共查询到19条相似文献,搜索用时 197 毫秒
1.
对1998年7月发现的辽宁岫岩县苏子沟镇罗圈里直径1.8 km的撞击坑构造作了一系列地质、地球化学测试工作。从坑内出露的基岩(下元古界辽河群里尔峪组变质砂岩)与充填碎屑物质界面上取样,经XRD定性分析显示有自然铂、锇铱矿、自然铑、自然铱的存在。进一步对这一类样品作等离子质谱分析(ICP-MS),则发现有PGE异常。特别是Pt,Pd,Ru甚至高于原始地幔的丰度值。进一步淘选坑里重砂样品则发现数颗粗铂矿物。已作电子探针分析表明PGE质量分数Pt为85.30%~98.68%,Pd为0.45%~0.87%,Rh为0.56%~0.74%,Os为0.66%~1.31%,Ir为1.72%~2.43%,Ru为0.16%~0.31%,此外Ni为0.00%~0.50%,Fe为4.98%~5.42%。笔者认为这种PGE元素异常和粗铂矿的发现是陨石及其撞击作用的重要依据之一。 相似文献
2.
某阿尔卑斯型镁质超基性岩位于藏北超基性岩带的中部。超基性岩主要由斜辉辉橄岩组成,并有纯橄榄岩、斜辉辉橄岩等岩相带。纯橄岩与辉橄岩接触处为铬、铂矿化部位。岩体受强烈的热蚀变,主要为蛇纹石化及绿泥石化。亦有少量的铬绿泥石化及铬石榴石化等。铬矿体中的铂族元素以Os、Ir和Ru为主,Pt、Pd和Ph含量较微。经反复研究,找到了钌铱锇矿、铱锇矿、自然锇、等轴铂锇铱矿、锇铂钌铱矿、硫钌矿、硫铱锇钌矿、锇硫钌矿、硫砷钌矿、锇硫砷钌矿、安多矿、锇安多矿、钌峨眉矿、砷铂矿、钌单斜砷铱矿、镍砷钌矿、硫砷铱矿、钌硫砷铱矿、铂铁合金、钌铁合金,锑钯矿及未定名矿物 相似文献
3.
钌(Ru)、铑(Rh)、钯(Pd)、锇(Os)、铱(Ir)、铂(Pt),它们在元素周期表上属第Ⅷ族,原子序数依次为44、45、46、76、77、78,根据查瓦里茨基的元素地球化学分类,称其为“铂族元素”(PGE)。铂族元素地球化学性质很相似,原子半径1.32—1.38(?)比重大,电离势高,化学性质稳定,所以在自然界除以自然元素产出外,常呈金属互化物密 相似文献
4.
云南中旬地区烂泥塘低温热液型Cu-Au矿床铂族元素(PGE)地球化学特征 总被引:1,自引:0,他引:1
采用ICP-MS分析方法研究烂泥塘浅成低温热液型Cu-Au矿床中黄铜矿铂族元素(PGE),结果显示黄铜矿的∑PCE较低,其值为5.46×109~19.0×10-9.原始地幔标准化PGE配分模式呈Ru、Pd相对于Ir、Pt富集的趋势.Pd/Ir、Ru/Ir、Pt/Ru、Pd/Pt比值分别变化在2.35~21.9、15.6~42.3、0.02~0.20和4.83~21.8之间.除Pt/Ru比值低于原始地幔外,其他比值均高于原始地幔,这表明黄铜矿的Ir、Ru、Pt和Pd之间发生了分异.黄铜矿中相对高的Ru和Pd含量可能是热液流体对早期矿化斑岩选择淋滤的结果. 相似文献
5.
扫描电镜-X射线能谱仪在丹巴地区铂族矿物物相特征分析中的应用 总被引:2,自引:2,他引:0
丹巴地区铜镍硫化物铂族矿床品位低、铂族矿物颗粒细、铂族元素间的类质同象普遍,此类铂族资源的赋存状态研究及矿石的选冶长期以来都是较为棘手的问题。本文采用扫描电镜-X射线能谱仪器组合,对丹巴铜镍硫化物铂族矿床中含量达到1‰的元素进行快速的定性/定量分析,研究了铂族矿物原位的赋存状态和形貌特征。通过扫描电镜观察到该矿床的铂族矿物主要为砷铂矿、锑钯矿、碲锑钯矿,其次以自然铂、硫砷铑矿、硫砷铱矿,呈椭圆状、纺锤状等形式赋存于黄铁矿、磁黄铁矿及蛇纹石中,部分以类质同象的形式存在,极少量的铂与钯元素呈固溶体形式存在。X射线能谱分析表明该矿床中主要的铂族元素为Pt、Pd,其次为Ru、Rh、Ir、Os; 点分析表明砷铂矿中Pt的含量为52.84%,锑钯矿中Pd的含量为45.15%; 线扫描和面扫描分析表明铂族元素主要分布在含铁的硫化物中,Pt、Pd等铂族元素的含量与铁、镍的含量成正相关关系,反映了丹巴地区铂族元素亲铁、亲镍、亲硫的地球化学特征。 相似文献
6.
