Tytuł artykułu
Wybrane pełne teksty z tego czasopisma
Identyfikatory
Warianty tytułu
Sezonowe zmiany liczebności bakterii redukującycii siarczany w wodzie, glebie i roślinności śródleśnych mokradeł w okolicy Olsztyna
Języki publikacji
Abstrakty
Seasonal changes in the numbers of sulphate-reducing bacteria in water, soil, the surface of sedge (Carex acutiformis Ehrb.) immersed in water and roots (dead and live) were studied. The study on one of larger wetland near Olsztyn (Masurian Lake District) was carried out in two annual cycles. Sulphate-reducing bacteria in the studied ecosystems occurred sporadically and generally in inappreciable count. Their count did not exceed 20 cells in I cm' of water; in the soil and in different parts of sedge the number of bacteria ranged from several to over dozen thousands cells in I g of dry weight. In the first year of studies these bacteria were the most numerous in June, July and during first days of December, but in the second - in April (in soil and sedge immersed in water), in August (in soil and dead and live roots), in November (in water, soil, sedge immersed in water and dead roots) and exceptionally in other months.
Badano sezonowe zmiany liczebności bakterii redukujących siarczany w wodzie, glebie, zanurzonych w wodzie i wynurzonych z wody (napowietrznych) częściach turzycy błotnej (Carex acutiformis Ehrb.) oraz jej korzeniach (obumarłych i żywych). Badania przeprowadzono na jednym z większych mokradeł śródleśnych w okolicy Olsztyna (Pojezierze Mazurskie) w dwóch kolejnych latach badawczych. Bakterie redukujące siarczany występowały sporadycznie w badanych ekosystemach i z reguły w niewielkich ilościach. W wodzie ich liczba nie przekraczała 20 komórek w 1 cm1, w glebie i różnych częściach turzycy błotnej - kilku (wyjątkowo kilkunastu) tysięcy komórek w 1 g suchej masy. W pierwszym roku badań występowały one głównie w czerwcu i lipcu oraz w pierwszych dniach grudnia, w drugim zaś - w kwietniu (w glebie i zanurzonych w wodzie częściach turzycy błotnej), w sierpniu (w glebie i na korzeniach martwych i żywych) oraz w listopadzie (w wodzie, glebie, zanurzonych w wodzie częściach turzycy błotnej oraz korzeniach martwych), wyjątkowo w innych miesiącach.
Czasopismo
Rocznik
Tom
Strony
55--63
Opis fizyczny
bibliogr. 46 poz., tab.
Twórcy
autor
autor
autor
autor
autor
- University of Warmia and Mazury in Olsztyn 1 Department of Environmenlal Microbiology ul. R. Prawocheńskiego I, 10-957 Olsztyn-Kortowo, Poland, ewa.korzeniewska@uwm.edu.pl
Bibliografia
- [1] Bak F., N. Pfennig: Microbial sulfate reduction in littoral sediment of Lake Constance, FEMS Microbiol. Ecol., 85, 31-42(1991).
- [2] Brierley C.L., J.A. Brierley: Microbiology for the metal mining industry, [in:] Manual of environmental microbiology, E.J. Hurst (ed.), Washington, DC, Am. Soc. Microbiol. Press., 830-841 (1996).
- [3] Brix H.: Do macrophytes play a role in constructed treatment wetlands?, Wat. Sci. Tech., 35, 11 - 17 (1997).
- [4| Canfield D.E., D.J. des Marais: Aerobic sulfate reduction in microbial mats, Sci. Repr. Ser., 251, 1471-1473(1991).
- [5] Castro H.F., N.H. Wiliams, A. Ogram: Phytogeny of sulfate-reducing bacteria, FEMS Microbiol. F.col., 31, 1-9(2000).
- [6] Cypionka H: Oxygen respiration by Dcsulfovibrio species, Ann. Rev. Microbiol., 54, 825-848 (2000).
- [7] Cypionka H., F. Widdel, N. Pfennig: Survival of sulfate-reducing bacteria after oxygen stress, and growth in sulfate-free oxygen sulfide gradients, FEMS Microbiol. Ecol., 31, 39-45 (1985).
- [8] Dilling W., H. Cypionka: Aerobic respiration in sulfate-reducing bacteria, FEMS Microbiol. Ecol., 71, 123-128(1990).
