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Geochemistry and mineralogy of platinum-group elements(PGE)in chromites from CentralnoyeⅠ,Polar Urals,Russia 被引量:2
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作者 Jan Paava Ilja Knésl +3 位作者 Anna Vymazalová Ivan Vavrín Ludmila Ivanovna Gurskaya Leonid Ruslanovich Kolbantsev 《Geoscience Frontiers》 SCIE CAS 2011年第1期81-85,共5页
The Polar Urals region of northern Russia is well known for large chromium (Cr)-bearing massifs with major chromite orebodies, including the Centralnoye I deposit in the Ray-Iz ultramafic massif of the Ural ophiolit... The Polar Urals region of northern Russia is well known for large chromium (Cr)-bearing massifs with major chromite orebodies, including the Centralnoye I deposit in the Ray-Iz ultramafic massif of the Ural ophiolite belt. New data on platinum (Pt)-group elements (PGE), geochemistry and mineralogy of the host dunite shows that the deposit has anomalous iridium (Ir) values. These values indicate the predominance of ruthenium--osmium--iridium (Ru--Os--Ir)-bearing phases among the platinum-group mineral (PGM) assemblage that is typical of mantle-hosted chromite ores. Low Pt values in chromites and increased Pt values in host dunites might reflect the presence of cumulus PGM grains. The most abundant PGM found in the chromite is erlichmanite (up to 15 μm). Less common are cuproiridsite (up to 5 μm), irarsite (up to 4--5 μm), and laurite (up to 4 μm). The predominant sulfide is heazlewoodite, in intergrowth with Ni--Fe alloys, sporadically with pentlandite, and rarely with pure nickel. Based on the average PGE values and esti- mated Cr-ore resources, the Centralnoye I deposit can be considered as an important resource of PGE. 展开更多
关键词 platinum-group elements platinum-group minerals CHROMITE OPHIOLITES Centralnoye I deposit Polar Urals
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ABUNDANCE AND DISTRIBUTION OF PLATINUM-GROUP ELEMENTS (PGE) IN PERIDOTITE FROM THE DAGZHUKA OPHIOLITE IN TIBET:IMPLICATIONS FOR MANTLE METASOMATISM
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作者 Xia Bing 1,2 ,Yu Hengxiang 1,Mei Houjun 1,Qi Lang 2 (1 Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, China 2 Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, China) 《地学前缘》 EI CAS CSCD 2000年第S1期99-100,共2页
Information on abundance and distribution of platinum\|group elements (PGE) in peridotite from ophiolite is relevant to understand the nature and evolution of the upper mantle. The ophiolite suite outcropping along th... Information on abundance and distribution of platinum\|group elements (PGE) in peridotite from ophiolite is relevant to understand the nature and evolution of the upper mantle. The ophiolite suite outcropping along the famous suture zone of Yarlung Zangbo River, Tibet, has attracted wide attention of geologists both in China and abroad. The Dagzhuka ophiolite of in the suture zone is thought to display a complete ophiolitic sequence. The peridotite from the Dazhuka ophiolite is composed of fairly fresh or unaltered lherzolite, harzburgite and minor dunite which are the upper mantle residuum formed by 15%~35% partial melting. In this paper we have mainly studied the abundance and distribution of PGE in the harzburgites and lherzolites. The harzburgites and lherzolites preserve total PGE contents of 28 37×10 -9 ~50 67×10 -9 respectively higher than Primitive mantle or the peridotite from some typical ophiolites and Alpine. They all have fractionated chondrite\|normalized PGE patterns with positive slopes from Ir to Pd (Fig.1), and Pd/Ir=1 13~2 40>1, Pd/Rh=2 23~7 49>1, and Pd/Pt=0 26~1 16 (average 0 67) higher than Primitive mantle (1 11, 2 35, 0 57) or CI\|chondrite (1 01, 2 73, 0 53). Consequently, the Dagzhuka peridotite are PGE\|enriched, but otherwise possess residual characteristics arising from a minimum of 15% partial melting. It is suggested that mantle residuum by partial melting have low total PGE contents, fractionated chondrite\|normalized PGE patterns with negative or slightly flat slopes from Ir to Pd, and Pd/Ir<1. But, the total PGE contents, chondrite\|normalized PGE patterns and Pt/Ir, Pd/Rh and Pd/Pt values of the Dagzhuka peridotite are completely inconsistent with a residual origin. Partial melting would have partitioned all sulfide in the source into the melt. In fact, no sulfide or silicate melt remained in the Dagzhuka peridotite. Therefore, PGE in Dagzhuka peridotite are not present in sulfides. The PGE\|enrichment and fractionation of the Dagzhuka peridotites seem to arise from mantle metasomatism of melts/fluid enrich incompatible elements include Pt and Pt, but not from residual or percolation of sulfides. The enrichment of Cs, Rb, Ba, Th, U and LREE in Dagzhuka peridotite also give a hint of the mantle metasomatism. The abundance and distribution of PGE in the peridotite from the Dagzhuka ophiolite show the nature and evolution of the Dagzhuka upper mantle are distinctive. 展开更多
