The sensitivity of bacteria to heavy metals in the presence of mineral ship motor oil in coastal marine sediments and waters

• Autorzy: Jankowska K , Olanczuk-Neyman K. , Kulbat E.
• Języki publikacji: EN

Abstrakty

EN

The sensitivity of bacteria, isolated from coastal marine sediments and waters of Sopot beach, Gdańsk Bay (Poland), to heavy metals in the presence of mineral ship motor oil were studied. All isolated hetero­trophic bacteria were resistant to the 0.1 mM lead concentration occurring in the environment. Metal resis­tance of bacteria isolated from coastal water was strongly related to mineral ship motor oil concentration. At 0.1% mineral ship motor oil (stimulating bacteria growth) Pb and Cd resistance was lower compared to 1% oil concentration. The number of Pb-resistant bacteria, isolated from shoreline sediments, decreased with increasing metal and oil concentrations within the range occurring in the environment. The number of Cd-resistant bacteria at 0.1 mM Cd concentration was slightly stimulated by 1% concentration of mineral ship motor oil.

Słowa kluczowe

EN

coastal water; Gdansk Bay; Poland; mineral ship motor oil; sandy sediment; bacteria; Baltic Sea; resistance; heavy metal

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2006
• Tom: 15
• Numer: 6
• Opis fizyczny: p.935-941,fig.,ref.

Twórcy

autor

Jankowska K

• Gdansk Technical University, G.Narutowicza Street 11/12, 80-952 Gdansk, Poland

autor

Olanczuk-Neyman K.

autor

Kulbat E.

