A global ocean general circulation model is forced using various upper
boundary conditions (BCs) on temperature and salinity. Solutions are
obtained under restoring and mixed BCs (i.e., a restoring condition on
the upper-level temperature but using a fixed, specified surface salt
flux). Salt flux anomalies are temporarily applied under mixed BCs, a
nd solutions are obtained in which overturning associated with deep-wa
ter formation is either present or absent in the North Atlantic and ei
ther vigorous or weak in the North Pacific. A comparison between these
solutions helps to clarify the role North Atlantic deep-water formati
on plays in maintaining the current climate. The surface heat fluxes d
iffer substantially between the solutions, and their very existence is
dependent upon these differences. As a result they are not multiple e
quilibria of the ocean model alone. Instead, they should be regarded a
s multiple equilibria of a very crude coupled atmosphere-ocean system.
As the global ocean is substantially altered between the equilibria,
it is unreasonable to expect that the parameters in the heat flux form
ulation will remain unchanged. Consequently, the calculated heat flux
anomaly may be in error and there is, therefore, no guarantee that the
additional equilibria will exist in more sophisticated models. If mul
tiple equilibria do actually exist in such models. they could be quite
different from those obtained under the restorative condition.