Abstract
A sediment study, involving both chemical and biological analyses, was carried out in the St. Lawrence River near Montreal (Lake St. Louis). About 60 stations were sampled during 1984-85, and the sediments were analyzed for support variables, heavy metals, and organochlorinated compounds. Subsamples were elutriated using a 1 to 4 sediment/water ratio. The resulting elutriates were analyzed for several chemical variables, while toxicity was measured using the Microtox test, algal 14C assimilation, and lethality/developmental inhibition in cladocerans, rotifers, and nematodes. The results showed a great variety of responses and sensitivity, and correlations between the tests were non-significant. In terms of toxic responses, the algal and Microtox tests were the most sensitive. Toxic responses could not be explained in simple terms of contaminant concentrations. Therefore, the chemistry of elutriates is not predictive of the toxic potential of contaminated sediments. Biotests can give an insight into the hazard assessment of sediments, but no single test will be sufficient; the use of a battery of standardized biotests, representing different levels of organization/food chain, including representative natural species, is highly recommended.
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References
Ahlf, W., W. Calmano, J. Erhard & U. Forstener, 1989, Comparison of seven bioassay techniques for assessing sediment-bound contaminants. In; M. Munawar, G. Dixon, C. Mayfield, T. Reynoldson and M. H. Sadar (eds.), Environmental Bioassay Techniques and their Application. Hydrobiologia. This volume.
Allan, R. J., 1986. The limnological units of the Lower Great Lakes - St. Lawrence River corridor and their role in the source and aquatic fate of toxic contaminants. Wat. Pollut. Res. J. Can. 21(2): 168–186.
Allan, R. J., 1988. Toxic chemical pollution of the St. Lawrence River (Canada) and its upper estuary. Wat. Sci. Tech., 20 (6/7): 77–88.
Biesinger, K. E. & G. M. Christensen, 1972. Effects of various metals on survival, growth, reproduction, and metabolism of Daphnia magna. J. Fish Res. Bd. Can. 29: 1691–1700.
Bulich, A. A. & D. L. Isenberg, 1981. Use of the luminescent bacterial system for the rapid assessment of aquatic toxicity. Trans. Am. Inst. Soc., 20: 29–33.
Canadian Council of Resource and Environment Ministers, 1987. Canadian Water Quality Guidelines. Water Quality Branch, Inland Waters Directorate, Environment Canada. Ottawa. 504 pp.
Champoux, L., 1986. Réponses aigües et chroniques de deux cladocères indigènes aux contaminants des sédiments du lac Saint-Louis (fleuve Saint-Laurent). Mémoire de maitrise, Université de Montréal. 101 pp. et annexes.
Champoux, L. E., P. E. Ross, V. Jarry, H. Sloterdijk, A. Murdroch & Y. Couillard, 1987. Libération par élutriation des contaminants des sédiments du lac Saint-Louis (fleuve Saint-Laurent). Rev. Int. Sci. Eau, 2(4): 95–107.
Champoux, L. & H. Sloterdijk, 1988. Etude de la qualité des sédiments du lac Saint-Louis, 1984–1985. Rapport technique No. 1: Géochimie et contamination. Environnement Canada, Direction des eaux intérieures, Région du Québec. 177 pp.
Champoux, L., H. Sloterdijk, Y. Couillard, V. Jarry & F. Ross, 1989. Etude de la qualité des sédiments du lac Saint-Louis (fleuve Saint-Laurent) 1984–1985. Rapport technique no. 2: Contamination et toxicité des élutriats. Direction des eaux intérieures, Environnement Canada, région du Québec. 106 pp.
Clark, P. J. & F. C. Evans, 1954. Distance to neighbour as a measure of spatial relationships in populations. Ecology, 35: 445–453.
Couillard, D., 1983. BPC et pesticides organochlorés dans le système Saint-Laurent. Can. Wat. Res, J. 8: 32–63.
Couillard, Y., 1987. Variabilité psysico-chimique, et évaluation toxicologique a Taide de Brachionus calyciflorus (Rotifera), d’élutriats de sédiments du lac Saint-Louis (fleuve Saint-Laurent, Québec). Mémoire de maitrise, Université de Montréal, 143 pp.
