Rhenium elemental and isotopic variations at magmatic temperatures

Wang, W.; Dickson, A.J.; Stow, M.A.; Dellinger, M.; Burton, K.W.; Savage, P.S.; Hilton, R.G.; Prytulak, J.

doi:10.7185/geochemlet.2402

Geochem. Persp. Let.

2024

DOI: 10.7185/geochemlet.2402

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Rhenium elemental and isotopic variations at magmatic temperatures

W. Wang,

A.J. Dickson,

M.A. Stow

et al.

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 (δ 187 Re) 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 m… Show more

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Cited by 5 publications

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Rhenium Isotope Reconnaissance of Uranium Ore Concentrates

Sullivan,

Brennecka,

Grant

et al. 2024

Earth and Planetary Science Letters

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Rhenium Isotope Reconnaissance of Uranium Ore Concentrates

Sullivan,

Brennecka,

Grant

et al. 2024

Earth and Planetary Science Letters

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Rhenium isotope variations in Icelandic groundwaters and hydrothermal systems

Wang,

Dickson,

Dellinger

et al. 2024

Earth and Planetary Science Letters

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The Global Biogeochemical Cycle of Rhenium

Ghazi,

Grant,

Chappaz

et al. 2024

Global Biogeochemical Cycles

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This paper is the first comprehensive synthesis of what is currently known about the different natural and anthropogenic fluxes of rhenium (Re) on Earth's surface. We highlight the significant role of anthropogenic mobilization of Re, which is an important consideration in utilizing Re in the context of a biogeochemical tracer or proxy. The largest natural flux of Re derives from chemical weathering and riverine transport to the ocean (dissolved = 62 × 106 g yr−1 and particulate = 5 × 106 g yr−1). This review reports a new global average [Re] of 16 ± 2 pmol L−1, or 10 ± 1 pmol L−1 for the inferred pre‐anthropogenic concentration without human impact, for rivers draining to the ocean. Human activity via mining (including secondary mobilization), coal combustion, and petroleum combustion mobilize approximately 560 × 106 g yr−1 Re, which is more than any natural flux of Re. There are several poorly constrained fluxes of Re that merit further research, including: submarine groundwater discharge, precipitation (terrestrial and oceanic), magma degassing, and hydrothermal activity. The mechanisms and the main host phases responsible for releasing (sources) or sequestrating (sinks) these fluxes remain poorly understood. This study also highlights the use of dissolved [Re] concentrations as a tracer of oxidation of petrogenic organic carbon, and stable Re isotopes as proxies for changes in global redox conditions.

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Rhenium elemental and isotopic variations at magmatic temperatures

Cited by 5 publications

References 32 publications

Rhenium Isotope Reconnaissance of Uranium Ore Concentrates

Rhenium Isotope Reconnaissance of Uranium Ore Concentrates

Rhenium isotope variations in Icelandic groundwaters and hydrothermal systems

The Global Biogeochemical Cycle of Rhenium

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