共查询到19条相似文献,搜索用时 203 毫秒
1.
Re-Os同位素体系为研究地幔的成分-结构-演化提供了新的地球化学示踪和定年的工具.上地幔Os同位素组成演化的球粒陨石模型是Re-Os体系用于地幔物质定年的基础, 尤其在采用Re亏损模式年龄和Os同位素代理等时线年龄时.综合了铁陨石和各类球粒陨石、地幔橄榄岩包体和蛇绿岩豆荚状铬铁矿的Re-Os同位素体系研究的近期成果, 为认识对流上地幔Os同位素组成的演化提供了制约.对河北遵化蛇绿岩豆荚状铬铁矿岩的研究, 获得新太古代(2.5 Ga)时形成豆荚状铬铁矿的对流上地幔的187Os/188Os=0.110 2, 与球粒陨石型模式的一致.文献中常用的球粒陨石模式的参数如下: 地球形成时(4.558 Ga)初始值187Os/186Os为0.095 31, 现代值分别采用碳质球粒陨石的187Os/186Os比值为0.127 0和原始上地幔(PUM)的187Os/186Os比值为0.129 6, PUM与普通球粒陨石和顽火球粒陨石的187Os/186Os比值接近. 相似文献
2.
云南丽江苦橄岩Re-Os同位素地球化学初步研究 总被引:5,自引:0,他引:5
报导了云南丽江地区大具和仕满剖面12个苦橄岩和6个玄武岩的Re,Os含量和Os同位素组成。苦橄岩和玄武岩具有明显不同的Re-Os体系的特征。苦橄岩具有高的Os元素丰度[(1.5~3)×10-9]和低的Re元素丰度(<0.05×10-9);共生的玄武岩具有低的Os元素丰度(<0.5×10-9)和相对高的Re元素丰度(<0.8×10-9);苦橄岩具有低放射成因的 187Os/188Os 比值(0.123 3~0.126 6),而玄武岩具有高放射成因的187Os/188Os比值(0.133 8~0.157 7)。苦橄岩的Re-Os同位素特征与越南西北部二叠—三叠纪科马提岩具有低放射成因Os同位素特征相似,而玄武岩的Re-Os同位素特征与峨眉山大火成岩省(LIP)其他地区玄武岩的高放射成因的Os同位素特征相似。苦橄岩的Re-Os同位素特征表明,形成峨眉山LIP的地幔柱可能来自对流上地幔而不是深部的核-幔界面。换言之,峨眉山LIP的形成受控于岩石圈地幔过程而不是地幔柱过程。 相似文献
3.
Os同位素在花岗岩物质来源示踪中的初步研究:以湖南骑田岭岩体为例 总被引:3,自引:0,他引:3
Re-Os同位素在基性-超基性岩物质来源示踪方面已得到较广泛应用,但在酸性岩方面尚属少见。与其它同位素体系不同,Re、Os均为高亲铁元素,在岩浆分异演化过程中,Re属于中等不相容元素,Os属于强相容元素,地壳和地幔两端员Os同位素组成差别较大,因此,Re-Os同位素是研究花岗岩中是否存在幔源物质贡献的灵敏示踪剂。通过采自湖南骑田岭复式岩体三个阶段15件花岗岩全岩样品Re-Os同位素的分析,这些样品中Re、Os含量极低(Re含量0.0053~0.4539ng/g,Os含量0.0011~0.0328ng/g),Os同位素初始比值为0.3543~1.728,波动较大,显示骑田岭岩体成岩物质具有壳幔混合来源的特征。其中,早阶段与新田岭钨成矿关系密切的中粗粒似斑状角闪石黑云母花岗岩中壳源物质贡献更多一些,而晚阶段与芙蓉锡矿关系密切的细粒黑云母花岗岩幔源物质相对更多一些。Re-Os同位素的研究,不仅能够为花岗岩物质来源与成因机制的研究提供新的手段,而且,对于获取南岭重点矿集区深部成矿的地球化学信息、探索南岭矿集区壳幔相互作用过程以及幔源岩浆在不同类型矿化花岗岩形成过程中的作用也具有重要意义。 相似文献
4.
