EU-SICHERHEITSDATENBLATT Dieselkraftstoff ... - Schmierstoffe
EU-SICHERHEITSDATENBLATT Dieselkraftstoff ... - Schmierstoffe EU-SICHERHEITSDATENBLATT Dieselkraftstoff ... - Schmierstoffe
Kachholz T, Rehm H. (1977). Degradation of long chain alkanes by bacilli. I. Development and product formation by bacilli degrading alkanes in the presence of other carbon sources, Appl Microbiol Biotechnol 4:101-110 Krylov SN, Huang X-D, Zeiler LF, Dixon DG, Greenberg BM. (1997). Mechanistic quantitative structure-activity relationship model for the photoinduced toxicity of polycyclic aromatic hydrocarbons: I. Physical model based on chemical kinetics in a twocompartment system. Environmental Toxicology and Chemistry. 16:2283-2295. Kurihara R, Shiraishi F, Tanaka N, Hashimoto S. (2005). Presence and estrogenicity of anthracene derivatives in coastal Japanese waters. Environmental Toxicology and Chemistry. 24:1984-1993. Lampi MA, Huang X-D, El-Alawi YS, McConkey BJ, Dixon DG, Greenberg BM. (2001). Occurrence and toxicity of photomodified polycyclic aromatic hydrocarbon mixtures present in contaminated sediments. In: Greenberg BM, Hull RN, Roberts MH, Gensemer RW, editors. Environmental Toxicology and Risk Assessment: Science, Policy, and Standardization - Implications for Environmental Decisions. American Society for Testing and Materials, West Conshohocken, PA, USA, pp. 211-220. Lampi MA, Gurska J, McDonald KIC, Xie F, Huang X-D, Dixon DG. (2006). Photoinduced toxicity of PAHs to Daphnia magna: UV-mediated effects and the toxicity of PAH photoproducts. Environmental Toxicology and Chemistry. 25:1079-1087. Lampi MA, Gurska J, Huang X-D, Dixon DG, Greenberg BM. (2007). A predictive quantitative structure-activity relationship model for the photoinduced toxicity of polycyclic aromatic hydrocarbons to Daphnia magna with the use of factors for photosensitization and photomodification. Environmental Toxicology and Chemistry. 26:406-415. Larson RA, Berenbaum MR. (1988). Environmental phototoxicity. Environmental Science and Technology 22:354-360. Li N, Venkatesan MI, Miguel A, Kaplan R, Gujuluva C, Alam J, Nel A. 2000. Induction of heme oxygenase-1 expression in macrophages by diesel exhaust particle chemicals and quinones via the antioxidant-responsive element. Journal of Immunology. 165:3393- 3401. Marvin CH, McCarry BE, Villella J, Allan LM, Bryant DW. (2000). Chemical and biological profiles of sediments as indicators of sources of genotoxic contamination in Hamilton Harbour. Part I: Analysis of polycyclic aromatic hydrocarbons and thia-arene compounds. Chemosphere. 41:979-988. Machala M, Giganek M, Blaha L, Minksova K, Vondrack J. (2001). Aryl hydrocarbon receptor-mediated and estrogenic activities of oxygenated polycyclic aromatic 124
hydrocarbons and azaarenes originally identified in extracts of river sediments. Environmental Toxicology and Chemistry. 20:2736-2743. MacLeod M, McKone TE, Foster K, Maddalena RL, Parkerton TF, Mackay D. (2004). Applications of contaminant fate and bioaccumulation models in assessing ecological risks of chemicals: A case study for gasoline hydrocarbons. Environmental Science and Technology. 38:6225-6233. Mallakin A, Dixon DG, Greenberg BM. (2000). Pathway of anthracene modificaton under simulated solar radiation. Chemosphere. 