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Peptides and Proteins for Fighting Pests and Protecting the Environment. This project aims to use peptides and proteins to fight pests and protect the environment, which is significant because current practices have unintended harmful effects and are unsustainable. Achieving these aims must first involve scientific development of ecofriendly lead molecules. This project will develop platform technologies for the design of bioactive peptides or proteins based on molecules used naturally for highl ....Peptides and Proteins for Fighting Pests and Protecting the Environment. This project aims to use peptides and proteins to fight pests and protect the environment, which is significant because current practices have unintended harmful effects and are unsustainable. Achieving these aims must first involve scientific development of ecofriendly lead molecules. This project will develop platform technologies for the design of bioactive peptides or proteins based on molecules used naturally for highly selective functions in communication and defence. Expected outcomes include novel peptide and protein leads and improved strategies for developing them, which will lead to new and safer ways of protecting biodiversity and food security that are expected to reduce our environmental footprint and bring economic benefits.Read moreRead less
Buffering the ecosystem impact of invasive cane toads. This project aims to address the devastating ecological problems caused by invasive species, by developing a novel approach that does not rely upon eradicating the invader through training vulnerable native predators not to eat toxic cane toads. Expected outcomes of this project include building a broad coalition of conservation-focused groups, from private land-owners and local businesses through to Indigenous groups and government and non- ....Buffering the ecosystem impact of invasive cane toads. This project aims to address the devastating ecological problems caused by invasive species, by developing a novel approach that does not rely upon eradicating the invader through training vulnerable native predators not to eat toxic cane toads. Expected outcomes of this project include building a broad coalition of conservation-focused groups, from private land-owners and local businesses through to Indigenous groups and government and non-government agencies across the entire Kimberley region. It will also result in the evaluation of methods for deployment of taste-aversion at a landscape scale. This should provide significant benefits by conserving vulnerable fauna and building a powerful network within a region of high biodiversity in tropical Australia.Read moreRead less
Defining the links between climate change, marine disease and food security. This project will deliver critical new knowledge on the causes of marine pathogen outbreaks that threaten Australia’s $1.6 billion aquaculture industry. Several members of the same genus of bacteria have been implicated in recent mass mortality events in aquaculture species, as well as human illness in consumers of seafood, yet the triggers for unprecedented outbreaks of these pathogens are unknown. By coupling a suite ....Defining the links between climate change, marine disease and food security. This project will deliver critical new knowledge on the causes of marine pathogen outbreaks that threaten Australia’s $1.6 billion aquaculture industry. Several members of the same genus of bacteria have been implicated in recent mass mortality events in aquaculture species, as well as human illness in consumers of seafood, yet the triggers for unprecedented outbreaks of these pathogens are unknown. By coupling a suite of sophisticated molecular biological tools and physiological measurements, this research will resolve the role of environmental disturbances including marine heat waves, floods and plastic pollution in stimulating marine pathogen outbreaks, thereby informing efforts to safeguard Australia’s food security and food safety.Read moreRead less
Linkage Infrastructure, Equipment And Facilities - Grant ID: LE240100006
Funder
Australian Research Council
Funding Amount
$350,000.00
Summary
Northern Australia Plant Biosecurity Facility. Quarantine glasshouses (Biosecurity Containment Level 2) are required to develop research with invasive plants. However, in Australia, no quarantine glasshouses exist north of parallel 27 (Brisbane), posing a remarkable barrier to research on tropical biosecurity. This proposal aims to establish a quarantine glasshouse for a broad range of internal and external users, enabling scientists based in the Australian tropics and other interested parties t ....Northern Australia Plant Biosecurity Facility. Quarantine glasshouses (Biosecurity Containment Level 2) are required to develop research with invasive plants. However, in Australia, no quarantine glasshouses exist north of parallel 27 (Brisbane), posing a remarkable barrier to research on tropical biosecurity. This proposal aims to establish a quarantine glasshouse for a broad range of internal and external users, enabling scientists based in the Australian tropics and other interested parties to address plant biosecurity risks from and for northern Australia. Tropical biosecurity is a key area of strategic focus for JCU and its network of partners, who will benefit from the targeted research, quarantine services, and specialized training that will be enabled by this facility.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200100884
Funder
Australian Research Council
Funding Amount
$426,691.00
Summary