月球的化学演化 总被引:2,自引:0,他引:2
月球是一个发生了化学分异的星球,它由月壳、月幔±一个小的金属月核组成。大量观察事实显示月球曾经有过岩浆洋,岩浆洋的结晶分异主导了月球的化学演化。目前主流观点认为,月球是在太阳系演化的早期,至少45亿年前,一个火星大小的星球,与即将完成原始吸积的地球胚胎发生偏心撞击,造成地球的熔融,形成岩浆洋,飞溅出来的物质迅速吸积形成绕地球运动的月球,并且在月球上形成了全球规模的岩浆洋,进而发生了结晶分异。,由于月球上没有海洋和板块俯冲,岩浆洋分异是其化学演化的主要途径。月球岩浆洋的80%~85%在大撞击后的100Ma内已经固化,这可能是由于月球体积小、表面没有大气包裹所致。月球极贫水,因此在岩浆结晶过程中斜长石首先结晶。斜长石由于密度小于玄武质岩浆而漂浮在岩浆洋的表层,橄榄石等密度大的矿物则堆积在岩浆洋的底部。随着结晶分异的进行,残余岩浆不断富集不相容元素,包括K、U等放射性元素;与此同时,密度较大的钛铁矿开始结晶,造成高钛堆晶岩密度大于其下的橄榄石堆晶岩的不稳定结构,进而发生月幔翻转,引发一系列岩浆活动,进而形成月球上特有的镁质系列、碱质系列等岩石。由于月球氧逸度较低,Eu主要以+2价形式存在,因此斜长石高度富集Eu,相应地除高地斜长岩外,其他岩石均表现为Eu高度亏损的特点。与此同时,Re在低氧逸度下表现为强亲铁元素的特点,Re/Os在月球岩浆过程中不发生分异。月球的体积远小于地球,因而其演化时间远远短于地球,很多原始的分异被完整地保留下来。因此月球的化学演化是类地行星早期演化过程的“化石”,尽管与现代的地球存在较大差异,但是对于认识地球早期演化具有借鉴意义。 相似文献
5.
地幔中铂族元素丰度是基于地球形成理论所得计算值的两三百倍,无论是地幔中还是球粒陨石中,铂族元素之间的比值是相近的;对于这一现象有很多解释,其中被普遍接受的是:地核形成后(核幔分异完成后),大约占现在地球质量0.5%-1%的球粒陨石物质加入地幔,即可造成现在地幔中的铂族元素在丰度与比值方面的特征,这就是后增薄层模型(Late-veneer model)。但是,这一模型受到很多地幔样品铂族元素具非球粒陨石比值和高压下Co、Ni亲铁性测定结果的挑战。最近的地幔橄榄岩各相铂族元素精确测定、高压下Pt、Pd金属相与硅酸盐分配系数的测定,以及Re-Os同位素的研究都支持后增薄层模型。 相似文献
6.
对流上地幔Os同位素组成的准确估算是运用Re-Os同位素体系探讨地幔演化的基础。前人研究主要是以地幔橄榄岩为研究对象,由于地幔橄榄岩Os同位素存在明显的不均一性,因而直接影响估算值的准确性。对流上地幔中包含的不同亏损程度的难熔组分在部分熔融过程中难以熔融,对形成的熔体相的Os同位素组成贡献很少或者没有。因此,与对流上地幔具有相同的Os同位素组成初始值的早期分离结晶岩石(如堆晶岩),结合堆晶岩中锆石的准确定年,可以用来估算对流上地幔Os同位素组成。本文根据这一方法测试了那曲地区弧后盆地堆晶岩的Os同位素组成和锆石U-Pb年龄,推测那曲地区新特提斯洋对流上地幔Os同位素组成为碳质球粒陨石型的。根据这一模型,对比了罗布莎和东巧铬铁矿岩、含矿围岩以及不含矿围岩的Os同位素特征,揭示出矿石及围岩均具有古老大陆岩石圈地幔信息,而不含矿围岩(泽当岩体)的Os同位素组成为碳质球粒陨石型的,无古老大陆岩石圈地幔信息。 相似文献
7.
