The occurrence of chlorophenols, chlorocatechols and chlorinated methoxyphenols in drinking water of the largest cities in Poland

• Autorzy: Michalowicz J
• Języki publikacji: EN

Abstrakty

EN

The purpose of this work was to determine the occurrence of phenol, chlorophenols, chlorocatechols and chlorinated methoxyphenols in the drinking water of the Polish cities of Łódź (Lodz), Warszawa (Warsaw), Poznań and Wrocław. The compounds were adsorbed on octadecyl (C18) layer in a Baker-Separex system and eluted with methylene chloride, then analyzed using the methods of gas chromatography and mass spectrometry. In samples, chlorophenols, 4-chlorocatechol, chloroguaiacols, chlorosyringols and 5,6- dichlorovaniline were detected. Higher concentrations and number of chlorophenols and their chlorinated derivatives were noted in summer. Among the most toxic compounds, 2,4,5-trichlorophenol in drinking water of Warszawa (summer and winter) and Łódź (winter) and tetrachlorophenol in water of Wrocław (summer) were noted. Their concentrations were above the admissible standards of the EU and the US EPA. In some cases the concentrations of chloroguaiacols and 5,6-dichlorovanillin also were significant.

Słowa kluczowe

EN

chloroguaiacol; chlorocatechol; city; Poland; chlorinated methoxyphenol; chlorosyringol; occurrence; chlorophenol; drinking water; aromatic compound

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2005
• Tom: 14
• Numer: 3
• Opis fizyczny: p.327-333,fig.,ref.

