Offshore Plankton Blooms via Mesoscale and Sub-Mesoscale Interactions With a Western Boundary Current

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Chapman, Christopher C
Sloyan, Bernadette M
Schaeffer, Amandine
Suthers, Iain M
Pitt, Kylie A
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2024
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Abstract

We investigate mesoscale circulations in an oligotrophic western boundary current, the East Australian Current, during a sustained offshore plankton bloom. Using a series of high resolution hydrographic sections taken a few days apart, supplemented with in situ samples of nutrients, satellite and long-term mooring measurements, we describe a dynamic situation by which the East Australian Current's velocity core and associated front, interacts with a mesoscale eddy, migrating zonally by approximately 100 km over the course of 10 days. This interaction between the boundary current and mesoscale eddy field occurred concurrently with a sustained offshore plankton bloom. Sub-mesoscale upwelling motions on the inshore flank of the boundary current core coincides with increased nutrient and plankton concentrations in the near surface. Calculations based on the quasi-geostrophic omega equation and finite size lyapunov exponents suggest that these vertical motion arise from the interaction of the mesoscale with the East Australian Current. Frontolysis (the destruction of horizontal buoyancy gradients) leads to a thermally indirect ageostrophic secondary circulation that has the potential to supply nutrients to the near surface ocean. Using satellite data, we investigate the mesoscale conditions associated with all offshore phytoplankton blooms identified by an automated method, finding similar mesoscale patterns to those observed during the field campaign. We conclude that the interaction between the East Australian Current and mesoscale eddies is a recurrent catalyst for the complex sub-mesoscale dynamics we observed, and is likely a fundamental processes in driving offshore biological productivity in the region.

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Journal of Geophysical Research: Oceans

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129

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8

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© 2024. The Author(s). This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

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Chapman, CC; Sloyan, BM; Schaeffer, A; Suthers, IM; Pitt, KA, Offshore Plankton Blooms via Mesoscale and Sub‐Mesoscale Interactions With a Western Boundary Current, Journal of Geophysical Research: Oceans, 2024, 129 (8), pp. e2023JC020547

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