Evaluating The Economic And Environmental Return On Investment Of Modern Fish Screens
Funder
Fisheries Research and Development Corporation
Funding Amount
$2,318,858.00
Summary
This project is about helping people look after fish and farms.
Most water diversions in Australia are either unscreened or use outdated ‘trash racks’. These are poor performers – providing very little protection against the entrainment of native fish and debris. As a result, millions of native fish are lost from our waterways ever year and farmers needlessly suffer debris in their irrigation systems, which can damage pumps, clog filters and block sprinklers.
Modern fish-prot ....This project is about helping people look after fish and farms.
Most water diversions in Australia are either unscreened or use outdated ‘trash racks’. These are poor performers – providing very little protection against the entrainment of native fish and debris. As a result, millions of native fish are lost from our waterways ever year and farmers needlessly suffer debris in their irrigation systems, which can damage pumps, clog filters and block sprinklers.
Modern fish-protection screens are available for use in Australia. They keep fish and debris where they belong – in the river and out of irrigation infrastructure. They have the potential to provide significant, widespread benefits for both biodiversity and businesses. Early accounts from farmers at over 20 showcase sites across the Murray-Darling Basin show that farmers are already saving time and money through reduced labour and maintenance costs. However, this evidence is largely anecdotal. There is a real need to rigorously document and communicate the environmental and economic benefits of modern screens. Being able to document these benefits will enable screening to move from an international best practice which is poorly applied in Australia, to common-practice in Australia.
The proposed project fills a critical knowledge gap in the evolution of modern fish screening in Australia, by recording and articulating the public and private value proposition of modern screens across a range of farming systems. Doing so will (1) improve farmer awareness and understanding of modern screening technology; (2) inform farmers’ decision-making, to maximise returns on investment; and, (3) guide prioritisation and integration of screening in large-scale conservation and fisheries management policy. Ultimately, this project aims to support adoption of screens where they are most beneficial to deliver benefits for rivers, fish and farms.
Objectives: 1. Evaluate the economic value proposition of modern fish screens. 2. Evaluate the environmental value proposition of modern fish screens. 3. Inform and advance the adoption of modern fish screens in Australia. Read moreRead less
Field Based Trials And Risk Assessment Of New Species To Enhance The Value Of Tropical And Subtropical Impoundment Fisheries
Funder
Fisheries Research and Development Corporation
Funding Amount
$910,505.00
Summary
This project offers a significant opportunity to enhance tropical and sub-tropical impoundment fisheries in Queensland and other parts of northern Australia, by using new iconic species to diversify the fisheries and attract new anglers to stocked waterways. Accessibility to large pelagic gamefish is not easy for many anglers. Creating access to trevally in impoundments will make such species more accessible to anglers, potentially reduce the pressure on the wild fishery, and offer a unique fres ....This project offers a significant opportunity to enhance tropical and sub-tropical impoundment fisheries in Queensland and other parts of northern Australia, by using new iconic species to diversify the fisheries and attract new anglers to stocked waterways. Accessibility to large pelagic gamefish is not easy for many anglers. Creating access to trevally in impoundments will make such species more accessible to anglers, potentially reduce the pressure on the wild fishery, and offer a unique freshwater impoundment fishing experience in a protected setting. Since trevally will not breed in impoundments, their abundance can be readily managed through stocking rates.
Access to trevally in impoundments is something that anglers want. In 2006, Queensland stocking groups voted trevally as one of the top three ranked new species for development of impoundment fisheries. Published papers indicate trevally are relatively easy to produce, with production methods like those for Barramundi. The other two highly ranked species, Jungle Perch and Mangrove Jack have proved more difficult to produce in large numbers compared to trevallies, and more than 20 years of trying to develop impoundment Mangrove Jack fisheries has achieved only limited success.
Giant and Bigeye Trevally are iconic sportfish, which if stocked, have potential to increase regional tourism. Local governments have already recognised the value of angling tourism in their regions. For example, Rockhampton, Mackay and Cairns Regional Councils have all developed recreational fishing strategies to boost tourist visitation. Townsville City Council is also in the process of opening the Ross River Dam to stocking to develop angling opportunities and attract additional tourists. Trevally will offer an opportunity to create sustained angling tourism to value-add to existing fisheries in the post-pandemic period.
