Butachlor (N-butoxymethyl-2-chloro-2’,6’-diethylacetanilide), one of the widely utilized herbicides in paddy fields, characterizes by its fast degradation rate and low toxicity and serves to be a herbicide that fulfills environmental friendliness purpose. The bacterial composition under butachlor application with rice plant cultivation was investigated by culture-independent and culture-dependent method and the change of nitrogenase activities under the same treatment were also investigated. The results showed that in the upper layer of paddy soils (0-3 cm), both concentrations of butachlor application (1.5 g are-1 and 15 g are-1) could significantly raise soil nitrogenase activities at rice survival stage. But at the rice ripening stage, only higer concentration of butachlor application could raise the soil nitrogenase activity significantly. In the lower layer of paddy soils (3-15 cm), both concentrations of butachlor could raise soil nitrogenase activities, while higher concentration of butachlor could raise the activity to a larger degree. From the results of un-paired group method using arithmetic averages (UPGMA) which interpreting the results of denaturing gradient gel electrophoresis (DGGE), the diazotrophic divergences upon butachlor application were ranged from 33-64% throughout rice growth stages; while that of eubacterial diversities were from 28-52%. For further interpretation and determination of the cluster numbers of each UPGMA dendrograms, minimum distance statistics (MD), was therefore applied. The results showed that the application of butachlor altered the composition of diazotrophic and eubacterial communities without recovery to the inceptive state after 100 days of rice cultivation. The predominant nitrogen fixation bacteria was Janthinobacterium sp. under higher dose of butachlor in upper layer soil, and was Arthrobacter sp. in lower layer soil. The diazothrophic biodiversity increased after 39 days and was the reason that boosted the soil nitrogenase activity.