Birth, life and death of an Anticyclonic eddy in the Southern Ocean

Ricardo Torres1, Jean-baptiste Sallee2, Jill Schwarz3, Phil John Hosegood3, John Ryan Taylor4, Kate Adams5, Scott Bachman4 and Megan A Stamper6, (1)Plymouth Marine Laboratory, Plymouth, United Kingdom, (2)University Pierre and Marie Curie Paris VI, Paris, France, (3)University of Plymouth, School of Biological and Marine Sciences, Plymouth, United Kingdom, (4)University of Cambridge, Cambridge, United Kingdom, (5)Plymouth University, Plymouth, PL4, United Kingdom, (6)University of Cambridge, Department of Applied Mathematics and Theoretical Physics, Cambridge, United Kingdom
Abstract:
The Antarctic Circumpolar Current (ACC) is a climatically relevant frontal structure of global importance, which regularly develops instabilities growing into meanders, and eventually evolving into long-lived anticyclonic eddies. These eddies exhibit sustained primary productivity that can last several months fuelled by local resupply of nutrients. During April-May 2015 we conducted an intensive field experiment in the Southern Ocean where we sampled and tracked an ACC meander as it developed into an eddy and later vanished some 90 days later. The physical characteristics of the meander and eddy were observed with a combination of high resolution hydrography, ADCP and turbulence observations, in addition to biogeochemical observations of nutrients and phytoplankton. The life and death of the eddy was subsequently tracked through Argo, BIO-Argo Lagrangian profilers and remote sensing. In this presentation we will use observations and ecosystem modelling to discuss the physical processes that sustain the observed high Chlorophyll levels in the eddy and explore how the eddy evolution impacts the rate of nutrient supply and how this translates into the observed changes in chlorophyll. We will discuss the relevance of eddy formation to Chlorophyll and productivity in the region.