A stitch in time: evidence-based strategy to keep platypus from extinction. This project aims to assess the status of the iconic platypus, identified as ‘near-threatened’ in 2014. The project’s multidisciplinary approach plans to compare regulated and unregulated rivers to investigate metapopulation structure (via physical and genetic tagging), current condition and future adaptability of the species, as well as other threats and habitat quality. The project also links vulnerability of platypus ....A stitch in time: evidence-based strategy to keep platypus from extinction. This project aims to assess the status of the iconic platypus, identified as ‘near-threatened’ in 2014. The project’s multidisciplinary approach plans to compare regulated and unregulated rivers to investigate metapopulation structure (via physical and genetic tagging), current condition and future adaptability of the species, as well as other threats and habitat quality. The project also links vulnerability of platypus populations to conservation actions that reduce extinction risk, through rigorous decision analyses. It is anticipated that the project will deliver implementable conservation actions at relevant scales.Read moreRead less
Genomic vulnerability . Aims: This project aims to validate genomic predictions of species’ vulnerability to climate change.
Significance: Species are already responding to climate change, and many face high predicted rates of extinction. Some species will be able to avoid extinction via evolutionary adaptation. Yet we currently lack the ability to accurately predict which species do and do not have the capacity to adapt and avoid extinction.
Expected outcomes: Expected outcomes of this project ....Genomic vulnerability . Aims: This project aims to validate genomic predictions of species’ vulnerability to climate change.
Significance: Species are already responding to climate change, and many face high predicted rates of extinction. Some species will be able to avoid extinction via evolutionary adaptation. Yet we currently lack the ability to accurately predict which species do and do not have the capacity to adapt and avoid extinction.
Expected outcomes: Expected outcomes of this project include enhanced ability to predict species’ vulnerability to ongoing climate change.
Benefits: This project should significantly improve our capacity to manage threatened and keystone species by identifying those that will require targeted conservation management.
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Genomics for persistence of Australian freshwater fish. Biodiversity faces an unpredictable cocktail of impacts and global environmental change, against which the best insurance is genetic diversity. We will develop genomic measures of ecological-genetic functions and evolutionary potential for managing Australian freshwater fish.
Using fire to manage biodiversity in fragmented landscapes. Using fire to manage biodiversity in fragmented landscapes. This project intends to develop a conservation management tool for use in fire-prone fragmented landscapes to reverse biodiversity loss. It will address two critical knowledge gaps: the combined effects of fire and fragmentation on animal movement, and the implications of current and future fire regimes for native animal populations. Land-use change has severely fragmented 40% ....Using fire to manage biodiversity in fragmented landscapes. Using fire to manage biodiversity in fragmented landscapes. This project intends to develop a conservation management tool for use in fire-prone fragmented landscapes to reverse biodiversity loss. It will address two critical knowledge gaps: the combined effects of fire and fragmentation on animal movement, and the implications of current and future fire regimes for native animal populations. Land-use change has severely fragmented 40% of Australia’s natural landscapes, resulting in loss of habitat for native biodiversity. Remaining habitat fragments are at risk from increases in the frequency and intensity of fire, which also threatens biodiversity. The anticipated outcome is a conservation management tool that is readily transferable to any fire-prone system.Read moreRead less
Effective biodiversity behaviour change across supply chains. Consumption of resources is the major driver of biodiversity loss yet understanding of how to change behavioural drivers is lacking. This project aims to understand barriers to biodiversity behaviours across a supply chain, how to overcome them and increase positive biodiversity impact via spillover effects. We will use coffee as a case study to test specific interventions, design effective message frames for reducing the psychologica ....Effective biodiversity behaviour change across supply chains. Consumption of resources is the major driver of biodiversity loss yet understanding of how to change behavioural drivers is lacking. This project aims to understand barriers to biodiversity behaviours across a supply chain, how to overcome them and increase positive biodiversity impact via spillover effects. We will use coffee as a case study to test specific interventions, design effective message frames for reducing the psychological distance of consumption behaviours and develop a framework for generalising to other behaviours impacting biodiversity. The project is expected to generate new knowledge and approaches critical for policy makers and other actors seeking to reduce consumptive impacts on biodiversity.Read moreRead less