Pt-Os、Re-Os和Hf-W同位素体系的母体和子体Pt、Os、Re、Hf和W以及其它铂族元素(PGE)化学性质上都是难熔的,我们将这些元素和相关同位素称为难熔元素和难熔元素放射性同位素体系。难熔元素及其放射性同位素体系不仅可以直接测定金属矿床、油气藏和沉积岩系的年龄,而且还可以有效示踪地球深部的核幔反应等过程,这是其它地球化学工具不可替代的。本文评述了当前Pt-Os、Re-Os和Hf-W同位素体系和PGE元素分析技术的研究进展,指出:(1)目前Re-Os同位素定年误差仍较大,迫切需要优化改进分析技术,大幅提高Re-Os同位素定年的准确度和成功率;(2)Pt-Re-Os和W同位素的分析技术需要简化繁琐的化学分离流程和提高仪器分析的效率,同时探索建立新的化学分离和仪器分析方法,进一步提高分析精度,实现对更低Pt、Re、Os和W含量样品的准确分析,才能更有效地示踪地球深部物质循环过程;(3)PGE的元素分析技术尚需改进,分析精度仍需要进一步提升。我们预期随着进一步提升难熔元素和代表性放射性同位素的分析精度,显著降低同位素定年误差,其将在核-幔、幔-幔和壳-幔物质循环过程示踪、金属矿床精细... 相似文献
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9.
黔西地区峨眉山玄武岩(东岩区)铂族元素地球化学特征 总被引:7,自引:0,他引:7
利用同位素稀释-等离子体质谱(ICP-MS)方法测定了黔西水域、威宁等地的东岩区峨眉山玄武岩的铂族元素含量。结果表明,相对于原始地幔,东岩区峨眉山玄武岩的铂族元素发生了较强的分异作用,Os、Ir、Ru、Rh亏损,Pd、Pt发生富集,相对配分模式为Pd-Pt富集型;经球粒陨石及原始地幔标准化的铂族元素配分模式为向左陡倾斜型,具有陡的正斜率,Pd/Ir显著高于原始地幔、球粒陨石、原始上地幔等,而与地幔低度熔融形成的N-MORB、大陆拉斑玄武岩等接近,表明峨眉山玄武岩的物质来源为上地幔熔融程度偏低的玄武岩浆。 相似文献
10.
缺氧沉积物及其衍生物的Re-Os同位素定年与示踪 总被引:2,自引:0,他引:2
Os属铂族元素,其不同于亲石元素的地球化学性质使得Re-Os同位素体系在金属矿床和超基性-基性岩浆岩的定年与地球化学示踪研究中得到了广泛应用。Re、Os元素具有亲铁和一定程度的亲铜性质,能在还原环境中与硫化物和/或有机物结合而发生相对富集,因此可应用Re-Os同位素体系对缺氧环境中形成的富有机质沉积物及其衍生物进行定年与示踪研究。本文综述了近年来Re-Os地球化学在这一领域的研究新进展,包括黑色页岩中Re-Os富集机制的探讨,沉积岩的等时线法定年,风化作用、烃类成熟度和变质作用等对黑色页岩等富有机质沉积岩Re-Os同位素体系的影响,沉积环境的Os同位素示踪以及黑色页岩Os模式年龄的意义等,并对这些研究成果在石油、沥青等有机矿产的成因研究及其勘查工作中的应用前景进行了评述。 相似文献
11.
