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Article << Previous     |     Next >>   Contents Vol 61(2)

Movement and mortality of Murray cod, Maccullochella peelii, during overbank flows in the lower River Murray, Australia

Sandra J. Leigh A and Brenton P. Zampatti A B C

A Inland Waters and Catchment Ecology Program, SARDI Aquatic Sciences, PO Box 120, Henley Beach, SA 5022, Australia.
B School of Earth and Environmental Sciences, The University of Adelaide, Adelaide, SA 5005, Australia.
C Corresponding author. Email: Brenton.Zampatti@sa.gov.au

Australian Journal of Zoology 61(2) 160-169 http://dx.doi.org/10.1071/ZO12124
Submitted: 3 December 2012  Accepted: 10 June 2013   Published: 9 July 2013


 
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Abstract

Conservation of Murray cod (Maccullochella peelii), a large endangered fish species of Australia’s Murray–Darling Basin, relies on a detailed understanding of life history, including movement patterns and habitat use. We used radio-tracking to investigate the movement of 36 Murray cod in main channel and anabranch habitats of the lower River Murray during a flood and associated hypoxic blackwater event. During a flood peak of ~93 000 ML day–1, dissolved oxygen decreased to 1.2 mg L–1. Four movement types were observed: (1) localised small-scale movement, (2) broad-scale movement within anabranch habitats, (3) movement between anabranch and main channel habitats, and (4) large-scale riverine movement. Murray cod exhibited high fidelity to anabranch habitats but also moved extensively between anabranches and the main channel. Fish were consistently located in the main channel or permanent anabranches, suggesting that use of ephemeral floodplain habitats is limited, and highlighting the importance of connectivity between off-channel and main channel habitats. Mortality of radio-tagged fish was considerable (25%) in association with low dissolved oxygen concentrations, indicating that hypoxic blackwater may have had a substantial impact on Murray cod populations in the lower River Murray.



Additional keywords: anabranch, blackwater, connectivity, flood, freshwater fish, hypoxia, main channel, Murray–Darling Basin, radio-telemetry.


References

Adams, N. S., Rondorf, D. W., Evans, S. D., Kelly, J. E., and Perry, R. W. (1998). Effects of surgically and gastrically implanted radio transmitters on swimming performance and predator avoidance of juvenile Chinook salmon. Canadian Journal of Fisheries and Aquatic Sciences 55, 781–787.
CrossRef |

Albanese, B., Angermeier, P. L., and Darai-Raj, S. (2004). Ecological correlates of fish movement in a network of Virginia streams. Canadian Journal of Fisheries and Aquatic Sciences 61, 857–869.
CrossRef |

Anderson, J. R., Morison, A. K., and Ray, D. J. (1992). Age and growth of Murray cod, Maccullochella peelii (Perciformes: Percichthyidae), in the lower Murray–Darling Basin, Australia, from thin-sectioned otoliths. Australian Journal of Marine and Freshwater Research 43, 983–1013.
CrossRef |

Anderson, M. J., Gorley, R. N., and Clarke, K. R. (2008). ‘PERMANOVA+ for PRIMER: Guide to Software and Statistical Methods.’ (PRIMER-E: Plymouth.)

Barrett, J. (2004). Introducing the Murray–Darling Basin Native Fish Strategy and initial steps towards demonstration reaches. Ecological Management & Restoration 5, 15–23.
CrossRef |

Barrett, J., and Mallen-Cooper, M. (2006). The Murray River’s ‘Sea to Hume Dam’ fish passage program: progress to date and lessons learned. Ecological Management & Restoration 7, 173–183.
CrossRef |

Bruylants, B., Vandelannoote, A., and Verheyen, R. (1986). The movement pattern and density distribution of perch, Perca fluviatilis L., in a channelized lowland river. Aquaculture and Fisheries Management 17, 49–57.

