Constituent bioconcentration in rainbow trout exposed to a complex chemical mixture

• Bergman HL, Meyer JS (1982) Complex effluent fate modeling. In: Dickson KL, Maki AW, Cairns, Jr. J (eds) Modeling the fate of chemicals in the aquatic environment. Ann Arbor Science, Ann Arbor, Michigan, p 247

  Google Scholar 

• Bishop WE, Maki AW (1980) A critical comparison of two bioconcentration test methods. In: Eaton JG, Parrish PR, Hendricks AC (eds) Aquatic toxicology, ASTM STP 707. American Society for Testing and Materials, Philadelphia, p 61

  Google Scholar 

• Branson DR, Blau GE, Alexander HC, Neely WB (1975) Bioconcentration of 2,2′,4,4′-tetrachlorobiphenyl in rainbow trout as measured by an accelerated test. Trans Amer Fish Soc 4:785–792

  Google Scholar 

• Landrum PF (1982) The effect of co-contaminants on the bioavailability of polycyclic aromatic hydrocarbons toPontoporeia hoyi. In: Polynuclear aromatic hydrocarbons: Combustion processes, environmental effects, and biochemistry, Seventh International Symposium

• Linder GL, Bergman HL (1982) Anthracene bioconcentration in rainbow trout exposed to single compounds and complex chemical mixtures. In: Abstracts, Third Annual Meeting, Society of Environmental Toxicology and Chemistry. Arlington, Virginia, p 105

  Google Scholar 

• Marcus M, Bergman HL (1980) Quarterly progress report, Effects of aqueous effluents from in situ fossil fuel processing technologies. University of Wyoming, Laramie, Wyoming

  Google Scholar 

• Meyer JS, Linder G, Bergman HL (1981) An approach for bioaccumulation studies of complex organic effluents: extraction of representative organics from rainbow trout and water. In: Abstracts, Second Annual Meeting, Society of Environmental Toxicology and Chemistry. Arlington, Virginia, p 122

  Google Scholar 

• Muir DCG, Grift NP, Townsend BE, Metner DA, Lockhart WL (1982) Comparison of the uptake and bioconcentration of fluridone and terbutryn by rainbow trout andChironomus tentans in sediment and water systems. Arch Environm Contam Toxicol 11:595–602

  Google Scholar 

• McCarthy JF (1983) Role of particulate organic matter in decreasing accumulation of polynuclear aromatic hydrocarbons byDaphnia magna. Arch Environm Contam Toxicol 12:559–568

  Google Scholar 

• Neely WB, Branson DR, Blau GE (1974) Partition coefficient to measure bioconcentration potential of organic chemicals in fish Environ Sci Tech 8:1113–1115

  Google Scholar 

• Southworth GE, Keffer CC, Beauchamp JJ (1980) Potential and realized bioconcentration. A comparison of observed and predicted bioconcentration of azaarenes in the fathead minnow (Pimephales promelas). Environ Sci Tech 14:1529–1531

  Google Scholar 

• Veith GD, Kiwus LM (1977) An exhaustive steam-distillation and solvent-extraction unit for pesticides and industrial chemicals. Bull Environm Contam Toxicol 17:631–636

  Google Scholar 

Download references