Diagnosing Scale-Dependent Energy Cycles in a High-Resolution Isopycnal Ocean Model

NORA LOOSE; SCOTT BACHMAN; IAN GROOMSMALTE JANSEN

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Diagnosing Scale-Dependent Energy Cycles in a High-Resolution Isopycnal Ocean Model

机译：Diagnosing Scale-Dependent Energy Cycles in a High-Resolution Isopycnal Ocean Model

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Energy exchanges between large-scale ocean currents and mesoscale eddies play an important role in setting the large-scale ocean circulation but are not fully captured in models. To better understand and quantify the ocean energy cycle, we apply along-isopycnal spatial filtering to output from an isopycnal 1/32° primitive equation model with idealized Atlantic and Southern Ocean geometry and topography. We diagnose the energy cycle in two frameworks: 1) a non-thickness-weighted framework, resulting in a Lorenz-like energy cycle, and 2) a thickness-weighted framework, resulting in the Bleck energy cycle. This paper shows that framework 2 is more useful for studying energy pathways when an isopycnal average is used. Next, we investigate the Bleck cycle as a function of filter scale. Baroclinic conversion generates mesoscale eddy kinetic energy over a wide range of scales and peaks near the deformation scale at high latitudes but below the deformation scale at low latitudes. Away from topography, an inverse cascade transfers kinetic energy from the mesoscales to larger scales. The upscale energy transfer peaks near the energy-containing scale at high latitudes but below the deformation scale at low latitudes. Regions downstream of topography are characterized by a downscale kinetic energy transfer, in which mesoscale eddies are generated through barotropic instability. The scale- and flow-dependent energy pathways diagnosed in this paper provide a basis for evaluating and developing scale- and flow-aware mesoscale eddy parameterizations.

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《Journal of physical oceanography》 |2023年第1期|157-176|共20页
作者
NORA LOOSE; SCOTT BACHMAN; IAN GROOMSMALTE JANSEN;
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作者单位

Department of Applied Mathematics, University of Colorado Boulder, Boulder, Colorado;

Climate and Global Dynamics Laboratory, National Center for Atmospheric Research, Boulder, Colorado;

Department of the Geophysical Sciences, University of Chicago, Chicago, Illinois;

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正文语种英语
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Mesoscale processes; Eddies; Energy budget/balance; Filtering techniques; Isopycnal coordinates; Ocean models;

Diagnosing Scale-Dependent Energy Cycles in a High-Resolution Isopycnal Ocean Model

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