Governance and economic incentives for reducing the contribution of tropical deforestation to climate change. The project will contribute toward global efforts to reduce global greenhouse gas emissions, thus mitigating the potential economic and environmental impacts of future climate change on Australia. Australia's neighbours will benefit from the project by putting them in a better position to gain financial transfers for foregone benefits of deforestation, and by insights on better systems o ....Governance and economic incentives for reducing the contribution of tropical deforestation to climate change. The project will contribute toward global efforts to reduce global greenhouse gas emissions, thus mitigating the potential economic and environmental impacts of future climate change on Australia. Australia's neighbours will benefit from the project by putting them in a better position to gain financial transfers for foregone benefits of deforestation, and by insights on better systems of governance. The positive effects enjoyed by neighbouring countries are likely to translate into improved relations with Australia. At the level of international negotiations, the research will support Australia's ambitions for a meaningful post-Kyoto climate change agreement.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE130101760
Funder
Australian Research Council
Funding Amount
$374,000.00
Summary
Uncovering the roles of key ribonucleases critical for post-transcriptional control of chloroplast gene expression. Higher plant chloroplasts harbour key biological processes that are essential to life on earth. Deciphering the roles of important plastid-targeted ribonucleases, central to post-transcriptional ribonucleic acid (RNA) processing events, is crucial to elucidate the genetic elements required to engineer chloroplast metabolic pathways to enhance productive crop yields.
Early evolution of the endomesoderm gene regulatory network. This project aims to unravel the endomesoderm gene network’s evolutionary history by identifying its conserved components’ target genes in the calcareous sponge Sycon. Little is known about the evolutionary origin of the developmental gene regulatory networks active in the development of all Eumetazoans (animals with nerves and digestive systems). Sponges are key models to study the transition from protists to eumetazoans, and gene exp ....Early evolution of the endomesoderm gene regulatory network. This project aims to unravel the endomesoderm gene network’s evolutionary history by identifying its conserved components’ target genes in the calcareous sponge Sycon. Little is known about the evolutionary origin of the developmental gene regulatory networks active in the development of all Eumetazoans (animals with nerves and digestive systems). Sponges are key models to study the transition from protists to eumetazoans, and gene expression data supports homology between sponge and eumetazoan tissues and body plans. This project could illuminate the evolutionary history of the animal body plan.Read moreRead less
Regulatory design for water quality management in urban catchments. This project aims, through empirical research (i) to evaluate the effectiveness of current regulatory, quasi-regulatory and other policy strategies for water quality management in urban catchments (including total/integrated catchment management); (ii) to provide practical policy prescriptions concerning how through judicious regulatory and institutional design, those problems may be best addressed for the future; and (iii) adva ....Regulatory design for water quality management in urban catchments. This project aims, through empirical research (i) to evaluate the effectiveness of current regulatory, quasi-regulatory and other policy strategies for water quality management in urban catchments (including total/integrated catchment management); (ii) to provide practical policy prescriptions concerning how through judicious regulatory and institutional design, those problems may be best addressed for the future; and (iii) advance regulatory theory by developing a framework for understanding the relative effectiveness of different regulatory regimes in the context of urban catchment management. Its empirical focus is on the Swan-Canning river in Western Australia.Read moreRead less
RNA-binding proteins rewire transcriptomes in immune cell differentiation. This project aims to combine advanced computational and experimental techniques to investigate a new layer of gene regulation by novel RNA binding proteins (RBP) which control messenger RNA length in immune cells. This project expects to demonstrate that these RBPs have a profound effect on immune cell differentiation and response to infection. Expected outcomes include the discovery of new RBPs regulating immunity, with ....RNA-binding proteins rewire transcriptomes in immune cell differentiation. This project aims to combine advanced computational and experimental techniques to investigate a new layer of gene regulation by novel RNA binding proteins (RBP) which control messenger RNA length in immune cells. This project expects to demonstrate that these RBPs have a profound effect on immune cell differentiation and response to infection. Expected outcomes include the discovery of new RBPs regulating immunity, with mechanism and function determined by novel CRISPR editing of a transgenic mouse model. The significant benefit will be a more complete understanding of RNA mechanisms of immune response, which will be critical in informing future advances in the rapidly developing areas of RNA-based biotechnologies and synthetic immunology.Read moreRead less
