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Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

Temporal variability in fish assemblage structure and recruitment in a freshwater-deprived estuary: The Coorong, Australia

Brenton P. Zampatti A B , Christopher M. Bice A and Paul R. Jennings A
+ Author Affiliations
- Author Affiliations

A Inland Waters and Catchment Ecology Program, SARDI Aquatic Sciences, PO Box 120, Henley Beach, SA 5022, Australia.

B Corresponding author. Email: brenton.zampatti@sa.gov.au

Marine and Freshwater Research 61(11) 1298-1312 https://doi.org/10.1071/MF10024
Submitted: 2 February 2010  Accepted: 2 June 2010   Published: 16 November 2010

Abstract

River regulation can diminish freshwater flows to estuaries and compromise estuarine functionality. Understanding biotic responses to altered flow regimes is imperative to effectively manage aquatic ecosystems. The present study investigated temporal variation in fish assemblage structure and the recruitment of catadromous fish in the Coorong estuary at the terminus of the Murray River, in south-eastern Australia. Over the three-year study period, freshwater inflows to the estuary diminished and ultimately ceased, disconnecting freshwater and estuarine environments. It was hypothesised that these conditions would lead to (1) increases in estuarine salinities and concomitant changes in fish assemblage structure and abundance, and (2) decreased recruitment of catadromous fish. As freshwater inflow decreased, salinities immediately downstream of a series of tidal barrages increased from brackish to marine–hypersaline, species richness and diversity decreased, freshwater and diadromous species became less abundant and assemblages were increasingly characterised by marine species. Furthermore, the abundance of young-of-year catadromous fish decreased dramatically. Excessive regulation of freshwater inflows is resulting in the Coorong estuary resembling a marine embayment, leading to a loss in species diversity. We suggest, however, that even small volumes of freshwater may promote diversity in estuarine fish assemblages and some recruitment of catadromous species.

Additional keywords: diadromous, drought, Galaxias, Murray River, Pseudaphritis.


Acknowledgements

We thank the following Department of Water, Land and Biodiversity Conservation staff for supporting the establishment and funding of this project: Mandy Rosetto, Ian Burns, Brenton Erdmann, Rohan Henry and Richard Brown. Thanks also to Adrienne Frears and Glynn Ricketts from the South Australian Murray–Darling Basin Natural Resource Management Board for ongoing management and support of the project. To Peter Lewis (deceased), Anthony Jones, Anthony Hobbs, Ray Maynard, Arron Strawbridge and Josh Fredberg and all the other SA Water and SARDI staff who braved four seasons in one day to set and retrieve traps, and assist in processing fish, thanks for all your efforts. Thanks to Luciana Bucater (SARDI) for assistance with figures. We would also like to thank Bronwyn Gillanders, Alan Whitfield, Andrew Boulton and two anonymous reviewers for helpful comments on drafts of this manuscript. This project was funded by the Murray–Darling Basin Commission. All sampling was conducted under an exemption (no. 9902132) of Section 115 of the Fisheries Management Act 2007.


References

Adams, J. B. , Knoop, W. T. , and Bate, G. C. (1992). The distribution of estuarine macrophytes in relation to freshwater. Botanica Marina 35, 215–226.
Crossref | GoogleScholarGoogle Scholar | Anderson M. J., Gorley R. N., and Clarke K. R. (2008). ‘PERMANOVA + for PRIMER: Guide to Software and Statistical Methods.’ (PRIMER-E: Plymouth.)

Baker, C. F. , and Hicks, B. J. (2003). Attraction of migratory inanga (Galaxias maculatus) and koaro (Galaxias brevipinnis) juveniles to adult galaxiid odours. New Zealand Journal of Marine and Freshwater Research 37, 291–299.
Crossref | GoogleScholarGoogle Scholar | Brookes J. D., Lamontagne S., Aldridge K. T., Benger S., Bisset A., et al. (2009). An ecosystem assessment framework to guide management of the Coorong. Final report of the CLLAMMecology Research Cluster. CSIRO: Water for a Healthy Country National Research Flagship, Canberra. http://www.clw.csiro.au/publications/waterforahealthycountry/cllamm/CLLAMM-Final-Report-Ecosystem-Assessment.pdf

Bunn, S. E. , and Arthington, A. H. (2002). Basic principles and ecological consequences of altered flow regimes for aquatic biodiversity. Environmental Management 30, 492–507.
Crossref | GoogleScholarGoogle Scholar | PubMed | Clarke K. R., and Gorley R. N. (2006). ‘PRIMER v6: User Manual/Tutorial.’ (PRIMER-E Ltd: Plymouth.)

