Discovery Early Career Researcher Award - Grant ID: DE200101791
Funder
Australian Research Council
Funding Amount
$427,082.00
Summary
Mathematically optimal R&D for coral reef conservation. This project aims to develop mathematical methodologies for optimising Research & Development (R&D) of technologies that will secure complex and uncertain ecosystems into the future. Current conventional management approaches will not prevent the degradation of threatened ecosystems like the Great Barrier Reef, so new technologies are needed. The biggest challenge in choosing these technologies is the long delay between development and depl ....Mathematically optimal R&D for coral reef conservation. This project aims to develop mathematical methodologies for optimising Research & Development (R&D) of technologies that will secure complex and uncertain ecosystems into the future. Current conventional management approaches will not prevent the degradation of threatened ecosystems like the Great Barrier Reef, so new technologies are needed. The biggest challenge in choosing these technologies is the long delay between development and deployment, in which time ecosystem function may collapse and complex, dynamic ecological and social systems will change. The mathematical methods and theory developed will inform a Great Barrier Reef case study, and will be ready for rapid application to other ecosystems as the urgent need arises.Read moreRead less
Integrating climate adaptation into rainforest restoration plantings. This project aims to investigate the impact of within species adaptation to climate on restoratoin success in the Australian Wet Tropics. For a suite of six species of tropical tree frequently employed in rainforest restoration plantings in northeast Queensland, this project aims to test the hypothesis that collecting seed from populations in similar ecoclimatic settings to the planting site will result in superior seedling gr ....Integrating climate adaptation into rainforest restoration plantings. This project aims to investigate the impact of within species adaptation to climate on restoratoin success in the Australian Wet Tropics. For a suite of six species of tropical tree frequently employed in rainforest restoration plantings in northeast Queensland, this project aims to test the hypothesis that collecting seed from populations in similar ecoclimatic settings to the planting site will result in superior seedling growth and survival. The expected outcome is to provide practical advice to restoration practitioners about the importance of matching the provenance of seed source to planting sites, and opportunities for selecting provenances pre-adapted to predicted future climatic conditions at planting sites.Read moreRead less
Coastal governance. This project aims to discover coastal governance approaches that embrace vulnerability and change. Current coastal management approaches are failing as existing threats intensify and new threats emerge. This project expects to generate knowledge on diverse vulnerabilities, with insights advancing the disciplines of human geography and public policy through improved understanding of the relationships between people, place and change. This is expected to support ongoing economi ....Coastal governance. This project aims to discover coastal governance approaches that embrace vulnerability and change. Current coastal management approaches are failing as existing threats intensify and new threats emerge. This project expects to generate knowledge on diverse vulnerabilities, with insights advancing the disciplines of human geography and public policy through improved understanding of the relationships between people, place and change. This is expected to support ongoing economic, environmental, social and cultural benefits that are derived from the Australian coast.
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Climate change and national security: international responses. This project aims to give a systematic account of how states facing different dynamics of threats associated with climate change have gone about developing distinct institutional responses, policy settings and practices. Climate change is increasingly recognised as a national security threat. A range of states have developed climate security strategies to address climate change that threaten defence infrastructure and contribute to p ....Climate change and national security: international responses. This project aims to give a systematic account of how states facing different dynamics of threats associated with climate change have gone about developing distinct institutional responses, policy settings and practices. Climate change is increasingly recognised as a national security threat. A range of states have developed climate security strategies to address climate change that threaten defence infrastructure and contribute to population movements, regional instability and even conflict. The findings from this project will inform recommendations for Australian policy-makers in addressing the climate change-security relationship that can be communicated to practitioners, and tailored to the needs of Australia’s security and defence establishment. This project will help Australia respond effectively to pressing impacts of environmental change.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101310
Funder
Australian Research Council
Funding Amount
$434,582.00
Summary
A unique and overlooked microbial process scavenging two greenhouse gases. This project aims to perform the first-ever systematic investigation of a novel microbial process, in which two potent gases (methane and nitric oxide) responsible for the climate change are metabolized simultaneously. This process is suggested to be universal in early and modern Earth's aquatic systems, which is a potential but overlooked microbial sink for methane and nitric oxide. By identifying the responsible organis ....A unique and overlooked microbial process scavenging two greenhouse gases. This project aims to perform the first-ever systematic investigation of a novel microbial process, in which two potent gases (methane and nitric oxide) responsible for the climate change are metabolized simultaneously. This process is suggested to be universal in early and modern Earth's aquatic systems, which is a potential but overlooked microbial sink for methane and nitric oxide. By identifying the responsible organisms and their metabolic pathway, this project represents a critical step towards a full understanding of their roles in affecting the greenhouse gas emission. This understanding will also enable us to more reliably predict the global climate change, which is one of the most significant challenges in the 21st Century.Read moreRead less
