The role of leaf veins in vascular plant evolution. Leaves are continuously irrigated by a system of internal plumbing that defines their maximum photosynthetic output, and angiosperms are the most productive plants on earth largely by virtue of a uniquely efficient system of leaf plumbing. This project will identify how such an important modification of leaf water transport came to evolve.
Can Tasmanian Devils survive by adapting to devil facial tumour disease? This research will examine whether or not Tasmanian Devils are capable of adapting fast enough to survive the disease epidemic caused by a new contagious cancer, devil facial tumour disease, and evade extinction. Outcomes will determine long-term management responses to the disease and will set a benchmark for managing wildlife diseases worldwide.
Climate change: bridging the gap between environmental induced phenotypic change, population dynamics, and long-term evolution. It is becoming impossible to ignore the impact of global climate change on organisms around the world from changes in migration, distribution to extinction events - yet there is much to understand. This project examines the role of a changing environment during developmental and its effects on ecological and evolutionary outcomes.