《矿物学报》2010,(3)
采用ICP-MS分析方法研究烂泥塘浅成低温热液型Cu-Au矿床中黄铜矿铂族元素(PGE),结果显示黄铜矿的∑PGE较低,其值为5.46×10-9~19.0×10-9。原始地幔标准化PGE配分模式呈Ru、Pd相对于Ir、Pt富集的趋势。Pd/Ir、Ru/Ir、Pt/Ru、Pd/Pt比值分别变化在2.35~21.9、15.6~42.3、0.02~0.20和4.83~21.8之间。除Pt/Ru比值低于原始地幔外,其他比值均高于原始地幔,这表明黄铜矿的Ir、Ru、Pt和Pd之间发生了分异。黄铜矿中相对高的Ru和Pd含量可能是热液流体对早期矿化斑岩选择淋滤的结果。 相似文献
7.
迄今为止文献中未见有铂矿原生晕研究的报道,通过对大岩子矿区地表和不同中段坑道原生晕的研究,发现在铂-钯矿体周围有清晰的F、Sb、Cd、Hg、As、Ag、Au、Pd、Pt、Cu、Ni元素的原生晕,其中F、Sb、Cd、Hg、As为前缘指示元素,Au、Ag为近矿指示元素,Pt、Pd、Cu、Ni为成矿指示元素.元素的垂直分带序列为(地表至矿体):(F、Sb、Cd、Hg、As)-(Ag、Au)-(Pd、Pt)-(Cu、Ni).地表岩石地球化学测量发现的Ⅲ号Pd、Pt异常带,具有多元素异常组合特征,判断为矿致异常,推测在该异常带下方可望找到隐伏矿体.坑道原生晕研究发现,在PD4中段出现浓集中心醒目、浓度分带清晰的F原生晕,推测在PD4中段下方可能存在新的盲矿体. 相似文献
8.
报道了四川冕宁稀土矿床碳酸岩7件样品的PGE和Au含量分析结果,其含量(WB/10^-9)范围分别为Ir0.5~0.78,Ru 1.61~6.75,Rh 0.08~0.14,Pt 2.62~12.15,Pd 1.11γ3.65和Au1.24~8.61。原始地幔标准化的PGE模式呈Ru、Pt、Pd相对富集和Ir、Rh相对亏损的“燕子型”。分析认为,碳酸岩具有一定携带PGE的能力;本区碳酸岩具“燕子型”PGE配分模式可能是其源区地幔PGE配分模式的反演;深源富CO2流体交代作用原始地幔可能是形成其“燕子型”PGE配分模式主要因素。 相似文献
9.
10.
湘、黔下寒武统黑色岩系型Ni、Mo矿床中有机质与PGE成矿作用研究 总被引:1,自引:0,他引:1
湘、黔地区张家界、遵义一带分布有黑色岩系型Ni-Mo-PGE矿床,测试分析表明黑色页岩样品铂族元素含量特征参数∑PGE、Ln(Pd/Pt)、(Ru/Ir)×(Pd/Pt)、Ln[(Ru/Ir)×(Pd/Pt)]均与有机质含量特征参数有较好的相关性.趋势分析显示,铂族元素含量特征参数Ln[(Ru/Ir)×(Pd/Pt)]与总有机碳含量特征参数Ln(Corg)有很好的线性相关,线性相关公式为y=0.4762x-1.1316,相关系数R为0.7584,说明该参数为一稳定性参数,主要受有机质总量决定,集中反映了生物制约性.而与湖南张家界样品有机碳含量Ln(Corg)与铂族元素含量∑PGE同步正消长关系不一样,即贵州遵义地区铂族元素总量∑PGE与有机碳含量的相关性表现出的不一致的规律,可以解释为后生期的热事件(印支海西期,Rb-Sr等时线年龄277±37Ma)导致有机质干酪根的高成熟化、大量生过气(C>2%)和石墨化趋势,或者说是芳构化效应改变了源岩有机质而导致了有机质的损耗. 相似文献
11.
