Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
Shopping Cart: ( empty )
You are here: Home > Journals > MF > MF12091
REVIEW
Contents Vol 63(11)

Recovery of inner Shark Bay snapper (Pagrus auratus) stocks: relevant research and adaptive recreational fisheries management in a World Heritage Property

Gary Jackson A B and Michael Moran A
+ Author Affiliations
- Author Affiliations

A Western Australian Fisheries and Marine Research Laboratories, Department of Fisheries, Government of Western Australia, PO Box 20, North Beach, WA 6920, Australia.

B Corresponding author. Email: Gary.Jackson@fish.wa.gov.au

Marine and Freshwater Research 63(11) 1180-1190 https://doi.org/10.1071/MF12091
Submitted: 2 April 2012  Accepted: 3 October 2012   Published: 26 November 2012

Abstract

Despite the increasing importance of marine recreational fishing, recreational fisheries management is often hampered by lack of adequate data and limited effectiveness of conventional regulations. In Shark Bay, Western Australia, snapper (Pagrus auratus) in the Eastern Gulf, Denham Sound and Freycinet Estuary have been a major attraction for recreational fishers since the 1960s. Various management measures were progressively introduced from 1998 onwards to limit snapper catches, including increases in minimum length, introduction of a maximum length, reductions in daily bag limit, a moratorium in the Eastern Gulf (June 1998–March 2003), a 6-week spawning closure in the Freycinet Estuary and, finally, the introduction of a Total-Allowable-Catch-based system in 2003. Stock assessments in 2011 indicated that spawning biomass in the Eastern Gulf and Denham Sound had rebuilt to the management target level while biomass in the Freycinet Estuary remained below the threshold level but was continuing to slowly rebuild. This paper summarising the research and adaptive management of the snapper fishery over the last 15+ years represents an important case study that addresses a range of issues typically associated with marine recreational fisheries, including assessment of stock size and recreational catch, evaluation of management regulations and active engagement with the recreational fishing community.

Additional keywords : daily egg production method, quota tags, recreational fishing surveys, Sparidae, stewardship.


References

Aas, O. (Ed.) (2008). ‘Global Challenges in Recreational Fisheries.’ (Blackwell: Oxford, UK.)

ABARES (2012). Pink snapper. In ‘Status of Key Australian Fish Stocks’. (Ed. M. Flood.) (Australian Bureau of Agricultural and Resource Economics and Sciences: Canberra.)

Bastow, T. P., Jackson, G., and Edmonds, J. S. (2002). Elevated salinity and isotopic composition of fish otolith carbonate: stock delineation of snapper, Pagrus auratus, in Shark Bay, Western Australia. Marine Biology 141, 801–806.
Elevated salinity and isotopic composition of fish otolith carbonate: stock delineation of snapper, Pagrus auratus, in Shark Bay, Western Australia.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD38XoslOqsbs%3D&md5=3fe3fb26c01b81e3979de8f874ce7f6cCAS |

Baudains, G. (1999). Population genetic structure of pink snapper (Pagrus auratus) in the Eastern Gulf of Shark Bay, Western Australia. Report to Natural Heritage Trust (Canberra). Department of Fisheries, Perth.

Bowen, B. K. (1961). The Shark Bay fishery on snapper (Chrysophrys unicolor). Report 1. Western Australian Fisheries Department, Perth.

Christensen, J., and Jackson, G. (2012). Shark Bay snapper: science, policy, and the decline and recovery of a marine recreational fishery. In ‘Historical Perspectives on Fisheries Exploitation in the Indo-Pacific’. (Eds. J. Christensen and M. Tull.) (Springer Verlag: Dordrecht, The Netherlands.)

Coleman, F. C., Figueira, W. F., Ueland, J. S., and Crowder, L. B. (2004). The impact of United States recreational fisheries on marine fish populations. Science 305, 1958–1960.
The impact of United States recreational fisheries on marine fish populations.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD2cXnslSmu7c%3D&md5=fd230a0e93845eb2cd9a233b53a834e7CAS |

Coleman, F. C., Figueira, W. F., Ueland, J. S., and Crowder, L. B. (2005). Letters, in response to ‘The recreational fisher’s perspective’. Science 307, 1560–1562.

Cooke, S. J., and Cowx, I. G. (2004). The role of recreational fishing in global fish crises. Bioscience 54, 857–859.
The role of recreational fishing in global fish crises.Crossref | GoogleScholarGoogle Scholar |

Cooke, S. J., and Cowx, I. G. (2006). Contrasting recreational and commercial fishing: searching for common issues to promote unified conservation of fisheries resources and aquatic environments. Biological Conservation 128, 93–108.
Contrasting recreational and commercial fishing: searching for common issues to promote unified conservation of fisheries resources and aquatic environments.Crossref | GoogleScholarGoogle Scholar |

Cooper, R. (1997). ‘Shark Bay Legends.’ (L.J. Cogan: Geraldton.)

