A HYDROGRAPHIC SECTION ACROSS THE SUBTROPICAL SOUTH INDIAN-OCEAN

Features of the water-property and circulation fields at the southern limit of the continentally bounded Indian Ocean are described on the basis of a transoceanic hydrographic section occupied along roughly Lat. 32 degrees S by the R.R.S. Charles Darwin in November-December 1987. Primary observations consisted of 106 full-depth CTD/O-2 stations with discrete measurements of the concentrations of dissolved silica, phosphate and nitrate. The section lies in the southern part of the South Indian subtropical gyre; water-property features in the upper kilometer indicate that the northward interior flow is predominantly in the eastern half of the ocean there, consistent with the forcing pattern of wind-stress curl. The southward return flow is the Agulhas Current, whose transport at Lats 31-32 degrees S is estimated as 85 x 10(6) m(3) s(-1). Circumpolar Deep Water flows northward to fill the greater deep Indian Ocean by means of western-boundary currents in the Crozet Basin, Central Indian Basin and Perth Basin. North Atlantic Deep Water entering directly from the mid-latitude South Atlantic is almost entirely confined to the southwestern Indian Ocean (Mozambique Basin, Natal Valley) by the topography of the Madagascar Ridge and Mozambique Channel. Geostrophic transport figures are presented based on a zero-velocity surface constructed along the section from the tracer-property evidence of where deep water was moving northward and where southward. Ekman transport, deduced from shipboard acoustic-Doppler profiler measurements, as well as synoptic and historical wind stress data, is found to be small (about 1 x 10(6) m(3) s(-1) northward). Net transport (geostrophic and Ekman) across the section is estimated to be 7 x 10(6) m(3) s(-1) southward, which implies a similarly sized Indonesia throughflow. Ambiguity in the geostrophic referencing scheme, and the magnitude of baroclinic eddy noise on the section, suggest this figure is uncertain by at least +/-10 x 10(6) m(3) s(-1). The calculations obtain a figure for net transport of water below 2000 dbars of 27 x 10(6) m(3) s(-1) northward, which specifies an average upwelling speed at the 2-km level north of 30 degrees S of 6.9 x 10(-5) cm s(-1). This estimate, perhaps uncertain by 20-30%, nonetheless contributes to growing evidence for an anomalously vigorous meridional circulation in the Indian Ocean. The associated calculations of heat and fresh water flux divergences demonstrate that the Indian Ocean thermohaline circulation essentially expresses a conversion of bottom and deep water to mid-depth thermocline, and near-surface water.