Time scales and mechanisms of uranium uptake in altered ocean crust; observations from the ~15 million year-old Site 1256 in the eastern equatorial Pacific
Time scales and mechanisms of uranium uptake in altered ocean crust; observations from the ~15 million year-old Site 1256 in the eastern equatorial Pacific
The alteration of ocean crust through hydrothermal seawater circulation facilitates chemical exchange between Earth’s surface and interior. Hydrothermal alteration leads to uranium (U) removal from seawater and net U uptake by the ocean crust, particularly during low temperature alteration that occurs on the vast ocean ridge flanks away from the spreading axes. Determining the timescales of U uptake and its associated 238U/235U signature has important implications for understanding U exchange processes during subduction and recycling into the mantle. Here we study the U systematics of ~15 million year-old ocean crust drilled at Site 1256 on the eastern flank of the East Pacific Rise. Analysis of cores from the upper ~1300 meters of intact ocean crust at this site, reveal large variability in U concentrations and 238U/235U ratios. Many of the samples from the upper ~600 meters of extrusive lavas have elevated U concentrations and 238U/235U ratios lower than seawater, consistent with mechanisms of U uptake under relatively oxidised conditions. Samples from the underlying sheeted dikes and gabbros show evidence for hydrothermal U mobilisation, but negligible net U uptake. In contrast, in the transition zone between the extrusive lavas and the sheeted dikes, samples revealed large U enrichments and high 238U/235U ratios above seawater. This is consistent with uptake of the reduced U+4 species under relatively reducing conditions from seawater-derived hydrothermal fluids. In addition, large secular disequilibrium in 234U/238U ratios from samples in the lava-dike transition and upper sheeted dikes give evidence for U mobility within the last ~1.5 million years, likely driven by deep channelled flow of seawater- derived hydrothermal fluids combined with preferential leaching of 234U from the rock matrix. Both the total estimated U uptake and mean 238U/235U at Site 1256 is lower than similar estimates from significantly older (>100 million years) altered ocean crusts at drill Sites 801 and 417/418. This shows the variable total U uptake and 238U/235U ratio in altered ocean crust over time, which needs to be taken into consideration when estimating global U budgets.
234U/238U, 238U/235U, IODP, ODP Site 1256, altered ocean crust, uranium isotopes
142-159
Andersen, Morten B.
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Kubby, Joel B.
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Freymuth, Heye
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Vils, Flurin
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Harris, Michelle
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Cooper, Kari
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Teagle, Damon A.H.
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Elliott, Tim
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Andersen, Morten B.
e421a655-58eb-496d-bcec-22ffc885bea1
Kubby, Joel B.
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Freymuth, Heye
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Vils, Flurin
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Harris, Michelle
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Cooper, Kari
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Teagle, Damon A.H.
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Elliott, Tim
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Andersen, Morten B., Kubby, Joel B., Freymuth, Heye, Vils, Flurin, Harris, Michelle, Cooper, Kari, Teagle, Damon A.H. and Elliott, Tim
(2024)
Time scales and mechanisms of uranium uptake in altered ocean crust; observations from the ~15 million year-old Site 1256 in the eastern equatorial Pacific.
Geochimica et Cosmochimica Acta, 382, .
(doi:10.1016/j.gca.2024.07.028).
Abstract
The alteration of ocean crust through hydrothermal seawater circulation facilitates chemical exchange between Earth’s surface and interior. Hydrothermal alteration leads to uranium (U) removal from seawater and net U uptake by the ocean crust, particularly during low temperature alteration that occurs on the vast ocean ridge flanks away from the spreading axes. Determining the timescales of U uptake and its associated 238U/235U signature has important implications for understanding U exchange processes during subduction and recycling into the mantle. Here we study the U systematics of ~15 million year-old ocean crust drilled at Site 1256 on the eastern flank of the East Pacific Rise. Analysis of cores from the upper ~1300 meters of intact ocean crust at this site, reveal large variability in U concentrations and 238U/235U ratios. Many of the samples from the upper ~600 meters of extrusive lavas have elevated U concentrations and 238U/235U ratios lower than seawater, consistent with mechanisms of U uptake under relatively oxidised conditions. Samples from the underlying sheeted dikes and gabbros show evidence for hydrothermal U mobilisation, but negligible net U uptake. In contrast, in the transition zone between the extrusive lavas and the sheeted dikes, samples revealed large U enrichments and high 238U/235U ratios above seawater. This is consistent with uptake of the reduced U+4 species under relatively reducing conditions from seawater-derived hydrothermal fluids. In addition, large secular disequilibrium in 234U/238U ratios from samples in the lava-dike transition and upper sheeted dikes give evidence for U mobility within the last ~1.5 million years, likely driven by deep channelled flow of seawater- derived hydrothermal fluids combined with preferential leaching of 234U from the rock matrix. Both the total estimated U uptake and mean 238U/235U at Site 1256 is lower than similar estimates from significantly older (>100 million years) altered ocean crusts at drill Sites 801 and 417/418. This shows the variable total U uptake and 238U/235U ratio in altered ocean crust over time, which needs to be taken into consideration when estimating global U budgets.
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Andersen_etal_2024_1256D_U_Accepted
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More information
Accepted/In Press date: 22 July 2024
e-pub ahead of print date: 26 July 2024
Keywords:
234U/238U, 238U/235U, IODP, ODP Site 1256, altered ocean crust, uranium isotopes
Identifiers
Local EPrints ID: 492878
URI: http://eprints.soton.ac.uk/id/eprint/492878
ISSN: 0016-7037
PURE UUID: 51d63c96-6e1a-407f-85ea-160a23d8c26d
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Date deposited: 19 Aug 2024 16:40
Last modified: 14 Sep 2024 01:37
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Contributors
Author:
Morten B. Andersen
Author:
Joel B. Kubby
Author:
Heye Freymuth
Author:
Flurin Vils
Author:
Michelle Harris
Author:
Kari Cooper
Author:
Tim Elliott
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