An
upper-ocean vortex associated with tropical instabilities was observed during
fall 1990 at 140°W in the shear region between the Pacific South Equatorial
Current and the North Equatorial Counter current. The velocity and thermohaline
structures of the vortex were mapped in three dimensions using hydrography,
acoustic Doppler current measurements, drifters, and satellite infrared images.
The vortex translated westward at 30 cm s
1 (0.24° day1), stationary relative to the mean flow, and less than half the 80 cm s1
speed of contemporaneous meridional oscillations of the Equatorial Undercurrent
and South Equatorial Current. The coherent flow pattern was restricted to
above the thermocline. Convergence at the North Equatorial Front and divergence
near the vortex center occurred in a dipole pattern similar to those predicted
by various numerical models. The convergence and the anticyclonic vorticity
were of the same magnitudes as the local inertial frequency, suggesting that
the feature was a fully nonlinear, large Rossby number vortex, and may have
been subject to centrifugal instability.The
anticyclonic flow was associated with a thermocline depression of 30 m and
a deformation of the North Equatorial Front. Northward advection of cold,
saline, equatorial water and southward advection of warmer, fresher, tropical
water yielded the cusplike surface temperature pattern commonly associated
with tropical instabilities. Equatorward heat and freshwater fluxes implied
cooling and freshening from 3°N to 5°N, comparable to the annual-mean net
surface heating and evaporation minus precipitation for the region.