Genesis and Decay of Baroclinic Eddies in the Seasonally Ice-Covered Arctic Ocean

Gianluca Meneghello; John Marshall; Camille Lique; Pål Erik Isachsen; Edward Doddridge; Jean-Michel Campin; Heather Regan; Claude Talandier

doi:https://doi.org/10.5194/egusphere-egu24-15778

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EGU24-15778, updated on 09 Mar 2024

https://doi.org/10.5194/egusphere-egu24-15778

EGU General Assembly 2024

© Author(s) 2024. This work is distributed under
the Creative Commons Attribution 4.0 License.

Genesis and Decay of Baroclinic Eddies in the Seasonally Ice-Covered Arctic Ocean

Gianluca Meneghello¹, John Marshall², Camille Lique³, Pål Erik Isachsen⁴, Edward Doddridge⁵, Jean-Michel Campin², Heather Regan⁶, and Claude Talandier²

Gianluca Meneghello et al.

¹Ecole Normale Supérieure - PSL, Geosciences, Paris, France (gianluca.meneghello@lmd.ipsl.fr)
²Massachusetts Institute of Technology, Cambridge, Massachusetts
³Univ. Brest, CNRS, IRD, Ifremer, Laboratoire d’Océanographie Physique et Spatiale, IUEM, Brest, France
⁴University of Oslo, Oslo, Norway
⁵Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, Tasmania, Australia
⁶Nansen Environmental and Remote Sensing Center and Bjerknes Centre for Climate Research, Bergen, Norway

We explore the origin and evolution of mesoscale eddies in the seasonally ice-covered interior Arctic Ocean. Observations of ocean currents show a curious, and hitherto unexplained, vertical and temporal distribution of mesoscale activity. A marked seasonal cycle is found close to the surface: strong eddy activity during summer, observed from both satellites and moorings, is followed by very quiet winters. In contrast, subsurface eddies persist all year long within the deeper halocline and below.

We find that the surface seasonal cycle is controlled by friction with sea ice, dissipating existing eddies and preventing the growth of new ones. In contrast, subsurface eddies, enabled by interior potential vorticity gradients and shielded by a strong stratification at a depth of approximately 50 m, can grow independently of the presence of sea ice.

We address possible implications for the transport of water masses between the margins and the interior of the Arctic basin, and for climate models’ ability to capture the fundamental difference in mesoscale activity between ice-covered and ice-free regions.

How to cite: Meneghello, G., Marshall, J., Lique, C., Isachsen, P. E., Doddridge, E., Campin, J.-M., Regan, H., and Talandier, C.: Genesis and Decay of Baroclinic Eddies in the Seasonally Ice-Covered Arctic Ocean, EGU General Assembly 2024, Vienna, Austria, 14–19 Apr 2024, EGU24-15778, https://doi.org/10.5194/egusphere-egu24-15778, 2024.