Using a stopped-flow device, the osmotic water permeability of human red cells to D2O and H2O was studied as a function of temperature and under the influence of the sulfhydryl reagent paracholoromercuribenzene sulfonic acid (PCMBS), an inhibitor of water transport. The ratio, permeability (D2O)/permeability (H2O) at each temperature can be predicted simply by assuming that permeability varies inversely with macroscopic viscosity. When water permebility is inhibited with PCMBS, this dependency on viscosity vanishes; the inhibited permeabilities in D2O and H2O are indistinguishable.