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1.
Geologic, fluid inclusion and isotopic characteristics of the Jinding Zn–Pb deposit, western Yunnan, South China: A review 总被引:1,自引:1,他引:0
Chunji Xue Rong Zeng Shuwen Liu Guoxiang Chi Hairuo Qing Yuchuan Chen Jianmin Yang Denghong Wang 《Ore Geology Reviews》2007,31(1-4):337-359
With a reserve of 200 Mt ore grading 6.08% Zn and 1.29% Pb (i.e., a metal reserve of 15 Mt) hosted in Cretaceous and Tertiary terrestrial rocks, the Jinding deposit is the largest Zn–Pb deposit in China, and also the youngest sediment-hosted super giant Zn–Pb deposit in the world. The deposit mainly occurs in the Jinding dome structure as tabular orebodies within breccia-bearing sandstones of the Palaeocene Yunlong Formation (autochthonous) and in the overlying sandstones of the Early Cretaceous Jingxing Formation (allochthonous). The deposit is not stratiform and no exhalative sedimentary rocks have been observed. The occurrence of the orebodies, presence of hangingwall alteration, and replacement and open-space filling textures all indicate an epigenetic origin. Formation of the Jinding Zn–Pb deposit is related to a period of major continental crust movement during the collision of the Indian and Eurasian Plates. The westward thrusts and dome structure were successively developed in the Palaeocene sedimentary rocks in the ore district, and Zn–Pb mineralisation appears to have taken place in the early stage of the doming processes.The study of fluid inclusions in sphalerite and associated gangue minerals (quartz, celestine, calcite and gypsum) shows that homogenisation temperatures ranged from 54 to 309 °C and cluster around 110 to 150 °C, with salinities of 1.6 to 18.0 wt.% NaCl equiv. Inert gas isotope studies from inclusions in ore- and gangue-minerals reveal 2.0 to 15.6% mantle He, 53% mantle Ne and a considerable amount of mantle Xe in the ore-forming fluids. The Pb-isotope composition of ores shows that the metal is mainly of mantle origin, mixed with a lesser amount of crustal lead. The widely variable and negative δ34S values of Jinding sulphides suggest that thermo-chemical or bacterial sulphate reduction produced reduced sulphur for deposition of the Zn–Pb sulphides. The mixing of a mantle-sourced fluid enriched in metals and CO2 with reduced sulphide-bearing saline formation water in a structural–lithologic trap may have been the key mechanism for the formation of the Jinding deposit.The Jinding deposit differs from known major types of sediment-hosted Zn–Pb deposits in the world, including sandstone-type (SST), Mississippi Valley type (MVT) and sedimentary-exhalative (SEDEX). Although the fine-grained ore texture and high Zn/Pb ratios are similar to those in SEDEX deposits, the Jinding deposit lacks any exhalative sedimentary rocks. Like MVT deposits, Jinding is characterised by simple mineralogy, epigenetic features and involvement of basinal brines in mineralisation, but its host rocks are mainly sandstones and breccia-bearing sandstones. The Jinding deposit is also different from SST deposits with its high Zn/Pb ratios, among other characteristics. Most importantly, the Jinding deposit was formed in an intracontinental terrestrial basin with an active tectonic history in relation to plate collision, and mantle-sourced fluids and metals played a major role in ore formation, which is not the case for SEDEX, MVT, and SST. We propose that Jinding represents a new type of sediment-hosted Zn–Pb deposit, named the ‘Jinding type’. 相似文献
2.
