Picoeukaryote distribution in relation to nitrate uptake in the oceanic nitracline
Picoeukaryote distribution in relation to nitrate uptake in the oceanic nitracline
We investigated the relationship between picoeukaryote phytoplankton (<2 ?m) and the deep layer of new production (NO3- uptake) in the nitracline of the eastern subtropical North Atlantic Ocean. Indices of NO3- uptake kinetics obtained within the lower 15% of the euphotic zone demonstrate that subsurface NO3- uptake maxima are coincident with localised peaks in maximum uptake rates (Vmax) and, crucially, with maximum picoeukaryote abundance. The mean rate of NO3- utilization at the nitracline is typically 10-fold higher than in surface waters despite much lower in-situ irradiances. These observations confirm a high affinity for NO3-, most likely by the resident picoeukaryote community, and we conservatively estimate mean cellular uptake rates of between 0.27 and 1.96 fmol NO3- cell-1 h-1. Greater scrutiny of the taxonomic composition of the picoeukaryote group is required to further understand this deep layer of new production and its importance for nitrogen cycling and export production given longstanding assumptions that picoplankton do not contribute directly to export fluxes.
Nitracline, Picoeukaryote, Nitrate uptake, Subtropical Atlantic Ocean
195-213
Painter, S.C.
29e32f35-4ee8-4654-b305-4dbe5a312295
Patey, M.D.
a039ffa1-93d6-4192-8919-295fdf4ba130
Tarran, G.A.
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Torres-Valdés, S.
2c8977a2-c275-4cc3-8c0d-fee2df40a9ad
June 2014
Painter, S.C.
29e32f35-4ee8-4654-b305-4dbe5a312295
Patey, M.D.
a039ffa1-93d6-4192-8919-295fdf4ba130
Tarran, G.A.
c6e9fb51-321c-4fb6-a2b0-00a58c344d73
Torres-Valdés, S.
2c8977a2-c275-4cc3-8c0d-fee2df40a9ad
Painter, S.C., Patey, M.D., Tarran, G.A. and Torres-Valdés, S.
(2014)
Picoeukaryote distribution in relation to nitrate uptake in the oceanic nitracline.
Aquatic Microbial Ecology, 72 (3), .
(doi:10.3354/ame01695).
Abstract
We investigated the relationship between picoeukaryote phytoplankton (<2 ?m) and the deep layer of new production (NO3- uptake) in the nitracline of the eastern subtropical North Atlantic Ocean. Indices of NO3- uptake kinetics obtained within the lower 15% of the euphotic zone demonstrate that subsurface NO3- uptake maxima are coincident with localised peaks in maximum uptake rates (Vmax) and, crucially, with maximum picoeukaryote abundance. The mean rate of NO3- utilization at the nitracline is typically 10-fold higher than in surface waters despite much lower in-situ irradiances. These observations confirm a high affinity for NO3-, most likely by the resident picoeukaryote community, and we conservatively estimate mean cellular uptake rates of between 0.27 and 1.96 fmol NO3- cell-1 h-1. Greater scrutiny of the taxonomic composition of the picoeukaryote group is required to further understand this deep layer of new production and its importance for nitrogen cycling and export production given longstanding assumptions that picoplankton do not contribute directly to export fluxes.
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Accepted/In Press date: June 2014
Published date: June 2014
Keywords:
Nitracline, Picoeukaryote, Nitrate uptake, Subtropical Atlantic Ocean
Organisations:
Marine Biogeochemistry
Identifiers
Local EPrints ID: 365530
URI: http://eprints.soton.ac.uk/id/eprint/365530
ISSN: 0948-3055
PURE UUID: ec65e1d6-4e72-4aef-8a7d-4eb985ad9c5b
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Date deposited: 09 Jun 2014 12:54
Last modified: 14 Mar 2024 16:56
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Contributors
Author:
S.C. Painter
Author:
M.D. Patey
Author:
G.A. Tarran
Author:
S. Torres-Valdés
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