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Dissolved iron in the Bermuda region of the subtropical North Atlantic Ocean: Seasonal dynamics, mesoscale variability, and physicochemical speciation

Dissolved iron in the Bermuda region of the subtropical North Atlantic Ocean: Seasonal dynamics, mesoscale variability, and physicochemical speciation
Dissolved iron in the Bermuda region of the subtropical North Atlantic Ocean: Seasonal dynamics, mesoscale variability, and physicochemical speciation
Water-column data from seven cruises in 2007–2008 reveal pronounced temporal and spatial variations in the distribution of dissolved iron (DFe, <0.4 μm) over the upper 1000 m of the Sargasso Sea near Bermuda, in the western subtropical North Atlantic Ocean. In near-surface waters, DFe exhibits a clear seasonal cycle, increasing from ~0.1–0.3 nM in spring to ~0.4–1.0 nM in summer-early fall. The observed seasonal ranges appear to reflect the extent of winter convective mixing and of summer dust deposition, both of which are closely tied to atmospheric circulation processes. Surface DFe concentrations also show significant (~two-fold) submesoscale lateral variations during summer, perhaps as a result of lateral inhomogeneities in wet deposition and wind-driven mixing. The summer vertical profiles reveal pronounced DFe minima and sometimes deeper maxima in the lower euphotic zone, which likely reflect biological uptake and shallow remineralization, and eddy-driven lateral gradients in these processes. Significant variability is also seen in the mesopelagic zone, with a DFe concentration range of ~0.4–0.7 nM at 1000 m depth, which may reflect mesoscale isopycnal displacements and/or lateral advection of iron-rich waters in the lower thermocline. Physicochemical iron speciation measurements indicate that the major fraction of DFe that accumulates in surface waters of the Sargasso Sea during summer is colloidal-sized Fe(III), which appears to be complexed by strong, iron-binding organic ligands. Concentrations of soluble iron (sFe, <0.02 μm) were considerably lower than DFe in the upper euphotic zone during summer, except over the subsurface DFe minima, where sFe accounts for ~50–100% of the DFe pool. Labile Fe(II), on average, accounted for around 20% of DFe, with maximum concentrations of around 0.1 nM in near-surface waters and in the lower thermocline. The seasonal-scale DFe changes that we have documented near Bermuda are of the same magnitude as basin-scale lateral gradients across the North Atlantic, underscoring the importance of time-series observations in understanding the behavior of trace elements in the upper ocean.
Dissolved iron, Physicochemical speciation, Sargasso Sea, Seasonal variability
0304-4203
103748
Sedwick, P.N.
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Bowie, A.R.
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Church, T.M.
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Cullen, J.T.
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Johnson, R.J.
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Lohan, M.C.
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Marsay, C.M.
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Mcgillicuddy, D.J.
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Sohst, B.M.
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Tagliabue, A.
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Ussher, S.J.
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Sedwick, P.N.
4f6c2a8e-afe2-4b89-a971-e8b086d40b48
Bowie, A.R.
b693c3a6-8975-4095-ad4b-81a5a3bb1f29
Church, T.M.
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Cullen, J.T.
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Johnson, R.J.
bdb2722a-31c1-4a88-88fa-5a6902ecb170
Lohan, M.C.
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Marsay, C.M.
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Mcgillicuddy, D.J.
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Sohst, B.M.
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Tagliabue, A.
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Ussher, S.J.
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Sedwick, P.N., Bowie, A.R., Church, T.M., Cullen, J.T., Johnson, R.J., Lohan, M.C., Marsay, C.M., Mcgillicuddy, D.J., Sohst, B.M., Tagliabue, A. and Ussher, S.J. (2020) Dissolved iron in the Bermuda region of the subtropical North Atlantic Ocean: Seasonal dynamics, mesoscale variability, and physicochemical speciation. Marine Chemistry, 219, 103748, [103748]. (doi:10.1016/j.marchem.2019.103748).

