The physicochemical basis of QSARs for baseline toxicity
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D Mackay | D. Mackay | G. Veith | D. J. Call | J. Arnot | E. Petkova | K. Wallace | G D Veith | E P Petkova | K B Wallace | D J Call | L T Brooke | J A Arnot | L. Brooke
[1] M T D Cronin,et al. A conceptual framework for predicting the toxicity of reactive chemicals: modeling soft electrophilicity , 2006, SAR and QSAR in environmental research.
[2] David J. Hansen,et al. Technical basis for narcotic chemicals and polycyclic aromatic hydrocarbon criteria. I. Water and tissue , 2000 .
[3] J. Hermens,et al. Classifying environmental pollutants , 1992 .
[4] H. Hopff,et al. Theorie der Narkose durch Inhalationsanästhetika. II. Mitteilung. Narkose durch indifferente Gase unter Druck. , 2022 .
[5] D. Mackay,et al. Enhancing ecotoxicological modeling and assessment. Body Residues and Modes Of Toxic Action , 1993 .
[6] P. Mayer,et al. Silicone membrane equilibrator: measuring chemical activity of nonpolar chemicals with poly(dimethylsiloxane) microtubes immersed directly in tissue and lipids. , 2009, Analytical chemistry.
[7] T. Parkerton,et al. Application of the narcosis target lipid model to algal toxicity and deriving predicted‐no‐effect concentrations , 2004, Environmental toxicology and chemistry.
[8] F. W. Tilley,et al. RELATION BETWEEN THE CHEMICAL CONSTITUTION AND GERMICIDAL ACTIVITY OF THE MONOHYDRIC ALCOHOLS AND PHENOLS , 1926, Journal of bacteriology.
[9] H. Könemann. Quantitative structure-activity relationships in fish toxicity studies. Part 1: relationship for 50 industrial pollutants. , 1981, Toxicology.
[10] P. Mayer,et al. Passive dosing of soil invertebrates with polycyclic aromatic hydrocarbons: limited chemical activity explains toxicity cutoff. , 2008, Environmental science & technology.
[11] Michiel T O Jonker,et al. Bioconcentration factor hydrophobicity cutoff: an artificial phenomenon reconstructed. , 2007, Environmental science & technology.
[12] Frank A. P. C. Gobas,et al. A review of bioconcentration factor (BCF) and bioaccumulation factor (BAF) assessments for organic chemicals in aquatic organisms , 2006 .
[13] Tomas Alday Redonnet. Beiträge zur Theorie der Narkose , 1919, Archiv für experimentelle Pathologie und Pharmakologie.
[14] Eñaut Urrestarazu Ramos,et al. Acute toxicity of nonpolar versus polar narcosis: Is there a difference? , 1998 .
[15] D. J. Call,et al. Fish subchronic toxicity prediction model for industrial organic chemicals that produce narcosis , 1985 .
[16] John Ferguson,et al. The Use of Chemical Potentials as Indices of Toxicity , 1939 .
[17] D. Mackay,et al. ENHANCING ECOTOXICOLOGICAL MODELING AND ASSESSMENT , 1993 .
[18] J Devillers,et al. Nonlinear dependence of fish bioconcentration on n-octanol/water partition coefficient. , 1993, SAR and QSAR in environmental research.
[19] Philipp Mayer,et al. Equilibrium sampling devices. , 2003, Environmental science & technology.
[20] Konrad Hungerbühler,et al. Toxic ratio as an indicator of the intrinsic toxicity in the assessment of persistent, bioaccumulative, and toxic chemicals. , 2004, Environmental science & technology.
[21] Gilman D. Veith,et al. Structure–Toxicity Relationships for the Fathead Minnow, Pimephales promelas: Narcotic Industrial Chemicals , 1983 .
[22] Frank A. P. C. Gobas,et al. Bioconcentration and Biomagnification in the Aquatic Environment , 2000 .
[23] F. Gobas,et al. Mechanism of Biomagnification in Fish under Laboratory and Field Conditions , 1999 .
[24] F. Wania,et al. Is vapor pressure or the octanol-air partition coefficient a better descriptor of the partitioning between gas phase and organic matter? , 2003 .
[25] R. Lipnick,et al. A QSAR study of the acute toxicity of some industrial organic chemicals to goldfish. Narcosis, electrophile and proelectrophile mechanisms. , 1987, Xenobiotica; the fate of foreign compounds in biological systems.
[26] W. Meylan,et al. Atom/fragment contribution method for estimating octanol-water partition coefficients. , 1995, Journal of pharmaceutical sciences.
[27] Neera Jain,et al. Prediction of Aqueous Solubility of Organic Compounds by the General Solubility Equation (GSE) , 2001, J. Chem. Inf. Comput. Sci..
[28] P. Mayer,et al. Can highly hydrophobic organic substances cause aquatic baseline toxicity and can they contribute to mixture toxicity? , 2006, Environmental toxicology and chemistry.
[29] E. Overton. Studien über die Narkose : zugleich ein Beitrag zur allgemeinen Pharmakologie , 1901 .