Recent studies suggest that either clouds or water vapor in clear air absorb significantly more solar radiation (roughly 25 W m-2 averaged globally) than previously thought. It is interesting, in this connection, that solar diurnal surface pressure tides, which are forced primarily by insolation absorbed in the troposphere, are significantly underestimated in current calculations. In this paper it is shown that increased absorption of the above magnitude results in sizable increases in the migrating diurnal surface pressure tide computed from classical tidal theory. Depending on how this extra forcing is distributed in the troposphere, the annually averaged peak tide increases by 150 to 250 &mgr;b when the anomalous absorption is considered, resulting in much better agreement with observations. ¿ 1998 American Geophysical Union