Activating employment futures through work integration social enterprise. This project aims to understand how Australia can better include people experiencing disadvantage in employment. Social enterprises are increasingly recognised for creating work and pathways into work for those who are typically excluded. Yet, little is known about how they can scale their operations and effectively transition workers into mainstream jobs, and what can be learned from social enterprise in designing other i ....Activating employment futures through work integration social enterprise. This project aims to understand how Australia can better include people experiencing disadvantage in employment. Social enterprises are increasingly recognised for creating work and pathways into work for those who are typically excluded. Yet, little is known about how they can scale their operations and effectively transition workers into mainstream jobs, and what can be learned from social enterprise in designing other inclusive workplaces. Underpinned by a unique learning partnership, this project is expected to shed light on how decent and inclusive work through social enterprise can be grown. Project insights will contribute to more effective employment services and workplaces that increase the shared benefits of a diverse workforce.Read moreRead less
Plasma-Catalytist Hybrid Process for Simultaneous Removal of NOx and SOx. Coal combustion provides over 80% of the electricity produced in Australia, with the power stations being major emitters of the pollutants NOx and SOx. This project will potentially lead to a new technology to simultaneously remove NOx and SOx in a single and economical process, eliminating the secondary waste streams that disadvantage current competing technologies. This will provide: significant environmental benefits f ....Plasma-Catalytist Hybrid Process for Simultaneous Removal of NOx and SOx. Coal combustion provides over 80% of the electricity produced in Australia, with the power stations being major emitters of the pollutants NOx and SOx. This project will potentially lead to a new technology to simultaneously remove NOx and SOx in a single and economical process, eliminating the secondary waste streams that disadvantage current competing technologies. This will provide: significant environmental benefits for Australia in reducing these dangerous atmospheric pollutants; economic advantage to our power stations by enabling cheaper, more efficient technologies and consolidate Australia's leading position in the world in air pollution control. Read moreRead less
The regeneration niche of invasive plants: managing the weed-shaped hole. In Australia $20 million was spent on weed control in natural areas in 2001-02 and is indicative of the level of funding for weed control programs each year. An understanding of how current weed control programs affect the regeneration of weeds in the system will give us novel insights into the persistence of weed populations despite sustained investment in control. Environmental weeds threaten biodiversity and ecosystem ....The regeneration niche of invasive plants: managing the weed-shaped hole. In Australia $20 million was spent on weed control in natural areas in 2001-02 and is indicative of the level of funding for weed control programs each year. An understanding of how current weed control programs affect the regeneration of weeds in the system will give us novel insights into the persistence of weed populations despite sustained investment in control. Environmental weeds threaten biodiversity and ecosystem function in unique Australian communities, better management of weeds will have conservation, ecosystem service provision and amenity values nationally. This project highlights the importance of understanding the weed regeneration niche for successful long-term and sustainable control.Read moreRead less
Adaptive ecotyping of the toxic cyanobacterium Cylindrospermopsis raciborskii to predict its invasive capacity. We change the world while other organisms adapt to these new conditions. Cyanobacteria (blue green algae) increasingly dominate water bodies that were previously free of these harmful blooms. To minimise the spread of these algae, this project will study the genetic basis that determines how rapidly they can evolve and adapt to a changing planet.
Between a hot place & hypoxia: Quantifying fish-kill risk in inland rivers. Native fish populations in Australian ephemeral rivers are highly valued but are subject to widespread decline. During drought waterholes serve as critical refuges for native fish, however thermal extremes and hypoxia (lack of oxygen) have led to regular fish-kill events. Whilst we know the general conditions that lead to fish-kills, we do not have a clear understanding of why some species are more tolerant than others, ....Between a hot place & hypoxia: Quantifying fish-kill risk in inland rivers. Native fish populations in Australian ephemeral rivers are highly valued but are subject to widespread decline. During drought waterholes serve as critical refuges for native fish, however thermal extremes and hypoxia (lack of oxygen) have led to regular fish-kill events. Whilst we know the general conditions that lead to fish-kills, we do not have a clear understanding of why some species are more tolerant than others, or how we can help decision-makers anticipate fish-kill risks. This project will combine laboratory ecophysiology investigations and novel field monitoring techniques to develop a next-generation fish habitat model for stakeholders to use to assess fish-kill risks and plan for restoration. Read moreRead less
Science on the continental shelf: securing our deep-sea biodiversity for the future. This project signals the start of exciting new research using manned submersibles to explore and describe the rich biodiversity inhabiting Australia’s deep-sea continental shelf. The outcomes will provide a sound basis for managing these environmental treasures against the pressing need to use the oil and gas reserves that lie under the seabed.
