Deoxygenation of alligator red blood cells (RBCs) caused binding of two equivalents per hemoglobin (Hb) tetramer at physiological pH. At lowered pH, some binding also occurred to oxygenated Hb. The erythrocytic total CO₂ content was large, and Hb-bound , free , and carbamate contributed about equally in deoxygenated cells. The nonbicarbonate buffer values of RBCs and Hb were high, and the Hb showed a significant fixed acid Haldane effect. Binding of on deoxygenation occurred without a change in RBC intracellular pH, revealing equivalence between oxylabile and H⁺ binding. Erythrocyte volume, plasma pH, and plasma concentration also varied little with the degree of oxygenation. Diffusional water permeability was higher in oxygenated than deoxygenated RBCs. The RBCs have rapid band 3-mediated Cl and transport, which was not affected by degree of oxygenation, but net fluxes of Cl and via the anion exchanger are small during blood circulation at rest. Most of the CO₂ taken up into the blood as it flows through tissue capillaries is carried within the erythrocytes as Hb-bound until CO₂ is excreted when blood flows through pulmonary capillaries.