ARC Centre of Excellence for Environmental Decisions. Despite facing the sixth global mass extinction of species, most conservation management is unevaluated and inefficient. The ARC Centre of Excellence for Environmental Decisions will provide international research leadership in tackling the complex problems of environmental management and monitoring in an uncertain world. Working through six Australian universities and six international organisations, the Centre will forge new approaches and ....ARC Centre of Excellence for Environmental Decisions. Despite facing the sixth global mass extinction of species, most conservation management is unevaluated and inefficient. The ARC Centre of Excellence for Environmental Decisions will provide international research leadership in tackling the complex problems of environmental management and monitoring in an uncertain world. Working through six Australian universities and six international organisations, the Centre will forge new approaches and tools from ecology, mathematics, statistics, economics and the social sciences. It will lead the world in developing and delivering predictive models and decision-making approaches to improve outcomes in conservation.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE140101624
Funder
Australian Research Council
Funding Amount
$394,870.00
Summary
Reconciling development and conservation trade-offs from global and Australian protected area expansion. Driven by recent international commitments, the following eight years are likely to see the greatest expansion of the global protected area network in history, but underlying biases in protected area location could limit the cost-efficiency and conservation value of this expansion. To increase the transparency of decisions underlying protected area expansion, this project will develop and tes ....Reconciling development and conservation trade-offs from global and Australian protected area expansion. Driven by recent international commitments, the following eight years are likely to see the greatest expansion of the global protected area network in history, but underlying biases in protected area location could limit the cost-efficiency and conservation value of this expansion. To increase the transparency of decisions underlying protected area expansion, this project will develop and test spatially-explicit scenarios of expanding human influence at the global scale and the impacts on biodiversity. This information will be then be used to determine the trade-offs and synergies between human development potential and biodiversity benefits from protected area expansion, both globally and in Australia.Read moreRead less
Transcending language barriers to environmental sciences. This project aims to enhance the global flow of scientific knowledge for biodiversity conservation by tackling the impediment of language barriers. The project draws from literature reviews, modelling and global surveys to shed light on details of biodiversity science published in non-English languages, and how language impedes the use of biodiversity science in decision-making. The project will produce a database and search system for no ....Transcending language barriers to environmental sciences. This project aims to enhance the global flow of scientific knowledge for biodiversity conservation by tackling the impediment of language barriers. The project draws from literature reviews, modelling and global surveys to shed light on details of biodiversity science published in non-English languages, and how language impedes the use of biodiversity science in decision-making. The project will produce a database and search system for non-English conservation studies and recognise the importance of translations to better inform policies and practices. This will benefit national and international environmental sciences and policies by increasing knowledge available for synthesis and facilitating science-led conservation.
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Enhancing biodiversity and ecosystem services in production landscapes. This project aims to develop new approaches using causal inference, optimal allocation theory, and spatial statistics to characterise impacts on a diverse suite of ecosystem services. It will endeavour to develop case studies from three continents and generalisations explicitly tested using simulated landscapes. Environmental and agricultural policies promote land sharing (biodiversity-friendly production) or land sparing (p ....Enhancing biodiversity and ecosystem services in production landscapes. This project aims to develop new approaches using causal inference, optimal allocation theory, and spatial statistics to characterise impacts on a diverse suite of ecosystem services. It will endeavour to develop case studies from three continents and generalisations explicitly tested using simulated landscapes. Environmental and agricultural policies promote land sharing (biodiversity-friendly production) or land sparing (protected areas, with yield increases elsewhere). Yet the impacts of such policies in diverse contexts and for multiple outcomes are poorly understood. The project could advance our ability to deliver sustainable outcomes and more effective as well as equitable policies for production landscapes.Read moreRead less
From prediction to adaptation: responding to rapid ecosystem shifts under climate change. Nobody knows exactly how climate change will affect the ecosystems on which we depend for our own existence, though negative impacts are widely predicted. This project integrates mathematical, economic and ecological approaches to learn about the most effective way to spend limited funds for sustaining ecosystems threatened by climate change.
