1] Recent radio occultations of Saturn's equatorial ionosphere by the Cassini spacecraft provide important insight into this poorly constrained region. Twelve new electron density profiles identify a clear dawn/dusk asymmetry as well as two apparently separate electron density peaks. This study uses a 3D general circulation model along with 1D water diffusion calculations to examine the possibility that a topside flux of neutral water into Saturn's atmosphere may provide a loss mechanism—via charge exchange with protons—that is sufficient to reproduce the ionosphere observed by Cassini. Results indicate that a constant influx of water of (0.5– 1.0) Â 10 7 H 2 O cm À2 sec À1 is adequate for reproducing Cassini measurements, providing a good match to the main electron density peak at dawn and dusk. In addition, these calculations use a reduced rate for the reaction H + + H 2 (n ! 4) ! H 2 + + H, significantly diminishing its importance in Saturn's ionospheric photochemistry. Citation: (2006), Cassini radio occultations of Saturn's ionosphere: Model comparisons using a constant water flux, Geophys. Res. Lett., 33, L22202, doi:10.1029/2006GL027375.