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The occurrence and activity of sulphate-reducing bacteria in the bottom - sediments of the Gulf of Gdańsk

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents the results of investigations concerning the number, distribution and physiological activity of sulphate-reducing bacteria (SRB) inhabiting the bottom sediments of the Gulf of Gdansk. The numbers of this group of bacteria range between 0.76 x 103 and 1.27 x 104 cells per g wet sediment. The bacterial sulphate reduction rate in bottom sediments of this area of the Baltic Sea varies from 1.89 to 31.6 nM SO42– g-1 24 h-1. The numbers of SRB and their physiological activity were subject to considerable seasonal fluctuations, maximum values being noted in summer (June) and minima in spring (April). A direct relationship has been found between the number of SRB and hydrogen sulphide concentrations; there is, however, no such relationship with reference to sulphate concentrations. The numbers and distributions of SRB demonstrated considerable variation in a depth profile of bottom sediments. SRB inhabiting the bottom sediments of the Gulf of Gdansk were able to use three different organic substrates (lactate, acetate, propionate) as electron donors and as carbon and energy sources.
Czasopismo
Rocznik
Strony
105--117
Opis fizyczny
Bibliogr. 39 poz., tab., wykr.
Twórcy
autor
  • Department of Experimental Biology, Pedagogical University
  • Marine Biology Centre, Polish Academy of Sciences
autor
  • Marine Biology Centre, Polish Academy of Sciences
autor
  • Institute of Oceanography, University of Gdańsk,
  • Department of Experimental Biology, Pedagogical University, Arciszewskiego 22, 76-200 Słupsk, Poland, mudryk@wsp.slupsk.pl
Bibliografia
  • 1. Andrulewicz E., 1996, The regional characteristics of the Gdańsk Basin, Oceanol. Stud., 1–2, 11-16.
  • 2. Bak F., Pfennig N., 1991, Sulfate-reducing bacteria in littoral sediment of Lake Constance, FEMS Microbiol. Ecol., 85, 43-52.
  • 3. Bansemir K., Rheinheimer G., 1974, Bakteriologische Untersuchungen ¨uber die Bildung van Schwefelwasserstoff in einer Vertiefung der inneren Kieler F¨orde, Kiel. Meer., 30, 91-98.
  • 4. Battersby N. S., 1988, Sulphate-reducing bacteria, [in:] Methods on aquatic bacteriology, B. Austin, John Wiley & Sons (eds.), 269-299.
  • 5. Bharathi P. A., Chandramohan D., 1985, Sulfate reducing potential in estuarine beach, Ind. J. Mar. Sci., 14, 187-191.
  • 6. Bussmann I., Reichardt W., 1991, Sulfate-reducing bacteria in temporarily oxic sediments with bivalves, Mar. Ecol. Prog. Ser., 78, 97-102.
  • 7. Caumette P., 1993, Ecology and physiology of phototrophic bacteria and sulphate-reducing bacteria in marine salterns, Experientia, 49, 473-481.
  • 8. Daubner I., 1967, The Microbiology of Water, Sloven. Acad. Sci., Bratislava, 447 pp., (in Slovak).
  • 9. Edenborn H. M., Silverberg N., Mucci A., Sundby B., 1987, Sulfate reduction in deep coastal marine sediments, Mar. Chem., 21, 329-345.
  • 10. Fukui M., Takii S., 1989, Kinetics of colony formation by sulphate-reducing bacteria, Bull. Jap. Soc. Microbiol. Ecol., 3, 67-71.
  • 11. Fukui M., Takii S., 1990, Seasonal variations of population density and activity of sulfate-reducing bacteria in offshore and reed sediments of a hypertrophic freshwater lake, Jap. J. Limnol., 51, 63-71.
  • 12. Gast V., Gocke K., 1988, Vertical distribution of number, biomass and size-class spectrum of bacteria in relation to oxic/anoxic conditions in the Central Baltic Sea, Mar. Ecol. Prog. Ser., 45, 179-186.
  • 13. Gibson G. R., 1990, Physiology and ecology of the sulphate-reducing bacteria, J. Appl. Bacteriol., 69, 769-797.
  • 14. Gibson G. R., Parkes R. J., Herbert R. A., 1987, Evaluation of viable counting procedures for the enumeration of sulphate-reducing bacteria estuarine sediments, J. Microbiol. Meth., 7, 201-210.
  • 15. Hartmann M., Nielsen H., 1969, δ34S–Werte in rezenten Meeressedimenten und ihre Deutung am Beispiel einiger Sedimentprofile aus der westlichen Ostee, Geol. Rundschau., 58, 621-655.
  • 16. Hines M. E., Buck J. D., 1982, Distribution of methanogenic and suplphate-reducing bacteria in near-shore marine sediments, Appl. Environm. Microbiol., 43, 447-453.
