Abstract
AbstractThe Gulf Stream is a major conduit of warm surface water from the tropics to the subpolar North Atlantic. Here we observe and simulate a submesoscale (<20 km) mechanism by which the Gulf Stream exchanges water with subpolar water to the north. Along isopycnals, the front has a sharp compensated temperature‐salinity contrast, with distinct mixed water between the two water masses 2 and 4 km wide. This mixed water does not increase downstream despite substantial energy available for mixing. A series of streamers detrain this water at the crest of meanders. Subpolar water replaces the mixed water and resharpens the front. The water mass exchange accounts for a northward flux of salt of 0.5–2.5 psu m2 s−1, (large‐scale diffusivity O (100 m2 s−1)). This is similar to bulk‐scale flux estimates of 1.2 psu m2 s−1 and supplies fresher water to the Gulf Stream required for the production of 18° subtropical mode water.
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