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| Advances and Problems of Re-Os Isotope Analysis of Geological Samples |
| LI Jie1, ZHANG Jing1,2, YIN Lu1,2 |
1. State Key Laboratory of Isotope Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, China;
2. University of Chinese Academy of Sciences, Beijing 100049, China |
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Abstract Over the past twenty years, with the development of analytical technology, Re-Os isotopic system has become one of the most powerful tools in isotope geochemistry. Compared with other traditional lithophile isotopic systems, both Re and Os are siderophile, chalcophile and organophilic elements. Therefore, Re-Os isotopic system can be directly used in dating metal sulphides, ultramafic rocks, and organic-rich rocks. Although wide applications of Re-Os isotope in dating and tracing, there also have some difficulties in Re-Os isotope analysis. This study here has a brief review and comparison of these issues in terms of the total procedural blank, sample digestion techniques and mafic rock reference materials.
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Alard O, Luguet A, Pearson N J, Griffin W L, Lorand J P, Gannoun A, Burton K W, O'Reilly S Y. 2005. In situ Os isotopes in abyssal peridotites bridge the isotopic gap between MORBs and their source mantle. Nature, 436(7053): 1005-1008
|
|
Becker H, Horan M F, Walker R J, Gao S, Lorand J P, Rudnick R L. 2006. Highly siderophile element composition of the Earth’s primitive upper mantle: Constraints from new data on peridotite massifs and xenoliths. Geochimica et Cosmochimica Acta, 70(17): 4528-4550
|
|
Creaser R A, Sannigrahi P, Chacko T, Selby D. 2002. Further evaluation of the Re-Os geochronometer in organic-rich sedimentary rocks: A test of hydrocarbon maturation effects in the Exshaw Formation, western Canada Sedimentary Basin. Geochimica et Cosmochimica Acta, 66(19): 3441-3452
|
|
Dale C W, Burton K W, Pearson D G, Gannoun A, Alard O, Argles T W, Parkinson I J. 2009. Highly siderophile element behaviour accompanying subduction of oceanic crust: whole rock and mineral-scale insights from a high-pressure terrain. Geochimica et Cosmochimica Acta, 73(5): 1394-1416
|
|
Selby D, Creaser R A. 2005. Direct radiometric dating of hydrocarbon deposits using rhenium-osmium isotopes. Science, 308(5726): 1293-1295
|
|
Ackerman L, Bizimis M, Haluzová E, Sláma J, Svojtka M, Hirajima T, Erban V. 2016. Re-Os and Lu-Hf isotopic constraints on the formation and age of mantle pyroxenites from the Bohemian Massif. Lithos, 256-257: 197-210
|
|
Dale C W, Luguet A, Macpherson C G, Pearson D G, Hickey-Vargas R. 2008. Extreme platinum-group element fractionation and variable Os isotope compositions in Philippine Sea Plate basalts: Tracing mantle source heterogeneity. Chemical Geology, 248(3-4): 213-238
|
|
Dale C W, Macpherson C G, Pearson D G, Hammond S J, Arculus R J. 2012. Inter-element fractionation of highly siderophile elements in the Tonga Arc due to flux melting of a depleted source. Geochimica et Cosmochimica Acta, 89: 202-225
|
|
Day J M D, Waters C L, Schaefer B F, Walker R J, Turner S. 2016. Use of hydrofluoric acid desilicification in the determination of highly siderophile element abundances and Re-Pt-Os isotope systematics in mafic-ultramafic rocks. Geostandards and Geoanalytical Research, 40(1): 49-65
|
|
Jiang S Y, Yang J H, Ling H F, Feng H Z, Chen Y Q, Chen J H. 2003. Re-Os isotopes and PGE geochemistry of black shales and intercalated Ni-Mo polymetallic sulfide bed from the Lower Cambrian Niutitang Formation, South China. Progress in Natural Science, 13(10): 788-794
