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

Flood water quality and marine sediment and nutrient loads from the Tully and Murray catchments in north Queensland, Australia

Jim Wallace A B , Lachlan Stewart A , Aaron Hawdon A , Rex Keen A , Fazlul Karim A and Joseph Kemei A
+ Author Affiliations
- Author Affiliations

A CSIRO Land and Water, Townsville, Qld 4814, Australia.

B Corresponding author. Email: jim.wallace@csiro.au

Marine and Freshwater Research 60(11) 1123-1131 https://doi.org/10.1071/MF08356
Submitted: 19 December 2008  Accepted: 22 May 2009   Published: 17 November 2009

Abstract

Current estimates of sediment and nutrient loads from the Tully–Murray floodplain to the Great Barrier Reef lagoon are updated by taking explicit account of flood events. New estimates of flood discharge that include over-bank flows are combined with direct measurements of sediment and nutrient concentrations in flood waters to calculate the loads of sediment and nutrient delivered to the ocean during 13 floods that occurred between 2006 and 2008. Although absolute concentrations of sediment and nutrient were quite low, the large volume of water discharged during floods means that they make a large contribution (30–50%) to the marine load. By not accounting for flood flows correctly, previous estimates of the annual average discharge are 15% too low and annual loads of nitrogen and phosphorus are 47% and 32% too low respectively. However, because sediments may be source-limited, accounting for flood flows simply dilutes their concentration and the resulting annual average load is similar to that previously estimated. Flood waters also carry more dissolved organic nitrogen than dissolved inorganic nitrogen and this is the opposite of their concentrations in river water. Consequently, dissolved organic nitrogen loads to the ocean may be around twice those previously estimated from riverine data.


Acknowledgements

We thank the Australian Government Department of the Environment and Water Resources, Heritage and the Arts (DEWHA), TERRAIN Natural Resource Management Ltd, the RRRC Marine and Tropical Science Research facility (MTSRF) and the CSIRO Water for a Healthy Country for co-funding support for this study. We are also grateful for the assistance of the Australian Centre for Tropical Freshwater Research (ACTFR) for processing our water quality. We also acknowledge the supply of rainfall data from the Australian Bureau of Meteorology (BOM) and river flow data from the Department of Natural Resources and Water (DNRM). We are grateful to CSIRO colleagues and the external reviewers for their very helpful comments on the draft manuscript.


References

APHA (1998). ‘Standard Methods for the Examination of Water and Wastewater.’ 20th edn. (American Public Health Association: Washington, DC.)

Armour J. D., Hateley L. R., and Pitt G. L. (2007). Improved SedNet and Annex modelling for the Tully-Murray catchment. A report prepared for the Tully Water Quality Improvement Plan. Department of Natural Resources and Water, Mareeba, Qld.

Armour, J. D. , Hateley, L. R. , and Pitt, G. L. (2009). Catchment modelling of sediment, nitrogen and phosphorus nutrient loads with SedNet/ANNEX in the Tully–Murray basin. Marine and Freshwater Research 60, 1091–1096.
Brodie J., Lucy A., McKergow L. A., Prosser I. O., Furnas M., Hughes A. O., and Hunter H. (2003). Sources of sediment and nutrient exports to the Great Barrier Reef world heritage area. Australian Centre for Tropical Freshwater Research Report No 03/11, James Cook University, Townsville, Qld.

Davis R. (2006). ‘Douglas Shire Water Quality Improvement Plan.’ (Douglas Shire Council: Cairns.)

Drewry J., Higham W., and Mitchell C. (2008). Water Quality Improvement Plan. Final report for Mackay Whitsunday region. Mackay Whitsunday Natural Resource Management Group, Mackay, Qld.

DHI (2008). ‘NAM Technical Reference and Model Documentation.’ (Danish Hydraulic Institute Water and Environment: Denmark.)