Managing environmental change through planning for transformative pathways. The project plans to bring together Chinese and Australian researchers to investigate how planning systems in the two countries can be enhanced to avoid tipping points due to urbanisation processes and environmental change. It aims to formulate transformative pathways for two case study areas, situated in peri-urban areas of a rapidly growing region in each country, which seek to link adaptation and sustainability to add ....Managing environmental change through planning for transformative pathways. The project plans to bring together Chinese and Australian researchers to investigate how planning systems in the two countries can be enhanced to avoid tipping points due to urbanisation processes and environmental change. It aims to formulate transformative pathways for two case study areas, situated in peri-urban areas of a rapidly growing region in each country, which seek to link adaptation and sustainability to address and/or avoid land use planning failures. The anticipated outcome of the project is to address environmental and social change resulting from rapid urbanisation and environmental change.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100940
Funder
Australian Research Council
Funding Amount
$352,000.00
Summary
Re-evaluating climate adaptation principles for a more resilient Australia. This project aims to investigate the problem of how to increase Australia's resilience to adverse weather and climate events. Increasing weather and climate related risks pose new operational and strategic challenges for Australia and the rest of the world. This project will critically investigate how decision principles have evolved and are used by climate adaptation professionals globally and nationally. Using conceptu ....Re-evaluating climate adaptation principles for a more resilient Australia. This project aims to investigate the problem of how to increase Australia's resilience to adverse weather and climate events. Increasing weather and climate related risks pose new operational and strategic challenges for Australia and the rest of the world. This project will critically investigate how decision principles have evolved and are used by climate adaptation professionals globally and nationally. Using conceptual modelling and pre-mortem method, the project will construct a novel policy relevant framework applicable to the Australian context. Expected outcomes include providing a set of widely applicable adaptation principles to support decision-making towards a resilient Australia.Read moreRead less
The basis of oyster resilience to global environmental change. This project aims to investigate the impact of global environmental change on the survival of Australia’s oyster industry, by combining the science of genetics, physiology and ecology to identify already resilient oysters. Through the first complete understanding of resilience in oysters, including the trade-offs they have made in other fitness traits, the project develops new capacities to 'climate and future-proof' our natural oyst ....The basis of oyster resilience to global environmental change. This project aims to investigate the impact of global environmental change on the survival of Australia’s oyster industry, by combining the science of genetics, physiology and ecology to identify already resilient oysters. Through the first complete understanding of resilience in oysters, including the trade-offs they have made in other fitness traits, the project develops new capacities to 'climate and future-proof' our natural oyster populations and the Australian oyster industry, to enable the restoration of degraded oyster habitats. This project will ensure the future of an iconic and economically important national industry and food source and contribute to preserving the critical cultural links of Indigenous Australians with their lands.Read moreRead less
Special Research Initiatives - Grant ID: SR200200322
Funder
Australian Research Council
Funding Amount
$281,446.00
Summary
Understanding the water cultures of the Murray-Darling Basin. The project aims to generate new knowledge of the formation and evolution of cultural values and practices relating to water in the Murray-Darling Basin. By applying innovative approaches from the environmental humanities, it will investigate the development of cultures of water and their role in long-standing water-sharing conflicts. The expected outcome is a greater understanding of influential ideas about the value of water and riv ....Understanding the water cultures of the Murray-Darling Basin. The project aims to generate new knowledge of the formation and evolution of cultural values and practices relating to water in the Murray-Darling Basin. By applying innovative approaches from the environmental humanities, it will investigate the development of cultures of water and their role in long-standing water-sharing conflicts. The expected outcome is a greater understanding of influential ideas about the value of water and rivers and a Water Cultures Network to facilitate collaboration between humanities and social science scholars, environmental scientists, and water managers. The public will benefit from knowing how water use behaviours evolved in the Basin and how they might be reframed to adapt to a hotter, drier future. Read moreRead less
Private Land Conservation in a Dynamically Changing and Risky World. Climate change, and the increasing risk of drought, heatwaves, and fire, have major implications for the design and effectiveness of private land conservation programs. This project aims to generate new knowledge about the effect of climate change on adoption and outcomes of private land conservation agreements. It will use an innovative social-ecological approach focused on koalas. Expected outcomes include an innovative frame ....Private Land Conservation in a Dynamically Changing and Risky World. Climate change, and the increasing risk of drought, heatwaves, and fire, have major implications for the design and effectiveness of private land conservation programs. This project aims to generate new knowledge about the effect of climate change on adoption and outcomes of private land conservation agreements. It will use an innovative social-ecological approach focused on koalas. Expected outcomes include an innovative framework to help make decisions about private land conservation investments under climate change. This should provide significant benefits for government and non-government organisations by providing solutions to climate-proof their conservation investments on private land in a rapidly changing world.Read moreRead less