|
|
Kingsley R H, Bézos A, Bézos A, Escrig S, Gannoun A, Humayun M, Meisel T, Peucker-Ehrenbrink B, Puchtel I, Sharma M, Schilling J. 2004. Interlaboratory comparison of PGE and Re in a Mid-Ocean ridge basalt. In: AGU Spring Meeting Abstracts. Washington, DC: AGU
|
|
Li J, Xu J F, Suzuki K, He B, Xu Y G, Ren Z Y. 2010. Os, Nd and Sr isotope and trace element geochemistry of the Muli picrites: Insights into the mantle source of the Emeishan Large Igneous Province. Lithos, 119(1-2): 108-122
|
|
Selby D, Creaser R A. 2003. Re-Os geochronology of organic rich sediments: An evaluation of organic matter analysis methods. Chemical Geology, 200(3-4): 225-240
|
|
Bézos A, Lorand J P, Humler E, Gros M. 2005. Platinum-group element systematics in Mid-Oceanic Ridge basaltic glasses from the Pacific, Atlantic, and Indian Oceans. Geochimica et Cosmochimica Acta, 69(10): 2613-2627
|
|
Chu Z Y, Yan Y, Chen Z, Guo J H, Yang Y H, Li C F, Zhang Y B. 2015. A Comprehensive method for precise determination of Re, Os, Ir, Ru, Pt, Pd concentrations and Os isotopic compositions in geological samples. Geostandards and Geoanalytical Research, 39(2): 151-169
|
|
Creaser R A, Papanastassiou D A, Wasserburg G J. 1991. Negative thermal ion mass spectrometry of osmium, rhenium and iridium. Geochimica et Cosmochimica Acta, 55(1): 397-401
|
|
Gannoun A, Burton K W, Day J M, Harvey J, Schiano P, Parkinson I. 2016. Highly siderophile element and Os isotope systematics of volcanic rocks at divergent and convergent plate boundaries and in intraplate settings. Reviews in Mineralogy and Geochemistry, 81(1): 651-724
|
|
Gao S, Rudnick R L, Carlson R W, McDonough W F, Liu Y S. 2002. Re-Os evidence for replacement of ancient mantle lithosphere beneath the North China craton. Earth and Planetary Science Letters, 198(3-4): 307-322
|
|
Ishikawa A, Senda R, Suzuki K, Dale C W, Meisel T. 2014. Re-evaluating digestion methods for highly siderophile element and187Os isotope analysis: Evidence from geological reference materials. Chemical Geology, 384: 27-46
|
|
Li J, Wang X C, Xu J F, Xu Y G, Tang G J, Wang Q. 2015a. Disequilibrium-induced initial Os isotopic heterogeneity in gram aliquots of single basaltic rock powders: Implications for dating and source tracing. Chemical Geology, 406: 10-17
|
|
Ravizza G, Turekian K K, Hay B J. 1991. The geochemistry of rhenium and osmium in recent sediments from the Black Sea. Geochimica et Cosmochimica Acta, 55(12): 3741-3752
|
|
Ravizza G, Turekian K K. 1989. Application of the187Re-187Os system to black shale geochronometry. Geochimica et Cosmochimica Acta, 53(12): 3257-3262
|
|
Reisberg L, Meisel T. 2002. The Re-Os isotopic system: A review of analytical techniques. Geostandards and Geoanalytical Research, 26(3): 249-267
|
|
Cohen A S, Coe A L, Bartlett J M, Hawkesworth C J. 1999. Precise Re-Os ages of organic-rich mudrocks and the Os isotope composition of Jurassic seawater. Earth and Planetary Science Letters, 167(3-4): 159-173
|
|
Harvey J, Dale C W, Gannoun A, Burton K W. 2011. Osmium mass balance in peridotite and the effects of mantle-derived sulphides on basalt petrogenesis. Geochimica et Cosmochimica Acta, 75(19): 5574-5596
|
|
Lorand J P, Luguet A. 2016. Chalcophile and siderophile elements in mantle rocks: Trace elements controlled by trace minerals. Reviews in Mineralogy and Geochemistry, 81(1): 441-488
|
|
Meisel T, Dale C W, Pearson D G, Sergeev D S. 2009. Complete sample digestions for accurate isotope measurements? The Re-Os isotope system under scrutiny. Geochimica et Cosmochimica Acta Supplement, 73: A867
