河北红石砬铂矿床铂、钯地球化学异常特征

红石砬铂矿地球化学异常组分简单,仅发育Ｐｔ和Ｐｄ的强异常,部分伴生Ａｕ异常,不伴生Ｃｒ、Ｃｏ、Ｃｕ、Ｎｉ、Ｖ、Ａｓ、Ｓｂ、Ａｇ、Ｐｂ等元素异常。岩石、土壤、水系沉积物中Ｐｔ、Ｐｄ的分布和异常模式与铂族矿化特征、矿体剥蚀程度及其表生地球化学行为等有关。矿体出露地表时,Ｐｔ、Ｐｄ呈强异常分布,异常的ｗ（Ｐｔ）／ｗ（Ｐｄ）比值与矿石中ｗ（Ｐｔ）／ｗ（Ｐｄ）比率基本一致;隐伏矿体上方,Ｐｄ有明显的浓集,ｗ（Ｐｔ）／ｗ（Ｐｄ）比值小于地表矿体。表生环境中,Ｐｔ、Ｐｄ可以呈矿物碎屑、可溶态等多种形式迁移,在疏松沉积物中形成异常。因此,以Ｐｔ、Ｐｄ作为直接指示元素,进行地球化学勘查,可以发现这种类型的铂族矿床。     

铂族元素地球化学标准物质的研制

ＧＰｔ＿１～７系列标准物质由土壤、水系沉积物、富镁超基性岩、富铁超基性岩、含铜镍贫铂矿石及铬铁矿等不同类型７个样品组成。铂族元素的含量范围从土壤和岩石的背景含量到矿石达４～５个数量级。经方差检验样品均匀度良好。标准物质的定值分析采用了不同类型的试金和湿化学法分离富集,以原子吸收、催化比色、催化极谱、等离子体质谱、发射光谱和中子活化等方法进行测定。定值的元素为Ｐｔ、Ｐｄ、Ｏｓ、Ｒｕ、Ｉｒ、Ｒｈ６个铂族元素及Ａｕ。该系列标准物质主要适于作铂族元素地球化学勘查和铂矿勘查中铂族元素分析的量值标准与测试的质量监控。     

试论铂族元素地球化学示踪体系

试论铂族元素地球化学示踪体系李胜荣，高振敏，陈南生（中国科学院地球化学研究所，贵阳５５０００２）关键词铂族元素，地球化学示踪，典型配分型式稀土元素作为地球化学示踪剂已为人们所熟知。Ｒｕ、Ｒｈ、Ｐｄ、Ｏｓ、Ｉｒ、Ｐｔ是一组化学和物理性质颇为相似的元素，...     

铂族元素地球化学勘查方法研究——水系沉积物地球化学测量

本文着重论述了以Ｐｔ、Ｐｄ作为直接指示元素的“以铂钯找铂族矿”的水系沉积物地球化学勘查方法和技术，并以西峡、桐柏和地试点研究成果为例，阐述了该方法的实际应用意义。     

缅甸铂族金属砂矿中的矿物种类

采用电子探针分析（ＥＰＭＡ），对缅甸铂族金属砂矿中的矿物种类进行了研究。物质组成研究查明：主要组合矿物是Ｐｔ、Ｉｒ、Ｏｓ、Ｒｕ的自然元素和金属互化物。主要矿物是自然铂矿、铁铂合金、钌铱锇矿、等轴锇铱矿和铱锇矿。次要及稀有矿物是铂族金属的硫化物、砷化物、包括（Ｒｈ、Ｐｄ、Ｐｔ）２Ａｓ和（Ｒｈ、Ｐｄ、Ｐｔ、Ｎｉ）２Ａｓ两种陌生矿物、锑化物，以及含铂族元素的Ｆｅ、Ｎｉ、Ｃｕ硫化物。     

中子活化分析铂族元素的干扰反应问题

探讨了中子活化分析铂族元素的一些干扰反应，如Ａｕ对Ｐｔ的干扰，Ｕ对Ｒｕ和Ｐｄ的干扰，并就Ａｕ对Ｐｔ的干扰程度进行了详细的计算。在照射时间为１ｄ，中子注量率为１×１０１３ｎ·ｃｍ－２·ｓ－１的条件下进行计算，对于ｍＰｔ／ｍＡｕ＝１的样品，Ａｕ对Ｐｔ的干扰达７５％；ｍＰｔ／ｍＡｕ＝１０时，干扰达２３％；ｍＰｔ／ｍＡｕ＝２０，干扰为１３％，ｍＰｔ／ｍＡｕ＝３０，干扰降低为９％。这表明对于多数岩石样品Ａｕ干扰Ｐｔ相当严重，在采用中子活化法测定地质试样中Ｐｔ时必须对Ａｕ进行预分离。此外还就Ｕ对Ｒｕ和Ｐｄ的干扰情况进行了讨论，指出对于大多数超镁铁岩和硫化物矿石其干扰可以忽略或只需进行较小的校正，但对于基性岩和酸性岩就必须进行校正     