40:1435-1441. McConkey BJ, Duxbury CL, Dixon DG, Greenberg BM. (1997). Toxicity of a PAH photooxidation product to the bacteria Photobacterium phosphoreum and the duckweed Lemna gibba: Effects of phenanthrene and its primary photoproduct, phenanthrenequinone. Environmental Toxicology and Chemistry. 16:892-899. McCoy EC, Hyman J, Rosenkranz HS. (1979). Conversion of Environmental Pollutant to Mutagens by Visible Light. Biochemical and Biophysical Research Communications. 89:729-734. McGrath JA, Parkerton TF, Di Toro DM. (2004). Application of the narcosis target lipid model to algal toxicity and deriving predicted no effect concentrations. Environmental Toxicology and Chemistry. 23:2503–2517. Mekenyan OG, Ankley GT, Veith GD, Call DJ. (1994). QSARs for photoinduced toxicity: I. Acute lethality of polycyclic aromatic hydrocarbons to Daphnia magna. Chemosphere 28:567-582. Mekenyan O, Nikolova N, Schmieder P, Veith G. (2004). COREPA-M: A multi dimensional formulation of COREPA. QSAR and Combinatorial Science. 23:5-18. Mekenyan O, Serafimova R, Todorov M, Stoeva S, Aptula A, Jacob E, Finking R. (2007). Identification of the structural requirements for chromosomal aberration, by incorporating molecular flexibility and metabolic activation of chemicals. Chemical Research in Toxicology. 20:1927–1941. Newsted JL, Giesy JP. (1987). Predictive models for photoinduced acute toxicity of polycyclic aromatic hydrocarbons to Daphnia magna Strauss (Cladocera, Crustacea). Environmental Toxicology and Chemistry.6:445-461. Nikolaou K, Masclet P, Mouvier G. (1984). Sources and chemical reactivity of polynuclear aromatic hydrocarbons in the atmosphere - a critical review. Science of the Total Environment. 32:103-132. Papadoyannis IN, Xotou A, Samanidou VF. (2002). Development of a solid phase extraction protocol for the simultaneous determination of anthracene and its oxidation 125
- Page 239 and 240: Prince RC, Walters CC. (2007). Biod
- Page 241 and 242: Appendix 1. Hydrocarbon structures
- Page 243 and 244: iP 14 2,4,10-Trimethylundecane CC(C
- Page 245 and 246: MN 7 1,2-Dimethylcyclopentane CC1C(
- Page 247 and 248: MN 14 n-Nonylcyclopentane CCCCCCCCC
- Page 249 and 250: MN 29 MN 29 MN 30 n-Tetracosylcyclo
- Page 251 and 252: hexahydroindane DN 20 2,4-dimethylo
- Page 253 and 254: PN 27 Phenanthrene 2,6-dimethylhept
- Page 255 and 256: MAr 13 1-Methyl-3-hexylbenzene Cc1c
- Page 257 and 258: NMAr 12 n-Propylindan c1ccc2CC(CCC)
- Page 259 and 260: NMAr 24 c1cc(CC(C)CCCC(C)CCCCC)c2CC
- Page 261 and 262: NMAr 29 NMAr 29 NMAr 29 NMAr 29 NMA
- Page 263 and 264: DAr 16 2-Hexylnaphthalene CCCCCCc1c
- Page 265 and 266: NDAr 16 n-Butylacenaphthene c12cccc
- Page 267 and 268: NDAr 26 Dimethyloctyl-1,2,3,6,7,8-
- Page 269 and 270: PAr 19 Ethylbenzo(a)fluorene C3c1cc
- Page 271 and 272: PAr 22 n-Pentylbenzo(a)fluorene C3c
- Page 273 and 274: PAr 28 Isohexyl-octadecahydro-picen
- Page 275 and 276: Appendix 3. CONCAWE Position Paper
- Page 277 and 278: probabilities are adjusted to best
- Page 279 and 280: 1.2.2 OASIS LMC Models: Toxicologic
- Page 281 and 282: environmental chemicals (database o
- Page 283 and 284: dihydrodiol. These dihydroxylated i
- Page 285 and 286: Table 1 : PBT assessment of C15 str
- Page 287 and 288: 1: The following structures were pr
- Page 289: Dimitrov SD, Dimitrova N, Mekenyan
- Page 293 and 294: Verhaar HJM, van Leeuwen CJ, Hermen
- Page 295 and 296: CONCAWE AQUATIC TOXICITY PREDICTION
- Page 297 and 298: CONTENTS (Continued) Section Page 1
- Page 299 and 300: 1-2 The model predictions include m