陕西太白金矿含金角砾岩中铂族元素特征 总被引:1,自引:2,他引:1
采用硫镍火法试金(NiS-FA)结合电感耦合等离子质谱(ICP-MS)分析了太白金矿硫化物和含金角砾岩中铂族元素的含量,结果显示,与秦岭地区八卦庙相比铂族元素含量较高,而低于原始地幔,其中铂(Pt)、钯(Pd)、钌(Ru)富集,并结合前人研究资料对铂族元素的来源和迁移机制进行探讨。铂族元素可能受深源的影响,IPGE(Ir、Os、Ru)可能主要以硫化物形式存在而PPGE(Rh、Pt、Pd)可能主要以单质存在。 相似文献
12.
With a diameter of ∼100 km, Popigai in Northern Siberia is the largest crater known in the Cenozoic. The concentrations in platinum group elements (PGE) were analyzed in twenty samples of homogeneous impact melt collected in the northwestern flank of the crater to identify the composition of the projectile. The method selected was preconcentration by NiS fire assay followed by inductively coupled plasma-mass spectrometry (ICP-MS). This technique measures all the PGE (except Os) and by using aliquots >10g, the results are highly reproducible. The major and trace element composition of the impact melt resembles that of gneissic lithologies of the Anabar shield, which are representative of the target rock. The PGE are enriched in the melt by factors of 3 to 14 compared to the main target lithology, but the meteoritic contamination is only around 0.2 wt.%. Using plots of elemental ratios such as Ru/Rh vs. Pt/Pd or Ru/Rh vs. Pd/Ir, the Popigai impactor is clearly identified as an ordinary chondrite and most likely l-chondrite. This study indicates that PGE elemental ratios allow discrimination of the type of impactor, even in the case of low meteoritic contamination. This study confirms that a significant fraction of the crater-forming projectiles presently documented could have an ordinary chondrite composition. Their probable source, the S-type asteroids, appears to form the majority of the bodies in the main asteroid belt and among Near Earth Objects (NEOs). The ordinary chondrite origin of the Popigai projectile supports an asteroidal origin for the late Eocene impacts as a plausible alternative to the comet shower scenario proposed by Farley et al. (1998). 相似文献
13.
C.W. Dale K.W. Burton D.G. Pearson O. Alard T.W. Argles 《Geochimica et cosmochimica acta》2009,73(5):1394-1416
Highly siderophile element concentrations (HSE: Re and platinum-group elements (PGE)) are presented for gabbros, gabbroic eclogites and basaltic eclogites from the high-pressure Zermatt-Saas ophiolite terrain, Switzerland. Rhenium and PGE (Os, Ir, Ru, Rh, Pt, Pd) abundances in gabbro- and eclogite-hosted sulphides, and Re-Os isotopes and elemental concentrations in silicate phases are also reported. This work, therefore, provides whole rock and mineral-scale insights into the PGE budget of gabbroic oceanic crust and the effects of subduction metamorphism on gabbroic and basaltic crust.Chondrite-normalised PGE patterns for the gabbros are similar to published mid-ocean ridge basalts (MORB), but show less inter-element fractionation. Mean Pt and Pd contents of 360 and 530 pg/g, respectively, are broadly comparable to MORB, but gabbros have somewhat higher abundances of Os, Ir and Ru (mean: 64, 57 and 108 pg/g). Transformation to eclogite has not significantly changed the concentrations of the PGE, except Pd which is severely depleted in gabbroic eclogites relative to gabbros (∼75% loss). In contrast, basaltic eclogites display significant depletion of Pt (?60%), Pd (>85%) and Re (50-60%) compared with published MORB, while Os, Ir and Ru abundances are broadly comparable. Thus, these data suggest that only Pt, Pd and Re, and not Os, Ir and Ru, may be significantly fluxed into the mantle wedge from mafic oceanic crust. Re-Os model ages for gabbroic and gabbroic eclogite minerals are close to age estimates for igneous crystallisation and high-pressure metamorphism, respectively, hence the HSE budgets can be related to both igneous and metamorphic behaviour. The gabbroic budget of Os, Ir, Ru and Pd (but not Pt) is dominated by sulphide, which typically hosts >90% of the Os, whereas silicates account for most of the Re (with up to 75% in plagioclase alone). Sulphides in gabbroic eclogites tend to host a smaller proportion of the total Os (10-90%) while silicates are important hosts, probably reflecting Os inheritance from precursor phases. Garnet contains very high Re concentrations and may account for >50% of Re in some samples. The depletion of Pd in gabbroic eclogites appears linked, at least in part, to the loss of Ni-rich sulphide.Both basaltic and gabbroic oceanic crust have elevated Pt/Os ratios, but Pt/Re ratios are not sufficiently high to generate the coupled 186Os-187Os enrichments observed in some mantle melts, even without Pt loss from basaltic crust. However, the apparent mobility of Pt and Re in slab fluids provides an alternative mechanism for the generation of Pt- and Re-rich mantle material, recently proposed as a potential source of 187Os-186Os enrichment. 相似文献
14.
