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2001 | 10 | 4 |

Tytuł artykułu

Thermodynamic and physico-chemical descriptors of chloronaphthalenes: an attempt to select features explaining environmental behaviour and specific toxic effects of these compounds

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Języki publikacji

EN

Abstrakty

EN
35 physico-chemical descriptors were used to characterize all 75 congeners of chloronaphthalene in terms of their environmental stability and specific dioxin-like toxicity. A prepared basic thermodynamic and physico-chemical property data matrix of PCNs was interpreted using Principal Component Analysis (PCA). The PCA of the thermodynamic and physico-chemical data matrix created a four-dimensional model that explained 76% (58% + 9% + 5% + 4%) of the total variance. The loading plot shows that the first PC is influenced by variables describing degree of chlorination, molecular weight, polarizability and lipophilicity. The best positively correlated descriptors are: retention time, standard molar entropy, heat capacity, a first-order molecular connectivity index, logarithm of octanol-water partition coefficient, the Wiener Index, specific polarizability, a third order shape index for molecules, the sum of absolute of the charges on each atom of the molecule, molecular weight, polarizability, refractivity, solvent-accessible surface, van der Waals surface, solvent-accessible volume, van der Waals volume. Negatively correlated descriptors are: standard enthalpy of formation and energy of HOMO. The second PC is strongly influenced by energy of LUMO, while substitution pattern parameters, number of chlorine atoms at a-positions and vicinal (adjacent) carbon atoms substitution pattern are less important parameters. The third PC depends on dipole moment and the largest negative charge, and on substitution at position 2 of naphthalene nuclei, while the symmetry group parameter is determined by PC4. There are small groups consisting of compounds which have similar values of LUMO energy and substitution pattern. The congeners of CN substituted with chlorine at positions 1, 2, 3, 6 and 7 (Fv/Fv PCN congeners), and next those substituted at positions 1, 2, 3 and 6 or 7 (Fr/Fv PCB congeners) are considered to be most potent in terms of dioxin-like toxicity, and followed by those substituted at four positions (Fr[Fv), at three positions (Tr/Fv) and so on. The thermodynamic stability of the congeners of CN depends on the number of attached chlorine and structure of the molecule. Among the 75 congeners of CN only a few, like PCN nos. 42, 560, 61, 66/67, are relatively resistant to biodegradation and biomagnify in animals occupying a higher position in the marine food web, and with a particular homologue group they are characterised by the lowest absolute values of energy of LUMO.

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Tom

10

Numer

4

Opis fizyczny

p.217-235,fig.,ref.

Twórcy

autor
  • University of Gdansk, 18 Sobieskiego Str., 80-952 Gdansk, Poland
autor
autor
autor
autor
autor

