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Biogeochemical cycling of chromium and chromium isotopes in the sub-tropical North Atlantic Ocean

Biogeochemical cycling of chromium and chromium isotopes in the sub-tropical North Atlantic Ocean
Biogeochemical cycling of chromium and chromium isotopes in the sub-tropical North Atlantic Ocean

Chromium (Cr) is a redox-sensitive element and because Cr isotopes are fractionated by redox and/or biological processes, the Cr isotopic composition of ancient marine sediments may be used to infer changes in past seawater oxygenation or biological productivity. While there appears to be a ‘global correlation’ between the dissolved Cr concentration and Cr isotopic composition of seawater, there is ongoing debate about the relative importance of external sources and internal cycling on shaping the distribution of dissolved Cr that needs to be resolved to validate the efficacy of using Cr isotopes as a paleo proxy. Here, we present full water column depth profiles of total dissolved Cr (Cr(VI)+Cr(III)) and dissolved Cr isotopes (δ 53Cr), together with ancillary data, for three stations along a transect (GEOTRACES GApr08) across the sub-tropical North Atlantic. Concentrations of dissolved Cr ranged between 1.84 and 2.63 nmol kg -1, and δ 53Cr values varied from 1.06 to 1.42‰. Although atmospheric dust, hydrothermal vents and seabed sediments have the potential to modify the distribution of Cr in the oceans, based on our observations, there is no clear evidence for substantial input of Cr from these sources in our study region although benthic inputs of Cr may be locally important in the vicinity of hydrothermal vents. Subsurface waters (below the surface mixed layer to 700 m water depth) were very slightly depleted in Cr (by up to ~0.4 nmol kg -1), and very slightly enriched in heavy Cr isotopes (by up to ~0.14‰), relative to deeper waters and the lowest Cr concentrations and highest δ 53Cr values coincided with lowest concentrations of colloidal (0.02 to 0.2 μm size fraction) Fe. We found no direct evidence for biological uptake of dissolved Cr in the oligotrophic euphotic zone or removal of Cr in modestly oxygen depleted waters (O 2 concentrations ~130 μmol kg -1). Rather, we suggest removal of Cr (probably in the form of Cr(III)) in subsurface waters is associated with the formation of colloid aggregates of Fe-(oxyhydr)oxides. This process is likely enhanced by the high lithogenic particle load in this region, and represents a previously unrecognized export flux of Cr. Regeneration of Cr in deeper waters leads to subtly increased levels of Cr alongside decreased δ 53Cr values at individual sites, but this trend is more obvious at the global scale, with δ 53Cr values decreasing with increasing radiocarbon age of deep waters, from 1.16 ± 0.10‰ (1SD, n=11) in deep Atlantic waters to 0.77 ± 0.10‰ (1SD, n=25) in deep Pacific waters. Removal of relatively isotopically light Cr from subsurface waters onto particulate material and regeneration of this Cr back into the dissolved phase in deep waters partly accounts for the systematic relationship between δ 53Cr and Cr concentrations in seawater discussed by other studies.

GEOTRACES, North Atlantic Ocean, chromium isotopes, particle scavenging, regeneration
2296-7745
Wang, Wenhao
b68f5405-54ec-4ff1-b600-044fabaa8909
Goring-Harford, Heather
a0d7f7d0-4593-4bd9-9482-b2d783c0ac97
Kunde, Korinna Gerda Lydia
71069d95-19b5-45eb-a571-81103caf515d
Woodward, E.M.S.
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Lohan, Maeve
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Connelly, D.P.
7120e580-6c32-4711-ae32-a2473c39011c
James, Rachael
79aa1d5c-675d-4ba3-85be-fb20798c02f4
Wang, Wenhao
b68f5405-54ec-4ff1-b600-044fabaa8909
Goring-Harford, Heather
a0d7f7d0-4593-4bd9-9482-b2d783c0ac97
Kunde, Korinna Gerda Lydia
71069d95-19b5-45eb-a571-81103caf515d
Woodward, E.M.S.
3ac3b98f-78c7-4b43-acf9-bba3253752b5
Lohan, Maeve
6ca10597-2d0f-40e8-8e4f-7619dfac5088
Connelly, D.P.
7120e580-6c32-4711-ae32-a2473c39011c
James, Rachael
79aa1d5c-675d-4ba3-85be-fb20798c02f4

Wang, Wenhao, Goring-Harford, Heather, Kunde, Korinna Gerda Lydia, Woodward, E.M.S., Lohan, Maeve, Connelly, D.P. and James, Rachael (2023) Biogeochemical cycling of chromium and chromium isotopes in the sub-tropical North Atlantic Ocean. Frontiers in Marine Science, 10, [1165304]. (doi:10.3389/fmars.2023.1165304).