Highly siderophile elements in the Earth, Moon and Mars: Update and implications for planetary accretion and differentiation 总被引:1,自引:0,他引:1
Richard J. Walker 《Chemie der Erde / Geochemistry》2009,69(2):101-125
The highly siderophile elements (HSE) pose a challenge for planetary geochemistry. They are normally strongly partitioned into metal relative to silicate. Consequently, planetary core segregation might be expected to essentially quantitatively remove these elements from planetary mantles. Yet the abundances of these elements estimated for Earth's primitive upper mantle (PUM) and the martian mantle are broadly similar, and only about 200 times lower than those of chondritic meteorites. In contrast, although problematic to estimate, abundances in the lunar mantle may be more than twenty times lower than in the terrestrial PUM. The generally chondritic Os isotopic compositions estimated for the terrestrial, lunar and martian mantles require that their long-term Re/Os ratios were within the range of chondritic meteorites. Further, most HSE in the terrestrial PUM also appear to be present in chondritic relative abundances, although Ru/Ir and Pd/Ir ratios are slightly suprachondritic. Similarly suprachondritic Ru/Ir and Pd/Ir ratios have also been reported for some lunar impact melt breccias that were created via large basin forming events.Numerous hypotheses have been proposed to account for the HSE present in Earth's mantle. These hypotheses include inefficient core formation, lowered metal-silicate D values resulting from metal segregation at elevated temperatures and pressures (as may occur at the base of a deep magma ocean), and late accretion of materials with chondritic bulk compositions after the cessation of core segregation. Synthesis of the large database now available for HSE in the terrestrial mantle, lunar samples, and martian meteorites reveals that each of the main hypotheses has flaws. Most difficult to explain is the similarity between HSE in the Earth's PUM and estimates for the martian mantle, coupled with the striking differences between the PUM and estimates for the lunar mantle. More complex, hybrid models that may include aspects of inefficient core formation, HSE partitioning at elevated temperatures and pressures, and late accretion may ultimately be necessary to account for all of the observed HSE characteristics. Participation of aspects of each process may not be surprising as it is difficult to envision the growth of a planet, like Earth, without the involvement of each. 相似文献
12.
Highly siderophile element evidence for early solar system processes in components from ordinary chondrites 总被引:1,自引:0,他引:1
Separated magnetic and nonmagnetic components from the ordinary chondrites Dhajala (H3.8) and Ochansk (H4) were analyzed for their Re-Os isotopic compositions, as well as for the abundances of the highly siderophile elements (HSE) Re, Os, Ir, Ru, Pt and Pd. The Re-Os isotopic systematics of these components are used to constrain the timing of HSE fractionations, and assess the level of open-system behavior of these elements in each of the different components. The high precision, isotope dilution mass spectrometric analyses of the HSE are used to constrain the origins of, and possible relations between some of the diverse components present in these chondrites. The relative and absolute abundances of the HSE differ considerably among the components. Metal fractions have Re/Os that are factors of ∼2 (Dhajala) to ∼3 (Ochansk) higher than those of their nonmagnetic fractions. The isotopic data for both meteorites are consistent with the largest Re-Os fractionations occurring between metal and nonmagnetic components early in solar system history, although minor to moderate late stage, open-system behavior, and limited variations in Re/Os preclude a precise determination of the age for that fractionation. Open-system behavior is generally absent to minor in the metal fractions, and highly variable in nonmagnetic fractions. Re/Os ratios of nonmagnetic fractions deviate as much as 40% from a primordial isochron. Although some deviations are large for isochron applications, nearly all are negligible with respect to consideration of fractionation processes controlling the HSE.Metal from both meteorites contains about 90% of the total budget of HSE. Metal in Ochansk has ∼2 to 10 times the abundances of the bulk meteorite, while metal from the matrix of Dhajala has ∼2 to 4 times the abundances of the bulk. Fine metal in both meteorites has higher abundances than coarse metal, as has been previously observed. Nonmagnetic components, consisting of chondrules and matrix from which metal was removed in the laboratory, have highly fractionated HSE, characterized by much lower Re/Os than the bulk meteorites, as well as large relative depletions in Pd. The abundances of Re, Os, Ir, Ru and Pt in the nonmagnetic fractions are 14-120 ng/g, much higher than would be expected if they had equilibrated with the metal phases present (150-16,000 ng/g). Collectively, the data are consistent with the HSE budget in ordinary chondrites being dominated by two HSE-bearing carrier phases with distinct compositions. These phases formed separately, and never subsequently equilibrated. Metal components incorporated a HSE carrier that formed at high through moderate temperatures and relatively high pressures, such that the relatively volatile Pd behaved coherently with the more refractory HSE. Nonmagnetic fractions from both chondrules and matrix have HSE compositions that likely require at least two processes that fractionated the HSE. Depletions in Pd are consistent with the presence of HSE carriers that formed as either highly refractory condensates, or residues of high degrees of metal melting. Depletions in Re may implicate a period of relatively high fO2 during which a volatile form of Re was separated from the other HSE. 相似文献
13.