- [9] Edenborn H.M., I..A. Brickett: Bacteria in gel probes: comparison of the activity in immobilized sulfate-reducing bacteria with in situ sulfate reduction in a wetland sediment, J. Microbiological Methods, 42, 51-62(2001).
- [10] Escheman A., M. Kohl, H. Cypionka: Aerotaxis in Desulfovibrio, Environ. Microbiol., 1, 489-494 (1999).
- [11] Feng J., Y.P. Hsieh: Sulfate reduction in freshwater wetland soils and the effect of sulfate and substrate loading, J. Environ. Qual., 27, 968-972 (1998).
- [12] Feuillade J., M. Feuillade: Etude comparative en 1966et 1967 de trois lacs de retennes du Project de pan-nature regional du Morvan, Ann. Hydrobiol., 2, 143-174 (1971
- [13] Fjerdingstad E., O. Berg: Some characteristic feature of the bacterial decomposition by sediments from lake and ponds in South West Greenland (The Narsaag area), Arch. Hydrobiol., 72, 313-332 (1973).
- [14] Fjerdingstad E., E. Fjerdingstad: Chemical and bacteriological studies of some culturally influenced Danish lakes, Schweiz. Zeitschr. Hydrol., 39, 226-242 (1977).
- [15] Fjerdingstad E., F. Popee: Analysis of heavy metal and bacteria in sediments from Danish ligninę pits. Arch. Hydrobiol., 77, 226-253 (1976).
- [16] Fukui M., S. Takii: Survival of sulfate-reducing bacteria in oxic surface sediment of a seawater lake. FEMS Microbiol. Ecol., 73, 317-322 (1990).
- [17] Grossmann E.L., S. Desrocher: Microbial sulfur cycling in terrestrial subsurface environment, [in:] Subsurface microbiology and biochemistry, J.K. Fredrickson, M. Fletcher (eds), Wiley-Liss., Inc., 219-248 (2001).
- [18] Hao O.J., J.M. Chen, L. Huang, R.L. Bugloss: Sulfate-reducing bacteria, Critical Rev. Env. Sci. Technol., 26, 155-187(1996).
- [19] Hines M.E., S.L. Knollmeyer, J.B. Tugel: Sulfate reduction and other sedimentary biogeochemistry in a northern New England salt marsh, Limnol. Oceanogr., 34, 578-590 (1989).
- [20] Johnson A.C., M. Wood: Sulfate-reducing bacteria in deep aquifer sediments of the London Basins: their role in anaerobic mineralization of organic matter, J. Appl. Bact., 75, 190-197 (1993).
- [21 ] Jargensen B.B.: Bacterial sulfate reduction within reduced microenvironmenls of oxidized marine sediments, Marine Biol., 41, 7-17 (1977).
- [22] Jargensen B.B.: Ecology of the sulfur cycle, [in:] The nitrogen and sulfur cycle, Soc. Gen. Microbiol., Symp., 42, Cambridge Univ. Press, U.K., 31-63 (1988).
- [23] Korzeniewska E., R. Brzozowska, K. Czechowska, Z. Filipkowska, S. Niewolak: Seasonal changes in the numbers of some physiological groups of heterotrophic bacteria in the water, soil and plants of the wetlands near Olsztyn, Archives of Environmental Protection, 33, 4, 39-51 (2007).
- [24] Krekeler D., A. Teske, H. Cypionka: Strategies of sulfate-reducing bacteria to escape oxygen stress in a cyanobacterial mats, FEMS Microbiol. Ecol., 25, 89-96 (1997).
- [25] Kuzniecow S.I.: Mikroflora ozier ijeje geochimiczeskaja diejatielnost', Izd. Nauka, Leningrad 1970.
- [26] Leclerc H., C. Oger, H. Beerens, D.A. Mossel: Occurrence of sulfate-reducing bacteria in a human intestinal flora and in aquatic environments. Water Res., 14, 253-256 (1980).
- [27] Lytle R.W. Jr., R.J. Hull: Annual carbohydrate variation in culms and rhizomes of the smooth cardgrass (Spartina alterniflora Loisel), Agron. J., 72, 942-946 (1980).
- [28] Meynell G.G., E. Meynell: Theory and Practice in Experimental Bacteriology, 2 ed. Cambridge Univ. Press, 1970.
