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Measurement of pollutant toxicity to fish. II. Utilizing and applying bioassay results

Authors :
John B. Sprague
Source :
Water Research. 4:3-32
Publication Year :
1970
Publisher :
Elsevier BV, 1970.

Abstract

It is now possible to predict toxicity of mixtures of two or more pollutants on the basis of chemical measurements. Toxicities of individual components are added up as fractions of the incipientlc50 (lethal threshold concentration). Total toxicity of the mixture is expressed as a single number. A standard terminology is given for the effects of two or more toxicants acting simultaneously. Modifying conditions (temperature, water hardness, etc.) greatly affect toxicity. Much fragmentary information should be brought together and examined for underlying patterns. Concise summaries for estimating modifying effects have been published for rainbow trout. Computerized multivariable analysis is a promising tool, especially for studies of sublethal toxicity. Effects of fluctuating concentrations of toxicants may be evaluated by four approximate techniques; the theoretical basis for understanding effects still seems unproven. Acclimation to toxicants should be studied in detail for representative pollutants. There is a great deal of information on relative resistance of different species of fish but it needs summarizing. A trend towards use of ‘standard’ fish species in research is good. With invertebrates and algae, as much as with fish, tests of sublethal effects such as growth and development are often more meaningful than tests of acute toxicity. Chemical autopsy methods seem promising, more so than histopathological approaches, which suffer from practical difficulties in field situations.

Details

ISSN :
00431354
Volume :
4
Database :
OpenAIRE
Journal :
Water Research
Accession number :
edsair.doi...........3394eb11856ab556310a5679b8672443
Full Text :
https://doi.org/10.1016/0043-1354(70)90018-7