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The Biogeochemical Structure of Southern Ocean Mesoscale Eddies
Author(s) -
Patel Ramkrushnbhai S.,
Llort Joan,
Strutton Peter G.,
Phillips Helen E.,
Moreau Sebastien,
Conde Pardo Paula,
Lenton Andrew
Publication year - 2020
Publication title -
journal of geophysical research: oceans
Language(s) - English
Resource type - Journals
eISSN - 2169-9291
pISSN - 2169-9275
DOI - 10.1029/2020jc016115
Subject(s) - biogeochemical cycle , eddy , oceanography , mesoscale meteorology , hydrography , biogeochemistry , front (military) , environmental science , water mass , mixed layer , isopycnal , geology , climatology , geography , meteorology , turbulence , ecology , biology
Abstract Mesoscale eddies play a key role in modulating physical and biogeochemical properties across the global ocean. They also play a central role in cross‐frontal transport of heat, freshwater, and carbon, especially in the Southern Ocean. However, the role that eddies play in the biogeochemical cycles is not yet well constrained, partly due to a lack of observations below the surface. Here, we use hydrographic data from two voyages, conducted in the austral summer and autumn, to document the vertical biogeochemical structure of two mesoscale cyclonic eddies and quantify the role of these eddies in the meridional transport of nutrients across the Subantarctic Front. Our study demonstrates that the nutrient distribution is largely driven by eddy dynamics, yielding identical eddy structure below the mixed layer in both seasons. This result allowed us to relate nutrient content to dynamic height and estimate the average transport by eddies across the Subantarctic Front. We found that relative to Subantarctic Zone waters, long‐lived cold‐core eddies carry nitrate anomalies of 1.6±0.2×10 10 moles and silicate anomalies of −5.5±0.7×10 10 moles across the fronts each year. This cross‐frontal transport of nutrients has negligible impact on Subantarctic Zone productivity; however, it has potential to modify the nutrient content of mode waters that are exported from the Southern Ocean to lower latitudes.