The evolution of periodic ventilation in insects. The primary outcome of this research initiative is a new approach to the understanding of the evolution of periodic ventilation in insects. It involves researchers from four Australian universities, and will showcase the strength of Australian research and the diversity of the Australian insect fauna, and demonstrate the utility of the Australian environment as a model system for the study of fundamental biological problems. The research deals wi ....The evolution of periodic ventilation in insects. The primary outcome of this research initiative is a new approach to the understanding of the evolution of periodic ventilation in insects. It involves researchers from four Australian universities, and will showcase the strength of Australian research and the diversity of the Australian insect fauna, and demonstrate the utility of the Australian environment as a model system for the study of fundamental biological problems. The research deals with the influence of microclimate on the physiology of insects. This will lead to an appreciation of the ability of these species to respond to climate change.Read moreRead less
Seeing without eyes: the evolution of non-visual photoreceptors in vertebrates. Australia's underwater biodiversity is second to none with endemic species representing the earliest stages in vertebrate evolution, many of them relying heavily on vision for survival. Tracing the evolution of light detection and image formation will provide crucial information about the lifestyles of our vertebrate ancestors, the environmental selection pressures driving speciation and colour communication. Charact ....Seeing without eyes: the evolution of non-visual photoreceptors in vertebrates. Australia's underwater biodiversity is second to none with endemic species representing the earliest stages in vertebrate evolution, many of them relying heavily on vision for survival. Tracing the evolution of light detection and image formation will provide crucial information about the lifestyles of our vertebrate ancestors, the environmental selection pressures driving speciation and colour communication. Characterisation of optimal light environments and extra-ocular light detection will also help protect and manage endemic species in wild and captive environments. Read moreRead less