17 results

Two-Eyed Seeing – a framework for cultural fishery assessments supporting equitable and sustainable access to shared resources in NSW Inland Rivers

Project number: 2021-107
Project Status:
Current
Budget expenditure: $1,460,500.00
Principal Investigator: Katherine J. Cheshire
Organisation: NSW Department Of Primary Industries Port Stephens
Project start/end date: 2 Jul 2023 - 31 Aug 2028
Contact:
FRDC

Need

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.
Environment
PROJECT NUMBER • 2019-101
PROJECT STATUS:
CURRENT

Investigation of the direct and indirect role of submarine groundwater discharge (SGD) on Western Rock Lobster settlement processes: with consideration of the potential role of contaminants

The influence of Submarine Groundwater Discharge (SGD) on coastal ecosystems of the West Coast Bioregion of Western Australia, and particularly its impact on the Western Rock Lobster (WRL) and the West Coast Rock Lobster Managed Fishery (WCRLMF), is poorly understood. This is despite that the...
ORGANISATION:
University of Western Australia (UWA)
Industry
PROJECT NUMBER • 2019-214
PROJECT STATUS:
COMPLETED

Survey for WSSV vectors in the Moreton Bay White Spot Biosecurity Area

The objective of this project was to undertake opportunistic plankton sampling and collect small non-commercial species of decapod crustaceans in northern Moreton Bay and near the intakes of the three prawn farms which remained operating on the Logan River during April and May 2020, at a time when...
ORGANISATION:
DigsFish Services Pty Ltd
Environment
PROJECT NUMBER • 2017-175
PROJECT STATUS:
COMPLETED

Linking ecosystem services to the profitability of prawn fisheries linked to 2017-188

The FRDC Project 2017-175 Linking ecosystem services to the profitability of prawn fisheries delivered new methods, data and indicators to a case study on prawn fisheries in a broader project entitled Lifting farm gate profits: the role of natural capital accounts (RnD4Profit-16-03-003). This FRDC...
ORGANISATION:
CSIRO Land and Water Canberra
Environment
PROJECT NUMBER • 2017-215
PROJECT STATUS:
COMPLETED

Storm Bay Biogeochemical Modelling & Information System Supporting sustainable aquaculture expansion in Tasmania

This project delivers a hindcast and near real time Storm Bay Modelling and Information System that is fit for the purpose of simulating water quality and characterising nutrients in Storm Bay from ocean currents, sediment resuspension, river and anthropogenic (including fish farm) inputs. The...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart
Environment
PROJECT NUMBER • 2015-024
PROJECT STATUS:
CURRENT

Managing ecosystem interactions across differing environments: building flexibility and risk assurance into environmental management strategies

Summary The overarching aim of this research was to provide an improved understanding of the environmental interactions of Atlantic Salmon farming and to provide recommendations to both government and industry on monitoring and management strategies that are appropriate to the level of risk...
ORGANISATION:
University of Tasmania (UTAS)