  • 17. Imhoff J. F., Schneider A., Podgorsek I., 1995, Correlation of viable cell count, metabolic activity of sulphur-oxidizing bacteria and chemical parameters of marine sediments, Helgo. Meer., 49, 223-236.
  • 18. Jørgensen B. B., 1978, A comparison of methods for the quantification of bacterial sulphate reduction in coastal marine sediments. III. Estimation from chemical and bacteriological field data, Geomicrobial. J., 1, 49-64.
  • 19. Jørgensen B. B., 1977, Bacterial sulfate reduction within reduced microniches of oxidized marine sediments, Mar. Biol., 41, 7-17.
  • 20. Jørgensen B. B., 1982, Mineralization of organic matter in the sea bed – the role of sulfate reduction, Nature, 296, 643-645.
  • 21. Jørgensen B. B., Bak F., 1991, Pathways and microbiology of thiosulfate transformations and sulfate reduction in a marine sediment (Kattegat, Denmark), Appl. Environm. Microbial., 57, 847-856.
  • 22. Keith S. M., Herbert R. A., Harfoot C. G., 1982, Isolation of newtypes of sulphate-reducing bacteria from estuarine and marine sediments using chemostat enrichments, J. Appl. Bacteriol., 53, 29-33.
  • 23. Kohler H. P., Ahring B., Albella C., Ingvorsen K., Keweloh H., Laczko E., Stupperich E., Tomei F., 1984, Bacteriological studies on the sulfur cycle in the anerobic part of the hypolimnion and the surface sediments of Rotsee in Switzerland, FEMS Microbiol. Lett., 21, 279-286.
  • 24. Laanbroek H. J., Pfennig N., 1981, Oxidation of short-chain fatty acids by sulfate-reducing bacteria in freshwater and marine sediments, Archiv . Microbiol., 128, 330-335.
  • 25. Okabe S., Nielsen P. H., Jones W. I., Characklis W. G., 1995, Sulfide product inhibition of Desulfovibrio desulfuricans in batch and continous cultures, Wat. Res., 29, 571-578.
  • 26. Parkes R. J., Gibson G. R., Mueller-Harvey I., Buckingham W. J., Herbert R., 1989, Determination of the substrates for sulphate-reducing bacteria within marine and estuarine sediments with different rates of sulphate reduction, J. Gen. Microbiol., 135, 175-187.
  • 27. Peng C. G., Park J. K., Patenaude R.W., 1994, Statistics-based classification of microbially influenced corrosion in freshwater systems, Wat. Res., 28, 951-959.
  • 28. Postgate J. R., 1966, Media for sulphur bacteria, Lab. Pract., 15, 1239-1244.
  • 29. Postgate R. J., 1984, The Sulphate-Reducing Bacteria, Cambridge Univ. Press, Cambridge–New York, 208 pp.
  • 30. Sass H., Steuber J., Kroder M., Kroneck P. M., Cypionka H., 1992, Formation of thionates by freshwater and marine strains of sulphate-reducing bacteria, Arch. Microbiol., 158, 418-421.
  • 31. Schneider J., 1977, Desulfurication and sulfur oxidation, [in:] Microbial ecology of a brackish water environment, G. Rheinheimer (ed.), Springer Verlag, Berlin–Heidelberg–New York, 25, 244-248.
  • 32. Sorensen J., Christensen D., Jørgensen B. B., 1981, Volatile fatty acids and hydrogen as substrates for sulfate-reducing bacteria in anaerobic marine sediments, Appl. Environm. Microbiol., 42, 5-11.
  • 33. Takii S., Fukui M., 1991, Relative importance of methanogenesis, sulfate reduction and denitrification in sediment of the lower Tama river, Bull. Jap. Soc. Microbiol. Ecol., 6, 9-17.
  • 34. Taylor J., Parkes R. J., 1985, Identifying different of sulphate-reducing bacteria within marine sediment systems, using fatty acids, J. Gen. Microbiol., 131, 631-642.
  • 35. UNEP/IOC/IAEA, 1988, Standard chemical methods for marine environmental monitoring. Reference methods for marine pollution studies, Nairobi–Monaco, 50, 8-50.
  • 36. Visscher P. T., Prins R. A., Gemerden H., 1992, Rates of sulfate reduction and thiosulfate consumption in marine microbial mat, FEMS Microbiol. Ecol., 86, 283-294.
  • 37. Ward D. M., Winefry M. R., 1985, Interactions between methanogenic and sulphate-reducing bacteria in sediments, Adv. Aquat. Microbiol., 3, 141-179.
  • 38. Westrich J. T., Berner R. A., 1988, The effect of temperature on rates of sulfate reduction in marine sediments, Geomicrobiol. J., 6, 99-117.
  • 39. Witek Z., 1995, Biological production and its utilization within a marine ecosystem in the western Gdańsk Basin, Mor. Inst. Ryb., Gdynia, 1-145, (in Polish)
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0014-0060
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