Letter. Phosphorus cycling in the North and South Atlantic Ocean subtropical gyres
Letter. Phosphorus cycling in the North and South Atlantic Ocean subtropical gyres
Despite similar physical properties, the Northern and Southern Atlantic subtropical gyres have different biogeochemical regimes. The Northern subtropical gyre, which is subject to iron deposition from Saharan dust1, is depleted in the nutrient phosphate, possibly as a result of iron-enhanced nitrogen fixation2. Although phosphate depleted, rates of carbon fixation in the euphotic zone of the North Atlantic subtropical gyre are comparable to those of the South Atlantic subtropical gyre3, which is not phosphate limited. Here we use the activity of the phosphorus-specific enzyme alkaline phosphatase to show potentially enhanced utilization of dissolved organic phosphorus occurring over much of the North Atlantic subtropical gyre. We find that during the boreal spring up to 30% of primary production in the North Atlantic gyre is supported by dissolved organic phosphorus. Our diagnostics and composite map of the surface distribution of dissolved organic phosphorus in the subtropical Atlantic Ocean reveal shorter residence times in the North Atlantic gyre than the South Atlantic gyre. We interpret the asymmetry of dissolved organic phosphorus cycling in the two gyres as a consequence of enhanced nitrogen fixation in the North Atlantic Ocean4, which forces the system towards phosphorus limitation. We suggest that dissolved organic phosphorus utilization may contribute to primary production in other phosphorus-limited ocean settings as well.
439-443
Mather, Rhiannon L.
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Reynolds, Sarah E.
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Wolff, George A.
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Williams, Richard G.
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Torres-Valdes, Sinhue
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Woodward, E. Malcolm S.
3a11b7bf-b110-448a-b1ee-ae1ce7d0fef5
Landolfi, Angela
d0d92c3d-aa96-4e0a-9cb9-25b777040146
Pan, Xi
ff91c9f9-28c6-465b-a4aa-51b879dbd611
Sanders, Richard
02c163c1-8f5e-49ad-857c-d28f7da66c65
Achterberg, Eric P.
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July 2008
Mather, Rhiannon L.
ac1c4189-6bba-4d45-b89b-437e7f495c5b
Reynolds, Sarah E.
4c3bbdf6-5dfb-4e02-8699-a34a172df6d0
Wolff, George A.
6b29d886-06f9-4405-8fab-33cfb436acaa
Williams, Richard G.
2155309e-1c07-4365-b46a-04baeb2fb63c
Torres-Valdes, Sinhue
50398d55-4df9-4b9e-a431-16936300650c
Woodward, E. Malcolm S.
3a11b7bf-b110-448a-b1ee-ae1ce7d0fef5
Landolfi, Angela
d0d92c3d-aa96-4e0a-9cb9-25b777040146
Pan, Xi
ff91c9f9-28c6-465b-a4aa-51b879dbd611
Sanders, Richard
02c163c1-8f5e-49ad-857c-d28f7da66c65
Achterberg, Eric P.
685ce961-8c45-4503-9f03-50f6561202b9
Mather, Rhiannon L., Reynolds, Sarah E., Wolff, George A., Williams, Richard G., Torres-Valdes, Sinhue, Woodward, E. Malcolm S., Landolfi, Angela, Pan, Xi, Sanders, Richard and Achterberg, Eric P.
(2008)
Letter. Phosphorus cycling in the North and South Atlantic Ocean subtropical gyres.
Nature Geoscience, 1 (7), .
(doi:10.1038/ngeo232).
Abstract
Despite similar physical properties, the Northern and Southern Atlantic subtropical gyres have different biogeochemical regimes. The Northern subtropical gyre, which is subject to iron deposition from Saharan dust1, is depleted in the nutrient phosphate, possibly as a result of iron-enhanced nitrogen fixation2. Although phosphate depleted, rates of carbon fixation in the euphotic zone of the North Atlantic subtropical gyre are comparable to those of the South Atlantic subtropical gyre3, which is not phosphate limited. Here we use the activity of the phosphorus-specific enzyme alkaline phosphatase to show potentially enhanced utilization of dissolved organic phosphorus occurring over much of the North Atlantic subtropical gyre. We find that during the boreal spring up to 30% of primary production in the North Atlantic gyre is supported by dissolved organic phosphorus. Our diagnostics and composite map of the surface distribution of dissolved organic phosphorus in the subtropical Atlantic Ocean reveal shorter residence times in the North Atlantic gyre than the South Atlantic gyre. We interpret the asymmetry of dissolved organic phosphorus cycling in the two gyres as a consequence of enhanced nitrogen fixation in the North Atlantic Ocean4, which forces the system towards phosphorus limitation. We suggest that dissolved organic phosphorus utilization may contribute to primary production in other phosphorus-limited ocean settings as well.
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Published date: July 2008
Organisations:
Ocean and Earth Science, National Oceanography Centre,Southampton
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Local EPrints ID: 52088
URI: http://eprints.soton.ac.uk/id/eprint/52088
ISSN: 1752-0894
PURE UUID: c4ce2643-67ab-4915-8a17-75b867637106
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Date deposited: 20 Jun 2008
Last modified: 15 Mar 2024 10:22
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Author:
Rhiannon L. Mather
Author:
Sarah E. Reynolds
Author:
George A. Wolff
Author:
Richard G. Williams
Author:
Sinhue Torres-Valdes
Author:
E. Malcolm S. Woodward
Author:
Angela Landolfi
Author:
Xi Pan
Author:
Richard Sanders
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