Twórcy

autor

Michalowicz J

• University of Lodz, Banacha 12/16, 90-237 Lodz, Poland

Bibliografia

• 1. BRUCE R. M., SANTODONATO J., NEAL M. W. Summary review of the health effects associated with phenol. Toxicol. Indust. Health. 3, 535, 1987.
• 2. CERNAKOWA M., ZEMANOWICOWA A. Microbial activity of soil contaminated with chlorinated phenol derivatives. Fol. Microbiol. 43, 411, 1998.
• 3. DAUBARAS D. L., SAIDO K., CHAKRABARTY A. M. Purification of hydrochinol 1,2-dioxygenase and maleylacetate reductase: the lower pathway of 2,4,5-trichlorophenoxyacetic acid metabolism by Burkholderia cepacia AC 1100. Appl. Environ. Microbiol. 62, 4276, 1996.
• 4. TISH M., LOHNEIER A., SCHNIEZER P., BARTSCH M., MAIER M. Genotoxic effect of the insecticides pentachlorophenol and lindane on human nasal mucosal epithelium. Gene. 126, 840, 2001.
• 5. YOSHIDA R., OIKAWA S., OGAWA Y., MIYAKOSHI Y., OOIDA M., ASANUMA K., SHIMIZU H. Mutagenicity of p-aminophenol in Escherichia coli WP2 uvrA / pKM101 and its relevance to oxidative DNA damage. Mut. Res. 415, 139, 1998.
• 6. HOOVIELD M., HEEDERICK D. J., KOGEVINAS M., BOFFETA P., NEEDHAM L. L., PATTERSON D. G., BAS BUENO-DE-MESQUITA JR., BAS BUENO-DEMESQUITA H. Second follow-up of a duch cohort occupationally exposed to phenoxy herbicides, chlorophenols, and contaminants. Americ. J. Epidemiol. 147, 891, 1998.
• 7. LAMPI P., VOHLONEN I., TUOMISTO J., HEINONEN O. P. Increase of specific symptoms after long-term use of chlorophenol polluted drinking water in a community. Eur. J. Epidemiol. 16, 245, 2000.
• 8. SCHWEIGERT N., MUNZIKER R. W., ESCHER B. J., EGGEN R. J. Acute Toxicity of (chloro)Catechols and (chloro-)Catechol-Copper Combinations in Escherichia coli Corresponds to Their Membrane Structure. Toxic. in Vitro Environ. Toxicol. Chem. 2, 239, 2000.
• 9. KNUUTINEN J. Analysis of chlorinated quaiacols in spent bleach liquor from a pulp mill. J. Chromat. 248, 289, 1982.
• 10. WAJON J. E., ROSENBLATT P. M., BURROWS E. P. Oxidation of phenol and hydroquinone by chlorine dioxide. Environ. Sci. Technol. 16, 396, 1982.
• 11. TSUTSUI T., MAYASHI N., MAIZUMI H., HUFF J., BARRET J. C. ‘Benzene-, catechol-, hydroquinone- and phenolinduced cell transformation, gene mutation, chromosome aberrations, aneuploidy, sister chromatid exchanges and unscheduled DNA synthesis in Syrian hamster embryo cells. Mut. Res. 373, 113, 1997.
• 12. HAMAGUCHI F., TSUTSUI T.. Assessment of Genotoxicity of Dental Antiseptics: Ability of Phenol, Guaiacol, p-Phenolsulfonic Acid, Sodium Hypochlorite, p-Chlorophenol, m-Cresol or Formaldehyde to Induce Unscheduled DNA Synthesis in Cultured Syrian Hamster Embryo Cells. Jap. J. Pharmacol. 83, 237, 2000.
• 13. HIROSE M., TAKESADA Y., TANAKA H., TAMANO S., KATO T., SHIRAI T. Carcinogenicity of antioxidants BHA, caffeic acid, sezamol, 4-methoxyphenol and catechol at low doses, either alone or in combination and modulation of their effects in a rat medium-term multi-organ carcinogenesis model. Carcinogen. 19, 207, 1997.
• 14. BOVE F., SHIM Y., ZEITZ P. Drinking water contaminants and adverse pregnancy outcomes. A review. Environ. Health Perspect. 110, 61, 2002.
• 15. LUKSBATLEJ K., BODZEK D. Occurrence of triahalomethanes, particulary those containing bromine in Polish drinking waters. Polish J. Environ. Studies. 11, 255, 2002.
• 16. BIŁYK A., KABSH-KORBUTOWICZ M., CIEPŁOCH B. Transformations of organic compounds in proccesses of water puryfication. Raport SPR Nr 29/94 PWr. I-15. Wrocław, pp. 131, 1994. (In Polish)
• 17. BOGE G., ROCHE H. Cytotoxicity of phenolic compounds on Dicentrachus labrax erythrocytes. Bull. Environ. Contam. Toxicol. 57, 171, 1996.
• 18. GŰLDEN M., SEIBERT H., VOSS J. U. The use of cultured skeletal muscle cells in testing for acute systemic toxicity. Toxicol. in vitro. 8, 779, 1994.
