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Discovery Early Career Researcher Award - Grant ID: DE220100907
Funder
Australian Research Council
Funding Amount
$434,107.00
Summary
Tracking groundwater variations via 4-dimensional seismic imaging. This project aims to develop an advanced seismic framework to sense subtle subsurface changes related to groundwater variations beneath the Great Artesian Basin. Groundwater storage is subject to climatic and anthropogenic forcing, but modern monitoring tools are not sufficient to capture its detailed response in both time and space. Using novel techniques and extensive seismic recordings, this project expects to generate time-la ....Tracking groundwater variations via 4-dimensional seismic imaging. This project aims to develop an advanced seismic framework to sense subtle subsurface changes related to groundwater variations beneath the Great Artesian Basin. Groundwater storage is subject to climatic and anthropogenic forcing, but modern monitoring tools are not sufficient to capture its detailed response in both time and space. Using novel techniques and extensive seismic recordings, this project expects to generate time-lapse images across the basin in unprecedented resolution to reveal the system's dynamic evolution and a static basin model to aid the interpretation. Potential benefits include improved geophysical techniques for groundwater tracking and enhanced scientific understandings to underpin future groundwater management.Read moreRead less
U/Th dating of coral mortality and recovery rates in the Great Barrier Reef. This project aims to use high-efficiency U-Th geochronology and palaeoecology to identify past coral mortality events and community changes in the inshore Great Barrier Reef (GBR) and quantify subsequent recovery rates across a water quality gradient. These records will then be linked to natural and human impacts, especially since European settlement. The project outcomes will improve understanding of past disturbances ....U/Th dating of coral mortality and recovery rates in the Great Barrier Reef. This project aims to use high-efficiency U-Th geochronology and palaeoecology to identify past coral mortality events and community changes in the inshore Great Barrier Reef (GBR) and quantify subsequent recovery rates across a water quality gradient. These records will then be linked to natural and human impacts, especially since European settlement. The project outcomes will improve understanding of past disturbances and recovery rates in the GBR ecosystem and help focus management in the face of increased human pressure and environmental changes.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE160100032
Funder
Australian Research Council
Funding Amount
$600,000.00
Summary
A state-of-the-art field emission electron microprobe for Tasmania. A state-of-the-art field emission electron microprobe for Tasmania:
This proposal aims to replace an existing 12-year old conventional electron microprobe with a state-of-the art field emission electron microprobe instrument capable of in-situ, low-level, quantitative non-destructive chemical analysis, and mapping of element distribution and texture at sub-micron resolution. This would establish new research strengths in the fi ....A state-of-the-art field emission electron microprobe for Tasmania. A state-of-the-art field emission electron microprobe for Tasmania:
This proposal aims to replace an existing 12-year old conventional electron microprobe with a state-of-the art field emission electron microprobe instrument capable of in-situ, low-level, quantitative non-destructive chemical analysis, and mapping of element distribution and texture at sub-micron resolution. This would establish new research strengths in the field of earth and materials science. In particular, it may improve efficiencies of discovery and recovery of ore deposits and develop environmentally friendly processes for waste disposal. Read moreRead less
Deep-sea coral records of Southern Ocean climate and nutrient dynamics . Deep-sea coral and seawater nutrient profiles collected from the Southern Ocean (SO) facing submarine canyons of south-west Australia will be used to provide new insights into the role of the SO overturning circulation in modulating global climate as well as supplying the essential nutrients that make these canyons biodiversity hot-spots for seasonal aggregations of killer and blue whales. This frontier project made possib ....Deep-sea coral records of Southern Ocean climate and nutrient dynamics . Deep-sea coral and seawater nutrient profiles collected from the Southern Ocean (SO) facing submarine canyons of south-west Australia will be used to provide new insights into the role of the SO overturning circulation in modulating global climate as well as supplying the essential nutrients that make these canyons biodiversity hot-spots for seasonal aggregations of killer and blue whales. This frontier project made possible by samples collected using Remote Operated Vehicle (ROV) technology rarely available in Australia, will also help to understand how SO circulation has influenced past changes in global climate and its future role in controlling ocean productivity in a warming world with rapidly increasing atmospheric carbon dioxide. Read moreRead less
