Investigation and Application of Thallium Isotope Fractionation

1区 地球科学 Q1 Earth and Planetary Sciences Reviews in Mineralogy & Geochemistry Pub Date : 2017-01-01 DOI:10.2138/RMG.2017.82.18
S. Nielsen, M. Rehkämper, J. Prytulak
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引用次数: 69

Abstract

This contribution summarizes the current state of understanding and recent advances made in the field of stable thallium (Tl) isotope geochemistry. High precision measurements of Tl isotope compositions were developed in the late 1990s with the advent of multiple collector inductively coupled plasma mass spectrometry (MC-ICPMS) and subsequent studies revealed that Tl, despite the small relative mass difference of the two isotopes, exhibits substantial stable isotope fractionation, especially in the marine environment. The most fractionated reservoirs identified are ferromanganese sediments with ɛ 205 Tl ≈ +15 and low temperature altered oceanic crust with ɛ 205 Tl ≈ −20. The total isotopic variability of more than 35 ɛ 205 Tl-units hence exceeds the current analytical reproducibility of the measurement technique by more than a factor of 70. This isotopic variation can be explained by invoking a combination of conventional mass dependent equilibrium isotope effects and nuclear field shift isotope fractionation, but the specific mechanisms are still largely unaccounted for. Thallium isotopes have been applied to investigate paleoceanographic processes in the Cenozoic and there is evidence to suggest that Tl isotopes may be utilized as a monitor of the marine manganese oxide burial flux over million year time scales. In addition, Tl isotopes can be used to calculate the magnitude of hydrothermal fluid circulation through ocean crust. It has also been shown that the subduction of marine ferromanganese sediments can be detected with Tl isotopes in lavas erupted in subduction zone settings as well as in ocean island basalts. Meteorite samples display Tl isotope variations that exceed the terrestrial range with a total variability of about 50 ɛ 205 Tl. The large isotopic diversity, however, is generated by both stable Tl isotope fractionations, which reflect the highly volatile and labile cosmochemical nature of the element, and radiogenic decay of extinct 205 Pb to 205 Tl with a half-life of about 15 Ma. The difficulty of deconvolving these two sources of isotopic variability restricts the utility of both the 205 Pb– 205 Tl chronometer and the Tl stable isotope system to inform on early solar system processes.
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铊同位素分馏技术的研究与应用
本文综述了稳定铊(Tl)同位素地球化学研究的现状和最新进展。20世纪90年代末,随着多收集器电感耦合等离子体质谱(MC-ICPMS)的出现,对Tl同位素组成的高精度测量得到了发展,随后的研究表明,尽管两种同位素的相对质量差很小,但Tl表现出大量稳定的同位素分异,特别是在海洋环境中。已发现的储层分异程度最高的是ε 205 Tl≈+15的锰铁沉积和ε 205 Tl≈−20的低温蚀变洋壳。因此,超过35 × 205 tl -单位的总同位素变异性超过了目前测量技术的分析再现性70倍以上。这种同位素变化可以通过调用传统的质量依赖平衡同位素效应和核场移位同位素分馏的组合来解释,但具体的机制仍然在很大程度上没有解释。铊同位素已被用于研究新生代的古海洋过程,有证据表明,铊同位素可用于监测百万年时间尺度上的海洋氧化锰埋藏通量。此外,Tl同位素还可用于计算通过海洋地壳的热液循环的大小。研究还表明,在俯冲带和洋岛玄武岩喷发的熔岩中,可以用Tl同位素检测海相锰铁沉积物的俯冲作用。陨石样品的Tl同位素变化超过了地球范围,总变异率约为50 / 205 Tl。然而,大的同位素多样性是由稳定的Tl同位素分异产生的,这反映了元素的高度挥发性和不稳定的宇宙化学性质,以及已灭绝的205 Pb到205 Tl的放射性衰变,半衰期约为15 Ma。这两个同位素变率源的反褶积的困难限制了205pb - 205tl计时器和Tl稳定同位素系统在早期太阳系过程中的应用。
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来源期刊
Reviews in Mineralogy & Geochemistry
Reviews in Mineralogy & Geochemistry 地学-地球化学与地球物理
CiteScore
8.30
自引率
0.00%
发文量
39
期刊介绍: RiMG is a series of multi-authored, soft-bound volumes containing concise reviews of the literature and advances in theoretical and/or applied mineralogy, crystallography, petrology, and geochemistry. The content of each volume consists of fully developed text which can be used for self-study, research, or as a text-book for graduate-level courses. RiMG volumes are typically produced in conjunction with a short course but can also be published without a short course. The series is jointly published by the Mineralogical Society of America (MSA) and the Geochemical Society.
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