Regulating the Climate Finance Revolution. This project aims to identify how financial market regulators might best incentivise financial institutions to shift from high to low carbon investments, thereby mitigating climate change. It expects to generate new knowledge identifying regulatory excellence in previously uncharted territory and to enable best practice policymaking. Its expected outcomes will be to identify the central roles that the design and implementation of regulation can play in ....Regulating the Climate Finance Revolution. This project aims to identify how financial market regulators might best incentivise financial institutions to shift from high to low carbon investments, thereby mitigating climate change. It expects to generate new knowledge identifying regulatory excellence in previously uncharted territory and to enable best practice policymaking. Its expected outcomes will be to identify the central roles that the design and implementation of regulation can play in fast tracking finance for climate action. Its benefits should include advancing climate change mitigation, facilitating the development of Australia as a competitive sustainable finance market and contributing to Australia’s research on achieving a desirable energy future. Read moreRead less
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
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.
Smart materials for atmospheric water management and water harvesting. Fresh water is a scarce resource in many parts of the globe but uncomfortably over-supplied in other regions. Dehumidifying machines, such as air conditioners, are extensively used in humid climates to enhance human comfort, but with great energy costs. Likewise, the production of potable water in remote dry regions is energy intensive. We propose novel hyper-absorbent desiccating polymers combined into sorption-powered engin ....Smart materials for atmospheric water management and water harvesting. Fresh water is a scarce resource in many parts of the globe but uncomfortably over-supplied in other regions. Dehumidifying machines, such as air conditioners, are extensively used in humid climates to enhance human comfort, but with great energy costs. Likewise, the production of potable water in remote dry regions is energy intensive. We propose novel hyper-absorbent desiccating polymers combined into sorption-powered engines inspired by nastic movements in plants to develop extremely efficient dehumidifiers and water harvesting machines. These polymer actuators can help address the auto-acceleration of climate change caused by the increasing use of air conditioners and provide cheap, clean water for remote communities.Read moreRead less
Sea Change: Co-developing Pathways To Mitigate And Adapt To A Changing Climate For Fisheries And Aquaculture In Australia
Funder
Fisheries Research and Development Corporation
Funding Amount
$1,628,586.00
Summary
There is a need to increase effective engagement between fishing and aquaculture stakeholders and climate science and scientists in an ongoing strategic way, and not ‘just’ for single-project outcomes.
Improved engagement will help increase understanding of the likely implications of a changing climate in relevant contexts, and lay foundations for a shared exploration of available options for reducing risk exposure. We have worked with stakeholders and the FRDC Extension Officer Networ ....There is a need to increase effective engagement between fishing and aquaculture stakeholders and climate science and scientists in an ongoing strategic way, and not ‘just’ for single-project outcomes.
Improved engagement will help increase understanding of the likely implications of a changing climate in relevant contexts, and lay foundations for a shared exploration of available options for reducing risk exposure. We have worked with stakeholders and the FRDC Extension Officer Network to design a strategy that will engage fishing and aquaculture stakeholders on existing knowledge regarding risks and opportunities associated with a changing climate, to enable resource managers and researchers to better understand the ways in which many sectors are already adapting autonomously and to identify the barriers to further adaptation, and to co-design solutions that are relevant at local- and industry-levels to help build climate-ready communities and to stimulate economic resilience.
In many cases (but not all), extensive information regarding marine climate change - including key risks to fisheries and aquaculture producers (at a high level) - is already available, along with information on how to develop adaptation plans. However, despite this, progress and uptake within most sectors in terms of planned adaptation responses has been very slow – although many individual operators are already making ‘autonomous’ changes to their day-to-day operations in response to climate change drivers. If these changes are being made without access to best available knowledge, then it is very likely that substantial portions of these responses are maladaptive in the longer term, or may be countervailing to planned government adaptations (see Pecl et al 2019, Ambio, https://link.springer.com/article/10.1007/s13280-019-01186-x). This is a pattern evident within many different industries around Australia and across the rest of the world. ‘What’ needs to happen has thus been outlined in general terms in many cases, but such information is not co-developed or provided in consultation with end-users in ways that resonate or are useful to them. This project will address this need for relevance and usefulness.
