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NTIS 바로가기환경독성학회지 = Journal of environmental toxicology, v.21 no.2 = no.53, 2006년, pp.185 - 195
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Arthur AD and Dixon DG. Effects of rearing density on the growth response of juvenile fathead minnow (Pimephales promelas) under toxicant-induced stress, Can J Fish Aquat Sci 1993; 51: 365-371
Barnthouse LW. Quantifying population recovery rates for ecological risk assessment, Environ Toxicol Chem 2003; 23(2): 500-508
Barron MG, Hansen JA, Lipton J. Association between contaminant tissue residues and effects in aquatic organisms, Rev Environ Contam T 2002; 173: 1-37
Chapman PM, Caldwell RS and Chapman PF. A warning: NOECs are inappropriate for regulatory use. Environ Toxicol Chem 1996; 15: 77-79
Chapman PM. Alternatives to the NOEC based on regression analysis. In Report of the OECD Workshop on Statistical Analysis of Aquatic Toxicity Data., volume 10 of OECD Environmental Health and Safety Publications, pp. 59-63. OECD, 1998
De Bruijin JHM and van Leeuwen CJ, No-effect concentrations in environmental policy. In Kooijman and Bedaux eds, The analysis of aquatic toxicity data. VU University Press, 1996
Di Toro DM, Zarba CS, Hansen DJ, Berry WJ, Swartz RC, Cowan CE, Pavlou SP, Allen HE, Thomas NA, Paquin PR. Technical basis for the equilibrium partitioning method for establishing sediment quality criteria. Environ Toxicol Chem 1991; 11: 1541-1583
Di Toro DM, McGrath JA and Hansen DJ. Technical basis for narcotic chemicals and polycyclic aromatic hydrocarbon criteria. I. Water and tissue, Environ Toxicol Chem 2000; 19: 1951-1970
Escher BI and Hermens JLM. Modes of action in ecotoxicology: their role in body burdens, species sensitivity, QSARs, and mixture effects, Environ Sci Technol 2002; 36: 4201-4217
Fisher SW, Chordas III SW and Landrum PF. Lethal and sublethal body residues for PCB intoxication in the oligochaete, Lumbriculus variegates, Aquat Toxicol 1999; 45: 115-126
Forbes VE and Calow P, Is the per capita rate of increase a good measure of population-level effects in ecotoxicology?, Environ Toxicol Chem 1999; 18: 1544-1556
Hamelink JL, Landrum PF, Bergman HL, Benson WH. Bioavailability: Physical, Chemical, and Biological Interactions , Lewis Publishers, Boca Raton, 1994
Hickie BE, McCarty LS and Dixon DG. A residue-based toxicokinetic model for pulse-exposure toxicity in aquatic systems, Environ Toxicol Chem 1995; 14: 2187-2197
Jarvinen AW and Ankley GT. Linkage of Effects to Tissue Residues: Development of a Comprehensive Database for Aquatic Organisms Exposed to Inorganic and Organic Chemicals. SETAC Press, Pensacola, FL. 1999
Kane Driscoll S, Harkey GA and Landrum PF. Accumulation and toxicokinetics of fluoranthene in sediment bioassays with freshwater amphipods, Environ Toxicol Chem 1997a; 16: 742-753??
Kane Driscoll S, Harkey GA and Landrum PF. Accumulation and toxicokinetics of fluoranthene in water-only exposure with freshwater amphipods, Environ Toxicol Chem 1997b; 16: 754-761
Kenaga EE. Predictability of chronic toxicity from acute toxicity of chemicals in fish aquatic invertebrates, Environ Toxicol Chem 1982; 1: 347-358
Kooijman SALM and Bedaux JJM. The analysis of Aquatic Toxicity Data: VU University Press. Amsterdam, 1996
Landrum PF, Dupuls WS and Kukkonen J. Toxicokinetics and toxicity of sediment-associated pyrene and phenanthrene in Diporeia spp.: examination of equilibriumpartitioning theory and residue-based effect for assessing hazard, Environ Toxicol Chem 1994; 13: 1769-1780
Landrum PF, Eadie BJ, Faust WR. Variation in the bioavailability of polycyclic aromatic hydrocarbons to the amphipod Diporeia (spp.) with sediment aging, Environ Toxicol Chem 1992; 11: 1197-1208
Landrum PF, Steevens JA, McElroy M, Gossiaux DC, Lewis JS and Robinson SD. Time-dependent toxicity of dichlorodiphenyldichloroethylene to Hyalella azteca, Environ Toxicol Chem 2005; 24: 211-218
Lee J-H, Landrum PF and Koh C-H. Prediction of timedependent PAH toxicity in Hyalella azteca using a damage assessment model, Environ Sci Technol 2002; 36: 3131-3138
Legierse KCHM, Verhaar HJM, Vaes WHJ, Wouter HJ, De Bruijn JHM and Hermens JLM. Analysis of the timedependent acute aquatic toxicity of organophosphorus pesticides: the critical target occupation model, Environ Sci Tehchol 1999; 33: 917-925
