Discovery Early Career Researcher Award - Grant ID: DE240100573
Funder
Australian Research Council
Funding Amount
$450,877.00
Summary
Genomics of extinction and isolation on Australian island arks. This project aims to measure the genetic health of key populations of threatened Australian mammals. With the highest rate of extinction in the world and over 30% of surviving species under immediate threat, Australian mammals require urgent focus to secure their future. This project focuses on island populations, which are increasingly used as sources to rewild mainland Australia. Using cutting-edge genomic tools, this project plan ....Genomics of extinction and isolation on Australian island arks. This project aims to measure the genetic health of key populations of threatened Australian mammals. With the highest rate of extinction in the world and over 30% of surviving species under immediate threat, Australian mammals require urgent focus to secure their future. This project focuses on island populations, which are increasingly used as sources to rewild mainland Australia. Using cutting-edge genomic tools, this project plans to determine the extent and nature of genetic variation, including harmful mutations, on islands and in declining mainland populations. The anticipated outcome is to understand how genetic factors contribute to extinction, to improve conservation strategies for threatened species.Read moreRead less
Upscaling genetic management of wildlife populations. Earth’s biodiversity is in crisis: many species are threatened with extinction and need our help. Genetic management helps to stop extinctions and promotes the health and continued existence of our wildlife. This project aims to understand how to use genome science to support preservation of four endangered species in changing climates and apply these learnings to help other species to survive and thrive. Anticipated outcomes include innovati ....Upscaling genetic management of wildlife populations. Earth’s biodiversity is in crisis: many species are threatened with extinction and need our help. Genetic management helps to stop extinctions and promotes the health and continued existence of our wildlife. This project aims to understand how to use genome science to support preservation of four endangered species in changing climates and apply these learnings to help other species to survive and thrive. Anticipated outcomes include innovative approaches to aid conservation decision-making, automated analyses of genome data, and improved conservation training. The expected benefits include larger, healthier populations of four species, new ways of saving other species, and the provision of important resources for conservation managers.Read moreRead less
Koala Guardians: Empowering community to protect an Australian icon. There is an urgent need for innovative approaches to combat widespread decline of koalas. This project aims to develop technology, integrating behavioural change theory and community co-design, to enable the public to participate in koala conservation. This interdisciplinary initiative will harness the power of citizen science to facilitate mutually-beneficial educational interactions. Expected outcomes include the production o ....Koala Guardians: Empowering community to protect an Australian icon. There is an urgent need for innovative approaches to combat widespread decline of koalas. This project aims to develop technology, integrating behavioural change theory and community co-design, to enable the public to participate in koala conservation. This interdisciplinary initiative will harness the power of citizen science to facilitate mutually-beneficial educational interactions. Expected outcomes include the production of innovative solar-powered Bluetooth ear tags and co-designing a smartphone application that educates and incentivises users in recognising signs of koala disease and submitting sightings, by leveraging gamification, outdoor recreation and tourism. This blueprint can be adapted to assist other threatened species.Read moreRead less
Pathways to semelparity versus early maturity in animals and plants. The project aims to resolve an important but unresolved question in life history evolution and ecology- which mechanisms and constraints lead to semelparity (breeding once, which is rare), and which lead to fast life history (breeding early, which is common) in animals and plants. Theory predicts that both may be adaptations to schedules of adult death. Understanding why males and females have either semelparous or fast life hi ....Pathways to semelparity versus early maturity in animals and plants. The project aims to resolve an important but unresolved question in life history evolution and ecology- which mechanisms and constraints lead to semelparity (breeding once, which is rare), and which lead to fast life history (breeding early, which is common) in animals and plants. Theory predicts that both may be adaptations to schedules of adult death. Understanding why males and females have either semelparous or fast life history strategies is crucial to predicting survival of harvested and threatened species under pressure from climate change, drought, predators, and diseases that kill adults. Expected project outcomes include improved ability to address agents of decline of threatened animals and plants including semelparous species.Read moreRead less
Transforming museum industry to cryopreserve Australia’s diverse wildlife. This project aspires to develop methods for collecting, culturing and cryopreserving cells from wildlife in line with museum industry practice. The project expects to generate new knowledge about the collection of live cells from animals under field conditions and their long-term maintenance in museum collections. Expected outcomes of the project include enhanced capacity of museums to build live cell collections and to s ....Transforming museum industry to cryopreserve Australia’s diverse wildlife. This project aspires to develop methods for collecting, culturing and cryopreserving cells from wildlife in line with museum industry practice. The project expects to generate new knowledge about the collection of live cells from animals under field conditions and their long-term maintenance in museum collections. Expected outcomes of the project include enhanced capacity of museums to build live cell collections and to support and collaborate with cellular biologists. Growth of live cell collections in Australian museums will fuel innovation in cellular technologies, advance fundamental biological knowledge, and shift museums from the role of documenting losses of genetic variation to preserving that genetic variation in living form.
