ГОСТ 32538-2013
Библиография
[1] OECD guidelines for testing of chemicals. Test No 305 В bioconcentration: Flow-through Fish Test.
1996
[2] CEC. Bioaccumulation of chemical substances in fish: the flow-through method - Ring Test Pro
gramme. 1984-1985 Final report, March 1987. Authors: P. Kristensen and N. Nyholm.
[3] OECD guidelines for testing of chemicals. Test No. 105: Water Solubility, July 1995
[4] OECD guidelines for testing of chemicals. Test No. 107: Partition Coefficient (n-octanolfwater):
Shake Flask Method. July 1995
[5] OECD guidelines for testing of chemicals. Test No. 117: Partition Coefficient (n-octanoUwater),
HPLC Method. Nov 2004
[6] OECD guidelines for testing of chemicals. TestNo. 111: Hydrolysis as a Function of pH. Nov 2004
[7] OECD guidelines for testing of chemicals. Test No. 115 Surface Tension of Aqueous Solutions. July
1995
[8] OECD guidelines for testingof chemicals. Test No. 104: Vapour Pressure. July 2006
[9] OECD guidelines for testingof chemicals. Test No. 123 Partition Coefficient (1-OctanolA/Vater):
Slow-Stirring Method, July 2006
[10]Direct Phototransformation of chemicals in water. Environmental Health and Safety Guidance
Document Series on Testing and Assessment of Chemicals No. 3.
[11]OECD guidelines for testing of chemicals. Test No. 301 Ready Biodegradability. July 1992
[12] ASTM E-1022-84 (Reapproved 1988). Standard Practice for conducting Bioconcentration Tests with
Fishes and Saltwater Bivalve Molluscs.
[13] Spacie A. and Hamelink J.L. (1982). Alternative models for describing the bioconcentration of organ
ics in fish. Env. Toxicol, and Chemist, vol.1
[14] Kristensen P. (1991). Bioconcentration in fish: comparison of bioconcentration factors derived from
OECD and ASTM testing methods: influence of particulate organic matter to the bioavailability of
chemicals. Water Quality Institute. Denmark
[15] Chtou C.T. and Schmedding D.W. (1982). Partitioning of organic compounds in octanolwater sys
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[16] Hawker D.W. and Connell D.W. (1988). Influence of partition coefficient of lipophilic compounds on
bioconcentration kinetics with fish. Wat. Res. 22 (6)
[17] Branson D.R.. Blau G.E., Alexander H.C. and Neely W.B. (1975). Transactions of the American
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[18] Ernst W. (1985). Accumulation in Aquatic Organisms. In: Appraisal of tests to predict the environ
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[19] Reilfy P.M., Bajramovic R.. Blau G.E., Branson D.R. and Sauerhoff M.W. (1977). Guidelines for the
optimal design of experiments to estimate parameters in first order kinetic models. Can. J. Chem.
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[20] Konemann H. and Van Leouwen K. (1980). Toxicokinetics in Fish: Accumulation and Elimination of
Six Chlorobenzenes by Guppies. Chemosphere
[21] US Food and Drug Administration. Revision. Pesticide analytical manual. Vol.1. 5600 Fisher’s Lane.
Rockville. MD 20852. July 1975
[22] US EPA (1974). Section 5. A(1) Analysis of Human or Animal Adipose Tissue, in Analysis of Pesti cide
Residues in Human and Environmental Samples. Thompson J.F. (ed). Research Triangle Park. N.C:
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[23] Compaan H. (1980) in "The determination of the possible effects of chemicals and wastes on the
aquatic environment: degradation, toxicity, bioaccumulation. Ch. 2.3 in Part II. Government Publish
ing Office. The Hague. The Netherlands
[24] Gardner et al.. (1995). Limnol. & Oceanogr.. 30:1099-1105
[25] Randall R.C., Lee H.. Ozretich R.J.. Lake J.L. and Pruell R.J.(1991). Evaluation of selected lipid
methods for normalizing pollutant bioaccumulation. Environ. Toxicol. Chem. Vol.10, pp. 1431-1436.
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