Bibliografia

  • 1. AKERBLOM N., OLSSON K., BERG A. H., ANDER­SSON P. L., TYSKLIND M., FORLIN L., NORRGREN L. Impact of polychlorinated naphthalenes (PCNs) in juvenile Baltic salmon, Salmo salar. Evaluation of estrogenic effects, development, and CYP1A induction. Archives of Environ mental Contamination and Toxicology, 38, 225, 2000.
  • 2. AITTOLA J-P, PAASIVIRTA J, VATTULAINEN A, SIN­KKONEN S, KOISTINEN J, TARHANEN J. Formation of chloroaromatics at a metal reclamation plant and efficiency of stack filter in their removal from emission. Organohalo­gen Compounds, 19, 321, 1994.
  • 3. ASPLUND L. Development and application of methods for determination of polychlorinated organic pollutants in biota. Ph. D. Thesis, Stockholm University, 1994. ISBN 91-7152-272-2.
  • 4. BAKER J. An algotithm for the location of transition states. Journal of Computational Chemistry, 7, 385, 1986.
  • 5. BLANKENSHIP A., KANNAN K., VILLALOBOS S., VIL­LENEUVE D., FALANDYSZ J., IMAGAWA T., JAKOB- SSON E., GIESY J. Relative potencies of Halowax mixtures and individual polychlorinated naphthalenes (PCNs) to in duce Ah receptor-mediated responses in the rat hepatoma H4IIE-luc cell bioassay. Dioxin'99, 19th Symposium on Halogenated Environmental Organic Pollutants, September 12-17, 1999, Venice, Italy. Organohalogen Compounds, 42, 217, 1999.
  • 6. BLANKENSHIP A., KANNAN K, VILLALOBOS S., VIL­LENEUVE D., FALANDYSZ J., IMAGAWA T., JAKOB- SSON E., GIESY J. Relative potencies of Halowax mixtures and individual polychlorinated naphthalenes (PCNs) to in duce Ah receptor-mediated responses in the rat hepatoma H4IIE-Luc cell bioassay. Environmental Science and Technology, 34, 3153, 2000.
  • 7. BRINKMAN U. A. T. H, REYMER H. G. M. Poly chlorinated naphthalenes. Journal of Chromatography, 127, 203, 1976.
  • 8. ELJARRAT E., CAIXACH J, JIMENEZ B., GONZALEZ M. J., RIVERA J. Polychlorinated naphthalenes in sediments from the Venice and Orbetello Lagoons, Italy. Chemosphere, 38 (8), 1901, 1999.
  • 9. FALANDYSZ J. Polichlorowane naftaleny w środowisku. Farmacja Polska, 37 (3) 125, 1981.
  • 10. FALANDYSZ J. Polychlorinated naphthalenes: an environ mental update. Environmental Pollution, 101 (1), 77, 1998.
  • 11. FALANDYSZ J. Polychlorinated biphenyls (PCBs) in the environment: chemistry, analysis, toxicity, concentrations and risk assessment (in Polish). Fundacja Rozwoju Uniwer­sytetu Gdańskiego. ISBN-83-86230-52-5. Gdansk, 1999.
  • 12. FALANDYSZ J., RACINIEWSKA M., BLAZEJOWSKI J, GOLASZEWSKA I., SKURSKI P. Thermodynamic and physicochemical properties vis. some ecotoxicological features of polychlorinated naphthalenes. Dioxin'98, 18th Symposium on Halogenated Organic Pollutants, Stockholm, Au gust 17-21,1998. Organohalogen Compounds, 36, 471,1998.
  • 13. FALANDYSZ J., STRANDBERG L., BERGQVIST P-A, STRANDBERG B., RAPPE C. Spatial distribution and bi­oaccumulation of polychlorinated naphthalenes (PCNs) in mussel and fishes from the Gulf of Gdansk, Baltic Sea. The Science of the Total Environment, 203 (2) 93, 1997.
  • 14. FALANDYSZ J., STRANDBERG B., STRANDBERG L., BERGQVIST P-A., RAPPE C. Concentrations and biomag- nification of polychlorinated naphthalenes in black cormor­ants Phalacrocorax carbo sinensis from the Gulf of Gdansk, Baltic Sea. The Science of the Total Environment, 204 (2) 97, 1997.
  • 15. FALANDYSZ J., RAPPE C: Specific pattern of tetrach- loronaphthalenes in black cormorant. Chemosphere, 35 (8) 1737, 1997.