“Magmato-Hydrothermal Space” is a new mathematical construct where 24 ore and pathfinder elements are used to quantify ore-element signatures. Quantification allows relationships between ore deposit samples to be mapped. The broad-scale view of Magmato-Hydrothermal Space reveals three important trends: (1) Zn-Pb sediment-hosted mineralisation to igneous-associated Cu-Au mineralisation, (2) Cu-Au mineralisation to Au-only mineralisation, and (3) ultramafic associated magmatic Ni-Cu-PGE mineralisation through Cu-Au mineralisation to granitoid-associated Mo, W and Sn mineralisation. The view provided by Magmato-Hydrothermal Space reveals that there is a spectrum of ore element signatures that mirrors the spectrum of ore deposit classes described in the literature.Geochemical variations within individual ore deposit classes are examined for orogenic-Au, VHMS, epithermal and sediment-hosted Cu samples. Sub-groups within each of these classes are compared on element enrichment diagrams and described in the context of Magmato-Hydrothermal Space. Orogenic Au samples are divided into two sub-groups of As-Sb rich mineralisation and four sub-groups of relatively As-Sb poor mineralisation. The As-Sb poor sub-groups include a Te-Cu-Ag rich sub-group that overlaps with the porphyry Cu class and a Te-W-(Bi-Mo) rich class dominated by granitoid hosted deposits. The VHMS class ranges from a Cu-rich sub-group that overlaps with porphyry Cu and IOCG classes through a Cu-Zn sub-group to two Zn-Cu sub-groups, one of which overlaps with the SHMS class. The epithermal class is divided into Zn-rich, Cu-rich and base metal – poor sub-groups. 相似文献
3.
Breithauptite (NiSb), a rare antimonide, is generally found associated with hydrothermal vein ores of Ni and Co. In India,
it has so far been recorded only from the gold-quartz veins of the Kolar Gold Field. Occurrence of this antimonide in a sediment-hosted
milieu however, has seldom been noted. We report here the identification and characterization of this rare phase in both the
stratiform and the vein-type ores of the sediment-hosted Zn-Pb sulphide deposits and prospects within the Dariba-Rajpura-Bethumni
metallogenic belt in Northwestern India. Metamorphic remobilization from the stratiform ores of the belt has been postulated
as a possible mechanism for the conspicuous segregation of breithauptite as a discrete phase within these ores. 相似文献
4.
位处华北板块北缘东段的辽吉裂谷带内发育有多处中、小型铅锌矿床,其中,同时发育层状和脉状铅锌矿的青城子矿床是典型的代表。为了探讨青城子层状铅锌矿和脉状铅锌矿矿质来源及成因的异同及其所代表的地质意义,利用ICP-MS对层状铅锌矿及其围岩、脉状铅锌矿及其围岩和后期穿矿脉岩进行了稀土元素测试。结果表明,所有样品均具有轻稀土元素(LREE)富集和明显分异的特点。层状铅锌矿及其围岩具有Eu正异常和较弱的Ce负异常,表明其成矿物质均来自上升的深部热水流体与海水的混合热液,在高温、还原流体和海水的参与下成矿。脉状铅锌矿及其围岩稀土元素配分模式与层状铅锌矿及其围岩相似,但其Eu为负异常和Ce异常不明显,部分样品出现较弱的Ce正异常,对比分析穿矿脉岩明显的Eu负异常和Ce正异常以及二者稀土元素总量稍大于层状铅锌矿的特点,文章认为青城子层状矿石为沉积成矿,成矿热液为深部热水流体与海水的混合热液,但后期受到岩浆侵入叠加改造的影响而在局部形成脉状铅锌矿体,引起了Eu负异常和局部Ce正异常的出现以及稀土元素总量的增加。 相似文献
5.
青海沱沱河多才玛特大型Pb-Zn矿床——定位预测方法与找矿突破过程 总被引:6,自引:0,他引:6
青海南部沱沱河地区的多才玛矿床是最近找矿突破发现的一个特大型铅锌矿床.由于赋矿规律不清,找矿方向不明,勘查曾一度陷入困境.针对制约找矿突破的关键地质问题,笔者开展了成矿潜力、矿床赋存规律、矿体定位预测研究,经钻探验证,实现了找矿突破.通过区域对比,认为沱沱河地区与“三江”带内兰坪等其他地区的地质背景相似,具有发育大型沉积岩容矿贱金属矿床的潜力;发现区域发育大型逆冲构造和含膏盐红层沉积、具有碳酸盐岩和暗色泥岩组合等,显示有利的成矿地质环境;区域和矿床内发育大规模高强度的铅锌化探异常,具有形成大型铅锌矿床的潜力.通过填图等研究,指出多才玛矿床为密西西比河谷型(MVT)矿床,产于逆冲推覆构造系统前锋带,矿体赋存于逆冲断裂上盘,受那益雄组碎屑岩和九十道班组灰岩岩相过渡部位及可能的逆冲推覆构造系统派生的反冲构造的控制,矿石主体为热液溶蚀角砾岩型.通过音频大地电磁测深测量,揭示了矿床深部物性特征和构造岩相特点,确定了孔莫陇矿段南侧深部铅锌矿化体的空间位置,并制定了钻探验证方案.经后期勘查,在预测区内探获了品位高、厚度大的铅锌矿体,使该矿段铅锌资源量由原来的76.2万吨增至259万吨,找矿取得重大突破.由此,通过综合分析,提出了一套综合地质、化探异常付化显示、地球物理、遥感等手段的多才玛式矿床定位预测方法组合. 相似文献
6.
