• [1]
    Solomon, KR., Giddings, J.M., Maund, S.J. (2001) Probabilistic risk assessment of cotton pyrethroids: I. Distributional analyses of laboratory aquatic toxicity data. Environ. Toxicol. Chem. 20, 652659.
  • [2]
    Caquet, T., Thybaud, E., Le Bras, S., Jonot, O., Ramade, F. (1992) Fate and biological effects of lindane and deltamethrin in freshwater mesocosms. Aquat. Toxicol. 23, 261278.
  • [3]
    Brock, T.C.M., Roijackers, R.M.M., Rollon, R., Bransen, F., van der Heyden, L. (1995) Effects of nutrient loading and insecticide application on the ecology of Elodea-dominated freshwater microcosms. II. Responses of macrophytes, periphyton and macroinvertebrate grazers. Arch. Hydrobiol. 134, 5374.
  • [4]
    Hurlbert, S.H. (1975) Secondary effects of pesticides on aquatic ecosystems. Res. Rev. 57, 81148.
  • [5]
    van Donk, E., Prins, H., Voogd, H.M., Crum, S.J.H., Brock, T.C.M. (1995) Effects of nutrient loading and insecticide application on the ecology of Elodea-dominated freshwater microcosms. I. Responses of plankton and zooplanktivorous insects. Arch. Hydrobiol. 133, 317439.
  • [6]
    Ruber, E., Ferrigno, F., Some effects of DDT, Baytex, and endrin on salt marsh productivities, copepods, and Aedes mosquito larvae. Proc. N. J. Mosq. Exterm. Assoc. 1964, 84–94.
  • [7]
    Azam, F., Fenchel, T., Field, J.G., Gray, J.S., Meyer-Reil, L.A., Thingstad, F. (1983) The ecological role of water column microbes in the sea. Mar. Ecol. Prog. Ser. 10, 257263.
  • [8]
    Hanson, M., Caquet, T., Graham, D.W., Azam, D., Coutellec, M.-A., Knapp, C.W., and Lagadic, L. Recovery of isolated experimental aquatic ecosystems to the application of an insecticide. I. Rationale, study design and general assessment of environmental conditions. Environ. Toxicol. Chem., submitted for publication
  • [9]
    Knapp, C.W., Graham, D.W. (2004) Assessment of different ssu-rRNA probing protocols for the characterization of aquatic microbial communities. J. Microbiol. Meth. 56, 323330.
  • [10]
    Muttray, A.F., Mohn, W.W. (1999) Quantitation of the population size and metabolic activity of a resin acid degrading bacterium in activated sludge using slot-blot hybridization to measure the rRNA:rDNA ratio. Microb. Ecol. 38, 348357.
  • [11]
    Ka, J.O., Yu, Z., Mohn, W.W. (2001) Monitoring the size and metabolic activity of the bacterial community during biostimulation of fuel-contaminated soil using competitive PCR and RT-PCR. Microb. Ecol. 42, 267273.
  • [12]
    Leser, T.D., Boye, M., Hendriksen, N. (1995) Survival and activity of Pseudomonas sp. Strain B13(FR1) in a marine microcosm determined by quantitative PCR and a rRNA-targeting probe and its effect on indigenous bacterioplankton. Appl. Environ. Microbiol. 61, 12011207.
  • [13]
    Srivastava, A.K., Schlessinger, D. (1990) Mechanism and regulation of bacterial ribosomal RNA processing. Ann. Rev. Microbiol. 44, 105129.
  • [14]
    Kemp, P.F., Lee, S., LaRoche, J. (1993) Estimating the growth rate of slowly growing marine bacteria from RNA content. Appl. Environ. Microbiol. 59, 25942601.
  • [15]
    Kerkhof, L., Ward, B.B. (1993) Comparison of nucleic acid hybridization and fluorometry for measurement of the relationship between RNA/DNA ratio and growth rate in a marine bacterium. Appl. Environ. Microbiol. 59, 13031309.
