Discovery Early Career Researcher Award - Grant ID: DE240100533
Funder
Australian Research Council
Funding Amount
$434,727.00
Summary
Paris-compliance: assessing companies and portfolios. The aim of this research project is to turn the tide on misleading corporate climate pledges and systematise the assessment of companies' climate performance by using a science-based approach. A critical strategic priority urgently called for during recent international climate negotiations, the research conducted will be translated into a global platform where corporate Paris Compliance information will be shared openly and transparently. Th ....Paris-compliance: assessing companies and portfolios. The aim of this research project is to turn the tide on misleading corporate climate pledges and systematise the assessment of companies' climate performance by using a science-based approach. A critical strategic priority urgently called for during recent international climate negotiations, the research conducted will be translated into a global platform where corporate Paris Compliance information will be shared openly and transparently. This will bolster businesses’ climate action by outlining meaningful and effective decarbonisation pathways, allowing all stakeholders to make climate-safe decisions, and guiding policy makers to enforce the required changes for any business to become Paris-compliant. Read moreRead less
Defend or retreat? Adapting to the impacts of sea level rise as a result of rapid climate change.
. Rapid sea level rise has been identified as a major threat to coastal Australia, where most of the Australian population lives. Our understanding and ability to respond to this threat is extremely limited at this point. This project will directly benefit Australian communities and businesses, specifically those in southeast Queensland by bringing together a team of distinguished, multidiscipli ....Defend or retreat? Adapting to the impacts of sea level rise as a result of rapid climate change.
. Rapid sea level rise has been identified as a major threat to coastal Australia, where most of the Australian population lives. Our understanding and ability to respond to this threat is extremely limited at this point. This project will directly benefit Australian communities and businesses, specifically those in southeast Queensland by bringing together a team of distinguished, multidisciplinary researchers and Super Science Fellows to explore the threats and challenges posed by rapidly rising sea levels. By building capacity and answering many urgent and difficult questions related to the legal, environmental and planning ramifications of sea level rise, this project will prepare communities and policymakers for the difficult times ahead.Read moreRead less
Conflicting temporalities of climate governance: a comparative sociology of policy design and operationalization in Australia and the United Kingdom. This project will investigate the ways in which climate policy in Australia and the United Kingdom deals with uncertainty in the timing of climate change and climate change impacts. It will evaluate the utility of various approaches to climate policy and the potential contradictions that arise between climate dynamics and the policy design.
Modelling the potential of large-scale revegetation to reduce the impacts of climate change in semi-arid Australia. This project will contribute to Australia's capacity to respond to climate change and to the ecologically sustainable management of our natural resources. It will provide a comprehensive understanding of the potential of large-scale revegetation to moderate climate change, and to identify limitations to adaptation.
Australian Laureate Fellowships - Grant ID: FL200100133
Funder
Australian Research Council
Funding Amount
$3,358,494.00
Summary
Activating blue carbon for coastal restoration. Coastal blue carbon describes the carbon stored in soils and biomass of coastal wetlands which has an important function in regulating greenhouse gases. They also provide coastal protection, habitat for biodiversity, fisheries and amelioration of land-based pollution. Coastal wetlands have been degraded globally, reducing their capacity to store carbon and to support coastal communities and their economies. This Fellowship aims to assess how restor ....Activating blue carbon for coastal restoration. Coastal blue carbon describes the carbon stored in soils and biomass of coastal wetlands which has an important function in regulating greenhouse gases. They also provide coastal protection, habitat for biodiversity, fisheries and amelioration of land-based pollution. Coastal wetlands have been degraded globally, reducing their capacity to store carbon and to support coastal communities and their economies. This Fellowship aims to assess how restoration of coastal wetlands influences carbon storage and greenhouse gas fluxes, develop new methodologies and to generate new research capacity to inform coastal wetland management globally. The proposed research is expected to enhance coastal sustainability to the benefit of coastal communities.Read moreRead less
