Tackling pests using game theory to support cooperative management. This project aims to improve management of invasive species by assisting pest mitigation agencies to work together. This is expected to result in more efficient and effective strategies, with the potential to dramatically improve local and global agricultural and environmental outcomes. An interdisciplinary approach using game theory, spatial modelling, and ecology is expected to create a novel framework to identify how and when ....Tackling pests using game theory to support cooperative management. This project aims to improve management of invasive species by assisting pest mitigation agencies to work together. This is expected to result in more efficient and effective strategies, with the potential to dramatically improve local and global agricultural and environmental outcomes. An interdisciplinary approach using game theory, spatial modelling, and ecology is expected to create a novel framework to identify how and when agencies might collaborate, and how collaboration might impact on costs and benefits of pest control strategies. The project will provide significant benefits by improving management of invasive species across Queensland, one of Australia's largest agricultural producing states and home to a vast number of Australia's threatened species. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101316
Funder
Australian Research Council
Funding Amount
$368,174.00
Summary
Protecting prey from predators using sensory tactics. This project aims to develop new approaches to prevent the extinction of threatened native species from invasive predators, such as rats, pigs, cats and foxes. Many native species are hard to see but vulnerable to being found by predators with powerful senses of smell and hearing. By harnessing the sensory cues of prey that predators use when hunting, this project expects to discover olfactory and auditory techniques that prevent predators fi ....Protecting prey from predators using sensory tactics. This project aims to develop new approaches to prevent the extinction of threatened native species from invasive predators, such as rats, pigs, cats and foxes. Many native species are hard to see but vulnerable to being found by predators with powerful senses of smell and hearing. By harnessing the sensory cues of prey that predators use when hunting, this project expects to discover olfactory and auditory techniques that prevent predators finding threatened species. In doing so, the project intends to provide new perspectives on how animals find food using multiple senses, and lead the recovery of threatened species in areas where predators remain within Australia and globally. Read moreRead less
Protecting the Tasmanian wilderness from an expanding deer population. This project aims to address the threats posed by deer to the unique sensitive environments in Tasmania, especially in the Tasmanian Wilderness World Heritage Area. It will analyse the current and potential distribution of deer in Tasmania, describe their impacts on vegetation, and test how those impacts on vegetation interact with fire. The project will use data to develop options for management of deer to limit their enviro ....Protecting the Tasmanian wilderness from an expanding deer population. This project aims to address the threats posed by deer to the unique sensitive environments in Tasmania, especially in the Tasmanian Wilderness World Heritage Area. It will analyse the current and potential distribution of deer in Tasmania, describe their impacts on vegetation, and test how those impacts on vegetation interact with fire. The project will use data to develop options for management of deer to limit their environmental impacts, and to prevent future damage to sensitive environments. This will provide environmental and economic benefits by safeguarding ecosystems of high value.Read moreRead less
The role of pollutants and emerging diseases in endangering a global migratory flyway. This project aims to investigate the role of chemical pollution on disease susceptibility and survival in shorebirds along the East Asian-Australasian Flyway (EAAF). Among all long-distance migratory birds, the more than eight million shorebirds along the EAAF have notably been hit hard by global change, with population declines up to 80%. This project will use data from birds on their Asian migratory stopover ....The role of pollutants and emerging diseases in endangering a global migratory flyway. This project aims to investigate the role of chemical pollution on disease susceptibility and survival in shorebirds along the East Asian-Australasian Flyway (EAAF). Among all long-distance migratory birds, the more than eight million shorebirds along the EAAF have notably been hit hard by global change, with population declines up to 80%. This project will use data from birds on their Asian migratory stopover sites, data from seven years of blood and virus samples, and 38 years of banding data collected while staying on the Australian non-breeding grounds. The project will provide essential data for developing mitigation strategies to help curb the populations’ demise, while informing on the effects of pollution on the role of migrants in disease spread.Read moreRead less
A novel modelling approach for understanding wildlife disease dynamics. This project aims to develop a novel framework for field wildlife disease systems, applied to chytrid fungal infection of an endangered frog species as a case study. The project expects to develop models able to be applied to many disease systems, improve understanding of host resistance and tolerance to infection, and improve capacity for mitigation of emerging infectious diseases. This work should have international impac ....A novel modelling approach for understanding wildlife disease dynamics. This project aims to develop a novel framework for field wildlife disease systems, applied to chytrid fungal infection of an endangered frog species as a case study. The project expects to develop models able to be applied to many disease systems, improve understanding of host resistance and tolerance to infection, and improve capacity for mitigation of emerging infectious diseases. This work should have international impact and provide significant national benefits in ensuring the conservation of Australia’s biodiversity.Read moreRead less