Cadwallader, P. L., and Gooley, G. J. (1984). Past and present distributions and translocations of Murray cod Maccullochella peeli and trout cod M. macquariensis (Pisces: Percichthyidae) in Victoria. Proceedings of the Royal Society of Victoria 96, 33–43.

Crocker, C. E., and Cech, J. J. (1997). Effects of environmental hypoxia on oxygen consumption rate and swimming activity in juvenile white sturgeon, Acipenser transmontanus, in relation to temperature and life intervals. Environmental Biology of Fishes 50, 383–389.
CrossRef |

Crook, D. A. (2004). Is the home range concept compatible with the movements of two species of lowland river fish? Journal of Animal Ecology 73, 353–366.
CrossRef |

Crook, D. A., Robertson, A. I., King, A. J., and Humphries, P. (2001). The influence of spatial scale and habitat arrangement on diel patterns of habitat use by two lowland river fishes. Oecologia 129, 525–533.

David, B. O., and Closs, G. P. (2002). Behaviour of stream-dwelling fish before and after high-discharge events. Transactions of the American Fisheries Society 131, 762–771.
CrossRef |

Ebner, B. C., and Thiem, J. D. (2009). Monitoring by telemetry reveals differences in movement and survival following hatchery or wild rearing of an endangered fish. Marine and Freshwater Research 60, 45–57.
CrossRef |

Ebner, B. C., Johnston, L., and Lintermans, M. (2009). Radio-tagging and tracking of translocated trout cod (Maccullochella macquariensis: Percichthyidae) in an upland river. Marine and Freshwater Research 60, 346–355.
CrossRef |

Fausch, K. D., Torgersen, C. E., Baxter, C. V., and Li, H. W. (2002). Landscapes to riverscapes: bridging the gap between research and conservation of stream fishes. Bioscience 52, 483–498.
CrossRef |

Gatz, A. J., and Adams, S. A. (1994). Patterns of movement of centrarchids in two warm water streams in eastern Tennessee. Ecology of Freshwater Fish 3, 35–48.
CrossRef |

Godinho, A. L., Kynard, B., and Godinho, H. P. (2007). Migration and spawning of female surubim (Pseudoplatystoma corruscans, Pimelodidae) in the São Francisco river, Brazil. Environmental Biology of Fishes 80, 421–433.
CrossRef |

Graham, R., and Harris, J. H. (2005). Floodplain inundation and fish dynamics in the Murray–Darling Basin. Current concepts and future research: a scoping study. CRC for Freshwater Ecology.

Hamilton, S. K., Sippel, S. J., Calheiros, D. F., and Melack, J. M. (1997). An anoxic event and other biogeochemical effects of the Pantanal wetland on the Paraguay River. Limnology and Oceanography 42, 257–272.
CrossRef | CAS |

Harvey, B. C., Nakamoto, R. J., and White, J. L. (1999). Influence of large woody debris and a bankfull flood on movement of adult resident coastal cutthroat trout (Oncorhynchus clarki) during fall and winter. Canadian Journal of Fisheries and Aquatic Sciences 56, 2161–2166.
CrossRef |

Hawkes, C. (2009). Linking movement behaviour, dispersal and population processes: is individual variation the key? Journal of Animal Ecology 78, 894–906.
CrossRef | PubMed |

Humphries, P, King, A. J., and Koehn, J. D. (1999). Fish, flows and floodplains: links between freshwater fishes and their environment in the Murray-Darling River system, Australia. Environmental Biology of Fishes 56, 129–151.

International Union for the Conservation of Nature (IUCN) (2011). IUCN Red List of Threatened Species. Version 2011.2. Available at: www.iucnredlist.org [accessed April 2012].

