The importance of degradation in the fate of selected organic compounds in the environment. Part II. Photodegradation and biodegradation

• Autorzy: Dabrowski D , Kot-Wasik A. , Namiesnik J.
• Języki publikacji: EN

Abstrakty

EN

Compounds characterized by a slow degradation rate in the environment, i.e. resistant to biodegradation, and photolysis processes, are classified as persistent and have often been considered as potential environmental problems. A more exacting approach recognizes that a compound released to the environment has a tendency to accumulate in one medium more than in others. Hence, partitioning, transport, and transformation rates of any particular compound will differ in each medium. Degradation processes in the dominant medium (where the compound is preferentially accumulated) are expected to have more effect on overall persistence of the measured compound than degradation processes in the other media. Photodegradation and biodegradation are the degradation processes which can naturaly clean up the environment. Biodegradation is expected to be the major mechanism of loss for most chemicals released into the environment. In this study, photodegradation and biodegradation processes of selected organic pollutants in different media have been reviewed.

Słowa kluczowe

EN

biodegradation; photodegradation; environment; organic pollutant; degradation product

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2004
• Tom: 13
• Numer: 6
• Opis fizyczny: p.617-626,fig.,ref.

Twórcy

autor

Dabrowski D

• Gdansk University of Technology, 11-12 Narutowicza Str., 80-952 Gdansk, Poland

autor

Kot-Wasik A.

autor

Namiesnik J.