• 19. MAA Y. F., HSU CH. C. Aggregation of recombinant human growth hormone induced by phenolic compounds. Inter. J. Pharmaceut. 140, 155, 1996.
• 20. KLOBUCAR G. J., LAJTNER J., ERBEN R. Lipid peroxidation and histopathological changes in the digestive gland of a freshwater snail Planorbarius corneus (Gastropoda, Pulmonata) exposed to chronic and sub-chronic concentrations of PCP. Bull. Environ. Contam. Toxicol. 58, 128, 1997.
• 21. HAGIWARA H., TAKESADA Y., TANAKA H., TAMANO S., HIROSE H., ITO N., SHIRAI T. Dose- dependent Induction of Glandular Stomach Preneoplastic and Neoplastic Lesions in male F334 Rat Treated wiht Catechol Chronically. Toxicol. Pathol. 29, 180, 2001.
• 22. NIMMAGUDDA R., SYNDER R., SYNDER R. Oxidative modifications produced in HL-60 cells on exposure to benzene metabolites. J. Appl. Toxicol. 15, 403, 1995.
• 23. SHAPIRO S., GUGGENHEIM B. Inhibition of oral bacteria by phenolic compounds. Part 1. QSAR analysis using molecular connectivity. Quant. Struct-Act. Relat. 17, 327, 1998.
• 24. OKADA N., SATOH K., ATSUMI T., TAJIMA M., ISHIHARA M., SUGITA Y., YOKOE I., SAKAGAMI H., FUJISAWA S. Radical Modulating Activity and Cytotoxic Activity of Synthesized Eugenol-Related Compounds. Anticanc. Res. 20, 2955, 2000.
• 25. DAUGHERTY D. D., KAREL S. F., Daugherty D. D., Karel S. F. Degradation of 2,4-dichlorophenoxyacetic acid by Pseudomonas cepacia DBO1 (pR 01D1) in a dual-substrate chemostat. Appl. Environ. Microbiol. 60, 3261, 1994.
• 26. LAINE M. M., JORGENSEN K. S. Straw compost and bioremediated soil as inocula for the bioremediation of chlorophenols - contaminated soil. Appl. Environ. Microbiol. 43, 1507, 1996.
• 27. CHAE H., YOO J. Mathematical modelling and simulation of catechol production from benzoate using resting cells of Pseudomonas putida. Proc. Biochem. 32, 423, 1997.
• 28. SAURET-IGNAZI G., GAGNON J., BEGUIN C., BARELLE M., MARKOWICZ Y., PELMONT J., TOUSSAINT T. Characterization of a chromosomally encoded catechol 1,2-dioksygenase [E.C. 1.13.11.1.] from Alcaligenes eutrophus CH34. Arch. Microbiol. 166, 42, 1996.
• 29. CESPEDES R., MATURANA A., BUMANN U., BRONFMAN B., GONZALEZ B. Microbial removal of chlorinated phenols during aerobic treatment of effluents from radiata pine kraft pulps bleached with chlorine-based chemicals, with or without hemicellulases. Appl. Microbiol. Biotechnol. 46, 631, 1996.
• 30. WEISS M., MIKOLAJEWSKI S., PEIPP H., SCHMIDT U., SCHMIDT J., WRAY V., STRACK D. Tissue-specific and development - dependent accumulation of phenylpropanoids in larch mycorrhizas. Plant Physiol. 114, 15, 1997.
• 31. SWARTS M. J., VERHAGEN F. J., FIELD J. A., WIJNBERG J. B. Trichlorinated phenols from Hypholoma elongatum. Phytochem. 49, 203, 1998.
• 32. POWLOWSKI J., SEALY J., SHINGER V., CARDIEUX E. On the role of Dmpk, an auxiliary protein associated with multicomponent phenol hydroxylase from Pseudomonas sp. strain CF600. J. Biol. Chem. 272, 945, 1996.
• 33. KOWAL A. L., ŚWIDERSKA-BRÓŻ M. Purification of water. PWN. Warszawa-Wrocław. pp 345, 1997. (In Polish)
• 34. KUKLENYIK Z., ASHLEY D. L., Calafat AM. Analyzing drinking water for disinfection by-products. Analyt. Chem. 74, 260A, 2002.
• 35. GALICKA W., Limnological characteristic of lowland barrier reservoir on the Pilica River in 1981-1993. Uniwersity Publishing, Łódź, pp. 1-143, 1996. (In Polish)
• 36. CHORZEWSKA B., LASOTA D., MILEWSKA B., PACHOLSKA E., TUMMEL J. A report of environment condition in mazowieckie province. Chapter IV waters. WIOŚ, Warszawa, 2001. (In Polish).
• 37. OŻADOWICZ R., MICHAŁOWICZ J., DUDA W. Chlorophenols, chlorocatechols, chlorinated methoxyphenols and monoterpenes in the Ner River and in municipal effluents of Łódź city. State and antropogenical changes of quality of waters in Poland. Editor J. Burchard. Łódź University Publishing, Łódź, 2002. (In Polish)