- Page 301 and 302: 2-1 SECTION 2 2 SUMMARY OF COMPOSIT
- Page 303 and 304: 4-1 SECTION 4 4 SUMMARY OF COMPOSIT
- Page 305 and 306: 6-1 SECTION 6 6 SUMMARY OF COMPOSIT
- Page 307 and 308: 8-1 SECTION 8 8 SUMMARY OF COMPOSIT
- Page 309 and 310: 10-1 SECTION 10 10 SUMMARY OF COMPO
- Page 311 and 312: 12-1 SECTION 12 12 SUMMARY OF COMPO
- Page 313 and 314: 14-1 SECTION 14 14 SUMMARY OF COMPO
- Page 315 and 316: 16-1 SECTION 16 16 SUMMARY OF COMPO
- Page 317 and 318: 18-1 SECTION 18 18 SUMMARY OF COMPO
- Page 319: 20-1 SECTION 20 20 SUMMARY OF COMPO
Kachholz T, Rehm H. (1977). Degradation of long chain alkanes by bacilli. I.<br />
Development and product formation by bacilli degrading alkanes in the presence of other<br />
carbon sources, Appl Microbiol Biotechnol 4:101-110<br />
Krylov SN, Huang X-D, Zeiler LF, Dixon DG, Greenberg BM. (1997). Mechanistic<br />
quantitative structure-activity relationship model for the photoinduced toxicity of<br />
polycyclic aromatic hydrocarbons: I. Physical model based on chemical kinetics in a twocompartment<br />
system. Environmental Toxicology and Chemistry. 16:2283-2295.<br />
Kurihara R, Shiraishi F, Tanaka N, Hashimoto S. (2005). Presence and estrogenicity of<br />
anthracene derivatives in coastal Japanese waters. Environmental Toxicology and<br />
Chemistry. 24:1984-1993.<br />
Lampi MA, Huang X-D, El-Alawi YS, McConkey BJ, Dixon DG, Greenberg BM.<br />
(2001). Occurrence and toxicity of photomodified polycyclic aromatic hydrocarbon<br />
mixtures present in contaminated sediments. In: Greenberg BM, Hull RN, Roberts MH,<br />
Gensemer RW, editors. Environmental Toxicology and Risk Assessment: Science, Policy,<br />
and Standardization - Implications for Environmental Decisions. American Society for<br />
Testing and Materials, West Conshohocken, PA, USA, pp. 211-220.<br />
Lampi MA, Gurska J, McDonald KIC, Xie F, Huang X-D, Dixon DG. (2006).<br />
Photoinduced toxicity of PAHs to Daphnia magna: UV-mediated effects and the toxicity<br />
of PAH photoproducts. Environmental Toxicology and Chemistry. 25:1079-1087.<br />
Lampi MA, Gurska J, Huang X-D, Dixon DG, Greenberg BM. (2007). A predictive<br />
quantitative structure-activity relationship model for the photoinduced toxicity of<br />
polycyclic aromatic hydrocarbons to Daphnia magna with the use of factors for<br />
photosensitization and photomodification. Environmental Toxicology and Chemistry.<br />
26:406-415.<br />
Larson RA, Berenbaum MR. (1988). Environmental phototoxicity. Environmental<br />
Science and Technology 22:354-360.<br />
Li N, Venkatesan MI, Miguel A, Kaplan R, Gujuluva C, Alam J, Nel A. 2000. Induction<br />
of heme oxygenase-1 expression in macrophages by diesel exhaust particle chemicals and<br />
quinones via the antioxidant-responsive element. Journal of Immunology. 165:3393-<br />
3401.<br />
Marvin CH, McCarry BE, Villella J, Allan LM, Bryant DW. (2000). Chemical and<br />
biological profiles of sediments as indicators of sources of genotoxic contamination in<br />
Hamilton Harbour. Part I: Analysis of polycyclic aromatic hydrocarbons and thia-arene<br />
compounds. Chemosphere. 41:979-988.<br />
Machala M, Giganek M, Blaha L, Minksova K, Vondrack J. (2001). Aryl hydrocarbon<br />
receptor-mediated and estrogenic activities of oxygenated polycyclic aromatic<br />
124
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