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Sequencing and assembling microbial community metagenomes in real-time. This project aims to assemble metagenomes directly from environmental samples using nanopore sequencing. Short-read approaches to metagenomics cannot assemble mixed genomes from an environmental sample, so focus on describing which species and genes are present. Long-read nanopore sequencing enables the assembly of full genomes of multiple species in a sample. Assembling complete genomes in important resources such as water ....Sequencing and assembling microbial community metagenomes in real-time. This project aims to assemble metagenomes directly from environmental samples using nanopore sequencing. Short-read approaches to metagenomics cannot assemble mixed genomes from an environmental sample, so focus on describing which species and genes are present. Long-read nanopore sequencing enables the assembly of full genomes of multiple species in a sample. Assembling complete genomes in important resources such as water and soil should lead to deeper understanding of the dynamics, variation and transfer of genetic material within these resources’ microbial communities, strategies to manage microbial diversity, and improved productivity and long-term sustainability for these resources.Read moreRead less
eGenomics - Next generation biomonitoring of threatened species. DNA is the molecule of life and exists everywhere in the environment as a largely untapped source of information on evolution, biodiversity, and ecosystem health. Our overriding aim is to start mining that information to benefit threatened species. Based on optimized ancient DNA methods, powerful sequencing technology, whole genome analyses, and RNA profiling, we present a novel and holistic framework for genetic biomonitoring. In ....eGenomics - Next generation biomonitoring of threatened species. DNA is the molecule of life and exists everywhere in the environment as a largely untapped source of information on evolution, biodiversity, and ecosystem health. Our overriding aim is to start mining that information to benefit threatened species. Based on optimized ancient DNA methods, powerful sequencing technology, whole genome analyses, and RNA profiling, we present a novel and holistic framework for genetic biomonitoring. In two parallel model systems we will study corals and reptiles to improve environmental detection while simultaneously obtaining information on their population health. This will foster more efficient conservation of endangered species that are of tremendous importance to our marine and terrestrial ecosystems.Read moreRead less
National Macadamia Conservation Program. Macadamia is a national icon, and the only indigenous Australian plant food crop to be commercialised. However, it is vulnerable to extinction in the wild, needing conservation action. University, government, industry and community sectors will work together applying cutting edge research methodologies to produce a systematic conservation and recovery plan for Macadamia. This requires: Habitat modelling to predict past, contemporary and potential distribu ....National Macadamia Conservation Program. Macadamia is a national icon, and the only indigenous Australian plant food crop to be commercialised. However, it is vulnerable to extinction in the wild, needing conservation action. University, government, industry and community sectors will work together applying cutting edge research methodologies to produce a systematic conservation and recovery plan for Macadamia. This requires: Habitat modelling to predict past, contemporary and potential distributions for advising resource discovery and rehabilitation; Genetic variation modelling to assess quality and distinctness of native genetic resources and potential for rehabilitation by natural colonisation; and Developing a unifying statistical framework to support this work.Read moreRead less
Is restoration working? An ecological genetic assessment. This project aims to assess the success of restoration in terms of ecological and genetic viability for plant species in the Fitzgerald River–Stirling Range region of Western Australia, where significant investment is being made in restoring connectivity at a landscape scale. The project intends to compare reproductive output, pollinator behaviour, mating, genetic diversity and pollen dispersal in restored sites with those of undisturbed ....Is restoration working? An ecological genetic assessment. This project aims to assess the success of restoration in terms of ecological and genetic viability for plant species in the Fitzgerald River–Stirling Range region of Western Australia, where significant investment is being made in restoring connectivity at a landscape scale. The project intends to compare reproductive output, pollinator behaviour, mating, genetic diversity and pollen dispersal in restored sites with those of undisturbed natural vegetation. The project moves measures of restoration success beyond that of population establishment and survival to incorporate the evolutionary processes that provide long-term resilience, persistence and functional integration of restored populations into broader landscapes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0452392
Funder
Australian Research Council
Funding Amount
$155,645.00
Summary
