LAUSR

Abstract As important pollination species, honeybees play substantial impacts on the balance of global ecosystem, including two best-known honeybees Apis mellifera and Apis cerana. Embryogenesis is a fundamental stage of honeybee development and plays important roles in supporting the whole-life developmental process. However, few studies were reported on honeybee embryonic morphology using egg section, possibly due to the fragility of honeybee eggs and the difficulty of making embryonic sections. In this study, we reported a simply equipped method of frozen sectioning and PI (propidium iodide) staining to show the inner structure and cell distribution of A. cerena embryos at the different embryonic developmental stages. We found that the stages of A. cerena embryogenesis could also be typically classified into ten developmental stages, which are similar with the sister honeybee species, A. mellifera. To be noted, besides the cell distribution in the whole egg, we clearly observed the migration route of embryonic cells during the early embryonic development in A. cerena. This study provides a new insight into the whole process of honeybee embryogenesis from the perspective of egg sectioning, a histological basis for genetic manipulation using A. cerena eggs, and a reference method for egg sectioning for other insect species.