Methods for establishing cumulative CO2 emission budgets for Australia. Limiting global warming requires curbing cumulative carbon emissions. However, we do not know how the quasi-linear relationship between cumulative carbon dioxide emissions and maximal warming is modulated by other climate-relevant gases (for example, sulphur oxide or Methane) nor have we quantified the relationship in sufficient detail for aligning national and international policy strategies. This project will develop new m ....Methods for establishing cumulative CO2 emission budgets for Australia. Limiting global warming requires curbing cumulative carbon emissions. However, we do not know how the quasi-linear relationship between cumulative carbon dioxide emissions and maximal warming is modulated by other climate-relevant gases (for example, sulphur oxide or Methane) nor have we quantified the relationship in sufficient detail for aligning national and international policy strategies. This project will develop new methods to establish global emission budgets for various climate targets and likelihoods. Options for Australia’s share will be quantified on the basis of effort-sharing proposals. This research is vital for Australian policy makers, the energy sector, and the public in order to plan for coming decades.Read moreRead less
The Norfolk Island Carbon and Health Evaluation Program: a case study of personal carbon trading for reducing obesity and greenhouse gas emissions. This project tests a system of Personal Carbon Trading for reducing greenhouse gas emissions and improving health. Carbon credit cards given to everyone on Norfolk Island are designed to financially reward people for reducing energy use (fuel and fatty food mainly) by increasing walking/cycling and improving nutrition to improve health
Anaerobic methane oxidation in the deep sub-seafloor microbial biosphere. Microbes that control the emission of the greenhouse gas methane from the seafloor to the Earth's atmosphere effectively slow global warming. This project aims to understand the microbial controls for this process to improve an understanding of this planet's natural carbon cycle, and yield valuable information for marine CO2 geosequestration strategies.
Geostationary Observations for Regional Greenhouse Gas Emissions (GORGE). Using satellite measurements it is possible to pinpoint emissions of greenhouse gases. This project (GORGE) will map these emissions throughout Asia and Australia, including the burgeoning emissions from megacities. It will allow real-time monitoring of the effects of climate change policies as well as the effects of climate change on forests and agriculture.
Know & Show Your Carbon Footprint - Discovery Phase
Funder
Fisheries Research and Development Corporation
Funding Amount
$35,000.00
Summary
This project will be an initial discovery phase to inform scoping of overall approach.
Deliverables include: Consultation across fishing and aquaculture stakeholders at least 38 key fishing and aquaculture stakeholders. • Identification of the functional and non-functional requirements to create K&S functionality for the included sectors. • Identification of the data and modelling requirements to create K&S module/functionality for the included sectors. • Assessment ....This project will be an initial discovery phase to inform scoping of overall approach.
Deliverables include: Consultation across fishing and aquaculture stakeholders at least 38 key fishing and aquaculture stakeholders. • Identification of the functional and non-functional requirements to create K&S functionality for the included sectors. • Identification of the data and modelling requirements to create K&S module/functionality for the included sectors. • Assessment of any current solutions/calculators provided relative to the market requirement. • Evaluate current reference and benchmarking data versus what is required to support accurate, automated carbon accounting, and, ultimately inform decision-making that enables productivity whilst reducing carbon emissions. • Understand the gap between knowing your carbon footprint and being able to make informed decisions that lead to reductions in emissions. • Identification of the data and modelling requirements to create a module and/or functionality for the included sectors. • Identification of the missing calculators, features, functionality and underlying data and research required to enable all sectors to participate and benefit from the platform. • Documented solution design for creation of functionality identified during discovery for addition to the core infrastructure. • Report detailing the results of the carbon footprint calculation drivers / needs / existing knowledge, tools & data, gap analysis, and solution design. This will inform the Contributor and AIA in respect of further investment in the K&S solution.
Objectives: 1. Complete discovery phase to inform scoping of 'Know & Show', for consideration Read moreRead less
A landfill cover that generates electricity: a Microbial Fuel Cell application. Landfills account for over two per cent of Australia’s greenhouse emissions, dominating emissions from waste and wastewater. Methane emissions are inherent to landfills because waste cannot be permanently sealed until a landfill cell is full. In this project, a microbial fuel cell (MFC) landfill cover will be developed as a means of achieving full biogas capture, from the time that waste is placed. The MFC cover syst ....A landfill cover that generates electricity: a Microbial Fuel Cell application. Landfills account for over two per cent of Australia’s greenhouse emissions, dominating emissions from waste and wastewater. Methane emissions are inherent to landfills because waste cannot be permanently sealed until a landfill cell is full. In this project, a microbial fuel cell (MFC) landfill cover will be developed as a means of achieving full biogas capture, from the time that waste is placed. The MFC cover system would consist of a relatively thin and deformable granular graphite layer colonised by current generating methane oxidising microorganisms, overlain by a proton exchange membrane and steel mesh as the anode layer. The MFC cover will provide the benefit of power generation as well as more complete greenhouse gas mitigation. Read moreRead less
Are proposed land-based sinks for greenhouse gases resilient to climate change and natural variability? One strategy to reduce the scale of future climate change is to enhance the storage of carbon in vegetation and soils. Evidence suggests carbon stored in vegetation and soils is itself vulnerable to climate change, placing this stored carbon at risk; this project will assess this risk to advise on the reliability of using terrestrial systems as carbon sinks.
Discovery Early Career Researcher Award - Grant ID: DE150101230
Funder
Australian Research Council
Funding Amount
$356,968.00
Summary
Scaling up low emissions innovations into the mainstream. Australia seeks to reduce its greenhouse gas emissions while also creating a strong innovation and knowledge economy. As yet, it is not known how to move low emissions innovations into the mainstream to assist in this transition. At the same time, our economy is connected to leaders in innovation, such as the United States of America (especially California) and to rising powers, such as China, who are scaling up low emissions technologies ....Scaling up low emissions innovations into the mainstream. Australia seeks to reduce its greenhouse gas emissions while also creating a strong innovation and knowledge economy. As yet, it is not known how to move low emissions innovations into the mainstream to assist in this transition. At the same time, our economy is connected to leaders in innovation, such as the United States of America (especially California) and to rising powers, such as China, who are scaling up low emissions technologies extremely quickly. This project aims to develop and test explanatory theories to explain how and why low emissions innovation can be scaled up to provide environmental, economic and social benefits. It uses innovative online and in-person methods, and compares the policy-industry-innovation nexus, from local to global, in Australia, the USA and China.Read moreRead less
Non-destructive process for treatment of fluorinated greenhouse gases. This research pursues the development of an energy-efficient, non-destructive process for transforming fluorine-containing greenhouse gases (GHGs) into valuable and environmentally benign products. The process will benefit Australia, by reducing emission of GHGs and offers a new technology for treatment of the growing stockpiles of synthetic GHGs.
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