This study is aim to investigate the dissipation of three benzoylurea insecticides in soil, including diflubenzuron, flufenoxuron, and novaluron. The soils used in this study were sampled from Taoyuan District Agricultural Research and Extension Station（Pu）and Hualien District Agricultural Research and Extension Station（Wl）, respectively. Different concentration of insecticides, 1, 10, and 50 mg/kg were applied into the soil. The residues of insecticides in the soil were analyzed with HPLC. The variation of soil bacterial communities during incubation was analyzed with DGGE. It showed that insecticides in sterilized soil have slower dissipation rate than in nonsterilized soil, which strongly imply that insecticide dissipation was caused by microbial degradation. Fitting in first-order equation, half-life of 1, 10, and 50 mg/kg diflubenzuron in soil Pu were 3.0, 10.1, and 45.9 days, respectively; soil treated with flufenoxuron were 75.3, 105, 433.2 days; soil treated with novaluron were 27.7, 192.5, and 301.4 days. Degradation rate was slower as applying 50 mg/kg insecticide than other two concentrations. Degradation rate of diflubenzuron was the fastest among the three insecticides. The DGGE fingerprint showed that after applying insecticides to the soil, bacterial communities was different from the fresh soil. The biodiversity in soil（Pu）community structure to the fresh soil was 41 % as applying 50 mg/kg novaluron into soil, and 57 % as applying 50 mg/kg novaluron to the soil（Wl）.