关键词 platinum\|group elements(pge) PERIDOTITES Dazhuka ophioli te TIBET
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Geochemical characteristics of platinum-group elements in polymetallic nodules from the Northwest Pacific Ocean 被引量:2
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作者 Zhongrong Qiu Yanhui Dong +3 位作者 Weilin Ma Weiyan Zhang Kehong Yang Hongqiao Zhao 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2020年第8期34-42,共9页
Polymetallic nodules and cobalt (Co)-rich crusts are enriched in platinum-group elements (PGEs),especially platinum (Pt) and may be important sinks of PGEs.At present,little information is available on PGEs in polymet... Polymetallic nodules and cobalt (Co)-rich crusts are enriched in platinum-group elements (PGEs),especially platinum (Pt) and may be important sinks of PGEs.At present,little information is available on PGEs in polymetallic nodules,and their geochemical characteristics and the causes of PGEs enrichment are unclear.Here PGEs of polymetallic nodules from abyssal basin in the Marcus-Wake Seamount area of the Northwest Pacific Ocean are reported and compared with the published PGEs data of polymetallic nodules and Co-rich crusts in the Pacific.The total PGEs (ΣPGE) content of polymetallic nodules in study area is 258×10^–9) in average,markedly higher than that of Clarion-Clipperton Zone (CCZ) nodules (ΣPGE=127×10^–9) and lower than that of Co-rich crusts in the Marcus-Wake Seamount (ΣPGE=653×10^–9),similar to that of Co-rich crusts in the South China Sea(ΣPGE=252×10^~–9).The CI chondrite-normalized PGEs patterns in different regions of polymetallic nodules and cobalt-rich crusts are highly consistent,with all being characterized by positive Pt and negative Pd anomalies These results,together with those of previous studies,indicate that PGEs in polymetallic nodules and Co-rich crusts are mainly derived directly from seawater.Pt contents of polymetallic nodules from the study area are negatively correlated with water depth,and Pt/ΣPGE ratios in nodules there are also lower than those of the Corich crusts in the adjacent area,indicating that sedimentary water depth and oxygen fugacity of ambient seawater are the possible important controlling factors for Pt accumulation in crusts and nodules. 展开更多
关键词 platinum-group elements polymetallic nodules Co-rich crusts Marcus-Wake Seamount
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Platinum-Group Elements Geochemistry and Chromian Spinel Composition in Podiform Chromitites and Associated Peridotites from the Cheshmeh-Bid Deposit, Neyriz, Southern Iran: Implications for Geotectonic Setting 被引量:1
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作者 Batoul TAGHIPOUR Farhad AHMADNEJAD 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2018年第1期183-209,共27页
Dunite and serpentinized harzburgite in the Cheshmeh-Bid area, northwest of the Neyriz ophiolite in Iran, host podiform chromitite that occur as sehlieren-type, tabular and aligned massive lenses of various sizes. The... Dunite and serpentinized harzburgite in the Cheshmeh-Bid area, northwest of the Neyriz ophiolite in Iran, host podiform chromitite that occur as sehlieren-type, tabular and aligned massive lenses of various sizes. The most important chromitite ore textures in the Cheshmeh-Bid deposit are massive, nodular and disseminated. Massive chromitite, dunite, and harzburgite host rocks were analyzed for trace and platinum-group elements geochemistry. Chromian spinel in chromitite is characterized by high Cr#(0.72-0.78), high Mg#(0.62-0.68) and low TiO2 (0.12 wt%-0.2 wt%) content. These data are similar to those of chromitites deposited from high degrees of mantle partial melting. The Cr# of chromian spinel ranges from 0.73 to 0.8 in dunite, similar to the high-Cr chromitite, whereas