In this study, the introduction of periodate (IO4－) on sonochemical decomposition of perfluorooctanoic acid (PFOA) in aqueous solution using ultrasonic (US) irradiation was investigated. This enhancement of PFOA decomposition is due to the degradation of IO4－ by pyrolytic cleavage in cavitation bubbles, which conducts to the release of oxidizing free radicals such as IO3．, IO4．and OH．that can accelerate the decomposition of PFOA. The effects of various parameters such as the concentration of IO4－, the initial pH of the solution, saturated gases, salts and free radicals inhibitors adding in US/IO4－ system have been investigated. The decomposition efficiency of PFOA is only 26% using ultrasonic (US) irradiation at pH 4.0 in 120 min but can be enhanced to 62% with adding IO4－ dosage of 4.5mM. Increasing of the concentration of IO4－will result in increase of decomposition and defluorination efficiency of PFOA which reached as high as 93% in the presence of 45mM IO4－. The PFOA decomposition reactions can be well simulated with pseudo first-order kinetics and the rate constant (kobs) is 0.0222 min-1. In addition, the decomposition rate under acidic condition (pH=4) is about 1.05 times faster than under alkaline condition (pH=11). There are insignificant differences between acidic and alkaline conditions on the decomposition of PFOA. Comparison on decomposition of PFOA with a variety of saturated gases shows that the reaction rate is kN2 > knon-aeration > kair > kO2. It would be beneficial to use nitrogen on enhancement of PFOA decomposition because of the decomposition efficiency 70%. However, the reaction of the US/ IO4－ system may be inhibited or terminated by oxygen due to inhibiting the generation of the free radicals. With dissolved salts as additives can alter the physicochemical properties such as vapor pressure and surface tension of PFOA facilitating generation of more violent collapse of the cavities. Moreover, ions present during sonication aqueous solution may induce an occurrence called the salting-out effect. This phenomenon pushes PFOA toward the bubble-bulk solution interface which is the main reaction sites. The results showed that the reaction rate is kKBr > kNaCl > kNa2SO4 and bromide ions exhibited a promoting effect to enhance the decomposition of PFOA with the increasing of the concentration. When the concentration of bromide ions is 35 mM, the decomposition and defluorination efficiency were 87% and 89%. The tert-butyl alcohol as the free radical scavengers can easily scavenge active species, such as IO3．and OH．, having strong oxidizing properties which will markedly inhibit the removal of PFOA in aqueous solution.