Two-Eyed Seeing – A Framework For Cultural Fishery Assessments Supporting Equitable And Sustainable Access To Shared Resources In NSW Inland Rivers
Funder
Fisheries Research and Development Corporation
Funding Amount
$1,460,500.00
Summary
Fish are totemic and a primary food source; and so are part of the deep cultural, spiritual and economic connections Aboriginal communities have to their waterways that are part of ‘Country’. Cultural knowledge tells us that when there’s more water availability cultural fishers experience increased total catches and greater diversity of target species, and they fish more (e.g. increase in recreational and subsistence fishing). These narratives also suggest that as a result of these improved cult ....Fish are totemic and a primary food source; and so are part of the deep cultural, spiritual and economic connections Aboriginal communities have to their waterways that are part of ‘Country’. Cultural knowledge tells us that when there’s more water availability cultural fishers experience increased total catches and greater diversity of target species, and they fish more (e.g. increase in recreational and subsistence fishing). These narratives also suggest that as a result of these improved cultural fishing opportunities, there are flow on socio-economic benefits to household budgets, diets of communities, social behaviours and mental health and well-being.
Water is sacred and living; and central to the cultural, social and spiritual identity of Aboriginal people, as well as to their livelihoods. Conceptual models underpinning western water management frameworks and decision making do not incorporate Aboriginal/First Nations socio-cultural complexity, local knowledge and governance arrangements. These are critical – Aboriginal/First Nations people have strong connections with fish, water, rivers and knowledge to contribute to planning, as well as a fundamental right to participate. Water and fish are central to the way of life, two-way knowledge and planning frameworks will support reciprocity in engagement and participation.
Two-Eyed Seeing Frameworks (Ganma, Yolgnu for two-ways) provide a way forward for cultural fishery assessments supporting equitable and sustainable access to shared resources. In this framework, knowledge systems (western and cultural) contribute in parallel, on an equal footing, and both serve as evidence bases to produce an enriched picture of mutual understanding. Application of this framework can empower Aboriginal communities to participate more equitably and negotiate by using their science and values and providing a method for inclusion.
The overall objective of this proposed project is to empower Aboriginal communities through application of a “Two-Eyed seeing framework” (Reid et al. 2020) to participate more equitably and negotiate for cultural fishing practices and water allocation and management. This project will define the cultural fishery and quantify the socio-economic value of cultural fishing in two NSW river regions, and assist communities to identify water management needs for key cultural fish species to support ongoing planning and negotiations. It will improve our current fishery and water management by providing a pathway for cultural fisheries and cultural science to be included. Overall, it will increase our current knowledge of fish and fisheries, by bridging the gap between cultural science and western science practitioners and knowledge holders to share understandings, insights and skills. The application and extension of this framework to a national project will be considered for future use in addressing cultural fishery allocations and management.
