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References

  • 1
    Walsh, G. E., L. H. Bahner and W. B. Horning, 1980. Toxicity of textile mill effluents to freshwater and estuarine algae, crustaceans and fishes. Environ. Pollut. Ser. A 21: 169179.
  • 2
    Walsh, G. E., K. M. Duke and R. B. Foster, 1982. Algae and crustaceans as indicators of bioactivity of industrial wastes. Water Res. 16: 879883.
  • 3
    Adema, D. M. M., J. Kuiper, A. O. Hanstveit and H. H. Canton, 1983. Consecutive system of tests for assessment of the effects of chemical agents in the aquatic environment. In J.Miyamoto, ed., IUPAC Pesticide Chemistry: Human Welfare and the Environment. Pergamon Press, Elmsford, NY, pp. 537544.
  • 4
    Walsh, G. E. and R. G. Merrill, 1984. Algal bioassays of industrial and energy process effluents. In L. E.Schubert, ed., Algae as Ecological Indicators. Academic Press, London, UK, pp. 329360.
  • 5
    Blaylock, B. G., M. L. Frank and J. F. McCarthy, 1985. Comparative toxicity of copper and acridine to fish, Daphnia and algae. Environ. Toxicol. Chem. 4: 6371.
  • 6
    Miller, W. E., S. A. Peterson, J. C. Greene and C. A. Callahan, 1985. Comparative toxicology of laboratory organisms for assessing hazardous waste sites. J. Environ. Qual. 14: 569574.
  • 7
    Sloff, W., J. H. Canton and J. L. M. Hermens, 1983. Comparison of the susceptibility of 22 freshwater species to 15 chemical compounds: I. (Sub)acute toxicity tests. Aquat. Toxicol. 4: 113128.
  • 8
    Mosser, J. L., N. S. Fisher and C. F. Wurster, 1972. Polychlorinated biphenyls and DDT alter species composition in mixed cultures of algae. Science 176: 533535.
  • 9
    M.Laake, ed, 1982. Ekotoxikologiska metoder för akvatisk mijö. In Miljövärds-serien Publication 1982:2. Nordic Cooperative Organization for Applied Research, Helsinki, Finland.
  • 10
    Kenaga, E. E. and R. J. Moolenaar, 1979. Fish and Daphnia toxicity as surrogates for aquatic vascular plants and algae. Environ. Sci. Technol. 13: 14791480.
  • 11
    Kenaga, E. E., 1982. Hazard assessment. Review: The use of environmental toxicology and chemistry data in hazard assessment: Progress, needs, challenges. Environ. Toxicol. Chem. 1: 6979.
  • 12
    International Standards Organization, 1980. Evaluation of the results of the European ISO-test programme with algal toxicity tests (by A. O. Hanstveit). ISO/TC 147/SC 5/WG 5 N 16. Nederlands Normalisatie Instituut, Delft, Netherlands.
  • 13
    Hanstveit, A. O. and H. Oldersma, 1981. Evaluation of the results of the second ISO-interlaboratory study with an algal toxicity test. ISO/TC 147/SC5/WG 5. Prepared for the International Standards Organization by Nederlands Normalisatie Instituut, Delft, Netherlands.
  • 14
    Källqvist, T. and K. Ormerod, 1981. Ringtest med 48 mikrobielle toksikologiske metoder over for: Phenol, anisol, Na-laurylsulfat, kobbersulfat. Ekotoxikologiska metoder för akvatisk miljö. Report No. 25. Nordic Cooperative Organization for Applied Research, Helsinki, Finland.
  • 15
    Nyholm, N, 1982. Evaluation of batch culture algal toxicity tests, with special reference to the proposed ISO draft method. ISO/TC 147/SC5/WG 5 N 70. Nederlands Normalisatie Instituut, Delft, Netherlands.
  • 16
    Klaine, S. J. and C. H. Ward, 1983. Growth-optimized algal bioassays for toxicity evaluation. Environ. Toxicol. Chem. 2: 245249.
  • 17
    Maloney, T. E. and C. M. Palmer, 1956. Toxicity of six chemical compounds to thirty cultures of algae. Water Sewage Works 103: 509513.
  • 18
    Blanck, H., G. Wallin and S. Wängberg, 1984. Species dependent variation in algal sensitivity to chemical compounds. Ecotoxicol. Environ. Safety 8: 339351.