  • 16. FALANDYSZ J. Bioaccumulation and biomagnification features of polychlorinated naphthalenes. Dioxin'97, 17 th Symposium on Chlorinated Dioxins and Related Com­pounds, Indianapolis, August 24-29, 1997. Organohalogen Compounds, 32, 374, 1997.
  • 17. FALANDYSZ J., STRANDBERG L., STRANDBERG B., RAPPE C. Polichlorowane naftaleny (PCNs) w omutku Mytilus trosulus i storni Platychthis flesus z Zatoki Gdaiiskiej. Bromatologia i Chemia Toksykologiczna, 30 (2), 183, 1997.
  • 18. FALANDYSZ J., RAPPE C. Spatial distribution in plank ton and bioaccumulation features of polychlorinated naph thalenes in a pelagic food chain in southern part of the Baltic proper. Environmental Science and Technology, 30 (11), 3362, 1996.
  • 19. FALANDYSZ J., STRANDBERG L, BERGQVIST P-A., KULP S. E., STRANDBERG B., RAPPE C. Poly chlorinated naphthalenes in sediment and biota from the Gdansk Basin, Baltic Sea. Environmental Science and Technology, 30 (11), 3266, 1996.
  • 20. FALANDYSZ J., STRANDBERG B, KULP S. E., STRANDBERG L., BERGQVIST P-A., RAPPE C. Kon- genero-specyficzna analiza chloronaftalenow w ciernikach Gasterosteus aculleatus z różnych miejsc w Zatoce Gdańskiej. Bromatologia i Chemia Toksykologiczna, 26 (4), 393, 1996.
  • 21. FALANDYSZ J., KULP S. E., STRANDBERG L., STRANDBERG B., BERGQVIST P-A., RAPPE C. Polichlorowane naftaleny w morświnach Phocoena phocoena. Roc­zniki Państwowego Zakładu Higieny, 47 (3), 265, 1996.
  • 22. FALANDYSZ J., STRANDBERG L., KULP S. E., STRANDBERG B., BERGQVIST P-A., RAPPE C. Polichlorowane naftaleny w niektórych gatunkach ryb z Zatoki Gdańskiej. Bromatologia i Chemia Toksykologiczna, 29 (3), 253, 1996.
  • 23. FALANDYSZ J, STRANDBERG L., KULP S.E., STRAN DBERG B., BERGQVIST P-A., RAPPE C. Congener-specific analysis of chloronaphthalenes in white-tailed sea eagles Haliaeetus albicilla breeding in Poland. Chemosphere, 33 (1), 51, 1996.
  • 24. FALANDYSZ J., STRANDBERG B., STRANDBERG L., BERGQVIST P-A., KULP S. E., RAPPE C. Badania roz­mieszczenia przestrzennego chloronaftalenow w storni Platy chthis flesus z Zatoki Gdańskiej. Roczniki Panstwowego Zakładu Higieny, 47 (3), 257, 1996.
  • 25. FALANDYSZ J, STRANDBERG L., BERGQVIST P-A., STRANDBERG B., RAPPE C. Analysis of the spatial dis tribution of chloronaphthalene congeners in stickleback Gasterosteus aculeatus from the Gulf of Gdansk, Baltic Sea. Dioxin'96, 16th Symposium on Chlorinated Dioxins and Re lated Compounds, Amsterdam, August 12-16, 1996. Or ganohalogen Compounds, 28, 446, 1996.
  • 26. FALANDYSZ J., STRANDBERG B., STRANDBERG L., RAPPE C. Polychlorinated naphthalenes in three-spined stickleback Gasterosteus aculeatus from the Gulf of Gdansk. Chemosphere, 37 (9-12), 2473, 1998.
  • 27. FALANDYSZ J., PUZYN T. Relationships between energy of LUMO and dioxin-like activity of PCNs in the luciferase test. Dioxin 2000, 20th Symposium on Halogenated Environ­mental Organic Pollutants, August 14-17, 2000, Monterey, California. Organohalogen Compounds, 47, 163, 2000.
  • 28. FLANDYSZ J., PUZYN T., MARKUSZEWSKI M., KA- LISZAN R. Multivariate physico-chemical characterisation of polychlorinated naphthalenes (PCNs). Dioxin 2000, 2Oh Symposium on Halogenated Environmental Organic Pollu tants, August 14-17, 2000, Monterey, California. Or ganohalogen Compounds, 47, 147, 2000.
  • 29. FALANDYSZ J., KANNAN K, KAWANO M., RAPPE C. Relative contribution of chlorinated naphthalenes, -bi- phenyls, -dibenzofurans and -dibenzo-p-dioxins to toxic equivalents in biota from the south coast of the Baltic Sea. Dioxin 2000, 2JJh Symposium on Halogenated Environmental Organic Pollutants, August 14-17, 2000, Monterey, California. Organohalogen Compounds, 47, 9, 2000.
