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The influence of mesoscale and submesoscale heterogeneity on ocean biogeochemical reactions

The influence of mesoscale and submesoscale heterogeneity on ocean biogeochemical reactions
The influence of mesoscale and submesoscale heterogeneity on ocean biogeochemical reactions
The oceanic circulation in the meso to submesoscale regime generates heterogeneity in the concentrations of biogeochemical components over these scales, horizontally between 1 and 100 km. Due to nonlinearities in the biogeochemical reactions, such as phytoplankton primary production and zooplankton grazing, this small-scale heterogeneity can lead to departure from the mean field approximation, whereby plankton reactions are evaluated from mean distributions at coarser scale. Here we explore the magnitude of these eddy reactions and compare their strength to those of the more widely studied eddy transports. We use the term eddy to denote effects arising from scales smaller than ? 100 km. This is done using a submesoscale permitting biogeochemical model, representative of the seasonally varying subtropical and subpolar gyres. We found that the eddy reactions associated with primary production and grazing account for ±5–30% of productivity and grazing, respectively, depending on location and time of year, and are scale dependent: two thirds are due to heterogeneities at scales 30–100 km and one third to those at scales below 30 km. Moreover, eddy productivities are systematically negative, implying that production tends to be reduced by nonlinear interactions at the mesoscale and smaller. The opposite result is found for eddy grazing, which is generally positive. The contrasting effects result from vertical advection, which negatively correlates phytoplankton and nutrients and positively correlates phytoplankton and zooplankton in the meso to submesoscale range. Moreover, our results highlight the central role played by eddy reactions for ecological aspects and the distribution of organisms and by eddy transport for biogeochemical aspects and nutrient budgets.
nonlinear, eddy flux, eddy reactions, eddy-mean decomposition, submesoscale, eddy productivity
0886-6236
1139-1150
Levy, M.
92cf244e-0f65-4c3f-9551-f89fdf50d905
Martin, A.P.
9d0d480d-9b3c-44c2-aafe-bb980ed98a6d
Levy, M.
92cf244e-0f65-4c3f-9551-f89fdf50d905
Martin, A.P.
9d0d480d-9b3c-44c2-aafe-bb980ed98a6d

Levy, M. and Martin, A.P. (2013) The influence of mesoscale and submesoscale heterogeneity on ocean biogeochemical reactions. Global Biogeochemical Cycles, 27 (4), 1139-1150. (doi:10.1002/2012GB004518).

Record type: Article

Abstract

The oceanic circulation in the meso to submesoscale regime generates heterogeneity in the concentrations of biogeochemical components over these scales, horizontally between 1 and 100 km. Due to nonlinearities in the biogeochemical reactions, such as phytoplankton primary production and zooplankton grazing, this small-scale heterogeneity can lead to departure from the mean field approximation, whereby plankton reactions are evaluated from mean distributions at coarser scale. Here we explore the magnitude of these eddy reactions and compare their strength to those of the more widely studied eddy transports. We use the term eddy to denote effects arising from scales smaller than ? 100 km. This is done using a submesoscale permitting biogeochemical model, representative of the seasonally varying subtropical and subpolar gyres. We found that the eddy reactions associated with primary production and grazing account for ±5–30% of productivity and grazing, respectively, depending on location and time of year, and are scale dependent: two thirds are due to heterogeneities at scales 30–100 km and one third to those at scales below 30 km. Moreover, eddy productivities are systematically negative, implying that production tends to be reduced by nonlinear interactions at the mesoscale and smaller. The opposite result is found for eddy grazing, which is generally positive. The contrasting effects result from vertical advection, which negatively correlates phytoplankton and nutrients and positively correlates phytoplankton and zooplankton in the meso to submesoscale range. Moreover, our results highlight the central role played by eddy reactions for ecological aspects and the distribution of organisms and by eddy transport for biogeochemical aspects and nutrient budgets.

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More information

Published date: December 2013
Keywords: nonlinear, eddy flux, eddy reactions, eddy-mean decomposition, submesoscale, eddy productivity
Organisations: Marine Biogeochemistry

Identifiers

Local EPrints ID: 361696
URI: http://eprints.soton.ac.uk/id/eprint/361696
ISSN: 0886-6236
PURE UUID: 08688464-67d2-4c6c-85e4-c5d6d0cd8cb2

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Date deposited: 30 Jan 2014 11:18
Last modified: 14 Mar 2024 15:55

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Contributors

Author: M. Levy
Author: A.P. Martin

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