ГОСТ 33640—2015
Библиография
(1] ЕС (2003). Technical Guidance Document in support of Commission Directive 93Л37/ЕЕС on Risk Assessment for
new notified substances. Commission Regulation (EC) No 1488’94 on Risk Assessment for existing substances
and Directive 98/8УЕС of the European Parliament and of the Council concerning the placing of biocidal products on
the market: Part MV. Office for Official Publications of the EC (European Commission). Luxembourg
[2] OECD(1992a). Report of the OECD workshop on effects assessment of chemicals in sediment. OECD Monographs
No. 60. Organisation for Economic Co-operation and Development (OECD). Paris
(3]ASTM International (2000). Standard guide for the determination of the bioaccumulation of sediment-associated
contaminants by benthic invertebrates. E 1688-00a. InASTM International 2004 Annual Book of Standards. Volume
11.05. Biological Effects and Environmental Fate: Biotechnology: Pesticides. ASTM International. West Consho-
hocken, PA
[4]ASTM International (2002). Standard Test Method for Measuring the Toxicity of Sediment-Associated Contaminants
with Freshwater Invertebrates. E1706-00. InASTM International 2004 Annual Book of Standards. Volume 11.05. Bi
ological Effects and Environmental Fate: Biotechnology; Pesticides. ASTM International, West Conshohocken. PA
(5] Phipps. G.L.. Ankley. G.T.. Benoit. D.A. and Mattson. V.R. (1993). Use of the aquatic Oligochaete Lumbriculus
variegatus for assessing the toxicity and bioaccumulation of sediment-associated contaminants. Environ.Toxicol.
Chem. 12. 269-279
[6] OECD (2004). OECD Guidelines for the Testing of Chemicals No. 218: «Sediment-water chironomid toxicity test
using spiked sediment» (Adopted April 2004)
(7J U.S. EPA (2000). Methods for measuring the toxicity and bioaccumulation of sediment-associated contaminants
with freshwater invertebrates. Second Edition. EPA 600/R-99/064, U.S. Environmental Protection Agency. Duluth,
MN. March 2000
[8] Environment Canada (1997). Test for Growth and Survival in Sediment using Larvae of Freshwater Midges (Chi-
ronomus tentans or Chironomus riparius). Biological Test Method. Report SPE 1/RM/32. December 1997
]9] Hill. I.R.. Matthiessen. P.. Heimbach. F. (eds). 1993. Guidance document on Sediment Toxicity Tests and Bioassays for
freshwater and Marine Environments. From the SETAC-Europe Workshop On Sediment Toxicity Assessment. 8-10
November 1993. Renesse (NL)
[10] BBA (1995). Long-term toxicity test with Chironomus riparius: Development and validation of a new test system.
Edited by M. Streloke and H. Kopp. Berlin. 1995
[11]Riedhammer C. & B. Schwarz-Schulz (2001). The Newly Proposed EU RiskAssessment Concept for the Sediment
Compartment. J. Soils Sediments 1(2). 105-110
[12] ASTM International (2004). Standard guide for collection, storage, characterisation, and manipulation of sediment for
toxicological testing and for selection of samplers used to collect benthic invertebrates. American Society for Testing
and Materials. E 1391-03
[13] Egeler. Ph.. Meller, M.. SchallnaR, H.J. & Gilberg. D. (2005). Validation of a sediment toxicity test with the endoben-thic
aquatic oligochaete Lumbriculus variegatus by an international ring test. In co-operation with R. Nagel and B.
Karaoglan. Report to the Federal Environmental Agency (Umwettbundesamt Berlin). R&D No.: 202 67 429
[14] OECD (2000). Guidance Document on Aquatic Toxicity Testing of Difficult Substances and Mixtures. OECD Envi
ronment. Health and Safety Publications. Series on Testing and Assessment No. 23
[15] Environment Canada (2003). Guidance Document on Statistical Methods for Environmental Toxicity Tests: fifth
draft. March 2003; Report EPS Ш М /
[16] Nikkila A.. Halme A.. Kukkonen J.V.K. (2003). Toxicokinetics, toxicity and lethal body residues of two chlorophenols
in the oligochaete ’worm, Lumbriculus variegatus. in different sediments. Chemosphere 51: 35-46
[17] Baity H.C.. & Liu D.H.W. (1980). Lumbriculus variegatus. a Benthic Oligochaete. as a Bioassay Organism. P. 205-
215. In J.C. Eaton. P.R. Parrish, and A.C. Hendricks (eds). Aquatic Toxicology. ASTM STP 707. American Society for
Testing and Materials
[18] Chapman K.K.. Benton M.J.. Brinkhurst R.O. & Scheuerman P.R. (1999). Use of the aquatic oligochaetes Lumbric
ulus variegatus and Tubifex tubifex for assessing the toxicity of copper and cadmium in a spiked-artificial-sediment
toxicity test. Environmental Toxicology. 14(2): 271-278
[19]Meyer J.S., Boese C.J. & Collyard S.A. (2002). Whole-body accumulation of copper predicts acute toxicity to an
aquatic oligochaete (Lumbriculus variegatus) as pH and calcium are varied. Comp. Biochem. Physiol. Part C
133:99-109
[20] Schubauer-Berigan M.K.. Dierkes J.R.. Monson P.D. & Ankley G.T. (1993). pH-dependent toxicity of cadmium,
copper, nickel. lead and zinc to Ceriodaphnia dubia. Pimephales promelas. Hyalella azteca and Lumbriculus varie
gatus. Environ. Toxciol. Chem. 12(7): 1261-1266
[21] West. C.W.. V.R. Mattson. E.N. Leonard. G.L. Phipps & G.T. Ankley (1993). Comparison of the relative sensitivity of
three benthic invertebrates to copper-contaminated sediments from the Keweenaw Waterway. Hydrobiol. 262:57-63
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