  • 30. FALANDYSZ J., KAWANO M., UEDA M., MATSUDA M., KANNAN K., GIESY J. P., WAKIMOTO T. Composition of chloronaphthalene congeners in technical chloronaphthalene formulations of the Halowax series. Journal of Environmental Sciences and Health, 35A (3), 111, 2000.
  • 31. GASTEIGER J., MARSILI M. Iterative partial equalization of orbital electronegativity - a rapid access to atomic charges. Tethrahedron, 36, 3219, 1980.
  • 32. GEVAO B., HARNER T, JONES K. C. Sedimentary re cord of polychlorinated naphthalene concentrations and de position fluxes in a dated lake core. Environmental Science and Technology, 34 (1), 33, 2000.
  • 33. HALL L., KIER B. The molecular connectivity chi indexes and kappa shape indexes in structure-property modeling. Reviews in Computational Chemistry, 2, 367, 1991.
  • 34. HANBERG A, STAHLBERG M., GEORGELLIS A., DE WIT C, AHLBORG U. G. Swedish dioxin survey: evaluation of the H-4-II E bioassay for screening environmental samples for dioxin-like enzyme induction. Pharmacology and Toxicology, 69, 442, 1991.
  • 35. HANBERG A., WAERN F, ASPLUND L, HAGLUND E., SAFE S. Swedish dioxin survey - determination of 2,3,7,8-TCDD toxic equivalent factors for some poly chlorinated biphenyls and naphthalenes using biological tests. Chemosphere, 20, 2261, 1990.
  • 36. HANSCH C, LEO A. Exploring QSAR. Fundamentals and applications in chemistry and biology. American Chemical Society. ISBN 0-8412-2993-7. Washington, DC 1995.
  • 37. HARNER T., BIDLEMAN T. F. Polychlorinated naphthalenes in urban air. Atmospheric Environment, 31 (23) 4009, 1997.
  • 38. HARNER T., BIDLEMAN T. F. Measurement of octanol-air partition coefficients for polycyclic aromatic hydro carbons and polychlorinated naphthalenes. Journal of Chemical Engineering Data, 43 (1) 40, 1998.
  • 39. HARNER T., LEE R.T.M., JONES K.C. Polychlorinated naphthalenes in the atmosphere of the United Kingdom. Environmental Science and Technology, in press, 2000.
  • 40. HARNER T., KYLIN H., BIDLEMAN T. F., HALSALL C, STRACHAN W. M. J., BARRIE L. A, FELLIN P. H. Polychlorinated naphthalenes and coplanar polychlorinated biphenyls in Arctic air. Environmental Science and Technology, 32 (21), 3257, 1998.
  • 41. HELM PA., JANTUNEN L.M.M., BIDLEMAN T.F., DORMAN F.L. Complete separation of isomeric penta- and hexachloronaphthelenes by capillary gas chromatography. Journal of High Resolution Chromatography, 22 (11) 639, 1999.
  • 42. HyperChem™. Release 5.0 for Windows, Reference Man ual. Hypercube, Inc., Publication HC50-00-01-00, 1996.
  • 43. IMAGAWA T., YAMASHITA N. Estimation of emission sources of polychlorinated naphthalenes using finger-print method for isomer composition (in Japanese). Journal of Environmental Chemistry, 6 (4), 495, 1996.
  • 44. ISHAQ R., KARLSON K., NAF C. Tissue distribution of polychlorinated naphthalenes (PCNs) and non-ortho chlorinated biphenyls (non-ortho PCBs) in harbour porpoises (Phocoena phocoena) from Swedish waters. Chemosphere, in press, 2000.
  • 45. JACKSON J.E. A user's guide to principal components. J. Wiley Sons, New York, USA, 1991.
  • 46. JAKOBSSON E. Synthesis and analysis of polychlorinated naphthalenes. Biological and environmental implications. Ph. D. Thesis, Stockholm University, 1994. ISBN 91 7153 241 2.
  • 47. JANSSON B., ANDERSSON R., ASPLUND L., BE RGMAN A., LITZEN K., NYLUND K., REUTHER- GARDH L., SELLSTROM U., UVEMO U-B., WAH­LBERG C, WIDEQUIST U. Multiresidue method for the gas-chromatographic analysis of some polychlorinated and polybrominated pollutants in biological samples. Fresenius' Journal of Analytical Chemistry, 340, 439, 1991.
