Development of "guidance" for conducting stock assessments in Australia
Australia’s fisheries research agencies all conduct stock assessments of varying complexities to assess the status of key fish stocks. However, the modelling approaches taken, data analyses that underpins the stock assessments and the level of peer review that is undertaken are variable (Dichmont et al. 2018, Haddon et al. 2018). The Status of Australian Fish Stocks (SAFS; Flood et al. 2016) program has aimed to make the reporting of these assessments consistent among jurisdictions. Additionally, in recognition of the data limited nature of many of the species being assessed in SAFS there has also been work undertaken to train jurisdictional stock assessment staff in data limited stock assessment techniques (Haddon et al. 2019). However, while there are a substantial amount of modelling tools available, most jurisdictions have stock assessment scientists that are model users rather than developers. Consequently, there is a need to provide guidance on how to use these appropriately so as to strengthen the quality of the outputs of the models. Developing guidance (defined as help and advice about how to do something or about how to deal with problems) is important and a set of stock assessment guidelines that describes each method currently used in Australia, outlines the method, required biological and fishery data, levels of uncertainty, and pros and cons is an important facet to demonstrating best practice in management of Australia’s fisheries. The guidance will provide transparency in the modelling process and has the potential to remove or moderate controversy regarding modelling outputs and the resulting management implications. This guidance (hereafter guidelines) are not intended to be prescriptive but provide guidance on a suite of methods from full-blown bioeconomic models and integrated assessments (e.g., SS3) through to data-poor approaches such as catchMSY.
Abalone Viral Ganglioneuritis (AVG) R&D Needs Workshop
Abalone Viral Ganglioneuritis (AVG) disease is caused by a herpesvirus (infection with abalone herpesvirus, AbHV) and was first detected in Victoria in December 2005. The last recorded instance of this disease in Victoria was in January 2010 at Cape Otway.
The disease was again confirmed in the Cape Nelson area on 2 May 2021. Since then, further detections have been made at several locations and has been confirmed in Victoria as far east as Cape Otway and as far west as the Discovery Bay Marine Park.
While the virus is active there is a need for the Victorian wild catch abalone fishers to urgently review past research, to inform a gap analysis and further research.
This review will support those involved in the outbreak and inform fellow members nationally with a summary of past research and a way forward with other research for up-to-date biosecurity protocols, surveillance, and diagnostic tools to aid rapid detection to future proof the industry. Relevant industry, government representatives and stakeholders will be kept informed and asked to comment and contribute issues and ideas for a cooperative structured way forward to build a common framework on which to establish a set of key actions and or priorities. At the end of a staged process a workshop will be organised to evaluate and reassess research needs, assess and implement research findings and if further gaps are identified develop a framework to action.
Workshop
The multiple values attained through partially protected areas
In Australia, the definition, and objectives of partially protected areas (PPAs) in the marine environment are inconsistent across jurisdictions. Some examples of PPAs in Australia include spatial or temporal closures to commercial fishing; ‘special-use’ or ‘multi-use’ zones within marine protected areas; and marine zones where recreational fishing is allowed for specific species.
The implementation of such areas is underpinned by a tension to balance the environmental, economic, and social values of multiple users, and multiple objectives of such areas. In turn, resource managers require systematic knowledge of these diverse user values to consider them in decision making and ensure mutually beneficial outcomes wherever possible.
Within Australia, a wide range and combination of such regulations are applied in both Commonweath and State-managed waters, but there is limited understanding of associated effectiveness and implementation of PPAs relative to their stated goals.
Consultation with key stakeholders in Parks Australia, ABARES, DPIPWE (Tasmania), Parks Victoria, and researchers recently working in Fisheries NSW, highlighted the requirement to create an inventory of current PPAs, and where possible, quantify the multiple benefits (environmental, economic, and social) currently attained through PPAs to provide resource managers with evidence-based tools to implement appropriate marine zoning policies.
Recent analyses have suggested there is no benefit to the introduction of specific types of PPAs along the New South Wales coastline (Turnbull et al. 2021) and we will build on the results of this study to quantitatively understand whether these results are representative for all PPAs in Australian and Commonwealth-managed waters.
This project will review definitions of the main objectives for PPAs across Australia and characterise their implementation across Australia. We will then quantify the extent to which specific types of PPAs achieve their stated goals and use the results to develop evidence-based decision support tools, in conjunction with marine resource managers, to facilitate effective implementation of appropriate marine policies.
Industry moving towards a Zero-Waste Fishery: a case study to future proofing South Australia's Marine Scalefish Fishery
Using multiple values to inform the management of Australian marine partially protected areas
Marine Protected Areas (MPAs) are a primary tool for conservation and protection of marine habitats and their associated marine life. However, 69% of MPAs are partially open to some form of fishing activity, either recreational or commercial (Turnbull, et al., 2021). In Australia, which has the second largest MPA network in the world, 75% of the total MPA area is partially protected (Roberts et al., 2020). While these partially protected areas (PPAs) provide economic and social benefits, this comes at the cost of reduced conservation benefits. Hence, the implementation of PPAs as a management tool to safeguard habitat and aquatic resources is underpinned by a tension to balance environmental, economic, and social values of multiple users.
Managing this balance requires that resource managers are cognisant of these diverse user values, and have an appropriate management framework to ensure that decision making results in socially optimal outcomes where possible. Decision making that does not considered these multi-user values can result in undesirable trade-offs, adverse environmental impacts, unnecessary complexity, ineffectiveness of management, inefficiency in resource use, social conflict and increased costs.
From the FRDC R&D priorities, access to aquatic resources, guided by good management, is fundamental for the continued delivery of economic and social benefits such as food, income, employment, recreation and cultural identity for all Australians. Optimising these benefits means sharing resources fairly using open and evidence-based processes within the limits of sustainability. As a first step to developing optimal multi-user management, there is a need to first review, and where possible, quantify the multiple values (environmental, economic, and social) that are attained through the implementation of PPAs.
Roberts, K. E., Hill, O., Cook, C. N. (2020). Evaluating perceptions of marine protection in Australia: Does policy match public expectation? Marine Policy 112: 103766
Turnbull, J. W., Johnston, E. L., Clark, G. F. (2021). Evaluating the social and ecological effectiveness of partially protected marine areas. Conservation Biology 35: 921-932.