Couillard, Y., B. Pinel-Alloul, P. Ross, H. Sloterdijk, L. Champoux & V. Jarry, 1987. Evaluation toxicologique, par élutriation des sédiments du lac Saint-Louis (fleuve Saint-Laurent, Québec) a l’aide du rotifére Brachionus calyciflorus. Revue internationale des sciences de l’eau, 3 (3–4): 84–94.
De Groot, A. J., J. J. M. De Goeij & C. Zegers, 1971. Contents and behaviour of mercury as compared with other heavy metals in sediments from the rivers Rhine and Ems. Geol. Mijnb. 50 (3): 393–398.
Dougenik, C. A. & D. E. Sheenan, 1977. Symap user’s reference manual. Laboratory for computer graphics and spatial analysis. Graduate School of Design, Harvard University.
Environment Canada, 1979. Analytical Methods Manual. Water Quality Branch, Inland Waters Directorate, Environment Canada, Ottawa, Canada.
Environment Canada, 1985. National Water Quality Data Bank (NAQUADAT), 1981–1984. Water Quality Branch, Inland Waters Directorate, Ottawa.
Fitzwater, S. E., A. K. Knawer & J. H. Martin, 1982. Metal contamination and its effects on primary production measurements. Limnol. Oceanog., 27: 544–551.
Germain, A. & M. Janson, 1984. Qualité des eaux du fleuve Saint-Laurent de Cornwall ä Québec (1977–1981). Rapport technique, Environnement Canada, Direction générale des eaux intérieures, Région du Québec. 232 pp.
Golterman, H. L., 1975. Physiological Limnology. Elsevier Scientific Publishing Company, New York. 429 pp.
Jarry, V., 1986. Répartition spatiale et effet phytotoxique des contaminants dans les sédiments du lac Saint-Louis (fleuve Saint-Laurent). Mémoire de maitrise, Université de Montréal. 90 pp. et annexes.
Jarry, V., P. E. Ross, L. Champoux, H. Sloterdijk, Y. Couillard, A. Mudroch & F. Lavoie, 1985. Répartition spatiale des contaminants dans les sédiments du lac Saint-Louis, Wat. Pollut. Res, J. Can. 20 (2): 75–99.
Kwan, K. K. & B. K. Dutka, 1985. Microbiological studies of Lake St. Louis sediments, 1984. Microbiology Laboratories Section, Analytical Methods Division, National Water Research Institute, Canada Centre for Inland Waters, Burlington, Ontario.
Legendre, L, & P. Legendre, 1984. Ecologie numérique. Masson (Paris) et les Presses de l’Université du Québec. Tome I: 260 pp. et Tome II: 335 pp.
Levin, S. A. & K. D. Kimball (eds.), 1984. New perspectives in ecotoxicology. Envir. Mgt. 8 (5) 375–442.
Levings, C. D., 1983. Les conséquences écologiques du dragage et de rélimination des résidus de dragage dans les eaux canadiennes. Conseil national de recherches du Canada, Comité associé sur les critères scientifiques concernant l’état de l’environnement No. 181,publ. 18131. 150 pp.
Marquenie, J. M., 1985. Bioavailability of micropollutants, Envir. Technol. Letters 6: 351–358.
Munawar, M., R. L. Thomas, H. Shear, P. McKee & A. Mudroch, 1984. An overview of sediment-associated contaminants and their bioassessment. Can. Tech. Rep. Fish. Aquat. Sci., 1253. 136 pp.
Munawar, M., R. L. Thomas, W. P. Norwood & S.A. Daniels, 1986. Sediment toxicity and production-biomass relationships of size-fractionated phytoplankton during on-site simulated dredging experiments in a contaminated pond. In: P. C. Sly (ed.), Sediment and Water Interaction, Springer-Verlag, pp. 407–426.
Munawar, M. & I. F. Munawar, 1987. Phytoplankton bioassays for evaluating toxicity of in situ sediment contaminants. Hydrobiologia, 149: 87–105.
Munawar, M., Munawar, I. F., Mayfield, C. & L. H. McCarthy, 1989. Probing ecosystem health: a multi-disciplinary and multitrophic assay stategy. In; M. Munawar, G. Dixon, C. Mayfield, T. Reynoldson & M. H. Sadar (Eds.), Environmental Bioassay Techniques and their Application. Hydrobiologia. This volume.
