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
Managing complex networks in endangered grasslands to restore food webs. This project aims to quantify the impacts of native and non-native animal consumer removal by examining food webs in endangered grasslands. Grasslands are Australia’s largest biome yet land-use changes, livestock and invasive plants, have altered entire food webs, including the integrity of ecosystem services such as nutrient cycling. Measuring disrupted food webs in field experiments, then modelling the impacts of mammals ....Managing complex networks in endangered grasslands to restore food webs. This project aims to quantify the impacts of native and non-native animal consumer removal by examining food webs in endangered grasslands. Grasslands are Australia’s largest biome yet land-use changes, livestock and invasive plants, have altered entire food webs, including the integrity of ecosystem services such as nutrient cycling. Measuring disrupted food webs in field experiments, then modelling the impacts of mammals to invertebrates, will assist managers in making more effective decisions relating to ecosystem integrity. Understanding the consequences of biodiversity loss including implications for ecosystem resilience is crucial to Australia’s future food production, carbon sequestration and hydrological flows.Read moreRead less
Systematic prioritisation of action for confronting invasive vertebrates in Australia. This project will use novel scientific approaches to effectively prioritise action for mitigating the threats invasive vertebrate pests pose to humans and to biodiversity in Australia. Results will inform policy and management, substantially advancing our understanding of the key factors shaping spatial invasion sources, hotspots, drivers and impact.
Understanding population growth time lags in invasive species. This project will use data collected from wild animals, landholder surveys, and computer simulation models to understand why invasive chital deer (Axis axis) are suddenly increasing in number after many years of slow population growth. By combining multiple empirical datasets and developing new modelling techniques, we will generate a new method for understanding population trends in introduced species. The results of this study will ....Understanding population growth time lags in invasive species. This project will use data collected from wild animals, landholder surveys, and computer simulation models to understand why invasive chital deer (Axis axis) are suddenly increasing in number after many years of slow population growth. By combining multiple empirical datasets and developing new modelling techniques, we will generate a new method for understanding population trends in introduced species. The results of this study will allow Queensland Department of Agriculture and Fisheries and others to better predict invasive species growth rates, which will allow for better, and more cost effective control methods. Read moreRead less
Reintroduction of ecosystem engineers as a woodland restoration tool. Can we help restore woodlands by reintroducing extinct native mammals? Through a strategic partnership combining innovative research and conservation action, this project will investigate how returning extinct 'ecosystem engineers' could be used as a tool for restoring healthy temperate woodland ecosystems.
Who's calling? Understanding and exploiting signalling system ecology to improve success in trapping cane toads. This project has five major national and community benefits for Australia. It will: 1. provide a much-needed control option for a major pest, 2. actually remove many toads during the course of the study, through trapping at various locations around Australia, 3. support an Australian small business by providing research outcomes that will enable it to develop and market a highly desi ....Who's calling? Understanding and exploiting signalling system ecology to improve success in trapping cane toads. This project has five major national and community benefits for Australia. It will: 1. provide a much-needed control option for a major pest, 2. actually remove many toads during the course of the study, through trapping at various locations around Australia, 3. support an Australian small business by providing research outcomes that will enable it to develop and market a highly desired product, and 4. provide high level, postgraduate training in science. This project directly addresses the National Research Priority goal safeguarding Australia, protecting Australia from invasive … pests, because it will generate new technologies useful for controlling an invasive species.Read moreRead less
Call Out and Listen In: A New Way to Detect and Control Invasive Species. This project aims to use novel acoustic techniques to detect and capture invasive frog species to protect native species. Invasive frogs are an under-appreciated but serious ecological problem worldwide, because they are voracious predators and are often toxic to native species. Male frogs call to attract mates, and answer calls they hear. Using new acoustic technologies, these behaviours can be exploited to detect species ....Call Out and Listen In: A New Way to Detect and Control Invasive Species. This project aims to use novel acoustic techniques to detect and capture invasive frog species to protect native species. Invasive frogs are an under-appreciated but serious ecological problem worldwide, because they are voracious predators and are often toxic to native species. Male frogs call to attract mates, and answer calls they hear. Using new acoustic technologies, these behaviours can be exploited to detect species and attract gravid females for removal. This project aims to combine an early warning system (electronic listening) and trap (calling and catching), which can be customised to any invasive frog, and use it to detect and remove cane toads, especially in low density populations.Read moreRead less
Understanding the tipping point between epidemic and endemic disease: amphibian chytridiomycosis as a model system. The amphibian disease chytridiomycosis has caused declines and extinctions in Australian frogs; it is very sensitive to environmental conditions, and changes in climate or weather could cause outbreaks that would eliminate many more species. This project will build greater understanding as to how and when that could occur and prevent it from happening.
Some like it hot: invasive species, hybridisation, and a warming world. Temperatures are rising and invasive species are becoming more prevalent. This project aims to understand how climate change and hybridisation between exotic and native marine species leads to rapid adaptation. Using integrative approaches from genomics and physiology and focusing on Australian blue mussels, this proposal will test leading hypotheses about how climate change and hybridisation can enable rapid adaptation and ....Some like it hot: invasive species, hybridisation, and a warming world. Temperatures are rising and invasive species are becoming more prevalent. This project aims to understand how climate change and hybridisation between exotic and native marine species leads to rapid adaptation. Using integrative approaches from genomics and physiology and focusing on Australian blue mussels, this proposal will test leading hypotheses about how climate change and hybridisation can enable rapid adaptation and the spread of exotic species. Outcomes will include strategies for minimising impacts of invasive mussels and boosting warm-temperature adaptation in aquaculture mussels and restored shellfish reefs. This project will yield fundamental insights into how marine species can quickly adapt to warming seas.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140100701
Funder
Australian Research Council
Funding Amount
$386,006.00
Summary
Managing the effects of disturbance on coral reef biodiversity: modelling starfish outbreaks in a changing world
. Coral communities of the Great Barrier Reef are facing multiple disturbances, in particular the coral-eating crown-of-thorns starfish Acanthaster planci (A. planci) that can occur as large-scale outbreaks. This project aims to provide innovative guidance in support of the management of A. planci, based on a metapopulation modelling framework broadly applicable to the control of mar ....Managing the effects of disturbance on coral reef biodiversity: modelling starfish outbreaks in a changing world
. Coral communities of the Great Barrier Reef are facing multiple disturbances, in particular the coral-eating crown-of-thorns starfish Acanthaster planci (A. planci) that can occur as large-scale outbreaks. This project aims to provide innovative guidance in support of the management of A. planci, based on a metapopulation modelling framework broadly applicable to the control of marine pests. Expected outcomes include the identification of the environmental triggers of A. planci outbreaks; the identification of target reefs and critical thresholds of management intervention needed to limit the impact of A. planci under different climate and land use scenarios; and future forecasts of coral and fish biodiversity under these scenarios.Read moreRead less