203 results
Industry
PROJECT NUMBER • 2015-203
PROJECT STATUS:
COMPLETED

Best practice guidelines for Australian fisheries management agencies

The project was developed in consultation with the Australian Fisheries Management Authority and State/Territory fisheries agencies. The idea of a publicly available set of standards or guidelines for marine fishery management agencies has been under discussion within fisheries agencies for some...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart
Industry
PROJECT NUMBER • 2015-215
PROJECT STATUS:
COMPLETED

Low cost management regimes for sustainable, small low-value fisheries based on coastal inshore species

This study provides a comprehensive, process-based guidance to developing low-cost management regimes for small-scale, low-value fisheries. The approach outlined is strongly “bottom-up” in that it seeks to identify pragmatic options and provide practical advice that specifically...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart

Mareframe - Co-creating Ecosystem-based Fisheries Management Solutions (EU led project)

Project number: 2016-053
Project Status:
Completed
Budget expenditure: $75,000.00
Principal Investigator: Beth Fulton
Organisation: CSIRO Oceans and Atmosphere Hobart
Project start/end date: 31 Dec 2013 - 30 Jan 2019
Contact:
FRDC

Need

There have been many projects around the world that focused on establishing the scientific basis for an EAFM. A great deal of scientific knowledge has resulted, but practical EAFM is still not established in many locations. The integrated management approaches used in Australia are one of the first practical attempts at true EAFM (in fact moving beyond EAFM to broader ecosystem-based management, EBM). While EBM in Australia is evolving following an evidence-based approach it has relied heavily on a theoretical basis, supporting the development of world-leading modelling platforms. The greatest gap in the Australian approach has been a lack of long time series to explore the value of different data streams (both fisheries-based and fisheries-independent). The creation of IMOS is a positive step in this direction, but it will be a long time before it produces a time series of any significant length. Collaboration in the proposed MareFrame project would provide access to data sets stretching 50-100 years or more. Exploration of such extensive data sets, being able to selectively modify the quantity and quality of data, will allow for an investigation of Australian tools and modelling approaches. This will provide for new insights, identify strengths and weaknesses not evident from the shorter Australian time series and supply the means of designing Australian monitoring schemes that are most cost effective under the catch cost risk trade-off. For instance, it will detail the effect of model complexity and inherent level of detail on their performances in different roles (e.g. for tactical and strategic management); and provide a framework for the identification of ecosystem-based reference points that could be applied in Australia for evaluating the current status of marine ecosystems. Australian fisheries science would also benefit from the specialized optimisation routines that will be developed by the European fisheries assessment scientists based on the large data sets at their disposal.

Objectives

1. Update and extend Atlantis to deliver into decision support frameworks (as required by EU extensions)
2. Summarise lessons and tools from Mareframe for use in an Australian context

Final report

ISBN: 978-1-925994-00-1
Author: E.A. Fulton
Final Report • 2019-07-04 • 2.15 MB
2016-053-DLD.pdf

Summary

Between 2014 and 2018, a large European Union project – MareFrame (http://www.mareframe-fp7.org/) – was run with the intent of identifying and reducing impediments to the implementation of ecosystem approach to fisheries management. Australian researchers engaged with this effort, both to share our experience, but also to benefit from the lessons learnt in this far more data rich context. The MareFrame framework was as much process as technology and consists of:

  1. Co-creation process

  2. Ecosystem models

  3. Decision support tools (a dashboard and infographics for exploring and communicating management options)

  4. Educational resources

A significant number of decision support tools were developed over a set of 8 case studies (7 form the EU and one from New Zealand). Learning from those applications there are a number of processes and technologies that would be of direct benefit to ecosystem-based fisheries management if implemented in Australia.
Environment
PROJECT NUMBER • 2004-101
PROJECT STATUS:
COMPLETED

ESD Reporting and Assessment Subprogram: review of the scope, assessment methods and management responses for fisheries ESD and EBFM in Australia

In 1997 the FRDC Board initiated a review of ESD application across jurisdictions (FRDC Project 98/168), and later worked with the Standing Committee on Fisheries and Aquaculture (SCFA) to develop a national approach to ESD in fisheries. Following on from this project, the FRDC Board suggested that...
ORGANISATION:
CSIRO Oceans and Atmosphere Hobart

Applying the fisheries climate adaptation handbook to Australia's state fisheries

Project number: 2021-104
Project Status:
Current
Budget expenditure: $310,300.00
Principal Investigator: Beth Fulton
Organisation: CSIRO Oceans and Atmosphere Hobart
Project start/end date: 11 Jul 2022 - 11 Mar 2023
Contact:
FRDC

Need

Commercial in confidence. To know more about this project please contact FRDC.

Objectives

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