Sulphate-reducing bacteria, their properties and methods of elimination from groundwater

• Autorzy: Wargin A , Olanczuk-Neyman K. , Skucha M.
• Języki publikacji: EN

Abstrakty

EN

In the Gdańsk region urban development and intensive take off have caused an increase in water ex­ploitation. As a consequence of the changes of hydrogeological conditions, a deterioration of chemical and bacteriological quality of water has been observed. Routine bacteriological quality control does not include some specific bacteria which are characteristic for the groundwater environment and can have negative in­fluence on the physical and chemical properties of water. Among such bacteria there are sulphate-reducing bacteria (SRB). In the paper frequency of SRB occurrence in raw water from Cretaceous and Quaternary formations and in treated water has been described. It has been proved that bacterial consortium isolated from groundwater show preference to sodium lactate as a main source of carbon and energy. SRB have a negative influence on organoleptic properties of water quality and the technical condition of distribution net, the water should be disinfected. It has been proved that non-reagent methods, like UV radiation and microfiltration, are effective for SRB elimination from groundwater.

Słowa kluczowe

EN

ground water; sulphate-reducing bacteria; ultraviolet radiation; membrane filtration; elimination method; Gdansk city; water quality

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2007
• Tom: 16
• Numer: 4
• Opis fizyczny: p.639-644,fig.,ref.

Twórcy

autor

Wargin A

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

autor

Olanczuk-Neyman K.

autor

Skucha M.

