Fleshing out the fossil record: using organically preserved soft tissues and bone to explore the evolution of unique vertebrate characters. This study integrates developmental, molecular and morphological data in both fossil and living species to provide insights into the evolutionary mechanisms which formed the musculo/skeletal system. Uncovering these evolutionary pathways has the potential to describe mechanisms common to all vertebrate and informs us about our own evolution.
Dating the Aboriginal rock art of the Kimberley region, Western Australia - landscape geochemistry, surface processes and complementary dating techniques. The age of much of the spectacular rock art of the Kimberley region of Western Australia remains unknown, especially in its earliest stages. This project aims to use the most advanced dating techniques now available to determine a sequence of ages for this ancient cultural record, increasing its recognition as a heritage site of international ....Dating the Aboriginal rock art of the Kimberley region, Western Australia - landscape geochemistry, surface processes and complementary dating techniques. The age of much of the spectacular rock art of the Kimberley region of Western Australia remains unknown, especially in its earliest stages. This project aims to use the most advanced dating techniques now available to determine a sequence of ages for this ancient cultural record, increasing its recognition as a heritage site of international significance.Read moreRead less
Building giants: the origins of extreme biology in baleen whales. Baleen whales are unlike any other animal. They have evolved unparalleled specialisations for feeding, hearing, smell, cognition and – above all – the largest ever body size. These extreme features underlie the unmatched dominance of baleen whales in today's oceans. The origins of these key adaptations required major changes in the anatomy and function of the skull and teeth. However, exactly how and when the extreme innovations o ....Building giants: the origins of extreme biology in baleen whales. Baleen whales are unlike any other animal. They have evolved unparalleled specialisations for feeding, hearing, smell, cognition and – above all – the largest ever body size. These extreme features underlie the unmatched dominance of baleen whales in today's oceans. The origins of these key adaptations required major changes in the anatomy and function of the skull and teeth. However, exactly how and when the extreme innovations of baleen whales began remains an outstanding question in animal biology. This proposal aims to combine exceptional Australian fossils with recent advances in 3D imaging, biomechanics, and evolutionary analysis to discover how the secrets to the success of baleen whales first evolved.Read moreRead less
Finite Strain with large rotations: A new hybrid numerical/experimental approach. Deformation up to large strains and rotations is important in rocks, metals, polymers, and biomaterials. Computational mechanics is a standard tool for modelling such deformations. However, in earth sciences, mechanical theories use small-strain formulations or large-strain approaches with classical stress rates. Classical stress rates can lead to incorrect stored energies. This project proposes to test a new large ....Finite Strain with large rotations: A new hybrid numerical/experimental approach. Deformation up to large strains and rotations is important in rocks, metals, polymers, and biomaterials. Computational mechanics is a standard tool for modelling such deformations. However, in earth sciences, mechanical theories use small-strain formulations or large-strain approaches with classical stress rates. Classical stress rates can lead to incorrect stored energies. This project proposes to test a new large-strain theory tailored to rocks experimentally, and to apply it to a pivotal geological problem: shear zone formation. The project will advance our fundamental understanding of the mechanics and energetics of rock deformation and provide a novel tool for the modelling of large deformations.Read moreRead less
Geodynamics and continental extension in the East African Rift System: origin and evolution of the Turkana Depression in northern Kenya. The Lake Turkana region in northern Kenya, famous for its fossil evidence of human origins, occupies a critical position within the Great Rift Valley of East Africa. This project seeks to explain how this complex region evolved and also the dynamic earth processes responsible for its formation between two great uplifted domes in Ethiopia and Kenya.
