Influence of atmospheric inputs on the iron distribution in the subtropical North-East Atlantic Ocean
Influence of atmospheric inputs on the iron distribution in the subtropical North-East Atlantic Ocean
Aerosol (soluble and total) iron and water-column dissolved (DFe, < 0.2 ?m) and total dissolvable (TDFe, unfiltered) iron concentrations were determined in the Canary Basin and along a transect towards the Strait of Gibraltar, in order to sample across the Saharan dust plume. Cumulative dust deposition fluxes estimated from direct aerosol sampling during our one-month cruise are representative of the estimated deposition fluxes based on near surface water dissolved aluminium concentrations measured on board. Iron inventories in near surface waters combined with flux estimates confirmed the relatively short residence time of DFe in waters influenced by the Saharan dust plume (6–14 months). Enhanced near surface water concentrations of DFe (5.90–6.99 nM) were observed at the Strait of Gibraltar mainly due to inputs from metal-rich rivers. In the Canary Basin and the transect towards Gibraltar, DFe concentrations (0.07–0.76 nM) were typical of concentrations observed in the surface North Atlantic Waters, with the highest concentrations associated with higher atmospheric inputs in the Canary Basin. Depth profiles showed that DFe and TDFe were influenced by atmospheric inputs in this area with an accumulation of aeolian Fe in the surface waters. The sub-surface minimum of both DFe and TDFe suggests that a simple partitioning between dissolved and particulate Fe is not obvious there and that export may occur for both phases. At depths of around 1000–1300 m, both regeneration and Meddies may explain the observed maximum. Our data suggest that, in deep waters, higher particle concentrations likely due to dust storms may increase the scavenging flux and thus decrease DFe concentrations in deep waters.
Dissolved iron, Total dissolvable iron, Aerosol deposition, Solubility, Scavenging, Regional terms: North-East Atlantic, Canary Basin, Madeira, Gibraltar
186-202
Sarthou, G.
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Baker, A.R.
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Kramer, J.
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Laan, P.
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Laes, A.
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Ussher, S.
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Achterberg, E.P.
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de Baar, H.J.W.
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Timmermans, K.R.
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Blain, S.
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21 March 2007
Sarthou, G.
06d8eba4-f933-4093-a5f3-4e4c8bf602ef
Baker, A.R.
2e470bae-1030-49cb-999e-1a0bfb0abfc9
Kramer, J.
ecc115c9-8e63-4c83-99b8-c0449330cbd7
Laan, P.
bbf648a3-0a1e-4d95-8dc6-9e08ea200e18
Laes, A.
fa769e4e-96bb-4fba-8947-eecebd237618
Ussher, S.
25e332ba-ce47-4590-9881-0e01aa6bdc92
Achterberg, E.P.
685ce961-8c45-4503-9f03-50f6561202b9
de Baar, H.J.W.
c23aa060-a4a6-4fb6-a4ed-892b022d2410
Timmermans, K.R.
120289fc-76b3-4331-acd8-f6c21f8ac2df
Blain, S.
45cb2a77-ae57-4524-a737-350f43cedb7e
Sarthou, G., Baker, A.R., Kramer, J., Laan, P., Laes, A., Ussher, S., Achterberg, E.P., de Baar, H.J.W., Timmermans, K.R. and Blain, S.
(2007)
Influence of atmospheric inputs on the iron distribution in the subtropical North-East Atlantic Ocean.
Marine Chemistry, 104 (3-4), .
(doi:10.1016/j.marchem.2006.11.004).
Abstract
Aerosol (soluble and total) iron and water-column dissolved (DFe, < 0.2 ?m) and total dissolvable (TDFe, unfiltered) iron concentrations were determined in the Canary Basin and along a transect towards the Strait of Gibraltar, in order to sample across the Saharan dust plume. Cumulative dust deposition fluxes estimated from direct aerosol sampling during our one-month cruise are representative of the estimated deposition fluxes based on near surface water dissolved aluminium concentrations measured on board. Iron inventories in near surface waters combined with flux estimates confirmed the relatively short residence time of DFe in waters influenced by the Saharan dust plume (6–14 months). Enhanced near surface water concentrations of DFe (5.90–6.99 nM) were observed at the Strait of Gibraltar mainly due to inputs from metal-rich rivers. In the Canary Basin and the transect towards Gibraltar, DFe concentrations (0.07–0.76 nM) were typical of concentrations observed in the surface North Atlantic Waters, with the highest concentrations associated with higher atmospheric inputs in the Canary Basin. Depth profiles showed that DFe and TDFe were influenced by atmospheric inputs in this area with an accumulation of aeolian Fe in the surface waters. The sub-surface minimum of both DFe and TDFe suggests that a simple partitioning between dissolved and particulate Fe is not obvious there and that export may occur for both phases. At depths of around 1000–1300 m, both regeneration and Meddies may explain the observed maximum. Our data suggest that, in deep waters, higher particle concentrations likely due to dust storms may increase the scavenging flux and thus decrease DFe concentrations in deep waters.
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Published date: 21 March 2007
Keywords:
Dissolved iron, Total dissolvable iron, Aerosol deposition, Solubility, Scavenging, Regional terms: North-East Atlantic, Canary Basin, Madeira, Gibraltar
Identifiers
Local EPrints ID: 49866
URI: http://eprints.soton.ac.uk/id/eprint/49866
ISSN: 0304-4203
PURE UUID: 99e4b4cf-5696-40ba-a4d1-a00c88dde79f
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Date deposited: 06 Dec 2007
Last modified: 15 Mar 2024 10:00
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Contributors
Author:
G. Sarthou
Author:
A.R. Baker
Author:
J. Kramer
Author:
P. Laan
Author:
A. Laes
Author:
S. Ussher
Author:
H.J.W. de Baar
Author:
K.R. Timmermans
Author:
S. Blain
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