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2008 | 17 | 5 |

Tytuł artykułu

Organotin compounds in marine sediments

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
Organotin compounds are widely used in almost all sectors of industry. Antifouling paints, which were applied to ship hulls to protect from fouling organisms, are the main source of TBT and TPhT derivatives loaded into the sea. The global ban on the use of these compounds in antifouling systems was introduced by the IMO in 2001. However, the ban did not solve the problem of the use of alternatives to TBT in the ship industry. Moreover, the issue of storing the organotins-containing dredged spoils at sea still remains unresolved. The pollution load deposited in port sediments may become an additional threat to the organisms that dwell in a given water basin. In such cases, it is necessary to establish appropriate norms for the quality classification of dredged spoils. Unfortunately, detailed guidelines concerning the disposal of dredged spoils are still lacking.

Wydawca

-

Rocznik

Tom

17

Numer

5

Opis fizyczny

p.643-654,fig.,ref.

Twórcy

autor
  • University of Gdansk, Al.Marszalka Pilsudskiego 46, 81-378 Gdynia, Poland
autor
autor
autor

Bibliografia

  • 1. ALBANIS T.A., LAMBROPOULOU D.A., SAKKAS V.A., KONSTANTINOU I.K. Antifouling booster biocide contamination in Greek marine sediments. Chemosphere 48, 475, 2002.
  • 2. ALZIEU C. Environmental impact of TBT: the French experience. Sci. Total. Environ. 258, 99, 2000.
  • 3. Annex V to the Helsinki Convention 1992 on the Protection of the Marine Environment of the Baltic Sea Area, prepared in Helsinki on 9 April 1992. www.helcom.fi
  • 4. ANTIZAR-LADISLAO B. Environmental levels, toxicity and human exposure to tributyltin (TBT)-contaminated marine environment. A review. Environ. Int. 34, 292, 2008.
  • 5. Article 11, Helsinki Convention on the Protection of the Marine Environment of the Baltic Sea Area, 1992. www.helcom.fi
  • 6. ARNOLD C. G., CIANI A., MÜLLER S. R., AMIRBAHMAN A., SCHWARZENBACH R. P. Association of triorganotin compounds with dissolved humic acids. Environ. Sci. Technol. 32, 2976, 1998.
  • 7. CATO C., HALLERS–TJABBES T., WEGENER J-W., VAN HATTUM B., KEMP J.F., HALLERS E. T., REITSEMA T. J., BOON J.P. Imposex and organotin concentration in Buccinum undatum and Neptunea antiqua from the North Sea: relationship to shipping density and hydrographical conditions. Mar. Environ. Res. 55, 203, 2003.
  • 8. CHLIAMOVITCH Y.P., KUHN C. Behavioural, haematological and histological studies on acute toxicity of bis(tri-nbutyltin)oxide on Salmo gairdneri Richardson and Tilapia rendalli Boulenger. Jour. Fish Biol. 10, 575, 1977.
  • 9. DAWICKA–NOWAK U. Antifouling systems in the light of the requirements of the international convention on ecological antifouling paints for the ship hulls. IM. Konwersatorium Korozji Morskiej 24, 63, 2001 [In Polish].
  • 10. Directive 98/8/EC of the European Parliament and of the Council concerning the placing of biocidal products on the market - part II. pp. 328, European Chemicals Bureau.
  • 11. Dz. U. No 55, pos. 498. The regulation of the Minister of the Environment of April 16, 2002 on the type and concentrations of substances causing the contamination of dredged spoils [In Polish].