中国泛滥平原沉积物中铂,钯丰度值及地球化学省的初步研究

根据中国泛滥平原沉积物中Ｐｔ、Ｐｄ的分析结果,求得泛监平原沉积物中的Ｐｔ、Ｐｄ近似丰度值分别为０．４６ｎｇ／ｇ和０．４０ｎｇ／ｇ。据泛监平原沉积物中Ｐｔ、Ｐｄ的空间分布模式初步圈出滇黔Ｐｔ、Ｐｄ地球化学省,新疆Ｐｔ、Ｐｄ地球化学省和西藏雅布江Ｐｔ、Ｐｄ地球化学省。     

铂族元素在地壳、岩石和沉积物中的分布

随着20世纪90年代铂族元素分析测试技术的突破性进展以及大量可靠的岩石和沉积物铂族元素含量分析数据的积累,引用20世纪80年代前发表的有关铂族元素的地壳丰度和岩石、沉积物中的平均含量作为衡量标准已不适宜。根据近15年来获得的大量的有关铂族元素含量的可靠数据,综合给出了铂族元素在地壳、岩石、土壤和沉积物中的丰度。这种对地壳、岩石和沉积物中铂族元素丰度值的新认识,对理论地球化学、勘查地球化学甚至铂族元素矿产勘查工作都具有重要的意义。     

荒漠戈壁区地球化学调查方法取得重大进展

针对我国大面积的干旱荒漠戈壁中薄弱的地球化学调查工作 ,“大规模成矿作用与大型矿集区预测”项目组在国家“973”项目和地质大调查项目的支持下 ,应用深穿透地球化学方法和最新研制出的高灵敏快速活动态Ａｕ ,Ｐｔ ,Ｐｄ联测信息提取与分析方法 (ＩＣＰ＿ＭＳ活动态多元素分析方法 ,这在国内外尚数首次 ) ,在东天山 15万平方公里面积内开展了地球化学扫面实验 ,取得了如下重大进展 :1.将战略性超低密度地球化学方法与深穿透地球化学方法相结合 ,在大面积荒漠戈壁覆盖区内新发现了十余处Ｕ ,Ｃｕ ,Ａｕ ,Ｗ ,Ｐｂ＿Ｚｎ＿Ａｇ ,Ｐｔ＿Ｐｄ…     

蚀变超基性岩金（镍）矿床中的贵金属元素──以云南墨江金矿和陕西煎茶岭金矿为例

云南墨江金矿和陕西煎茶岭金矿中Ａｇ、Ａｕ和ＰＧＥ（铂族元素）的丰度和共生状况如下：（１）两矿床中的Ａｇ－Ａｕ关系呈三种情况：硅质岩型矿石和其他类型低品位金矿石中Ａｇ－Ａｕ基本上不具相关关系；石英脉型矿石中Ａｇ－Ａｕ呈明显的正相关关系；氧化矿石中Ａｇ－Ａｕ呈负相关关系。（２）所有样品中的ＰＧＥ均低于７１×１０（－６），其ＰＧＥ的特征是Ｐｔ≥Ｐｄ和Ｒｕ＞Ｏｓ、Ｉｒ、Ｒｈ。（３）这些样品的地幔标准化ＰＧＥ分布模式是以Ｒｈ为峰的上凸曲线，而墨江样品又具Ｉｒ的负异常。与一般超基性岩的情况不同，这些样品的模式曲线中Ｐｄ－Ａｕ部分呈陡弯折，它表明矿化元素金可能主要由区域成矿流体提供。     

新类型难识别矿地球化学勘查

讨论了4种新类型难识别矿的地球化学勘查研究进展,包括使用深穿透地球化学方法在吐哈盆地砂岩型铀矿的试验和在胜利油田伴生金的地表地球化学显示,从全国铂的地球化学分布看西南黑色岩系中寻找铂族元素的前景,地球化学填图增加到70余种元素分析对稀有、分散元素的研究和寻找将起到巨大的作用。     

