Rapid evolution via genetic novelty in an invasive social insect. This project aims to determine how introduced Asian honey bee populations in Australia and the Pacific managed to overcome severe genetic bottlenecks to become invasive pests. The project will use advanced molecular techniques to understand rapid evolution at a focal gene that determines fitness in these populations, and to see evolution in action across the genome using a twelve-year timeline of samples. The outcome will be an en ....Rapid evolution via genetic novelty in an invasive social insect. This project aims to determine how introduced Asian honey bee populations in Australia and the Pacific managed to overcome severe genetic bottlenecks to become invasive pests. The project will use advanced molecular techniques to understand rapid evolution at a focal gene that determines fitness in these populations, and to see evolution in action across the genome using a twelve-year timeline of samples. The outcome will be an enhanced capacity to manage new outbreaks of invasive social insects of all kinds via a better understanding of how invasions establish and spread. This should provide significant benefits in the form of protecting Australian agriculture and pollination services from social insect pests.Read moreRead less