University of New South Wales / Oregon State University / University of Washington / University of Hawaii / /
IndustryTerm
dissipated energy / kinetic-energy dissipation rate / deep-ocean surface tidal energy loss / surface tidal energy flux / surface-tide energy / energy dissipation rates / large energy fluxes / high internal-wave energy / tidesto-turbulence energy budget / internal tidal energy / satellite altimeter data / energy / internal tidal energy flux / satellite altimetry / internal-energy / energy flux convergence / satellite altimetric measurements / tidal internal-energy fluxes / energy pathway / energy cascade / energy fluxes / energy budget / larger total energy loss / semidiurnal energy / Large depth-integrated energy / Internal-wave energy / /
NaturalFeature
Nihoa Island / Kauai Channel / Necker Island / Sea Res / /
Organization
National Marine Fisheries Service / National Science Foundation / MIT / Oregon State University / National Oceanic and Atmospheric Administration / University of New South Wales / Scripps Institution of Oceanography / University of Hawaii / University of Washington / Seattle / Fisheries Science Center / /
Person
D. R. Caldwell / R. G. Lueck / Daniel L. Rudnick / Jonathan D. Nash / Timothy J. Boyd / T. Boyd / /
Position
T. D. / /
ProvinceOrState
Oregon / Hawaii / Washington / New South Wales / California / Massachusetts / /
REPORTS From Tides to Mixing Along the Hawaiian Ridge Daniel L. Rudnick,1* Timothy J. Boyd,2 Russell E. Brainard,3 Glenn S. Carter,4 Gary D. Egbert,2 Michael C. Gregg,4