  • 48. JARNBERG U. Analytical methods for studying poly chlorinated naphthalene congener profiles and levels in the environment. Ph. D. Thesis, Stockholm University, 1997. ISBN 91-7153-6582.
  • 49. JARNBERG U., ASPLUND L., DE WITT C, EGEBACK A-L. WIDEQUIST U., JAKOBSSON E. Distribution of polychlorinated naphthalene congeners in environmental and source-related samples. Archives of Environmental Contamination and Toxicology, 32, 232, 1997.
  • 50. JARNBERG U., ASPLUND L., EGEBACK A-L. JAN SSON B., UNGER M., WIDEQUIST U. Polychlorinated naphthalene congener profiles in background sediments compared to a degraded Halowax 1014 technical mixture. Environmental Science and Technology, 33 (1), 232, 1999.
  • 51. JARNBERG U., ASPLUND C, DE WIT C, GRAF­STROM A-K., HAGLUND P., JANSSON B, LEXEN K., STRANDELL M., OLSSON M., JONSSON B. Poly chlorinated biphenyls and polychlorinated naphthalenes in Swedish sediment and biota: Levels, patterns, and time trends. Environmental Science and Technology, 27 (7), 1364, 1993.
  • 52. JOLLIFFE T. Principal component analysis. Springer-Ver­lag, New York, USA, 1986.
  • 53. KANNAN, K., IMAGAWA T, BLANKENSHIP A. L, GIESY J. P. Isomer-specific analysis and toxic evaluation of polychlorinated naphthalenes in soil, sediment, and biota collected near the site of a former chlor-alkali plant. Environmental Science and Technology, 32 (17), 2507, 1998.
  • 54. KANNAN K., YAMASHITA N., IMAGAWA T., DE- COEN W, KHIM J. S., DAY R. M., SUMMER C. L., GIESY J. P. Polychlorinated naphthalenes and poly chlorinated biphenyls in fishes from waters including the Great Lakes. Environmental Science and Technology, 34 (4), 566, 2000.
  • 55. KAWANO M, UEDA M., FALANDYSZ J., MATSUDA M. Polychlorinated naphthalenes (PCNs) in human adipose tissue in Japan. Dioxin 2000, 2O Symposium on Halogenated Environmental Organic Pollutants, August 14-17, 2000, Monterey, California. Organohalogen Compounds, 47, 159, 2000.
  • 56. KAWANO M., UEDA M., MATSUI M., KASHIMA Y., MATSUDA M., WAKIMOTO T. Extractable organic halo gens (EOX: CI, Br and I), polychlorinated naphthalenes and polychlorinated dibenzo-p-dioxins and dibenzofurans in ashes from incinerators located in Japan. Organohalogen Compounds, 36, 221, 1998.
  • 57. KOVER F. Environmental Hazard Assessment Report: Chlorinated Naphthalenes; EPA 560/8-75-001; USA. Environmental Protection Agency, Washington DC, USA.
  • 58. KUBINYI H. QSAR: Hansch analysis and related approaches. VCH. ISBN 1-56081-768-2. Weinheim (Ger many), 1993.
  • 59. LEE R. G. M., BURNETT V., HARNER T., JONES K. C. Short-term temperature-dependent air-surface exchange and atmospheric concentrations of polychlorinated naphthalenes and organochlorine pesticides. Environmental Science and Technology, 34 (3), 393, 2000.
  • 60. LEI Y. D, WANIA F., SHIU W. Y. Vapour pressures of the polychlorinated naphthalenes. Journal of Chemical and Engineering Data, 44 (3), 5777, 1999.
  • 61. LUNDEN A, NOREN K. Polychlorinated naphthalenes and other organochlorine contaminants in Swedish human milk, 1972-1992. Archives of Environmental Contamination and Toxicology, 34, 414, 1998.
  • 62. MARTI I., VENTURA F. Polychlorinated naphthalenes in ground water samples from the Llobregat aquifer (Spain). Journal of Chromatography A, 786, 135, 1997.
