenic Au including the linear structural distribution of the deposits, mineralization style, ore and alteration assemblages, and ore fluid chemistry. However, Phanerozoic orogenic Au deposits are formed by prograde metamorphism of accreted oceanic rocks in Cordilleran-style orogens. The Jiaodong de-posits, in contrast, formed within two Precambrian blocks approximately 2 billion years after devolati-lization of the country rocks, and thus require a model that involves alternative fluid and metal sources for the ores. A widespread suite of ca. 130e123 Ma granodiorites overlaps temporally with the ores, but shows a poor spatial association with the deposits. Furthermore, the deposit distribution and mineral-ization style is atypical of ores formed from nearby magmas. The ore concentration requires fluid focusing during some type of sub-crustal thermal event, which could be broadly related to a combination of coeval lithospheric thinning, asthenospheric upwelling, paleo-Pacific plate subduction, and seismicity along the continental-scale Tan-Lu fault. Possible ore genesis scenarios include those where ore fluids were produced directly by the metamorphism of oceanic lithosphere and overlying sediment on the subducting paleo-Pacific slab, or by devolatilization of an enriched mantle wedge above the slab. Both the sulfur and gold could be sourced from either the oceanic sediments or the serpentinized mantle. A better understanding of the architecture of the paleo-Pacific slab during Early Cretaceous below the eastern margin of China is essential to determination of the validity of possible models. 相似文献
6.
柴北缘—东昆仑地区造山型金矿床的三级控矿构造系统 总被引:5,自引:1,他引:5
不同等级体制的构造分别控制了柴北缘—东昆仑地区造山型金矿的区域、矿化集中区以及矿床和矿体的分布和产出。在一个次级大地构造单元或成矿带内,造山型金矿大多产于构造边界和/或深大断裂旁侧(即造山带构造边界和/或深大断裂是柴北缘—东昆仑地区造山型金矿的第一级控制构造)。发育在上述深断裂旁侧的大型剪切带,控制了矿化集中区或矿田范围内金化探异常和造山型金矿床的分布和产出,是柴北缘—东昆仑地区造山型金矿的第二级控制构造。上述大型剪切带派生的褶皱和断裂系统,是造山型金矿床的第三级控矿构造,它们控制了矿体的分布和产出,滩间山、大场金矿床是褶皱控矿的良好例证,而五龙沟金矿床则是与剪切带伴生的断裂-裂隙系统控矿的典型实例。相比之下,受控于褶皱的金矿床中矿体规模较大、空间上变化较小。上述造山带构造边界和/或深大断裂、大型剪切带和大型剪切带派生的褶皱和断裂系统主要是区域加里东和晚华力西—印支碰撞造山作用的产物,它们具有大致相同或互相联系的几何学、运动学和年代学特征,后者通常是前者的派生、低序次构造。因此,这3个不同级别的构造,构成了柴北缘—东昆仑地区造山型金矿床的控矿构造系统。 相似文献
7.
苏里南金矿主要位于圭亚那地盾古元古代花岗岩-绿岩带上,沿大型剪切带或断层带分布。通过实地调查、综合研究及结合前人资料的基础上初步认为当地主要有冲洪积型、残坡积型、剪切带(造山)型金矿等类型。剪切带型金矿与剪切构造活动同期或晚于构造变形期,与泛亚马逊造山期后钙碱性火山作用和深成侵入作用同期。根据罗斯贝尔金矿等典型矿床研究,苏里南金矿与圭亚那地盾其它造山型金矿成矿时代相近(2.023~1.955Ga),泛亚马逊主期的构造对金矿起到了导矿和容矿作用,同时提出苏里南金矿的主要找矿方向。 相似文献
8.
礼县庙山金矿位于西秦岭造山带岷(县)—礼(县)金成矿带,区内岩浆活动频繁,热液蚀变强烈,容矿、导矿构造发育。本文通过野外观察和室内整理勘查区内的地质特征,认为庙山金矿赋存于中石炭统碎屑岩建造中,岩浆热源和含矿热液沿断裂、裂隙运动,在有利部位富集成矿,该金矿具有中低温热液型矿床特征。勘查区出露的中石炭统第一岩性段内的粉砂质板岩、变石英砂岩是找金的有利岩相、岩性标志;NE向断层破碎带以及断裂旁侧与其平行、分枝的次级断裂的膨大部位、断裂交汇部位是金的储矿空间;金属硫化物细脉、褐铁矿化、辰砂化、硅化和褪色蚀变标志明显;花岗斑岩脉和煌斑岩脉与金矿体常相伴出现。近年来持续勘查取得显著成果,主矿体深部延伸稳定,矿床规模扩大,总结庙山金矿床地质特征及找矿标志,对于西秦岭地区岷(县)—礼(县)金成矿带具有借鉴意义。 相似文献
9.