河北高寺台杂岩体铂、钯地球化学分布和异常特征

在高寺台超镁铁杂岩体发现了2种铂族元素异常:一种异常分布在杂岩体纯橄榄岩或橄榄岩带的镁质超基性岩中,与已知的含铂族铬铁矿有关,与已知的铬、钴、镍等矿化主金属的强异常密切共生。在这种异常中,钯呈甚低的背景分布,w(Pt)/w(Pd)大;另一种铂族元素异常呈带状沿杂岩体透辉岩带及其中的剪切带分布,其异常特征是铂、钯异常密切共生,w(Pt)/w(Pd)近于1,并且,在这种异常中,不伴生铬、镍等元素的强异常。这是一种新的铂、钯等元素的地球化学富集和矿化。研究表明,采用岩石、土壤、水系沉积物铂、钯地球化学勘查技术,可以发现难识别的铂族矿化。     

Platinum-group minerals in the Santo Tomas II (Philex) porphyry copper-gold deposit,Luzon Island,Philippines

Mineralized quartz diorites of the Santo Tomas II porphyry copper-gold deposit, carry high Au contents (average: 1.8 ppm) as well as 160 ppb Pd and 38 ppb Pt. Values of other platinum-group elements (PGE) and rhenium are below the analytical detection limits. There is a significant positive correlation between Au and Cu. The highest Pd values were detected in the most Au- and Cu-rich rocks. Platinum-group minerals (PGM) occur exclusively as inclusions in chalcopyrite and bornite. Potential Pd and Pt contents in sulphide concentrates are estimated at 1.5 g/t and 0.4 g/t, respectively. The precious metal assemblages consist of merenskyite (main PGM), kotulskite, moncheite, native gold, electrum, hessite and petzite. Polyphase fluid inclusions in quartz veinlets, associated with a PGM-bearing bornite-chalcopyrite-magnetite assemblage, are characterized by high salinity (35 to > 60 eq. wt% NaCl) and high trapping temperatures (between 380 and 520 °C). They may represent primary magmatic-hydrothermal fluids, which have been responsible for the transport of Pd, Pt and Au as chloride complexes.     

Comparison of Silver and Gold Inquarting in the Fire Assay Determination of Palladium/Platinum and Rhodium in Geological Samples

The classical lead fire assay is still the most important method for the pre-concentration and separation of Ag, Au and some of the platinum-group elements (PGE) in the analysis of geological materials. The most frequently used fire assay procedure is the determination of Au, Pd and Pt with Ag as collector. When Au is used instead of Ag as a collector, Pd, Pt, Rh and possibly Ir can also be determined. In this study the recoveries by Au and Ag collectors, also called inquarts, were compared in the fire assay analysis of Pd, Pt and Rh in geological reference materials. The amount of gold to be added was optimised. Variable recoveries were obtained with Ag inquart for Rh, but a 2 mg inquart of Au gave good recoveries for all three of these elements in the analysis of reference samples of different geological materials. A procedure, alternative to scorification, to overcome interferences caused by base metals in the cupellation step is presented. The procedure involves cutting the Pb button into pieces and analysing the pieces separately. Prior to this, a homogeneity study of the lead button was made, and it showed that Pd, Pt and Rh were evenly distributed in the Pb button. All determinations were made using inductively coupled plasma-atomic emission spectrometry (ICP-AES).     

西秦岭寒武系层控金矿床中成矿元素富集规律

产于西秦岭南亚带寒武系硅岩建造中的金矿床, 是我国境内发现的一种与海底喷流作用有关的、具有独特地质特征的层控金矿床。成矿元素富集规律研究表明, 矿床中富集的元素种类十分丰富, 不仅含有具基性、超基性特征的元素群, 而且含有具酸性特征的元素群, 元素组合相当复杂。除Ａｕ 外, Ｃｕ、Ｕ、Ｍｏ、Ｓｂ、Ｖ、Ｚｎ等在局部地段亦可圈出独立的矿体。尤为重要的是, 矿床中铂族元素（ＰＧＥ）、分散元素（Ｓｅ、Ｉｎ） 的富集程度达到了综合利用的程度, 从而构成特殊的Ａｕ－Ｃｕ－Ｕ－Ｍｏ－Ｓｅ－ＰＧＥ建造矿床。     

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

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。     

等离子体质谱法直接测定地球化学样品中金铂钯

建立了王水分解地球化学样品报直接用等离子体质谱法测定Au、Pd和Pt的分析方法。方法测定下限为Au4,0ng/g,Pd3.6ng/g,Pt2.4ng/g，方法精密度（RSD，n=12）为Au14.2%,Pd3.6%-5.2%,Pt6.6%-10.8%，三个元素的线性范围都为0.02-300μg/L。采用文中制定的分析方法直接测定了国家一级地球化学标准物质中的Au、Pd、Pt，在测定下限以上的测定结果与标准值吻合。     

Abundance and distribution of PGE and Au in the island-arc mantle: implications for sub-arc metasomatism

