Tracer-based assessment of the origin and biogeochemical transformation of a cyclonic eddy in the Sargasso Sea
Tracer-based assessment of the origin and biogeochemical transformation of a cyclonic eddy in the Sargasso Sea
Mechanisms of nutrient supply in oligotrophic ocean systems remain inadequately understood and quantified. In the North Atlantic Subtropical Gyre, for example, the observed rates of new production are apparently not balanced by nutrient supply via vertical mixing. Mesoscale eddies have been hypothesized as a mechanism for vertical nutrient pumping into the euphotic zone, but the full range and magnitude of biogeochemical impacts by eddies remain uncertain. We evaluated a cyclonic eddy located near Bermuda for its effect on water column biogeochemistry. In the density range ?? 26.1 to 26.7, an eddy core with anomalous salinity, temperature, and biogeochemical properties was observed, suggesting that the eddy was not formed with local water (i.e., not formed of the waters surrounding the eddy at the time of observations), hence complicating efforts to quantify biogeochemical processes in the eddy. We combined conservative hydrographic tracers (density versus potential temperature and salinity) and quasi-conservative biogeochemical tracers (density versus NO, PO, and total organic carbon) to propose the origin of the eddy core water to have been several hundred kilometers to the southeast of the eddy location at sampling. By comparing the observed eddy core's biogeochemical properties with those near the proposed origin, we estimate the net changes in biogeochemical properties that occurred. A conservative estimate of export was 0.5 ± 0.34 mol N m?2 via sinking particles, with export occurring prior to our period of direct observation. Our results suggest that biogeochemical signals induced by mesoscale eddies could survive to be transported over long distances, thus providing a mechanism for lateral fluxes of nutrients and AOU (apparent oxygen utilization). Given that the proposed source area of this eddy is relatively broad, and the eddy-mixing history before our sampling is unknown, uncertainty remains in our assessment of the true biogeochemical impact of mesoscale eddies in the gyre.
mesoscale eddy, biogeochemical cycles, nutrients
C10006
Li, Qian P.
a867475d-4e73-4622-abf9-a7d6d794e637
Hansell, Dennis A.
d4f0a3af-ca20-4791-a794-e52cbd56d654
McGillicuddy, Dennis J.
52d5f309-a5c6-41c5-a491-5ae242f96617
Bates, Nicholas R.
954a83d6-8424-49e9-8acd-e606221c9c57
Johnson, Rodney J.
c6722f9c-3c6a-4d29-b025-1d9059526f78
October 2008
Li, Qian P.
a867475d-4e73-4622-abf9-a7d6d794e637
Hansell, Dennis A.
d4f0a3af-ca20-4791-a794-e52cbd56d654
McGillicuddy, Dennis J.
52d5f309-a5c6-41c5-a491-5ae242f96617
Bates, Nicholas R.
954a83d6-8424-49e9-8acd-e606221c9c57
Johnson, Rodney J.
c6722f9c-3c6a-4d29-b025-1d9059526f78
Li, Qian P., Hansell, Dennis A., McGillicuddy, Dennis J., Bates, Nicholas R. and Johnson, Rodney J.
(2008)
Tracer-based assessment of the origin and biogeochemical transformation of a cyclonic eddy in the Sargasso Sea.
Journal of Geophysical Research: Oceans, 113 (C10), .
(doi:10.1029/2008JC004840).
Abstract
Mechanisms of nutrient supply in oligotrophic ocean systems remain inadequately understood and quantified. In the North Atlantic Subtropical Gyre, for example, the observed rates of new production are apparently not balanced by nutrient supply via vertical mixing. Mesoscale eddies have been hypothesized as a mechanism for vertical nutrient pumping into the euphotic zone, but the full range and magnitude of biogeochemical impacts by eddies remain uncertain. We evaluated a cyclonic eddy located near Bermuda for its effect on water column biogeochemistry. In the density range ?? 26.1 to 26.7, an eddy core with anomalous salinity, temperature, and biogeochemical properties was observed, suggesting that the eddy was not formed with local water (i.e., not formed of the waters surrounding the eddy at the time of observations), hence complicating efforts to quantify biogeochemical processes in the eddy. We combined conservative hydrographic tracers (density versus potential temperature and salinity) and quasi-conservative biogeochemical tracers (density versus NO, PO, and total organic carbon) to propose the origin of the eddy core water to have been several hundred kilometers to the southeast of the eddy location at sampling. By comparing the observed eddy core's biogeochemical properties with those near the proposed origin, we estimate the net changes in biogeochemical properties that occurred. A conservative estimate of export was 0.5 ± 0.34 mol N m?2 via sinking particles, with export occurring prior to our period of direct observation. Our results suggest that biogeochemical signals induced by mesoscale eddies could survive to be transported over long distances, thus providing a mechanism for lateral fluxes of nutrients and AOU (apparent oxygen utilization). Given that the proposed source area of this eddy is relatively broad, and the eddy-mixing history before our sampling is unknown, uncertainty remains in our assessment of the true biogeochemical impact of mesoscale eddies in the gyre.
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Published date: October 2008
Keywords:
mesoscale eddy, biogeochemical cycles, nutrients
Organisations:
Ocean Biochemistry & Ecosystems
Identifiers
Local EPrints ID: 357403
URI: http://eprints.soton.ac.uk/id/eprint/357403
ISSN: 2169-9275
PURE UUID: 123bd64d-88ab-4b9b-9404-cf66b1419482
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Date deposited: 24 Sep 2013 15:57
Last modified: 14 Mar 2024 14:58
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Author:
Qian P. Li
Author:
Dennis A. Hansell
Author:
Dennis J. McGillicuddy
Author:
Rodney J. Johnson
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