Evolution of nervous system patterning processes: characterisation of homologs of key Drosophila regulatory genes from the coral Acropora. Defining the common mechanisms of nervous system development is one of the major goals of modern biology, but is presently being addressed largely by comparisons between a few very advanced (and therefore specialised) animals. Comparative data from a lower animal is urgently needed, and will clarify many aspects of nervous system evolution and development. Th ....Evolution of nervous system patterning processes: characterisation of homologs of key Drosophila regulatory genes from the coral Acropora. Defining the common mechanisms of nervous system development is one of the major goals of modern biology, but is presently being addressed largely by comparisons between a few very advanced (and therefore specialised) animals. Comparative data from a lower animal is urgently needed, and will clarify many aspects of nervous system evolution and development. The pioneering work carried out on Acropora in this laboratory suggests that it is perhaps the best choice currently available for this purpose. This project will use Acropora to address fundamental questions about the evolution of nervous system developmental processes.Read moreRead less
Life and times of Beringian biota from luminescence and radiocarbon dating of sedimentary DNA: chronologies for palaeoenvironmental and archaeological archives. This study will yield important new data on the time of entry of humans into a previously uninhabited continent (North America) and the record of subsequent human-environment interactions. The same broad issues apply to Australia, so understanding the sequence and causes of events in Beringia will provide insights into human disruption o ....Life and times of Beringian biota from luminescence and radiocarbon dating of sedimentary DNA: chronologies for palaeoenvironmental and archaeological archives. This study will yield important new data on the time of entry of humans into a previously uninhabited continent (North America) and the record of subsequent human-environment interactions. The same broad issues apply to Australia, so understanding the sequence and causes of events in Beringia will provide insights into human disruption of the Australian ecosystem. The development of improved techniques in palaeogenetics and geochronology will benefit researchers worldwide, increase the capacity for commercial services, and enhance Australia's international standing in cutting edge science. We will train high-quality graduate students and create new collaborative initiatives and opportunities for research, exchange, training and education.Read moreRead less
Pleistocene evolutionary dynamics and past environments of Siberia: Reconstructions using luminescence dating of ancient DNA sedimentary archives. This study will yield critical new insights into faunal-environment interactions in Siberia and their long-term implications for the evolution and extinction of Siberia's biota. These fundamental issues are of relevance to Australian archaeology, palaeontology and biogeography, and so our discoveries are of direct interest to Australian researchers st ....Pleistocene evolutionary dynamics and past environments of Siberia: Reconstructions using luminescence dating of ancient DNA sedimentary archives. This study will yield critical new insights into faunal-environment interactions in Siberia and their long-term implications for the evolution and extinction of Siberia's biota. These fundamental issues are of relevance to Australian archaeology, palaeontology and biogeography, and so our discoveries are of direct interest to Australian researchers studying these disciplines. The methodological advancements in OSL dating and DNA techniques that will accompany this research will enhance Australia's international scientific standing and create new opportunities for collaborative initiatives in both cutting-edge scientific research and consulting activities.Read moreRead less
Australia's exceptional Palaeozoic fossil fishes, and a Gondwana origin for land vertebrates. The 370 million-year-old Gogo deposit in WA has produced the World's best-preserved fossil fishes of Devonian age. New discoveries of related forms in eastern and central Australia document the deep history of Australia's unique vertebrate fauna, and provide new evidence on the evolution of the first jaws and limbs in vertebrates. They indicate that the first land animals may have evolved on the Austral ....Australia's exceptional Palaeozoic fossil fishes, and a Gondwana origin for land vertebrates. The 370 million-year-old Gogo deposit in WA has produced the World's best-preserved fossil fishes of Devonian age. New discoveries of related forms in eastern and central Australia document the deep history of Australia's unique vertebrate fauna, and provide new evidence on the evolution of the first jaws and limbs in vertebrates. They indicate that the first land animals may have evolved on the Australian landmass. These remarkably preserved, information-rich skulls and braincases of some of the oldest known vertebrate fossils provide unique data on early evolution of the head and brain; they are held in national collections as a significant contribution to both National and World Heritage.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0237922
Funder
Australian Research Council
Funding Amount
$500,000.00
Summary
High Resolution Cryogenic Field Emission Environmental Scanning Electron Microscope Facility. A high resolution variable pressure scanning electron microscope will replace aging, heavily utilised facilities. It will be accessed by existing large and diverse user groups in a mature and internationally-recognised Centre. The novel combination of a cryogenic stage and the electrostatic beam blanking modification will support continuance of the local, world-leading research and application of new ....High Resolution Cryogenic Field Emission Environmental Scanning Electron Microscope Facility. A high resolution variable pressure scanning electron microscope will replace aging, heavily utilised facilities. It will be accessed by existing large and diverse user groups in a mature and internationally-recognised Centre. The novel combination of a cryogenic stage and the electrostatic beam blanking modification will support continuance of the local, world-leading research and application of new imaging techniques, particularly in the materials and mineral sciences. Both new nanotechnology and existing globally-significant industries will utilise the unique aspects of this instrument for product refinement and maintenance of commercial leadership, in partnership with local Universities and Government agencies.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE0346856
Funder
Australian Research Council
Funding Amount
$950,000.00
Summary
High Performance Computing Infrastructure Upgrade. The aim of the High Performance Computing Facility is to operate a world class facility as measured by both computational power and client satisfaction. This proposal seeks to increase the current computational power of the existing Victorian High Performance Compting Facility by doubling the current capacity. The combination of a large number of very fast processors and a very fast interconnect makes this facility ideal for modelling and solv ....High Performance Computing Infrastructure Upgrade. The aim of the High Performance Computing Facility is to operate a world class facility as measured by both computational power and client satisfaction. This proposal seeks to increase the current computational power of the existing Victorian High Performance Compting Facility by doubling the current capacity. The combination of a large number of very fast processors and a very fast interconnect makes this facility ideal for modelling and solving science and engineering problems beyond the scope of installed HPC systems. The facility will be linked to other HPC systems in Victoria and across Australia to create an evolving cluster computing "meta-centre" that links computing resources together.