Genetic rescue of Australian wildlife. Genetic rescue of Australian wildlife. This project aims to test genetic rescue as an efficient recovery technique for threatened plants and animals. Genetic rescue is under-utilised, even though it is overwhelmingly beneficial. This project will convert management actions on five Endangered/Critically Endangered species into rigorous experiments that measure the fitness benefits of genetic rescue, and demonstrate genome-wide consequences. Anticipated outco ....Genetic rescue of Australian wildlife. Genetic rescue of Australian wildlife. This project aims to test genetic rescue as an efficient recovery technique for threatened plants and animals. Genetic rescue is under-utilised, even though it is overwhelmingly beneficial. This project will convert management actions on five Endangered/Critically Endangered species into rigorous experiments that measure the fitness benefits of genetic rescue, and demonstrate genome-wide consequences. Anticipated outcomes include innovative genetic rescue protocols, a framework for genetic rescue, and leading-edge conservation training. Expected benefits are increased persistence of species that are otherwise unresponsive to management, and a new path to saving endangered species.Read moreRead less
Genomics and mixed source populations in wildlife translocations. Translocation is a conservation strategy to help the plight of endangered species, and is becoming increasing important to mitigate against climate change. However translocations often fail. Theory suggests mixing individuals from different source populations would benefit species' genomic diversity and potentially success rates, however this is untested in animals. Also unclear is what parts of the genome are important for mitiga ....Genomics and mixed source populations in wildlife translocations. Translocation is a conservation strategy to help the plight of endangered species, and is becoming increasing important to mitigate against climate change. However translocations often fail. Theory suggests mixing individuals from different source populations would benefit species' genomic diversity and potentially success rates, however this is untested in animals. Also unclear is what parts of the genome are important for mitigating against climate change. Using an endangered lizard model, this project aims to understand how to best start new populations by 1) providing the first empirical test in terrestrial vertebrates of using mixed source populations; and 2) uncovering regions of the genome important for considering in translocations.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE190100636
Funder
Australian Research Council
Funding Amount
$401,202.00
Summary
Integrating genomics into native fish management to promote persistence. This project aims to improve predictions of the effects of environmental change on the long-term survival of wildlife, using native fish as a case study. By integrating genomics into biodiversity models, this project expects to generate fundamental knowledge of processes underpinning long-term survival and is a big advance on traditional biodiversity models that consider only occurrence or abundance. Expected outcomes inclu ....Integrating genomics into native fish management to promote persistence. This project aims to improve predictions of the effects of environmental change on the long-term survival of wildlife, using native fish as a case study. By integrating genomics into biodiversity models, this project expects to generate fundamental knowledge of processes underpinning long-term survival and is a big advance on traditional biodiversity models that consider only occurrence or abundance. Expected outcomes include insights into fish responses to environmental conditions and new tools to predict long-term survival of wildlife. These tools will guide cost-effective delivery of environmental water in the Murray-Darling Basin, and wider uptake should promote the long-term effectiveness of conservation efforts for many species.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
Genetic rescue, restoration and adaptation. This project aims to evaluate a promising but rarely used method of population recovery by genetically rescuing populations of two threatened Australian mammals: the mountain pygmy possum and the eastern barred bandicoot. Despite our best efforts to curb biodiversity loss, extinction rates are increasing and Australia is expected to lose a substantial proportion of its unique endemic fauna over the next 20–50 years. By tracking the phenotypic and under ....Genetic rescue, restoration and adaptation. This project aims to evaluate a promising but rarely used method of population recovery by genetically rescuing populations of two threatened Australian mammals: the mountain pygmy possum and the eastern barred bandicoot. Despite our best efforts to curb biodiversity loss, extinction rates are increasing and Australia is expected to lose a substantial proportion of its unique endemic fauna over the next 20–50 years. By tracking the phenotypic and underlying genomic changes that occur when a population undergoes a genetic rescue, the project aims to create data of interest to conservation biology.Read moreRead less