Holometabolous insects like beetles are morphologically very different between larvae and adults. They grow through successive molts until the pupa stage, when their tissues and organs are modified to adapt to the shift of habitats and feeding habits. The scarab beetles (Coleoptera: Scarabaeidae) play an important role in the environment. In addition to pollination and promoting the circulation of materials in the soil, they are also indicator insects for environmental assessment. The morphology of the digestive tract in each life stage may be different, as the diets of the larvae and adults are different. However, there is little literature about this. I hypothesize that beetles with different diets in the larval and adult stage will have significantly different gut morphologies, and wanted to observe these changes develop during pupation. I chose these Scarabaeidae species as the focus of my thesis: Oryctes rhinoceros, Thaumastopeus shangaicus and Protaetia spp., where the larvae eat wood, soil, or compost while the adults feed on soft plant matter, tree sap, and rotting fruits. I compared these to the tortoise beetle, Cassida circumdata (Chrysomelidae), which feeds on leaves as both larva and adult, to compare their gut morphology to see if the digestive tract changes dramatically to satisfy changes in diet. I dissected three beetles of all species in each stage, observing the structures in detail on the microscope, taking photos and illustrating their digestive tracts. I found there are dramatic changes of the digestive tract in scarab beetles during the pupal stage, although some structures like a microbial biofilm are retained from the larval stage. In the leaf beetles, the gut did not change. This information can provide new insight into metamorphosis, including the possible symbiont transmission routes for these species. The illustrations of what occurs during pupation are novel contributions to this field.