Crook, D. A. , Koster, W. M. , MacDonald, J. I. , Nicol, S. J. , and Belcher, C. A. , et al. (2010). Catadromous migrations by female tupong (Pseudaphritis urvillii) in coastal streams in Victoria, Australia. Marine and Freshwater Research 61, 474–483.
Crossref | GoogleScholarGoogle Scholar | CAS | CSIRO (2008). Water availability in the Murray–Darling Basin. Report to the Australian Government from the CSIRO Murray–Darling Basin Sustainable Yields Project. CSIRO, Canberra.

Day J. W., Hall C. A. S., Kemp W. M., and Yáñez-Aracibia A. (1989). ‘Estuarine Ecology.’ (John Wiley & Sons: New York.)

DEH (2000). Coorong and Lakes Alexandrina and Albert Ramsar Management Plan. Department for Environment and Heritage, Adelaide.

Dufrêne, M. , and Legendre, P. (1997). Species assemblages and indicator species: the need for a flexible asymmetrical approach. Ecological Monographs 67, 345–366.
Hortle M. (1978). The ecology of the sandy, Pseudaphritis urvillii, in south-east Tasmania. Honours Thesis, University of Tasmania, Hobart.

Humphries, P. , Potter, I. C. , and Lonergan, N. R. (1992). The fish community in the shallows of a temperate Australian estuary: relationships with the aquatic macrophyte Ruppia megacarpa and environmental variables. Estuarine, Coastal and Shelf Science 34, 325–346.
Crossref | GoogleScholarGoogle Scholar | Lucas M. C., and Baras E. (2001). ‘Migration of Freshwater Fishes.’ (Blackwell Science: Oxford.)

Lui, L. C. (1969). Salinity tolerance and osmoregulation in Taenomembrus microstomus (Gunther, 1861) (Pisces : Mugiliformes : Atherinidae) from Australian salt lakes. Australian Journal of Marine and Freshwater Research 20, 157–162.
Crossref | GoogleScholarGoogle Scholar | McCune B., and Mefford M. (2005). ‘PC-ORD. Multivariate Analysis of Ecological Data, v5.0.’ (MjM Software Design: Glendon Beach.)

McDowall, R. M. (1968). Galaxias maculatus (Jenyns), the New Zealand whitebait. New Zealand Fisheries Research Bulletin 2, 1–84.
Nicol J. (2007). Impact of barrage releases on the population dynamics of Ruppia megacarpa in the Murray Estuary and north lagoon of the Coorong. South Australian Research and Development Institute (Aquatic Sciences), Adelaide.

Poff, N. L. , Allan, J. D. , Bain, M. B. , Karr, J. D. , and Prestegaard, K. L. , et al. (1997). The natural flow regime: a paradigm for river conservation and restoration. BioScience 47, 769–784.
Crossref | GoogleScholarGoogle Scholar | Sloane S. (2005). Management plan for the South Australian Lakes and Coorong Fishery. The South Australian Fisheries Management Series, Paper No. 44. Primary Industries and Resources South Australia, Adelaide.

Staunton-Smith, J. , Robins, J. B. , Mayer, D. G. , Sellin, M. J. , and Halliday, I. A. (2004). Does the quantity and timing of fresh water flowing into a dry tropical estuary affect year-class strength of barramundi (Lates calcarifer)? Marine and Freshwater Research 55, 787–797.
Crossref | GoogleScholarGoogle Scholar | Walker D. (2002). What is possible: Hydrology and morphology. In ‘The Murray Mouth: Exploring the Implications of Closure or Restricted Flow’. (Eds N. Goodwin and S. Bennett.) pp. 85–92. A report prepared for the Murray–Darling Basin Commission and Department of Water Land and Biodiversity Conservation, Adelaide.

Whitfield, A. K. (1994). Abundance of larval and 0+ juvenile marine fishes in the lower reaches of three southern African estuaries with differing freshwater inputs. Marine Ecology Progress Series 105, 257–267.
Crossref | GoogleScholarGoogle Scholar |

Whitfield, A. K. (1999). Ichthyofaunal assemblages in estuaries: a South African case study. Reviews in Fish Biology and Fisheries 9, 151–186.
Crossref | GoogleScholarGoogle Scholar |

Whitfield, A. K. (2005). Fishes and freshwater in southern African estuaries – a review. Aquatic Living Resources 18, 275–289.
Crossref | GoogleScholarGoogle Scholar |

Whitfield, A. K. , Taylor, R. H. , Fox, C. , and Cyrus, D. P. (2006). Fishes and salinities in the St Lucia estuarine system – a review. Reviews in Fish Biology and Fisheries 16, 1–20.
Crossref | GoogleScholarGoogle Scholar |