The first Mesozoic fossiliferous amber from Southern Gondwana: an ancient portal into an Australian polar greenhouse. The May 2011 discovery of the oldest fossiliferous amber deposit from Australia, and all of Southern Gondwana, provides a unique opportunity to study the only recorded terrestrial biotas of this age on the continent. Employing new imaging techniques (MicroXCT-400, X-ray ultramicroscope and Synchrotron radiation), the new fossils dated as 90 million years old will be extracted vir ....The first Mesozoic fossiliferous amber from Southern Gondwana: an ancient portal into an Australian polar greenhouse. The May 2011 discovery of the oldest fossiliferous amber deposit from Australia, and all of Southern Gondwana, provides a unique opportunity to study the only recorded terrestrial biotas of this age on the continent. Employing new imaging techniques (MicroXCT-400, X-ray ultramicroscope and Synchrotron radiation), the new fossils dated as 90 million years old will be extracted virtually in three-dimensional to capture the finest details from this major palaeontological find. The outcomes of the study will attract much national and international attention as the researchers identify the first Mesozoic organisms of this age living in habitats in and close to the resin-producing forests, thus opening an entirely new window of opportunities in this field.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE150100050
Funder
Australian Research Council
Funding Amount
$970,000.00
Summary
A new national electron microprobe facility. A new national electron microprobe facility: Precise chemical microanalysis underpins research on Earth materials. The Electron Microprobe (EMP) is the main instrument to achieve this. It performs rapid quantitative analysis and element mapping on solid materials at micron resolution. This facility will support an impressive variety of research including experimental, igneous and metamorphic petrology and geochronology. It will foster increased collab ....A new national electron microprobe facility. A new national electron microprobe facility: Precise chemical microanalysis underpins research on Earth materials. The Electron Microprobe (EMP) is the main instrument to achieve this. It performs rapid quantitative analysis and element mapping on solid materials at micron resolution. This facility will support an impressive variety of research including experimental, igneous and metamorphic petrology and geochronology. It will foster increased collaboration between partner organisations including universities and major geoscience institutes.Read moreRead less
Melting in the Earth and the origin of basalts. This project aims to investigate and link the many studies of natural basalts to better understand Earth’s global tectonics and mineral resources. Much of our knowledge of the deep Earth’s history comes from studying the melting of the mantle to produce basaltic magma. This project will investigate experimentally at high temperatures and pressures, link studies of natural basalts with melting processes in simplified chemical systems. The expected o ....Melting in the Earth and the origin of basalts. This project aims to investigate and link the many studies of natural basalts to better understand Earth’s global tectonics and mineral resources. Much of our knowledge of the deep Earth’s history comes from studying the melting of the mantle to produce basaltic magma. This project will investigate experimentally at high temperatures and pressures, link studies of natural basalts with melting processes in simplified chemical systems. The expected outcome is a comprehensive model for the origin of basalts on Earth and in other rocky planets, which will establish the framework for the geochemical cycles of the elements and lead to a better understanding of mineral resources.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100604
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
The dynamics of continent deformations. Modeling the coupling of subducting oceanic plates and deforming continents provides a fundamentally new view of the dynamics of our planet. It will improve an understanding of the formation of basins in continent interiors and their evolution over geological times.
New Insights into the Origin and Evolution of Life on Earth. This project aims to provide new insights into the origin of life on Earth, life’s diversification through the Precambrian, and the co-evolution of life and early Earth environments. It will be discipline-leading in that it will take the study of early life to the sub-micrometre and hence sub-cellular level. This will facilitate new opportunities for identifying the types of life present during early Earth history, their metabolisms, c ....New Insights into the Origin and Evolution of Life on Earth. This project aims to provide new insights into the origin of life on Earth, life’s diversification through the Precambrian, and the co-evolution of life and early Earth environments. It will be discipline-leading in that it will take the study of early life to the sub-micrometre and hence sub-cellular level. This will facilitate new opportunities for identifying the types of life present during early Earth history, their metabolisms, cellular chemistry and interactions with their environment. This project aims to also provide new search engines and more robust assessment criteria for life on other planets, and help to resolve specific scientific controversies, for example, the validity of claims for cellular life from 3.5 billion-year-old rocks.Read moreRead less