Occupational injury prevention in high temperature environments. This project aims to explore the contribution of heat as a risk factor in work-related illness and injury. Approximately 600 000 Australians experience a work-related illness or injury each year. Hot weather may directly or indirectly lead to accidents, but heat as a risk factor has not been systematically explored, and is particularly relevant in a warming climate. This project aims to improve safety and productivity in Australian ....Occupational injury prevention in high temperature environments. This project aims to explore the contribution of heat as a risk factor in work-related illness and injury. Approximately 600 000 Australians experience a work-related illness or injury each year. Hot weather may directly or indirectly lead to accidents, but heat as a risk factor has not been systematically explored, and is particularly relevant in a warming climate. This project aims to improve safety and productivity in Australian industry by generating new evidence and predictive models to inform injury prevention policy and guidance, and facilitating the development of practical, targeted resources. This project expects to add to the body of knowledge regarding workers’ health and safety and to be of benefit to industry and subpopulations at risk.Read moreRead less
Defend or retreat? Adapting to the impacts of sea level rise as a result of rapid climate change.
. Rapid sea level rise has been identified as a major threat to coastal Australia, where most of the Australian population lives. Our understanding and ability to respond to this threat is extremely limited at this point. This project will directly benefit Australian communities and businesses, specifically those in southeast Queensland by bringing together a team of distinguished, multidiscipli ....Defend or retreat? Adapting to the impacts of sea level rise as a result of rapid climate change.
. Rapid sea level rise has been identified as a major threat to coastal Australia, where most of the Australian population lives. Our understanding and ability to respond to this threat is extremely limited at this point. This project will directly benefit Australian communities and businesses, specifically those in southeast Queensland by bringing together a team of distinguished, multidisciplinary researchers and Super Science Fellows to explore the threats and challenges posed by rapidly rising sea levels. By building capacity and answering many urgent and difficult questions related to the legal, environmental and planning ramifications of sea level rise, this project will prepare communities and policymakers for the difficult times ahead.Read moreRead less
Smart metering founding a holistic evidence-based performance evaluation framework and demand forecasting model for diversified water supply schemes. The Australian water industry faces the challenge of catering for the potable water demand of a rapidly expanding population with reduced reliability on supply imposed by an increasingly variable climate. Diversified water supply schemes (DWSS) incorporating decentralised systems or reuse sources are touted as a means to handle the inherent weaknes ....Smart metering founding a holistic evidence-based performance evaluation framework and demand forecasting model for diversified water supply schemes. The Australian water industry faces the challenge of catering for the potable water demand of a rapidly expanding population with reduced reliability on supply imposed by an increasingly variable climate. Diversified water supply schemes (DWSS) incorporating decentralised systems or reuse sources are touted as a means to handle the inherent weaknesses of centralised urban water supply schemes by potentially drawing 30-50 per cent less demand on their reserves. This research study will provide evidence to support the implementation of best practice DWSS based on an evidence based holistic assessment of their performance considering potable water savings, capital and operation costs, energy demand, as well as environmental and community impacts.Read moreRead less
Governing solar radiation management research, development and deployment. This project will expand Australia’s climate response options by developing a governance framework for research, development and deployment of solar radiation management. These emerging technologies seek to reflect part of the sun’s energy from the earth to reduce climate change impacts. Through case studies of key proposals, marine cloud brightening and stratospheric aerosol injection, the project aims to develop nationa ....Governing solar radiation management research, development and deployment. This project will expand Australia’s climate response options by developing a governance framework for research, development and deployment of solar radiation management. These emerging technologies seek to reflect part of the sun’s energy from the earth to reduce climate change impacts. Through case studies of key proposals, marine cloud brightening and stratospheric aerosol injection, the project aims to develop national laws and research policies to responsibly govern research, development and deployment in Australia. This will deliver benefits for Australian governments, civil society, communities and researchers by managing risks and building public confidence in these technologies and provide a best practice model for other countries.Read moreRead less
The actor and institutional dynamics in emerging socio-technical transitions. The project addresses the translation of environmental resource policies to widespread practice in the face of institutional inertia. The outcome informs the design of policy mechanisms for enabling the emergence and mainstreaming of alternative resource technologies and consolidates Australia's leadership in urban water resource management.
Rethinking climate justice in an age of adaptation: capabilities, local variation, and public deliberation. This project aims to produce recommendations, designed by citizens and stakeholders, for climate adaptation policies in three regions of Australia. These recommendations will be based on a definition of climate justice that incorporates basic needs and resources to be protected, as identified by potentially impacted communities.
Assisting rural communities in South Australia adapt to the health challenges of increasing temperatures and climate change. This study will investigate the effects of extreme heat, increasing temperatures and consequences of climate change, on the population health of rural communities in South Australia. Findings will inform adaptation strategies to prevent an increase in heat-associated and climate change-associated morbidity and mortality in rural areas.
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
Beyond green facades: integrating ecology and architecture. This project aims to develop a novel architectural paradigm that embeds ecological science, working with nature to design cities that are more resilient to environmental upheavals. Methods aim to overcome substantial theoretical and technical challenges to embedding quantitative ecology into architectural design processes, including the development of new approaches for measuring and evaluating biodiversity benefits of alternative urban ....Beyond green facades: integrating ecology and architecture. This project aims to develop a novel architectural paradigm that embeds ecological science, working with nature to design cities that are more resilient to environmental upheavals. Methods aim to overcome substantial theoretical and technical challenges to embedding quantitative ecology into architectural design processes, including the development of new approaches for measuring and evaluating biodiversity benefits of alternative urban designs, from the building to landscape scale. Expected outcomes include enhanced capacity for the built form to address biodiversity considerations through nature-based solutions. The case study designs developed in this project should represent a template for more habitable, liveable, sustainable cities.Read moreRead less
Iron-dependent anaerobic oxidation of methane process. This project aims to investigate the microbial process of iron-dependent anaerobic oxidation of methane. This process may be pervasive in Earth's aquatic systems, and possibly a major methane sink. This project will identify the organisms mediating this reaction, elucidate their metabolic pathways and characterise their ecophysiological properties. This project is expected to understand how this process regulates the atmospheric concentratio ....Iron-dependent anaerobic oxidation of methane process. This project aims to investigate the microbial process of iron-dependent anaerobic oxidation of methane. This process may be pervasive in Earth's aquatic systems, and possibly a major methane sink. This project will identify the organisms mediating this reaction, elucidate their metabolic pathways and characterise their ecophysiological properties. This project is expected to understand how this process regulates the atmospheric concentration of methane and more reliably predict global methane emissions in a changing climate. By addressing this key knowledge gap, this project will enhance our ability to predict global methane emissions in a changing climate.Read moreRead less