it ranges from 0.56 to 0.65 in harzburgite. The calculated melt composition of the high-Cr chromitites of the Cheshmeh-Bid is 11.53 wt%-12.94 wt% A1203, 0.21 wt%-0.33 wt% TiO2 with FeO/MgO ratios of 0.69-0.97, which are interpreted as more refractory melts akin to boninitic compositions. The total PGE content of the Cheshmeh-Bid chromitite, dunite and harzburgite are very low (average of 220.4, 34.5 and 47.3 ppb, respectively). The Pd/Ir ratio, which is an indicator of PGE fractionation, is very low (0.05- 0.18) in the Cheshmeh-Bid chromitites and show that these rocks derived from a depleted mantle. The chromitites are characterized by high-Cr#, low Pd + Pt (4-14 ppb) and high IPGE/PPGE ratios (8.2- 22.25), resulting in a general negatively patterns, suggesting a high-degree of partial melting is responsible for the formation of the Cheshmeh-Bid chromitites. Therefore parent magma probably experiences a very low fractionation and was derived by an increasing partial melting. These geochemical characteristics show that the Cheshmeh-Bid chromitites have been probably derived from a boninitic melts in a supra-subduction setting that reacted with depleted peridotites. The high-Cr chromitite has relatively uniform mantle-normalized PGE patterns, with a steep slope, positive Ru and negative Pt, Pd anomalies, and enrichment of PGE relative to the chondrite. The dunite (total PGE = 47.25 ppb) and harzburgite (total PGE =3 4.5 ppb) are highly depleted in PGE and show slightly positive slopes PGE spidergrams, accompanied by a small positive Ru, Pt and Pd anomalies and their PdJIrn ratio ranges between 1.55-1.7and 1.36-1.94, respectively. Trace element contents of the Cheshmeh-Bid chromitites, such as Ga, V, Zn, Co, Ni, and Mn, are low and vary between 13-26, 466-842, 22-84, 115- 179, 826-1210, and 697-1136 ppm, respectively. These contents are compatible with other boninitic chromitites worldwide. The chromian spinel and bulk PGE geochemistry for the Cheshmeh-Bid chromitites suggest that high-Cr chromitites were generated from Cr-rich and, Ti- and Al-poor honinitic melts, most probably in a fore-arc tectonic setting related with a supra-subduction zone, similarly to other ophiolites in the outer Zagros ophiolitic belt. 展开更多
关键词 Cheshmeh-Bid Chromitite trace elements platinum-group elements boninitic magma supra-subduction zone
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Characteristics of platinum-group elements in basalts from spreading axis of Mariana Trough
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作者 CAO Zhimin ZHENG Jianbin +2 位作者 ZHOU Meifu AN Wei QI Liang 《Acta Oceanologica Sinica》 SCIE CAS CSCD 2007年第4期63-71,共9页
Total platinum-group elements (PGEs) abundances in basalts from the spreading axis of Mariana Trough ranged from 0.418 × 10^9 to 1. 022 × 10^-9, and primitive mantle-normalized PGE patterns are of positive... Total platinum-group elements (PGEs) abundances in basalts from the spreading axis of Mariana Trough ranged from 0.418 × 10^9 to 1. 022 × 10^-9, and primitive mantle-normalized PGE patterns are of positive slope showing the relative enrichment of PPGE ( platinum, palladium, rhodium) and gold relative to IPGE. Compared with other mantle-originated rocks, these basalts have lower PGE contents and wider ranges of primitive mantle-normalized ratios of palladium content to iridium one, palladium content to platinum one and palladium content to gold one exhibiting relative platinum and iridium depletion. Characteristics of PGE patterns indicated that the studied Mariana Trough basalts originated from low partial melting, and the MORB mantle beneath the spreading center had been contaminated by the are-island mantle. In the aspect of trace elements, Mariana Trough basalts showed the enrichment of LILE, lead and LREE, indicating that they had been influenced by subduetion compositions. All these demonstrated that Mariana Trough basalts are products of partial melting from a mixed mantle ( the contamination of MORB mantle by are-island mantle). 展开更多
关键词 back-arc basin basalt platinum-group elements negative platinum anomaly subduction zone basin evolution
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Geochemical characteristics of the platinum-group elements in the Abulangdang ultramafic intrusion,Sichuan Province,China