Bibliografia

• 1. PFENNIG N., WIDDEL F., TRUPER H.G. The dissimila- tory sulfate reducing bacteria. W: The Procaryotes. A Hand­book on habitats, isolation and identyfication of bacteria (Red. M.P. Starr, H. Stolp, H.G. Truper, A. BalowsI.H.G. Schlegel), New York: Springer Verlag, 1981.
• 2. JOHNSON A.C., WOOD M. The Ecology and Significance of Sulphate-Reducing Bacteria in Sandy Aquifer Sediments of the London Basin. W: Proceedings on International Sym­posium on Subsurface Microbiology. Bath, September 19­24, 1993.
• 3. CHAPELLE F.H., LOVLEY D.R. Fe+3 - Reducing Bacteria in Deep Coastal Plain Aquifers: A Mechanism for the Origin of High Iron Concentration in Groundwater. Proceedings of the First International Symposium on Microbiology of the Deep Subsurface, January 15-19, 1990.
• 4. ALCAMO I.E. Fundamentals of Microbiology, Sixth edi­tion, Jones and Bartlett Publishers Inc., Sudbury, Massachu­setts, 2001.
• 5. RABUS R., HANSEN T., WIDDEL F. Dissimilatory sulfate- and sulfur-reducing prokaryotes. [Online] New York: Springer Verlag, 2001. http://141.150.157.117:8080/ prokPUB/chaprender/jsp/showchap.jsp?chapnum=274&init sec=04 00
• 6. Bergeys Manual of Determinative Bacteriology. Dissimila­tory sulfate - or sulfur-reducing bacteria. Ninth Edition, J.G. HOLT, N.R. KRIEG, P.H.A.SNEATH, J.T. STALEY, S.T. WILLIAMS. Williams&Wilkins, pp.335-346, 1994.
• 7. HARDY J.A., HAMILTON W.A. The oxygen tolerance of sulphate-reducing bacteria isolated from North Sea Waters. Curr. Microbiol., 6, 259, 1981.
• 8. OLAŃCZUK-NEYMAN K., PREJZNER J., MAKUCH B., BRAY R., MIERZEJEWSKA K., TARKOWSKA D., WAR­GIN A. Reasons of hydrogen sulphide and ammonia ion oc­currence in Cretaceous water in Gdańsk region. Publishing of Gdańsk University of Technology, Gdańsk 1996, [In Pol­ish].
• 9. OLAŃCZUK-NEYMAN K., WARGIN A. The application of some desinfection methods of sulphate-reducing bacte­ria elimination from groundwater. In: II Science-Technical Conference: Groundwater treatment. Warsaw, 24-25 June 1997. pp.166-177, 1997, [In Polish].
• 10. BOTTRELL S.H., HAYES P. J., BANNON M., WILLIAMS G.M. Bacterial sulfate reduction and pyrite formation in a polluted sand aquifer. Geomicrobiology Journal vol. 13, 75, 1995.
• 11. RZECZYCKA M., BŁASZCZYK M. Growth and activity of sulphate-reducing bacteria in media containing phospho- gypsum and different sources of carbon. Polish Journal of Environmental Studies vol. 14, (6), 891, 2005.
• 12. LAANBROEK H.J., PFENNIG N. Oxidation of short chain fatty acids by sulphate-reducing bacteria in freshwater and in marine sediments. Archives of Microbiology 128, 330, 1981.
• 13. GIECEWICZ J., KRAMER E., ROMPA M., WARGIN A., OLAŃCZUK-NEYMAN K., ZYGMUNT B. Determination of volatile fatty acids in aqueous samples using LLE-GC-FID. W: Book of Abstracts. 5th Balaton Symposium on High-Per­formance Separation Methods. Siofok, Hungary, September 3-5, 2003. [Budakalasz]: Res. Inst.Med.Plants 2003.
• 14. GIBBSON G.R. Physiology and ecology of sulphate-reduc­ing bacteria. J. Appl. Bacteriol. 69, 1990.
• 15. OLAŃCZUK-NEYMAN K. Microorganisms in forming of groundwater quality and treatment. Monographs of Engi­neering Environment Committee PAN, vol. 1, Publishing of Gdańsk University of Technology 2001, [In Polish].
• 16. WARGIN A. Research of sulphate-reducing bacteria in ground water intakes and methods of its elimination PhD dissertation, Gdańsk University of Technology, Gdańsk, 2002, [In Polish].
• 17. WIDDEL F. Microbiology and ecology of sulphate - and sulphur - reducing bacteria. W: Biology of anaerobic micro­organisms (Red. A.J.B. Zehnder) New York: Willey - Inter­science Publication, John Wiley&Sons 1988.
• 18. JUSZCZAK A., WALIGÓRSKA M., SEIFERT K., MELLER A., HABRYCH M., DOMKA F. The effect of phosphogypsum on the activity of Desulfotomaculum ru- minis on lactate medium. Polish Journal of Environmental Studies 11, (4), 361, 2002.
• 19. MUDRYK J., PODGÓRSKA B., AMERYK A., BOLAŁEK J. The occurence and activity of sulphate-reducing bacteria in the bottom sediments of the Gulf of Gdańsk. Oceanolo­gia, 42, 2000.
• 20. VOORDOUW G. Carbon Monoxide Cycling by Desulfo- vibrio vulgaris Hildenborough. Journal of Bacteriology 184 (21), 5903, 2002.
• 21. FLEMING H., HUEBNER W. Choosing the right disinfec­tion technology for a municipal drinking water plant-part 2. Water Engineering & Management, 148 (1), 2001.
• 22. SRIKANTH B., WITHAM D. Water and air treatment, Wa­ter Quality Products, 6 (11), 2001.
• 23. SCHAEFER T. Ultraviolet for disinfection. Water Quality Products, 7 (4), 2002.
• 24. BITTON G. Wastewater microbiology. A John Wiley & Sons, Inc., Publication, 1994.
• 25. LAHLOU M. Membrane filtration as an alternative:part 1. Water Engineering & Management, July 2000.
• 26. BODZEK M., DUDZIAK M. Removal of natural estro­gens and synthetic compounds considered to be endocrine disrupting substances (Eds) by coagulation and nanofiltration. Polish Journal of Environmental Studies 15, (1), 35, 2006.