M. Feng et al., SEMIDIURNAL TIDES OBSERVED IN THE WESTERN EQUATORIAL PACIFIC DURING THE TROPICAL OCEAN-GLOBAL ATMOSPHERE COUPLED OCEAN-ATMOSPHERE RESPONSE EXPERIMENT, J GEO RES-O, 103(C5), 1998, pp. 10253-10272
The semidiurnal tide within a 100 km square region of the western equa
torial Pacific centered at 1.8 degrees S, 156.1 degrees E is examined
using shipboard survey and mooring data collected during the Tropical
Ocean Global Atmosphere Coupled Ocean-Atmosphere Response Experiment (
TOGA COARE). Baroclinic and barotropic tidal amplitudes and phases are
estimated from the survey and mooring observations in the upper 300 m
of the 1800 m deep ocean by specifying their horizontal and vertical
structures. The barotropic tide is assumed to have zero horizontal wav
enumber over the domain, while a component of the baroclinic tide that
is phase-locked to the barotropic tide is determined by a searching m
ethod using plane wave fits to the data. The estimated barotropic tida
l current is in good agreement with tide models derived from TOPEX/POS
EIDON observations. The plane wave analysis indicates a dominant mode
one baroclinic wave propagating toward the northeast. The second verti
cal mode can also be detected. Given the phase differences between the
M2 and S2 constituents in the barotropic and baroclinic tides, the so
urce of the baroclinic tidal signal is determined to be about 320 km s
outhwest of the observing region, at a series of islands and shallow r
idges. The combined estimates of the barotropic and baroclinic tides t
ypically account for only 40-60% of the observed semidiurnal band,curr
ent variance in the mooring data, indicating the high degree of tempor
al and spatial variability of the baroclinic tide in this region. The
results of this study suggest, however, that coherent barotropic and b
aroclinic tidal signals can be successfully distinguished in the deep
ocean using shipboard survey data, even when the data are limited to t
he upper 300 m.