Summary
Acute toxicity tests using a static-with-replacement testing procedure were carried out with the four larval instars of the freshwater detritivore Chironomus riparius (Meigen). Median lethal concentrations (10, 24, 48 and 96 h LC50's) indicated great differences in sensitivity to cadmium between instars. Larvae became more tolerant with increasing age, the most resistant stage (fourth instar) having a 24 h LC50 of 2,400 mg Cd l-1, approximately 950 times greater than the corresponding value of 2.1 mg Cd l-1 recorded for the most sensitive (first instar) stage. These observations are discussed in relation to the establishment of water quality standards.
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References
Ball IR (1967) The toxicity of cadmium to rainbow trout (Salmo gairdneri Richardson). Wat Res 1:805–806
Buhler DR (1972) Environmental contamination of toxic metals. In: Heavy Metals in the Environment. Oregon State University. Corvallis p 20
Clubb RW, Gaufin AR, Lords JL (1975) Acute cadmium toxicity studies upon nine species of aquatic insects. Environ Res 9:332–341
E.I.F.A.C. (1977) Water quality criteria for European freshwater fish. Report on cadmium and freshwater fish. Technical paper No. 30. F.A.O. Rome
Gauss JD, Woods PE, Winner RW, Skillings JH (1985) Acute toxicity of copper to three life stages of Chironomus tentans as affected by water hardness-alkalinity. Environ Pollut (Series A) 37:149–157
Giesy JP, Leversee GJ, Williams DR (1977) Effects of naturally occurring aquatic organic fractions on cadmium toxicity to Simocephalus serrulatus (Daphnidae) and Gambusia affinis (Poeciliidae). Water Res 11:1013–1020
Gower AM, Buckland PJ (1978) Water quality and the occurrence of Chironomus riparius Meigen. (Diptera: Chironomidae) in a stream receiving sewage effluent. Freshwat Biol 8:153–164
Hiatt V, Huff JE (1975) The environmental impact of cadmium: An overview. Int J Environ Studies 7:227–285
Holloway MTP (1983) Factors controlling the productivity of a benthic detritivore (Chironomus riparius). Unpublished PhD thesis UWIST Cardiff
Hubuschman JH (1967) Effects of copper on the crayfish (Orconectes rusticus). I Acute Toxicity. Crustaceana 12:33–42
Kinkade ML, Erdman HE (1975) The influence of hardness components Ca2+ and Mg2+ in water on the uptake and concentration of cadmium in a simulated freshwater ecosystem. Environ Res 10:308–313
Learner MA, Edwards RW (1966) The distribution of the midge Chironomus riparius in a polluted river system and its environs. Air Water Pollut Int J 10:757–768
Learner MA, Potter DWB (1974) The seasonal periodicity of emergence of insects from two ponds in Hertfordshire, England, with special reference to the Chironomidae (Diptera: Nematocera). Hydrobiologia 44:495–510
Litchfield JT (1949) A method for rapid graphic solution of timepercent effect curves. J Pharmac exp Ther 97:399–408
Maki AW, Geissel L, Johnson HE (1975) Comparative toxicity of the larval lampricide TFM (3 trifluoromethyl-4-nitrophenol) to selected benthic macroinvertebrates. J Fish Res Bd Canada 32:1455–1459
McCauley VJE (1974) Instar differentiation in larval chironomidae (Diptera). Can Ent 106:179–200
McKim JM (1977) Evaluation of tests with early life stages of fish for predicting long-term toxicity. J Fish Res Bd Can 34:1148–1154
Merna JW, Eisele PJ (1973) The effects of methoxychlor on aquatic biota. U.S. Environmental Protection Agency. Ecol Res Ser EPA-R3-73-046
Mohlenberg F, Jensen A (1980) The ecotoxicology of cadmium in fresh and seawater and water pollution with cadmium in Denmark. Charlottenlund Natn Angency Envir Protect Mar Poll Lab 42 pp
Murphy PM (1980) A manual for toxicity testing with freshwater macroinvertebrates and a review of the effects of specific toxicants. Department of Applied Biology UWIST Cardiff. 105 pp
Rehwoldt R, Lasko L, Shaw C, Wirhowski E (1973) The acute toxicity of some heavy metal ions towards benthic organisms. Bull Environ Contam Toxicol 10:291–294
Sanders HO (1969) Toxicity of pesticides to the crustacean Gammarus lacustris. U.S. Bureau of Sport, Fisheries and Wildlife. Technical paper No. 25, U.S. Government Printing Office, Washington D.C.
Sanders HO, Cope OB (1968) The relative toxicities of several pesticides to naiads of three species of stonefly. Limnol Oceanogr 33:112–117
Smith LL, Oseid DM, Adelman IR, Broderius SJ (1976) Effect of hydrogen sulphide on fish and invertebrates. Part 1. Acute and chronic toxicity studies. U.S. Environmental Protection Agency. Ecol Res Ser EPA-600/3-76-062(a)
Taylor D (1977) A summary of the data on the toxicity of various materials to aquatic life. Volume II: Cadmium. Imperial Chemical Industries Ltd., Brixham Laboratory, U.K. 21 pp
Thienemann A (1954) Chironomus. Leben, Verbreitung und wirtschaftliche Bedeutung der Chironomiden. Binnengewässer 20:1–834
Wier CF, Walter WM (1976) Toxicity of cadmium in the freshwater snail Physa gyrina (Say). J Environ Qual 5:359–362
Williams KA, Green DWJ, Pascoe D (1984) Toxicity testing with freshwater macroinvertebrates: Methods and application in environmental management. In: Freshwater Biological Monitoring. Pascoe D, Edwards RW (eds) Advances in Water Pollution Control. Pergamon p 167
Williams KA, Green DWJ, Pascoe D (1985) Studies on the acute toxicity of pollutants to freshwater macroinvertebrates. 1 Cadmium. Arch Hydrobiol 102, 4:461–471
Woodworth J, Pascoe D (1982) Cadmium toxicity to rainbow trout Salmo gaaidneri Richardson: a study of eggs and alevins. J Fish Biol 21:47–57
Wright DA (1981) Effect of calcium on cadmium toxicity in the freshwater amphipod. Gammarus pulex (L.) Arch Envir Contam Toxicol 10:321–328
Wurtz CB (1962) Zinc effects on freshwater molluscs. Nautilus 76:53–61
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Williams, K.A., Green, D.W.J., Pascoe, D. et al. The acute toxicity of cadmium to different larval stages of Chironomus riparius (Diptera: Chironomidae) and its ecological significance for pollution regulation. Oecologia 70, 362–366 (1986). https://doi.org/10.1007/BF00379498
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DOI: https://doi.org/10.1007/BF00379498