Re-Os同位素体系在蛇绿岩应用研究中的进展 总被引:2,自引:1,他引:2
Re-Os不同于由亲石元素构成的同位素体系,在原始上地幔(PUN)部分熔融过程中,母体Re是中等不相容元素,优先进入熔体相,子体Os是强相容元素,富集在残留相中,是研究蛇绿岩的极好示踪剂。在蛇绿岩应用研究中已经取得了4个方面的进展:(1)明确了熔体相的Re/Os和^187Os/^188Os比值高,而残留相的低;(2)铬铁矿中铂族元素矿物(PGM)的Re亏损年龄(TRD)证实了蛇绿岩中复杂的超镁铁岩体是多阶段部分熔融的产物;(3)现代大洋橄榄岩和玄武岩的Re-Os同位素研究表明熔体相和残留相的^187Os/^188Os比值在高于亏损地幔值(DMM)的部分是一致的,而低于DMM的存在不一致性,为研究蛇绿岩中熔体相与残留相是否存在“耦合”关系提供了新的制约因素;(4)揭示了蛇绿岩地幔橄榄岩中含有古大陆岩石圈地幔,这是前所未知的。虽然取得了不少进展,但是由于Re-Os同位素体系用于蛇绿岩研究的时间较短,尚存在一些问题,如显生宙蛇绿岩地幔橄榄岩的定年问题,有待进一步深化研究。 相似文献
14.
汉诺坝玄武岩Re-Os同位素地球化学——Re的挥发性丢失和壳-幔相互作用的证据 总被引:1,自引:0,他引:1
本文报道了采自汉诺坝玄武岩区周坝和白龙硐剖面以及白布洛张20井等地29个玄武岩样品的Re、Os含量和~(187)Os/~(188)Os比值。Os含量为11×10~(-12)~314×10~(-12),Re含量为40×10~(-12)~238×10~(-12),Re和Os含量有正相关趋势。碱性玄武岩(AK)的Re、Os含量高于拉斑玄武岩(TH)和过渡玄武岩(TR),玄武岩Os含量变化与分离结晶作用有关,玄武岩的低Re含量与地面喷发的火山岩浆脱气过程中Re的挥发性丢失作用有关。玄武岩的~(187)Os/~(188)Os比值为0.14735~0.61136,AK的~(187)Os/~(188)Os比值比TH和TR低且变化小。玄武岩的~(187)Os/~(188)Os比值与Os含量有负相关性。随着Os含量降低到小于75×10~(-12),~(187)Os/~(188)Os比值迅速升高,反映了地壳混染在TH和TR成因中的贡献。在以往的研究中没有观察到类似的地壳混染作用,说明了Re-Os同位素体系在示踪壳源物质上的优势。一些Os含量较高的TH的~(187)Os/~(188)Os比值表明其地幔源区既非亏损的又非经交代富集的SCLM,可能是混入了地壳俯冲物质的"Marble cake"型地幔。总之,汉诺坝玄武岩的Re-Os同位素地球化学研究支持了以往研究的主要成果,两类玄武岩地球化学差异性和异源成因论;分离结晶和部分熔融过程在玄武岩成因中的重要作用;碱性玄武岩的成因与地幔柱的关系等。同时揭示了一些新的现象:汉诺坝玄武岩形成中存在少量的地壳混染作用;地面喷发的火山熔岩在脱气过程中Re的挥发性丢失;拉斑玄武岩的源区更有可能为"Marble cake"型地幔。 相似文献
15.