Jeffres, C. A., Klimley, A. P., Merz, J. E., and Cech, J. J. (2006). Movement of Sacramento sucker (Catostomus occidentalis) and hitch (Lavinia exilicauda) during a spring release of water from Camanche Dam in the Mokelume River, California. Environmental Biology of Fishes 75, 365–373.
CrossRef |

Jones, M. J., and Stuart, I. G. (2007). Movements and habitat use of common carp (Cyprinus carpio) and Murray cod (Maccullochella peelii peelii) juveniles in a large lowland Australian River. Ecology of Freshwater Fish 16, 210–220.

Jones, M. J., and Stuart, I. G. (2009). Lateral movement of common carp (Cyprinus carpio L.) in a large lowland river and floodplain. Ecology of Freshwater Fish 18, 72–82.
CrossRef |

Kearney, R. E., and Kildea, M. A. (2001). The status of Murray cod in the Murray–Darling Basin. Environment Australia, Canberra.

King, A. J., Tonkin, Z., and Lieshcke, J. (2012). Short-term effects of a prolonged blackwater event on aquatic fauna in the Murray River, Australia: considerations for future events. Marine and Freshwater Research 63, 576–586.
CrossRef |

Knights, B. C., Vallazza, J. M., Zigler, S. J., and Dewey, M. R. (2002). Habitat and movement of lake sturgeon in the upper Mississippi River system. Transactions of the American Fisheries Society 131, 507–522.
CrossRef |

Koehn, J. (2009). Multi-scale habitat selection by Murray cod Maccullochella peelii peelii in two lowland rivers. Journal of Fish Biology 75, 113–129.
CrossRef | CAS | PubMed |

Koehn, J., and Nicol, S. (1998). Habitat and movement requirements of fish. In ‘Proceedings of the 1996 Riverine Environment Forum of MDBC Natural Resources Management Strategy funded projects, Brisbane, Queensland, October 1996’. (Eds R. J. Banens and R. Lehane.) pp. 1–6. (Murray–Darling Basin Commission: Canberra.)

Koehn, J. D., McKenzie, J. A., O’Mahony, D. J., Nicol, S. J., and O’Conner, J. P. (2009). Movements of Murray cod (Maccullochella peelii peelii) in a large Australian lowland river. Ecology of Freshwater Fish 18, 594–602.
CrossRef |

Lucas, M. C., and Baras, E. (2001). ‘Migration of Freshwater Fishes.’ (Blackwell Science: Oxford.)

Mallen-Cooper, M. (1993). Habitat changes and declines of freshwater fish in Australia: what is the evidence and do we need more? In ‘Sustainable Fisheries through Sustaining Fish Habitat, Australian Society for Fish Biology Workshop, Victor Harbour, South Australia, 12–13 August’. (Ed. D. A. Hancock.) pp. 118–123. (Bureau of Resource Sciences Proceedings, AGPS: Canberra.)

Mallen-Cooper, M., and Brand, D. A. (2007). Non-salmonids in a salmonid fishway: what do 50 years of data tell us about past and future fish passage? Fisheries Management and Ecology 14, 319–332.
CrossRef |

McKinnon, L., and Shepheard, N. (1995). Factors contributing to a fish kill in Broken Creek. The Victorian Naturalist 112, 93–99.

Moyle, P. B., and Mount, J. F. (2007). Homogenous rivers, homogenous faunas. Proceedings of the National Academy of Sciences of the United States of America 104, 5711–5712.
CrossRef | CAS | PubMed |

Nunn, A. D., Copp, G. H., Vilizzi, L., and Carter, M. G. (2010). Seasonal and diel patterns in the migrations of fishes between a river and floodplain tributary. Ecology of Freshwater Fish 19, 153–162.
CrossRef |

O’Connor, J., O’Mahony, D., and O’Mahony, J. (2005). Movement of Macquaria ambigua, in the Murray River, south-eastern Australia. Journal of Fish Biology 66, 392–403.
CrossRef |

Pracheil, B. M., Pegg, M. A., and Mestl, G. E. (2009). Tributaries influence recruitment of fish in large rivers. Ecology of Freshwater Fish 18, 603–609.
CrossRef |

