The Southern Ocean supergyre: a unifyingdynamical framework identified by machinelearning
- (maikes@princeton.edu)
The Southern Ocean closes the global overturning circulation and is key to the regulation of carbon and heat, biological production, and sea level. However, the dynamics of the general circulation and upwelling pathways remain poorly understood. Here, a unifying framework is proposed invoking a semi-circumpolar `supergyre' south of the Antarctic circumpolar current: a massive series of ‘leaking’ sub-gyres spanning the Weddell and Ross seas that are connected and maintained via rough topography that acts as scaffolding. The supergyre framework challenges the conventional view of having separate circulation structures in the Weddell and Ross seas and suggests a limited utility for climate applications of idealized models and conventional zonal averaged frameworks. Machine learning was used to reveal areas of coherent driving forces within a vorticity-based analysis. Predictions from the supergyre framework are supported by available observations and could aid observational and modelling efforts of the climatically key region undergoing rapid change.
How to cite: Sonnewald, M., Reeve, K. A., and Lguensat, R.: The Southern Ocean supergyre: a unifyingdynamical framework identified by machinelearning, EGU General Assembly 2023, Vienna, Austria, 24–28 Apr 2023, EGU23-10304, https://doi.org/10.5194/egusphere-egu23-10304, 2023.