Bibliografia

• 1. LARSON R. A., BERENBAUM M. R., Environmental phototoxicity: Solar ultraviolt radiation affects the toxicity of natural and man-made chemicals, Environ. Sci. Technol. 22, 354, 1988.
• 2. PRINCE R.C., DRAKE E.N., Transformation and fate of polycyclic aromatic hydrocarbons in soil, in Bioremediation of Contaminated Soils, Agronomy Monograph no. 37, 677 S. Segoe Rd., Madison, WI 53711, USA, 1999, 89.
• 3. GOTVAJN A. Ż., ZAGORC-KONCAN J., Biodegradation studies as an important way to estimate the environmental fate of chemicals, Wat. Sci. Tech. 39, 375, 1999.
• 4. ZABŁOCKA-GODLEWSKA E., BUCZKOWSKA- -WESOŁOWSKA K. Estimation of PAHs impact on qualita­tive and quantitative changes of microorganisms in soils. Sym­posium Papers, Wisła-Bukowa, Poland, 1998 (in Polish).
• 5. CHOUDHRY G.G., WEBSTER G.R.B., Environmental photochemistry of polychlorinated dibenzofurans (PCDFs) and dibenzo-p-dioxins (PCDDs): A review, Toxicol. Envi­ron. Chem. 14, 43, 1987.
• 6. WU CH., LIU X., WEI D., FAN J., WANG L., Photos nochemical degradation of phenol in water, Wat. Res. 35, 3927, 2001.
• 7. MILL T. M., Structure-activity relationships for photooxidation processes in environment, Environ. Toxicol. Chem. 8, 31, 1989.
• 8. ROCHA F., WALKER A.. Simulation of the persistence of atrazine in soil at different sites in Portugal, Weed Research 35, 179, 1995.
• 9. KLOPFFER W., Photochemical degradation of pesticides and other chemicals in the environment: a critical assess­ment of the state of the art, Sci.Total Environ. 123/124, 145, 1992.
• 10. ZEPP R. G., SCHLOTZHAUER P.F., Influence of algae on photolysis rates of chemicals in water, Eviron. Sci. Technol. 17, 462, 1983.
• 11. SINKKONEN S., PAASIVIRTA J., Degradation half-life times of PCDDs, PCDFs and for environmental fate model­ing, Chemosphere 40, 943, 2000.
• 12. NAFFRECHOUX E., CHANOUX S., PETRIER C., SUP- TIL J., Sonochemical and photochemical oxidation of or­ganic matter, Ultrasonics Sonochemistry 7, 255, 2000.
• 13. JONGKI H., DO-GYUN K., CHAEJOON CH., SEUNG- YONG J., MI-RAN Y., KANG-JIN K., TAE-KWAN K., YOON-CHANG P., Identification of photolytical transfor­mation products of pentachlorophenol in water, Anal. Sci. 16, 621, 2000.
• 14. MEEKYUNG K., O'KEEFE P. W., Photodegradation of polychlorinated dibenzo-p-dioxins and dibenzofurans in aqueous solutions and in organic solvents, Chemosphere 41, 793, 2000.
• 15. FRIESEN K.J., FOGA M.M., LOEWEN M.D., Aquatic photodegradation of polichlorinated dibenzofurans: rates and photoproduct analysis, Environ. Sci. Technol. 30, 2504, 1996.
• 16. KOCHANY J., MAGUIRE R.J., Abiotic transformation of polynulear aromatic hydrocarbons and polynuclear aromatic nitrogen heterocycles in aquatic environments, Sci. Tot. En­viron. 144, 17, 1994.
• 17. ZEPP R.G., SCHLOTZHAUER F., Photoreactivity of se­lected aromatic hydrocarbons in water. In Jones, P.W.&P. Leber (eds), Polynuclear Aromatic Hydrocarbons, Ann Arbor Science Publishers Inc. pp. 144-158, 1979.
• 18. LEHTO K. M., VUORIMAA E., LEMMETYINEN H., Photolysis of polycyclic aromatic hydrocarbons (PAHs) in dilute aqueous solutions detected by fluorescence, J. Photo- chem. Photobiol. A 136, 53, 2000.
• 19. PAPADOYANNIS I.N., ZATOU A., SAMANIDOU V.F. Development of a solid phase extraction protocol for the simultaneous determination of anthracene and its oxidation products in surface waters by reversed-phase HPLC, J. Liq­uid Chromatogr & Related Technol. 25, 2653, 2002.
• 20. BERTILSSON S., WIDENFALK A., Photochemical degra­dation of PAHs in freshwaters and their impact on bacterial growth - influence of water chemistry, Hydrobiologia 469, 23, 2002.
• 21. FRIMMEL F.H. Photochemical aspects related to humic substances. Environ. Internat. 20, 373, 1994.