Osmium, Ru, Ir, Pt, Pd and Re abundances and 187Os/188Os data on peridotites were determined using improved analytical techniques in order to precisely constrain the highly siderophile element (HSE) composition of fertile lherzolites and to provide an updated estimate of HSE composition of the primitive upper mantle (PUM). The new data are used to better constrain the origin of the HSE excess in Earth’s mantle. Samples include lherzolite and harzburgite xenoliths from Archean and post-Archean continental lithosphere, peridotites from ultramafic massifs, ophiolites and other samples of oceanic mantle such as abyssal peridotites. Osmium, Ru and Ir abundances in the peridotite data set do not correlate with moderately incompatible melt extraction indicators such as Al2O3. Os/Ir is chondritic in most samples, while Ru/Ir, with few exceptions, is ca. 30% higher than in chondrites. Both ratios are constant over a wide range of Al2O3 contents, but show stronger scatter in depleted harzburgites. Platinum, Pd and Re abundances, their ratios with Ir, Os and Ru, and the 187Os/188Os ratio (a proxy for Re/Os) show positive correlations with Al2O3, indicating incompatible behavior of Pt, Pd and Re during mantle melting. The empirical sequence of peridotite-melt partition coefficients of Re, Pd and Pt as derived from peridotites () is consistent with previous data on natural samples. Some harzburgites and depleted lherzolites have been affected by secondary igneous processes such as silicate melt percolation, as indicated by U-shaped patterns of incompatible HSE, high 187Os/188Os, and scatter off the correlations defined by incompatible HSE and Al2O3. The bulk rock HSE content, chondritic Os/Ir, and chondritic to subchondritic Pt/Ir, Re/Os, Pt/Re and Re/Pd of many lherzolites of the present study are consistent with depletion by melting, and possibly solid state mixing processes in the convecting mantle, involving recycled oceanic lithosphere. Based on fertile lherzolite compositions, we infer that PUM is characterized by a mean Ir abundance of 3.5 ± 0.4 ng/g (or 0.0080 ± 0.0009*CI chondrites), chondritic ratios involving Os, Ir, Pt and Re (Os/IrPUM of 1.12 ± 0.09, Pt/IrPUM = 2.21 ± 0.21, Re/OsPUM = 0.090 ± 0.002) and suprachondritic ratios involving Ru and Pd (Ru/IrPUM = 2.03 ± 0.12, Pd/IrPUM = 2.06 ± 0.31, uncertainties 1σ). The combination of chondritic and modestly suprachondritic HSE ratios of PUM cannot be explained by any single planetary fractionation process. Comparison with HSE patterns of chondrites shows that no known chondrite group perfectly matches the PUM composition. Similar HSE patterns, however, were found in Apollo 17 impact melt rocks from the Serenitatis impact basin [Norman M.D., Bennett V.C., Ryder G., 2002. Targeting the impactors: siderophile element signatures of lunar impact melts from Serenitatis. Earth Planet. Sci. Lett, 217-228.], which represent mixtures of chondritic material, and a component that may be either of meteoritic or indigenous origin. The similarities between the HSE composition of PUM and the bulk composition of lunar breccias establish a connection between the late accretion history of the lunar surface and the HSE composition of the Earth’s mantle. Although late accretion following core formation is still the most viable explanation for the HSE abundances in the Earth’s mantle, the “late veneer” hypothesis may require some modification in light of the unique PUM composition. 相似文献
16.
