Effect of suspended bentonite clay on the acute toxicity of glyphosate toDaphnia pulex andLemna minor

  • William A. Hartman
  • Dan B. Martin


Clay Toxicity Waste Water Water Management Water Pollution 
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  1. Brungs WA, Bailey GW (1967) Influence of suspended solids on the acute toxicity of endrin to fathead minnows. Proc 21st Purdue Industrial Waste Conf, Eng Bull Purdue Univ 50(2):4–12Google Scholar
  2. Committee of Scientists of Agricultural Research Service USDA (1975) Control of water pollution from cropland, vol I. US Department of Agriculture, Washington, 111 ppGoogle Scholar
  3. Committee on Methods for Toxicity Tests with Aquatic Organisms (1975) Methods for acute toxicity tests with fish, macroinvertebrates, and amphibians. (Ecological Research Series EPA-660/3-75-009), US Environmental Protection Agency, Washington, 61 ppGoogle Scholar
  4. Holland DG (1977) A handbook for aquatic herbicides. (TS/BS/77-3), North West Water Authority, Warrington, 22 ppGoogle Scholar
  5. Hongve D, Skogheim OK, Hindar A, Abrahamsen H (1980) Effects of heavy metals in combination with NTA, humic acid, and suspended sediment on natural phytoplankton photosynthesis. Bull Environ Contain Toxicol 25:594–600Google Scholar
  6. Johnson WW, Finley MT (1980) Handbook of acute toxicity of chemicals to fish and aquatic invertebrates. (Resource Publication 137), US Fish and Wildlife Service, Washington, 98 ppGoogle Scholar
  7. Litchfield JT, Wilcoxon F (1949) A simplified method of evaluating dose-effect experiments. J Pharmacol Exp Ther 96:99–113Google Scholar
  8. Martin DB, Novotny JF (1975) Studies to determine methods for culturing three freshwater zooplankton species. (Ecological Research Series EPA-660/3-75-010), US Environmental Protection Agency, Washington, 33 ppGoogle Scholar
  9. Miller WE, Greene JC, Shiroyama T (1978) The Selenastrum capricornutum Printz algae assay bottle test. (EPA-600/9-78-018), US Environmental Protection Agency, Washington, 132 ppGoogle Scholar
  10. Pesch CE, Morgan D (1978) Influence of sediment in copper toxicity tests with the polychaete Neanthes arenaceodentata. Water Res 12:747–751Google Scholar
  11. Schober U, Lampert W (1977) Effects of sublethal concentrations of the herbicide Atrazin on growth and reproduction of Daphnia pulex. Bull Environ Contain Toxicol 17:269–277Google Scholar
  12. Sharom MS, Miles JRW, Harris CR, McEwen FL (1980) Behaviour of 12 insecticides in soil and aqueous suspensions of soil and sediment. Water Res 14:1095–1100Google Scholar
  13. Sprankle P, Meggitt WF, Penner D (1975) Adsorption, mobility, and microbial degradation of glyphosate in the soil. Weed Sci 23:229–234Google Scholar
  14. Walbridge CT (1977) A flow-through testing procedure with duckweed (Lemna minor L). (Ecological Research Series EPA-600/3-77-108), US Environmental Protection Agency, Washington, 20 ppGoogle Scholar

Copyright information

© Springer-Verlag New York Inc. 1984

Authors and Affiliations

  • William A. Hartman
    • 1
  • Dan B. Martin
    • 1
  1. 1.Columbia National Fisheries Research LaboratoryYankton

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