安徽铜陵冬瓜山铜(金)矿床成矿模式 总被引:22,自引:11,他引:11
长江中、下游断裂坳陷带是我国重要的铜、金、铁、硫成矿带,存在一系列块状硫化物矿床及与其伴生的矽卡岩型和斑岩型矿床.本文以铜陵矿集区冬瓜山铜、金矿床为例,探讨了这类矿床的成矿模式.冬瓜山矿床主要由层状硫化物矿体组成,伴有矽卡岩型和斑岩型矿体.层状硫化物矿体产于晚泥盆世砂岩和晚石炭世碳酸盐岩之间,具明显的层控特征,矿体下盘发育细脉-网脉状硫化物矿化以及硅化和绢云母化,矿体中伴有热水沉积岩,矿石具典型的沉积构造.燕山期岩浆热液对层状矿体进行了叠加和改造,改变了矿石的结构构造和矿石成分.黄铜矿交代黄铁矿变斑晶呈环斑结构或脉状交代结构,交代磁黄铁矿呈交代假象结构或交代残留结构.矽卡岩型矿体中黄铜矿的δ65Cu值为0.09‰~0.83‰,集中在0.23‰~0.83‰.层状矿体中黄铜矿的δ65Cu值为0.45‰~0.78‰,与矽卡岩矿体中黄铜矿的65Cu值大致相当,这说明两类矿体中的铜具有相同的来源.铜、氢和氧同位素研究表明,冬瓜山矿床铜来自岩浆岩,叠加的成矿流体主要为岩浆流体.提出了冬瓜山矿床属喷流沉积-岩浆热液叠生成因的成矿模式:在晚石炭世,海底喷流成矿作用形成了块状硫化物矿床,矿石成分以硫、铁为主;燕山期岩浆热液一方面对块状硫化物矿床进行改造,致使其富集铜等成矿物质,另一方面与围岩相互作用形成矽卡岩型和斑岩型矿体. 相似文献
7.
20世纪90年代以来,四川地矿局207地质队及地方采矿业在扬子地台西缘大渡河谷沿岸,相继发现了黑区—雪区、红花、白熊沟、核桃坪、养善坪—中溪坪—宝水溪—双凤沟等层状铅锌矿床及矿点。其中,黑区—雪区矿床的矿体地表露头长达6000m,估算的铅锌资源量达370万吨,达到超大型矿床的规模。不同的矿床、矿点的分布构成了长度大于50km的铅锌矿化带,预测铅锌资源量有望达1000万吨以上。各矿床、矿点产于上震旦统—下寒武统灯影组顶部麦地坪段含磷硅质白云岩的相同层位,矿化与硅质岩及角砾状白云岩层关系密切。矿床中发育层状、纹层状、条带状、同沉积角砾状、层间揉皱等构造,沉积特征明显。矿床的地质、地球化学特征显著区别于区域上以往发现的产于地台盖层碳酸盐岩中具有明显后生成因特点的密西西比河谷型(MVT型)铅锌矿床,也有别于产于中元古界褶皱基底中的火山沉积块状硫化物型(VMS型)铅锌矿床。笔者的研究表明,与铅锌矿密切共生的硅质岩为典型的海底热水沉积产物,铅锌矿床属于海底喷流—沉积成因(SEDEX型);成矿作用受晚震旦世—早寒武世北东东向延伸的汉源—峨眉凹陷及同生断裂带的控制。该类层状铅锌矿床可能是扬子地台西缘铅锌矿聚区中最具找矿潜力的矿床类型。 相似文献
8.