Cowx, I. D. (Ed.) (1998). ‘Stocking and Introduction of Fish.’ (Blackwell: Oxford, UK.)

Cox, S. P., Beard, T. D., and Walters, C. (2002). Harvest control in open-access sport fisheries: hot rod or asleep at the reel? Bulletin of Marine Science 70, 749–761.

Department of Fisheries (1991). The future of recreational fishing: final report of the Recreational Fishing Advisory Committee Western Australia. Fisheries Management Paper No. 41. Fisheries Department of Western Australia, Perth.

Ditton, R. B. (2008). An international perspective on recreational fishing. In ‘Global Challenges in Recreational Fisheries’. (Ed. O. Aas.) pp. 5–55. (Blackwell: Oxford, UK.)

Edmonds, J. S., Moran, M. J., Caputi, N., and Morita, M. (1989). Trace element analysis of fish sagittae as an aid to stock identification: snapper (Chrysophrys auratus) in Western Australian waters. Canadian Journal of Fisheries and Aquatic Sciences 46, 50–54.
Trace element analysis of fish sagittae as an aid to stock identification: snapper (Chrysophrys auratus) in Western Australian waters.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaL1MXhsFWmtrk%3D&md5=4e6ec351a5e08382afea21c9afc063f9CAS |

Edmonds, J. S., Steckis, R. A., Moran, M. J., Caputi, N., and Morita, M. (1999). Stock delineation of snapper and tailor from Western Australia by analysis of stable isotope and strontium/calcium ratios in otolith carbonate. Journal of Fish Biology 55, 243–259.
Stock delineation of snapper and tailor from Western Australia by analysis of stable isotope and strontium/calcium ratios in otolith carbonate.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DyaK1MXksFams7c%3D&md5=1fdb86c57dee98e468d9c090dcfdecadCAS |

Edwards, H. (2000). ‘Shark Bay Through Four Centuries: 1616 to 2000.’ (Shire of Shark Bay: Denham.)

Francis, M. P. (1993). Does water temperature determine year class strength in New Zealand snapper (Pagrus auratus, Sparidae)? Fisheries Oceanography 2, 65–72.
Does water temperature determine year class strength in New Zealand snapper (Pagrus auratus, Sparidae)?Crossref | GoogleScholarGoogle Scholar |

Gallaway, B. J., and Cole, J. G. (1999). Reduction of juvenile red-snapper bycatch in the U.S. Gulf of Mexico shrimp trawl fishery. North American Journal of Fisheries Management 19, 342–355.
Reduction of juvenile red-snapper bycatch in the U.S. Gulf of Mexico shrimp trawl fishery.Crossref | GoogleScholarGoogle Scholar |

Gaughan, D., Moran, M., Ranaldi, M., and Watling, J. (2003). Identifying nursery areas used by inner bay and oceanic pink snapper (Pagrus auratus) stocks in the Shark Bay region, in relation to the effect of prawn trawling on inner bay snapper stocks. Final Report to Fisheries Research & Development Corporation, Project 2002/061. Fisheries Research & Development Corporation, Canberra.

Granek, E. F., Madin, E. M. P., Brown, M. A., Figueira, W., Cameron, D. S., Hogan, Z., Kristianson, G., De Villiers, P., Williams, J. E., Post, J., Zahn, S., and Arlinghaus, R. (2008). Engaging recreational fishers in management and conservation: global case studies. Conservation Biology 22, 1125–1134.
Engaging recreational fishers in management and conservation: global case studies.Crossref | GoogleScholarGoogle Scholar | 1:STN:280:DC%2BD1cnosleksA%3D%3D&md5=88ff517fee77a931556d2bdeaabf5d9fCAS |

Harris, D., Johnston, D., Sporer, E., Kangas, M., and Caputi, N. (2012). Management and biology of a multi-sector blue swimmer crab fishery in a subtropical embayment – Shark Bay, Western Australia. Marine and Freshwater Research 63, 1165–1179.
Management and biology of a multi-sector blue swimmer crab fishery in a subtropical embayment – Shark Bay, Western Australia.Crossref | GoogleScholarGoogle Scholar |

Ihde, T. F., Wilberg, M. J., Loewensteiner, D. A., Secor, D. H., and Miller, T. J. (2011). The increasing importance of marine recreational fishing in the US: challenges for management. Fisheries Research 108, 268–276.
The increasing importance of marine recreational fishing in the US: challenges for management.Crossref | GoogleScholarGoogle Scholar |

Jackson, G. (2007). Fisheries biology and management of pink snapper, Pagrus auratus, in the inner gulfs of Shark Bay, Western Australia. Ph.D. Thesis, Murdoch University, Perth.