  • 19
    Riedel, G. F., 1988. Interspecific and geographical variation of the chromium sensitivity of algae. In G.Suter and M.Lewis, eds., Aquatic Toxicology and Hazard Assessment: Eleventh Symposium. STP 1007. American Society for Testing and Materials, Philadelphia, PA (in press).
  • 20
    Hanstveit, A. O., 1982. Evaluation of the results of the third ISO-interlaboratory study with an algal toxicity test. ISO/TC 147/SC 5/WG 5. Nederlands Normalisatie Instituut, Delft, Netherlands.
  • 21
    International Standards Organization, 1984. Draft method. Algal growth inhibition test. ISO/TC 147/SC 5/WG 5 N 84. Nederlands Normalisatie Instituut, Delft, Netherlands.
  • 22
    Kotai, J, 1972. Instructions for preparation of modified nutrient solution Z8 for algae. Publication B-11/69. Norwegian Institute for Water Research, Oslo, Norway.
  • 23
    International Standards Organization, 1987. Water quality—Algal growth inhibition test. Draft International Standard ISO/DIS 8692. Geneva, Switzerland.
  • 24
    Nielsen, Steeman E. and M. Willemoes, 1971. How to measure the illumination rate when investigating the rate of photosynthesis of unicellular algae under various light conditions. Int. Rev. Gesamten Hydrobiol. 56: 541556.
  • 25
    Organization for Economic Cooperation and Development, 1984. Guideline for testing of chemicals. No. 201. Alga growth inhibition test. Paris, France.
  • 26
    Commission of the European Communities, 1985. EEC Directive 79/831. Annex V. Part C: Methods for determination of ecotoxicity — level 1. C(L1)1: Algal inhibition test. DG XI/723/81. Brussels, Belgium.
  • 27
    Miller, W. E., J. C. Greene and T. Shiroyama, 1978. The Selenastrum capricornutum Printz algal assay bottle test: Experimental design, application and data interpretation protocol. EPA-600/9-78–018. U.S. Environmental Protection Agency, Corvallis, OR.
  • 28
    Tamiya, H., E. Hase, K. Shibata, A. Mituya, T. Iwamura, T. Nihei and T. Sasa, 1953. Kinetics of growth of Chlorella with special references to its dependence on quantity of available light and on temperature. In J. S.Burlew, ed., Algal Culture from Laboratory to Pilot Plant. Publication 600. Carnegie Institution of Washington, Washington, DC, pp. 204323.
  • 29
    Pipes, W. O. and S. P. Koutsoyannis, 1962. Light-limited growth of Chlorella in continuous cultures. Appl. Microbiol. 10: 15.
  • 30
    Hanson, D. T., A. G. Fredrickson and H. M. Tsuchiya, 1977. Continuous propagation of microalgae: Part III. Material balance relation. Chem. Eng. Progr. Symp. Ser. 67: 114151.
  • 31
    Norwegian Institute for Water Research, 1976. Estimation of algal growth potential. Report No. D2–25. Oslo, Norway.
  • 32
    U.S. Environmental Protection Agency, 1982. Environmental effects test guideline. Algal acute toxicity test. EPA-560/6-82–002. Washington, DC.
  • 33
    Gavis, J., R. R. L. Guillard and B. L. Woodward, 1976. Cupric ion activity and the growth of phytoplankton clones isolated from different marine environments. J. Mar. Res. 39: 315333.
  • 34
    Humphrey, G. F., 1979. Photosynthetic characteristics of algae grown under constant illumination and lightdark regimes. J. Exp. Mar. Biol. Ecol. 40: 6370.
  • 35
    Norland, S., M. Heldal, T. Lien and G. Knutsen, 1978. Toxicity testing with synchronized cultures of the green alga Chlamydomonas. Chemosphere 3: 231245.
  • 36
    Hanstveit, A. O., M. N. van der Hoeven and S. A. L. M. Kooijman, 1987. Effects of xenobiotics on plankton ecosystems. Report No. R 86/296. TNO Division of Technology for Society, Delft, Netherlands.
  • 37
    Canale, R. P. and A. H. Vogel, 1974. Effects of temperature on phytoplankton growth. ASCE Env. Eng. Div. 100 (EE1): 231241.
