Circulation within the Ribbon Reef Region of the Great Barrier Reef, A
ustralia, is examined with a combined data set obtained from a convent
ional current meter, an HF radar, Landsat MSS imagery and results from
a high resolution numerical circulation model. Circulation within the
region is dominated by the development of a strong jet and eddy syste
m which is established in the narrow gaps between the reefs. In contra
st, little flow occurs over the reefs themselves. The eddies extend up
to 10 km across the shelf and hence provide a very effective mechanis
m to enhance the exchange of water between the deep ocean and the Grea
t Barrier Reef lagoon. Dispersion modelling shows that the orientation
of the reefs, the reef-gap interactions and the physical size of the
gaps may result in ''patchiness'' in nutrient levels landward of the r
eefs.