Record type: Article

Abstract

Water-column data from seven cruises in 2007–2008 reveal pronounced temporal and spatial variations in the distribution of dissolved iron (DFe, <0.4 μm) over the upper 1000 m of the Sargasso Sea near Bermuda, in the western subtropical North Atlantic Ocean. In near-surface waters, DFe exhibits a clear seasonal cycle, increasing from ~0.1–0.3 nM in spring to ~0.4–1.0 nM in summer-early fall. The observed seasonal ranges appear to reflect the extent of winter convective mixing and of summer dust deposition, both of which are closely tied to atmospheric circulation processes. Surface DFe concentrations also show significant (~two-fold) submesoscale lateral variations during summer, perhaps as a result of lateral inhomogeneities in wet deposition and wind-driven mixing. The summer vertical profiles reveal pronounced DFe minima and sometimes deeper maxima in the lower euphotic zone, which likely reflect biological uptake and shallow remineralization, and eddy-driven lateral gradients in these processes. Significant variability is also seen in the mesopelagic zone, with a DFe concentration range of ~0.4–0.7 nM at 1000 m depth, which may reflect mesoscale isopycnal displacements and/or lateral advection of iron-rich waters in the lower thermocline. Physicochemical iron speciation measurements indicate that the major fraction of DFe that accumulates in surface waters of the Sargasso Sea during summer is colloidal-sized Fe(III), which appears to be complexed by strong, iron-binding organic ligands. Concentrations of soluble iron (sFe, <0.02 μm) were considerably lower than DFe in the upper euphotic zone during summer, except over the subsurface DFe minima, where sFe accounts for ~50–100% of the DFe pool. Labile Fe(II), on average, accounted for around 20% of DFe, with maximum concentrations of around 0.1 nM in near-surface waters and in the lower thermocline. The seasonal-scale DFe changes that we have documented near Bermuda are of the same magnitude as basin-scale lateral gradients across the North Atlantic, underscoring the importance of time-series observations in understanding the behavior of trace elements in the upper ocean.

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Sedwick_et_al._2020_Iron_FeAST_accepted_paper - Accepted Manuscript
Available under License Creative Commons Attribution Non-commercial No Derivatives.
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e-pub ahead of print date: 3 January 2020
Published date: 20 February 2020
Additional Information: Funding Information: We thank the officers and crew of RV Atlantic Explorer , the numerous scientific participants in the FeAST cruises, and chief scientists Maureen Conte, John Dacey and Carl Lamborg, who allowed us to piggyback our field sampling on their shipboard programs. This research was primarily funded by the US National Science Foundation through awards OCE-0222053 , OCE-0138352 and OCE-1829833 (to PNS), and OCE-0222046 (to TMC); PNS and ARB also acknowledge support from the Institute of Marine and Antarctic Studies , the Antarctic Climate and Ecosystems CRC , and the University of Tasmania through a Visiting Scholar award, and SJU acknowledges support provided by a European Commission Marie Curie Fellowship ( PIOF-GA-2009-235418 SOLAIROS). Valery Kosnyrev is thanked for preparation of the altimetric analyses, and DJM gratefully acknowledges support from NSF and NASA . Altimeter products were produced and distributed by AVISO ( www.aviso.oceanobs.com/ ) as part of the Ssalto ground processing segment. The authors also thank three anonymous reviewers for their thoughtful comments and suggestions, which have improved the manuscript. Publisher Copyright: © 2019 Elsevier B.V.
Keywords: Dissolved iron, Physicochemical speciation, Sargasso Sea, Seasonal variability

Identifiers

Local EPrints ID: 437778
URI: http://eprints.soton.ac.uk/id/eprint/437778
DOI: doi:10.1016/j.marchem.2019.103748
ISSN: 0304-4203
PURE UUID: 9337c86c-c183-4a16-9a0a-3bf1803b21a1
ORCID for M.C. Lohan: ORCID iD orcid.org/0000-0002-5340-3108

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Date deposited: 17 Feb 2020 17:30
Last modified: 06 Jun 2024 04:20

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Contributors

Author: P.N. Sedwick
Author: A.R. Bowie
Author: T.M. Church
Author: J.T. Cullen
Author: R.J. Johnson
Author: M.C. Lohan ORCID iD
Author: C.M. Marsay
Author: D.J. Mcgillicuddy
Author: B.M. Sohst
Author: A. Tagliabue
Author: S.J. Ussher

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