Objectives: 1. Identify suitable NSW riverine cultural fisheries, engage with Aboriginal Communities, Traditional Owners, codesign the project and confirm move to phase 2. 2. Define and quanitfy the cultural fishery and associated totemic, cultura and social values 3. Identify and describe fish objectives and water management needs for cultural fish species using the Fish and Flows Framework. 4. Determine if changes in (2) are related to changes in water availability, policy and operations and/or river restoration activities (e.g. fish passage restoration, cold water passage, screening), if possible. 5. Objectively assess the efficacy and utility of the “Two-Eyed Seeing framework” in assessing the totemic, culutal and social fishing values and linking them to the fish and flows framework, including consideration of National applicability. Read moreRead less
The role of phospholipids in the biogenesis of lipid droplets. The general aim is to elucidate the fundamental molecular mechanisms that govern the biogenesis/formation of the lipid droplets. Lipid droplets store sterol esters and/or triacylglycerols, two major storage lipids that play key roles in cellular and whole body lipid metabolism. Lipid droplets are also the core components of plant oil and biodiesel. Little is known about how lipid droplets are generated. The proposed work will examine ....The role of phospholipids in the biogenesis of lipid droplets. The general aim is to elucidate the fundamental molecular mechanisms that govern the biogenesis/formation of the lipid droplets. Lipid droplets store sterol esters and/or triacylglycerols, two major storage lipids that play key roles in cellular and whole body lipid metabolism. Lipid droplets are also the core components of plant oil and biodiesel. Little is known about how lipid droplets are generated. The proposed work will examine the synthesis of certain lipid intermediates such as phosphatidic acid, and their impact on the biogenesis of lipid droplets from the endoplasmic reticulum. Such fundamental new knowledge on how cells store neutral lipids will provide new strategies for enhancing plant oil and biodiesel production. Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE210100303
Funder
Australian Research Council
Funding Amount
$441,200.00
Summary
Inheritance and the Emergence of Individuals: From concepts to practice . This project aims to solve a fundamental problem in biology, namely, how entities at one level biological organisation (e.g. single cells) transition or evolve into entities at a higher level (e.g. multicellular organisms). Although several attempts to solve this problem have been made, they are unsatisfactory because they neglect the role of inheritance during the transitions. The project will employ philosophical analysi ....Inheritance and the Emergence of Individuals: From concepts to practice . This project aims to solve a fundamental problem in biology, namely, how entities at one level biological organisation (e.g. single cells) transition or evolve into entities at a higher level (e.g. multicellular organisms). Although several attempts to solve this problem have been made, they are unsatisfactory because they neglect the role of inheritance during the transitions. The project will employ philosophical analysis, formal models, and ultimately experiments with bacteria to understand the role of inheritance during these evolutionary transitions. In doing so, the project will demonstrate that conceptual research by philosophers of biology can make an impactful contribution in biology and answer fundamental questions in this field.Read moreRead less
Designer solvents to control reaction outcome. This project aims to control outcomes of chemical reactions using specifically designed ionic liquids as solvents. Ionic liquids are distinct from molecular solvents and are underused due to the limited understanding of their effects on chemical processes. We are developing a predictive framework to explain such effects and this project aims to exploit this new knowledge, using both new and rarely applied ionic liquids to control reaction outcomes. ....Designer solvents to control reaction outcome. This project aims to control outcomes of chemical reactions using specifically designed ionic liquids as solvents. Ionic liquids are distinct from molecular solvents and are underused due to the limited understanding of their effects on chemical processes. We are developing a predictive framework to explain such effects and this project aims to exploit this new knowledge, using both new and rarely applied ionic liquids to control reaction outcomes. The significance lies in the ability to optimise reaction outcomes without the need for solvent screening. The innovation lies in the measurement of microscopic interactions between solvent and reagents, and the use of these interactions to affect a given process.Read moreRead less
Australian Laureate Fellowships - Grant ID: FL200100049
Funder
Australian Research Council
Funding Amount
$2,906,992.00
Summary
Nanofluidic Membranes for Sustainable Energy Future. This project aims to create a novel class of advanced membranes by making fundamental breakthroughs in nanofluidics, and harnessing this for developing new renewable energy and low-energy separation technologies. This project addresses the key challenges in understanding selective mass transport at the angstrom scale, thereby allowing the development of innovative materials design strategies to realise the ultrafast molecular and ionic permeat ....Nanofluidic Membranes for Sustainable Energy Future. This project aims to create a novel class of advanced membranes by making fundamental breakthroughs in nanofluidics, and harnessing this for developing new renewable energy and low-energy separation technologies. This project addresses the key challenges in understanding selective mass transport at the angstrom scale, thereby allowing the development of innovative materials design strategies to realise the ultrafast molecular and ionic permeation, and the ultrahigh selectivities observed in biological cell membranes. This new cross-disciplinary research will benefit Australia by the development of new materials for accelerating renewable hydrogen and biofuel futures, and enabling sustainable production of energy materials.Read moreRead less
