Even though numerous studies have confirmed the daily variation of susceptibility to xenobiotic compounds in animals, there are a few reports studying molecular mechanisms underlying the daily rhythm of insecticide resistance in insects. In the present study, we investigated the daily susceptibility rhythm to permethrin and the expression level of the delta class glutathione S-transferase (BgGSTD1) gene in Blattella germanica. Male cockroaches were exposed to the same concentration of permethrin at different time points in a light-dark cycle, and results showed that the highest resistance occurred at night. Furthermore, the circadian rhythm of permethrin resistance can be demonstrated by the highest resistance at subjective night under constant darkness. The mRNA level of the BgGSTD1 gene in the fat body of B. germanica peaked at the early day time under light-dark and constant dark conditions, whereas the enzyme activity of cytosolic GSTs wasn’t reflected the rhythmic pattern as well as BgGSTD1 expression. RNA interference (RNAi) was employed to study the function of BgGSTD1 in the circadian rhythm of permethrin resistance in B. germanica. Both BgGSTD1 mRNA level and cytosolic GSTs activity were significantly decreased by dsGSTD1 injection. In addition, the survival rate of B. germanica with silenced BgGSTD1 was significantly decreased at night but not in the day time when the cockroaches were exposed to permethrin. These results have demonstrated that BgGSTD1 plays an important role in circadian regulation of permethrin resistance in B. germanica.