The distribution of dissolved silica and the variation of the temperat
ure-salinity relationship are important tracers of the large-scale mid
-depth flow of water in the Atlantic. A prominent feature of the silic
a distribution near 24-degrees-N is a westward-pointing silica tongue,
analogous to the salty Mediterranean tongue concentrated at shallower
levels. Earlier advection-diffusion studies showed how the structure
of the salt tongue could be consistent with the expected general circu
lation of the subtropical gyre. The expected circulation pattern of th
e mid-depth levels is that of the Stommel and Arons model, with the de
ep interior flow to the north and east; however, an advection-diffusio
n model is unable to reproduce the deeper silica tongue for any value
of horizontal diffusion with eastward flow, nor, it is argued, can rea
sonable spatial variations in horizontal diffusivity be responsible. T
hus, while the Stommel and Arons circulation would have the deep inter
ior flow to the east and north, evidence is presented here for a westw
ard flow of water in this depth range (2000-3500 m). Such interior flo
w would tend to increase the deep western boundary current transport a
s it flows south. The explanation for this is suggested to be related
to the existence of deep-water formation in the northern North Atlanti
c, which entrains mid-depth water and forces the area-averaged vertica
l velocity to decrease with height.