Uncovering an evolutionary advanced mechanism of gene expression control. This project aims to uncover a new mechanism that activates gene expression in mammals, which involves unexpected connections between the core components of chromosomes and essential enzymatic machines required for the expression of genes. This project will generate new knowledge on the poorly understood process of how the extensive genomic information of multicellular organisms is selectively chosen to enable the expressi ....Uncovering an evolutionary advanced mechanism of gene expression control. This project aims to uncover a new mechanism that activates gene expression in mammals, which involves unexpected connections between the core components of chromosomes and essential enzymatic machines required for the expression of genes. This project will generate new knowledge on the poorly understood process of how the extensive genomic information of multicellular organisms is selectively chosen to enable the expression of only the required subset of genes. This will revolutionise our understanding of the mechanisms of gene control thereby shaping the field in the future. Significantly, this will allow new ways to manipulate gene expression that will impact biotechnology by providing new efficient ways to produce proteins or RNA. Read moreRead less
The New Collaborative Environmental Governance: Natural Resource Management in Australia. This project will evaluate the new regional natural resource management arrangements that have been established across Australia. The project outcomes will enable policy-makers nationally to identify opportunities for innovative policies and programs which can achieve better results for the environment (reducing environmental degradation), and for the economy (reducing costs to rural industries and to regul ....The New Collaborative Environmental Governance: Natural Resource Management in Australia. This project will evaluate the new regional natural resource management arrangements that have been established across Australia. The project outcomes will enable policy-makers nationally to identify opportunities for innovative policies and programs which can achieve better results for the environment (reducing environmental degradation), and for the economy (reducing costs to rural industries and to regulators) while substantially increasing effective community participation. The project will also provide principles with the potential to reshape environmental strategy and establish Australia as a leader in collaborative environmental governance internationally.Read moreRead less
China's Industrialisation and Demand for Energy and Minerals. Understanding China's medium and long-term growth prospects and the implications for both demand and supply of resources are critically important to Australian economic policy and performance, as well as to investment decisions of Australian resource producers, and professional decisions of Australians in a wide range of occupations. Analysis of the medium and long-term demand for resources from China would be beneficial for Australia ....China's Industrialisation and Demand for Energy and Minerals. Understanding China's medium and long-term growth prospects and the implications for both demand and supply of resources are critically important to Australian economic policy and performance, as well as to investment decisions of Australian resource producers, and professional decisions of Australians in a wide range of occupations. Analysis of the medium and long-term demand for resources from China would be beneficial for Australian resource industries. It is also important to Australian budget, education and infrastructure policy. Increasing Chinese demand for resources will be critical in shaping global environmental policies.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE240100184
Funder
Australian Research Council
Funding Amount
$425,000.00
Summary
Pioneering alpine epigenomics to discover adaptive genetic elements. The genetic code of native plants are yet to be explored for DNA elements that promote resilience to climate change. These elements are now ripe for discovery due to recent advances in epigenomics allowing for rapid identification. This proposal aims to discover heat-associated elements in waxy bluebells, which inhabit Australia’s vulnerable high country. Expected outcomes include new insights on gene regulatory mechanisms in n ....Pioneering alpine epigenomics to discover adaptive genetic elements. The genetic code of native plants are yet to be explored for DNA elements that promote resilience to climate change. These elements are now ripe for discovery due to recent advances in epigenomics allowing for rapid identification. This proposal aims to discover heat-associated elements in waxy bluebells, which inhabit Australia’s vulnerable high country. Expected outcomes include new insights on gene regulatory mechanisms in native plants; the generation of resources for genetic conservation, and catalysing further molecular research into Australian flora. This should provide significant benefits by revealing genome regulation in native plants, thereby improving the ability to predict the impacts of climate change.Read moreRead less
Local Capacity Regulation: Facilitating Participatory Environmental Policy. This project aims to develop a participatory strategy capable of substantially improving the environmental performance of small and medium sized enterprises. Its outcome will be to show how local knowledge and capacity can be mobilized to fulfill regulatory and other environmental goals. Its significance will be (i) to develop principles for, and a broader model of local capacity regulation that is robust, sustainable an ....Local Capacity Regulation: Facilitating Participatory Environmental Policy. This project aims to develop a participatory strategy capable of substantially improving the environmental performance of small and medium sized enterprises. Its outcome will be to show how local knowledge and capacity can be mobilized to fulfill regulatory and other environmental goals. Its significance will be (i) to develop principles for, and a broader model of local capacity regulation that is robust, sustainable and easily reproduced, and capable of being applied to a wide range of other environmental and regulatory contexts and (ii) to develop an institutional framework that can facilitate effective community intervention in other domains of governance.Read moreRead less