Discovery Early Career Researcher Award - Grant ID: DE220101129
Funder
Australian Research Council
Funding Amount
$438,479.00
Summary
Assessing the risks of extracting metals for the global energy transition. This project aims to produce the first of its kind online atlas that systematically documents the social, environmental and economic impacts in mining locations around the world. Analysing impacts at the source of metal supply chains is crucial to comprehend the implications of transitioning to metal-intensive low-carbon energy technologies. The project would deliver insights on available pathways to achieve a ‘just’ ener ....Assessing the risks of extracting metals for the global energy transition. This project aims to produce the first of its kind online atlas that systematically documents the social, environmental and economic impacts in mining locations around the world. Analysing impacts at the source of metal supply chains is crucial to comprehend the implications of transitioning to metal-intensive low-carbon energy technologies. The project would deliver insights on available pathways to achieve a ‘just’ energy transition, meaning a transition that successfully tackles climate change without placing unacceptable burden on mining communities and environments. The goal of the research is to generate evidence-based recommendations so that future metal supply can be both reliable and responsible.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE220100752
Funder
Australian Research Council
Funding Amount
$453,582.00
Summary
Reducing greenhouse gas emissions from Australian farm dams. There is an untapped potential to reduce greenhouse gas emissions from millions of Australian farm dams. This project aims to quantify the nation-wide carbon footprint of farm dams and develop low-cost strategies for “greener” practices. Contributing to Australia’s commitment to tackle climate change, this project aspires to empower farmers to significantly reduce the carbon footprint of their farm dams. It will also inform on the econ ....Reducing greenhouse gas emissions from Australian farm dams. There is an untapped potential to reduce greenhouse gas emissions from millions of Australian farm dams. This project aims to quantify the nation-wide carbon footprint of farm dams and develop low-cost strategies for “greener” practices. Contributing to Australia’s commitment to tackle climate change, this project aspires to empower farmers to significantly reduce the carbon footprint of their farm dams. It will also inform on the economic viability of alternative management strategies for mitigating farm dam emissions and provide recommendations for financial incentives. This project should enhance the capacity of Australia to meet its carbon reduction targets and mitigate anthropogenic climate change.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE180100854
Funder
Australian Research Council
Funding Amount
$356,761.00
Summary
An evidence-based approach to integrate evolutionary theory in conservation. This project aims to integrate evolutionary theory into conservation science to ensure management promotes the long-term resilience of biodiversity. The management of evolutionary risks and benefits is routinely left out of decision tools that identify optimal management strategies. By developing tools that integrate evolutionary theory into key conservation problems, this project is expected to significantly advance co ....An evidence-based approach to integrate evolutionary theory in conservation. This project aims to integrate evolutionary theory into conservation science to ensure management promotes the long-term resilience of biodiversity. The management of evolutionary risks and benefits is routinely left out of decision tools that identify optimal management strategies. By developing tools that integrate evolutionary theory into key conservation problems, this project is expected to significantly advance conservation science. It should provide managers with essential tools to support the persistence of biodiversity and thus long-term success of biodiversity conservation.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100305
Funder
Australian Research Council
Funding Amount
$434,042.00
Summary
Unravelling the pathways of methane production and oxidation in mangroves. This project addresses a long-standing conundrum of why high methane emissions are sustained in saline coastal wetlands by identifying and quantifying methane production and oxidation processes in mangrove ecosystems. Using a novel combination of cutting-edge instrumentation for greenhouse gases, radiocarbon/stable isotope analysis, this project will generate a first complete picture of the mangrove methane cycle, to accu ....Unravelling the pathways of methane production and oxidation in mangroves. This project addresses a long-standing conundrum of why high methane emissions are sustained in saline coastal wetlands by identifying and quantifying methane production and oxidation processes in mangrove ecosystems. Using a novel combination of cutting-edge instrumentation for greenhouse gases, radiocarbon/stable isotope analysis, this project will generate a first complete picture of the mangrove methane cycle, to accurately quantify, for the first time, Australia’s contribution to global coastal mangrove emissions. The outcomes will establish currently lacking fundamental understanding of wetland methane cycling, advance global biogeochemical models, and improve strategies for natural climate solutions of coastal wetlands in Australia.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100699
Funder
Australian Research Council
Funding Amount
$446,110.00
Summary