Bibliografia

• 1. NEHRING, D. The Baltic Sea - An example of how to protect marine coastal ecosystems. Oceanologia 43 (1), 5, 2001.
• 2. SZEFER, P. Metal pollutants and radionuclides in the Baltic Sea - An overview. Oceanologia 44 (2), 129, 2002.
• 3. USSENKOV S.M. Contamination of harbor sediments in the eastern Gulf of Finland (Neva Bay), Baltic Sea. Environ. Geol. 32 (4), 274, 1997.
• 4. GLASBY, G.P., SzEFER, P. Marine pollution in Gdansk Bay, Puck Bay and the Vistula Lagoon, Poland: An over­view. Sci. Total Environ. 212 (1), 49, 1998.
• 5. WALKOWIAK A. A Raport on Environmental condition in Pomeranian Province. Province Inspectorate of Environ­mental Protection. Gdańsk. 198, 2000, (in Polish).
• 6. KULBAT, E., OLANCZUK-NEYMAN, K., QUANT, B., GENEJA, M., HAUSTEIN, E. Heavy metals removal in the mechanical-biological wastewater treatment plant "Wschod" in Gdansk. Pol. J. Env. Stud. 12 (5), 635, 2003.
• 7. OLAŃCZUK-NEYMAN, K., MAZURKIEWICZ B. Con­tamination of costal water sediments. [In:] Green 2. Con­taminated and derelict land. by Sarsby R.W. Thomas Tel­ford, London, pp. 3-9, 1998.
• 8. MARTINEZ, J., SOTO, Y., VIVES-REGO, J., BIANCHI, M. Toxicity of Cu, Ni and alkylbenzene sulfonate (LAS) on the naturally occurring bacteria in the Rhone River plume. Environ. Toxicol. Chem. 10 (5), 641, 1991.
• 9. RASMUSSEN L.D., SORENSEN S.J. The effect of long- term exposure to mercury on the bacterial community in marine sediment. Curr. Microbiol. 36 (5), 291, 1998.
• 10. NIES D.H. Microbial heavy-metal resistance. Appl. Micro­biol. and Biotechnol. 51 (6), 730, 1999.
• 11. NAIR S., CHANDRAMOHAN D., LOKA BHARATHI P.A. Differential sensitivity of pigmented and non-pigment- ed marine bacteria to metals and antibiotics. Water Res. 26 (4) , 431, 1992.
• 12. MACASKIE, L.E., DEAN, A.C. Microbial metabolism, desolubilization, and deposition of heavy metals: metal uptake by immobilized cells and application to the detoxification of liquid wastes. Advances in Biotechnological Processes 12, 159, 1989.
• 13. TOBIN J.M., COOPER D.G., NEUFELD R.J. Investigation of the mechanism of metal uptake by denatured Rhizopus arrhizus biomass, Enzyme Microb. Technol. 12, 591, 1990.
• 14. BRIERLEY C.L. Microbial Mineral Recovery. Mineral im­mobilization using bacteria. McGraw-Hill Publishing Com­pany, 1990.
• 15. NIES D.H. Efflux-mediated heavy metal resistance in pro- karyotes. FEMS Microbiol. Rev. 27 (2-3), 313, 2003.
• 16. SILVER S. Bacterial resistances to toxic metal ions - A re­view. Gene 179 (1), 9, 1996.
• 17. HERRERA-ESTRELLA L.R., GUEVARA-GARCIA A.A., LOPEZ-BUCIO J. Heavy metal adaptation. Nature. Ency­clopedia of Live Science, pp. 1-6, 2001.
• 18. PHILP J.C., ATLAS R.M., CUNNINGHAM C.J. Bioremediation. Nature. Encyclopedia of Live Science, pp. 1-10, 2001.
• 19. JENSEN-SPAULDING A., CABRAL K., LION L.W., SHULER M.L. Predicting the rate and extent of cadmium and copper desorption from soils in the presence of bacterial extracellular polymer. Water Res. 38 (9), 2230, 2004.
• 20. JENSEN-SPAULDING A., LION L.W., SHULER M.L. Mobilization of adsorbed copper and lead from naturally aged soil by bacterial extracellular polymers. Water Res. 38 (5) , 1121, 2004.
• 21. ANDRULEWICZ E., KANIEWSKI E. Oil contamination of Baltic Sea, the demands and the evaluation according to the Helsinki Conventions. In: Technical and ecological as­pects of oil substances occurrence in Baltic Sea. Gdynia. pp. 58-62, 1993, (in Polish).
• 22. OLAŃCZUK-NEYMAN K., MAZURKIEWICZ B. Inves­tigation of harbour bottom sediments and the possibility of their bioremediation. In: Analysis and utilisation of oily wastes AUZO'96. Gdańsk, pp. 316-321, 1996, (in Polish).
• 23. RÓŻAŃSKA Z. Sea water stocks and their contamination and protection in particular Baltic Sea. Warszawa, PWN. pp. 80-146, 1987, (in Polish).
• 24. OTREMBA Z., STELMASZEWSKI A. The content of oil hydrocarbons in the inflows of Gdańsk Bay. In: The envi­ronmental and technical sciences and the problem of oil de­rivative substances contamination of the sea and the inland water. Szczecin, pp. 167-174, 1995, (in Polish).
