Seasonal sea surface height variability in the North Atlantic Ocean

We investigate the seasonal sea surface height (SSH) variability on large s patial scales in the North Atlantic by using both a numerical simulation an d in situ data. First, an ocean general circulation model is run with daily forcing from the European Centre for Medium-Range Weather Forecasts reanal ysis. We evaluate the different contributions to the seasonal SSH variabili ty resulting from the surface heat fluxes, advection, salt content variabil ity, deep ocean steric changes, and bottom pressure variability. These term s are compared with estimates from in situ the air-sea heat flux induced da ta. North of 20 degrees N, there is an approximate balance between h(Q), ch anges in steric height, and SSH variability. The next important component i s the advection (its contribution to the annual amplitude is of the order o f 1 cm except near the western boundary); other contributions are found to be smaller. Between 10 degrees N and 10 degrees S the advection variability induced by the seasonal wind stress cycle is the primary source of SSH var iability. We then compare the sea surface height annual harmonic from TOPEX /Poseidon altimetry with the steric effect from the heat nux and with model and/or in situ estimates of the other terms. in many areas north of 20 deg rees N the balance between h(Q) and the altimetric SSH seasonal cycle is cl osed within the uncertainty limit of each of the terms of the SSH budget. H owever, h(Q) and the SSH do not balance each other in the eastern North Atl antic, and the results are sensitive to the choice of the heat flux product , suggesting that significant errors, typically 20-40 W m(-2) for the seaso nal cycle amplitude, are present in the meteorological model heat fluxes.