Controls on dissolved cobalt in surface waters of the Sargasso Sea: Comparisons with iron and aluminum
Controls on dissolved cobalt in surface waters of the Sargasso Sea: Comparisons with iron and aluminum
Dissolved cobalt (dCo), iron (dFe) and aluminum (dAl) were determined in water column samples along a meridional transect (?31°N to 24°N) south of Bermuda in June 2008. A general north-to-south increase in surface concentrations of dFe (0.3–1.6 nM) and dAl (14–42 nM) was observed, suggesting that aerosol deposition is a significant source of dFe and dAl, whereas no clear trend was observed for near-surface dCo concentrations. Shipboard aerosol samples indicate fractional solubility values of 8–100% for aerosol Co, which are significantly higher than corresponding estimates of the solubility of aerosol Fe (0.44–45%). Hydrographic observations and analysis of time series rain samples from Bermuda indicate that wet deposition accounts for most (>80%) of the total aeolian flux of Co, and hence a significant proportion of the atmospheric input of dCo to our study region. Our aerosol data imply that the atmospheric input of dCo to the Sargasso Sea is modest, although this flux may be more significant in late summer. The water column dCo profiles reveal a vertical distribution that predominantly reflects ‘nutrient-type’ behavior, versus scavenged-type behavior for dAl, and a hybrid of nutrient- and scavenged-type behavior for dFe. Mesoscale eddies also appear to impact on the vertical distribution of dCo. The effects of biological removal of dCo from the upper water column were apparent as pronounced sub-surface minima (21 ± 4 pM dCo), coincident with maxima in Prochlorococcus abundance. These observations imply that Prochlorococcus plays a major role in removing dCo from the euphotic zone, and that the availability of dCo may regulate Prochlorococcus growth in the Sargasso Sea.
GB2020
Shelley, R.U.
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Sedwick, P.N.
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Bibby, T.S.
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Cabedo-Sanz, P.
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Church, T.M.
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Johnson, R.J.
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Macey, A.I.
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Marsay, C.M.
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Sholkovitz, E.R.
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Ussher, S.J.
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Worsfold, P.J.
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Lohan, M.C.
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2012
Shelley, R.U.
9190eec2-720b-403c-861c-64d20b642a2f
Sedwick, P.N.
852dfecb-125a-46aa-9628-548f0e0911c9
Bibby, T.S.
e04ea079-dd90-4ead-9840-00882de27ebd
Cabedo-Sanz, P.
ff263137-dadd-4407-a6d5-d8d452c7599c
Church, T.M.
d37fa0cf-8c35-4695-ad66-87f857189b03
Johnson, R.J.
de7c575d-7078-460f-b305-8c4a7c248a8b
Macey, A.I.
fcb2ab5c-e144-44c7-bda0-720d1609c760
Marsay, C.M.
20e01801-1fc0-4711-a5a0-956d9ff5c672
Sholkovitz, E.R.
21b3875b-4e91-4480-8a7d-6270fcfc0e76
Ussher, S.J.
131f39e5-b2c0-416a-a065-02cef8acef5c
Worsfold, P.J.
2edcddc5-ce8e-4f9f-8628-216a26921979
Lohan, M.C.
8a8ffa63-2b55-4b5c-9ad7-7403ac292b6f
Shelley, R.U., Sedwick, P.N., Bibby, T.S., Cabedo-Sanz, P., Church, T.M., Johnson, R.J., Macey, A.I., Marsay, C.M., Sholkovitz, E.R., Ussher, S.J., Worsfold, P.J. and Lohan, M.C.
(2012)
Controls on dissolved cobalt in surface waters of the Sargasso Sea: Comparisons with iron and aluminum.
Global Biogeochemical Cycles, 26 (2), .
(doi:10.1029/2011GB004155).
Abstract
Dissolved cobalt (dCo), iron (dFe) and aluminum (dAl) were determined in water column samples along a meridional transect (?31°N to 24°N) south of Bermuda in June 2008. A general north-to-south increase in surface concentrations of dFe (0.3–1.6 nM) and dAl (14–42 nM) was observed, suggesting that aerosol deposition is a significant source of dFe and dAl, whereas no clear trend was observed for near-surface dCo concentrations. Shipboard aerosol samples indicate fractional solubility values of 8–100% for aerosol Co, which are significantly higher than corresponding estimates of the solubility of aerosol Fe (0.44–45%). Hydrographic observations and analysis of time series rain samples from Bermuda indicate that wet deposition accounts for most (>80%) of the total aeolian flux of Co, and hence a significant proportion of the atmospheric input of dCo to our study region. Our aerosol data imply that the atmospheric input of dCo to the Sargasso Sea is modest, although this flux may be more significant in late summer. The water column dCo profiles reveal a vertical distribution that predominantly reflects ‘nutrient-type’ behavior, versus scavenged-type behavior for dAl, and a hybrid of nutrient- and scavenged-type behavior for dFe. Mesoscale eddies also appear to impact on the vertical distribution of dCo. The effects of biological removal of dCo from the upper water column were apparent as pronounced sub-surface minima (21 ± 4 pM dCo), coincident with maxima in Prochlorococcus abundance. These observations imply that Prochlorococcus plays a major role in removing dCo from the euphotic zone, and that the availability of dCo may regulate Prochlorococcus growth in the Sargasso Sea.
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Published date: 2012
Organisations:
Ocean Biochemistry & Ecosystems
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Local EPrints ID: 342298
URI: http://eprints.soton.ac.uk/id/eprint/342298
ISSN: 0886-6236
PURE UUID: f7511eb3-c20d-4264-a3e9-27d748e021bb
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Date deposited: 20 Aug 2012 16:09
Last modified: 14 Mar 2024 11:49
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Contributors
Author:
R.U. Shelley
Author:
P.N. Sedwick
Author:
P. Cabedo-Sanz
Author:
T.M. Church
Author:
R.J. Johnson
Author:
A.I. Macey
Author:
C.M. Marsay
Author:
E.R. Sholkovitz
Author:
S.J. Ussher
Author:
P.J. Worsfold
Author:
M.C. Lohan
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