Hot iron: Are submarine volcanoes important for Southern Ocean iron supply? The scarcity of iron limits biological productivity and carbon uptake in the nutrient rich waters of the Southern Ocean. This project will explore for the first time the role of undersea "hot spot" volcanoes in supplying iron to surface waters, thus linking the solid earth and the biosphere. The project will measure iron abundance, reactivity and nutritional value in buoyant plumes emanating from vents near Heard/McDonal ....Hot iron: Are submarine volcanoes important for Southern Ocean iron supply? The scarcity of iron limits biological productivity and carbon uptake in the nutrient rich waters of the Southern Ocean. This project will explore for the first time the role of undersea "hot spot" volcanoes in supplying iron to surface waters, thus linking the solid earth and the biosphere. The project will measure iron abundance, reactivity and nutritional value in buoyant plumes emanating from vents near Heard/McDonald Islands, Australia's only active volcanoes. The project aims to estimate the hydrothermal contribution to regional biological productivity and extrapolate to the whole Southern Ocean. Successful outcomes will benefit Australia by identifying iron sources that govern productivity and carbon uptake of an economically important ecosystem.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130100295
Funder
Australian Research Council
Funding Amount
$373,679.00
Summary
Forecasting the future of flood and drought in Australia using multi-century tree-ring and isotope chronologies from the tropics. The effects of El Nino on Australian floods and droughts in a globally changing climate is unclear because we lack long climate records from the past. This project will measure tree-ring and isotope records using kauri pine to advance our understanding of El Nino's effects on the frequency and intensity of drought and floods in Australia.
Understanding the migrations of prehistoric populations through direct dating and isotopic tracking of their mobility patterns. This project will use newly developed isotopic methods for the systematic analysis of prehistoric human remains. The assessment of their age and origins will give new insights in the timing of human evolution and the mobility of prehistoric humans in Central Europe and the Pacific.
Dawn of the age of mammals in Australia: foundations for an island biota. This project aims to fill a profound gap in knowledge about the origins of the modern fauna on the island continent Australia. It will augment Australia’s national natural heritage, enhance international research collaboration, and provide critical baseline data for complementary research in biology, geology, geography and climatology. End users of this project include primary, secondary, tertiary and public education sect ....Dawn of the age of mammals in Australia: foundations for an island biota. This project aims to fill a profound gap in knowledge about the origins of the modern fauna on the island continent Australia. It will augment Australia’s national natural heritage, enhance international research collaboration, and provide critical baseline data for complementary research in biology, geology, geography and climatology. End users of this project include primary, secondary, tertiary and public education sectors and environment and heritage protection agencies.Read moreRead less
Testing the mechanisms and effects of abrupt and extreme climate change. This project aims to resolve the timing, rate of change, mechanisms and effects of past abrupt and extreme global climate change. These are uncertain for abrupt and extreme warming events in the recent geological record, due to difficulties comparing terrestrial and marine palaeoclimate and faunal records on radiocarbon timescales with independently dated ice cores over the last 50,000 years. By using yearly-resolved tree r ....Testing the mechanisms and effects of abrupt and extreme climate change. This project aims to resolve the timing, rate of change, mechanisms and effects of past abrupt and extreme global climate change. These are uncertain for abrupt and extreme warming events in the recent geological record, due to difficulties comparing terrestrial and marine palaeoclimate and faunal records on radiocarbon timescales with independently dated ice cores over the last 50,000 years. By using yearly-resolved tree ring records, the project will discover when, how and what effect abrupt and extreme change had on global climate and species/ecosystems.Read moreRead less
Were abrupt changes in the Precambrian global carbon cycle the trigger for animal appearance and radiation on Earth? The origin of complex life and the properties that allow that life to be sustained on this planet are recorded within the geologic record. This project will reveal the role that severe perturbations of the global carbon cycle and climate had in triggering the step-wise change to animal life after billions of years of only single cell organisms.