Record Display for the EPA National Library Catalog

RECORD NUMBER: 6 OF 35

OLS Field Name OLS Field Data
Main Title Comparative toxicity of sewage-effluent disinfection to freshwater aquatic life /
Author Arthur, John W. ; Andrew, Robert W. ; Mattson, Vincent R. ; Olson, Donald T. ; Glass., Gary E.
CORP Author Environmental Research Lab., Duluth, Minn.
Publisher U.S. Environmental Protection Agency, Office of Research and Development, Environmental Research Laboratory,
Year Published 1975
Report Number EPA/600/3-75-012; EPA-ROAP-06AOJ-005
Stock Number PB-248 653
Subjects Sewage--Purification--Chlorination. ; Aquatic ecology--Toxicology. ; Freshwater fishes. ; Fishes--Effect of water pollution on. ; Chlorine--Toxicology.
Additional Subjects Sewage treatment ; Chlorination ; Bioassay ; Ozone ; Aquatic biology ; Coliform bacteria ; Fresh water fishes ; Invertebrates ; Minnows ; Disinfection ; Toxicity ; Exposure ; Daphnia ; Residues ; Ozonization ; Concentration(Composition) ; Dechlorination ; Crustacea ; Sewage treatment effluent
Holdings
Library Call Number Additional Info Location Last
Modified
Checkout
Status
NTIS  PB-248 653 Most EPA libraries have a fiche copy filed under the call number shown. Check with individual libraries about paper copy. NTIS 01/01/1988
Collation 61 pages : illustrations ; 28 cm.
Abstract
Flow-through laboratory bioassays were conducted with a domestic secondary sewage effluent that had been disinfected by chlorination, by chlorination followed by dechlorination, and by ozonation. Effluent without disinfection served as a control. Disinfection with chlorine and ozone generally maintained the effluent at total coliform levels of less than 1,000 per 100 ml. Lake Superior water served as the diluent source for the experiments. Short-term exposures were conducted with 13 species (seven fish and six invertebrates), and long-term (generation) tests were performed with three species (one fish and two invertebrates). In both series of tests the chlorinated effluent was lethal at appreciably lower concentrations than any of the other three effluent treatments. Fish were more sensitive than the invertebrates to the chlorinated effluent in 7-day tests. Residual ozone rapidly decreased in the treated effluent and was not measureable in the test tanks. When special short-term test procedures and shorter retention times for the ozonated effluent were used, measured residual ozone was about as lethal to fathead minnows as residual chlorine. The highest mean total residual chlorine concentrations having no long-term adverse effect on fathead minnows, amphipods, and Daphnia were 14, 12, and 2-4 micrograms/l, respectively. No daphnids survived at approximately 10 micrograms/l mean total residual chlorine, a concentration that corresponds to a chlorinated sewage concentration of about 2.5%.
Notes
Microfiche.