Jackson, G., and Cheng, Y. W. (2001). Parameter estimation with egg production surveys to estimate snapper, Pagrus auratus, biomass in Shark Bay, Western Australia. Journal of Agricultural Biological & Environmental Statistics 6, 243–257.
Parameter estimation with egg production surveys to estimate snapper, Pagrus auratus, biomass in Shark Bay, Western Australia.Crossref | GoogleScholarGoogle Scholar |

Jackson, G., Lenanton, R., Sumner, N., and Cribb, A. (2003). Research and management of snapper, Pagrus auratus, stocks in the inner gulfs of Shark Bay, Western Australia. In ‘Proceedings of the Third World Recreational Fishing Conference’. (Ed. A. P. M. Coleman.) pp. 143–145. (Northern Territory Department of Business, Industry and Research and Development: Darwin.)

Jackson, G., Sumner, N., Cribb, A., and Norriss, J. (2005). Comparing conventional social-based and alternative output-based management models for recreational fisheries using Shark Bay pink snapper as case study. Final Report to Fisheries Research & Development Corporation, Project 2003/066. Fisheries Research & Development Corporation, Canberra.

Jackson, G., Burton, C., Moran, M., and Radford, B. (2007). Distribution and abundance of juvenile pink snapper, Pagrus auratus, in the gulfs of Shark Bay, Western Australia, from trap surveys. Fisheries Research Report No. 161. Department of Fisheries, Western Australia, Perth.

Jackson, G., Norriss, J. V., Mackie, M. C., and Hall, N. G. (2010). Spatial variation in life history characteristics of snapper (Pagrus auratus) within Shark Bay, Western Australia. New Zealand Journal of Marine and Freshwater Research 44, 1–15.
Spatial variation in life history characteristics of snapper (Pagrus auratus) within Shark Bay, Western Australia.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BC3cXltF2qu7k%3D&md5=483bd94e17ef73bac1679f4e7d690c39CAS |

Jackson, G., Cheng, Y. W., and Wakefield, C. B. (2012). An evaluation of the daily egg production method to estimate spawning biomass of snapper (Pagrus auratus) stocks in inner Shark Bay, Western Australia, following more than a decade of surveys 1997–2007. Fisheries Research 117–118, 22–34.
An evaluation of the daily egg production method to estimate spawning biomass of snapper (Pagrus auratus) stocks in inner Shark Bay, Western Australia, following more than a decade of surveys 1997–2007.Crossref | GoogleScholarGoogle Scholar |

Johnson, M. S., Creagh, S., and Moran, M. (1986). Genetic subdivision of stocks of pink snapper, Chrysophrys unicolor, in Shark Bay, Western Australia. Australian Journal of Marine and Freshwater Research 37, 337–345.
Genetic subdivision of stocks of pink snapper, Chrysophrys unicolor, in Shark Bay, Western Australia.Crossref | GoogleScholarGoogle Scholar |

Johnston, R. J., Holland, D. S., Maharaj, V., and Campson, T. W. (2009). Fish harvest tags: an attenuated rights-based management approach for recreational fisheries in the Gulf of Mexico. In ‘Evolving Approaches to Managing Marine Recreational Fisheries’. (Eds. D. R. Leal and V. Maharaj.). pp. 171–200. (Lexington Books: Lanham, MD.)

Kailola, P. J., Williams, M. J., Stewart, P. C., Reichelt, R. E., McNeee, A., and Grieve, C. (1993). ‘Australian Fisheries Resources.’ (Bureau of Resource Sciences: Canberra.)

Kendrick, G. A., Fourquean, J., Fraser, M., Heithaus, M., Jackson, G., Friedman, K., and Hallac, D. (2012). Science behind management of Shark Bay and Florida Bay, two P-limited subtropical systems with different climate and human pressures. Marine and Freshwater Research 63, 941–951.
Science behind management of Shark Bay and Florida Bay, two P-limited subtropical systems with different climate and human pressures.Crossref | GoogleScholarGoogle Scholar |

Lasker, R. (1985). Introduction: an egg production method for anchovy biomass assessment. In ‘An Egg Production Method for Estimating Spawning Biomass of Pelagic Fish: Application to the Northern Anchovy, Engraulis mordax’. (Ed. R. Lasker.) NOAA Technical Report NMFS no. 36. pp. 1–3. National Oceanic and Atmospheric Administration, Washington, DC.