- [29] Morvan B., F. Rieu-Lesine, G. Fonty, P. Gouet: In vitro interactions between rumen H2,-producing cellu-lolytic microorganisms and H2,-utilizing acetogenic and sulfate-reducing bacteria. Anaerobe, 2, 175-180 (1996).
- [30] Niewolak S.: Charakterystyka mikrobiologiczna osadów dennych jezior iławskich w latach 1960-1963, Zesz. Nauk. WSR w Olsztynie, 26, 615-635 (1970).
- [31] Niewolak S.: Seasonal changes in numbers of some physiological groups of microorganisms in Ilawa Lakes, Pol. Arch. Hydrobiol., 20, 349-369 (1973).
- [32] Niewolak S., R. Brzozowska, K. Czechowska, E. Korzeniewska, Z. Filipkowska: Sezonowe zmiany liczebności promieniowców i grzybów (nitkowatych i drożdżoidalnych) w wodzie, glebie i roślinności śródleśnych mokradeł w okolicy Olsztyna, Woda, Środowisko, Obszary Wiejskie, 7, 271 -291 (2007).
- [33] Niewolak S., Z. Filipkowska, E. Korzeniewska, 1. Dadoś, A. Horodeńska: Bacteriological studies of the water, soil and plants of the wetlands near Olsztyn, Limnological Papers 2, 53-68 (2007).
- [34] Niewolak S., E. Korzeniewska, Z. Filipkowska: Seasonal changes in the numbers of nitrogen cycle bacteria in the water, soil and plants of the wetlands near Olsztyn, Acta Univ. Nicolai Copernici, Toruń, Limnological Papers, 25, 105-122 (2005).
- [35] Postgate J.R.: The sulphate-reducing bacteria, Cambridge University Press, Cambridge, London, New York, Melbourne 1979.
- [36] Rheinheimer G.: Mikrobiologie der Gewasser, 2 ed., VEB Gustav Fischer Verlag, Jena 1975.
- [37] Rodina A.G.: Mikrobiologiczne metody badania wód, PWRiL, Warszawa 1968.
- [38] Rogers K.H.: Wetlands as accreating systems:, organic carbon, J. Limnol. Soc. Sth. Afr., 9, 96-103 (1983).
- [39] Rooney-Varga J.N., R. Devereux, R.S. Evans, M.E. Hines: Seasonal changes in the relative abundance of uncultivated sulfate-reducing bacteria in a salt marsh sediment and in the rhizosphere of Spartina alterniflora, Appl. Env. Microbiol., 63, 3895-3901 (1997).
- [40] Sass H., H. Cypionka: Isolation of sulfate-reducing bacteria from the terrestial deep subsurface and description of Desulfovibrio cuvernue sp. nov.. System. Appl. Microbiol., 27, 540-548 (2004).
- [41] Sass H., H. Cypionka, H.D. Babenzien: Vertical distribution of sulfate-reducing bacteria of oxic-anoxic interfaces in the sediment Lake Stechlin, FEMS Microbiol. Ecol., 22. 245-255 (1997).
- [42] Sass A.M., A. Eschemann, M. Kuhl, A. Thar, H. Sass, H. Cypionka: Growth and chemosensory behavior of sulfate-reducing bacteria in oxygen-sulfide gradients, EEMS Microbiol. Ecol., 40, 47-54 (2002).
- [43] Smith D.W.: Ecological actions of sulfate-reducing bacteria, [in:] J.M. Odom, R. Singleton Jr. (eds). The sulfate-reducing bacteria: contemporary perspectives. Springer Verlag, New York 1993, 161-188.
- [44] Webb J.S., S. McGinnes, H.M. Lappin-Scott: Metal removal by sulphate-reducing bacteria from natural and constructed wetlands, J. Appl. Microbiol., 84, 240-248 (1998).
- [45] Widdel F.: Microbiology and ecology of sulfate- and sulfur-reducing bacteria [in:] Biology of anaerobic microorganisms, A.J.B. Zehnder (ed.), John Wiley and Sons, New York 1988.
- [46] Widdel F., F. Bak: Cram-negative mesophilic sulfate-reducing bacteria, [in:] The Procaryotes, A. Ballows, G.H. Triiper, M. Dworkin, W. Harder, K.II. Schleifer; (eds), Springer Verlag, New York 1992, 3353-3378.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS5-0017-0006