  • 63. NAKANO T., FUJIMORI K., TAKAISHI Y., UMEDA H. Isomer specific analysis of polychloronaphthalenes (in Ja panese). Reports of Hyogo Prefectural Institute of Environ mental Sciences, 25, 33, 1993.
  • 64. YAMASHITA N, KANNAN K, IMAGAWA T, MIYAZAKI A, GIESY J.P. Concentrations and profiles of polychlorinated naphthalene congeners in eighteen technical polychlorinated biphenyl preparations. Environmental Science and Technology, 34, 4236, 2000.
  • 65. POPP W., NORPOTH K., VAHRENHOLZ C, HAMM S., BALFANZ E., THEISEN J. Polychlorinated naphthalene exposures and liver function changes. American Journal of Industrial Medicine, 32, 413, 1997.
  • 66. SciQSAR™. User Guide.
  • 67. STEWART J. J. P. Optimalization of parameters for semiempirical methods. I Method. Journal of Computa tional Chemistry, 10, 209, 1989.
  • 68. STEWART J. J. P. Optimalization of parameters for semiempirical methods. II Applications. Journal of Com putational Chemistry, 10, 221, 1989.
  • 69. STEWART J. J. P. Semiempirical molecular orbital methods. Reviews in Computational Chemistry, 1, 45, 1990.
  • 70. STEWART J. J. P. Mopac 93. Copyright Fujitsu, Tokyo, 1993.
  • 71. THEISEN J., MAULSHAGEN A., FUCHS J. Organic and inorganic substances in the copper slag "Kieselrot". Chemo sphere, 26, 881, 1993.
  • 72. TIERY D. A., TAYLOR P. H, KASNER J., DELLINGER B. Gas phase formation of chlorinated aromatic compounds from the pyrolysis of tetrachloroethylene. Combustion Science and Technology, 74, 137, 1992.
  • 73. TYSKLIND M., ELG K, ANDERSSON P. L., VAN BAVEL B. HAGLUND P. The use of multivariate experimental design in the selection of polychlorinated naphtha lenes for screening of biochemical and toxicological effects. Organohalogen Compounds, 28, 545, 1986.
  • 74. TYSKLIND M, LUNDGREN K., RAPPE C, ERIKSSON L., JONSSON J., SJOSTROM M., AHLBORG U. G. Multi variate characterization and modeling of polychlorinated dibenzo-p-dioxins and dibenzofurans. Environmental Science and Technology, 26, 1023, 1992.
  • 75. TYSKLIND M, NYSTROM M., AKERBLOM N., AN­DERSSON P. L, VAN BAVEL B., NORRGREN L. Deter mination and modelling of biomagnification factors for poly chlorinated naphthalenes (PCNs) in salmon (Salmo salar). Organohalogen Compounds, 39, 13, 1998.
  • 76. USEPA. Category of substances known as chlorinated naphthalenes proposed determination of significant new uses. Federal Register, 48, 20668, 1983.
  • 77. VILLALOBOS S. A, PAPOULIAS D. M., MEADOWS J, BLANKENSHIP A. L., PASTVA S. D., KANNAN K., HINTON D. E., TILLIT D. E., GIESY J. P. Toxic responses of medaka, d-rR strain, to polychlorinated naphthalene mixtures after embryonic exposure by in ovo nanoinjection:a partial life-cycle assessment. Environmental Toxicology and Chemistry, 19 (2), 432, 2000.
  • 78. VILLENEUVE D. L, KHIM J. S., KANNAN K., FALAN­DYSZ J., BLANKENSHIP A. L., NIKIFOROV V., GIESY J.P. Relative potencies of individual polychlorinated naphthalenes to induce dioxin-like responses in fish and mammalian in vitro bioassays. Archives of Environmental Contamination and Toxicology, 39, 273, 2000.
  • 79. WIEDMANN T., BALLSCHMITER K. Halogenated naphthalenes as precursors and products in flame chemistry. Organohalogen Compounds, 9, 331, 1992.
  • 80. WIENNER H. Structural determination of paraffin boiling points. Journal of the American Chemical Society, 69, 17, 1947.
  • 81. YASUHARA A, MORITA M. Formation of chlorinated aromatic hydrocarbons by thermal decomposition of vinylidene chloride polymer. Environmental Science and Technology, 22, 646, 1988.

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