References
Cope OB (1965) Sport fishery investigation. In: The effect of pesticides on fish and wildlife. U.S Fish Wildl Serv Circ 226, p 51–64
Ferrando MD, Andreu E, Almar MM, Cebrián C, Núñez A (1987) Acute toxicity of organochlorined pesticides to the european eel, Anguilla anguilla: The dependency on exposure time and temperature. Bull Environ Contam Toxicol 39: 365–369
Ferrando MD, Andreu E (1991) Effects of lindane on fish carbohydrate metabolism. Ecotox Environ Safety 22: 17–23
Ferrando MD, Gamón M, Andreu E (1992) Accumulation and distribution of pesticides in Anguilla anguilla from Albufera Lake (Spain). J Environ Biol 13: 75–82
Ferrando MD, fnAlarcón V, Fernández A, Gamon M, Andreu E (1992) Persistence of some pesticides in the aquatic environment. Bull Environ Contam Toxicol 48: 747–755
Ferrando MD, Sancho E, Andreu E (1991) Comparative acute toxicities of selected pesticides to Anguilla anguilla. J Environ Sci Health B 26(5&6): 491–498
Freitag, D.; Klein W. (1982). Pesticides residues in fish with emphasis on the application of nuclear technique. In: Agrochemicals. Fate in food and the environment. International Atomic Energy Agency, Viena, pp 143–166
Glickman AH, Statham CN, Wu A, Lech JJ (1977) Studies on the uptake, metabolism and disposition of pentachlorophenol and pentachloroanisole in rainbow trout. Toxic Appl Pharmacol 41: 649–658
Gluth G, Freitag D, Hanke W, Kortes F (1985) Accumulation of pollutants in fish. Comp Biochem Physiol 81C (2): 273–277
Gunkel G, Streit B (1979) Mechanisms of bioaccumulation of a herbicide (atrazine, s-triazine) in a freshwater mollusc (Ancylus fluviatilis) and a fish (Coregonus fera). Water Res 14: 1573–1584
Holmberg B, Jensen S, Larsson A, Lewander K, Olsson M (1972) Metabolic effects of technical pentachlorophenol (PCP) on the eel Anguilla anguilla. Comp Biochem Physiol 43B: 171–183
Johnson DW (1968) Pesticides and fishes. A review of selected literature. Trans Am Fish Soc 97: 398–424
Kanazawa J (1978) Bioconcentration ratio of diazinon by freshwater fish and snail. Bull Environ Contam Toxicol 20: 613–617
Kanazawa J (1983) A method of predicting the bioconcentration potential of pesticides by using fish. JARQ 17(3): 173–179
Kobayashi K, Nakamura N (1979) Major detoxification pathways for pentachlorophenol in goldfish. Bull Jap Soc Sci Fish 45: 1185–1188
Larsson A, Fange R (1969) Chemical differences in the blood of yellow and silver phases of the european eel (Anguilla anguilla). Arch Int Physiol Biochem 77: 701–709
Marcelle C, Thome JP (1983) Acute toxicity and bioaccumulation of lindane in gudgeon, Gobio gobio. Bull Environ Contam Toxicol 31: 453–458
Nishiuchi Y (1971) Toxicity of pesticides to several freshwater organisms. Aquaculture 19(4): 151–157
Thybaud E, Le Bras S (1988) Absorption and elimination of lindane by Asellus aquaticus. Bull Environ Contam Toxicol 40: 731–735
Tsuda T, Aoki S, Kojima M, Harada H (1989) Bioconcentration and excretion of benthiocarb and simetryne by carp. Water Res. 23: 529–531
US Environmental Protection Agency (1975). Committee on Methods for Toxicity Tests with Aquatic Organisms, Ecol Res Report No EPA-660/3-75-009
Van Waarde G, Van den Thillart G (1983) Anaerobic energy metabolism of the european eel, Anguilla anguilla. J Comp Physiol 149: 469–475
Zweigh G, Sherma J (1972) Chlorinated pesticides and organophosphates pesticides. In: Analytic Methods for Pestic and Plant Growth Regulators 4: 132–231
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Sancho, E., Ferrando, M.D., Andreu, E. et al. Bioconcentration and excretion of diazinon by eel. Bull. Environ. Contam. Toxicol. 50, 578–585 (1993). https://doi.org/10.1007/BF00191249
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DOI: https://doi.org/10.1007/BF00191249