Ecology, physiology and molecular microbiology of coral disease on the Great Barrier Reef. Ecological, physiological, molecular and micro-biological techniques will be used to examine the disease of corals of the Great Barrier Reef (GBR). Molecular techniques include the development of diagnostic techniques for disease identification, using Fluorescent In Situ hybridisation (FISH) and DNA microarrays (CHIPS); physiological experiments include examining the effects of temperature and sediment o ....Ecology, physiology and molecular microbiology of coral disease on the Great Barrier Reef. Ecological, physiological, molecular and micro-biological techniques will be used to examine the disease of corals of the Great Barrier Reef (GBR). Molecular techniques include the development of diagnostic techniques for disease identification, using Fluorescent In Situ hybridisation (FISH) and DNA microarrays (CHIPS); physiological experiments include examining the effects of temperature and sediment on virulence and host susceptibility to disease infection; ecological surveys will examine the extent and seasonality of disease in northern and southern parts of the GBR and on isolated reefs in the central GBR. Management implications of the current coral-disease status of the GBR will be targeted.Read moreRead less
Environmental genomics and novel bioactives from microbial communities on living marine surfaces. This project has three linked benefits to Australia. One, it is the first study to use environmental genomics analysis in an Australian marine ecosystem, thus bringing into the Australian scientific community the cutting edge technology for studying diverse microbial communities. Two, by using this technology we will be able to investigate Australian marine biodiversity to an unprecedented extent. ....Environmental genomics and novel bioactives from microbial communities on living marine surfaces. This project has three linked benefits to Australia. One, it is the first study to use environmental genomics analysis in an Australian marine ecosystem, thus bringing into the Australian scientific community the cutting edge technology for studying diverse microbial communities. Two, by using this technology we will be able to investigate Australian marine biodiversity to an unprecedented extent. Three, this newly revealed diversity will then be mined for novel bioactives for use in pharmaceutical and other human health applications. Read moreRead less