《地学前缘(英文版)》2016,7(3)
It is quite evident that it is not anomalous metal transport,nor unique depositional conditions,nor any single factor at the deposit scale,that dictates whether a mineral deposit becomes a giant or not.A hierarchical approach thus is required to progressively examine controlling parameters at successively decreasing scales in the total mineral system to understand the location of giant gold deposits in non-arc environments.For giant orogenic,intrusion-related gold systems(IRGS) and Carlin-type gold deposits and iron oxide-copper-gold(IOCG) deposits,there are common factors among all of these at the lithospheric to crustal scale.All are sited in giant gold provinces controlled by complex fundamental fault or shear zones that follow craton margins or,in the case of most Phanerozoic orogenic giants,define the primary suture zones between tectonic terranes.Giant provinces of IRGS,IOCG,and Carlin-type deposits require melting of metasomatized lithosphere beneath craton margins with ascent of hybrid lamprophyric to granitic magmas and associated heat flux to generate the giant province.The IRGS and IOCG deposits require direct exsolution of volatile-rich magmatic-hydrothermal fluids,whereas the association of such melts with Carlin-type ores is more indirect and enigmatic.Giant orogenic gold provinces show no direct relationship to such magmatism.forming from metamorphic fluids,but show an indirect relationship to lamprophyres that reflect the mantle connectivity of controlling first-order structures.In contrast to their province scale similarities,the different giant gold deposit styles show contrasting critical controls at the district to deposit scale.For orogenic gold deposits,the giants appear to have formed by conjunction of a greater number of parameters to those that control smaller deposits,with resultant geometrical and lithostratigraphic complexity as a guide to their location.There are few giant IRGS due to their inferior fluid-flux systems relative to orogenic gold deposits,and those few giants are essentially preservational exceptions.Many Carlin-type deposits are giants due to the exceptional conjunction of both structural and lithological parameters that caused reactive and permeable rocks,enriched in syngenetic gold,to be located below an impermeable cap along antiformal "trends".Hydrocarbons probably played an important role in concentrating metal.The supergiant Post-Betze deposit has additional ore zones in strain heterogeneities surrounding the pre-gold Goldstrike stock.All unequivocal IOCG deposits are giant or near-giant deposits in terms of gold-equivalent resources,partly due to economic factors for this relatively poorly understood,low Cu-Au grade deposit type.The supergiant Olympic Dam deposit,the most shallowly formed deposit among the larger IOCGs,probably owes its origin to eruption of volatile-rich hybrid magma at surface,with formation of a large maar and intense and widespread brecciation,alteration and Cu-Au-U deposition in a huge rock volume. 相似文献
10.
金山金矿床是中国西天山地区一个大型浅成低温热液型金矿,矿体产出主要受各种断裂构造控制。在多年勘探工作的基础上,通过野外填图和大量的勘探线剖面分析,笔者总结出断裂构造活动经历了成矿前、热液成矿期和成矿后3期。断裂控矿基本规律是:北西向断裂总体控制矿床的分布位置,南北向断裂晚期活动造成叠加富集成矿,北东向断裂早期伴随中酸性岩脉活动,成矿后活动造成矿体断开和升降,东西向-北西西断裂早期伴随火山喷发活动,成矿后活动切断南北向矿体。同时还总结了矿区的找矿评价标志。 相似文献
11.
