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RESEARCH ARTICLE
Contents Vol 63(8)

The use of food resources by 0+ snapper, Chrysophrys auratus, from northern Spencer Gulf, South Australia

Richard J. Saunders A B C D , Anthony J. Fowler B and Bronwyn M. Gillanders C
+ Author Affiliations
- Author Affiliations

A School of Earth & Environmental Sciences & Centre for Sustainable Tropical Fisheries and Aquaculture, James Cook University, Douglas Campus, Townsville, Qld 4811, Australia.

B South Australian Research and Development Institute (Aquatic Sciences), PO Box 120, Henley Beach, Adelaide, SA 5022, Australia.

C Southern Seas Ecology Laboratories, DP 418, School of Earth and Environmental Sciences, The University of Adelaide, Adelaide, SA 5005, Australia.

D Corresponding author. Email: richard.saunders@jcu.edu.au

Marine and Freshwater Research 63(8) 680-686 https://doi.org/10.1071/MF11266
Submitted: 4 December 2011  Accepted: 6 June 2012   Published: 27 July 2012

Abstract

Food availability is an important factor in survival and growth of juvenile fish and has been proposed as a major factor shaping the patterns of distribution and abundance of 0+ snapper, Chrysophrys auratus, in New Zealand and Japan. Thus, we tested the hypothesis that diet of 0+ snapper would exhibit spatial variation related to their abundance within a major nursery region. Therefore, we described the stomach contents of 0+ snapper collected from within a nursery region in areas of low and high abundance of 0+ snapper. The data also provided the opportunity to consider sized based differences in diet and temporal feeding patterns. 0+ snapper were generalist carnivores that preyed on a wide range of invertebrates and fish. No evidence of sized based dietary variation was identified but feeding either ceased or was much reduced during the hours of darkness. The major finding was that more polychaetes were present in the stomachs of 0+ snapper in the area of high 0+ snapper abundance than in the areas of low 0+ snapper abundance. The spatial differences in diet observed supports the hypothesis that prey availability is important as a driver of habitat selection by 0+ fish.

Additional keywords: diet, nursery, Pagrus, recruitment.


References

Azeta, M., Ikemoto, R., and Azuma, M. (1980). Diurnal activity rhythms in 0-group red sea bream Pagrus major. Bulletin of the Seikai Regional Fisheries Research Laboratory 54, 279–289.

Beck, M. W., Heck, K. L., Able, K. W., Childers, D. L., Eggleston, D. B., Gillanders, B. M., Halpern, B., Hays, C. G., Hoshino, K., Minello, T. J., Orth, R. J., Sheridan, P. F., and Weinstein, M. P. (2001). The identification, conservation, and management of estuarine and marine nurseries for fish and invertebrates. Bioscience 51, 633–641.
The identification, conservation, and management of estuarine and marine nurseries for fish and invertebrates.Crossref | GoogleScholarGoogle Scholar |

Casper, R. M., Jarman, S. N., Gales, N. J., and Hindell, M. A. (2007). Combining DNA and morphological analyses of faecal samples improves insight into trophic interactions: a case study using a generalist predator. Marine Biology 152, 815–825.
Combining DNA and morphological analyses of faecal samples improves insight into trophic interactions: a case study using a generalist predator.Crossref | GoogleScholarGoogle Scholar |

Castriota, L., Finoia, M. G., Campagnuolo, S., Pipitone, C., and Andaloro, F. (2006). Diet of juvenile Pagrus pagrus (Sparidae) from sandy bottoms of the southern Tyrrhenian Sea. Cybium 30, 291–295.

Clarke, K. R. (1993). Non-parametric multivariate analyses of changes in community structure. Australian Journal of Ecology 18, 117–143.
Non-parametric multivariate analyses of changes in community structure.Crossref | GoogleScholarGoogle Scholar |

Derbal, F., Nouacer, S., and Kara, M. H. (2007). Diet of the annular seabream Diplodus annularis (Sparidae) of the Gulf of Annaba (eastern Algeria). Cybium 31, 443–450.

Edgar, G. J., and Shaw, C. (1995). The production and trophic ecology of shallow-water fish assemblages in southern Australia I. Species richness, size-structure and production of fishes in Western Port, Victoria. Journal of Experimental Marine Biology and Ecology 194, 53–81.
The production and trophic ecology of shallow-water fish assemblages in southern Australia I. Species richness, size-structure and production of fishes in Western Port, Victoria.Crossref | GoogleScholarGoogle Scholar |

Fowler, A. J., and Jennings, P. R. (2003). Dynamics in 0+ recruitment and early life history for snapper (Pagrus auratus, Sparidae) in South Australia. Marine and Freshwater Research 54, 941–956.
Dynamics in 0+ recruitment and early life history for snapper (Pagrus auratus, Sparidae) in South Australia.Crossref | GoogleScholarGoogle Scholar |

Francis, M. P. (1997). Condition cycles in Pagrus auratus. Journal of Fish Biology 51, 583–600.