  • 12. EC. Technical Guidance Document in support of Commission Directive 93/67/EEC on Risk Assessment for new notified substances, Commission Regulation (EC) No 1488/94 on Risk Assessment for existing substances and Directive 98/8/EC of the European Parliament and of the Council concerning the placing of biocidal products on the market - part II. pp 328 . European Chemicals Bureau, 2003.
  • 13. FENT K., LOOSER P.W. Bioaccumulation and bioavailability of tributyltin chloride: influence of pH and humanic acid. Environ. Sci. Technol. 29, 1631, 1995.
  • 14. FERAL C., LEGALL S. The influence of a pollutant factor (tributyltin) on the neuroendocrine mechanism responsible for the occurrence of a penis in the females Ocenbra erinacea, in: Lever, J., Boer, F.F. (publ.), Molluscan Neuroendocrinology; North Holland Pub. Co.: Amsterdam, pp. 173-175, 1983.
  • 15. FERNÁNDEZ-ALBA A.R., HERNANDO M.D., PIEDRA L., CHISTI Y. Toxicity evaluation of single and mixed antifouling biocides measured with acute toxicity bioassays. Anal. Chim. Acta. 456, 303, 2002.
  • 16. GADD G.M. Microbial interactions with tributyltin compounds: detoxification, accumulation, and environmental fate. Sci. Total. Environ. 258, 119, 2000.
  • 17. GIBBS P.E., BRYAN G. Reproductive failure in populations of the dog whelk Nucella lapillus, caused by imposex induced by tributyltin from antifouling paints. J. Biol. Ass. U. K. 66, 767, 1986.
  • 18. GOMEZ-ARIZA J.L., E. MORALE E., GIRALDEZ L. Uptake and elimination of tributyltin in clams, Venerupis decussata. Mar. Environ. Res. 47, 399, 1999.
  • 19. HÅKANSON L. Metal monitoring in coastal environments, in: Seelinger, U., de Lacerda, L.D., Patchineelam, S.R. (Eds.), Metals in Coastal Environments of Latin America.; Springer-Verlag: Berlin 297, 239, 1988.
  • 20. HARINO H., FUKUSHIMA M., KURPKAWA Y., KAWAI S. Susceptibility of bacterial populations to organotin compounds and microbial degradation of organotin compounds in environmental water. Environ. Pollut. 98, 157, 1997.
  • 21. HEIDRICH D., STECKELBROECK S., KLINGMULLER D. Inhibition of human cytochrome P450 aromatase activity by butyltin. Steroids 66, 763, 2001.
  • 22. HELCOM. Guidelines for the disposal of dredged material at sea. Adopted in June 2007 and Form for Reporting on Disposal of Dredged Material at Sea. Approved by HELCOM MONAS 9 in October 2006, 2007. www.helcom.fi
  • 23. HELCOM LAND 12/2007. Draft report of “Hazardous substances in the Baltic Sea”. Twelfth Meeting Espoo, Finland, 22-24 May, 2007. www.helcom.fi
  • 24. HELCOM MONAS 8/2005. Report of the expert workshop for revision of the HELCOM guidelines for the disposal of dredged spoils (HELCOM dredged spoils 1/2005). Monitoring and Assessment Group Eighth Meeting Riga, Latvia, 21-25 November, 2005. www.helcom.fi
  • 25. HELCOM Recommendation 13/1. Revised guidelines for disposal of degraded spoils. Adopted during the 13th commission meeting, 3-7 February, 1992. www.helcom.fi
  • 26. HELCOM Recommendation 20/4. Antifouling paints containing organotin compounds. Adopted 23 March 1999. www.helcom.fi
  • 27. HOCH M. Organotin compounds in the environmental–an overview. Appl. Geochem. 16, 719, 2001.
  • 28. HOCH M., ALONSO–ZACARATE J., LISCHICK M. Adsorption behavior of toxic tributyltin to clay rich sediments under various environmental conditions. Environ. Toxicol. Chem. 21, 1390, 2002.
  • 29. HOCH M., SCHWESIG D. Parameters controlling the partitioning of tributyltin (TBT) in aquatic system. App. Geochem. 19, 323, 2004.
  • 30. HOCH M., WEERASOORIYA R. Modeling interactions at the tributyltin–kaolinite interface. Chemosphere 59, 743, 2005.