  • 38
    Fisher, N. S. and C. F. Wurster, 1973. Individual and combined effects of temperature and polychlorinated biphenyls on the growth of three species of phytoplankton. Environ. Pollut. 5: 205212.
  • 39
    Droop, M. R., 1968. Vitamin B-12 and marine ecology: IV. The kinetics of uptake, growth and inhibition in Monochrysis lutheria. J. Mar. Biol. Assoc. U.K. 48: 689733.
  • 40
    Caperon, J. and J. Meyer, 1972. Nitrogen-limited growth of marine phytoplankton. I. Changes in population characteristics with steady-state growth rate. Deep Sea Res. 19: 601681.
  • 41
    Nyholm, N, 1976. A mathematical model for microbial growth under limitation by conservative substrates. Biotechnol. Bioeng. 18: 10431056.
  • 42
    Nyholm, N, 1977. Kinetics of phosphate limited algal growth. Biotechnol. Bioeng. 19: 467492.
  • 43
    Nyholm, N, 1977. Kinetics of nitrogen limited algal growth. Prog. Water Technol. 8: 347358.
  • 44
    Maestrini, S. Y., D. J. Bonin and M. R. Droop, 1984. Phytoplankton as indicators of sea water quality: Bioassay approaches and protocols. In L. E.Shubert, ed., Algae as Ecological Indicators. Academic Press, London, UK, pp. 71132.
  • 45
    Goldman, J. C., D. B. Porcella, E. J. Middlebrooks and D. F. Torien, 1972. Review: The effect of carbon on algal growth—Its relationship to eutrophication. Water Res. 6: 637679.
  • 46
    Goldman, J. C., W. F. Oswald and D. Jenkins, 1974. The kinetics of inorganic carbon limited growth. J. Water Pollut. Control Fed. 46: 554574.
  • 47
    King, D. L. and J. T. Novak, 1974. The kinetics of inorganic carbon limited algal growth. J. Water Pollut. Control Fed. 46: 18121816.
  • 48
    Lehman, J. T., 1978. Enchanced transport of inorganic carbon into algal cells and its implications for biological fixation of carbon. J. Phycol. 14: 3342.
  • 49
    Pipes, W. O., 1962. Carbon dioxide limited growth of Chlorella in a continuous culture. Appl. Microbiol. 10: 281288.
  • 50
    Stumm, W. and J. J. Morgan, 1980. Aquatic Chemistry. John Wiley & Sons, New York, NY.
  • 51
    Peterson, H. G., F. P. Healey and R. Wagemann, 1984. Metal toxicity to algae: A highly pH dependent phenomenon. Can. J. Fish. Aquat. Sci. 41: 974979.
  • 52
    Saarikoski, J. and M. Viluksela, 1981. Influence of pH on the toxicity of substituted phenols to fish. Arch. Environ. Contam. Toxicol. 10: 747753.
  • 53
    Saarikoski, J. and M. Viluksela, 1982. Relation between physicochemical properties of phenols and their toxicity and accumulation in fish. Ecotoxicol. Environ. Safety 6: 501512.
  • 54
    Organization for Economic Cooperation and Development, 1981. Guideline for testing of chemicals. No. 201. Alga, growth inhibition test. Paris, France.
  • 55
    Nielsen, Steemann E. and L. Kamp-Nielsen, 1970. Influence of deleterious concentrations of copper on the growth of Chlorella pyrenoidosa. Physiol. Plants 23: 828840.
  • 56
    Nielsen, Steemann E. and S. Wium-Andersen, 1970. Copper ions as poison in the sea and in fresh water. Mar. Biol. 6: 9397.
  • 57
    Källqvist, T, 1978. Noen erfaringer af alge toksisitets tester ved NIVA. In Toksicitetstester. Fjortonde Nordiska Symposiet om Vattenforskning. Alborg. Publication 1978:2. Nordic Cooperative Organization for Applied Research. Secretariat of Environmental Sciences, Helsinki, Finland, pp. 147166.
  • 58
    Wium-Andersen, S, 1974. The effect of chromium on the photosynthesis and growth of diatoms and green algae. Physiol. Plants 32: 308310.
  • 59
    Wurster, C. F., 1968. DDT reduces photosynthesis by marine phytoplankton. Science 159: 14741475.
