Editorial Overview – Insect Genomics (2026): enhancing public health, food security, and biodiversity through genetic biocontrol.

Genetic biocontrol is a form of biological control in which genetic variants or genetically modified forms of the target species act to reduce or eliminate the target species. In entomology, target species include agricultural pests and vector species that transmit pathogens to human, animal, or plant systems. Examples include the Anopheles mosquito gene drive system to reduce or replace malaria vectors in Africa, the use of Wolbachia symbiont induced cytoplasmic incompatibility in Culex mosquitoes to project Hawaiian native birds from avian malaria related deaths, and the use of CRISPR to generate sterile males at a scale useful for suppressing pests of fruit crops. The widespread availability of robust transgenic technologies combined with new RNA-guided DNA endonuclease-based genome manipulation technologies and platforms and advances in synthetic biology are fueling the development of genetic biocontrol technologies and systems for combating arthropods that contribute to food insecurity, pathogen- and parasite-transmission, and invasive arthropods that threaten biodiversity. Heretofore a niche area of genetic biocontrol now commands great interest and an ever-growing number of applications.