Molybdenum isotope behaviour in groundwaters and terrestrial hydrothermal systems, Iceland

Molybdenum (Mo) isotopes have proved useful in the reconstruction of paleoredox conditions. Their application generally relies upon a simplified model of ocean inputs in which rivers dominate Mo fluxes to the oceans and hydrothermal fluids are considered to be a minor contribution. To date, however,...

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Bibliographic Details
Published in:Earth and Planetary Science Letters
Main Authors: Neely, Rebecca A., Gislason, Sigurdur R., Ólafsson, Magnus, McCoy-West, Alex J., Pearce, Christopher R., Burton, Kevin W.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2018
Subjects:
Mývatn
Þeistareykir
Iceland
Online Access:http://nora.nerc.ac.uk/id/eprint/519800/
https://doi.org/10.1016/j.epsl.2017.11.053
Description
Summary:Molybdenum (Mo) isotopes have proved useful in the reconstruction of paleoredox conditions. Their application generally relies upon a simplified model of ocean inputs in which rivers dominate Mo fluxes to the oceans and hydrothermal fluids are considered to be a minor contribution. To date, however, little attention has been paid to the extent of Mo isotope variation of hydrothermal waters, or to the potential effect of direct groundwater discharge to the oceans. Here we present Mo isotope data for two Icelandic groundwater systems (Mývatn and Þeistareykir) that are both influenced by hydrothermal processes. Relative to NIST 3134 = +0.25‰, the cold (<10 °C) groundwaters (δ98/95MoGROUNDWATER = −0.15‰ to +0.47‰; ) show little, if any, fractionation from the host basalt (MoBASALT = +0.16‰ to −0.12‰) and are, on average, lighter than both global and Icelandic rivers. In contrast, waters that are hydrothermally influenced (>10 °C) possess isotopically heavy δ98/95MoHYDROTHERMAL values of +0.25‰ to +2.06‰ with the possibility that the high temperature endmembers are even heavier. Although the mechanisms driving this fractionation remain unresolved, the incongruent dissolution of the host basalt and both the dissolution and precipitation of sulfides are considered. Regardless of the processes driving these variations, the δ98Mo data presented in this study indicate that groundwater and hydrothermal waters have the potential to modify ocean budget calculations.

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