Record type: Article

Abstract

Chromium (Cr) is a redox-sensitive element and because Cr isotopes are fractionated by redox and/or biological processes, the Cr isotopic composition of ancient marine sediments may be used to infer changes in past seawater oxygenation or biological productivity. While there appears to be a ‘global correlation’ between the dissolved Cr concentration and Cr isotopic composition of seawater, there is ongoing debate about the relative importance of external sources and internal cycling on shaping the distribution of dissolved Cr that needs to be resolved to validate the efficacy of using Cr isotopes as a paleo proxy. Here, we present full water column depth profiles of total dissolved Cr (Cr(VI)+Cr(III)) and dissolved Cr isotopes (δ 53Cr), together with ancillary data, for three stations along a transect (GEOTRACES GApr08) across the sub-tropical North Atlantic. Concentrations of dissolved Cr ranged between 1.84 and 2.63 nmol kg -1, and δ 53Cr values varied from 1.06 to 1.42‰. Although atmospheric dust, hydrothermal vents and seabed sediments have the potential to modify the distribution of Cr in the oceans, based on our observations, there is no clear evidence for substantial input of Cr from these sources in our study region although benthic inputs of Cr may be locally important in the vicinity of hydrothermal vents. Subsurface waters (below the surface mixed layer to 700 m water depth) were very slightly depleted in Cr (by up to ~0.4 nmol kg -1), and very slightly enriched in heavy Cr isotopes (by up to ~0.14‰), relative to deeper waters and the lowest Cr concentrations and highest δ 53Cr values coincided with lowest concentrations of colloidal (0.02 to 0.2 μm size fraction) Fe. We found no direct evidence for biological uptake of dissolved Cr in the oligotrophic euphotic zone or removal of Cr in modestly oxygen depleted waters (O 2 concentrations ~130 μmol kg -1). Rather, we suggest removal of Cr (probably in the form of Cr(III)) in subsurface waters is associated with the formation of colloid aggregates of Fe-(oxyhydr)oxides. This process is likely enhanced by the high lithogenic particle load in this region, and represents a previously unrecognized export flux of Cr. Regeneration of Cr in deeper waters leads to subtly increased levels of Cr alongside decreased δ 53Cr values at individual sites, but this trend is more obvious at the global scale, with δ 53Cr values decreasing with increasing radiocarbon age of deep waters, from 1.16 ± 0.10‰ (1SD, n=11) in deep Atlantic waters to 0.77 ± 0.10‰ (1SD, n=25) in deep Pacific waters. Removal of relatively isotopically light Cr from subsurface waters onto particulate material and regeneration of this Cr back into the dissolved phase in deep waters partly accounts for the systematic relationship between δ 53Cr and Cr concentrations in seawater discussed by other studies.

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Accepted/In Press date: 9 May 2023
Published date: 26 May 2023
Additional Information: Funding Information: This cruise was funded by the NERC-funded ZIPLOc project (NE/N001125/1). WW’s PhD studentship was funded by the Chinese Scholarship Council and the Graduate School of the National Oceanography Centre Southampton; KK’s PhD studentship was funded by the Graduate School of the National Oceanography Centre Southampton. Acknowledgments Publisher Copyright: Copyright © 2023 Wang, Goring-Harford, Kunde, Woodward, Lohan, Connelly and James.
Keywords: GEOTRACES, North Atlantic Ocean, chromium isotopes, particle scavenging, regeneration
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Identifiers

Local EPrints ID: 477886
URI: http://eprints.soton.ac.uk/id/eprint/477886
DOI: doi:10.3389/fmars.2023.1165304
ISSN: 2296-7745
PURE UUID: a8eb1ffe-5e46-4009-bc82-5ef513858428
ORCID for Wenhao Wang: ORCID iD orcid.org/0000-0003-4198-6681
ORCID for Maeve Lohan: ORCID iD orcid.org/0000-0002-5340-3108
ORCID for Rachael James: ORCID iD orcid.org/0000-0001-7402-2315

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Date deposited: 15 Jun 2023 17:04
Last modified: 17 Mar 2024 03:31

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Contributors

Author: Wenhao Wang ORCID iD
Author: Heather Goring-Harford
Author: Korinna Gerda Lydia Kunde
Author: E.M.S. Woodward
Author: Maeve Lohan ORCID iD
Author: D.P. Connelly
Author: Rachael James ORCID iD

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