Data collected in the north and south channels of the main sill of the Strait of
Gibraltar (Camarinal sill) are used to investigate processes connected to the internal
hydraulics of the exchange through the Strait at tidal frequencies. Observations strongly
suggest the setting up of hydraulic jumps at both the western and eastern flank of the sill,
the latter associated with the reversal of the Mediterranean undercurrent during spring
tides. The northern site is more sensitive to processes triggered by the formation and
release of the jump formed east of the sill during intense enough ebb tide cycles, which is
thus better traced at this location; the southern site detects more neatly the fluctuations and
footprints associated with the hydraulic jump regularly formed to the west of the sill
during flood tides. A detailed inspection of the high resolution bathymetry of the area
reveals the existence of two enclosed depressions at either side of the sill, almost certainly
carved by the bottom flow over the millennia, whose shape and morphology are suggestive
of this spatial differentiation.