Do novel diets reshape wildlife microbiomes and resilience to stressors? This project aims to investigate how bacteria can assist wildlife in adapting to the accelerating threat of environmental change. Using an innovative, interdisciplinary approach this project expects to identify interactions between environmental change and the diet, microbial communities and stress resilience of wildlife, using the threatened Grey-headed flying fox as a model system. Expected outcomes include detailed under ....Do novel diets reshape wildlife microbiomes and resilience to stressors? This project aims to investigate how bacteria can assist wildlife in adapting to the accelerating threat of environmental change. Using an innovative, interdisciplinary approach this project expects to identify interactions between environmental change and the diet, microbial communities and stress resilience of wildlife, using the threatened Grey-headed flying fox as a model system. Expected outcomes include detailed understanding of the role of microbial communities in shaping wildlife adaptations and development of ecological interventions to enhance wildlife resilience in Australia and globally. Such outcomes may reveal opportunities for management strategies that safeguard threatened species and reduce human-wildlife conflicts.Read moreRead less
Defining how inter-bacterial symbioses regulate aquatic ecosystem health. This project will determine how ecological relationships among aquatic bacteria govern the health of Australia’s marine and freshwater environments. Cyanobacteria support aquatic ecosystem productivity, but can have detrimental effects when they form harmful blooms, although the factors governing the balance of these contrasting impacts are largely undefined. By coupling sophisticated approaches including genomics, phenomi ....Defining how inter-bacterial symbioses regulate aquatic ecosystem health. This project will determine how ecological relationships among aquatic bacteria govern the health of Australia’s marine and freshwater environments. Cyanobacteria support aquatic ecosystem productivity, but can have detrimental effects when they form harmful blooms, although the factors governing the balance of these contrasting impacts are largely undefined. By coupling sophisticated approaches including genomics, phenomics, and microfluidics to examine how symbioses with other bacteria influence the growth and function of important species of cyanobacteria, this research will elucidate the importance of an over-looked factor in controlling the productivity, health and value of Australia’s aquatic estate.Read moreRead less
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
Discovering how termites use vibrations to thrive in a predators' world. Our recent research revealed termites use vibrations to avoid predators/competitors for survival. However, the enabling mechanisms of this amazing ability remain unknown. The project aims at unlocking the secrets of these mechanisms by relating the mechanical properties of termite, legs, antennae and sensing organs (measured with advanced micro measurement techniques) to vibration signatures of ants and termites (extracted ....Discovering how termites use vibrations to thrive in a predators' world. Our recent research revealed termites use vibrations to avoid predators/competitors for survival. However, the enabling mechanisms of this amazing ability remain unknown. The project aims at unlocking the secrets of these mechanisms by relating the mechanical properties of termite, legs, antennae and sensing organs (measured with advanced micro measurement techniques) to vibration signatures of ants and termites (extracted using innovative signal processing techniques and nonlinear dynamics). We will develop novel bio-dynamics models that incorporate machine learning. We will test the models’ ability to manipulate termites foraging behaviour, with the ultimate objective of developing chemical-free, vibration-based pest control devices. Read moreRead less
Using cane toads to eradicate cane toads. This project aims to develop effective ways to reduce the devastating ecological impact of cane toads, by exploiting the cannibalistic behaviour of tadpoles. This project expects to generate new knowledge in the area of invasion biology and amphibian development utilising recent discoveries about cannibalism. Expected outcomes of this project include a powerful new method to reduce or eliminate recruitment of juvenile toads from natural waterbodies. Bene ....Using cane toads to eradicate cane toads. This project aims to develop effective ways to reduce the devastating ecological impact of cane toads, by exploiting the cannibalistic behaviour of tadpoles. This project expects to generate new knowledge in the area of invasion biology and amphibian development utilising recent discoveries about cannibalism. Expected outcomes of this project include a powerful new method to reduce or eliminate recruitment of juvenile toads from natural waterbodies. Benefits of this project include conservation of native wildlife that are threatened by the cane toad invasion across much of tropical and subtropical Australia.Read moreRead less
Protecting Australia’s food future: shared responsibility for biosecurity. This project aims to investigate whether Australia’s ‘shared responsibility’ approach to biosecurity is capable of facing the growing threat from exotic pests and diseases. Through the analysis of policy documents and the use of semi-structured interviews, this project intends to contribute to a deeper understanding of the inter- and intra-organisational characteristics that influence implementation of biosecurity. Expect ....Protecting Australia’s food future: shared responsibility for biosecurity. This project aims to investigate whether Australia’s ‘shared responsibility’ approach to biosecurity is capable of facing the growing threat from exotic pests and diseases. Through the analysis of policy documents and the use of semi-structured interviews, this project intends to contribute to a deeper understanding of the inter- and intra-organisational characteristics that influence implementation of biosecurity. Expected outcomes include crucial insights into the capacity of a shared responsibility approach to protect agri-food production against biological threats, and the forms of institutional change that may be needed to enhance responsiveness to those threats. This in turn will benefit Australia's biosecurity system.Read moreRead less