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作者 MA Yansheng TAO Yan +2 位作者 ZHONG Hong ZHU Feilin ZHOU Jiaxi 《Chinese Journal Of Geochemistry》 EI CAS 2009年第3期320-327,共8页
The contents of the platinum-group elements (PGEs: Os, Ir, Ru, Rh, Pt, Pd) in the Abulangdang ultramafic intrusion have been determined using ICP-MS after nickel sulfide fire assay preconcentration. Different samples ... The contents of the platinum-group elements (PGEs: Os, Ir, Ru, Rh, Pt, Pd) in the Abulangdang ultramafic intrusion have been determined using ICP-MS after nickel sulfide fire assay preconcentration. Different samples show significant differences in absolute PGE abundance. They display a pronounced negative incline in mantle-normalized patterns which are characterized by strong enrichment in IPGEs (Os, Ir, Ru) and depleting to slight enrichment in PPGEs (Rh, Pt, Pd). The characteristics of PGE distribution in the Abulangdang rocks are due to the combined action of sulfide and non-sulfide (spinel/chromite or alloy or micro-granular aggregation of metals). In comparison with the mafic-ultramafic rocks which host Ni-Cu-PGE deposits in the Emeishan Large Igneous Province (ELIP), it is assumed that the Abulangdang ultramafic intrusion may be the product of early-stage magma activity in the ELIP. 展开更多
关键词 铂族元素矿床 地球化学特征 入侵 四川省 峨眉山大火成岩省 中国 金富集 元素丰度
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Platinum-group Element Geochemistry of Magnetite from Porphyry-Cu-Mo Deposits and their Host Rocks(Siberia,Russia) 被引量:5
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作者 Anita BERZINA 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2012年第1期106-117,共12页
The concentrations of platinum-group elements (PGE) have been analyzed in primary magmatic magnetite samples from the Zhireken, Shakhtama and Aksug porphyry Cu-Mo deposits (Siberia, Russia) by laser ablation-induc... The concentrations of platinum-group elements (PGE) have been analyzed in primary magmatic magnetite samples from the Zhireken, Shakhtama and Aksug porphyry Cu-Mo deposits (Siberia, Russia) by laser ablation-inductively coupled plasma mass spectrometry to determine the range of PGE contents in magnetites and to check whether magnetite from two main rock suites (barren plutonic suite and mineralized porphyry suite) has distinct PGE composition. The results presented here indicate that magnetites are enriched in PGE relative to whole-rocks. Comparison of ore-related porphyry and barren plutonic suites shows that magnetite exhibit relatively similar PGE distribution patterns in both suites. Variations in Rh and Ru contents were controlled by the oxygen fugacity during magma crystallization. 展开更多
关键词 MAGNETITE platinum-group elements porphyry Zhireken Shakhtama Aksug Siberia Russia
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Platinum-Group Element Geochemical Characteristics of the Picrites and High-Ti Basalts in the Binchuan Area,Yunnan Province 被引量:3
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作者 BAI Mei ZHONG Hong +2 位作者 ZHU Weiguang BAI Zhongjie HE Defeng 《Acta Geologica Sinica(English Edition)》 SCIE CAS CSCD 2013年第1期158-175,共18页
The Binchuan area of Yunnan is located in the western part of the Emeishan large igneous province in the western margin of the Yangtze Block. In the present study, the Wuguiqing profile in thickness of about 1440 m is... The Binchuan area of Yunnan is located in the western part of the Emeishan large igneous province in the western margin of the Yangtze Block. In the present study, the Wuguiqing profile in thickness of about 1440 m is mainly composed of high-Ti basalts, with minor picrites in the lower part and andesites, trachytes, and rhyolites in the upper part. The picrites have relatively higher platinum- group element (PGE) contents (PGE=16.3-28.2 ppb), with high Cu/Zr and Pd/Zr ratios, and low S contents (5.03-16.9 ppm), indicating the parental magma is S-unsaturated and generated by high degree of partial melting of the Emeishan large igneous province (ELIP) mantle source. The slightly high Cu/Pd ratios (11 000-24 000) relative to that of the primitive mantle suggest that 0.007% sulfides have been retained in the mantle source. The PGE contents of the high-Ti basalts exhibit a wider range (~PGE=0.517-30.8 ppb). The samples in the middle and upper parts are depleted in PGE and have ~Nd (260 Ma) ratios ranging from -2.8 to -2.2, suggesting that crustal contamination of the parental magma during