• 22. VIALATON D., PILICHOWSKI J.F., BAGLIO D., PAYA- PEREZ A., LARSEN B., RICHARD C. Phototransforma­tion of propiconazole in aqueous media, J. Agric. Food Chem. 49, 5377, 2001.
• 23. BIZIUK M. Pesticides - occurrence, determination and utilisation, WNT Press, Warsaw, Poland, 2001 (in Polish).
• 24. RÓŻAŃSKI L. Degradation of pesticides in living organ­isms and environment, PWRiL Press, Warsaw, 1992 (in Pol­ish).
• 25. SAKKAS V. A., KONSTANTINOU I. K., ALBANIS T. A., Photodegradation study of the antifouling booster biocide dichlofluanid in aqueous media by gas chromatographic techniques, J. Chromatogr. A 930, 135, 2001.
• 26. HEBERT, V. R., MILLER, G. C. Depth dependence of di­rect and indirect photolysis on solid surfaces. J. Agric. Food Chem., 38, 913, 1990.
• 27. CHUKWUDEBE A., MARCH R. B., OTHMAN M., FU- KUTO T. R. Formation of trialkyl phosphorothiate esters from organophosphorus insecticides afterexposure to either ultraviolet light or sunlight. J.Agricult. Food Chem. 37, 539, 1989.
• 28. HIRAHARA Y., UENO H., NAKAMUROB K. Compara­tive Photodegradation Study of Fenthion and Disulfoton under Irradiation of Different Light Sources in Liquid- and Solid-Phases. J. Health Sci. 47(2),129, 2001.
• 29. MOEINI-NOMBEL L., MATSUZAWA S. Effect of solvents and a substituent group on photooxidation of fluorene, J. Photochem. Photobiol. A Chemistry 119, 15, 1998.
• 30. KLÁN P., HOLOUBEK I., Ice (photo)chemistry. Ice as a medium for long-term (photo)chemical transformation-en­vironmental implications, Chemosphere 46, 1201, 2002.
• 31. DUBOWSKI Y., HOFFMANN M.R., Photochemical trans­formations in ice: implications for the fate of chemical spe­cies, Geophys. Res. Lett. 27, 3321, 2000.
• 32. ALLOWAY B.J., AYRES D.C., Chemical principles of en­vironmental pollution, PWN Press, Warsaw, 1999.
• 33. ROMERO E., DIOS G., MINGORANCE M. D., MA- TALLO M. B., PENA A., SÁNCHEZ-RASERO F. Photo­degradation of mecoprop and dichlorprop on dry, moist and amended soil surfaces exposed to sunlight, Chemosphere 37, 577, 1998.
• 34. STRYER L., Biochemistry, PWN Press, Warsaw, Poland, 1997 (in Polish).
• 35. O'NEILL P., Environmental Chemistry, PWN Press, War­saw-Wroclaw, 1998 (in Polish).
• 36. OLEŃCZUK-NEYMAN K., Microorganisms and quality of underground waters. GUT Press, Gdańsk 2001 (in Polish).
• 37. CERNIGLIA C.E., SHUTTLEWORTH K.L., Methods for isolation of polycyclic aromatic hydrocarbon (PAH) - de­grading microorganisms and procedures for determination of biodegradation intermediates and environmental moni­toring of PAHs, Manual of Environmental Microbiology: Second Edition, ASM Press, Washington D.C., 2002, 972.
• 38. BUMPUS J. A., Biodegradation of Polycyclic Aromatic Hydrocarbons by Phanerochaete chrysosporium, Appl. En­viron. Microbiol. 55, 154, 1989.
• 39. HEITKAMP M. A., CERNIGLIA C. E., Polycyclic Aro­matic Hydrocarbon Degradation by Mycobacterium sp. in Microcosms Containing Sediment and Water from a Pristine Ecosystem, Appl. Environ. Microbiol. 55, 1968, 1989.
• 40. YUAN S.Y., WEI S. H., CHANG B.V., Bidegradation of polycyclic aromatic hydrocarbons by a mixed culture, Chemosphere 41, 1463, 2000.
• 41. YUAN S.Y., CHANG J.S., YEN J.H., CHANG B.V., Biodegradation of phenanthrene in river sediment, Chemo- sphere 43, 273, 2001.
• 42. JUHASZ A. L., BRITZ M. L., STANLEY G. A., Degrada­tion of benzo[a]pyrene, dibenz[a,h]anthracene and coronene by Burkholderia cepacia, Wat. Sci. Tech. 36, 45, 1997.
• 43. RAVELET C., GROSSET C., MONTUELLE B., BENOIT-GUYOD J. L., ALARY J., Liquid chromatography study of pyrene degradation by two micromycetes in freshwater sedi­ment, Chemosphere 44, 1541, 2001.