• 25. MACIEJOWSKA M. The microorganisms mineralizing hy­drocarbons in the marine environment. Institute of Environ­mental Engineering. Warszawa, pp. 139, 1980, (in Polish).
• 26. FARBISZEWSKA T., FARBISZEWSKA-BAJER J., SZPA- LA K. Optimization of the conditions and the experiment of biodegradation of the oil derivative substances in situ. In: Analysis and utilisation of oily wastes. Gdańsk, pp. 292­296, 1996, (in Polish).
• 27. TESSIER A., CAMPBELL P.G.C., BISSON M. Sequential extraction procedure for the speciation of particule trace metals. Anal. Chem. 51 (7), 844, 1979.
• 28. FUHRER G.J., MCKENZIE S.W., RINELLA J.F., SKACH K.A. Effect of geology and human activities on the distribution of trace elements in water, sediment, and aquatic biota, Yakima river basin, Washington (1987 to 1991), In: River Quality: Dy­namic and Restoration, Ed. By A.Laenen and D.A.Dunnette, Lewis Publishers, Boca Raton, New York, pp. 187-204, 1997.
• 29. FACETTI J., DEKOV V.M., VAN GRIEKEN R. Heavy metals in sediments from the Paraguay River: a preliminary study, Sci. Total Environ. 209, 79, 1998.
• 30. CHAPELLE F.H. Water microbiology and geochemistry, John Wiley and Sons, New York, 141, 1993.
• 31. OLAŃCZUK-NEYMAN K., JANKOWSKA K. Bacterio­logical investigations of the sandy beach ecosystem in So­pot. Oceanologia 40 (2) 137, 1998.
• 32. OLAŃCZUK-NEYMAN K., JANKOWSKA K. Bacterio­logical Quality of the Sand Beach in Sopot (Gdansk Bay, Southern Baltic). Pol. J. Env. Stu. 10 (6), 451, 2001.
• 33. American Public Health Association Standard Methods for Examination of Water and Wastewater. 17th ed. American Public Health Association, Washington, D.C. 1989.
• 34. PEMPKOWIAK J., CISZEWSKI P. Concentration of some heavy metals in water and bottoms of the Puck Bay. Archives of Environmental Protection, 1-2, 153, 1990, (in Polish).
• 35. SZEFER P., GLASBY G.P., PEMPKOWIAK J., KA- LISZAN R. Extraction studies of heavy-metal pollution in surficial sediments from the southern Baltic Sea off Poland. Chem. Geol. 120, 111, 1995.
• 36. LAGE O.M., SOARES H.M.V.M., VASCONCELOS M.T.S.D., PARENTE A.M., SALEMA R. Toxicity effects of copper (II) on the marine dinoflagellate Amphidinium carterae: influence of metal speciation Eur. J. Phycol. 31, 341, 1996.
• 37. TWISS M.R., ERRECALDE O., FORTIN C., CAMPBELL P.G.C., JUMARIE C., DENIZEAU F., BERKELAAR E., HALE B., VAN REES K. Coupling the use of computer chemical speciation models and culture techniques in lab­oratory investigations of trace metal toxicity Chem. Spec. Bioavailab. 13, 9, 2001.
• 38. HOFFMAN D.R., OKON J.L., SANDRIN T.R., Medium composition affects the degree and pattern of cadmium in­hibition of naphthalene biodegradation. Chemosphere 59, 919, 2005.
• 39. AVILES M., CODINA J.C., PEREZ-GARCIA A., CAZOR- LA F., ROMERO P., DE VICENTE A. Occurrence of resis­tance to antibiotics and metals and of plasmids in bacterial strains isolated from marine environments. Water Sci. and Technol. 27, (3-4), 475, 1993.
• 40. Mudryk z.j., Donderski w., Skorczewski P., WALCZAK M. Effect of some heavy metals on neustonic and planktonic bacteria isolated from the deep of Gdansk. Oceanological Studies 29 (1), 89, 2000.
• 41. MuDRYK z.J., DwuLIT M. Laboratory studies on effect of heavy metals on the survival and respiratory activity of estuarine neustonic and planctonic bacteria. Baltic Costal Zone 8, 67, 2004.
• 42. ATLAS R.M. Petroleum biodégradation and oil spill bioremediation. Mar. Pollut. Bull. 31 (4-12), 178, 1995.
• 43. LaMONTAGNE M.G., LEIFER I., BERGMANN S., VAN DE WERFHORST L.C., HOLDEN P.A. Bacterial diversity in marine hydrocarbon seep sediments. Environ. Microbiol. 6 (8), 799, 2004.
• 44. GRANT A.B., BRIGGS A.D. Toxicity of sediments from around a North Sea oil platform: are metals or hydrocarbons responsible for ecological impacts? Mar. Environ. Res. 53 (1), 95, 2002.
• 45. SIKKEMA J., POOLMAN B., KONINGS W.N., DE BONT J.A., Effects of membrane action of tetralin on the function­al and structural properties of artificial and bacterial mem­branes. J. Bacteriol., 174 (9), 2986, 1992.