Permanganate was investigated for the first time as an activator for the degradation of perfluorooctanoic acid (PFOA) in aqueous solution. PFOA Degradation, consisted of decomposition and defluorination, were investigated as a function of amplitude of ultrasonic waves, permanganate dosage, pH and temperature in ultrasonic system. The decomposition of PFOA was of pseudo-first order, and the rate constant (K1obs) increased significantly, from 0.0021 to 0.0146 min-1, with raised amplitude (20μm, 40μm and 60μm) which determine the output power of ultrasonic irradiation into medium. Ionization process of fluorine, named PFOA defluorination, could be simulated with pseudo-zero order (K2obs). Dosages effect shown that permanganate act as an activator for PFOA decomposition and oxidant for defluorination. And plotting ln(K2obs) versus ln([KMnO4]0) gave a linear curve in the dosages range studied. For 132 μM initial concentration of PFOA, 3mM and 10mM permanganate is optimal for decomposition and defluorination efficiency, respectively. Reaction solution with an initial pH of 4.0 and 11.0 were most favorable for PFOA degradation activities as compare to highly acidic and neutral condition. Degradation process was observed to be promoted slightly from 30℃ to 50℃, as high temperature would accelerate the oxidation process by permanganate but abate the power output of ultrasonication. A comparative investigation between permanganate and perhydrol under oxygen, air and argon atmosphere, respectively, was carried out to study the atmosphere effect. Aeration with argon gas, which could sweep away dissolved oxygen, improved K2obs to 1.57 for permanganate-ultrasonic and 2.40 times for perhydrol-ultrasonic system; while aeration with oxygen decreased K2obs to 0.72 and 0.51 time due to the termination steps induced by oxygen molecules. With experimental results, the mechanisms of PFOA decomposition and defluorination in permanganate-ultrasonic system were proposed, respectively.