Why conserve genetic variation? Is this misdirected effort or a crucial concern? In attempting to conserve populations of threatened plants, ecosystem managers must prioritise allocation of resources to both immediate and long-term threats, including loss of genetic variation. This study will determine the importance of maintaining existing genetic variation within populations of several species in a major Australian plant group. As well as advancing theory in the area of plant ecological genet ....Why conserve genetic variation? Is this misdirected effort or a crucial concern? In attempting to conserve populations of threatened plants, ecosystem managers must prioritise allocation of resources to both immediate and long-term threats, including loss of genetic variation. This study will determine the importance of maintaining existing genetic variation within populations of several species in a major Australian plant group. As well as advancing theory in the area of plant ecological genetics and evolutionary biology, our results will provide a stronger scientific basis for the development of conservation policy and management decisions for conserving threatened plant species. Read moreRead less
Tracing the origins of stress in the symbionts of reef-building corals. Symbiotic dinoflagellates of corals are critical to the world's major tropical reef ecosystems. Recent work in our laboratories and others has revealed that these algae are sensitive to a wide array of stresses (including climate change) and hence may be the ?Achilles Heel? of reef ecosystems. This project will identify the key genes and processes in these algae using expressed sequence tags and microarray technology. On th ....Tracing the origins of stress in the symbionts of reef-building corals. Symbiotic dinoflagellates of corals are critical to the world's major tropical reef ecosystems. Recent work in our laboratories and others has revealed that these algae are sensitive to a wide array of stresses (including climate change) and hence may be the ?Achilles Heel? of reef ecosystems. This project will identify the key genes and processes in these algae using expressed sequence tags and microarray technology. On this basis, the underlying molecular mechanisms of these stress responses and their genetic diversity will be studied in order to better understand the differential susceptibility of reef-building corals to bleaching.Read moreRead less