ascent triggered sulfur saturation and segregation of about 0.446%-0.554% sulfides, and the sulfide segregation process may also provide the ore-forming material for the magmatic Cu-Ni-PGE sulfide deposits close to the studied basalts. The samples in this area show Pt- Pd type primitive mantle-normalized PGE patterns, and the Pd/Ir ratios are higher than that of the primitive mantle (Pd/Ir=l), indicating that the obvious differentiation between Ir-group platinum- group elements (IPGE) and Pd-group platinum-group elements (PPGE) are mainly controlled by olivine or chromites fractionation during magma evolution. The Pd/Pt ratios of most samples are higher than the average ratio of mantle (Pd/Pt=0.55), showing that the differentiation happened between Pt and Pd. The differentiation in picrites may be relevant to Pt hosted in discrete refractory Pt-alloy phase in the mantle; whereas the differentiation in the high-Ti basalts is probably associated with the fractionation of Fe-Pt alloys, coprecipitating with Ir-Ru-Os alloys. Some high-Ti basalt samples exhibit negative Ru anomalies, possibly due to removal of laurite collected by the early crystallized chromites. 展开更多
关键词 PICRITES high-Ti basalts platinum-group element Emeishan large igneous province sulfide segregation
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A machine learning approach for regional geochemical data:Platinum-group element geochemistry vs geodynamic settings of the North Atlantic Igneous Province 被引量:1
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作者 Jordan J.Lindsay Hannah S.R.Hughes +2 位作者 Christopher M.Yeomans Jens C.Ø.Andersen Iain McDonald 《Geoscience Frontiers》 SCIE CAS CSCD 2021年第3期42-59,共18页
Whilst traditional approaches to geochemistry provide valuable insights into magmatic processes such as melting and element fractionation,by considering entire regional data sets on an objective basis using machine le... Whilst traditional approaches to geochemistry provide valuable insights into magmatic processes such as melting and element fractionation,by considering entire regional data sets on an objective basis using machine learning algorithms(MLAs),we can highlight new facets within the broader data structure and significantly enhance previous geochemical interpretations.The platinum-group element(PGE)budget of lavas in the North Atlantic Igneous Province(NAIP)has been shown to vary systematically according to age,geographic location and geodynamic environment.Given the large multi-element geochemical data set available for the region,MLAs were employed to explore the magmatic controls on these shifting concentrations.The key advantage of using machine learning in analysis is its ability to cluster samples across multi-dimensional(i.e.,multi-element)space.The NAIP data set is manipulated using Principal Component Analysis(PCA)and t-Distributed Stochastic Neighbour Embedding(t-SNE)techniques to increase separability in the data alongside clustering using the k-means MLA.The new multi-element classification is compared to the original geographic classification to assess the performance of both approaches.The workflow provides a means for creating an objective high-dimensional investigation on a geochemical data set and particularly enhances the identification of metallogenic anomalies across the region.The techniques used highlight three distinct multi-element end-members which successfully capture the variability of the majority of elements included as input variables.These end-members are seen to fluctuate in prominence throughout the NAIP,which we propose reflects the changing geodynamic environment and melting source.Crucially,the variability of Pt and Pd are not reflected in MLA-based clustering trends,suggesting that they vary independently through controls not readily demonstrated by the NAIP major or trace element data structure(i.e.,other proxies for magmatic differentiation).This data science approach thus highlights that PGE(here signalled by Pt/Pd ratio)may be used to identify otherwise localised or cryptic geochemical inputs from the subcontinental lithospheric mantle(SCLM)during the ascent of plume-derived magma,and thereby impact upon the resulting metallogenic basket. 展开更多
关键词 platinum-group elements Machine learning PLUME GEOCHEMISTRY METALLOGENESIS MANTLE
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Concentration of Platinum Group Elements during the Early Earth Evolution: A Review