|
|
Meisel T, Horan M F. 2016. Analytical methods for the highly siderophile elements. Reviews in Mineralogy and Geochemistry, 81(1): 89-106
|
|
Meisel T, Moser J, Wegscheider W. 2001. Recognizing heterogeneous distribution of platinum group elements (PGE) in geological materials by means of the Re-Os isotope system. Fresenius' Journal of Analytical Chemistry, 370(5): 566-572
|
|
Pearson D G, Irvine G J, Ionov D A, Boyd F R and Dreibus G E. 2004. Re-Os isotope systematics and platinum group element fractionation during mantle melt extraction: A study of massif and xenolith peridotite suites. Chemical Geology, 208: 29-59
|
|
Puchtel I S, Brügmann G E, Hofmann A W. 2 001. 187Os-enriched domain in an Archean mantle plume: evidence from 2.8 Ga komatiites of the Kostomuksha greenstone belt, NW Baltic Shield. Earth and Planetary Science Letters, 186(3-4): 513-526
|
|
Rehkämper M, Halliday A N. 1999. The precise measurement of Tl isotopic compositions by MC-ICPMS: application to the analysis of geological materials and meteorites. Geochimica et Cosmochimica Acta, 63(6): 935-944
|
|
Shirey S B, Walker R J. 1995. Carius tube digestion for low-blank rhenium-osmium analysis. Analytical Chemistry, 67(13): 2136-2141
|
|
Shirey S B, Walker R J. 1998. The Re-Os isotope system in cosmochemistry and high-temperature geochemistry. Annual Review of Earth and Planetary Sciences, 26: 423-500
|
|
Smoliar M I, Walker R J, Morgan J W. 1996. Re-Os ages of group ⅡA, ⅢA, IVA, and IVB iron meteorites. Science, 271(5252): 1099
|
|
李超, 屈文俊, 王登红, 陈郑辉, 杜安道. 2010. 富有机质地质样品Re-Os同位素体系研究进展. 岩石矿物学杂志, 29(4): 421-430
|
|
刘华, 屈文俊, 王英滨, 任静, 杜安道, Pašava J, 孙文静. 2008. 用三氧化铬-硫酸溶剂对黑色页岩铼-锇定年方法初探. 岩矿测试, 27(4): 245-249
|
|
屈文俊, 陈江峰, 杜安道, 李超, 王礼兵. 2012. Re-Os同位素定年对岩浆型Cu-Ni硫化物矿床成矿时代的制约. 矿床地质, 31(1): 151-160
|
|
王剑, 付修根, 杜安道, 汪正江, 陈文西. 2007. 羌塘盆地胜利河海相油页岩地球化学特征及Re-Os定年. 海相油气地质, 12(3): 21-26
|
|
Creaser R A, Stasiuk L D. 2007. Depositional age of the douglas formation, northern Saskatchewan, determined by RE-Os geochronology. In: Jefferson C W, Delaney G eds. EXTECH IV: Geology and Uranium Exploration Technology of the Proterozoic Athabasca Basin, Saskatchewan and Alberta. Canada: Bulletin of the Geological Survey, 341-346
|
|
Kendall B S, Creaser R A, Ross G M, Selby D. 2004. Constraints on the timing of Marinoan "Snowball Earth" glaciation by187Re-187Os dating of a Neoproterozoic, post-glacial black shale in western Canada. Earth and Planetary Science Letters, 222(3-4): 729-740
|
|
Meisel T, Reisberg L, Moser J, Carignan J, Melcher F, Brügmann G. 2003. Re-Os systematics of UB-N, a serpentinized peridotite reference material. Chemical Geology, 201(1-2): 161-179
|
|
Rooney A D, Chew D M, Selby D. 2011. Re-Os geochronology of the Neoproterozoic-Cambrian Dalradian Supergroup of Scotland and Ireland: Implications for Neoproterozoic stratigraphy, glaciations and Re-Os systematics. Precambrian Research, 185(3-4): 202-214
|
|
Völkening J, Walczyk T, Heumann K G. 1991. Osmium isotope ratio determinations by negative thermal ionization mass spectrometry. International Journal of Mass Spectrometry and Ion Processes, 105(2): 147-159
|
|
Wu F Y, Walker R J, Ren X W, Sun D Y, Zhou X H. 2003. Osmium isotopic constraints on the age of lithospheric mantle beneath northeastern China. Chemical Geology, 196(1-4): 107-129
|
|
Zhang J, Li J, Long X P, Sun S L, Yin L, Dai M N. 2017. Rhenium-osmium isotope measurements of geological reference material BIR-1a: Evaluation of homogeneity and implications for method validation and quality control. Geostandards and Geoanalytical Research.