Australian Robotic Biobank Facility. The Australian Robotic Biobank Facility is envisaged as the national DNA extraction centre for generating archival-quality DNA. It will integrate with the existing Australian Plant DNA Bank to accelerate scientific discovery in biodiversity conservation and plant genetic improvement. The facility will augment Southern Cross University's extensive research collaborations with other Australian universities, institutions and agencies. It will provide the funda ....Australian Robotic Biobank Facility. The Australian Robotic Biobank Facility is envisaged as the national DNA extraction centre for generating archival-quality DNA. It will integrate with the existing Australian Plant DNA Bank to accelerate scientific discovery in biodiversity conservation and plant genetic improvement. The facility will augment Southern Cross University's extensive research collaborations with other Australian universities, institutions and agencies. It will provide the fundamental infrastructure to support research aimed at sustainable utilization and conservation management of Australia's genetic resources. The unique capacity to provide high quality archived DNA will be made possible by the precision instrumentation platform of the Australian Robotic Biobank Facility.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
Conservation genetics of humpback whales off Western Australia: Implications for the management of the Antarctic Group IV population. We will define the geographic structuring and gene flow of humpback whales comprising Antarctic Area Group IV, and which migrate off the coast of Western Australian. With this information we will develop guidelines for commonwealth, state, industry, and non-government organisations, for conserving and managing discrete (genetic) populations of humpback whales off ....Conservation genetics of humpback whales off Western Australia: Implications for the management of the Antarctic Group IV population. We will define the geographic structuring and gene flow of humpback whales comprising Antarctic Area Group IV, and which migrate off the coast of Western Australian. With this information we will develop guidelines for commonwealth, state, industry, and non-government organisations, for conserving and managing discrete (genetic) populations of humpback whales off Western Australia. We can then manage these cetaceans at the appropriate geographic scale, and assign conservation priority in relation to population genetic structure gained from this study.Read moreRead less
Contribution of hybridisation to genetic diversity and adaptation in Eucalyptus. The eucalypt gene pool is an outstandingly important bioresource for Australia. Its effective future management will be based on understanding the extent, causes and significance of genetic variation in eucalypt species. This project investigates a currently overlooked, but potentially important, source of genetic diversity and adaptation in Eucalyptus. The knowledge gained will contribute substantially to our un ....Contribution of hybridisation to genetic diversity and adaptation in Eucalyptus. The eucalypt gene pool is an outstandingly important bioresource for Australia. Its effective future management will be based on understanding the extent, causes and significance of genetic variation in eucalypt species. This project investigates a currently overlooked, but potentially important, source of genetic diversity and adaptation in Eucalyptus. The knowledge gained will contribute substantially to our understanding of eucalypt biology, and will inform decision-making for conservation, revegetation, and sustainable use of seed resources. Through addressing fundamental questions, the project will also provide a uniquely Australian contribution to world research in forest molecular genetics.Read moreRead less
Next generation metagenomics. Applying the latest scientific advances supports society directly through promoting a knowledge based economy, as well as indirectly through securing agricultural productivity, improved biomedical applications and a greater understanding of our changing environment. Establishing these methods places Australia at the forefront of genomics technology with direct applications for Australian biomedical and biotechnology industries. Applying next generation sequencing fo ....Next generation metagenomics. Applying the latest scientific advances supports society directly through promoting a knowledge based economy, as well as indirectly through securing agricultural productivity, improved biomedical applications and a greater understanding of our changing environment. Establishing these methods places Australia at the forefront of genomics technology with direct applications for Australian biomedical and biotechnology industries. Applying next generation sequencing for metagenomics will provide a detailed understanding of microbial population structures and lead to advances in biomedicine, agriculture and environmental science. Read moreRead less
Simultaneous analysis of root-derived plant defences and the associated microbiome. Australia is dependent on sustainable agricultural yields, which need to be maintained or improved. This production capacity is currently under threat by new and existing diseases which are predicted to worsen with climate change. This project will provide a global picture of how disease resistance and soil microbial communities are causally linked, and provide new strategies for disease control. In doing so, it ....Simultaneous analysis of root-derived plant defences and the associated microbiome. Australia is dependent on sustainable agricultural yields, which need to be maintained or improved. This production capacity is currently under threat by new and existing diseases which are predicted to worsen with climate change. This project will provide a global picture of how disease resistance and soil microbial communities are causally linked, and provide new strategies for disease control. In doing so, it will develop intellectual property (IP) and infrastructure that can be used in soil health management. This will provide many benefits to Australia, including sustainable agriculture in the context of climate variability and an increased demand for food, biomaterials and biofuels.Read moreRead less