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作者 Arkady Pilchin Lev Eppelbaum 《Natural Resources》 2017年第3期172-233,共62页
Numerous unique geological processes [1] took place during the early Earth evolution;several of them, especially those occurring in the Hadean—Early Archean and later, are reflected in the modern geological (geophysi... Numerous unique geological processes [1] took place during the early Earth evolution;several of them, especially those occurring in the Hadean—Early Archean and later, are reflected in the modern geological (geophysical, geochemical, etc.) pattern. One such significant enigmatic feature is the preservation of extremely dense and heavy platinum group elements (PGEs): Pt, Pd, Rh, Ru, Ir, Os. Concentration of PGEs during this period could have taken place in two ways: 1) presence of particular matter capable of preserving PGEs near the earth's surface, 2) transportation of PGEs by magma flows from deep lithospheric (asthenospheric) layers (slabs) to the subsurface. Clearly, much of the dense and heavy PGEs did not sink through to the Earth’s mantle (core) at the time of the magma-ocean, and occur near Earth’s surface in abundances for formation of ore deposits with PGE concentrations found to be 2 - 3 orders of magnitude greater than those in their host media. Their enrichments are associated in numerous cases with such enigmatic phenomena as formation of anorthosites and anorthosite-bearing layered magmatic intrusions. PGE deposits and mineralization zones are also found in associations with chromitites, dunites and serpentinites. In this review, problems related to the initial concentration and preservation of PGEs, their association with anorthosites, and formation of layered intrusions are discussed in detail. The main aim of this article is analysis of the requirements—initial concentration and preservation of PGE and PGM (Platinum Group Minerals) during the early Earth evolution, as well as examination of the distribution behavior of some PGEs in different ore deposits and meteorites. It is supposed that meteoritic bombardment of Earth has played a significant role in formation of PGEs deposits. Some conclusions made in this article may be useful for developing and enhancing strategies of prospecting for PGEs deposits. 展开更多
关键词 PLATINUM Group elements Early Earth EVOLUTION Magma-Ocean Earth’s BOMBARDMENT pge DEPOSIT Formation
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滇黔交界地区峨眉山玄武岩铜矿的PGE及微量元素特征 被引量:16
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作者 李厚民 毛景文 +3 位作者 王登红 陈毓川 张长青 许虹 《矿床地质》 CAS CSCD 北大核心 2005年第3期285-291,共7页
为了进一步探讨玄武岩铜矿的成因,文章对滇黔交界地区玄武岩铜矿石的铜、铂族元素及其他微量元素的地球化学特征进行了研究。结果表明:与铜矿化关系密切的有机质对铜的初始富集作用不明显,铜矿化是后生热液成因的,进一步支持了玄武岩为... 为了进一步探讨玄武岩铜矿的成因,文章对滇黔交界地区玄武岩铜矿石的铜、铂族元素及其他微量元素的地球化学特征进行了研究。结果表明:与铜矿化关系密切的有机质对铜的初始富集作用不明显,铜矿化是后生热液成因的,进一步支持了玄武岩为铜矿化的矿源岩、沥青及碳质等有机质的存在只是为自然铜沉淀提供了条件的认识。而且,铜矿石的低U、Th含量为该类铜矿石的铅是正常铅提供了合理的解释。 展开更多
关键词 地球化学 铜含量 铂族元素 微量元素 铜矿 玄武岩
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云南哀牢山金矿带墨江金镍矿床铂族元素(PGE)地球化学及其对矿床成因的制约 被引量:18
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作者 孙晓明 熊德信 +2 位作者 王生伟 石贵勇 翟伟 《矿床地质》 CAS CSCD 北大核心 2006年第4期438-446,共9页
文章系统地测定了墨江金镍矿床中的金镍矿和镍矿矿石中的PGE含量,结果均较低,∑PGE为(2.58~109.66)×10-9,与超基性岩的∑PGE〔(14.58~50.48)×10-9〕相差不大,且矿石与超基性围岩PGE+Au的球粒陨石标准化模式基本一致,均为Pt... 文章系统地测定了墨江金镍矿床中的金镍矿和镍矿矿石中的PGE含量,结果均较低,∑PGE为(2.58~109.66)×10-9,与超基性岩的∑PGE〔(14.58~50.48)×10-9〕相差不大,且矿石与超基性围岩PGE+Au的球粒陨石标准化模式基本一致,均为Pt和Ir相对亏损和Ru及Rh相对富集的M型,显示墨江金镍矿PGE来源较为一致,主要来自超基性岩体;墨江金镍矿Pd/Ir比值为0.18~10.0,远低于典型热液型镍矿的Pd/Ir值(>100),而与岩浆型镍矿相近,说明其中的镍主要为岩浆成因,后期热液改造并不是Ni成矿的主导因素,因此墨江应为早期岩浆型Ni矿和晚期热液型Au(Ni)矿叠加形成的复合矿床。墨江金镍矿的超基性围岩直接来自地幔,是由经历了基性岩浆抽提和交代作用形成的亏损地幔发生程度不同的部分熔融形成的,其原始岩浆中硫已达到饱和。 展开更多
关键词 地球化学 铂族元素 金镍矿床 超基性岩 蛇绿混杂岩 墨江
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云南金宝山和白马寨铜镍硫化物矿床铂族元素(PGE)地球化学的差异及其成因意义 被引量:22
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作者 王生伟 孙晓明 +2 位作者 石贵勇 熊德信 翟伟 《地质学报》 EI CAS CSCD 北大核心 2007年第1期93-108,共16页
金宝山和白马寨铜镍硫化物矿床均主要赋存在峨眉山大火山岩省中,但其矿化特征存在许多不同。本文着重对比了金宝山铂钯矿床和白马寨铜镍矿床的铂族元素(PGE)地球化学特征,发现前者表现为高ΣPGE及低的(Cu+Ni)、Pd/Ir(3.84~26.49)、Cu/Pd... 金宝山和白马寨铜镍硫化物矿床均主要赋存在峨眉山大火山岩省中,但其矿化特征存在许多不同。本文着重对比了金宝山铂钯矿床和白马寨铜镍矿床的铂族元素(PGE)地球化学特征,发现前者表现为高ΣPGE及低的(Cu+Ni)、Pd/Ir(3.84~26.49)、Cu/Pd(46.91~1309.58)值和Au/Pd值,相反,后者表现为低ΣPGE、高(Cu+Ni)、Pd/Ir(4.72~297.2)、Cu/Pd(10875.13~974788.55)值和较高的Au/Pd值。金宝山和白马寨PGE原始地幔标准化配分模式均主要表现为左倾型,但二者表现为镜像关系。金宝山较白马寨的PGE间相关性好,可能说明白马寨母岩浆经历了较为复杂的地质过程,其铂族元素体系因此受到较大的扰动。结合前人有关杨柳坪铜镍铂族元素矿床的铂族元素数据,认为峨眉地幔柱形成铜镍铂族元素矿床大致可以分成3个阶段:1金宝山阶段:即为S的低度饱和阶段,为峨嵋地幔柱上升初期,吸收少量壳源物质,由于PGE在硫化物中很高的分配系数,导致少量硫化物熔体从硅酸盐中萃取大量PGE和少量Cu-Ni熔离出来,与铬铁矿、橄榄石和辉石等,于高温下结晶分异堆积而成金宝山岩体,形成独立铂钯矿床。... 展开更多
