When corals bleach, what is the weakest photosynthetic link? Despite dire warning of the imminent impact (< 50 y) of climate change of coral reefs, we still do not understand the fundamental processes of coral bleaching. This project will enhance future management of Australia's extensive coral reef ecosystems by providing details on critical gaps in our knowledge. This will feed directly into several layers of management agencies for policy development and risk assessment. Managing our reefs in ....When corals bleach, what is the weakest photosynthetic link? Despite dire warning of the imminent impact (< 50 y) of climate change of coral reefs, we still do not understand the fundamental processes of coral bleaching. This project will enhance future management of Australia's extensive coral reef ecosystems by providing details on critical gaps in our knowledge. This will feed directly into several layers of management agencies for policy development and risk assessment. Managing our reefs in an ecologically sustainable manner is vital to the future economic, social and cultural prosperity of Australia. The economic importance of healthy and biodiverse coral reefs is pivotal to both the tourism and fisheries-based economies of Queensland ($2.4 b/y). Read moreRead less
Chemical Defenses Against Microbial Colonisation of Living Marine Surfaces. Microorganisms have a major impact on all ecosystems. Many of these effects are due to the formation of biofilms - cell clusters and their slime matrix - on living and non-living surfaces. Biofilm formation is often regulated by chemical signals. The aim of this project is to understand how naturally produced chemical signals mediate the formation of biofilms on surfaces of marine macroalgae (seaweeds) at both the eco ....Chemical Defenses Against Microbial Colonisation of Living Marine Surfaces. Microorganisms have a major impact on all ecosystems. Many of these effects are due to the formation of biofilms - cell clusters and their slime matrix - on living and non-living surfaces. Biofilm formation is often regulated by chemical signals. The aim of this project is to understand how naturally produced chemical signals mediate the formation of biofilms on surfaces of marine macroalgae (seaweeds) at both the ecological and molecular levels. By understanding colonisation of natural living surfaces, this project will lead directly to significant advances in control of microorganisms in a variety of applied areas (water treatment, biomaterials, antifouling).Read moreRead less
Population growth, genetic variation and adaptation in two Caulerpa species in southeastern Australia. This project will examine factors that influence the population growth, reproduction, genetic variation and adaptation in two seaweeds; the invasive Caulerpa taxifolia and the possibly invasive C. filiformis. A combination of surveys, modelling, molecular genetics and field experiments will be undertaken to achieve this. The current ambiguity surrounding the status of C. filiformis as an inva ....Population growth, genetic variation and adaptation in two Caulerpa species in southeastern Australia. This project will examine factors that influence the population growth, reproduction, genetic variation and adaptation in two seaweeds; the invasive Caulerpa taxifolia and the possibly invasive C. filiformis. A combination of surveys, modelling, molecular genetics and field experiments will be undertaken to achieve this. The current ambiguity surrounding the status of C. filiformis as an invasive species in Australia will be addressed by comparing DNA sequences of Australian and African plants. This project will provide critical data for managing invasive species, but more broadly, increase the current understanding of their biology and the factors important in their population growth and adaptation.Read moreRead less