国外铁氧化物铜-金矿床的特征及其研究现状 总被引:22,自引:0,他引:22
铁氧化物铜-金矿床是一类具许多共同特征但成因联系不太密切的矿床类型,近来已成为国外铜-金勘探的主要矿床类型之一。该类矿床以矿石中含有大量的铁氧化物(磁铁矿或赤铁矿)且伴有很强的区域性钠(-钙)质蚀变为特征,可以产于元古代克拉通内或新生代大陆边缘岛弧环境,其周围具火成岩或含蒸发盐层,时空上与之有关的侵入岩为磁铁矿系列花岗岩,矿化主要产于近区域主断裂的羽状次级断裂中。部分该类矿床的形成与一定的主岩类型有关,而多数矿床可能由高盐度 H2O-CO2-盐混合流体的不混溶作用形成,且矿化通常与钾化有关。对成矿流体是主要来自岩浆还是受围岩控制尚有争论,成矿模式有蒸发盐来源模式、外来流体加热模式和岩浆-热液流体模式。但对部分该类矿床详细的流体包裹体和稳定同位素研究表明成矿流体主要源于岩浆。对该类矿床进行地球物理勘探需要考虑磁铁矿、硫化物和Cu-Au矿化之间的相互关系。在我国开展对该类矿床的研究将有益于发现新的铜资源基地。 相似文献
9.
Lead and zinc keep humanity powered and sheltered, yet a comprehensive understanding of Pb-Zn resources in known mineral deposits has been lacking, leading to uncertainty over when we might expect the supply of these metals to face potential constraints. Addressing this, we compile an extensive database of the world's known Pb-Zn mineral deposits and provide in-depth analyses of their contained resources, ore-grades, economic value, by-products and geological settings. Our data indicate that at least 226.1 Mt Pb and 610.3 Mt Zn are present within 851 individual mineral deposits and mine waste projects from 67 countries (and one in international waters), at an average grade of 0.44 %Pb and 1.20 %Zn. The identified resources are dominantly present within sediment-hosted Pb-Zn deposits (490.6 Mt Pb + Zn + Cu), which contain the equivalent of VMS, Skarn, Porphyry, Epithermal and mixed sediment-hosted deposits combined, and 49% of these resources are reported in Australia, Russia, Peru and Canada alone. The reported Pb-Zn resources appear to be sufficient to meet global demand for both Pb and Zn until 2050, although this estimate is most certainly a minimum, as our case studies indicate a prevailing trend of deposits cumulatively producing well beyond their reported resources over time. Indeed, despite increasing historical production of Pb and Zn, estimated reserves and resources have also increased, and this is expected to continue.We also present an analysis and review of additional aspects affecting the future sustainability of Pb-Zn resources, including an account of the history of Pb-Zn mining, case studies and trends in reporting, classifications of the dominant Pb-Zn mineral deposit types, analysis of reported by-product companion metals, review of tailings resource potential and case studies on the numerous challenges in environmental management historically faced for Pb-Zn mining. These analyses, alongside our comprehensive resource data, indicate that the future supply of Pb and Zn is likely to be governed by prevailing economic, social and environmental factors, much more so than sheer resource constraints. 相似文献
10.