关键词 铜镍铂族元素矿床 金宝山 白马寨 杨柳坪 峨眉山玄武岩
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太平洋海山富钴结壳铂族元素(PGE)和Os同位素地球化学及其成因意义 被引量:27
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作者 孙晓明 薛婷 +4 位作者 何高文 张美 石贵勇 王生伟 陆红锋 《岩石学报》 SCIE EI CAS CSCD 北大核心 2006年第12期3014-3026,共13页
本文分析了中西太平洋海山富钴结壳及其各主要层圈(外层、疏松层、亮煤层)和玄武岩基岩的铂族元素(PGE)和Au 含量以及 Os 同位素组成,发现富钴结壳中 PGE 和 Au 含量均较高,且变化很大,∑PGE 为(70.09~629.26)×10^(-9),平均289.48... 本文分析了中西太平洋海山富钴结壳及其各主要层圈(外层、疏松层、亮煤层)和玄武岩基岩的铂族元素(PGE)和Au 含量以及 Os 同位素组成,发现富钴结壳中 PGE 和 Au 含量均较高,且变化很大,∑PGE 为(70.09~629.26)×10^(-9),平均289.48×10^(-9),Au 为(0.60~26900)×10^(-9).具三层结构的富钴结壳中,疏松层(∑PGE=(339.37~545.82)×10^(-9))和亮煤层(∑PGE=(280.09~629.26)×10^(-9))的∑PGE 明显高于外层((70.09~133.27)×10^(-9).单层结壳的∑PGE 为(83.94~479.75)×10^(-9),Au 含量普遍高于具三层结构者.结壳的∑PGE 和 Au 含量远高于太平洋多金属结核(分别为(101.57~155.83)×10^(-9)和(1~4)×10^(-9)。沉积深度和海水氧逸度的不同是导致结壳和结核中 PGE 含量明显差异的主导因素。富钴结壳∑PGE 和 Pt 与 Mn(%)之间呈明显的正相关关系,而与 Fe(%)具负相关性,与多金属结核正好相反,显示结壳中的 PGE主要赋存在水羟锰矿(δ-MnO_2)等锰矿物相中,与针铁矿(FeOOH·nH_2O)等铁矿物相关系不大,而结核中的 PGE 主要赋存在铁矿物相中。PGE 球粒陨石标准化曲线和各项参数显示富钴结壳的 PGE 和 Au 主要来自海底玄武岩的蚀变释放,部分来自铁陨石微粒等地外物质,而与海底热水活动无关。计算显示西太平洋结壳距今42.5Ma 左右开始生长,生长过程中分别在8.0Ma 和21.8Ma 处出现间断,相应形成外层、疏松层和亮煤层,其各自沉积速率为2.64mm/Ma,1.45mm/Ma 和1.06mm/Ma,相应海水的^(187)Os/^(188)Os 分别为0.948~0.953,0.599~0.673和0.425~0.536,显示外层含有较多的大陆风化尘,而疏松层和亮煤层的沉积物主要来自海底洋壳蚀变和陨石碎屑或宇宙尘等地外物质。 展开更多
关键词 铂族元素(pge)地球化学 Os同位素 富钴结壳 多金属结核 中西太平洋海山
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内蒙古金厂沟梁金(铜)矿床的PGE、铁族和亲硫元素的地球化学特征与物质来源、形成环境 被引量:5
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作者 李怡欣 孙景贵 +3 位作者 陈军强 门兰静 聂喜涛 张朋 《地学前缘》 EI CAS CSCD 北大核心 2010年第2期336-347,共12页
首次采用盐酸-过氧化氢封闭熔矿与ICP-MS相结合的方法,对金厂沟梁金(铜)矿床东、西两矿区典型矿石的铂族元素(PGE)、亲铁以及亲硫元素的含量进行了系统测定,结果显示矿石中上述元素的含量均高于实验的检测限;地球化学演化特征显示含矿... 首次采用盐酸-过氧化氢封闭熔矿与ICP-MS相结合的方法,对金厂沟梁金(铜)矿床东、西两矿区典型矿石的铂族元素(PGE)、亲铁以及亲硫元素的含量进行了系统测定,结果显示矿石中上述元素的含量均高于实验的检测限;地球化学演化特征显示含矿流体具有岩浆性质,PGE对原始地幔/球粒陨石标准化后的配分曲线均呈强烈左倾斜的分馏模式,其配分曲线和与幔源岩浆有关的富铜硫化物和富铜镍硫化物熔体的形式相似,并与幔源玄武岩、碳酸盐熔体的配分模式基本一致,反映含矿流体具有幔源岩浆属性;从区域构造、岩浆热事件角度出发,结合典型斑岩铜(钼)矿床的PGE特征,初步确定其含矿流体形成于中生代大陆边缘环境,其直接的热动源是中生代底侵的玄武岩浆。成矿阶段富含金、铜矿石的Pd/Pt、Pd/Ir比值接近低钛玄武岩浆以及玄武安山岩,而成矿早阶段贫金、铜样品的Pd/Pt、Pd/Ir比值接近地幔;反映早期含矿流体可能是直接来自中生代幔源玄武质岩浆结晶分异,而富金(铜)流体的形成可能是玄武质岩浆演化晚期被地壳物质强烈混染后的富超临界流体岩浆(低钛熔体)发生岩浆与流体分离而产生;含矿流体演化过程的PGE地球化学行为与Cu或S(As)的饱和度有关,即主要受亲硫(铜)元素或结晶分异的硫化物矿物相所制约。 展开更多
关键词 地球化学 铂族-铁族-亲铜元素 金(铜)矿床 金厂沟梁 内蒙
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内蒙古柯单山蛇绿岩地幔橄榄岩铂族元素(PGEs)的分布特征及分异机制探讨 被引量:4
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作者 李晖 刘庆 +3 位作者 侯泉林 徐辉煌 朱貌贤 曾桂华 《岩石学报》 SCIE EI CAS CSCD 北大核心 2011年第6期1759-1769,共11页
采用Carius管结合MC-ICPMS法分析了内蒙古柯单山蛇绿岩地幔橄榄岩中Ir、Ru、Pt和Pd的含量,与典型的地幔橄榄岩进行对比研究,发现柯单山地幔橄榄岩中Ir和Ru明显亏损,Pt和Pd强烈富集,具有极高的Pd/Ir值,PGEs地幔标准化配分模式具有较陡的... 采用Carius管结合MC-ICPMS法分析了内蒙古柯单山蛇绿岩地幔橄榄岩中Ir、Ru、Pt和Pd的含量,与典型的地幔橄榄岩进行对比研究,发现柯单山地幔橄榄岩中Ir和Ru明显亏损,Pt和Pd强烈富集,具有极高的Pd/Ir值,PGEs地幔标准化配分模式具有较陡的正斜率,明显不同于通常观测到的代表部分熔融残留相中铂族元素配分模式(负斜率或平坦型)。柯单山地幔橄榄岩的Ir和Ru与MgO呈正相关关系,表明Ir和Ru的亏损可能与部分熔融过程中硫化物的消耗程度有关,而与PGEs在硫化物/硅酸盐间的能斯特分配系数没有直接关系;Pt、Pd的富集表明本区的地幔橄榄岩不仅仅是经历过部分熔融的残余,而与来自深海的橄榄岩和大陆岩石圈地幔(SCLM)中的方辉橄榄岩相似,因此推测,本区地幔橄榄岩在部分熔融后又经历了富Pd的熔/流体交代,而熔/流体的来源可能是在岩浆分异演化过程中"熔离"出来的硫化物。 展开更多
关键词 铂族元素 柯单山蛇绿岩 地幔橄榄岩 部分熔融 熔/流体交代 硫化物
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黑龙江省五星Cu-Ni-Pt-Pd矿床的PGE-Au元素地球化学特征与成因探讨 被引量:4
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作者 李光辉 梁树能 +3 位作者 孙景贵 陈冬 逄伟 常艳 《地质科学》 CAS CSCD 北大核心 2009年第1期118-127,共10页
对黑龙江省东部五星Cu-Ni-Pt-Pd矿床的矿体和与成矿有关的镁铁质杂岩的PGE-Au以及铁族、亲铜元素的地球化学特征研究表明:它们均以亏损Cr、IPGE和富集Ni、Co、Cu、Pt和Pd(Pt〈PD)为特征,与成矿有关的镁铁质岩来自地幔部分熔融形成... 对黑龙江省东部五星Cu-Ni-Pt-Pd矿床的矿体和与成矿有关的镁铁质杂岩的PGE-Au以及铁族、亲铜元素的地球化学特征研究表明:它们均以亏损Cr、IPGE和富集Ni、Co、Cu、Pt和Pd(Pt〈PD)为特征,与成矿有关的镁铁质岩来自地幔部分熔融形成的玄武岩浆,岩浆(房)演化以结晶分离为主,伴随熔离作用。结合地质和岩相学特征,初步确定铜镍硫化物矿化在岩浆熔离作用的基础上产生,而铂钯矿化则主要发生在岩浆期后,以热液交代作用为主产生。因此,五星矿床是一个岩浆型铜镍硫化物和铂钯热液型复合的内生矿床。 展开更多
关键词 五星Cu-Ni-Pt-Pd矿床 pge-Au元素 地球化学 矿床成因 黑龙江省东部
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中国PGE矿床类型分析 被引量:33
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作者 刘秉光 《地质与勘探》 CAS CSCD 北大核心 2002年第4期1-7,共7页
中国PGE(铂族元素 )矿床类型分析 ,PGE(铂族元素 )矿床包括Pt、Pd、Rh、Ru、Os、Ir 6种元素 ,它们有着很强的亲“S”性和亲“Fe”族元素性 ,同时和Mo、Te、As、Sb、Bi等元素也有亲缘关系。这些相关元素在不同介质中 ,组成不同的元素组... 中国PGE(铂族元素 )矿床类型分析 ,PGE(铂族元素 )矿床包括Pt、Pd、Rh、Ru、Os、Ir 6种元素 ,它们有着很强的亲“S”性和亲“Fe”族元素性 ,同时和Mo、Te、As、Sb、Bi等元素也有亲缘关系。这些相关元素在不同介质中 ,组成不同的元素组合 ,叫做元素“序列” ,共有 7个序列 ,它们对PGE形成有选择性的萃取和捕获能力 ,叫“萃捕剂”作用 ,再加上PGE自身的地球化学差异性 ,就可能形成多种不同的PGE矿床类型。列举了 6个矿床实例 ,提出了成矿五要素 ,分析了中国PGE矿床前景 ,认为成矿和地幔岩初始岩浆密切相关。 展开更多