The only way to determine if one or both trevally species can translate into successful impoundment fisheries compatible with existing Barramundi fisheries, is to conduct comprehensive stocking trials using fingerlings and sub-adult fish. The two highest risk factors identified for trevally stocking in large near coastal impoundments are their potential to impact on prey abundance (and therefore carrying capacity) and rare and threatened species. Rare and threatened species are unlikely to be in the impounded waters dominated by Barramundi, but they could exist in impoundment tributary streams. Therefore, knowledge on whether trevally will mostly remain in the impounded waters or will tend to run upstream into tributaries is critical.
This project aims to use stocking trials to evaluate potential stocking risk factors for Bigeye and Giant Trevally, such as relative survival, growth, diet, residency, impacts on prey abundance and rare and threatened species, catchability by anglers at conservative stocking rates, and angler attitudes to and perceptions of the fishery. This project will serve as a useful case study for other diversification options in northern Australia and elsewhere. Without these trials it would be impossible to progress euryhaline trevally species as new fisheries for large, near-coastal impoundments in Australia. This project directly meets the QRAC priority of field-based trials and risk assessment of new species to enhance the value of tropical and sub-tropical impoundment fisheries.
Objectives: 1. Formalise a desk top risk assessment for stocking of Bigeye Trevally and Giant Trevally in tropical and sub-tropical impoundments. 2. Produce Bigeye and Giant Trevally fingerlings for stocking trials 3. Assess the capacity for prey species in a Barramundi dominated impoundment to support conservatively stocked numbers of Bigeye Trevally and Giant Trevally 4. Assess the potential for Bigeye Trevally and Giant Trevally to enter impoundment tributary streams where they could impact on rare and threatened species. 5. Assess relative survival, growth and diets of Bigeye Trevally and Giant Trevally in a Barramundi dominated impoundment. 6. Assess angler attitudes to trevally in Barramundi impoundments 7. Assess angler catch of Bigeye and Giant trevally in an impoundment. 8. Extend trevally fingerling production techniques to hatcheries in Queensland and other parts of northern Australia. Read moreRead less
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
A paradigm shift for predictions of freshwater harmful cyanobacteria blooms. This project aims to advance model predictions to generate novel insights into the triggers of freshwater harmful cyanobacteria blooms. Current models are poorly adapted for this purpose because they fail to account for antecedent environmental forcing. The project is expected to create new knowledge of cyanobacteria dynamics from simulating the adaptive responses of individual cyanobacteria cells, colonies or filaments ....A paradigm shift for predictions of freshwater harmful cyanobacteria blooms. This project aims to advance model predictions to generate novel insights into the triggers of freshwater harmful cyanobacteria blooms. Current models are poorly adapted for this purpose because they fail to account for antecedent environmental forcing. The project is expected to create new knowledge of cyanobacteria dynamics from simulating the adaptive responses of individual cyanobacteria cells, colonies or filaments to temperature, light and nutrient history. Three field studies will be used to validate a new individual based model. The outcomes of this project will be valuable for managing freshwater ecosystems that are increasingly subject to blooms in a warming climate, and for testing suitable mitigation and control strategies.Read moreRead less
Traditional Owner-led restoration of urban billabongs. This Indigenous scientist led project aims to investigate the past and present fire, flooding and vegetation dynamics of urban billabongs through paleoenvironmental assays (sediment cores) and field surveys of vegetation, faunal and water quality responses to cultural burns and floods. In partnership with Melbourne Water and Traditional Owners, this innovative project intends to develop and combine historical and contemporary ecological and ....Traditional Owner-led restoration of urban billabongs. This Indigenous scientist led project aims to investigate the past and present fire, flooding and vegetation dynamics of urban billabongs through paleoenvironmental assays (sediment cores) and field surveys of vegetation, faunal and water quality responses to cultural burns and floods. In partnership with Melbourne Water and Traditional Owners, this innovative project intends to develop and combine historical and contemporary ecological and Indigenous peoples’ knowledge and apply it to better manage culturally and ecologically significant billabongs in one of Australia’s largest cities. This project expects to provide a template for effective Traditional Owner-led restoration and management of our threatened urban wetlands.Read moreRead less
Dispersal and recruitment of species across landscapes: a new synthesis. This project aims to ask: does failure to disperse successfully across landscapes limit the abundances and diversity of species in habitat patches? This is a central question in ecology. The project expects to generate new knowledge about the links between dispersal success and population numbers by using recent advances in river ecology that have overcome logistical barriers to hypothesis tests. Expected outcomes include n ....Dispersal and recruitment of species across landscapes: a new synthesis. This project aims to ask: does failure to disperse successfully across landscapes limit the abundances and diversity of species in habitat patches? This is a central question in ecology. The project expects to generate new knowledge about the links between dispersal success and population numbers by using recent advances in river ecology that have overcome logistical barriers to hypothesis tests. Expected outcomes include new insights into why dispersal failures occur and how they are associated with low population numbers. Benefits should include improved advice to conservation managers about extinction risks, and unique, tangible outcomes for fundamental ecological research in Australia that will spring from international collaboration.Read moreRead less
