The giant cuttlefish Sepia apama, which annually migrate to northern Spencer Gulf, South Australia, has recently undergone substantial declines in abundance and attracted significant media and public attention. Whilst it is accepted that the Marine Stewardship Council (MSC)-accredited SGPF, which has been operating and reducing its effort for almost 50 years, has not been the cause of the decline, several consecutive years of diminishing numbers and a particularly low population estimate in 2013 requires all efforts to be made to minimise the incidental catch of this species. The SGPF has been pro-active in taking steps to minimise interactions during this species’ annual migration. One such measure is the commitment to investigate the development of a bycatch reduction device (BRD). During its development, it would be prudent to also ensure that the BRD also reduces the bycatch of blue swimmer crabs Portunus armatus, because these require additional handling and, owing to their exoskeletons, physically damage the soft-bodied prawns and cuttlefish.

A recent pilot study (2013/052) identified the parameters within which a successful BRD should exist. This work involved testing two Nordmøre-grids over a few deployments, yet yielded promising results (i.e. both designs reduced the numbers and weights of cuttlefish, crabs and total bycatch, and one of the designs maintained prawn catches). Through rigorous testing of refined versions of these Nordmøre-grids across larger spatial and temporal scales, the proposed study aims to produce an optimal design for potential implementation in the fishery.

Developing basic frameworks for the collection and reporting of fisheries economic data is necessary to
i) provide input into planned future versions of the national fisheries status report and
ii) at the state level, support the MEY-based approaches and associated target reference points that are increasingly being incorporated in fisheries management plans and harvest strategies.