Luoma SN and Rainbow PS. Why is metal bioaccumulation so variable? Biodynamics as a unifying concept, Environ Sci Technol 2005; 39: 1921-193
Luoma SN, Jones C, Fisher NS, Steinberg NA, Oremland RS, Reinfelder J. Determination of selenium bioavailability to a benthic bivalve from particulate and solute pathways. Environ Sci Technol 1992; 26: 485-491
Luoma SN and Rainbow PS. Why is metal bioaccumulation so variable? Biodynamics as a unifying concept, Environ Sci Technol 2005; 39: 1921-1931
Magaud. Guidance document on the statistical interpretation of ecotoxicity tests., volume TC 147/ SC 5/ WG 10/ N 0390. ISO and OECD, Paris, 2003
Mayer FL, Krause GF, Buckler DR, Ellersieck MR and Lee G. Predicting chronic lethality of chemicals to fishes from acute toxicity test data: concepts and linear regression analysis, Environ Toxicol Chem 1994; 13: 671-678
McCarty LS and Mackay D. Enhancing ecotoxicological modeling and assessment, Environ Sci Tehchol 1993; 27: 1719-1728
McCarty LS, Ozburn GW, Smith AD, Bharath A, Orr D and Dixon DG. Hypothesis formulation and testing in aquatic bioassays: a deterministic model approach, Hydrobiologia 1989; 188/189: 533-542
McCarty LS, Mackay D, Smith AD, Ozburn GW and Dixon DG. Residue-based interpretation of toxicity and bioconcentration QSARs from aquatic bioassays: neutral narcotic organics, Environ Tox Chem 1992; 11: 917-930
Mortimer MR and Connell DW. Effect of exposure to chlorobenzenes on growth-rates of the crab Portunus pelagicus (L), Environ Sci Technol 1995; 29: 1881-1886
Newman MC and Unger MA. Fundamental of Ecotoxicology. Lewis Publishers, 2003
Pack S. A Review of Statistical Data Analyses and Experimental Design in OECD Aquatic Toxicology Test Guidelines. Shell research Ltd. Sittingbourne, Kent, UK. 1993
Rand GM, Wells PG and McCarty LS. Introduction to aquatic toxicology. In Fundermentals of Aquatic Toxicology 2nd edition, ed, Rand GM, Taylor and Francis, Washington DC, pp. 3-67, 1995
Reiley MC, Stubblefield WA, Adams WJ, Di Toro DM, Hodson PV, Erickson RJ and Keating Jr FJ. Reevaluation of the State of the Science for Water-qaulity Criteria Development; Society of Environmental Toxicology and Chemistry (SETAC); Pensacola. FL. USA. 2003
Reinert KH, Giddings JM and Judd L. Effect analysis of time-varying or repeated exposures in aquatic ecological risk assessment of agrochemicals, Environ Toxicol Chem 2002; 21: 1977-1992
Roex EWM, van Giestel CAM, van Wezel AP and van Straalen NM. Ratios between acute aquatic toxicity and effects on polulation growth rates in relation to toxicant mode of action, Environ Toxicol Chem 2000; 19: 685-693
Sijm DTHM, Schipper M and Opperhuizen A. Toxicokinetics of halogenated benezens in fish: lethal body burden as a toxicological end point, Environ Toxicol Chem 1993; 12: 1117-1127
Spargue JB. Measurement of pollutant toxicity to fish. 1. Bioassay methods for acute toxicity, Water Res 1969; 3: 93-821
Tessier A and Turner DR. Metal Speciation and Bioavailability in Aquatic Systems. John Wiley & Sons, 1995
US Environmental Protection Agency. Water quality standards regulation; proposed rule, Federal register, 1998; 63: 36742-36806
US Environmental Protection Agency. Methodology for Deriving Ambient Water Quality Criteria for the Protection of Human Health. Office of Water and Office of Science and Technology, EPA-822-B-00-004. 2000
van Hoogen G and Opperhuizen M. Toxicokinetic of chlorobenzenes in fish, Environ Toxicol Chem 1988; 7: 213-219
Van Wazel AP, De Vries DAM, Kostense S, Sijm DTHM and Opperhuizen A. The relevance of aquatic organisms' lipid content to the toxicity of lipophillic chemicals: toxicity of lindane to different fish species, Ecotoxicol Environ Safe 1995; 28: 53-70
Verhaar HJM, de Wolf W, Dyer S, Legierse KCHM, Seinen W and Hermens JLM. An LC50 vs time model for the aquatic toxicity of reactive and receptor-mediated compounds. Consequences for bioconcentration kinetics and resk assessment, Environ Sci Tehchol 1999; 33: 758-763
Verhaar HJM, van Leeuwen CJ and Hermens JLM. Classifying environmental pollutants. Structure-activity relationships for prediction of aquatic toxicity, Chemosphere 1992; 25: 471-491
Yu Q, Chaisuksant Y and Connell DW. A model for nonspecific toxicity with aquatic organisms over relatively long periods of exposure time, Chemosphere 1999; 38: 909-918
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