The molecular basis of oligotrophy: an integrated genomic and functional proteomic study of the model marine oligotroph, Sphingopyxis alaskensis. The project will will enable Australia to take the lead in the global analysis of oligotrophy, highlighting the reputation Australian scientists have in scientific programs of global significance. As Australia is surrounded by some of the most oligotrophic waters in the world, we have access to an enormous natural resource suitable for the isolation of ....The molecular basis of oligotrophy: an integrated genomic and functional proteomic study of the model marine oligotroph, Sphingopyxis alaskensis. The project will will enable Australia to take the lead in the global analysis of oligotrophy, highlighting the reputation Australian scientists have in scientific programs of global significance. As Australia is surrounded by some of the most oligotrophic waters in the world, we have access to an enormous natural resource suitable for the isolation of oligotrophs. Realising the potential of oligotrophs may therefore provide an invaluable source of compounds, enzymes and molecules for biotechnology and industry. Understanding microbial oligotrophy will also ensure we protect our $50 billion dollar tourism industry by remaining abreast of factors which influence the marine environment and directly impact on all coastal activities.Read moreRead less
The genetic basis of differentiation: Towards a predictive understanding of evolution in the wild. Given that Australia cannot escape the effects of, among others, climate change and habitat deterioration, the question of how this is going to impact Australia's unique flora and fauna is an important one. Since extinction is the final consequence of the inability to adapt with sufficient speed to changing environmental conditions, this raises the issue of how well we understand the processes unde ....The genetic basis of differentiation: Towards a predictive understanding of evolution in the wild. Given that Australia cannot escape the effects of, among others, climate change and habitat deterioration, the question of how this is going to impact Australia's unique flora and fauna is an important one. Since extinction is the final consequence of the inability to adapt with sufficient speed to changing environmental conditions, this raises the issue of how well we understand the processes underlying evolutionary adaptation. This project will provide insight into the process of population divergence and the role of genetics therein, and will enhance our understanding of the effects of environmental change, habitat fragmentation and population bottlenecks on population viability and Australia's biodiversity in general. Read moreRead less