Growing rice on arsenic contaminated paddy soils existed higher risk of grain arsenic contamination. The risk was considered to be reduced by water management. In Taiwan, conventional water management strategy will discharge water after the maximum tiller stage which has been practiced in paddy rice cultivation for decades. Therefore, three water management strategies that designed to reduce the risk of rice contaminated by arsenic were selected to evaluate the effects on lowering arsenic accumulation in brown rice with the conventional method. Four water management treatments were listed as followings: (1) Aerobic treatment for 10 days after 35 days of rice seedling, denoted as CK, (2) aerobic treatment for 3 weeks before rice heading, denoted as A, (3) aerobic treatment for 3 weeks after rice heading, denoted as B, and (4) aerobic treatment for 3 weeks before rice heading and continue for another 3 weeks after rice heading, denoted as C. Two different soils (Erlin soil denoted as Eh and Pinchen soil denoted as Pc) with two arsenic spiking dose for each soil series (10 and 20 mg As/kg soil for Erlin soil and 20 and 40 mg As/kg soil for Pinchen soil) were used for this study. The rice cultivar, Oryza sativa L. Cv Tainan 11, was selected for this study. The monitoring results showed that the soil redox potential increased about 60-400 mV during the aerobic treatment period. Simultaneously, the concentration of arsenic, iron and manganese of soil solution decreased significantly in Erlin soil during areobic treatments. However, the decresing of arsenic concentration was not obvious in Pinchen soil for same aerobic treatment. During the flooding time, the arsenic concentration of soil solution was not increased dramatically in Pinchen soil. For the effects of water management on lowering the As concentration of brown rice, there was no significant difference among all treatments for Erlin soil. In Pinchen soil spiked with 40 mg As/kg soil, the As concentration of brown rice of treatment A (0.29 mg.kg) was significantly lower than CK treatment (0.42 mg/kg). The total As uptake of rice plant increased with increasing soil As concentraion in Pinchen soil. However, the Erlin soil spiked with As produced the high available As, the As uptake in the brown rice decreased with increasing the soil As concentration. It is possilbe that a plant physiological mechanism regulate the As transport in the brown rice except the reason of As stress to affect the rice growing. For the Pinchen soil spiked with 40 mg As/kg soil, the soil has enough bioavailable arsenic enhance the As content in brown rice but not induce toxic effect on rice growing, soil aerobic treatment for 3 weeks before the rice heading (treatment A) was the good method to reduce the health risk of brown rice growing at As- contaminated soils.