Observations of upper-ocean kinetic energy transfers between near-inertial internal waves and low-frequency dynamics
Observations of upper-ocean kinetic energy transfers between near-inertial internal waves and low-frequency dynamics
The interaction of low-frequency flows with internal waves (both tidal and near inertial) could be an important sink of the kinetic energy of large-scale ocean circulation. Using an array of nine moorings in a moderately eddy-rich region of the North Atlantic, we quantify the rate of kinetic energy exchange between low-frequency background flows (mesoscale and submesoscale subinertial motions) and the internal wave field, as well as specifically between the low-frequency background flows and near-inertial internal waves. Rates of kinetic energy transfer between subinertial motions and the full internal wave field exhibit a modest seasonal dependence, with larger transfer rates occurring during winter. Kinetic energy transfers between subinertial motions and near-inertial internal waves have a strong seasonal dependence, with larger transfers during winter, largely driven by the wintertime enhancement of near-inertial kinetic energy. In general, kinetic energy transfer rates are bidirectional, with transfers occurring both from low-to high-frequency flows and vice versa. The directionality of these transfers is linked to both the energetics of the low-frequency motions and of the internal waves, as well as their relative phas-ing. Coincident turbulent dissipation estimates within the moored array reveal a positive correlation with the kinetic energy transfer rate, suggestive of links between the conditions needed for turbulent processes and for promoting kinetic energy transfers between near-inertial waves and low-frequency flows.
Energy transport, Internal waves, Ocean dynamics, Subgrid-scale processes
1625-1643
Savage, Anna C.
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Waterhouse, Amy F.
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MacKinnon, Jennifer A.
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Yu, Xiaolong
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Naveira Garabato, Alberto C.
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Evans, Dafydd Gwyn
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Frajka-Williams, Eleanor
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Thomas, Leif N.
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1 October 2025
Savage, Anna C.
444b62d2-0db1-4d92-84ea-ddef7056f3ca
Waterhouse, Amy F.
f08abcd9-59c1-427a-9853-ffe788ff1732
MacKinnon, Jennifer A.
724d9cf9-bbdf-4a87-8834-e3227b500201
Yu, Xiaolong
3ffa551d-f57e-4f49-a130-475e43039c75
Naveira Garabato, Alberto C.
97c0e923-f076-4b38-b89b-938e11cea7a6
Evans, Dafydd Gwyn
4f153214-2922-459c-9a34-661c851e2286
Frajka-Williams, Eleanor
da86044e-0f68-4cc9-8f60-7fdbc4dc19cb
Thomas, Leif N.
d071b068-5666-4a43-a885-fea71487f935
Savage, Anna C., Waterhouse, Amy F., MacKinnon, Jennifer A., Yu, Xiaolong, Naveira Garabato, Alberto C., Evans, Dafydd Gwyn, Frajka-Williams, Eleanor and Thomas, Leif N.
(2025)
Observations of upper-ocean kinetic energy transfers between near-inertial internal waves and low-frequency dynamics.
Journal of Physical Oceanography, 55 (10), .
(doi:10.1175/JPO-D-23-0230.1).
Abstract
The interaction of low-frequency flows with internal waves (both tidal and near inertial) could be an important sink of the kinetic energy of large-scale ocean circulation. Using an array of nine moorings in a moderately eddy-rich region of the North Atlantic, we quantify the rate of kinetic energy exchange between low-frequency background flows (mesoscale and submesoscale subinertial motions) and the internal wave field, as well as specifically between the low-frequency background flows and near-inertial internal waves. Rates of kinetic energy transfer between subinertial motions and the full internal wave field exhibit a modest seasonal dependence, with larger transfer rates occurring during winter. Kinetic energy transfers between subinertial motions and near-inertial internal waves have a strong seasonal dependence, with larger transfers during winter, largely driven by the wintertime enhancement of near-inertial kinetic energy. In general, kinetic energy transfer rates are bidirectional, with transfers occurring both from low-to high-frequency flows and vice versa. The directionality of these transfers is linked to both the energetics of the low-frequency motions and of the internal waves, as well as their relative phas-ing. Coincident turbulent dissipation estimates within the moored array reveal a positive correlation with the kinetic energy transfer rate, suggestive of links between the conditions needed for turbulent processes and for promoting kinetic energy transfers between near-inertial waves and low-frequency flows.
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Accepted/In Press date: 3 July 2025
e-pub ahead of print date: 15 September 2025
Published date: 1 October 2025
Keywords:
Energy transport, Internal waves, Ocean dynamics, Subgrid-scale processes
Identifiers
Local EPrints ID: 508447
URI: http://eprints.soton.ac.uk/id/eprint/508447
ISSN: 0022-3670
PURE UUID: 004d44ae-f546-4fb9-a559-6d473d5a1d7e
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Date deposited: 21 Jan 2026 17:52
Last modified: 22 Jan 2026 02:39
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Contributors
Author:
Anna C. Savage
Author:
Amy F. Waterhouse
Author:
Jennifer A. MacKinnon
Author:
Xiaolong Yu
Author:
Dafydd Gwyn Evans
Author:
Eleanor Frajka-Williams
Author:
Leif N. Thomas
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