An array of six current meter moorings was deployed in the Samoan Pass
age (10 degrees S, 170 degrees W) from September 1992 to February 1994
with the goal of determining the northward abyssal transport. The 17-
month mean transport beneath 4000 m was 6.0 Sv (10(6) m(3) s(-1)). The
time series were low passed at a period of 100 hours to remove near-i
nertial and tidal variability, and the resulting transport had a stand
ard deviation of 1.5 Sv, a minimum of 1.1 Sv, and a maximum of 10.7 Sv
. The dominant low-frequency variability in transport and area-average
d temperature was at a period of 30 days, where the temperature led th
e transport as would be expected if the heat balance were advective. T
he temporal and spatial variability suggested that the mean transport
is known to within al standard deviation error of 0.5 Sv. The along-pa
ssage flow was intensified to the west and toward the bottom as might
be expected in a rotating geostrophic system. Three pathways through t
he sill region were identified on the basis of bathymetry and current
direction. The flow was strongly controlled by topography as indicated
by the flow's orientation and directional steadiness. The 30-day vari
ability in transport might be described as a resonance of the northwar
d abyssal flow.