Mesoscale Flow Impacts on Downward Energy Flux of Near‐ Inertial Waves in the Kuroshio Extension
ID:28 View Protection:ATTENDEE Updated Time:2026-04-22 15:21:24 Hits:40 Oral Presentation

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Abstract
It is known that background mesoscale flows (BMFs) modify the local inertial frequency and affect the energy and vertical propagation speeds of near‐inertial waves (NIWs), but their effects have not been quantified, especially using observations. This study aimed to quantify BMF effects on NIWs energy, group velocity, and the downward energy flux (Fz) of NIWs using 2 years of mooring data (November 2017–October 2019) from the Kuroshio Extension. By dividing the data into 11 days segments, the temporal variability of the effective near‐inertial frequency and group velocity owing to the BMFs was considered. During winter, when NIWs are active—on a temporal average in anticyclonic flows—Fz increased by 50%, whereas in cyclonic flows, Fz decreased by 45% when the varying effective near‐inertial frequency was considered. Because cyclonic circulations were twice as frequent, Fz decreased by ∼17%, to 0.37 × 10-3 W m- 2. Even so, this amount is ∼1.8 times greater than that in the Northeastern Pacific and accounts for ∼28% of the wind work rate, similar to eddy‐resolving high‐resolution numerical model results. This high efficiency suggests that NIWs could play a more important role in deep mixing than previously considered. To overcome spatiotemporal limitations of Fz estimation from our data, long‐term eddy statistics were used to estimate overall Fz over the Kuroshio Extension. Anticyclonic circulations lasted longer, leading to an ∼12% increase in Fz. Thus, the Kuroshio Extension is an important region for downward NIW energy propagation, and BMFs should be considered for accurate NIWs energetics.
Keywords
effective inertial frequency,wind work,mooring observation
Speaker
Young-Gyu Park
Principal Scientist Korea Institute of Ocean Science and Technology

Submission Author
Young-Gyu Park Korea Institute of Ocean Science and Technology
Joocheul Noh Korea Institute of Ocean Science and Technology
Dong Guk Kim Korea Institute of Ocean Science and Technology
Seongbong Seo Korea Institute of Ocean Science and Technology
SungHyun Nam Seoul National University;Research Institute of Oceanography; Seoul National University
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Important Date
  • Conference Date

    Jun 16

    2026

    to

    Jun 18

    2026

  • Apr 03 2026

    Draft paper submission deadline

Sponsored By
Hokkaido University
Organized By
Hokkaido University