The effect of atmospheric pressure and surface wind vector on sea leve
l variability in the Aegean Sea is investigated. Daily values of sea l
evel, atmospheric pressure, and surface wind covering the period 1984-
1987 from five stations are analyzed. Principal component (PC) analysi
s is used to extract the spatially coherent signal from the sea level
and atmospheric pressure time series, while rotary principal component
analysis is used to extract the coherent part of surface wind. The fi
rst PC modes are subsequently used in multiple regression analysis in
the frequency domain in order to examine the dependence of sea level f
luctuations on each of the parameters. The response of sea level to at
mospheric pressure is found to be frequency dependent. The response is
overisostatic for lower frequencies and becomes underisostatic for hi
gher frequencies approaching isostasy only at the limit of analysis (0
.5 cycles/day). The contribution of the first principal wind component
is found to be very small.