ライブラリ登録: Guest
Begell Digital Portal Begellデジタルライブラリー 電子書籍 ジャーナル 参考文献と会報 リサーチ集
Hydrobiological Journal
SJR: 0.227 SNIP: 0.901 CiteScore™: 0.5

ISSN 印刷: 0018-8166
ISSN オンライン: 1943-5991

巻:
巻 56, 2020 巻 55, 2019 巻 54, 2018 巻 53, 2017 巻 52, 2016 巻 51, 2015 巻 50, 2014 巻 49, 2013 巻 48, 2012 巻 47, 2011 巻 46, 2010 巻 45, 2009 巻 44, 2008 巻 43, 2007 巻 42, 2006 巻 41, 2005 巻 40, 2004 巻 39, 2003 巻 38, 2002 巻 37, 2001 巻 36, 2000 巻 35, 1999 巻 34, 1998

Hydrobiological Journal

DOI: 10.1615/HydrobJ.v55.i5.50
pages 57-64

Impact of Humic Acids on Survival of Microorganisms of Different Groups in the Aquatic Medium

S. A. Dolenko
Institute of Colloid Chemistry and Chemistry of Water National Academy of Sciences of Ukraine Kyiv, Ukraine
A. M. Kravchenko
Institute of Colloid Chemistry and Chemistry of Water National Academy of Sciences of Ukraine Kyiv, Ukraine
V. V. Vember
Kyiv Polytechnical Institute Kyiv, Ukraine
V. V. Abramov
Kyiv Polytechnical Institute Kyiv, Ukraine
V. V. Taranov
Kyiv Polytechnical Institute Kyiv, Ukraine

要約

The impact of the humic acids of the concentration range, character for natural waters (0-15 mg/dm3) on viability of bacteria Pseudomonas sp. and Bacillus sp., belonging to different systematic and physiological groups, was investigated. Differently-directed effects of the humic acids on microorganisms was revealed: concentration 1 and 5 mg/dm3 suppressed survival of the considered bacterial cultures, whereas concentration 15 mg/dm3 appeared to be ineffective. The hypothesis on this effect was suggested.

参考

  1. Antipchuk, A.F. & l.Yu. Kireyeva. 2005. Vodna mikrobiologiya: navchalniy posibnyk. (Aquatic microbiology: teaching aid.) Kyiv, Kondor Press. 256 pp. [Ukr.].

  2. Biriukov, M.V. 2006. Biologicheskoye deystviye guminovykh kislot i yego prostransvennaya lokalizatsiya vpochve. (Biological effect of humic acids and its spatial localization in soil.) Author's abstract of PhD thesis. Moscow. 24 pp.

  3. Dolenko, S.A., M.Yu. Trifonova & Yu.l. Tarasevich. 2017. Humic acids-self-organizing dissipative systems. Khimiya i tekhnologoya vody 39(6): 651-665. [Rus.].

  4. Kudrina, Ye.S. 1951. Effect of humic acid on some groups of the soil microorganisms and its significance for these microorganisms as nutrients' source. Trudy Pochvennogo in-ta im. V.V. Dokuchayeva 38: 185-254. [Rus.].

  5. Linnik, P.N., Ya.S. Ivanechko, R.P. Linnik & V.Ya. Zhezheria. 2013. Humus substances of surface waters and the peculiarities of their distribution among various fractions. Hydrobiol. J. 49(5): 90-111.

  6. Lysak, V.V. 2007. Microbiologiya: Uch. posobiye. (Microbiology: a tutorial.) Minck, Publ. House of Belarus. un-ty. 426 pp. [Rus.].

  7. Orlov, D.S. 1993. Svoystva i funktsii guminovykh veshchestv. Guminoviye veshchestva v biosfere. (Properties and functions of humic substances. Humic substances in biosphere.) Moscow, Nauka Press. 238 pp. [Rus.].

  8. Purt, J.S. 1978. Osnovy kultivirovaniya mikroorganizmov i kletok. (Prrinciples of cultivation of microorganisms and cells.) Moscow, Mir Press. 331 pp. [Rus., transl. from Eng.].

  9. Popov, A.l. 2004. Guminoviye veshchestva: svoystva, stroyeniye, obrazovaniye. Pod red. Ye.I. Yermakova. (Humic substances: properties, architecture, forming. Ed. by Ye.l. Yermakov.) St Petersburg, Publ. House of St Petersburg Un-ty. 248 pp. [Rus.].

  10. Siggia, S. & J.G. Hannah. 1983. Kolichestvenniy organicheskiy analiz po funktsionalnym gruppam. (Quantitative organic analysis by functional groups.) Moscow, Khimiya Press. [Rus.].

  11. Stead, J.V. & J.L. Etwood. 2007. Supramolekuliarnaya khimiya. T. 1. (Supramolecular chemistry. Vol. 1.) Moscow, Akademkniga Press. 480 pp. [Rus., transl. from Eng.].

