Discovery Early Career Researcher Award - Grant ID: DE170100841
Funder
Australian Research Council
Funding Amount
$372,000.00
Summary
Movement patterns of marine megafauna at unprecedented global scales. This project aims to apply analyses from big data approaches to reveal movement patterns at unprecedented scales. Environmental legislation dictates that industries (e.g. oil and gas) reduce their effect on marine megafauna such as sharks, whales, or turtles. However, the extent of their effect is unknown, due to limited understanding of these animals’ movements. With large satellite tracking datasets now available, the challe ....Movement patterns of marine megafauna at unprecedented global scales. This project aims to apply analyses from big data approaches to reveal movement patterns at unprecedented scales. Environmental legislation dictates that industries (e.g. oil and gas) reduce their effect on marine megafauna such as sharks, whales, or turtles. However, the extent of their effect is unknown, due to limited understanding of these animals’ movements. With large satellite tracking datasets now available, the challenge is to develop a synthetic analytical approach to identify scaling laws and to understand global drivers of marine megafauna movement. Findings are expected to improve the ability to sustainably exploit marine resources while conserving biodiversity.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220101409
Funder
Australian Research Council
Funding Amount
$432,447.00
Summary
Quantifying trophic niches to measure the resilience of marine predators. This project aims to pair global movement with feeding ecology datasets to characterise relationships between space use and diet breadth, and tests the effects of marine industries on functional roles of marine predators. This expects to generate knowledge about population and individual specalisation using innovative biochemical approaches and shark’s unique dental anatomy. Expected outcomes include a biochemical database ....Quantifying trophic niches to measure the resilience of marine predators. This project aims to pair global movement with feeding ecology datasets to characterise relationships between space use and diet breadth, and tests the effects of marine industries on functional roles of marine predators. This expects to generate knowledge about population and individual specalisation using innovative biochemical approaches and shark’s unique dental anatomy. Expected outcomes include a biochemical database facilitating global collaborations, and a vulnerability scale to rank resilience to impacts based on relative specalisation. This should benefit managers by accounting for previously unknown effects of marine industries on specialists at elevated extinction risk, with limited resilience to local impacts and global change.Read moreRead less
How effective are environmental flows? Novel approaches for monitoring and assessing ecological responses to large-scale flow alteration. Australia has begun a multi-billion dollar program to return water to stressed rivers as environmental flows. However, during times of unprecedented water scarcity, such an investment in the environment can be controversial because the ecological benefits of released water are mostly poorly understood. This project will demonstrate the effectiveness of environ ....How effective are environmental flows? Novel approaches for monitoring and assessing ecological responses to large-scale flow alteration. Australia has begun a multi-billion dollar program to return water to stressed rivers as environmental flows. However, during times of unprecedented water scarcity, such an investment in the environment can be controversial because the ecological benefits of released water are mostly poorly understood. This project will demonstrate the effectiveness of environmental flows, and promote greater understanding of the links between flow patterns and river health. The project will build upon existing knowledge to create a sound framework for planning, monitoring, and evaluation of environmental watering decisions across regional Australia, greatly improving our ability to sustainably manage rivers into the future.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE160100904
Funder
Australian Research Council
Funding Amount
$360,000.00
Summary
Connections between imperfect detection and ecological inference. This project is designed to resolve whether or when it is important to account for imperfect detection when modelling communities of species. Robust conservation and environmental decisions require reliable estimates of biodiversity, yet current modelling methods may be biased because they fail to account for the imperfect detection of species. Improving the models requires good understanding about levels and patterns of species d ....Connections between imperfect detection and ecological inference. This project is designed to resolve whether or when it is important to account for imperfect detection when modelling communities of species. Robust conservation and environmental decisions require reliable estimates of biodiversity, yet current modelling methods may be biased because they fail to account for the imperfect detection of species. Improving the models requires good understanding about levels and patterns of species detectability, which is currently lacking. The project intends to bridge this gap by producing a global synthesis of species detectability across taxa, geographical regions and survey methods. The project then aims to evaluate the performance and limitations of existing and emerging community modelling methods in ecology to enable better biodiversity conservation decisions.Read moreRead less