Between a hot place & hypoxia: Quantifying fish-kill risk in inland rivers. Native fish populations in Australian ephemeral rivers are highly valued but are subject to widespread decline. During drought waterholes serve as critical refuges for native fish, however thermal extremes and hypoxia (lack of oxygen) have led to regular fish-kill events. Whilst we know the general conditions that lead to fish-kills, we do not have a clear understanding of why some species are more tolerant than others, ....Between a hot place & hypoxia: Quantifying fish-kill risk in inland rivers. Native fish populations in Australian ephemeral rivers are highly valued but are subject to widespread decline. During drought waterholes serve as critical refuges for native fish, however thermal extremes and hypoxia (lack of oxygen) have led to regular fish-kill events. Whilst we know the general conditions that lead to fish-kills, we do not have a clear understanding of why some species are more tolerant than others, or how we can help decision-makers anticipate fish-kill risks. This project will combine laboratory ecophysiology investigations and novel field monitoring techniques to develop a next-generation fish habitat model for stakeholders to use to assess fish-kill risks and plan for restoration. Read moreRead less
Improving water quality modelling by better understanding solute transport. Poor stream water quality is a critical problem in Australia and globally. Stream water quality depends directly on pathways and time taken for water to transport pollutants through catchments. Predicting these pathways is highly challenging and currently requires specialised data. This project aims to better model the movement of water from rainfall to streams, enable greatly improved use of water quality data routinely ....Improving water quality modelling by better understanding solute transport. Poor stream water quality is a critical problem in Australia and globally. Stream water quality depends directly on pathways and time taken for water to transport pollutants through catchments. Predicting these pathways is highly challenging and currently requires specialised data. This project aims to better model the movement of water from rainfall to streams, enable greatly improved use of water quality data routinely collected in Australia's catchments and thereby better predict water quality behaviour. Proposed field studies aim to support this development. The outcomes sought are improved planning and management of water quality in our rivers, lakes and estuaries, improved health of these water bodies and improved water supplies.Read moreRead less
Mid-Career Industry Fellowships - Grant ID: IM230100222
Funder
Australian Research Council
Funding Amount
$865,628.00
Summary
Large scale urban stormwater reuse: safe, clear and odourless water supply. This project aims to improve the resilience of Australian water supplies by building capacity in urban stormwater reuse. The project expects to address an industry-identified need to determine the suitability of urban lakes and wetlands for stormwater harvesting and develop chemical-sensory monitoring techniques to assess the quality of harvested water. Expected outcomes include the establishment of satellite-based remot ....Large scale urban stormwater reuse: safe, clear and odourless water supply. This project aims to improve the resilience of Australian water supplies by building capacity in urban stormwater reuse. The project expects to address an industry-identified need to determine the suitability of urban lakes and wetlands for stormwater harvesting and develop chemical-sensory monitoring techniques to assess the quality of harvested water. Expected outcomes include the establishment of satellite-based remote sensing as a key technology for stormwater applications and the widespread use of improved techniques for monitoring odorants by the water industry. This should provide significant benefits by informing adaptive planning and infrastructure readiness at water utilities and guiding Australian policy on stormwater reuse.Read moreRead less
Discovery Early Career Researcher Award - Grant ID: DE230100132
Funder
Australian Research Council
Funding Amount
$438,909.00
Summary
Population genetics from environmental DNA to revolutionise conservation. This project aims to revolutionise conservation monitoring by developing environmental DNA tools to rapidly and efficiently extract detailed genetic data on entire populations from a simple environmental sample. This project expects to significantly enhance conservation management by providing critical information on genetic diversity and population health. Expected outcomes include new techniques to collect population gen ....Population genetics from environmental DNA to revolutionise conservation. This project aims to revolutionise conservation monitoring by developing environmental DNA tools to rapidly and efficiently extract detailed genetic data on entire populations from a simple environmental sample. This project expects to significantly enhance conservation management by providing critical information on genetic diversity and population health. Expected outcomes include new techniques to collect population genetic information with increased speed and affordability, enhancing the capacity for both industry and government to address conservation questions. This project is likely to provide significant benefits for aquatic conservation, where traditional monitoring proves problematic for many cryptic, elusive or rare species.Read moreRead less