Furlani, D., Gales, R., and Pemberton, D. (2007). ‘Otoliths of Common Australian Temperate Fish. A Photographic Guide.’ (CSIRO Publishing: Victoria, Australia.)

Godfriaux, B. L. (1969). Food of predatory demersal fish in the Hauraki Gulf. New Zealand Journal of Marine and Freshwater Research 3, 518–544.
Food of predatory demersal fish in the Hauraki Gulf.Crossref | GoogleScholarGoogle Scholar |

Hamer, P. A., and Jenkins, G. P. (2004). High levels of spatial and temporal recruitment variability in the temperate sparid Pagrus auratus. Marine and Freshwater Research 55, 663–673.
High levels of spatial and temporal recruitment variability in the temperate sparid Pagrus auratus.Crossref | GoogleScholarGoogle Scholar |

Holladay, B. A., and Norcross, B. L. (1995). August diet of age-0 Pacific halibut in nearshore waters of Kodiak Island, Alaska. Environmental Biology of Fishes 44, 403–416.
August diet of age-0 Pacific halibut in nearshore waters of Kodiak Island, Alaska.Crossref | GoogleScholarGoogle Scholar |

Houde, E. D. (1987). Fish early life dynamics and recruitment variability. American Fisheries Society Symposium 2, 17–29.

Hutchings, P. A., Ward, T. J., Waterhouse, J. H., and Walker, L. (1993). Infauna of marine sediments and seagrass beds of upper Spencer Gulf near Port Pirie, South Australia. Transactions of the Royal Society of South Australia 117, 1–15.

Jenkins, G. P., Wheatley, M. J., and Poore, A. G. B. (1996). Spatial variation in recruitment, growth, and feeding of postsettlement King George whiting, Sillaginodes punctata, associated with seagrass beds of Port Phillip Bay, Australia. Canadian Journal of Fisheries and Aquatic Sciences 53, 350–359.
Spatial variation in recruitment, growth, and feeding of postsettlement King George whiting, Sillaginodes punctata, associated with seagrass beds of Port Phillip Bay, Australia.Crossref | GoogleScholarGoogle Scholar |

Jones, G. P. (1986). Food availability affects growth in a coral reef fish. Oecologia 70, 136–139.
Food availability affects growth in a coral reef fish.Crossref | GoogleScholarGoogle Scholar |

Rasero, M., González, A. F., Castro, B. G., and Guerra, A. (1996). Predatory relationships of two sympatric squid, Todaropsis eblanae and Illex coindetii (Cephalopode: Ommestrephidal) in Galician waters. Journal of the Marine Biological Association of the United Kingdom 76, 73–87.
Predatory relationships of two sympatric squid, Todaropsis eblanae and Illex coindetii (Cephalopode: Ommestrephidal) in Galician waters.Crossref | GoogleScholarGoogle Scholar |

Sigler, M. F., Hulbert, L. B., Lunsford, C. R., Thompson, N. H., Burek, K., O’Corry-Crowe, G., and Hirons, A. C. (2006). Diet of Pacific sleeper shark, a potential Steller sea lion predator, in the north-east Pacific Ocean. Journal of Fish Biology 69, 392–405.
Diet of Pacific sleeper shark, a potential Steller sea lion predator, in the north-east Pacific Ocean.Crossref | GoogleScholarGoogle Scholar |

Sudo, H., and Azeta, M. (2001). The microhabitat and size of gammarid species selectively predated by young red sea bream Pagrus major. Fisheries Science 67, 389–400.
The microhabitat and size of gammarid species selectively predated by young red sea bream Pagrus major.Crossref | GoogleScholarGoogle Scholar | 1:CAS:528:DC%2BD3MXltVKjs7Y%3D&md5=65a66ae3fa2e0f6f0cf8ff64b0c81399CAS |

Sudo, H., Azuma, M., and Azeta, M. (1987). Diel changes in predator-prey relationships between red sea bream and gammaridean amphipods in Shijiki Bay. Nippon Suisan Gakkai Shi 53, 1567–1575.
Diel changes in predator-prey relationships between red sea bream and gammaridean amphipods in Shijiki Bay.Crossref | GoogleScholarGoogle Scholar |

Tanaka, M. (1985). Factors affecting the inshore migration of pelagic larval and demersal juvenile red sea bream Pagrus major to a nursery ground. Transactions of the American Fisheries Society 114, 471–477.
Factors affecting the inshore migration of pelagic larval and demersal juvenile red sea bream Pagrus major to a nursery ground.Crossref | GoogleScholarGoogle Scholar |