秦岭造山带柞水-山阳矿集区夏家店金矿床成矿时代及其地质意义 总被引:1,自引:1,他引:0
柞水-山阳矿集区位于秦岭造山带中部,区内矿产资源丰富,金矿找矿近年来不断取得突破,发现了多个大-中型金矿床,然而区内金矿成矿时代、成矿地质背景一直存在争议,直接制约矿集区金矿床找矿工作。夏家店金矿床是该区大型金矿床,矿体受断裂构造控制,金矿石类型有角砾岩型、碎裂岩型、糜棱岩型3种。围岩蚀变强烈,主要由硅化、方解石化、绢云母化、高岭土化、萤石化、重晶石化等,与金成矿关系最密切的是硅化、方解石化、萤石化。热液成矿期可划分为石英阶段、石英-方解石-萤石-硫化物阶段、方解石阶段。文章选取夏家店金矿床主成矿期的方解石、萤石等矿物进行了Sm-Nd同位素测试工作,获得等时线年龄为(139.64±0.98)Ma,表明成矿时代为晚侏罗世。结合区域构造-岩浆成矿作用特征,认为夏家店金矿床成矿作用与晚侏罗世—早白垩世构造-岩浆事件有关。据此将柞水山阳矿集区金矿床成矿年龄厘定在140Ma左右,为秦岭造山带伸展的地球动力背景下构造-岩浆热液演化的产物。通过与区内晚侏罗世—早白垩世构造-岩浆成矿事件对比,文章首次提出柞水-山阳矿集区存在140 Ma左右的金矿床成矿事件,为下一步在柞水-山阳矿集区开展金矿床勘查工作提供了重要依据。 相似文献
12.
牛毛泉东金矿位于北祁连造山带与阿尔金断裂的结合部位,该地区被誉为西北的"金三角"。牛毛泉东金矿为该地区近年来新发现的受脆韧性剪切带控制的金矿床,金矿体产于阴沟群安山质凝灰岩、安山质凝灰熔岩中的近东西向脆韧性剪切蚀变带,矿化受构造控制显著,成矿具有多阶段性,金主要形成于硫化物-石英-金矿化阶段。矿脉两侧热液蚀变强烈,与成矿有关的蚀变主要为硅化。通过石英流体包裹体测得金矿石中流体包裹体的均一温度112~191℃;成矿流体盐度0.35%~7.86%,平均4.77%;密度为0.92~0.96 g/cm^3,平均0.95 g/cm^3,显示成矿流体具有浅层低温热液特征。对黄铁绢英岩型矿石中绢云母40Ar-39Ar测年获得坪年龄为(296.7±2.8) Ma,对应于北祁连陆内伸展拉张构造演化过程。矿床的地质特征及成矿时代与邻近的寒山金矿类似,并受同一条韧性脆性断裂构造带控制,均为低硫浅成低温热液型金矿,主成矿时代为华力西晚期。牛毛泉东金矿的发现及成因研究对指导区域找矿方向具有重要的意义。 相似文献
13.
Discovered and undiscovered gold endowment of Turkey: a quantitative mineral resource assessment using GIS and rank statistical analysis 总被引:1,自引:0,他引:1
An assessment of the discovered and undiscovered gold endowment of Turkey, a prolific sector in the Tethyan Metallogenic Belt, is developed from a comprehensive Geographic Information System database containing 402 gold deposits and prospects. The majority of the gold deposits and prospects are epithermal, porphyry, volcanic-associated massive sulfides, orogenic gold, and skarn systems. These five major deposit types form more than 90% of the known gold deposits and prospects. Just 87, corresponding to 21.6%, of the deposits and prospects in the data set have current calculated gold reserve and/or resources, containing a total of 54.885 Moz Au. Current gold reserves of the country are 21.447 Moz constituting 39.1% of the total gold resources, of which 17.1 Moz gold are contained in four deposits. Out of these 87 deposits and prospects, only 27 contain significant gold reserve and/or resources (defined as equal to or more than 0.32 Moz or 10 tons Au), and contain 91.8% of the total gold endowment of the country. The cumulative frequency distribution model of the gold endowment of Turkey abides by log-normal distribution. Observed and estimated 10th, 50th (median), and 90th percentiles of the data are 0.0046 Moz [0.0045 Moz estimated], 0.1030 Moz [0.0875 Moz], and 1.4969 Moz [1.6938 Moz], respectively. The 99th percentile of the data is 7.6444 Moz [18.9636 Moz]. The arithmetic mean of the known gold endowment is 0.657 Moz and the Swanson mean size is 0.492 Moz. The arithmetic mean of the 27 significant gold deposit or prospects is 1.94 Moz. Zipf’s law estimates of the undiscovered (residual) gold resources of Turkey are based on the current size of the largest, rank 1, gold deposit of Turkey, which is the Kisladag porphyry deposit that has 17.481 Moz gold endowment (including past production). Zipf’s law estimates a total of 88.261 Moz natural or total gold endowment, 57.133 Moz or 65% of which has already been found. This predicts at least 31.128 Moz residual or undiscovered gold resources to be found in Turkey, though the lack of full delineation of the rank 1 deposit, Kisladag, means that this figure is very conservative. 相似文献
14.
