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http://dx.doi.org/10.5657/kfas.2004.37.3.209

Rapid Bioassay Technique Based on Temperature Control of Ceriodaphnia dubia  

PARK Jong Ho (Department of Inland Fisheries Research Institute, Chung Cheong Buk-Do)
LEE Sang Ill (Department of Environmental Engineering, Chung Buk National University)
CHO Young Oak (Department of Environmental Engineering, Chung Buk National University)
LEE Won Ho (Department of Construction & Urban Engineering, Chung Ju National University)
YEON Ik Jun (Department of Environmental Engineering, Chung Ju National University)
CHO Kyu Seok (Department of Inland Fisheries Research Institute)
Publication Information
Korean Journal of Fisheries and Aquatic Sciences / v.37, no.3, 2004 , pp. 209-214 More about this Journal
Abstract
A method for rapid acute toxicity test based on temperature control of Ceriodaphnia dubia has been developed and evaluated. A new toxicity test based on temperature control (TTBTC) which are based on temperature control, was developed and compared for the adsorption of the better methodology for short-term toxicity screening. Initially, daphnid larval are exposed to toxicants and at the same time the temperature of the water bath containing media is increased to high temperature $(35.5^{\circ}C).$ After 1.25 hrs of contact time, the number of the daphnids, either living (no toxic effect) or dead (toxic effect), is counted by the naked eyes. Effect of exposure time on test sensitivity was not significantly different between 1 to 1.5 hr. Comparison of the rapid 1.25 hr acute toxicity test developed in this study and the standard 48 hr acute toxicity test using heavy metals, cyanide and pentachlorophenol indicated that the 1.25 hour test provides an acceptable level of sensitivity in toxicity test for C. dubia.
Keywords
Ceriodaphnia dubia; Acute toxicity test; Toxicants; TTBTC; Heavy metal;
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  • Reference
1 Liu, D. and B.J. Dutka. 1984. Toxicity Screening Pro-cedures Using Bacterial Systems. Marcel Dekker, New York, pp. 476
2 Lester, J.N., R. Perry and A.H. Dadd. 1970. The influence of heavy metals on a mixed bacterial population of sewage origin in the chemostat. Water Res., 13, 1053-1055
3 Lydy, M.J., K.A. Burner., D.M. Fry and S.W. Fisher. 1990. Effect of sediment and the route of exposure on the toxicity and accumulation of natural liphophilic and moderately water soluble metabolizable com- pounds in the midge, Chironomus riparius. In: Aquatic Toxicology and Risk assessment Vol. 13. Landis, W.G., van der Schalie W.H. eds. ASTM STP 1096. American Society for Testing and Materials, Phila-delphia, PA, 140-164
4 Mayer, F.L and M.R. Ellersieck. 1988. Experience with single-species tests for acute toxic effects in fresh- water animals. Ambio, 17, 367-375
5 Aqua Survey, Inc. 1991. Aqua Survey Newsletter, Publication 800. Flemington, NJ, pp. 654-684
6 Bitton, G. 1983. Bacterial and biochemical tests for assessing chemical toxicity in aquatic environment, a review. CRC Crit. Rev. Environ. Control, 13, 51-67   DOI   ScienceOn
7 Bitton, G. and B.J. Dutka. 1986. Toxicity Testing Using Microorganism (Vol 1 and 2). CRC Press, Boca Ranton, FL, pp. 27-55
8 Bitton, G. and B. Koopman. 1992. Bacterial and enzymatic bioassays for toxicity testing in the environment. Rev. Environ. Contam. Toxicol., 125, 1-22   DOI
9 Bitton, G., B. Koopman and O. Agami. 1992. MetPADTM: A bioassay for rapid assessment of heavy metal toxicity in wastewater. Water Environ. Res., 64, 834-846   DOI
10 Bitton, G., K. Rhodes and B. Koopman. 1996. CerioFAST: an acute toxicity test based on Ceriodaphnia dubia feeding behavior. Environ. Toxicol. Chem., 15, 123-131   DOI
11 Dutka, B.J., N. Nyholm and J. Petersen. 1983. Comparison of several microbiological toxicity screening tests. Water Res., 17, 1363-1368   DOI   ScienceOn
12 Giesy, J.D., R.L. Graney, C.J. Rousiu and A. Benda. 1988. Comparison of three sediment bioassay methods using Detroit river sediment. Environ. Toxicol. Chem., 7, 486-498
13 Janssen, C.R. and G. Personne. 1993. Rapid toxicity screening tests for aquatic biota. 1. Methodology and experiments with Daphnia magna. Environ. Toxicol. Chem., 12, pp. 711   DOI   ScienceOn
14 Ribo, J.M. and K.L.E. Kaiser. 1987. Photobacterium phosphoreum toxicity bioassay. I. test procedures and application. Tox. Assess., 2, 305-323   DOI
15 Munkittrick, K.R., E.A. Power and G.A. Sergy. 1991. The relative sensitivity of Microtox, daphnids, rainbow trout, and fathead minnow acute lethality tests. En- viron. Toxicol. Water Qual., 6, 35-62   DOI
16 OECD (Organisation for Economic Co-operation and Development). 2000. OECD guidelines for testing of chemicals: Revised proposal for updating guideline 202: Daphnia sp., acute immobilisation test
17 Park, J.H. 2003. Development and applications of short- term acute toxicity test using Ceriodaphnia dubia. Ph.D. Thesis, Chungbuk Natl. Univ., pp. 190. (in Korean)
18 Shcherban, P.E. 1979. Toxicity of some heavy metals for D. magna strus, as a function of temperature. J. Hydrobiol., 13, 75-80   DOI   ScienceOn
19 USEPA (US Environmental Protection Agency). 1989. Short-term method for estimating the chronic toxicity of effluents and receiving water to freshwater pro-grams 2nd ed. EPA/600/4-89/00
20 USEPA (US Environmental Protection Agency). 1994. US EPA toxicity data analysis software. Environmental Monitoring Systems Laboratory, Cincinnati, OH
21 Khangarot, B.S. and P.K. Ray. 1987. Correlation between heavy metal acute toxicity values Daphnia magna and fish. Bull. Environ. Contam. Toxicol., 38, 722- 726   DOI   ScienceOn
22 Kong, I.C., G. Bitton, B. Koopman and K. Jung. 1995. Heavy metal toxicity testing in environmental sam- ples. Rev. Environ. Contam. Toxicol., 142, 119-147   DOI
23 Lee, C.W., Y.T. Kwon, J.S. Yun and S.W. Moon. 2002. Toxicity test of wetland sediments by Simocephalus mixtus. J. Environ. Sci., 851-855
24 Lee, S.E and S.K. Lee. 1996. Biological sensors for detecting aquatic toxicity of hazardous chemicals using respiratory and movement responses of carp, Cyprinus capio. J. Kor. Soc. Water Qual., 12, 119-126. (in Korean)
25 Lee, S.K., D. Freitag, C. Steinberg, A. Kettrup and Y.H. Kim. 1993. Effects of dissloved humic materials on acute toxicity of some organic chemicals to aquatic organism. Water Res., 27, 199-204   DOI   ScienceOn