The evolution of female mating frequency and its consequences. This project explores the evolutionary significance of female mating frequency for male and female reproductive biology. The research proposes to use innovative approaches to examine the evolution of ejaculate characteristics, will focus on the evolution of sperm form and function, and will examine the fitness benefits of promiscuity from the females' perspective. The research uses both vertebrates and invertebrates as model organi ....The evolution of female mating frequency and its consequences. This project explores the evolutionary significance of female mating frequency for male and female reproductive biology. The research proposes to use innovative approaches to examine the evolution of ejaculate characteristics, will focus on the evolution of sperm form and function, and will examine the fitness benefits of promiscuity from the females' perspective. The research uses both vertebrates and invertebrates as model organisms to test predictions and assumptions of theoretical models relevant to both internal and external modes of fertilization. The design of this project will allow cutting-edge, theoretically informed and experimentally grounded conclusions to be drawn regarding selection under sperm competition.Read moreRead less
Science for Sustainable Management of Coral Reef Biodiversity: a multi-disciplinary approach to global-scale processes and patterns. Hughes will lead an international team to undertake a multi-disciplinary program of research that will quantify the processes underlying biodiversity patterns on coral reefs, focussing on ecological and evolutionary mechanisms of these complex systems at multiple scales in space and time. A novel modelling component will provide the mechanistic link between multi-s ....Science for Sustainable Management of Coral Reef Biodiversity: a multi-disciplinary approach to global-scale processes and patterns. Hughes will lead an international team to undertake a multi-disciplinary program of research that will quantify the processes underlying biodiversity patterns on coral reefs, focussing on ecological and evolutionary mechanisms of these complex systems at multiple scales in space and time. A novel modelling component will provide the mechanistic link between multi-scale processes and regional-scale patterns. This research will cement Australia's leading contribution to coral reef science, and will guide the management, sustainable use and conservation of coral reef biodiversity across international boundaries.Read moreRead less