Inga Osbahr Reiner Klemd Thomas Oberthür Helene Brätz Robert Schouwstra 《Mineralium Deposita》2013,48(2):211-232
Base-metal sulfides in magmatic Ni-Cu-PGE deposits are important carriers of platinum-group elements (PGE). The distribution and concentrations of PGE in pentlandite, pyrrhotite, chalcopyrite, and pyrite were determined in samples from the mineralized portion of four Merensky Reef intersections from the eastern and western Bushveld Complex. Electron microprobe analysis was used for major elements, and in situ laser ablation inductively-coupled plasma mass spectrometry (LA-ICP-MS) for trace elements (PGE, Ag, and Au). Whole rock trace element analyses were performed on representative samples to obtain mineralogical balances. In Merensky Reef samples from the western Bushveld, both Pt and Pd are mainly concentrated in the upper chromitite stringer and its immediate vicinity. Samples from the eastern Bushveld reveal more complex distribution patterns. In situ LA-ICP-MS analyses of PGE in sulfides reveal that pentlandite carries distinctly elevated PGE contents, whereas pyrrhotite and chalcopyrite only contain very low PGE concentrations. Pentlandite is the principal host of Pd and Rh in the ores. Palladium and Rh concentrations in pentlandite reach up to 700 and 130 ppm, respectively, in the samples from the eastern Bushveld, and up to 1,750 ppm Pd and up to 1,000 ppm Rh in samples from the western Bushveld. Only traces of Pt are present in the base-metal sulfides (BMS). Pyrrhotite contains significant though generally low amounts of Ru, Os, and Ir, but hardly any Pd or Rh. Chalcopyrite contains most of the Ag but carries only extremely low PGE concentrations. Mass balance calculations performed on the Merensky Reef samples reveal that in general, pentlandite in the feldspathic pyroxenite and the pegmatoidal feldspathic pyroxenite hosts up to 100 % of the Pd and Rh and smaller amounts (10–40 %) of the Os, Ir, and Ru. Chalcopyrite and pyrrhotite usually contain less than 10 % of the whole rock PGE. The remaining PGE concentrations, and especially most of the Pt (up to 100 %), are present in the form of discrete platinum-group minerals such as cooperite/braggite, sperrylite, moncheite, and isoferroplatinum. Distribution patterns of whole rock Cu, Ni, and S versus whole rock Pd and Pt show commonly distinct offsets. The general sequence of “offset patterns” of PGE and BMS maxima, in the order from bottom to top, is Pd in pentlandite?→?Pd in whole rock?→?(Cu, Ni, and S). The relationship is not that straightforward in general; some of the reef sequences studied only partially show similar trends or are more complex. In general, however, the highest Pd concentrations in pentlandite appear to be related to the earliest, volumetrically rather small sulfide liquids at the base of the Merensky Reef sequence. A possible explanation for the offset patterns may be Rayleigh fractionation. 相似文献
15.
阜新中生代火山岩的铂族元素特征——以碱锅和乌拉哈达为例 总被引:5,自引:0,他引:5
采用镍锍火试金法结合ICP—MS分析了碱锅玄武岩和乌拉哈达高镁安山岩样品中的Ir.Ru、Rh、Pt和Pd的含量。原始地幔标准化后的PGE分布模式呈正斜率型,Pd/Ir值高于相应的地幔比值,表明铂族元素发生了分异,这是由于在部分熔融过程中,Ir存在于地幔矿物相尖晶石和合金中,而Pd赋存于硫化物中造成的,乌拉哈达高镁安山岩中的铂族元素还可能在结晶分异过程中受到先期结晶的矿物相和合金的影响。阜新火山岩Pt的负异常可能是包含Pt的金属合金残留在地幔中造成。 相似文献
16.