Nature-based solutions for the climate change-biodiversity nexus in cities. This project aims to advance knowledge of governance and implementation of nature-based solutions to address the climate change-biodiversity nexus in cities. Nature-based solutions offer multiple synergistic solutions for climate change and biodiversity, yet implementation is challenging due to complex governance and policy. The project will generate new knowledge of governance and policy, using transdisciplinary researc ....Nature-based solutions for the climate change-biodiversity nexus in cities. This project aims to advance knowledge of governance and implementation of nature-based solutions to address the climate change-biodiversity nexus in cities. Nature-based solutions offer multiple synergistic solutions for climate change and biodiversity, yet implementation is challenging due to complex governance and policy. The project will generate new knowledge of governance and policy, using transdisciplinary research. Outcomes include a framework for transformative governance, to support enhanced capacity for urgent, integrated action for the climate-biodiversity nexus. The project will deliver environmental and social benefits to Australia and internationally through new approaches to address these intersecting environmental crises.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210101029
Funder
Australian Research Council
Funding Amount
$462,763.00
Summary
A global exploration of microbial carbon breakdown in wetland ecosystems. This project aims to investigate how plant litter breakdown in wetlands controls soil carbon preservation by identifying the climatic, environmental and microbial drivers of decomposition on a global scale. This project will generate new knowledge in the area of freshwater and coastal wetland ecology using interdisciplinary approaches in biogeochemistry and microbial ecology. Outcomes of this project include novel global d ....A global exploration of microbial carbon breakdown in wetland ecosystems. This project aims to investigate how plant litter breakdown in wetlands controls soil carbon preservation by identifying the climatic, environmental and microbial drivers of decomposition on a global scale. This project will generate new knowledge in the area of freshwater and coastal wetland ecology using interdisciplinary approaches in biogeochemistry and microbial ecology. Outcomes of this project include novel global datasets that will identify why some wetlands preserve carbon better than others and what management practices can enhance sequestration capacity. This should provide significant benefits, including advancing carbon-cycling models and predictions, and improving capacity to manage and restore wetland function.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120101412
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Understanding the biosynthesis of marine UV-absorbing compounds. This project will result in an understanding of the pathways which underpin the ability of marine organisms to avoid stress that occurs due to ongoing climate change. Knowledge gained here will be important for the future protection of coral reefs.
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
Discovery Early Career Researcher Award - Grant ID: DE140100701
Funder
Australian Research Council
Funding Amount
$386,006.00
Summary
Managing the effects of disturbance on coral reef biodiversity: modelling starfish outbreaks in a changing world
. Coral communities of the Great Barrier Reef are facing multiple disturbances, in particular the coral-eating crown-of-thorns starfish Acanthaster planci (A. planci) that can occur as large-scale outbreaks. This project aims to provide innovative guidance in support of the management of A. planci, based on a metapopulation modelling framework broadly applicable to the control of mar ....Managing the effects of disturbance on coral reef biodiversity: modelling starfish outbreaks in a changing world
. Coral communities of the Great Barrier Reef are facing multiple disturbances, in particular the coral-eating crown-of-thorns starfish Acanthaster planci (A. planci) that can occur as large-scale outbreaks. This project aims to provide innovative guidance in support of the management of A. planci, based on a metapopulation modelling framework broadly applicable to the control of marine pests. Expected outcomes include the identification of the environmental triggers of A. planci outbreaks; the identification of target reefs and critical thresholds of management intervention needed to limit the impact of A. planci under different climate and land use scenarios; and future forecasts of coral and fish biodiversity under these scenarios.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE200101319
Funder
Australian Research Council
Funding Amount
$373,857.00
Summary
Building a carbon neutral future for Australian agriculture . The aim of this research is to design an economically sound policy strategy for making the Australian agriculture sector carbon neutral by 2040. This strategy will provide policy makers with a menu of policy packages to improve the sector’s international competitiveness, in the context of growing demands from consumers and international markets for low emission products while meeting the challenges of a changing climate. To assist in ....Building a carbon neutral future for Australian agriculture . The aim of this research is to design an economically sound policy strategy for making the Australian agriculture sector carbon neutral by 2040. This strategy will provide policy makers with a menu of policy packages to improve the sector’s international competitiveness, in the context of growing demands from consumers and international markets for low emission products while meeting the challenges of a changing climate. To assist in developing this strategic knowledge a national-scale quantitative economic model will be developed. Given the absence of a clear national strategy for agricultural GHG emissions and the growing global urgency addressing climate change, this research fills an important gap and comes at an opportune time. Read moreRead less