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Special Research Initiatives - Grant ID: SR0354591
Funder
Australian Research Council
Funding Amount
$10,000.00
Summary
New Techniques using X-rays, Electrons and Quantum Optics in Physics & Chemistry and key developments for biomedicine & industry. This network will develop theoretical, experimental and computational techniques addressing key issues in physics, chemistry, biology and geosciences. Scope will be wide-ranging and inclusive. We anticipate making major developments in the design and understanding of absolute X-ray Absorption Fine Structure, X-ray, Neutron and Electron Diffraction, Electron Density Ma ....New Techniques using X-rays, Electrons and Quantum Optics in Physics & Chemistry and key developments for biomedicine & industry. This network will develop theoretical, experimental and computational techniques addressing key issues in physics, chemistry, biology and geosciences. Scope will be wide-ranging and inclusive. We anticipate making major developments in the design and understanding of absolute X-ray Absorption Fine Structure, X-ray, Neutron and Electron Diffraction, Electron Density Mapping, Molecular and Cluster computations and Powder Diffraction for fundamental research, biomedical and industrial applications. These breakthroughs will be invaluable for the development of Australia's major research infrastructure (the synchrotron, electron microscopes, and the research reactor). This will develop Australian expertise and collaboration at the cutting edge of a variety of interdisciplinary fields.Read moreRead less
Predicting Space Weather Using Solar Radio Bursts. Australia's scientific standing and expertise will be enhanced in the fields of space weather, space physics, plasma physics, and complex systems by the new prediction methods and scientific discoveries expected. Better predictions will increase the utility of Ionospheric Prediction Service reports to customers in defence (better communications) and satellite operations (improved survivability), industry (reduced infrastructure damage), and els ....Predicting Space Weather Using Solar Radio Bursts. Australia's scientific standing and expertise will be enhanced in the fields of space weather, space physics, plasma physics, and complex systems by the new prediction methods and scientific discoveries expected. Better predictions will increase the utility of Ionospheric Prediction Service reports to customers in defence (better communications) and satellite operations (improved survivability), industry (reduced infrastructure damage), and elsewhere. Australia's research base will be strengthened by high-level training of Research Associates and students, while its scientific infrastructure and role in international space efforts will be enhanced.Read moreRead less
Solar radio bursts, the origin and properties of the sun's corona and solar wind, and space weather. This project uses solar radio bursts to answer fundamental scientific questions about the Sun, predict space weather events at Earth, and motivate theories for the bursts and shocks. It will discover the corona's origin and where the solar wind is accelerated, understand how shocks reform and accelerate particles, and develop quantitative theories for radio bursts. These discoveries and associate ....Solar radio bursts, the origin and properties of the sun's corona and solar wind, and space weather. This project uses solar radio bursts to answer fundamental scientific questions about the Sun, predict space weather events at Earth, and motivate theories for the bursts and shocks. It will discover the corona's origin and where the solar wind is accelerated, understand how shocks reform and accelerate particles, and develop quantitative theories for radio bursts. These discoveries and associated high-level training of staff and students will increase Australia's international scientific standing, expertise, infrastructure, and human capital. It involves international collaborations on NASA's $600M STEREO mission and the MWA radio telescope, among others, and supports the new Decadal Plan for Australian Space Science.Read moreRead less
Wave Localization and Burstiness in Type III Solar Radio Bursts. The project will raise Australia's scientific standing and expertise in space and plasma physics, space weather, and complex systems due to new discoveries, theories, publications, and invited talks. It supports Australia's involvement in NASA's $600M STEREO mission and other space efforts, and greatly leverages Australia's small numbers and budget on the world stage. The project will enhance Australia's human capital due to high-l ....Wave Localization and Burstiness in Type III Solar Radio Bursts. The project will raise Australia's scientific standing and expertise in space and plasma physics, space weather, and complex systems due to new discoveries, theories, publications, and invited talks. It supports Australia's involvement in NASA's $600M STEREO mission and other space efforts, and greatly leverages Australia's small numbers and budget on the world stage. The project will enhance Australia's human capital due to high-level training and increased expertise of new staff, students, and CIs. The new data and methods will develop, better exploit, and make more competitive Australia's scientific infrastructure. Last, the exciting discoveries expected will attract the international media and increase science's appeal to the public.Read moreRead less