Acute toxicity largely reflects the salinity sensitivity of stream macroinvertebrates derived using field distributions
Nelli Horrigan A , Jason E. Dunlop B D E , Ben J. Kefford C and Farah Zavahir BA Canadian Rivers Institute, University of New Brunswick, 10 Bailey Drive, Fredericton, New Brunswick E3B6E1, Canada.
B Department of Natural Resources and Water, 120 Meiers Road, Indooroopilly, Qld 4068, Australia.
C Biotechnology and Environmental Biology, School of Applied Sciences, RMIT University, PO Box 71, Bundoora, Vic. 3083, Australia.
D National Research Centre for Environmental Toxicology, 39 Kessels Road, Coopers Plains, The University of Queensland, Qld 4108, Australia.
E Corresponding author. Email: jason.dunlop@nrm.qld.gov.au
Marine and Freshwater Research 58(2) 178-186 https://doi.org/10.1071/MF05241
Submitted: 12 December 2005 Accepted: 7 December 2006 Published: 8 February 2007
Abstract
Two types of salinity tolerance information are commonly used for assessing salinity risk to freshwater organisms. These are data from laboratory experiments, usually acute (≤96-h LC50) values, and field distributions. Both approaches have advantages and limitations, and their applicability to the formation of guidelines and assessment of risks is not clear. In the present study, the acute lethal tolerances (72-h LC50) and acute tolerance scores (ATS) of 37 macroinvertebrate families from Queensland, Australia, were compared with maximum field conductivities and previously derived salinity sensitivity scores (SSS). LC50 values were significantly correlated with maximal field conductivities and SSS. To investigate this relationship further, the changes in community structure related to an increase in salinity were assessed. A salinity index (SI) (based on cumulative SSS) and acute salinity index (ASI) (based on cumulative ATS) were calculated using an independent data set from south-east Queensland (429 samples) and compared with each other and actual conductivity levels. Both indices were significantly correlated with each other and followed a similar trend when plotted against actual conductivity. These results support the notion that salinity sensitivity of macroinvertebrates derived from acute toxicity experiments reflects sensitivities derived using field distributions. Definition of this relationship will allow the two sources of salinity sensitivity to be combined in a weight-of-evidence approach, resulting in a more robust data set with which to estimate safe salinity concentrations.
Additional keywords: aquatic invertebrates, ecological indicators, salt pollution.
Acknowledgements
Financial support for this study was provided as part of the National Action Plan for Salinity and Water Quality. B. J. Kefford was funded by the Queensland Department of Natural Resources and Water and the National Rivers Contaminants Program a joint initiative of Land and Water Australia (LWA) and the Murray-Darling Basin Commission (LWA Project No. RMI 12). The authors thank Raj Prasad, Jaye Lobegeiger, Glenn McGregor, Peter Negus and Satish Choy for their help during the various stages of the project.
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