Determining the diet of arthropods can be difficult due to their small size and complex food webs, especially in Hawai‘i, where knowledge of arthropod predator–prey interactions is sparse. The diet of the Hawai‘i Island-endemic carabid beetle, Blackburnia hawaiiensis Sharp (Coleoptera: Carabidae) is of particular interest because of its peculiar arboreal behavior and metathoracic flight wings. Our study objective was to determine the diet of B. hawaiiensis in replicated, geographically separated locations by using two different yet complementary laboratory techniques: natural abundance stable isotope analysis (SIA) and high-throughput sequencing (HTS). Overall, B. hawaiiensis had a greater average δ¹⁵N and similar δ¹³C compared to the other arthropods sampled in this study and HTS data revealed Diptera and Lepidoptera sequences in the beetle's gut contents. These results are consistent with B. hawaiiensis being classified as a generalist predator. The combination of SIA and HTS are important methods for determining the diet of species within complex food webs, particularly for species that are difficult to observe in nature.