In SW Sardinia syngenetic to syndiagenetic Pb-Zn ores occur in Cambrian carbonates, along the unconformity between the Cambrian and Ordovician, in Permo-Triassic karsts and in vein-type deposits related to late Hercynian granites, which also contact-metamorphosed some Cambrian deposits. In all types of deposits the leadisotope ratios show similarly high (=238U/204Pb) and high W (=232Th/204Pb) values indicating a crustal origin for the lead. Most of the Cambrian ores contain isotopically similar or identical leads, whereas in the younger deposits the isotope ratios vary and suggest that especially the lead of Permo-Triassic ores may consist to a large extent of remobilized Cambrian, possibly also Ordovician, ore lead plus a Hercynian component.The lead of three feldspar samples from Hercynian granites of the area also shows high and W values. Two of them are similar to the ore leads from a vein-type deposit and from contact-metamorphosed deposits. The third sample from the Capo Pecora granite contains a very unradiogenic lead that closely resembles many of the presumed Cambrian-Hercynian mixtures. Therefore, the possibility cannot be dismissed that at the time the Permo-Triassic ores were formed lead sources other than the already existing ores were present with the appropriate isotopic compositions. 相似文献
11.
Genesis of sediment-hosted stratiform copper–cobalt deposits, central African Copperbelt 总被引:3,自引:0,他引:3
J.L.H. Cailteux A.B. Kampunzu C. Lerouge A.K. Kaputo J.P. Milesi 《Journal of African Earth Sciences》2005,42(1-5):134
The Neoproterozoic central African Copperbelt is one of the greatest sediment-hosted stratiform Cu–Co provinces in the world, totalling 140 Mt copper and 6 Mt cobalt and including several world-class deposits (10 Mt copper). The origin of Cu–Co mineralisation in this province remains speculative, with the debate centred around syngenetic–diagenetic and hydrothermal-diagenetic hypotheses.The regional distribution of metals indicates that most of the cobalt-rich copper deposits are hosted in dolomites and dolomitic shales forming allochthonous units exposed in Congo and known as Congolese facies of the Katangan sedimentary succession (average Co:Cu = 1:13). The highest Co:Cu ratio (up to 3:1) occurs in ore deposits located along the southern structural block of the Lufilian Arc. The predominantly siliciclastic Zambian facies, exposed in Zambia and in SE Congo, forms para-autochthonous sedimentary units hosting ore deposits characterized by lower a Co:Cu ratio (average 1:57). Transitional lithofacies in Zambia (e.g. Baluba, Mindola) and in Congo (e.g. Lubembe) indicate a gradual transition in the Katangan basin during the deposition of laterally correlative clastic and carbonate sedimentary rocks exposed in Zambia and in Congo, and are marked by Co:Cu ratios in the range 1:15.The main Cu–Co orebodies occur at the base of the Mines/Musoshi Subgroup, which is characterized by evaporitic intertidal–supratidal sedimentary rocks. All additional lenticular orebodies known in the upper part of the Mines/Musoshi Subgroup are hosted in similar sedimentary rocks, suggesting highly favourable conditions for the ore genesis in particular sedimentary environments. Pre-lithification sedimentary structures affecting disseminated sulphides indicate that metals were deposited before compaction and consolidation of the host sediment.The ore parageneses indicate several generations of sulphides marking syngenetic, early diagenetic and late diagenetic processes. Sulphur isotopic data on sulphides suggest the derivation of sulphur essentially from the bacterial reduction of seawater sulphates. The mineralizing brines were generated from sea water in sabkhas or hypersaline lagoons during the deposition of the host rocks. Changes of Eh–pH and salinity probably were critical for concentrating copper–cobalt and nickel mineralisation. Compressional tectonic and related metamorphic processes and supergene enrichment have played variable roles in the remobilisation and upgrading of the primary mineralisation.There is no evidence to support models assuming that metals originated from: (1) Katangan igneous rocks and related hydrothermal processes or; (2) leaching of red beds underlying the orebodies. The metal sources are pre-Katangan continental rocks, especially the Palaeoproterozoic low-grade porphyry copper deposits known in the Bangweulu block and subsidiary Cu–Co–Ni deposits/occurrences in the Archaean rocks of the Zimbabwe craton. These two sources contain low grade ore deposits portraying the peculiar metal association (Cu, Co, Ni, U, Cr, Au, Ag, PGE) recorded in the Katangan sediment-hosted ore deposits. Metals were transported into the basin dissolved in water.The stratiform deposits of Congo and Zambia display features indicating that syngenetic and early diagenetic processes controlled the formation of the Neoproterozoic Copperbelt of central Africa. 相似文献
12.