关键词 pge矿床 成矿元素序列 萃捕剂 地幔岩 中国 铂族元素
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Multi-stage formation of the Feragen ophiolite,Norway:Implication from petrology and geochemistry of peridotites and chromitites and its potential for prospecting
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作者 Tian Qiu Fa-hui Xiong +2 位作者 David G.Gee Yuan Li Jing-sui Yang 《China Geology》 CAS CSCD 2024年第4期686-701,共16页
The ultramafic massif of Feragen,which belongs to the eastern ophiolitic belt of Norway,has abundant amounts of chromite ores.Recent studies have revealed a complex melt evolution in a supra-subduction zone(SSZ)enviro... The ultramafic massif of Feragen,which belongs to the eastern ophiolitic belt of Norway,has abundant amounts of chromite ores.Recent studies have revealed a complex melt evolution in a supra-subduction zone(SSZ)environment.This study presents new whole-rock major element,trace element,and platinum-group element chemistry to evaluate their petrogenesis and tectonic evolution.Harzburgites have high CaO,Al_(2)O_(3),TiO_(2),MgO,and REE contents corresponding to abyssal peridotites,whereas dunites have low CaO,Al_(2)O_(3),TiO_(2),MgO,and REE contents corresponding to SSZ peridotites.The Cr^(#)and TiO_(2) of chromian spinels in the harzburgites suggest as much as about 15%–20%melting and the dunites are more depleted with>40%melting.The harzburgites and the dunites and high-Cr chromitites represent,respectively,the products of low-degree partial melting in a back-arc setting,and the products of melt-rock interaction in a SSZ environment.The calculated fO_(2) values for dunites and high-Cr chromitites(-0.17–+0.23 and+2.78–+5.65,respectively and generally above the FMQ buffer)are also consistent with the interaction between back-arc ophiolites with oxidized boninitic melts in a SSZ setting. 展开更多
关键词 GEOCHEMISTRY ƑO_(2) platinum-group elements High-Cr podiform chromitites SSZ peridotite Harzburgites Feragen ophiolite Norway DUNITE Abyssal peridotite
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Petrology and PGE Abundances of High-Cr and High-Al Podiform Chromitites and Peridotites from the Bulqiza Ultramafic Massif, Eastern Mirdita Ophiolite, Albania 被引量:2
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作者 QIU Tian YANG Jingsui +5 位作者 MILUSHI Ibrahim WU Weiwei MEKSHIQI Nezir XIONG Fahui ZHANG Cong SHEN Tingting 《Acta Geologica Sinica(English Edition)》 CAS CSCD 2018年第3期1063-1081,共19页
The Bulqiza ultramafic massif, which is part of the eastern Mirdita ophiolite of northern Albania, is world renowned for its high-Cr chromitite deposits. High-Cr chromitites hosted in the mantle section are the crysta... The Bulqiza ultramafic massif, which is part of the eastern Mirdita ophiolite of northern Albania, is world renowned for its high-Cr chromitite deposits. High-Cr chromitites hosted in the mantle section are the crystallized products of boninitic melts in a supra-subduction zone(SSZ). However,economically important high-Al chromitites are also present in massive dunite of the mantle-crust transition zone(MTZ). Chromian-spinel in the high-Al chromitites and dunites of the MTZ have much lower Cr~# values(100 Cr/(Cr+Al))(47.7-55.1 and 46.5-51.7, respectively) than those in the high-Cr chromitites(78.2-80.4), harzburgites(72.6-77.9) and mantle dunites(79.4-84.3). The chemical differences in these two types of chromitites are reflected in the behaviors of their platinum-group elements(PGE).The high-Cr chromitites are rich in IPGE relative to PPGE with 0.10-0.45 PPGE/IPGE ratios, whereas the high-Al chromitites have relatively higher PPGE/IPGE ratios between 1.20 and 7.80. The calculated melts in equilibrium with the high-Cr chromitites are boninitic-like, and those associated with the high-Al chromitites are MORB-like but with hydrous, oxidized and TiO-poor features. We propose that the coexistence of both types of chromitites in the Bulqiza ultramafic massif may indicates a change in magma composition from MORB-like to boninitic-like in a proto-forearc setting during subduction initiation. 展开更多
关键词 chromian-spinel platinum-group elements high-Cr and high-Al chromitite Mirdita ophiolite Albania
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