Lewin, W., Arlinghaus, R., and Mehner, T. (2006). Documented and potential biological impacts of recreational fishing: insights for management and conservation. Reviews in Fisheries Science 14, 305–367.
Documented and potential biological impacts of recreational fishing: insights for management and conservation.Crossref | GoogleScholarGoogle Scholar |

Logan, B. W., and Cebulski, D. E. (1970). Sedimentary environments of Shark Bay, Western Australia. Memoir – American Association of Petroleum Geologists 13, 1–37.

Love, M. S., Casselles, J. E., and van Buskirk, W. (1998). A severe decline in the commercial passenger vessel rockfish (Sebastes spp.) catch in the Southern Californian Bight 1980–1996. California Cooperative Oceanic Fisheries Investigations Reports 39, 180–195.

Marriott, R., Jackson, G., Lenanton, R., Telfer, C., Lai, E., Stephenson, P., Bruce, C., Adams, D., Norriss, J., and Hall, N. (2012). Biology and stock status of demersal scalefish indicator species in the Gascoyne Coast Bioregion. Fisheries Research Report No. 228, Department of Fisheries, Perth.

Marshall, D. G., and Moore, S. A. (2000). Tragedy of the commons and the neglect of science: planning and management in the Shark Bay World Heritage Area. Environmental and Planning Law Journal 17, 126–137.

McEachron, L. W., McCarty, C. E., and Vega, R. R. (1995). Beneficial uses of marine fish hatcheries: enhancement of red drum in Texas coastal waters. American Fisheries Society Symposium 15, 161–166.

McGlennon, D. (2003). The fisheries biology and population dynamics of snapper Pagrus auratus in northern Spencer Gulf, South Australia. Ph.D. Thesis, University of Adelaide, Adelaide.

McPhee, D. P., Leadbitter, D., and Skilleter, G. A. (2002). Swallowing the bait: is recreational fishing in Australia ecologically sustainable? Pacific Conservation Biology 8, 40–51.

Ministry for Primary Industries (2012). Snapper. In ‘Report from the Fisheries Assessment Plenary, May 2012: Stock Assessments and Yield Estimates’. Fisheries Science Group. pp. 961–1010. Ministry for Primary Industries, Wellington.

Mitchell, R. W. D., Baba, O., Jackson, G., and Isshiki, T. (2008). Comparing management of recreational Pagrus fisheries in Shark Bay (Australia) and Sagami Bay (Japan): conventional catch controls versus stock enhancement. Marine Policy 32, 27–37.
Comparing management of recreational Pagrus fisheries in Shark Bay (Australia) and Sagami Bay (Japan): conventional catch controls versus stock enhancement.Crossref | GoogleScholarGoogle Scholar |

Moran, M., and Jenke, J. (1989). Effects of fish trapping on the Shark Bay snapper fishery. Fisheries Research Report No. 82. Department of Fisheries, Perth.

Moran, M. J., and Kangas, M. (2003). The effects of the trawl fishery on the stock of pink snapper, Pagrus auratus, in Denham Sound, Shark Bay. Fisheries Research Bulletin No. 31. Department of Fisheries, Perth.

Moran, M., Burton, C., and Caputi, N. (1999). Sexual and local variation in head morphology of snapper Pagrus auratus Sparidae, in the Shark Bay region of Western Australia. Marine and Freshwater Research 50, 27–34.
Sexual and local variation in head morphology of snapper Pagrus auratus Sparidae, in the Shark Bay region of Western Australia.Crossref | GoogleScholarGoogle Scholar |

Moran, M., Burton, C., and Jenke, J. (2003). Long-term movement patterns of continental shelf and inner gulf snapper (Pagrus auratus, Sparidae) from tagging in the Shark Bay region of Western Australia. Marine and Freshwater Research 54, 913–922.
Long-term movement patterns of continental shelf and inner gulf snapper (Pagrus auratus, Sparidae) from tagging in the Shark Bay region of Western Australia.Crossref | GoogleScholarGoogle Scholar |

Nahas, E. L., Jackson, G., Pattiaratchi, C. B., and Ivey, G. N. (2003). Hydrodynamic modelling of snapper (Pagrus auratus) egg and larval dispersal in Shark Bay, Western Australia: reproductive isolation at a fine spatial scale. Marine Ecology Progress Series 265, 213–226.
Hydrodynamic modelling of snapper (Pagrus auratus) egg and larval dispersal in Shark Bay, Western Australia: reproductive isolation at a fine spatial scale.Crossref | GoogleScholarGoogle Scholar |