Enhanced coral stress tolerance via manipulation of prokaryotic symbionts. The project aims to develop a novel approach to improve environmental stress tolerance in corals. Coral reefs are under threat from a range of stressors that have led to massive declines in coral cover and health worldwide. There is now great concern that the rate of environmental change is outpacing the natural capacity of corals to acclimatise, adapt and survive. Although it is important to address the root causes of cl ....Enhanced coral stress tolerance via manipulation of prokaryotic symbionts. The project aims to develop a novel approach to improve environmental stress tolerance in corals. Coral reefs are under threat from a range of stressors that have led to massive declines in coral cover and health worldwide. There is now great concern that the rate of environmental change is outpacing the natural capacity of corals to acclimatise, adapt and survive. Although it is important to address the root causes of climate change, a focus on strategies to mitigate its impacts is also required. This project explores the potential to augment the capacity of corals to tolerate stress through the manipulation of their associated prokaryotic communities. This project may result in novel coral reef restoration approaches.Read moreRead less
Rhizosphere mediation of soil greenhouse gas fluxes with climate change. Increasingly extreme heat waves, droughts and floods contribute major uncertainties in predicting natural land-based climate change mitigation. This project will quantify current and future greenhouse gas absorption in a managed grassland ecosystem, and the new knowledge will contribute to carbon emissions offsets in climate change accounting schemes. We will conduct this research using a manipulative field experiment, cont ....Rhizosphere mediation of soil greenhouse gas fluxes with climate change. Increasingly extreme heat waves, droughts and floods contribute major uncertainties in predicting natural land-based climate change mitigation. This project will quantify current and future greenhouse gas absorption in a managed grassland ecosystem, and the new knowledge will contribute to carbon emissions offsets in climate change accounting schemes. We will conduct this research using a manipulative field experiment, controlled laboratory incubations, microbial gene analysis and mechanistic modelling to provide new insights into future potential climate change mitigation by soils.Read moreRead less
Prioritising habitat restoration for biodiversity and ecosystem service outcomes. An emerging carbon market will provide funds for habitat restoration over the coming decades, but this will only be realised through careful prioritisation and planning. This research will prioritise investments in habitat restoration in order to cost-effectively achieve biodiversity conservation and ecosystem service protection goals.
Quantifying the flux of fugitive greenhouse gasses associated with coal seam gas and calibrating it to natural baseline and anthropogenic sources. Recent studies show that fugitive methane emissions associated with coal seam gas extraction pose a source of greenhouse gasses. In addition to the possible environmental impacts of methane emissions, quantifying the magnitude of emissions has potentially significant implications for future tax liabilities that could change the economics of the unconv ....Quantifying the flux of fugitive greenhouse gasses associated with coal seam gas and calibrating it to natural baseline and anthropogenic sources. Recent studies show that fugitive methane emissions associated with coal seam gas extraction pose a source of greenhouse gasses. In addition to the possible environmental impacts of methane emissions, quantifying the magnitude of emissions has potentially significant implications for future tax liabilities that could change the economics of the unconventional energy boom in Australia. The proposed research by an interdisciplinary team representing regulators, industry, and university researchers would establish a methodology for quantifying the flux of methane from gas fields. It would establish the range of natural baselines and determine the major sources of methane emissions using newly available highly sensitive instruments.Read moreRead less
Role of nitrogen-rich compounds for increasing carbon sequestration in soil. This project aims to unravel how increasing concentrations of nitrogen-rich compounds in soils can potentially increase our ability to sequester soil organic carbon. This is significant because long-term agricultural production greatly reduces soil organic carbon stocks and releases carbon dioxide as a greenhouse gas. Expected outcomes of this project include providing information that is urgently needed to develop pred ....Role of nitrogen-rich compounds for increasing carbon sequestration in soil. This project aims to unravel how increasing concentrations of nitrogen-rich compounds in soils can potentially increase our ability to sequester soil organic carbon. This is significant because long-term agricultural production greatly reduces soil organic carbon stocks and releases carbon dioxide as a greenhouse gas. Expected outcomes of this project include providing information that is urgently needed to develop predictive carbon models for effective policy-making and improved management. This project should provide substantial benefits, including fulfilling the carbon sequestration potential of Australia’s soils, thereby delivering positive economic outcomes through increased farm-gate output and mitigation of climate change.Read moreRead less