Furnas M. (2003). ‘Catchments and Corals: Terrestrial Runoff to the Great Barrier Reef.’ (Australian Institute of Marine Science: Townsville, Qld.)

Hateley L., Armour J., Pitt G., Sherman B., Reda A., Chen Y., Brodie J., and Cogle A. L. (2006). Sediment and nutrient modelling in the Far North Queensland NRM region. Vol. 2. In ‘The Use of SedNet and ANNEX Models to Guide GBR Catchment Sediment and Nutrient Target Setting’. (Eds A. L. Cogle, C. Carrol and B. S. Sherman.) pp. 2.1–3.31. Queensland Department of Natural Resources and Mines report series number QNRM06138. (Department of Natural Resources, Mines and Water: Mareeba, Qld.)

Hawdon A. A., Keen R. K., Kemei J. K., Vleeshouwer J. M., and Wallace J. S. (2007). Design and application of automated flood monitoring systems in the wet tropics. CSIRO Land and Water Science Report 49/07, Townsville, Qld.

Karim F. M., and Wallace J. S. (2008). Assessment of sediment and nutrient transport across the Tully–Murray floodplain using the SedNet model. Report to the Marine and Tropical Science Research Facility. CSIRO Land and Water Science Report 59/08, Townsville, Qld.

Kroon F. J. (2008). ‘Tully Water Quality Improvement Plan.’ (CSIRO Sustainable Ecosystems: Atherton, Qld.)

Kroon, F. J. (2009). Integrated research approach to improving water quality in the Great Barrier Reef Region. Marine and Freshwater Research 60, i–iii.
McCulloch M. (2006). Coral record of human impacts on land-sea interactions in the inner Great Barrier Reef. In ‘Abstracts. Catchments to Coasts. Australian Marine Sciences Association 44th Annual Conference (AMSA 2006) and The Society of Wetland Scientists 27th International Conference (SWS)’, Cairns, Qld, Australia, 9–14 July 2006. (Eds J. A. Greenwood and C. D. Field.) p. 73. (Australian Marine Science Association: Canberra.)

Mozdzer T. (2006). Utilization of dissolved organic nitrogen by the temperate macrophytes Phragmites australis and Spartina alterflora. In ‘Abstracts. Catchments to Coasts. Australian Marine Sciences Association 44th Annual Conference (AMSA 2006) and The Society of Wetland Scientists 27th International Conference (SWS)’, Cairns, Qld, Australia, 9–14 July 2006. (Eds J. A. Greenwood and C. D. Field.) p. 87. (Australian Marine Science Association: Canberra.)

NLWRA (2001). ‘Australian Water Resources Assessment 2000, Surface Water and Groundwater – Availability and Quality.’ (National Land and Water Resources Audit: Canberra.)

Seitzinger, S. P. , Sanders, R. W. , and Styles, R. (2002). Bioavailability of DON from natural and anthropogenic sources to estuarine plankton. Limnology and Oceanography 47, 353–366.
CAS | Wallace J. S., Hawdon A., Keen R., and Stewart L. S. (2007). Water quality during floods and their contribution to sediment and nutrient fluxes from the Tully–Murray catchments to the GBR lagoon. Report to FNQNRM for their Water Quality Improvement Plan. CSIRO Water for a Healthy Country Science Report, Townsville, Qld.

Wallace J. S., Stewart L. S., Hawdon A., and Keen R. (2008). The impact of floods on sediment and nutrient fluxes from the Tully–Murray catchments to the GBR lagoon. Report to TERRAIN and MTSRF for input to the Water Quality Improvement Planning process. CSIRO Water for a Healthy Country Science Report, Townsville, Qld.

Wiegner, T. N. , Seitzinger, S. P. , Gilbert, P. M. , and Brink, D. A. (2006). Bioavailability of dissolved organic nitrogen and carbon from nine rivers in the eastern United States. Aquatic Microbial Ecology 43, 277–287.
Crossref | GoogleScholarGoogle Scholar |