How beetles harness near-infrared properties to enhance energy efficiency. This project aims to discover how animals use nanophotonic structures to manipulate near infra-red light for thermal control and visual information. Almost nothing is currently known about the mechanism, function and evolution of near-infrared properties in animals, despite their potential importance for maintaining body temperatures within the critical thermal limits for survival. The project uses multidisciplinary techn ....How beetles harness near-infrared properties to enhance energy efficiency. This project aims to discover how animals use nanophotonic structures to manipulate near infra-red light for thermal control and visual information. Almost nothing is currently known about the mechanism, function and evolution of near-infrared properties in animals, despite their potential importance for maintaining body temperatures within the critical thermal limits for survival. The project uses multidisciplinary techniques from optical physics, physiology and evolutionary biology to reveal near-infrared adaptations in socially and economically important Christmas beetles. The intended outcomes include a bio-informed blueprint for a new class of functional nanomaterials that enhance energy efficiency.Read moreRead less
Keeping Kinship in Mind. This project aims to contribute to a better understanding of the study of kinship by drawing on recent research from the philosophy of mind and the philosophy of science. It will incorporate this understanding into a more general international, collaborative network in the philosophy of anthropology. Kinship has been central to anthropology as a discipline, with disagreement over the relationships between biological and cultural dimensions to kinship structuring much o ....Keeping Kinship in Mind. This project aims to contribute to a better understanding of the study of kinship by drawing on recent research from the philosophy of mind and the philosophy of science. It will incorporate this understanding into a more general international, collaborative network in the philosophy of anthropology. Kinship has been central to anthropology as a discipline, with disagreement over the relationships between biological and cultural dimensions to kinship structuring much of that history. Keeping Kinship in Mind will extend into the philosophy of the social sciences the productive interactions between philosophers and scientists that are an internationally recognized research strength of Australian philosophy of science. Read moreRead less
Illuminating genomic dark matter to develop new interventions for parasites. This project aims to unravel the molecular basis of parasitism using leading-edge post-genomics approaches. This research expects to explore genomic ‘dark matter’ in the genome to discover how parasites survive and cause disease. The resultant shift in the understanding of molecular mechanisms and processes governing parasitism will lead to new ways of disrupting the intricate parasite-host relationship, which will tran ....Illuminating genomic dark matter to develop new interventions for parasites. This project aims to unravel the molecular basis of parasitism using leading-edge post-genomics approaches. This research expects to explore genomic ‘dark matter’ in the genome to discover how parasites survive and cause disease. The resultant shift in the understanding of molecular mechanisms and processes governing parasitism will lead to new ways of disrupting the intricate parasite-host relationship, which will translate into innovative technologies or products to ameliorate the burden of parasites in livestock animals. Expected socioeconomic benefits include lifting Australia’s scientific knowledge base, reputation in biology and biotechnology, livestock production and investment in translational research.Read moreRead less
Discovering nature's photonic devices to control light and heat. This project aims to discover how and why beetles and butterflies reflect near-infrared light. Reflection of near-infrared radiation may be critical to prevent overheating, yet its role in thermal protection remains largely unexplored. The project will integrate evolutionary biology, optical physics and biophysics to reveal the diversity, mechanism, function and evolution of near-infrared signatures. Expected outcomes include the d ....Discovering nature's photonic devices to control light and heat. This project aims to discover how and why beetles and butterflies reflect near-infrared light. Reflection of near-infrared radiation may be critical to prevent overheating, yet its role in thermal protection remains largely unexplored. The project will integrate evolutionary biology, optical physics and biophysics to reveal the diversity, mechanism, function and evolution of near-infrared signatures. Expected outcomes include the discovery of nature’s solutions to selection for both optical (camouflage, communication) and thermal functions. The project will have significant benefits such as creating opportunities to develop biomimetic and bioinspired materials to enhance energy efficiency, which will have significant economic and environmental benefits.Read moreRead less