|
|
Zhao P P, Li J, Zhong L F, Sun S L, Xu J F. 2014. A method for determination of PGE-Re concentrations and Os isotopic compositions in environmental materials. Analytical Methods, 6(15): 5537-5545
|
|
支霞臣. 1999. Re-Os同位素体系和大陆岩石圈地幔定年. 科学通报, 44(22): 2362-2371
|
|
Li J, Zhao P P, Liu J, Wang X C, Yang A Y, Wang G Q, Xu J F. 2015b. Reassessment of Hydrofluoric acid desilicification in the Carius tube digestion technique for Re-Os isotopic determination in geological samples. Geostandards and Geoanalytical Research, 39(1): 17-30
|
|
Moser J, Wegscheider W, Meisel T, Fellner N. 2003. An uncertainty budget for trace analysis by isotope dilution ICP-MS with proper consideration of correlation. Analytical Bioanalytical Chemistry, 377(1): 97-110
|
|
Puchtel I S, Walker R J, James O B, Kring D A. 2008. Osmium isotope and highly siderophile element systematics of lunar impact melt breccias: Implications for the late accretion history of the Moon and Earth. Geochimica et Cosmochimica Acta, 72(12): 3022-3042
|
|
Rooney A D, Selby D, Houzay J P, Renne P R. 2010. Re-Os geochronology of a Mesoproterozoic sedimentary succession, Taoudeni basin, Mauritania: Implications for basin-wide correlations and Re-Os organic-rich sediments systematics. Earth and Planetary Science Letters, 289(3-4): 486-496
|
|
Shen J J, Papanastassiou D A, Wasserburg G J. 1996. Precise Re-Os determinations and systematics of iron meteorites. Geochimica et Cosmochimica Acta, 60(15): 2887-2900
|
|
Yang G, Zimmerman A, Stein H, Hannah J. 2015. Pretreatment of nitric acid with hydrogen peroxide reduces total procedural Os blank to femtogram levels. Analytical Chemistry, 87(14): 7017-7021
|
|
Zheng G D, Suzuki K, Miyata Y, Shimizu H. 2012. Osmium concentrations and187Os/188Os ratios of three sediment reference materials. Geochemical Journal, 46(2): 143-149
|
|
Meisel T, Moser J. 2004. Reference materials for geochemical PGE analysis: New analytical data for Ru, Rh, Pd, Os, Ir, Pt and Re by isotope dilution ICP-MS in 11 geological reference materials. Chemical Geology, 208(1-4): 319-338
|
|
Rocha-Júnior E R V, Puchtel I S, Marques L S, Walker R J, Machado F B, Nardy A J R, Babinski M, Figueiredo A M G. 2012. Re-Os isotope and highly siderophile element systematics of the Paraná continental flood basalts (Brazil). Earth & planetary Science Letters, 337-338(4):164-173
|
|
Wang Z C, Becker H. 2014. Abundances of Sulfur, Selenium, Tellurium, Rhenium and Platinum-Group elements in eighteen reference materials by isotope dilution sector-field ICP-MS and negative TIMS. Geostandards and Geoanalytical Research, 38(2): 189-209
|
|
尹露, 李杰, 赵佩佩, 李超, 梁华英, 许继峰. 2015. 一种新的适合富有机质沉积岩的Re-Os同位素分析方法初探. 地球化学, 44(3): 225-237
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