Munawar, M., P. T. S. Wong & G.-Y. Rhee, 1988. The effects of contaminants on algae: an overview. In: W. Schmidtke (ed.) Toxic Contamination in Large Lakes. Vol. I, Chronic Effects of Toxic Contaminants in Large Lakes. Lewis Publishers, Chelsea, Mich. pp. 113–160.
Ross, P., V. Jarry & H. Sloterdijk, 1988. A rapid bioassay using the green algal Selenastrum capricornutum to screen for toxicity in St. Lawrence River sediment elutriates. In: J. Cairns, Jr. & J. R. Pratt (Eds.) Functional testing of aquatic chemicals, ASTM STP 1988. American Society for Testing and Materials, Philadelphia, pp. 68–73.
Samoiloff, M. R., S. Schulz, Y. Jordan, K. Denich & E. Arnott, 1980. A rapid simple long-term toxicity assay for aquatic contaminants using the nematode Panagrellus redivivus. Can. J. Fish, aquat. Sci. 37: 1167–1174.
Samoiloff, M. R., J. Bell, A. Birkholz, G. R. B. Webster, E. G. Arnott, R. Pulak & A. Madrid, 1983. Combined bioassay - chemical fractionation scheme for the determination and ranking of toxic chemicals in sediments. Envir. Sci. Technol. 17: 329–334.
Schlüter, M., 1980. Mass culture experiments with Brachionus rubens. Hydrobiologia, 73: 45–50.
Sérodes, J.-B., 1978. Qualité des sédiments de fond du fleuve Saint-Laurent entre Cornwall et Montmagny. Rapport technique No. 15. Comité d’étude sur Ie fleuve Saint-Laurent, Environnement Canada et Service de la protection de l’environnement du Québec, l’éditeur officiel du Québec. 497 pp.
Sloterdijk, H., 1985. Substances toxiques dans les sédiments du lac Saint-Frangois (fleuve Saint-Laurent, Québec). Rapport Technique, Environnement Canada, Direction générale des eaux intérieures, Région du Québec. 77 pp.
Sly, P. G., H. L. Golterman & R. L. Thomas, 1981. Importance des sédiments dans l’étude de l’environnement aquatique. Buil. Qual. des Eaux, 6 (2): 29–33 & 53–54.
Smith, R. L. & B. R. Hargreaves, 1983. A simple toxicity apparatus for continuous flow with small volumes. Bull. Envir. Contam. Toxic. 30(4): 406–413.
Steeman-Nielsen, E., 1952. The use of radioactive carbon (14C) for measuring organic production in the sea. J. Cons. Int. Explor. Mer, 18: 117–140.
United States Environmental Protection Agency/Corps of Engineers, Technical Committee on Criteria for Dredged and Fill Material, 1977. Ecological Evaluation of Proposed Discharge of Dredged Material into Ocean Waters: Implementation Manual for Section 103 of Public Law 92–532 (Marine Protection, Research and Sanctuaries Act of 1972) (Second Printing, April 1978) Environm. Effects Lab., U.S. Army Engin. Waterways Exper. Stat. Vicksburg, Mississippi.
Vollenweider, R. A., M. Munawar & P. Stadelman, 1974. A comparative review of phytoplankton and primary production in the Laurentian Great Lakes. J. Fish. Res. Bd. Can., 31: 739–762.
Wetzel, R. G., 1975. Limnology. Saunders, Philadelphia. 743 pp.
Wong, P. T. S. & P. Couture, 1986. Toxicity screening using phytoplankton. In: B. J. Dutka & G. Bitton (eds.). Toxicity Testing Using Microorganisms. Vol. II CRC Press, Boca Raton, Florida, pp. 79–100.
Wong, P. T. S., Y. K. Chau & P. L. Luxon, 1978. Toxicity of a mixture of metals on freshwater algae. J. Fish. Res. Bd. Can., 35: 479–481.
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Sloterdijk, H., Champoux, L., Jarry, V., Couillard, Y., Ross, P. (1989). Bioassay responses of micro-organisms to sediment elutriates from the St. Lawrence River (Lake St. Louis). In: Munawar, M., Dixon, G., Mayfield, C.I., Reynoldson, T., Sadar, M.H. (eds) Environmental Bioassay Techniques and their Application. Developments in Hydrobiology, vol 54. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-1896-2_30
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