  • 31. HOLM G., NORRGREN L., LINDEN O. Reproductive and histopathological effects of longterm experimental exposure to bis(tributyltin)oxide (TBTO) on the three-spined stickleback, Gasterosteus aculeatus Linnaeus. Jour. Fish Biol. 38, 373, 1991.
  • 32. HONG H.K, TAKAHASHIA S., MIN B.Y., TANABE S. Butyltin residues in blue mussels (Mytilus edulis) and arkshells (Scapharca broughtonii) collected from Korean coastal waters. Environ. Pollut. 117, 475, 2002.
  • 33. International Convention on the Control of Harmful Antifouling System on Ship (AFS Convention), London on 18 October, 2001. www.imo.com
  • 34. KABATA-PENDIAS A., PENDIAS H., Biochemistry of trace elements; PWN: Warszawa pp. 71-78, 218-220, 1999 [In Polish].
  • 35. KEMI. Antibakteriella substanser och azofärgämnen i varor. in Swedish Kemikalieinspektionen. (Swedish Chemical Agency) 5/05, pp 15, 2005.
  • 36. KIM G.B., NAKATA H., TANABE S. In vitro inhibition of hepatic cytochrome P450 and enzyme activity by butyltin compounds in marine mammals. Environ. Pollut. 99, 255, 1997.
  • 37. KOT A., NAMIEŚNIK J. The role of speciation in analytical chemistry. Trends Anal. Chem. 19, 69, 2000.
  • 38. LANGSTON W.J., POPE N.D. Determination of TBT adsorption and desorption in estuarine sediments, Mar. Pollut. Bull. 31, 32, 1995.
  • 39. MATHIESSEN P., GIBBS P.E. Critical appraisal of the evidence for tributyltinmediated endocrine disruption in mollusks. Environ. Toxicol. Chem. 17, 37, 1998.
  • 40. MĘDRZYCKA K., DUBIELLA-JACKOWSKA A., WASIK A., NAMIERNIK J. Application of GC-FPD technique for determination of organotin compounds in sediments from Seaport of Gdańsk and Gdynia. Ekologia i Technika, Supplement 14 (85), 62, 2006 [In Polish].
  • 41. MORABITO R. Sampling and sample treatment in the analysis of organotin compounds in environmental samples (Comprehensive Analytical Chemistry, Vol 41), in: Mester Z., Sturgeon R. (Eds.), Sample preparation for trace element analysis.; Elsevier, Netcong, NJ: U.S.A., pp. 30.1-30.4, 2004.
  • 42. MORCILLO Y., PORTE C. Evidence of endocrine disruption in clams–Ruditapes decussata- transplanted to a tributyltin–polluted environmental. Environ. Pollut. 107, 47, 2000.
  • 43. MOS (Ministry of the Environment), Characteristics of the priority substances, 2004 www.mos.gov.pl
  • 44. OEHLMANN J., BAUER B., MINCHIN D., SCHULTEOEHLMANN U., FIORONI P. Imposex in Nucella lapillus and intersex in Littorina littorea: interspecific comparison of two TBT-induced effects and their geographical uniformity. Hydrobiologia 378, 199, 2004.
  • 45. O’LOUGHLIN E.J., TRAINA S.J., CHIN Y-P. Association of organotin compounds with aquatic and terrestrial humic substances. Environ. Toxicol. Chem. 19, 2015, 2000.
  • 46. Occupational Health Services, 1987. Material Safety Data Sheet for P - Tert- Butyltoluene, 5/14/87.
  • 47. OKAMURA H., AOYAMA I., LIU D., MAGUIRE R. J., PACEPAVICIUS G.J., LAU Y.L. Fate and ecotoxicity of the new antifouling compounds Irgarol 1051 in the aquatic environment. Wat. Res. 34, 3523, 2000.
  • 48. OKAMURA H., WATANABE T., AOYAMA I., HASOBE M. Toxicity evaluation of new antifouling compounds using suspension-cultured fish cells. Chemosphere 46, 945, 2002.
  • 49. OSPAR. Background document on organic tin compounds. pp 18 p. OSPAR Commission, 2004.
  • 50. ORTEPA, WWW.ortepa.org
  • 51. PAPAI E. Environmental Enhancement Using Dredged Material. Terra et Aqua 59, 7, 1995.