  • 60
    Truhaut, R., J. F. Ferrard and J. M. Jounay, 1980. Cadmium IC50 determinations on Chlorella vulgaris involving different parameters. Ecotoxicol. Environ. Safety 4: 215223.
  • 61
    Jouany, J. M., J. F. Ferard, P. Vasseur, J. Gea, R. Truhaut and C. Rast, 1983. Interest of dynamic tests in acute ecotoxicity assessment in algae. Ecotoxicol. Environ. Safety 7: 216228.
  • 62
    Casserly, D. M., E. M. Davis, T. D. Downs and R. K. Guthrie, 1983. Sorption of organics by Selenastrum capricornutum. Water Res. 17: 15911594.
  • 63
    Geyer, H., G. Politzki and D. Freitag, 1984. Prediction of exotoxicological behaviour of chemicals. Relationship between n-octanol/water partition coefficient and bioaccumulation of organic chemicals by alga Chlorella. Chemosphere 13: 264284.
  • 64
    Skulberg, O. M., 1966. Algal cultures as a means to assess the fertilizing influence of pollution. Proceedings, Third International Conference on Water Pollution Research, Washington, DC, pp. 115.
  • 65
    U.S. Environmental Protection Agency, 1971. Algal assay procedure: Bottle test. National Eutrophication Research Program. Pacific Northwest Water Laboratory, Corvallis, OR.
  • 66
    Claesson, A. and A. Forsberg, 1978. Algal assay procedure with one or five species: Minitest. Mitt. Internot. Verein. Limnol. 21: 2130.
  • 67
    Gargas, E. and J. S. Pedersen, 1974. Algal assay procedure. Contributions from the Water Quality Institute, No. 1. Hørsholm, Denmark.
  • 68
    Adams, N., K. H. Goulding and A. J. Dobbs, 1985. Toxicity of eight water-soluble organic chemicals to Selenastrum capricornutum: A study of methods for calculating toxic values using different growth parameters. Arch. Environ. Contam. Toxicol. 14: 333345.
  • 69
    Yamane, A. N., M. Okada and R. Sudo, 1984. The growth inhibition of plankton algae due to surfactants used in washing agents. Water Res. 18: 11011105.
  • 70
    Turbak, S. C., S. B. Olson and G. A. McFeters, 1986. Comparison of algal assay systems for detecting waterborne herbicides and metals. Water Res. 20: 9196.
  • 71
    Adams, N. and A. J. Dobbs, 1984. A comparison of results from two test methods for assessing the toxicity of aminotriazole to Selenastrum capricornutum. Chemosphere 13: 965971.
  • 72
    Smith, P. D., D. L. Brockway and F. E. Stancil, Jr., 1987. Effects of hardness, alkalinity and pH on the toxicity of pentachlorophenol to Selenastrum capricornutum (Printz). Environ. Toxicol. Chem. 6: 891900.
  • 73
    Nyholm, N, 1985. Response variable in algal growth inhibition toxicity tests—Biomass or growth rate? Water Res. 19: 273279.
  • 74
    Blanck, H, 1983. On the impact of long-chained aliphatic amines on photosynthesis and algal growth in ecotoxicological test systems. Ph.D. thesis. Department of Plant Physiology, University of Gothenburg, Gothenburg, Sweden.
  • 75
    Walsh, G. E., C. H. Deans and L. L. McLaughlin, 1987. Comparison of four methods for calculating the EC50 from algal population growth. Environ. Toxicol. Chem. 6: 767770.
  • 76
    Christensen, E. R. and N. Nyholm, 1984. Ecotoxicological assays with algae: Weibull dose-response curves. Environ. Sci. Technol. 18: 713718.
  • 77
    Vølund, A, 1978. Application of the four-parameter logistic model to bioassay: Comparison with slope ratio and parallel line models. Biometrics 34: 357365.
  • 78
    Snedecor, G. W. and W. G. Cochran, 1967. Statistical Methods, 6th ed. Iowa State University Press, Ames, IA.
  • 79
    Nyholm, N, 1975. Kinetic studies of phosphate limited algal growth, Ph.D. thesis (in Danish). Technical University of Denmark, Lyngby, Denmark.
  • 80
    Galassi, S. and M. Vighi, 1981. Testing toxicity of volatile substances with algae. Chemosphere 10: 11231126.