Summary A set of 354 sulphur isotope data from the Bleiberg deposit, the type deposit of Alpine low temperature carbonate hosted Pb–Zn deposits (APT deposits), is critically evaluated applying statistical methods. The sulphur isotope patterns vary significantly among the ore horizons. This suggests a long lasting and polyphase mineralisation system. The sulphur isotope composition of barite corresponds to that of Carnian seawater (i.e. 16 34S). The 34S values of the iron sulphides correspond to data from sedimentary iron sulphides. Pb and Zn sulphides are characterized by three normally distributed 34S populations with mean values of –6 to –8, –13 to –18, and –25 to –29. Heavy sulphur (>–10 34S) indicates contribution of sulphide sulphur from epigenetic-hydrothermal fluids, whereas light sulphide sulphur (<–21 34S) was produced by sulphur – reducing bacteria. The intermediate population is explained by mixing of sulphur derived from these two sources. Other sources of local importance, however, can not be excluded. The isotope populations correspond only partly to the paragenetic ore stages. The sulphur isotope patterns in the APT deposits are regionally different. Data from other low-temperature sediment-hosted Pb–Zn deposits support the proposed interpretation. A comparison demonstrates that the sulphur isotope patterns of APT deposits correspond to patterns of the Irish type deposits, but are different to those of Mississippi Valley type deposits.Supplementary material to this paper is available in electronic form at http://dx.doi.org/10.1007/s00710-004-0071-3 相似文献
13.
14.
通过对该矿床的分析研究,应用现代理论,提出该矿床为叠加改造矿床,对区内找矿具有指导意义。 相似文献
15.
The Turhal antimony sulfide ore deposits are hosted by a Permian-Jurassic sequence which consists of black phyllites at the base followed by interbedded phyllites and calcareous quartzites with metabasite interlayers and then by brown-gray phyllites with marble blocks. Four different styles and three distinct episodes of mineralization were distinguished according to deposition features of the ores and kinkbands in the stibnite crystals. Stibnite from stratiform, disseminated and vein occurrences as well as pyrite from black phyllites showed the following sulfur isotope composition (34S): +2.8 and +3.0 for stratiform stibnite (n = 2), +3.6 and +5.5 for disseminated stibnite (n = 2), +2.5 to +7.8 for vein stibnite (n = 11) and -6.1 to +0.1 for pyrite (n = 3). The 34S compositions of stibnite are interpreted as suggesting an ultimately single source for sulfur in the various styles of mineralization, i.e. synsedimentary volcanic exhalations for the stratiform and disseminated together with ores and hydrothermal mobilisation of these as well as leaching of volcanic rocks to form the vein ores. Deep basinal fluids probably under normal geothermal gradient conditions caused the leaching of the primary sulfides as suggested by the oxygen isotope composition of vein quartz associated with the ores. By contrast sulfur in pyrite is essentially a derivation of seawater sulfate through bacterial and/or chemical reduction. 相似文献
16.
Fareeduddin Susmita Gupta P. R. Golani I. R. Kirmani Suresh Chander Geological Survey of India 《Journal of the Geological Society of India》2010,76(3):215-243
Petrology and mineral chemistry of ten types of tourmalines from Pb-Zn bearing strata-bound exhalative deposits and Cu-Au-Fe
deposits, presumably of IOCG-type, from Rajasthan are presented. The Pb-Zn deposits studied include Agucha, Kayar and Dariba
areas in central Rajasthan, each of which is widely separated in space and occurs in isolated but coeval basins within the
Archaean basement. The Cu-Au deposits include Ghagri, Bada Talav, Dugocha and Bhukia areas in southeast Rajasthan. The syngenetic
Pb-Zn type and the epigenetic Cu-Au-Fe type of deposits are formed during the initial phase of Paleoproterozoic Aravalli Basin
evolution with dominant deposition of shelf facies pelite-carbonate sequence of Debari Group. The post-depositional tectono-metamorphic
history of the host rocks of Pb-Zn type and Cu-Au type deposits differ significantly with the former deposits showing higher
metamorphic impress (amphibolite to lower granulite facies) than the latter (green schist facies). 相似文献
17.
