ARC Centre of Excellence for Indigenous and Environmental Histories and Futures. ARC Centre of Excellence for Indigenous and Environmental Histories and Futures. The proposed Centre aims to generate a new direction in knowledge creation based on Aboriginal- and Torres Strait Islander-led approaches to managing Land and Sea Country. The Centre expects to make a legacy contribution by developing complementary Indigenous and Western knowledge frameworks for modelling environmental, cultural, and hi ....ARC Centre of Excellence for Indigenous and Environmental Histories and Futures. ARC Centre of Excellence for Indigenous and Environmental Histories and Futures. The proposed Centre aims to generate a new direction in knowledge creation based on Aboriginal- and Torres Strait Islander-led approaches to managing Land and Sea Country. The Centre expects to make a legacy contribution by developing complementary Indigenous and Western knowledge frameworks for modelling environmental, cultural, and historical change in Australia over the last millennium and into the near future. Expected outcomes focus on sustainable Indigenous land and sea management planning for future decades. Benefits include improved forecasting of the trajectory of environmental change, an increase in the capacity of Indigenous research, creation of a pipeline for Indigenous students into research, and evidence-based policy-making.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100064
Funder
Australian Research Council
Funding Amount
$193,125.00
Summary
Sediment Drilling Facility for environmental and genetic archives. This Sediment Drilling Facility for Environmental and Genetic Archives combines versatile augers with new field spectrometers that will enable sediment extraction and rapid, in situ measurements from coastal, lake and riverine environments. The facility includes a compact geotechnical drill rig, a portable power auger with hydraulic extraction unit, a vibracorer with motorised pontoon, laser induced breakdown spectrometer and ma ....Sediment Drilling Facility for environmental and genetic archives. This Sediment Drilling Facility for Environmental and Genetic Archives combines versatile augers with new field spectrometers that will enable sediment extraction and rapid, in situ measurements from coastal, lake and riverine environments. The facility includes a compact geotechnical drill rig, a portable power auger with hydraulic extraction unit, a vibracorer with motorised pontoon, laser induced breakdown spectrometer and magnetic susceptibility. With access co-ordinated through the Queensland Geochronology Alliance, the new facility will enable university researchers unprecedented access to field equipment required to address questions about changing ecology, landscape and climate on recent and geological timescales. Read moreRead less
Early desert settlement of Arabia following out-of-Africa human dispersals. This project aims to improve our understanding of the nature, timing and climatic context of early human expansion into SW Asia, from a new extensive archaeological complex with associated palaeoenvironmental sequences on the Arabian Peninsula – a strategic out-of-Africa migratory corridor. It will combine innovative approaches in archaeology, geochronology and palaeoenvironmental research to evaluate the environmental a ....Early desert settlement of Arabia following out-of-Africa human dispersals. This project aims to improve our understanding of the nature, timing and climatic context of early human expansion into SW Asia, from a new extensive archaeological complex with associated palaeoenvironmental sequences on the Arabian Peninsula – a strategic out-of-Africa migratory corridor. It will combine innovative approaches in archaeology, geochronology and palaeoenvironmental research to evaluate the environmental and cultural adaptability of early desert settlement, providing critical new insights into globally significant human dispersal debates spanning multiple continents, including Australia. The aim is a fundamental new perspective on long-term human occupation dynamics of deserts and new understanding of regional dispersals.Read moreRead less
Rescuing Pharaoh’s Gold Mines: Archaeological conservation in Eastern Sudan. Building on pioneering pilot surveys, this project will document the unexplored archaeology of the remote Atbai Desert of Eastern Sudan, a region whose unique heritage is being destroyed by unregulated mining. Employing satellite surveying and local fieldwork, this project will document new archaeological sites before they are destroyed, while engaging with the local Beja nomads to form culturally sensitive conservation ....Rescuing Pharaoh’s Gold Mines: Archaeological conservation in Eastern Sudan. Building on pioneering pilot surveys, this project will document the unexplored archaeology of the remote Atbai Desert of Eastern Sudan, a region whose unique heritage is being destroyed by unregulated mining. Employing satellite surveying and local fieldwork, this project will document new archaeological sites before they are destroyed, while engaging with the local Beja nomads to form culturally sensitive conservation strategies. Uncovering the history of ancient miners and indigenous nomads with new scientific techniques, the project will transform our narratives of the ancient Nile Basin, inform Sudanese heritage policy, empower local stakeholders, and propel Australia as a leader in world heritage conservation and rescue documentation.Read moreRead less
