Rhenium elemental and isotopic variations at magmatic temperatures

IF 3.4 1区 地球科学 Q1 GEOCHEMISTRY & GEOPHYSICS
W. Wang, A.J. Dickson, M.A. Stow, M. Dellinger, K.W. Burton, P.S. Savage, R.G. Hilton, J. Prytulak
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Abstract

Recent analytical advances in the measurement of rhenium (Re) isotope ratios allow its potential as a palaeoredox and chemical weathering proxy to be explored. However, a successful isotopic proxy must be grounded by an understanding of its composition and behaviour in the solid Earth. Here, we present Re concentrations and Re isotopic (δ187Re) compositions for a well-characterised sequence of lavas from Hekla volcano, Iceland. The concentration of Re varies from 0.02 to 1.4 ng/g, decreasing from basalt to more evolved lavas. We show that the crystallisation and removal of magnetite is responsible for the Re decrease in this system. By contrast, δ187Re values for the same suite of samples show a relatively narrow range (−0.45 to −0.22 ‰), suggesting minimal resolvable Re isotope fractionation between magnetite and the silicate melt. Together with other samples, including mid-ocean ridge basalts, these first igneous data can be used to estimate a baseline for terrestrial materials (δ187Re = −0.33 ± 0.15 ‰, 2 s.d., n = 14), from which low-temperature Re isotope variations in Earth’s surficial environments can be assessed, alongside the global isotope mass balance of Re.

Abstract Image

岩浆温度下的铼元素和同位素变化
最近在测量铼(Re)同位素比值方面取得的分析进展使我们能够探索铼作为古氧化还原和化学风化替代物的潜力。然而,一个成功的同位素替代物必须以了解其在固体地球中的组成和行为为基础。在这里,我们介绍了冰岛赫克拉(Hekla)火山熔岩序列中Re浓度和Re同位素(δ187Re)组成。Re浓度从0.02 ng/g到1.4 ng/g不等,从玄武岩到更进化的熔岩逐渐降低。我们的研究表明,磁铁矿的结晶和移除是该系统中 Re 浓度降低的原因。相比之下,同一组样品的δ187Re值范围相对较窄(-0.45至-0.22‰),表明磁铁矿与硅酸盐熔体之间可分辨的Re同位素分馏极小。连同其他样品(包括洋中脊玄武岩),这些首批火成岩数据可用于估算陆地物质的基线(δ187Re = -0.33 ± 0.15 ‰,2 s.d.,n = 14),据此可评估地球表面环境中的低温Re同位素变化,以及Re的全球同位素质量平衡。
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来源期刊
Geochemical Perspectives Letters
Geochemical Perspectives Letters Earth and Planetary Sciences-Geochemistry and Petrology
CiteScore
7.00
自引率
2.00%
发文量
42
审稿时长
15 weeks
期刊介绍: Geochemical Perspectives Letters is an open access, internationally peer-reviewed journal of the European Association of Geochemistry (EAG) that publishes short, highest-quality articles spanning geochemical sciences. The journal aims at rapid publication of the most novel research in geochemistry with a focus on outstanding quality, international importance, originality, and stimulating new developments across the vast array of geochemical disciplines.
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