Syntectonic hydrothermal Pb-Zn vein systems of the Ramsbeck deposit, Germany, have been extensively overprinted by late-stage fluids responsible for fissure vein mineralisation. This has caused remobilisation of vein components, notably of sphalerite and galena, as well as the formation of various Sb sulphosalt minerals, including boulangerite, semseyite, tetrahedrite and bournonite. A detailed sulphur isotope study of sphalerite, galena and sulphosalts related to different stages of recrystallisation, remobilisation and reaction has been carried out using an insitu laser combustion technique. Primary sphalerite-galena ores from flat-lying thrust zones are characterised by homogeneous positive '34S values in the range +6.5 to +7.7. In contrast, recrystallised and remobilised sphalerite and galena from both overprinted thrust zones and extensional fissure veins show '34S values in the range -1.1 to +2.9 and -0.7 to +8.7 respectively. Sulphosalt minerals show a similar variation in their sulphur isotope compositions, which range between -1.7 and +7.7. Fissure vein hosted sphalerite and sulphosalts display significantly more negative '34S values than the primary Pb-Zn ores. Sphalerite which recrystallised in situ and boulangerite which formed by reactive replacement of primary galena show slightly more positive '34S values than fissure vein hosted minerals. The compositional range of remobilised mineral phases can be best explained by varying contributions (variable mixing) of sulphur derived from (1) the primary sphalerite-galena ores of the flat thrust systems, and (2) the hydrothermal fluid responsible for the fissure vein mineralisation. Equilibrium fractionation temperatures calculated for sphalerite-galena pairs contrast strongly with fluid inclusion data. Isotopic fractionation related to the remobilisation has to be interpreted in terms of kinetic processes. 相似文献
18.
19.
长江中下游地区是中国成矿理论的重要发源地之一,迄今已经完成大量研究,取得了一系列重要进展,前人已进行了多次总结。文章在此工作基础上,概括总结了最新的研究进展,并提出尚待解决的一些科学问题:该带成矿过程的深化研究和新测试、新技术的应用,有望破解层状铜金矿成因难题;越来越多单独或者伴生钨矿被发现,成矿显示多样性和多期次的特点。建立了该带矽卡岩型铜金矿+金稀散金属矿床组合新模型,有望推动在斑岩-矽卡岩型铜金矿外围发现贵金属和稀散金属矿床;研究发现该带含膏盐层在矽卡岩铁矿和玢岩铁矿的成矿过程中贡献明显;利用红外和矿物原位测试技术示踪该带深部矿化中心;通过三维找矿预测和成矿过程数值模拟,为隐伏矿找矿突破增添了新路径。最后,文章提出有待进一步研究的5个方面的科学问题,以期推动深化研究和找矿新突破。 相似文献
20.
The stratiform base-metal Biksizak and Amur deposits, Kolpakovsky and Andree-Yul??evsky group of ore occurrences localized in the Eastern province of the Southern Urals and the adjacent Central Urals are considered in this paper. Their geology, composition of ore, and orebody morphology are characterized. These objects and occurrences occupy different geological positions, being hosted in (1) Ordovician, Silurian, and Devonian limestones formed in an island-arc setting (Biksizak deposit, Kolpakovsky occurrence); (2) Middle and Upper Devonian flyschoid sequences at a distance from the active volcanic zone (Amur deposit); and (3) Riphean (?) platform cover (Andree-Yul??evsky group of occurrences). The objects considered differ in origin. The hydrothermal Pb-Zn ores of the Biksizak deposit and the Kolpakovsky occurrence are epigenetic with respect to the host rocks. They were formed in the Early Carboniferous and related to early collisional minor andesite and quartz diorite porphyry intrusions. The hydrothermal-sedimentary Amur massive sulfide Zn deposit of the Filizchai type was formed at the end of Middle Devonian. Zinc occurrences of the Andree-Yul??evsky group are probably products of regeneration of older stratiform lodes. 相似文献