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Discovery Early Career Researcher Award - Grant ID: DE230100085
Funder
Australian Research Council
Funding Amount
$440,954.00
Summary
Forensic genomic toolkit for tracking the illegal wildlife trade. This project aims to analyse the illegal parrot trade by utilising conservation genomic approaches. The project will reveal wildlife trade routes in South-east Asia by developing cutting-edge forensic genomic techniques and criminological methods. Expected outcomes of this project include new field-deployable sequencing technology to provide in-situ genetic information for identifying the taxonomy and provenance of confiscated spe ....Forensic genomic toolkit for tracking the illegal wildlife trade. This project aims to analyse the illegal parrot trade by utilising conservation genomic approaches. The project will reveal wildlife trade routes in South-east Asia by developing cutting-edge forensic genomic techniques and criminological methods. Expected outcomes of this project include new field-deployable sequencing technology to provide in-situ genetic information for identifying the taxonomy and provenance of confiscated specimens, and a first ever genetic database of traded wildlife. The project will facilitate important countermeasures to the illegal wildlife trade including confiscation, reintroduction, improved law enforcement, and education for better biodiversity outcomes in our region.Read moreRead less
Hotspots of endemism for invertebrate conservation in south-east Australia. The project aims to identify and predict hotspots of species endemism to guide conservation and restoration efforts. This work is significant in the current extinction crisis because endemic species (those unique to a region) are at higher risk of extinction due to human causes. The project will model the relationship of narrow range endemic species with contemporary and past environments, estimate the historical loss of ....Hotspots of endemism for invertebrate conservation in south-east Australia. The project aims to identify and predict hotspots of species endemism to guide conservation and restoration efforts. This work is significant in the current extinction crisis because endemic species (those unique to a region) are at higher risk of extinction due to human causes. The project will model the relationship of narrow range endemic species with contemporary and past environments, estimate the historical loss of species through land-clearing and fire, and predict future responses to climate change, to inform conservation planning. Lastly, it will test the efficacy of habitat transplants in restoring local invertebrate assemblages. Benefits include better informed conservation planning and new restoration approaches.Read moreRead less
Is New Guinea the missing link for understanding Australia’s rainforests? This project aims to understand the extent to which the animals in Australia have shared histories with animals from the islands of Melanesia, and especially New Guinea. Key outcomes will be identification of hotspots of unique and high evolutionary diversity across both regions, and understanding of whether New Guinea has been an overall refuge or source for rainforest animals as Australia became more arid over the last 2 ....Is New Guinea the missing link for understanding Australia’s rainforests? This project aims to understand the extent to which the animals in Australia have shared histories with animals from the islands of Melanesia, and especially New Guinea. Key outcomes will be identification of hotspots of unique and high evolutionary diversity across both regions, and understanding of whether New Guinea has been an overall refuge or source for rainforest animals as Australia became more arid over the last 20 million years. Expected benefits include addressing fundamental gaps in our knowledge of the history of both the Australian continent and its resident biota such as when landbridges first formed with New Guinea, and the identification of priority areas for conservation investment in both Australian and Melanesia.Read moreRead less
Early Career Industry Fellowships - Grant ID: IE230100140
Funder
Australian Research Council
Funding Amount
$477,237.00
Summary
Supporting Australia’s conservation agencies to control foxes & feral cats. This project aims to empower land managers to better protect Australia’s native wildlife. Introduced predators (foxes and feral cats) are a key driver of wildlife loss in Australia, and millions of dollars are invested in management annually. The project expects to advance the efficacy of introduced predator management by building robust datasets on predator densities, conducting continental-scale syntheses on predator e ....Supporting Australia’s conservation agencies to control foxes & feral cats. This project aims to empower land managers to better protect Australia’s native wildlife. Introduced predators (foxes and feral cats) are a key driver of wildlife loss in Australia, and millions of dollars are invested in management annually. The project expects to advance the efficacy of introduced predator management by building robust datasets on predator densities, conducting continental-scale syntheses on predator ecology, developing advanced simulation models to predict the effects and cost of management and monitoring, and making these accessible via free decision-support tools. The project will enhance the capacity of land managers to conduct best-practice management and substantially advance understanding of predator ecology.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240101131
Funder
Australian Research Council
Funding Amount
$460,537.00
Summary
Animal cultures and anthropogenic change. This project aims to investigate the impacts of anthropogenic change on the elaborate song cultures of declining Australian songbirds. Culture is fundamental to the biology of social animals, and has profound implications for biodiversity conservation; however, the drivers of animal cultural change are unclear. This project will analyse how lyrebird song cultures respond to anthropogenic environmental change, including Australia’s 2019-20 megafires. Furt ....Animal cultures and anthropogenic change. This project aims to investigate the impacts of anthropogenic change on the elaborate song cultures of declining Australian songbirds. Culture is fundamental to the biology of social animals, and has profound implications for biodiversity conservation; however, the drivers of animal cultural change are unclear. This project will analyse how lyrebird song cultures respond to anthropogenic environmental change, including Australia’s 2019-20 megafires. Furthermore, it will assess the mechanisms linking environmental and cultural change, and examine the utility of vocal cultures as bioindicators of ecological health. This project will advance fundamental research in animal culture and enhance the conservation of cultural diversity in the wild.Read moreRead less