Herbert Palme Marie-Josée Janssens H. Takahashi Edward Anders Jan Hertogen 《Geochimica et cosmochimica acta》1978,42(3):313-323
Sixteen crater samples were analyzed by radiochemical neutron activation analysis for Ge, Ir, Ni, Os, Pd and Re. Two impact melt rock samples from Clearwater East (22 km) showed strong, uniform enrichments in all elements except Ge, corresponding to 7.4% C1 chondrite material. Interelement ratios suggest that the meteorite was a C1 (or C2) chondrite, not an iron, stony iron, or chondrite of another type. An Ivory Coast tektite (related to the 10 km Bosumtwi crater) was enriched in Ir + Os and Ni to about 0.04 and 1.6% of C1 chondrite levels, but in the absence of data on country rocks, the meteorite cannot yet be characterized.Impact melt rock samples from Clearwater West (32km), Manicouagan (70km), and Mistastin (28 km) showed no detectable meteoritic component. Upper limits, as Cl chondrite equivalent, were Os ≤ 2 × 10?3% (~0.01 ppb), Ni ≤ 2 × 10?1% (~20ppm). Possible causes are high impact velocity and/or a chemically inconspicuous meteorite (achondrite, Ir,Os-poor iron or stony iron). However, a more likely reason is that some fraction of the impact melt remains meteorite-free, especially at craters with central peaks.Clearwater East is the first terrestrial impact crater found to be associated with a stony meteorite. Apparently the consistent absence of stony projectiles at small craters (< 1 km diameter) reflects their destruction in the atmosphere, as proposed by Öpik. 相似文献
17.
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(ΣPGE=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(ΣPGE=0.517-30.8 ppb).The samples in the middle and upper parts are depleted in PGE and haveεNd(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=1),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. 相似文献
18.
MAIER WOLFGANG D.; ROELOFSE FREDERICK; BARNES SARAH-JANE 《Journal of Petrology》2003,44(10):1787-1804
We have analysed 18 samples of komatiite from five consecutivelava flows of the Komati Formation at Spinifex Creek, BarbertonMountain Land. Our samples include massive komatiite, varioustypes of spinifex-textured komatiite, and flow-top breccias.The rocks have low platinum-group element (PGE) contents andPd/Ir ratios relative to komatiites from elsewhere, at 0·45–2ppb Os, 1–1·4 ppb Ir, <1–5 ppb Ru, 0·33–0·79ppb Rh, 1·7–6 ppb Pt, 1·6–6·1ppb Pd, and Pd/Ir 3·3. Pt/Pd ratios are c. 1·1.Platinum-group elements are depleted relative to Cu (Cu/Pd =15 300). They display a tendency to increase in the less magnesiansamples, suggesting that the magmas were S-undersaturated uponeruption and that all PGE were incompatible with respect tocrystallizing olivine. Komatiites from the Westonaria Formationof the Ventersdorp Supergroup and the Roodekrans Complex nearJohannesburg have broadly similar PGE patterns and concentrationsto the Komati rocks, suggesting that the PGE contents of SouthAfrican ultrabasic magmas are controlled by similar processesduring partial mantle melting and low-P magmatic crystallization.Most workers believe that the Barberton komatiites formed byrelatively moderate-degree batch melting of the mantle at highpressure. Based on the concentration of Zr in the Komati samples,we estimate that the degree of partial melting was between 26and 33%. We suggest that the low PGE contents and Pd/Ir ratiosof all analysed South African komatiites are the result of sulphideshaving been retained in the mantle source during partial melting.The difference in Pd/Ir between our samples and Al-undepletedkomatiites from elsewhere further suggests that the PGE arefractionated during progressive partial melting of the mantle.Thus, our data are in agreement with other recent studies showingthat the PGE are hosted by different phases in the mantle, withPd being concentrated by interstitial Cu-rich sulphide, andthe IPGE (Os, Ir, Ru) and Rh resting in monosulphide solid solutionincluded within silicates. Pt is possibly controlled by a discreterefractory phase, as Pt/Pd ratios of most komatiites worldwideare sub-chondritic. KEY WORDS: platinum-group elements; komatiites; Barberton; mantle melting; South Africa 相似文献
19.
中国铬铁矿的铂族元素分布特征 总被引:2,自引:0,他引:2
用NiS溶解和Te沉淀方法富集铂族元素(PGE),制成镍扣,再溶解于浓HCl中,使PGE和Te一起沉淀。制备的样品溶液在ELAN-5000型电感耦合等离子质谱仪(ICP-MS)上分析PGE。中国铬铁矿矿石,包括蛇绿岩套中的豆荚状铬铁矿床、非层状侵入体铬铁矿,计13个矿床(化)样品,其PGE模式表明,主要呈RU正异常模式,个别不同模式是由母岩不同以及铂族元素矿化叠加引起的。铬铁矿的PGE模式不取决于铬铁矿的化学成分,而取决于其母岩性质以及形成温度和铂族元素的熔点。 相似文献