Tackling pests using game theory to support cooperative management. This project aims to improve management of invasive species by assisting pest mitigation agencies to work together. This is expected to result in more efficient and effective strategies, with the potential to dramatically improve local and global agricultural and environmental outcomes. An interdisciplinary approach using game theory, spatial modelling, and ecology is expected to create a novel framework to identify how and when ....Tackling pests using game theory to support cooperative management. This project aims to improve management of invasive species by assisting pest mitigation agencies to work together. This is expected to result in more efficient and effective strategies, with the potential to dramatically improve local and global agricultural and environmental outcomes. An interdisciplinary approach using game theory, spatial modelling, and ecology is expected to create a novel framework to identify how and when agencies might collaborate, and how collaboration might impact on costs and benefits of pest control strategies. The project will provide significant benefits by improving management of invasive species across Queensland, one of Australia's largest agricultural producing states and home to a vast number of Australia's threatened species. Read moreRead less
Delivering Benefits from Nature in a Highly Connected World . This project aims to improve knowledge of the implications of global flows of ecosystem services (the benefits people receive from nature) for achieving sustainable land use by developing novel predictive models and decision tools. The project is significant because it will resolve the complex challenge of assessing land use strategies when land use change has impacts on ecosystem service provision locally and globally. Expected outco ....Delivering Benefits from Nature in a Highly Connected World . This project aims to improve knowledge of the implications of global flows of ecosystem services (the benefits people receive from nature) for achieving sustainable land use by developing novel predictive models and decision tools. The project is significant because it will resolve the complex challenge of assessing land use strategies when land use change has impacts on ecosystem service provision locally and globally. Expected outcomes will be new evidence for the effect of land use change on the global distribution of ecosystem service benefits and how ecosystem services trade-off against each other. This should provide significant benefits by enabling better assessment of land use policy in an increasingly highly connected world.Read moreRead less
Ecologically responsible mining to fuel a green energy transition. An energy transition is key to tackling climate change. However, renewable energy is mineral intensive and boosting its supply may create new mining threats to biodiversity. This project aims to facilitate strategic development of ecologically responsible mining. It expects to reveal where new mines will be needed to meet future energy demand, and create innovative tools to predict and mitigate threats to plants and animals. Expe ....Ecologically responsible mining to fuel a green energy transition. An energy transition is key to tackling climate change. However, renewable energy is mineral intensive and boosting its supply may create new mining threats to biodiversity. This project aims to facilitate strategic development of ecologically responsible mining. It expects to reveal where new mines will be needed to meet future energy demand, and create innovative tools to predict and mitigate threats to plants and animals. Expected outcomes include an improved ability to inform sustainable climate and energy policies, leading to strategic investment decisions, cleaner mineral supply chains and conservation outcomes that capture valuable environmental and social benefits and create a competitive advantage for Australia’s mining sector.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101385
Funder
Australian Research Council
Funding Amount
$417,966.00
Summary
How social and trade networks influence adoption of sustainable practices. Adoption of agricultural practices to reduce the impacts of land-based run-off on water quality is necessary to ensure that ecosystems that deliver substantial economic and social benefits, such as the Great Barrier Reef, are preserved. But up-take is currently limited by lack of behaviour change. Using novel network modelling and mixed methods, this interdisciplinary project will measure the importance of international t ....How social and trade networks influence adoption of sustainable practices. Adoption of agricultural practices to reduce the impacts of land-based run-off on water quality is necessary to ensure that ecosystems that deliver substantial economic and social benefits, such as the Great Barrier Reef, are preserved. But up-take is currently limited by lack of behaviour change. Using novel network modelling and mixed methods, this interdisciplinary project will measure the importance of international trade and peer influence on the adoption of sustainable practices. Outcomes are expected to drive cost-effective stakeholder engagement solutions that will increase uptake of sustainable practices. At stake are natural ecosystems whose health is critical for delivering economic value, and social and ecological benefits.Read moreRead less
Recovering Australia’s migratory shorebirds. This project seeks to determine how Australia’s coastal environments can be managed to aid in the recovery of threatened shorebird species. Millions of migratory shorebirds arrive in Australia each year from their Arctic breeding grounds, yet many of these iconic species are in rapid decline, and two were recently nominated as nationally threatened in Australia. Recovering these threatened species is an important priority. The project aims to discover ....Recovering Australia’s migratory shorebirds. This project seeks to determine how Australia’s coastal environments can be managed to aid in the recovery of threatened shorebird species. Millions of migratory shorebirds arrive in Australia each year from their Arctic breeding grounds, yet many of these iconic species are in rapid decline, and two were recently nominated as nationally threatened in Australia. Recovering these threatened species is an important priority. The project aims to discover when and where to act to recover declining migratory species. It also plans to assess the strength of protective mechanisms already in place in Australia and overseas to protect migratory species from extinction, and determine how to improve protection for migrants when they arrive on Australia’s shores.Read moreRead less