滇西大坪金矿床地质特征及成因初探 总被引:19,自引:18,他引:1
大坪金矿床被视为哀牢山造山带南段最典型的造山型金矿,但其诸多地质特征明显不同于国外典型造山型金矿床,而呈现出与浅成低温热液型金矿床的一致性.区域上,脉型金铜铅银矿床的产出与中酸性侵入岩及中基性火山岩密切相关.大坪金矿床形成于主要赋矿的桃家寨闪长岩侵位之后约800Ma的新生代构造-岩浆热事件中,金矿床是区域尺度伸展和转换拉伸应力体制的产物;成矿作用过程中,研究区构造动力体制发生了转换,主成矿期容矿断裂带显示为张剪性正断层性质.矿脉多(55条)、薄(0.2~0.8m)、长(200 ~ 1500m)、陡(56°~ 85°)、延深大(约700m),且近平行成带产出;矿体中Au品位高(超过10×10-6),Au/Ag低(o.1 ~o.5),且伴生Pb、Cu、Ag.矿石的充填型结构构造和矿物共生组合指示矿脉形成温度低、深度浅;矿化-蚀变样式以及蛋白石和氧化矿的出现表明成矿体系处于开放的氧化环境,成矿后保存良好.大坪金矿床这种特殊的地质特征可能与其复杂的区域构造背景及成矿演化过程密切相关,金矿床虽然具有造山型金矿的基本特征,但在成矿作用晚期,矿床浅部叠加了浅成低温热液型金铜铅银成矿作用.即大坪金矿床属于深部造山型+浅部低温热液型矿床套叠组合,成矿体系保存完整,现发现的均为浅部矿体,深部找矿潜力巨大. 相似文献
15.
哈维特金矿床位于阿拉伯-努比亚地盾Gabgaba地块,是苏丹东北部近年来新发现的一个金矿床。通过系统的野外地质调查和控矿构造研究,初步揭示了该矿床的地质特征及矿床类型,基本查明了矿区的构造特点及其含矿性,为矿区进一步勘查指明了方向。该矿区金矿(化)体呈脉状,严格受NW向脆-韧性剪切带控制,产于低绿片岩相的片理化带内,主要以含金硅化碳酸盐化黄铁矿化绢英岩或碎裂岩的形式产出。硅化、黄铁矿化、碳酸盐化和绢云母化与金成矿关系密切。就矿床成因类型而言,应属于造山型金矿床。综合分析矿区构造特征发现,矿区脆-韧性剪切带具左行特征,其内广泛发育NW、NE、NEE、NNW、NNE向断裂构造;NW向左行左列断裂、NE向右行左列断裂和NEE向右行断裂是本区最主要的含矿构造,而NNW、NNE向断裂多为成矿期后的断裂构造;矿区构造形成演化过程中,先后经历了挤压变形、后挤压和伸展作用三个阶段,金成矿作用主要形成于后挤压作用阶段。矿区今后勘查找矿工作应重点针对NW向、NE向断裂构造控制的金矿体展开。 相似文献
16.
Gold Headquarter of the CAPF has discovered the Yangshan super large-scale gold deposit in Gansu Province, which is a great breakthrough of gold exploration and prospecting in Western Qinling Mountains of China. The gold resources of this deposit achieved 308 tons with increasing potentials. Preliminary geological investigations indicate that the Yangshan gold deposit is located in the intra-continental collision orogenic belt; and the deposit was formed during the continent-continent collision orogenic processes. The geological characteristics of the deposit are similar to that of the typical Carlin-type gold deposits, while differences still exist. The ore-forming background is notably different from the Carlin gold deposit province in the United States; and the ore-forming fluids are similar with that of the orogenic-type gold deposit. Accordingly, the Yangshan gold deposit is a transitional type between the Carlin-type and the orogenic type gold deposits. At present, the Yangshan gold deposit is the largest Carlin and Carlin-like type gold deposit that is ever discovered in China. Researches on metallogeny, metallogenic model and ore-enrichment regularities of the Yangshan gold deposit are crucial to meet the pressing needs of the current geological investigation and ore exploration of the deposit. 相似文献
17.
【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。 相似文献
18.