  • 52. PEMPKOWIAK J. General marine geochemistry.; UG: Gdańsk pp. 148-150, 1997 [In Polish].
  • 53. Resolution A.895 (21), Anti-fouling systems used on ships, International Maritime Organization on November 25, 1999 www.imo.org
  • 54. RPA. Risk assessment studies on targeted consumer applications of certain organotin compounds. Risk & Policy analysts Limited - prepared for the European Commission. Final report – September pp. 128, 2005.
  • 55. RÜDEL H. Case study: bioavailability of tin and tin compounds. Ecotocicol. Environ. Saf. 56, 180, 2003.
  • 56. SIEŃCZUK W. Toxicology; PZWL: Warszawa pp. 313-316, 1994 [In Polish].
  • 57. SONAK S., MORABITO R., BHOSLE N.B., MUKHERJEE A., GIPPERTH L., RAJAGOPAL S., CHAUDHURI R.R., GIRIYAN A., PANGAM P. Prohibition of organotin in anfifouling painsts. The Energy and Resources Institiute. Western Regional Centre, Goa. Antifouling paint effects on fisheries. Workshop organized by NIOT, Chennai, 2007.
  • 58. STANLEY E. M. Environmental toxicology. Chemical and biochemical aspects; PWN: Warszawa, pp. 334-335, 2007 [In Polish].
  • 59. STERNBERG R.M., LEBLANC A. Kinetic characterization of the inhibition of acyl coenzyme A: Steroid acyltransferases by tributyltin in the eastern mud snail (Ilyanassa obsolete). Aquat. Toxicol. 78, 233, 2006.
  • 60. STERNBECK J., FÄLDT J. & ÖSTERÅS A. H. Screening of organotin compounds in the Swedish environment. Report for Swedish Environment protection Agency, pp. 53, 2006.
  • 61. STEWARD C., DE MORA S.J. A review of the degradation of tri(n-butyl)tin in marine environmental. Environ. Technol. 11, 565, 1990.
  • 62. STRONKHORST J., ARIESE F., VAN HATTUM B., POSTMA J.F., DE KLUIJVER M., DEN BESTEN P.J., BERGMAN M.J.N., DAAN R., MURK A.J., VETHAAK A.D. Environmental impact and recovery at two dumping sites for dredged material in the North Sea. Environ. Pollution. 124, 7, 2003.
  • 63. VOULVOULIS N., SCRIMSHAW M. D., JOHN N., LESTER J.N. Comparative environmental assessment of biocides used in antifouling paints. Chemosphere 47, 789, 2002.
  • 64. WALKER C.H., HOPKIN S.P., SIBLY R.M., PEAKALL D.B. Bases Ecotoxicology; PWN; Warszawa, pp. 47-48, 61, 297-298, 328-330, 2002.
  • 65. WFD-EAF. Expert Advisory Forum on priority substances under Water Framework Directive. Source screening of priority substances under the WFD - Tributyltin. Version 4. pp. 2, 2004.
  • 66. WGMS Report. Report of the Working Group on Marine Sediments in Relation to Pollution. AZTI, San Sebastian, Spain, 11–15 March, 2002.
  • 67. SHIM W.J., KAHNG S.H., HONG S.H., KIM N.S., SHIM J.H. Imposex in the rock shell, Thais clavigera, as evidence of organotin contamination in the marine environment of Korea. Mar. Environ. Res. 49, 435, 2000.
  • 68. QUEVAUVILLER PH., DONARD O.F.X. Validdity of butyltin determination in water nad sediment samples from European coastal environments. Appl. Organ. Chemistry 4, 353, 1990.
  • 69. GILMOUR C.C., TUTTLE J.H., MEANS J.C. Anaerobic microbial methylation of inorganic tin in estuarine sediments slurries. Microbial Ecol. 14, 233, 1987.
  • 70. LOOSER P.W. Bioconcentration of triorganotin compounds by sediment-dwelling organism (Chironomus riparius): assessment of bioavailibity, uptake and elimination process. Federal Institute of Technology, Zürich, pp. 1-3, 2000. www.e-collection.ethbib.ethz.ch/ecol-pool/diss/fulltext/ eth13661.pdf

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Bibliografia

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