Separation of a metal-rich core strongly depleted the silicate portion of the Earth in highly siderophile elements (HSE), including Pt, Re, and Os. To address the issues of how early differentiation, partial melting, and enrichment processes may have affected the relative abundances of the HSE in the upper mantle, 187Os/188Os and 186Os/188Os data for chondrites are compared with data for Os-rich alloys from upper mantle peridotites. Given that 187Os and 186Os are decay products of 187Re and 190Pt, respectively, these ratios can be used to constrain the long-term Re/Os and Pt/Os of mantle reservoirs in comparison to chondrites. Because of isotopic homogeneity, H-group ordinary and other equilibrated chondrites may be most suitable for defining the initial 186Os/188Os of the solar system. The 186Os/188Os ratios for five H-group ordinary chondrites range only from 0.1198384 to 0.1198408, with an average of 0.1198398 ± 0.0000016 (2σ). Using the measured Pt/Os and 186Os/188Os for each chondrite, the calculated initial 186Os/188Os at 4.567 Ga is 0.1198269 ± 0.0000014 (2σ). This is the current best estimate for the initial 186Os/188Os of the bulk solar system. The mantle evolution of 186Os/188Os can be defined via examination of mantle-derived materials with well-constrained ages and low Pt/Os. Two types of mantle-derived materials that can be used for this task are komatiites and Os-rich alloys. The alloys are particularly valuable in that they have little or no Re or Pt, thus, when formed, evolution of both 187Os/188Os and 186Os/188Os ceases. Previously published results for an Archean komatiite and new results for Os-rich alloys indicate that the terrestrial mantle evolved with Pt-Os isotopic systematics that were indistinguishable from the H-group ordinary and some enstatite chondrites. This corresponds to a Pt/Os of 2.0 ± 0.2 for the primitive upper mantle evolution curve. This similarity is consistent with previous arguments, based on the 187Os/188Os systematics and HSE abundances in the mantle, for a late veneer of materials with chondritic bulk compositions controlling the HSE budget of the upper mantle. It is very unlikely that high pressure metal-silicate segregation leading to core formation can account for the elemental and isotopic compositions of HSE in the upper mantle. 相似文献
17.
云南马关地区岩石圈地幔组成和年龄:地幔橄榄岩包体的Re-Os同位素限制 总被引:3,自引:2,他引:1
本文对马关地区新生代碱性玄武岩中的地幔包体进行了系统的岩石学和地球化学研究,并首次进行了包体的Re-Os同位素测试。马关地区的橄榄岩包体主量成分上表现为饱满肥沃的特征;具有不同程度的轻稀土亏损特征,亏损Nb、Ti和Zr等高场强元素(HFSE)以及Ba等大离子亲石元素(LILE);橄榄岩包体的Nd同位素特征表明橄榄岩包体代表的是不均一的亏损地幔。5个橄榄岩全岩样品的Re-Os同位素分析结果表明,样品的Os含量总体较高(3.29×10-9~3.78×10-9),接近于造山带橄榄岩体的Os含量,Re含量变化范围较大(0.24×10-9~0.54×10-9),与Re的迁移能力较强有关。样品的187Os/188Os值在0.12295~0.12530之间变化,与187Re/188Os值和Al2O3含量之间都不存在较好的相关性,说明Re-Os体系不单纯由熔体抽取过程所控制。橄榄岩包体的Re亏损年龄tRD为254~604Ma,说明马关地区岩石圈地幔形成的时代应该在新元古代之前。马关地区岩石圈地幔并非是由软流圈上涌新增生的地幔,而是经历了如下演化历史:在新元古代之前,由原始地幔的部分熔融和熔体抽取作用形成了岩石圈地幔,之后经历了熔/流体交代和改造而发生了再富集作用,导致部分地幔橄榄岩逐渐从亏损难熔的特征向饱满肥沃转变,而未遭受熔/流体的改造的橄榄岩仍然保持了难熔亏损的特征。这种熔/流体交代和改造作用很可能与晚二叠纪峨眉山地幔柱的活动有关,而新生代以来印度-亚洲大陆碰撞导致地幔物质向东南方向的侧向流动,诱发软流圈上涌和马关地区的钾质岩浆的活动,也对马关地区岩石圈地幔的改造具有重要的影响,但由于喷发时间较新对Os同位素组成的影响还未显现出来。 相似文献
18.
