Threats of avian pathogens to endangered parrots and human health: developing and utilizing tools for risk reduction. Emerging infectious diseases (EID) are among the most significant threats to conservation, agriculture and public health worldwide. Among these are two globally significant avian pathogens, Chlamydia psittaci and Beak and Feather Disease Virus. This project aims to determine transmission dynamics, fitness costs of infection, and quantify the roles of genetic diversity and host st ....Threats of avian pathogens to endangered parrots and human health: developing and utilizing tools for risk reduction. Emerging infectious diseases (EID) are among the most significant threats to conservation, agriculture and public health worldwide. Among these are two globally significant avian pathogens, Chlamydia psittaci and Beak and Feather Disease Virus. This project aims to determine transmission dynamics, fitness costs of infection, and quantify the roles of genetic diversity and host stress in infection and disease emergence. The project aims to also determine to what extent zoonotic poultry/human infection is related to infection in wild birds. The outcomes aim to be the development of critical knowledge and tools to help manage two avian pathogens causing significant conservation, agricultural and public health concern around the world.Read moreRead less
Reproducibility and open science in environmental research. The goal of this project is to improve the reproducibility and transparency of environmental science. Disturbingly low levels of reproducibility have recently been uncovered in other disciplines, and there are good reasons to suspect the same conditions in environmental science. However, it has thus far been excused from evaluation because of the large spatial scales, long time horizons and dependencies among processes that prohibit dir ....Reproducibility and open science in environmental research. The goal of this project is to improve the reproducibility and transparency of environmental science. Disturbingly low levels of reproducibility have recently been uncovered in other disciplines, and there are good reasons to suspect the same conditions in environmental science. However, it has thus far been excused from evaluation because of the large spatial scales, long time horizons and dependencies among processes that prohibit direct replication of empirical field research. The project plans to assess the reproducibility of environmental research and develop systematic review methods that account for bias in published research. In this way, it seeks to contribute to the standards for statistical inference and reporting in the discipline, and facilitate a cultural shift to ‘Open Science’ to ensure a more reliable evidence base for environmental decisions. Read moreRead less
Socio-ecological models for environmental decision making. The success of efforts to solve environmental problems will hinge, at least partly, on human responses. Yet environmental decision analysis tools typically do not include social processes, due to theoretical and methodological obstacles including strong disciplinary divides. For the first time, this project will combine computational social science and ecology to develop a new approach to environmental decision science. Using case-studie ....Socio-ecological models for environmental decision making. The success of efforts to solve environmental problems will hinge, at least partly, on human responses. Yet environmental decision analysis tools typically do not include social processes, due to theoretical and methodological obstacles including strong disciplinary divides. For the first time, this project will combine computational social science and ecology to develop a new approach to environmental decision science. Using case-studies in the design of biodiversity markets, this project will provide concrete examples of how socio-ecological models can support management decisions. The use of socio-ecological models will represent a paradigm shift in environmental decision theory that will lead to more effective environmental management.Read moreRead less
Can Tasmanian Devils survive by adapting to devil facial tumour disease? This research will examine whether or not Tasmanian Devils are capable of adapting fast enough to survive the disease epidemic caused by a new contagious cancer, devil facial tumour disease, and evade extinction. Outcomes will determine long-term management responses to the disease and will set a benchmark for managing wildlife diseases worldwide.
Discovery Early Career Researcher Award - Grant ID: DE150101552
Funder
Australian Research Council
Funding Amount
$325,112.00
Summary
Tough choices: assessing threats and prioritising conservation investment. Biodiversity faces multiple threats, including global change. A significant problem is the gap between the science underpinning species' vulnerability assessments and the development of effective conservation management solutions, reducing the probability of successful conservation. Given insufficient resources exist to conserve all species, the development of a future-smart framework for prioritising resource allocation ....Tough choices: assessing threats and prioritising conservation investment. Biodiversity faces multiple threats, including global change. A significant problem is the gap between the science underpinning species' vulnerability assessments and the development of effective conservation management solutions, reducing the probability of successful conservation. Given insufficient resources exist to conserve all species, the development of a future-smart framework for prioritising resource allocation at global, national and regional scales is essential. This project aims to do that by classifying the risks to species using a predictive framework, and construct a widely applicable management scheme to maximise species' future persistence.Read moreRead less
Resource allocation for efficient environmental management. The world faces a range of pressing environmental problems such as loss of biodiversity, invasion of pests and weeds, high greenhouse gas emissions and emerging infectious diseases. This research will show how to manage environmental problems most efficiently, especially when the state of the world and the benefits of management are uncertain.
Keystone effects of Australia's top predators: dingoes, devils and biodiversity. This project will study the interactions of Australia's two largest predators, the dingo and Tasmanian devil, with other species. The project will help develop an understanding of the value of these predators in maintaining ecosystem processes and diversity, and guide their management in the future.
Reproducibility and open science in environmental research. The goal of this project is to improve the reproducibility and transparency of environmental science. Disturbingly low levels of reproducibility have recently been uncovered in other disciplines, and there are good reasons to suspect the same conditions in environmental science. However, it has thus far been excused from evaluation because of the large spatial scales, long time horizons and dependencies among processes that prohibit dir ....Reproducibility and open science in environmental research. The goal of this project is to improve the reproducibility and transparency of environmental science. Disturbingly low levels of reproducibility have recently been uncovered in other disciplines, and there are good reasons to suspect the same conditions in environmental science. However, it has thus far been excused from evaluation because of the large spatial scales, long time horizons and dependencies among processes that prohibit direct replication of empirical field research. The project plans to assess the reproducibility of environmental research and develop systematic review methods that account for bias in published research. In this way, it seeks to contribute to the standards for statistical inference and reporting in the discipline, and facilitate a cultural shift to ‘Open Science’ to ensure a more reliable evidence base for environmental decisions. Read moreRead less
Movement ecology of flying-foxes. This project aims to understand flying-fox movement ecology from individual navigation through to population redistribution. Understanding movement across spatiotemporal scales is a goal of movement research. Grey-headed flying-foxes are mobile, and advances in tracking technology make them ideal for studying movement across scales. This project will determine how flying foxes navigate, and integrate this with drivers of their movement to understand their moveme ....Movement ecology of flying-foxes. This project aims to understand flying-fox movement ecology from individual navigation through to population redistribution. Understanding movement across spatiotemporal scales is a goal of movement research. Grey-headed flying-foxes are mobile, and advances in tracking technology make them ideal for studying movement across scales. This project will determine how flying foxes navigate, and integrate this with drivers of their movement to understand their movement ecology by using methods that integrate experimental manipulation with telemetry, Doppler radar and analytical techniques. This is expected to develop much-needed management strategies that incorporate an understanding of movement.Read moreRead less
Leader of the pack: social structure and predator management. This project aims to quantify the importance of the individual in behaviour and social structures when managing social predator populations to protect economic and environmental assets. Using dingoes as a model system this project will characterise social structure and behaviour under varying management scenarios. This information will be embedded within models of ecological networks to examine the effects of disrupting dingo packs on ....Leader of the pack: social structure and predator management. This project aims to quantify the importance of the individual in behaviour and social structures when managing social predator populations to protect economic and environmental assets. Using dingoes as a model system this project will characterise social structure and behaviour under varying management scenarios. This information will be embedded within models of ecological networks to examine the effects of disrupting dingo packs on biological communities. The project expects to improve understanding of how behaviour and social interactions influence ecological outcomes, improving conservation and management.Read moreRead less