  12. Tarasevich, Yu.L, S.A. Dolenko, M.Yu. Trifonova. Ye.Yu. Alekseyenko. 2013. Association and colloid-chemical properties of humic acids in water solutions. Kolloid. zhurn. 75(2): 230-236.

  13. Tepper, Ye.Z. 1976. Mikroorganizmy roda Nocardia i razlozheniye gumusa. (Microorganisms of genus Nocardia and decomposition of hymus.) Moscow, Nauka Press. 199 pp. [Rus.].

  14. Boreen, A.L., B.L. Edhlund & J.B. Cotner. 2008. Indirect photodegradation of dissolved free amino acids: The contribution of singlet oxygen and the differential reactivity of DOM from various sources. Environ. Sci. and Technol. 42(15): 5492-5498.

  15. Gryndler, M., R. Sudova & H. Gryndlerova. 2005. Hyphal growth and mycorrhiza formation by the arbuscular mycorrhizal fungus Glomus claroideum BEG 23 is stimulated by humic substances. Mycorrhiza 15(7): 483-488.

  16. Loffredo, E., M. Berloco, F. Casulli & N. Senesi. 2007. In vitro assessment of the inhibition of humic substances on the growth of two strains of Fusarium oxysporum. Biology and Fertility of Soils 43: 759-769.

  17. Miller, P.L. & Y.P. Chin. 2005. Indirect photolysis promoted by natural and engineered wetlandwater constituents: Processes leading to alachlor degradation. Environ. Sci. Tech. 39(12): 4454-4462.

  18. Parr, A.J. & J.P. Bolwell. 2002. Phenols in the plant and in man. The potential for possible nutritional enhancement of the diet by modifying the phenols content or profile. J. Sci. Food Agric. 80: 985-1012.

  19. Piccolo, A. 2001. The supramolecular structure of humic substances. Soil Sci. 166(11): 810-832.

  20. Piccolo, A. 2002. The supramolecular structure of humic substances: A novel understanding of humus chemistry and implications in soil science. Adv. Agron. 75: 57-134.

  21. Senesi, N. & M. Schnitzer. 1977. Effects of pH, reaction time, chemical reduction and irradiation on ESR spectra of fulvic acid. Soil Sci. 123(4): 224-234.

  22. Senesi, N. & M. Schnitzer 1978. Free radicals in humic substances. Environ. Biogeochem. Geomicrobiol. 2: 467-481.

  23. Steelink, C. & G. Tollin. 1962. Stabile free radicals in soil humic acid. Biochim. Biophys. Acta. 59: 25-33.

  24. Steinberg, C., S. Kamara, V.Y. Prokhotskaya et al. 2006. Dissolved humic substances-ecological driving forces from the individual to the ecosystem level. Freshwater Biology 51(7): 1189-1210.

  25. Valentao, P., E. Fernandes & F. Carvalho. 2002. Antioxidative properties of cardoon (Cynara cardunculus L.) infusion against superoxide radical, hydroxyl radical and hypochlorous acid. J. Agric. Food Chem. 50: 4989-4993.

  26. Vallini, G., A. Pera, M. Agnolucci & M. Valdrighi. 1997. Humic acids stimulate growth and activity of in vitro tested axenic cultures of soil autotrophic nitrifying bacteria. Biology and Fertility of Soils 24(3): 243-248.


Articles with similar content:

Comparative Analysis of Cytokinins in Mycelial Biomass of Medicinal Mushrooms
International Journal of Medicinal Mushrooms, Vol.20, 2018, issue 9
Oksana B. Mykchaylova, Marharyta L. Lomberg, Galeb A. Al-Maali, Nadiya Y. Mytropolska, Nina P. Vedenicheva, Mykola M. Shcherbatiuk, Iryna V. Kosakivska, Nina A. Bisko
Antimicrobial and Antitoxical Action of Edible and Medicinal Mushroom Pleurotus ostreatus (Jacq.: Fr.) Kumm. Extracts
International Journal of Medicinal Mushrooms, Vol.4, 2002, issue 2
Irina V. Tolstych, Olga V. Efremenkova, Valentina A. Zenkova, Olga V. Kamzolkina, Valeriy P. Gerasimenya, Tatyana A. Bogush
Bacteria accompanying Scenedesmus acutus Meyen in laboratory cultures
International Journal on Algae, Vol.2, 2000, issue 2
T. M. Nogina, V. V. Stupina, Ye. V. Borisova
Evaluation of the Ecological Integrity and Microalgae Carbon Sequestration Potential Across the Sewage Effluent Gradient of Tropical Waste Stabilization Pond System
Hydrobiological Journal, Vol.54, 2018, issue 4
S. Lahiri, D. Sarkar, В. B. Jana
Protein Content in the Biomass of Unialgal and Mixed Cultures of Algae
International Journal on Algae, Vol.12, 2010, issue 2
A. V. Kureishevich