Deep-time history of culturally significant lands and waters in Timor-Leste. This project aims to provide a new framework for understanding and managing lands and waters of exceptional biological and cultural value. The project expects to generate the first long-term records of ecological change in Timor-Leste's unique forest and tropical savanna ecosystems, providing novel insights into ancient cultural landscapes threatened by climate change. Expected outcomes include enhanced collaboration be ....Deep-time history of culturally significant lands and waters in Timor-Leste. This project aims to provide a new framework for understanding and managing lands and waters of exceptional biological and cultural value. The project expects to generate the first long-term records of ecological change in Timor-Leste's unique forest and tropical savanna ecosystems, providing novel insights into ancient cultural landscapes threatened by climate change. Expected outcomes include enhanced collaboration between Australia and Timor-Leste and comprehensive data and educational resources relevant to managing climate impacts on livelihoods. This should provide significant benefits to scientific dialogue in the Asia-Pacific region and help support economic opportunities that respect indigenous environmental knowledge.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100552
Funder
Australian Research Council
Funding Amount
$414,000.00
Summary
Landscape-climate disequilibrium in dune fields. This project aims to predict how wind-blown landscapes respond to changes in climate. This project expects to use novel experiments and theoretical advances to meet this aim, then apply the prediction to the dune fields which cover a third of Australia's surface to generate new knowledge on what climate shaped them in the past, and how they will respond to anthropogenic climate change. Expected outcomes of this project will strengthen collaboratio ....Landscape-climate disequilibrium in dune fields. This project aims to predict how wind-blown landscapes respond to changes in climate. This project expects to use novel experiments and theoretical advances to meet this aim, then apply the prediction to the dune fields which cover a third of Australia's surface to generate new knowledge on what climate shaped them in the past, and how they will respond to anthropogenic climate change. Expected outcomes of this project will strengthen collaboration with discipline-leading international researchers and develop a globally-unique laboratory experimental capability in Australia. This should provide significant benefits to understanding environmental change in Australia by vastly improving predictions of dune-field response to future climate.Read moreRead less
Past trends and future risk of climate extremes in southern Australia. Prolonged droughts and periods of heightened flood and fire risk present a major challenge for Australia’s society and economy. This proposal aims to better resolve the causes and risks of decadal climate extremes through a suite of high quality records of temperature, rainfall/evaporation and humidity in southern Australia over 2000 years. Novel geochemical analyses will be developed and applied to lake sediments – method de ....Past trends and future risk of climate extremes in southern Australia. Prolonged droughts and periods of heightened flood and fire risk present a major challenge for Australia’s society and economy. This proposal aims to better resolve the causes and risks of decadal climate extremes through a suite of high quality records of temperature, rainfall/evaporation and humidity in southern Australia over 2000 years. Novel geochemical analyses will be developed and applied to lake sediments – method development which is likely to benefit climate, minerals and biosecurity research. New knowledge of mechanisms underlying climate variability is expected to benefit fundamental research, while future-facing models will allow land managers and policy makers to better anticipate extraordinary climate events.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100340
Funder
Australian Research Council
Funding Amount
$441,281.00
Summary
Identifying key fire drivers in Australia; biomass, climate or people. This project aims to provide a greater understanding of Australia’s bushfire risk in the face of climate change. By comparing fire occurrence in three Australian bioclimates across two millennial-scale time periods, one prior to human settlement and one during active Indigenous management, this research expects to define which factors — climate, vegetation profile, or landscape management —most impact fire frequency and sever ....Identifying key fire drivers in Australia; biomass, climate or people. This project aims to provide a greater understanding of Australia’s bushfire risk in the face of climate change. By comparing fire occurrence in three Australian bioclimates across two millennial-scale time periods, one prior to human settlement and one during active Indigenous management, this research expects to define which factors — climate, vegetation profile, or landscape management —most impact fire frequency and severity. Outcomes will likely create new knowledge on how past climates affected the Australian environment; enhance predictive ability for future fire risks under emerging climate scenarios; and provide new insights into how cultural burning can be incorporated into fire management plans to reduce catastrophic bushfires.Read moreRead less