  • [16]
    Kerkhof, L., Kemp, P. (1999) Small ribosomal RNA content in marine Proteobacteria during non-steady-state growth. FEMS Microb. Ecol. 30, 253260.
  • [17]
    Pace, M.L., Cole, J.J. (1996) Regulation of bacteria by resources and predation tested in whole-lake experiments. Limnol. Oceanogr. 41, 11601448.
  • [18]
    Tu, C.M. (1980) Influence of five pyrethroid insecticides on microbial population activities in soil. Microb. Ecol. 5, 321327.
  • [19]
    Graham, W.H., Graham, D.W. DeNoyelles Jr., F., Smith, V.H., Larive, C.K., Thurman, E.M. (1999) Metolachlor and alachlor breakdown product formation patterns in aquatic field mesocosms. Environ. Sci. Technol. 33, 44714476.
  • [20]
    International Organization for Standardization (ISO), 1997. Water quality –Determination of nitrogen – Part I: Method using oxidative digestion with peroxydisulfate. International Organization for Standardization, Geneva, Switzerland
  • [21]
    European Committee for Standardisation (ECS), 1996. Water Quality – Determination of phosphorus. Ammonium molybdate spectrometric method. European Standard EN 1189. European Committee for Standardisation, Brussels, Belgium
  • [22]
    Lorenzen, C.J. (1967) Determination of chlorophyll and pheopigments: spectrophotometric equations. Limnol. Oceanogr. 12, 343346.
  • [23]
    Knapp, C.W., Graham, D.W., Berardesco, G., Denoyelles, F., Cutak, B.J., Larive, C.K. (2003) Nutrient level, microbial community conditions, and alachlor transformation in aerobic aquatic mesocosms. Water Res. 37, 47614769.
  • [24]
    Ensz, A.P., Knapp, C.W., Graham, D.W. (2003) Influence of autochthonous dissolved organic carbon and nutrient limitation on alachlor biotransformation in aerobic aquatic systems. Environ. Sci. Technol. 37, 41574162.
  • [25]
    OECD (1982) Eutrophication of Waters, Monitoring, Assessment and Control. Organisation for Economic Cooperation and Development, Paris
  • [26]
    Fasham, M.J.R., Platt, T., Irwin, B., Jones, K. (1985) Factors affecting the spatial distribution of the deep chlorophyll maximum in the region of the Azores Front. Prog. Oceanogr. 14, 129165.
  • [27]
    Joint, I., Henriksen, P., Fonnes, G.A., Bourne, D., Thingstad, T.F., Riemann, B. (2002) Competition for inorganic nutrients between phytoplankton and bacterioplankton in nutrient manipulated mesocosms. Aquat. Microb. Ecol. 29, 144159.
  • [28]
    Amon, R.M.W., Benner, R. (1993) Rapid cycling of high molecular weight dissolved organic matter in the ocean. Nature 369, 549551.
  • [29]
    Amon, R.M.W., Benner, R. (1996) Bacterial utilization of different size classes of dissolved organic matter. Limnol. Oceanogr. 41, 4151.
  • [30]
    Riemann, B. (1985) Potential importance of fish predation and zooplankton grazing on natural populations of freshwater bacteria. Appl. Environ. Microbiol. 47, 632638.
  • [31]
    Vadstein, O., Harkjerr, B.O., Jensen, A. (1989) Cycling of organic carbon in the photic zone of a eutrophic lake with special reference to the heterotrophic bacteria. Limnol. Oceanogr. 34, 840855.
  • [32]
    Pace, M.L., McManus, G.B., Findlay, S.E.G. (1990) Plankton community structure determines the fate of bacterial production in temperate lake. Limnol. Oceanogr. 35, 795808.
  • [33]
    Kopf, W. (1983) Investigations of the dynamic of chlorophyll concentration in natural populations of phytoplankton. Arch. Hydrobiol. 98, 173180.