In order to constrain the highly siderophile elements (HSE: Re and platinum group elements (PGE: Os, Ir, Ru, Pt and Pd)) host mineral(s) in refractory, base metal sulfide-free mantle residues, four very depleted spinel-harzburgites from the Lherz massif (France) have been analyzed for HSE in whole-rock and in major mineral separates (olivine, orthopyroxene, clinopyroxene and spinel) by isotope dilution. In addition, HSE host minerals have been separated and analyzed with a scanning electron microscope. Olivine and spinel show the highest HSE concentration especially for Os, Ir, Ru and Pt (up to 10 ppb) among the modally-major minerals, while the pyroxenes are 1-2 orders of magnitude poorer in HSE. The major minerals account for less than 30% of the whole-rock platinum group element budget. On the other hand, rare, micron to submicron platinum group minerals (PGM), such as Ru-Os ± Ir sulfides and Pt-Ir ± Os alloys, likely located in the intergranular spaces of the refractory depleted harzburgite, account for 50-100% of the HSE budget. The PGM grains are interpreted to be residual, having formed in response to the complete consumption of the base-metal sulfides by the high degree of partial melting (i.e. 23-24%) experienced by these samples. As they sequester the compatible platinum group elements (Os, Ir, Ru and Pt) in the mantle residue, these PGM provide key constraints for the modelling of PGE contents in terrestrial basalts (e.g. the solid/liquid partition coefficients needed to account for the compatible behavior of these elements in the mantle residue) and for understanding the long-lived Os isotope heterogeneities of the upper mantle, especially the old Re-Os ages found in young oceanic mantle. In fact, because of their Os-rich compositions and high melting temperatures, these microphases are likely to preserve their initial Os isotopic compositions unmodified over multiple events of mantle melting and mixing, and therefore generate, through recycling, heterogeneous Os isotopic signatures at different scales in the convecting mantle. 相似文献
19.
I. Puchtel G. Brügmann A. Hofmann V. Kulikov V. Kulikova 《Contributions to Mineralogy and Petrology》2001,140(5):588-599
The Vetreny belt in the southeast Baltic Shield is a large volcano-sedimentary basin containing a 4- to 8-km-thick sequence of basaltic to komatiitic lavas, which were erupted ~2.45 Ga ago in a continental rift setting during the interaction of a mantle plume and the Archean continental crust of the Karelian granite-greenstone terrane. Re-Os isotope data for olivine cumulate samples and chromite separates from Victoria's lava lake and Golets flow 3 define isochrons with ages of 2387ᇍ and 2432ᆶ Ma, respectively. These ages are in good agreement with the previously reported, and new, Nd-Pb and U-Pb zircon ages. These data, coupled with the evidence for immobile behavior of the Re and Os, indicate that the Re-Os system remained closed since the lava eruption. The weighted average initial %187Os values range between -0.43ǂ.10 for Golets flow 3 and -0.07ǂ.13 for the lava lake. A single chromite separate from Golets flow 1 has a %187Os(T) of -0.06ǂ.15. Nd-Pb isotope and lithophile trace element data for the Vetreny belt komatiitic basalts were used to monitor the effect of crustal contamination on the Os isotope system and to estimate the initial Os isotope composition of the Vetreny plume source to be approximately chondritic with a %187Os(T) of -0.9. This implies that the mantle source evolved with a long-term nearly chondritic Re/Os ratio. The data provide further evidence that, by the end of the late Archean, the Earth's upper mantle was well homogenized with respect to the highly siderophile elements, added during the accretion of a late veneer, on a time scale of ~1 Ga. 相似文献