The project aims to develop reflexive, ongoing, and two-way knowledge exchange between industry representatives, operators and manager, and the marine climate change impacts and adaptation research sector, so that solutions are co-designed, usable, and adoptable.
Objectives: 1. Work with seafood industry leaders to establish two-way climate conversations that can strengthen and underpin Australian fishing and aquaculture’s resilience to a changing climate. This approach will facilitate co-design of pathways to increase agility and build capacity for climate change adaptation with a select number of fisheries and aquaculture operations. This process will also create a model that can be applicable to other RDC’s. 2. Create a climate conversations platform to facilitate knowledge exchange (including identifying ‘gaps’ and shared issues), and thus capture, disseminate, and showcase:a. How fishing and aquaculture sectors are already adapting and responding to recent changesb. What has facilitated these changes made, and what the barriers are to further adaptationc. The story of fishing and aquaculture’s efforts towards achieving climate resilience - using a dynamic ‘story map’ approach, and other multi-media, communicate progress to target audiences. 3. Identify a) key factors influencing the agility of fisheries and aquaculture to adapt to climate change, and b) which factors (e.g. opportunities) are most important for adaptation capacity-building for different types of operations - building on work underway across multiple domestic and international projects and working groups. 4. Co-develop pathways, with a select number of fisheries and aquaculture operations, to increase their agility and build sector capacity for climate change adaptation and resilience. 5. Support the development of communities of practice for groups of fisheries and/or aquaculture operations that have similar opportunities and pathways – to support increased agility and capacity building for climate change adaptation (determined in objective 3). Read moreRead less
The political ecology of forest carbon: mainland Southeast Asia's new commodity frontier? Spurred by international climate change policies, forest carbon markets are being promoted in mainland Southeast Asia to protect its forests against persisting rates of deforestation. This research examines the implications of this new commodity market for local livelihoods and cross-border forest product trade in Cambodia, Laos and Vietnam.
Demographic consequences of Asian disasters: family dynamics, social capital and migration patterns. This study of the long term demographic consequences of Asian disasters will contribute to development of more effective governmental policies on disaster mitigation, preparedness and reconstruction/recovery, thus assisting to reduce the human and material losses from natural disasters.
Deliberative democracy and climate change: building the foundations of an adaptive system. This project will find mechanisms for improving public debate regarding climate change and the ability to respond to the challenge, as well as the politics surrounding it. It will make recommendations about the approaches needed to transform the issue and at the same time achieve better democratic outcomes.
Towards a climate theory of tropical cyclone formation. In Earth's current climate, about 80 to 90 tropical cyclones form every year around the globe, but the reasons why cyclones form at this rate are unknown. This project will use a combination of theoretical techniques and numerical simulation to elucidate the links between large-scale climate and the rate of tropical cyclone formation. A series of climate model experiments will be performed that also have the potential to improve confidence ....Towards a climate theory of tropical cyclone formation. In Earth's current climate, about 80 to 90 tropical cyclones form every year around the globe, but the reasons why cyclones form at this rate are unknown. This project will use a combination of theoretical techniques and numerical simulation to elucidate the links between large-scale climate and the rate of tropical cyclone formation. A series of climate model experiments will be performed that also have the potential to improve confidence in our predictions of tropical cyclone incidence in a future, changed climate.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE120102787
Funder
Australian Research Council
Funding Amount
$375,000.00
Summary
Building a green economy? The politics of green infrastructure stimulus in the wake of the global financial crisis. A considerable amount of government stimulus spending following the Global Financial Crisis was directed to 'green infrastructure'. This project analyses the successes and failures of several countries' green stimulus packages. Results will inform policy on future public investment in infrastructure that will be needed to address climate change.