Vulnerability of Australian bats to white-nose syndrome. Australia's unique wildlife is inherently at risk from invasive novel pathogens. White-nose syndrome is an emerging fungal disease that has decimated bat populations across North America. This fungal disease is likely to soon jump continents and also seriously threaten Australia's bat fauna. This project aims to quantify the risk of exposure to this fungus and understand the sensitivity of Australian bat populations to white-nose syndrome ....Vulnerability of Australian bats to white-nose syndrome. Australia's unique wildlife is inherently at risk from invasive novel pathogens. White-nose syndrome is an emerging fungal disease that has decimated bat populations across North America. This fungal disease is likely to soon jump continents and also seriously threaten Australia's bat fauna. This project aims to quantify the risk of exposure to this fungus and understand the sensitivity of Australian bat populations to white-nose syndrome mortality. Expected outcomes include spatially-explicit, species-specific models of vulnerability to white-nose syndrome for bat populations across south-eastern Australia, essential for directing actions to prevent, detect and mitigate the impacts of this potentially catastrophic wildlife disease.Read moreRead less
Outfoxing the fox: new cost-effective ways to protect threatened species. This project aims to address the damage caused by invasive foxes by applying new methods of protection for threatened species. This project expects to generate new knowledge in the areas of conservation biology and invasive species management by comparing the effectiveness of fox control strategies for improving the population viability of declining freshwater turtles. Expected outcomes of this project include a community- ....Outfoxing the fox: new cost-effective ways to protect threatened species. This project aims to address the damage caused by invasive foxes by applying new methods of protection for threatened species. This project expects to generate new knowledge in the areas of conservation biology and invasive species management by comparing the effectiveness of fox control strategies for improving the population viability of declining freshwater turtles. Expected outcomes of this project include a community-based conservation model that prevents turtle extinctions in south-eastern Australia at considerable cost savings. Significant benefits include improved management of the impacts of invasive species, and restoration of ecosystem services provided by the scavenging role of freshwater turtles for maintaining water quality.Read moreRead less
Improving the anti-predator responses of native mammals . Predation by introduced cats and foxes causes extinction and decline in Australian mammals. Protecting threatened mammals inside fenced sanctuaries is effective but they can become overpopulated, inbred and more naive to predators over time. This leads to a dwindling hope of ever restoring them to their natural habitat. Previous research has shown that exposing threatened mammals to low levels of cat predation in large fenced paddocks i ....Improving the anti-predator responses of native mammals . Predation by introduced cats and foxes causes extinction and decline in Australian mammals. Protecting threatened mammals inside fenced sanctuaries is effective but they can become overpopulated, inbred and more naive to predators over time. This leads to a dwindling hope of ever restoring them to their natural habitat. Previous research has shown that exposing threatened mammals to low levels of cat predation in large fenced paddocks improves their anti-predator behaviour, changes their physical appearance and improves survival. This grant seeks to understand the mechanisms (genetic/learning) behind these changes in order to harness and upscale our results and facilitate co-existence between native mammals and introduced predators. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100833
Funder
Australian Research Council
Funding Amount
$386,708.00
Summary
Resilience of forest ecosystems to multiple stressors in a changing climate. This project will examine the influence of multiple stressors including disease, drought and fire, on the resilience of forest ecosystems within Australia. This project expects to generate new knowledge for land managers and the international community, in management of forest health by determining how soil health and soil fungi influence forest recovery after disturbance events. Anticipated outcomes include improved ri ....Resilience of forest ecosystems to multiple stressors in a changing climate. This project will examine the influence of multiple stressors including disease, drought and fire, on the resilience of forest ecosystems within Australia. This project expects to generate new knowledge for land managers and the international community, in management of forest health by determining how soil health and soil fungi influence forest recovery after disturbance events. Anticipated outcomes include improved risk assessment of disturbed forests to future disturbances and significant benefits will include informing climate smart management goals in the recovery of important forest ecosystems, not only for the forest tree species but the animal, plant, insect and microbe communities that depend on these systems.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100490
Funder
Australian Research Council
Funding Amount
$426,742.00
Summary
Understanding infection tolerance to improve management of wildlife disease. This project aims to investigate tolerance (the ability to limit the detrimental effects of infection) as a key animal defence strategy against disease. It focuses on diseases in natural systems, using the devastating amphibian fungal skin disease, chytridiomycosis, as a model. Expected outcomes include improved understanding of the relative importance of tolerance and resistance, and insight into the key immune and phy ....Understanding infection tolerance to improve management of wildlife disease. This project aims to investigate tolerance (the ability to limit the detrimental effects of infection) as a key animal defence strategy against disease. It focuses on diseases in natural systems, using the devastating amphibian fungal skin disease, chytridiomycosis, as a model. Expected outcomes include improved understanding of the relative importance of tolerance and resistance, and insight into the key immune and physiologic mechanisms underlying variations in tolerance. Anticipated benefits include improved strategies for mitigating infectious wildlife diseases via identifying targets for therapeutic interventions, ecological management and assisted-evolution strategies. This project should also benefit amphibian conservation globally.Read moreRead less