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Redistribution of energy available for ocean mixing by long-range propagation of internal waves

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  • Matthew H. Alford

    (University of Washington)

Abstract

Ocean mixing, which affects pollutant dispersal, marine productivity and global climate1, largely results from the breaking of internal gravity waves—disturbances propagating along the ocean's internal stratification. A global map of internal-wave dissipation would be useful in improving climate models, but would require knowledge of the sources of internal gravity waves and their propagation. Towards this goal, I present here computations of horizontal internal-wave propagation from 60 historical moorings and relate them to the source terms of internal waves as computed previously2,3. Analysis of the two most energetic frequency ranges—near-inertial frequencies and semidiurnal tidal frequencies—reveals that the fluxes in both frequency bands are of the order of 1 kW m-1 (that is, 15–50% of the energy input) and are directed away from their respective source regions. However, the energy flux due to near-inertial waves is stronger in winter, whereas the tidal fluxes are uniform throughout the year. Both varieties of internal waves can thus significantly affect the space-time distribution of energy available for global mixing.

Suggested Citation

  • Matthew H. Alford, 2003. "Redistribution of energy available for ocean mixing by long-range propagation of internal waves," Nature, Nature, vol. 423(6936), pages 159-162, May.
  • Handle: RePEc:nat:nature:v:423:y:2003:i:6936:d:10.1038_nature01628
    DOI: 10.1038/nature01628
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    Cited by:

    1. Huaqian Hou & Fei Yu & Feng Nan & Bing Yang & Shoude Guan & Yuanzhi Zhang, 2018. "Observation of Near-Inertial Oscillations Induced by Energy Transformation during Typhoons," Energies, MDPI, vol. 12(1), pages 1-19, December.

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