Puckridge, J. T., Sheldon, F., Walker, K. F., and Boulton, A. J. (1998). Flow variability and the ecology of large rivers. Marine and Freshwater Research 49, 55–72.
CrossRef |

Reynolds, L. F. (1983). Migration of five fish species in the Murray–Darling River System. Australian Journal of Marine and Freshwater Research 34, 857–871.
CrossRef |

Robertson, A. I., Bacon, P., and Heagney, G. (2001). The responses of floodplain primary production to flood frequency and timing. Journal of Applied Ecology 38, 126–136.
CrossRef |

Rowland, S. J. (1989). Aspects of the history and fishery of Murray cod, Maccullochella peeli (Mitchell) (Percichthyidae). Proceedings of the Linnean Society of New South Wales 111, 201–213.

Rowland, S. J. (1998). Aspects of the reproductive biology of Murray cod, Maccullochella peelii peelii. Proceedings of the Linnean Society of New South Wales 120, 147–162.

Saddlier, S., O’Mahony, J., and Ramsey, D. (2008). Protection and enhancement of Murray cod populations. Department of Sustainability and Environment, Victoria. Arthur Rylah Institute for Environmental Research Technical Report Series No. 172.

Schlosser, I. J., and Angermeier, P. L. (1995). Spatial variation in demographic processes of lotic fishes: conceptual models, empirical evidence, and implications for conservation. American Fisheries Society Symposium 17, 392–401.

Stace, P., and Greenwood, A. (2004). Chowilla Anabranch System Surface Water Information Summary. Department of Water, Land and Biodiversity Conservation, South Australia.

Stuart, I. G., Zampatti, B. P., and Baumgartner, L. J. (2008). Can a low-gradient vertical slot fishway provide passage for a lowland river fish community? Marine and Freshwater Research 59, 332–346.
CrossRef |

Todd, C. R., Ryan, T., Nicol, S. J., and Bearlin, A. R. (2005). The impact of cold water releases on the critical period of post-spawning survival and its implications for Murray cod (Maccullochella peelii peelii): a case study of the Mitta Mitta River, southeastern Australia. River Research and Applications 21, 1035–1052.
CrossRef |

Walker, K. F. (2006). Serial weirs, cumulative effects: the lower River Murray, Australia. In ‘Ecology of Desert Rivers’. (Ed. R. Kingsford.) pp. 248–279. (Cambridge University Press: Melbourne.)

Whitworth, K. L., Baldwin, D. S., and Kerr, J. L. (2012). Droughts, floods and water quality: drivers of a severe hypoxic blackwater event in a major river system (the southern Murray–Darling Basin, Australia). Journal of Hydrology 450–451, 190–198.
CrossRef |

Wong, V. N. L., Johnston, S. G., Bush, R. T., Sullivan, L. A., Clay, C., Burton, E. D., and Slavich, P. G. (2010). Spatial and temporal changes in estuarine water quality during a post-flood hypoxic event. Estuarine, Coastal and Shelf Science 87, 73–82.
CrossRef | CAS |

Ye, Q., and Zampatti, B. (2007). Murray cod stock status. South Australian Research and Development Institute (Aquatic Sciences), Adelaide. SARDI Publication No. F2007-000211-1. SARDI Research Report Series No. 208.

Young, R. G., Wilkinson, J., Hay, J., and Hayes, J. W. (2010). Movement and mortality of adult brown trout in the Motupiko River, New Zealand: effects of water, temperature, flow and flooding. Transactions of the American Fisheries Society 139, 137–146.
CrossRef |

Zampatti, B. P., Leigh, S. J., and Nicol, J. M. (2011). Fish and aquatic macrophyte communities in the Chowilla Anabranch System, South Australia. South Australian Research and Development Institute (Aquatic Sciences), Adelaide. SARDI Publication No. F2010/000719-1. SARDI Research Report Series No. 525.


   
 
    
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