The fact that mineral deposit attributes such as the size frequency of orogenic gold deposits in specific provinces exhibit power law distributions similar to forest fires, earthquakes, and fault size populations, is a compelling motivation to examine their genesis from a systems context. Based on well-studied Earth systems such as climate, the systems related to mineral deposits are likely to be complex and potentially include sensitive dependent components that vary simultaneously and in subtly interconnected ways.Although a “systems approach” was enunciated for mineral exploration by Fyfe and Kerrich as early as 1976, it is yet to be fully embraced by the geosciences community that commonly retain models dependent primarily on deposit-scale characteristics. Orogenic gold deposits are well studied and widely considered to represent a single class of deposit that has formed over much of Earth history in settings ranging from Archean granite-greenstone belts to Phanerozoic turbidite sequences. Accordingly, the deposit type is well suited for assessment within a systems context. If orogenic gold deposits do in fact represent a single class of deposits, then the simplest application of a systems approach highlights the fact that the nature of the host upper crustal succession cannot be a fundamental control, with specific granite suites and pyritic sediments not universal, or at least not essential, components of the system. Furthermore the scale of orogenic gold systems implicates processes capable of tapping sub-crustal source regions.Increasingly, advances in orogenic gold systems, and mineral systems in general, are linked to application of systems science that emphasize importance of system-driven criticality. Orogenic gold systems and other mineral systems are typically short in duration and linked in time and space to tectonic triggers. The latter promote a rapid release of energy (‘avalanches’) that overcome system thresholds and are strong indicators of complex systems that may show power-law behavior.Only a rigorous application of a systems approach can cut through the confusion that arises from conflicting models based on local deposit studies. Only a systems approach can evaluate the significance of rare or anomalous features in a small number of deposits. Truly predictive models for mineral exploration will ultimately be developed by workers who adhere to the systems approach. 相似文献
19.
20.
Structural features and metallogenesis of the Carlin-type Jinfeng (Lannigou) gold deposit, Guizhou Province, China 总被引:5,自引:0,他引:5
Chen Maohong Mao Jingwen Frank P. Bierlein Tony Norman Phillip J. Uttley 《Ore Geology Reviews》2011,43(1):217-234
Jinfeng, previously known as Lannigou, is the largest Carlin-type gold deposit in the Yunnan–Guizhou–Guangxi region in southwestern China. Gold mineralization in the Jinfeng deposit is almost entirely fault-hosted and structurally controlled, with very little disseminated ore occurring in the adjacent host rocks. The structural elements in the Jinfeng deposit can be subdivided into 3 groups comprising NS-, NW-, and NE-striking faults and folds, with NW-striking structures controlling the overall framework of the deposit. Four tectonic stages have been recorded in the Jinfeng area, i.e., rifting, orogenic compression, lateral transpression, and lithospheric extension. A series of contemporaneous normal faults, such as the N-striking and east-dipping F1 and F7 faults developed along the edges of a carbonate platform during basin rifting (D2–T2). These structures provided an initial framework for subsequent basin evolution, and also represent the principal hydrothermal conduits. A gradual change of the compression direction during the orogenic stage (T3) from E→W to NE→SW, gave rise to the NW-striking structures, including large, tight to overturned folds such as the Huangchanggou synclinorium and associated thrusts such as the F3 fault. The development of these orogenic, predominantly NE-dipping structures, as well as accompanying NE-striking dextral shear and transform faults (such as the F2 fault) along the margin of the Laizishan Dome established the structural pattern of the deposit area. The NW-striking folds were refolded by NE-striking superimposed folds during post-collisional lateral transpression (J1) and NW–SE directed compression. Oblique stress distribution gave rise to NS-trending compression and EW-trending extension, with dilational zones developing at the intersection of the F2 and the F3 faults east of the Laizishan dome. It is these dextral- and sinistral-normal dilational zones in which gold was precipitated during the main ore-forming event at Jinfeng. Following the main ore stage lithospheric extension occurred during the Yanshan stage (J2–K) resulting in minor reverse faults that in places cut pre-existing structures. The above four main structural deformation stages mirror the evolution of the Youjiang Basin from inception to basin inversion and post-orogenic collapse and renewed extension. Significant gold metallogenesis at Jinfeng occurred during the transition from collisional compression to extensional tectonics in the early Jurassic, and is focussed into intersections of F2 and F3 and fault splays adjacent to F3. This structurally controlled gold metallogenic model is likely to be applicable to analogous settings elsewhere in the Yunnan–Guizhou–Guangxi triangle area, and has implications for the targeting of Carlin-type gold mineralization in this region. 相似文献