Abstract
AbstractMicrostructure and mooring observations were conducted around the Kerama Gap, near the midpoint of the Ryukyu Island chain, in December 2016. We observed enhanced mixing near raised seafloor topography with vertical diffusivity from 10−2 to 10−1 m2 s−1 in the bottom water and found that tides were important drivers of enhanced mixing above sills. Two‐dimensional numerical simulations of a vertical cross section of the Kerama Gap indicated that breaking internal tides play an important role in the enhanced mixing behind the sill near the entrance to the gap. In addition, M2 internal tides radiating from the sills at the gap's entrance and exit may correspond to the observed enhanced vertical shear and mixing around the salinity minimum layer of the North Pacific Intermediate Water (NPIW) in the Kerama Gap. Simple quantitative arguments based on the observed turbulence data suggest that the enhanced mixing at the sill may influence the renewal of the bottom water and the NPIW in the Okinawa Trough, about 10% of required fluxes in the Kerama Gap estimated in past studies, indicating its importance on the distributions of water masses and water properties in the North Pacific.
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