Norriss, J., Moran, M., and Jackson, G. (2012). Tagging studies reveal restricted movement of snapper (Pagrus auratus) within Shark Bay, supporting fine-scale fisheries management. Marine and Freshwater Research 63, 1191–1199.
Tagging studies reveal restricted movement of snapper (Pagrus auratus) within Shark Bay, supporting fine-scale fisheries management.Crossref | GoogleScholarGoogle Scholar |

Nussman, J. M., Radonski, G. C., and Loftus, A. J. (2011). Marine recreational fisherman and oceans governance. In ‘The Angler in the Environment: Social, Economic, Biological and Ethical Dimensions’. (Eds T. D. Beard, Jnr, R. Arlinghaus and S. G. Sutton.) pp. 39–48. (American Fisheries Society: Bethesda, MD.)

Paulin, C. D. (1990). Pagrus auratus, a new combination for the species known as “snapper” in Australasian waters (Pisces: Sparidae). New Zealand Journal of Marine and Freshwater Research 24, 259–265.
Pagrus auratus, a new combination for the species known as “snapper” in Australasian waters (Pisces: Sparidae).Crossref | GoogleScholarGoogle Scholar |

Richards, R. A., and Rago, P. J. (1999). A case history of effective fishery management: Chesapeake Bay striped bass. North American Journal of Fisheries Management 19, 356–375.
A case history of effective fishery management: Chesapeake Bay striped bass.Crossref | GoogleScholarGoogle Scholar |

Sadovy de Mitcheson, Y., and Colin, P. L. (2012). ‘Reef Fish Spawning Aggregations: Biology, Research and Management.’ (Springer: Dordrecht, The Netherlands.)

Shaw, J. (2000). Gascoyne Region. Fisheries Environmental Management Review No. 1, Fisheries WA, Perth.

Stephenson, P., and Jackson, G. (2005). Managing depleted snapper stocks in inner Shark Bay, Western Australia. In ‘Fisheries Assessment and Management in Data-limited Situations’. (Eds G. H. Kruse, V. F. Gallucci, D. E. Hay, R. I. Perry, R. M. Peterman, T. C. Shirley, P. D. Spencer, B. Wilson and D. Woodby.) pp. 31–50. (Alaska Sea Grant: Fairbanks, AK.)

Stratoudakis, Y., Bernal, M., Ganias, K., and Uriarte, A. (2006). The daily egg production method: recent advances, current applications and future challenges. Fish and Fisheries 7, 35–57.
The daily egg production method: recent advances, current applications and future challenges.Crossref | GoogleScholarGoogle Scholar |

Sumner, N. R., and Steckis, R. A. (1999). Statistical analysis of Gascoyne region recreational fishing study July 1996. Fisheries Research Report No. 115. Department of Fisheries, Perth.

Wakefield, C. B., Moran, M. J., Tapp, N. E., and Jackson, G. (2007). Catchability and selectivity of juvenile snapper (Pagrus auratus, Sparidae) and western butterfish (Pentapodus vitta, Nemipteridae) from prawn trawling in a large marine embayment in Western Australia. Fisheries Research 85, 37–48.
Catchability and selectivity of juvenile snapper (Pagrus auratus, Sparidae) and western butterfish (Pentapodus vitta, Nemipteridae) from prawn trawling in a large marine embayment in Western Australia.Crossref | GoogleScholarGoogle Scholar |

Whitaker, K., and Johnson, M. (1998). Population genetic structure of Pagrus auratus in the Western Gulf of Shark Bay, Western Australia. Unpublished report to Natural Heritage Trust (Canberra). Department of Fisheries, Perth.

Wise, B., Telfer, C., Lai, E., Hall, N.R., Lenanton, R., and Jackson, G. (2012). Long-term on-site monitoring of boat-based recreational fishing in Shark Bay, Western Australia: providing advice for fisheries management in a World Heritage property. Marine and Freshwater Research 63, 1129–1141.
Long-term on-site monitoring of boat-based recreational fishing in Shark Bay, Western Australia: providing advice for fisheries management in a World Heritage property.Crossref | GoogleScholarGoogle Scholar |

Zeldis, J. R. (1993). Applicability of egg surveys for spawning stock biomass estimation of snapper, orange roughy and hoki in New Zealand. Bulletin of Marine Science 53, 864–890.

Zeldis, J. R., and Francis, R. I. C. C. (1998). A daily egg production method estimate of snapper biomass in Hauraki Gulf, New Zealand. ICES Journal of Marine Science 55, 522–534.
A daily egg production method estimate of snapper biomass in Hauraki Gulf, New Zealand.Crossref | GoogleScholarGoogle Scholar |