Background Cabbage butterfly, Pieris brassicae (Linnaeus) (Lepidoptera: Pieridae), is one of the most important pests of cabbage and other cruciferous crops and accounts for > 40% yield reduction in the crops. An investigation on the baseline susceptibility of P. brassicae to Bacillus thuringiensis (Bt) Cry toxins in Meghalaya was evaluated for future exploitation in Bt resistance monitoring. Two different Cry toxins, Bt Cry1C and Cry2Ab, were screened against 11 different field populations of P. brassicae from the state of Meghalaya. LC50 was evaluated based on the response of larval mortality of P. brassicae using the leaf-dip bioassay method. Results The baseline-susceptibility tests conducted on P. brassicae in 11 different field populations from Meghalaya revealed that Smit population strains seemed to show less tolerance to both the Bt Cry toxins (Cry1C and Cry2Ab). Compared to the Cry1C toxin, Cry2Ab was found more potent against P. brassicae. The median lethal concentrations, LC50 72 h, varied from 0.535 to 1.725 µg/ml for Cry2Ab and 0.546–1.803 µg/ml for Cry1C toxin. The screening using leaf-dip bioassay resulted in a tolerance ratio of 3.3-fold and 3.2-fold for Cry1C and Cry2Ab, respectively. The most tolerant strains of P. brassicae from Umiam and Pepbah regions were observed to show discriminating concentrations of 19.30 µg/ml for Cry1C and 24.03 µg/ml for Cry2Ab (LC99, 72 h). Conclusions The Cry2Ab toxin was found to be more virulent than Cry1C toxin for P. brassicae. Certain candidate discriminating concentrations for Cry1C and Cry2Ab can be used as benchmarks for future resistance monitoring of P. brassicae to Bt Cry toxins.