Climate and health benefits of restoring tropical peat swamp forests. This project aims to investigate the climate and health benefits of restoring the tropical peat swamp forests. The project will integrate novel, field-based paleo-reconstruction of the historical conditions, satellite observations of temperature and rainfall, and high-resolution modelling of the regional climate processes under different restoration scenarios. It will use this information to determine how restoration activitie ....Climate and health benefits of restoring tropical peat swamp forests. This project aims to investigate the climate and health benefits of restoring the tropical peat swamp forests. The project will integrate novel, field-based paleo-reconstruction of the historical conditions, satellite observations of temperature and rainfall, and high-resolution modelling of the regional climate processes under different restoration scenarios. It will use this information to determine how restoration activities affect the regional climate, how changes in climate affect peatland fires and regional smoke haze, and how changes to regional climate and smoke haze affect human respiratory health and heat stress.Read moreRead less
Activating lazy stormwater wetlands through real time monitoring & control. Constructed stormwater wetlands are the last line of defence preventing pollution of urban waterways, but wetlands often fail, with their passive operation unable to adapt to the highly variable climate and hydrology they experience. This project aims to use advances in real-time control technology to turn these lazy wetlands into active wetland systems, optimising their performance. It aims to deliver new-generation tec ....Activating lazy stormwater wetlands through real time monitoring & control. Constructed stormwater wetlands are the last line of defence preventing pollution of urban waterways, but wetlands often fail, with their passive operation unable to adapt to the highly variable climate and hydrology they experience. This project aims to use advances in real-time control technology to turn these lazy wetlands into active wetland systems, optimising their performance. It aims to deliver new-generation technologies to enhance water quality treatment, enhance urban water security and guarantee environmental flows to maintain healthy waterways. Working in partnership with waterway managers and water retailers, this project strives to deliver a nationally and globally relevant technology to change how we manage water in cities.Read moreRead less
A highly sensitive and selective nano-engineered sensor for the online monitoring of mercury vapour emissions from harsh industrial processes. The Australian alumina and aluminium industries contribute over $11 billion export income annually. All refineries, except one, operate in rural areas and are the main economic drivers in these regions. In order to maintain the industry's commitment to reduce the environmental impact of its processes and remain economically sustainable, innovative technol ....A highly sensitive and selective nano-engineered sensor for the online monitoring of mercury vapour emissions from harsh industrial processes. The Australian alumina and aluminium industries contribute over $11 billion export income annually. All refineries, except one, operate in rural areas and are the main economic drivers in these regions. In order to maintain the industry's commitment to reduce the environmental impact of its processes and remain economically sustainable, innovative technologies are required to monitor mercury emissions. The aim of this project is to develop robust sensors, for online monitoring of mercury vapours, that operate under challenging industrial environments. This project will also provide excellent training for young researchers in established international industrial research groups, thereby meeting skill shortages in the Australian resource sector.Read moreRead less
Prediction and Management Strategies for Blooms of the Toxic Cyanobacterium Lyngbya majuscula in Coastal Australian Waters. Blooms of the toxic cyanobacterium Lyngbya majuscula in Australia coastal waters are resulting in severe ecological and economic impacts, including significant human health problems. What is urgently needed is the capacity to predict the onset of a Lyngbya bloom and the development of management strategies to reduce or control blooms. We have assembled a dynamic team of a ....Prediction and Management Strategies for Blooms of the Toxic Cyanobacterium Lyngbya majuscula in Coastal Australian Waters. Blooms of the toxic cyanobacterium Lyngbya majuscula in Australia coastal waters are resulting in severe ecological and economic impacts, including significant human health problems. What is urgently needed is the capacity to predict the onset of a Lyngbya bloom and the development of management strategies to reduce or control blooms. We have assembled a dynamic team of active and experienced researchers using various state-of-the-art technologies to elucidate the key factors contributing to Lyngbya blooms and have industry partners willing to implement large scale testing of various controls. We have a unique opportunity to potentially solve a pressing environmental problem.Read moreRead less