Ultramafic xenoliths from a veined mantle wedge beneath the Kamchatka arc have non-chondritic, fractionated chondrite-normalized platinum-group element (PGE) patterns. Depleted (e.g., low bulk-rock Al₂O₃ and CaO contents) mantle harzburgites show clear enrichment in the Pd group relative to the Ir group PGEs and, in most samples, Pt relative to Rh and Pd. These PGE signatures most likely reflect multi-stage melting which selectively concentrates Pt in Pt–Fe alloys while strongly depleting the sub-arc mantle wedge in incompatible elements. Elevated gold concentrations and enrichment of strongly incompatible enrichment (e.g., Ba and Th) in some harzburgites suggest a late-stage metasomatism by slab-derived, saline hydrous fluids. Positive Pt, Pd, and Au anomalies coupled with Ir depletions in heavily metasomatized pyroxenite xenoliths probably reflect the relative mobility of the Pd and Ir groups (especially Os) during sub-arc metasomatism which is consistent with Os systematics in arc mantle nodules. Positive correlations between Pt, Pd, and Au and various incompatible elements (Hf, U, Ta, and Sr) also suggest that both slab-derived hydrous fluids and siliceous melts were involved in the sub-arc mantle metasomatism beneath the Kamchatka arc.     

Enrichment of Platinum-group Elements (PGE) and Re-Os Isotopic Tracing for Porphyry Copper (Gold) Deposits

Platinum-group elements （PGE） in PGE-rich porphyry copper （gold） deposits are mainly Pt and Pd, whereas the concentrations of other PGE （Ru, Rh, Os, Ir） are significantly low. Moreover, Pt and Pd mainly exist in sulfides in the forms of crystal lattice or tiny platinum-group mineral （PGM） inclusions. The present data show that there is a positive relationship between Pt and Pd concentrations and Cu （Au） in porphyry copper （gold） deposits. The comparison of chondrite-normalized PGE distribution patterns between the ore-bearing porphyry intrusions and ore-barren porphyry intrusions in arc setting, 187^Os/188^Os, 87^Sr/86^Sr and S isotopes for porphyry copper （gold） deposits shows that PGEs were mainly derived from the mantle, and fluids from subduction zones devoted trivial PGE to the magma. The porphyry copper （gold） deposits associated with subducted events are most probably enriched in PGE, whereas those related to crustal thickening, lithospheric delamination or underplating rarely concentrate PGE. The osmium isotopic compositions in porphyry copper （gold） deposits reveal that （187^Os/188^Os）i values are highly variable and not lower than those of primitive upper mantle （PUM） and mantle peridotite, however, osmium concentrations are commonly lower than mantle peridotite, suggesting that parental magmas of some porphyry intrusions had experienced crustal contamination during magma evolution. Experimental investigations have proved that PGE exist in the forms of Cl^- and HS^- complexes during transportation and migration of the oreforming fluids. This paper summarizes previous studies including crucial controlling factors and mechanisms for PGE enrichment, and points out that the mantle-derived magmas parental to porphyry intrusions are the prerequisite for PGE enrichment in porphyry copper （gold） deposits. Favorable physical and chemical conditions （including salinity, temperature, pressure, pH, and oxygen fugacity） in hydrothermal fluids crucially control the     

The characteristics of automobile catalyst-derived platinum group elements in road dusts and roadside soils: a case study in the Pearl River Delta region,South China

The emission of platinum group elements (PGE) from automobile catalytic converters has led to enrichment of PGE in road dusts and roadside soils in urban areas that are well above the natural background levels. This paper evaluates the source of contamination of all the PGE and Au in road dusts and roadside soils in the Pearl River Delta region, including three major cities, Shenzhen, Guangzhou and Hong Kong, South China. Samples were digested using Carius tube and analyzed by isotope dilution ICP-MS; Os was separated by distillation and other PGE by Te-coprecipitation. All samples have elevated PGE concentrations above the background values of uncontaminated soils and contain higher Pt, Pd and Rh than other PGE. The maximum values are 181 ng/g Pt, 514 ng/g Pd, 53 ng/g Rh and 1345 ng/g Au. There are clear positive correlations between Pt and Pd, Pt and Rh, and Pd and Rh, indicating that the main emitted of PGE from automobile catalyst are Pt, Pd and Rh. High concentrations of Au were also found in road dust samples from Hong Kong and Shenzhen. Dust samples with higher Os contents have lower ¹⁸⁷Os/¹⁸⁸Os ratios. Samples from Hong Kong show relatively high Pt/Rh ratios. Positive correlations between Pt and Ru, and Pt and Ir were found in Shenzhen and Hong Kong, but only positive correlations between Pt and Ir were found in Guangzhou. These different characteristics reflect different automobile catalytic systems used in Hong Kong and mainland China.