A nutrient relay sustains subtropical ocean productivity

A nutrient relay sustains subtropical ocean productivity

The expansive gyres of the subtropical ocean account for a significant fraction of global organic carbon export from the upper ocean. In the gyre interior, vertical mixing and the heaving of nutrient-rich waters into the euphotic layer sustain local productivity, in turn depleting the layers below....

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Published in:Proceedings of the National Academy of Sciences - PNAS Vol. 119; no. 41; p. e2206504119
Main Authors: Gupta, Mukund, Williams, Richard G, Lauderdale, Jonathan M, Jahn, Oliver, Hill, Christopher, Dutkiewicz, Stephanie, Follows, Michael J
Format: Journal Article
Language:English
Published: United States National Academy of Sciences 11-10-2022
Subjects:
Biogeochemistry
Carbon
Density
Eddies
Gyres
Mesoscale phenomena
Nutrient transport
Nutrients
Ocean circulation
Oceans and Seas
Organic carbon
Physical Sciences
Productivity
Relay
Remineralization
Seawater
Thermocline
Upper ocean
Vortices
biological production
mesoscale eddy transport
nutrient supply
subtropical gyres
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Summary:The expansive gyres of the subtropical ocean account for a significant fraction of global organic carbon export from the upper ocean. In the gyre interior, vertical mixing and the heaving of nutrient-rich waters into the euphotic layer sustain local productivity, in turn depleting the layers below. However, the nutrient pathways by which these subeuphotic layers are themselves replenished remain unclear. Using a global, eddy-permitting simulation of ocean physics and biogeochemistry, we quantify nutrient resupply mechanisms along and across density surfaces, including the contribution of eddy-scale motions that are challenging to observe. We find that mesoscale eddies (10 to 100 km) flux nutrients from the shallow flanks of the gyre into the recirculating interior, through time-varying motions along density surfaces. The subeuphotic layers are ultimately replenished in approximately equal contributions by this mesoscale eddy transport and the remineralization of sinking particles. The mesoscale eddy resupply is most important in the lower thermocline for the whole subtropical region but is dominant at all depths within the gyre interior. Subtropical gyre productivity may therefore be sustained by a nutrient relay, where the lateral transport resupplies nutrients to the thermocline and allows vertical exchanges to maintain surface biological production and carbon export.
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Author contributions: M.G., R.G.W., and M.J.F. designed research; M.G. and J.M.L. performed research; M.G., O.J., C.H., and S.D. contributed new analytic tools; M.G., R.G.W., J.M.L., S.D., and M.J.F. analyzed data; and M.G., R.G.W., J.M.L., S.D., and M.J.F. wrote the paper.
Edited by James McWilliams, University of California, Los Angeles, CA; received April 19, 2022; accepted September 3, 2022
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.2206504119