• 44. HWANG S., CUTRIGHT T.J. Biodegradability of aged py­rene and phenanthrene in natural soil, Chemosphere 47, 891, 2002.
• 45. ELLIS L.B.M., HERSHBERGER C.D., BRYAN E.M., WACKETT L.P., The University of Minnesota Biocatalysis/ Biodegradation Database: emphasising enzymes, Nucleic Acids Research 29, 340, 2001.
• 46. CULLEN W.R., LI X.F., REIMER K.J., Degradation of phenanthrene and pyrene, Sci. Total Environ. 156, 27, 1994.
• 47. GEISELBRECHT A.D., HERWIG P.R., DEMIN J.W., STALEY J.T., Enumeration and phylogenetic analysis of polycyclic aromatic hydrocarbon-degrading marine bacteria from Puget Sound sediments, Appl. Environ. Microbiol. 62, 334, 1996.
• 48. BREGNARD T.P.A., HOHENER P., HANER A., ZEYER J., Degradation of weathered diesel fuels by microorgan­isms, Environ. Toxicol. Chem. 15, 299, 1996.
• 49. LANGENHOFF A.A.M., ZEHNDER A.J.B., SCHRAA G., Behavior of toluene, benzene and naphtalene under anaerobic conditions in sediment columns, Biodegradation 7, 267, 1996.
• 50. CHANG B.V., CHANG J.S., YUAN S.Y., Degradation of phenathrene in river sediment under nitrate-reducing condi­tions, Bull. Environ. Contam. Toxicol. 67, 898, 2001.
• 51. WALTON B.T., ANDERSON T.A., Structural properties of organic chemicals as predictors of biodegradation and microbial toxicity in soils, Chemosphere 17, 1501, 1988.
• 52. MÜLLER R., LINGENS F., Microbial degradation of halogenated hydrocarbons: a biological solution to pollution problems, Angew. Chem. Int. Ed. Engl. 25, 779, 1986.
• 53. KOMANCOVA M., JURCOVA I., KOCHANKOVA L., BURKHARD J., Metabolic pathways of polychlorinated biphenyls degradation by Pseudomonas sp. 2. Chemosphere 50, 537, 2003.
• 54. KUBETOVA A., ERBANOVA P., EICHLEROVA I., HO- MOLKA L., NERUD F., SASEK V. PCB congener selective biodegradation by the white rot fungus Pleurotus ostereatus in contaminated soil, Chemosphere 43, 207, 2001.
• 55. CHANG B.V., LIU W.G., YUAN S.Y., Microbial dechlori­nation of three PCB congeners in river sediment, Chemo­sphere 45, 849, 2001.
• 56. HARRISON I., LEADER R. U., HIGGO J. W., WILLIAMS G. M., A study of the degradation of phenoxyacid herbicides at different sites in a limestone aquifer, Chemosphere 36, 1211, 1998.
• 57. NIELSEN P.H., BJERG P.L., SMITH P., CHRISTENSEN T. H., In situ and laboratory determined first-order degra­dation rate constants of specific organic compounds in an aerobic aquifer, Environ. Sci. Technol. 30, 31, 1996.
• 58. PAPIERNIK S., A review of in situ measurement of organic compound transformation in grundwater, Pest Manag. Sci. 57, 325, 2001.
• 59. MARTINS J.M.F., CHEVRE N., SPACK L., TARRADEL­LAS J., MERMOUD A., Degradation in soil and water and ecotoxicity of rimsulfuron and its metabolites, Chemosphere 45, 515, 2001.
• 60. OGAWA I., JUNK G. A., SVEC H. J., Degradation of aro­matic compounds in ground-water, and methods of sample preservation, Talanta 28, 725, 1981.
• 61. GARON D., KRIVOBOK S., SEIGLE-MURANDI F., Fun­gal degradation of fluorene, Chemosphere 40, 91, 2000.
• 62. MONNA L, OMORI T, KODAMA T., Microbial degrada­tion of dibenzofuran, fluorene, and dibenzo-p-dioxin by Staphylococcus auriculans DBF63, Appl Environ. Micro­biol. 59, 285, 1993.
• 63. RAVELET C., KRIVOBOK S., SAGE L., STEIMAN R., Biodegradation of pyrene by sediment fungi, Chemosphere 40, 557, 2000.
• 64. KANG J.H., KONDO F. Effects of bacterial counts and tem­perature on the biodegradation of bisphenol A in river water, Chemosphere 49, 493, 2002.
• 65. MATSUSHITA T., MATSUI Y., TANIWAKI S., INOUE T. Chnges in mutagenicity during biodegradation of fenitrothion, Chemosphere 47, 9, 2002.
• 66. MATSUSHITA T., MATSUI Y., SAKUMA S., INOUE T. Changes in mutagenicity of herbicide chlornitrofen during biodegradation, Mutation Research 516, 71, 2002.