Suscripción a Biblioteca: Guest
Hydrobiological Journal
Secretaria Ejecutiva Consejo Editorial: L.I. Kalinina (open in a new tab)

Publicado 6 números por año

ISSN Imprimir: 0018-8166

ISSN En Línea: 1943-5991

SJR: 0.221 SNIP: 0.469 CiteScore™:: 0.9 H-Index: 12

Indexed in

Catalase Activity in Bottom Sediments of the Water Bodies of Different Types in the Urbanized Territory

Volumen 56, Edición 1, 2020, pp. 70-80
DOI: 10.1615/HydrobJ.v56.i1.60
Get accessGet access

SINOPSIS

Paper deals with results of investigations of intensity of hydrogen peroxide decomposition in the bottom sediments of water courses and water bodies of urbanized areas of Kyiv City. The total decomposition of hydrogen peroxide in the bottom sediments of the studied water bodies during the vegetative growing season varied from 0,024 to 0,838 mg H2O2/g·h It was established that H2O2 in the bottom sediments is decomposed owing to the enzymatic and chemical processes. The inhibition of the catalase activity in the bottom sediments in the sites of maximal contamination was revealed. The significant proportion of non-enzymatic H2O2 decomposition in the bottom sediments can be a pioneer toxicity test as well as a biomarker for urbanization and anthropogenic load.

REFERENCIAS
  1. Arsan, 0.M., Yu.M. Sytnyk, L.0. Gorbatiuk at al. 2010. Peculiarities of forming of the actual ecological and toxicological state of the water bodies of urbanized territories and its possible changes. Nauk. zap. Ternop. ped. un-tu. Ser. Biologia 2: 14-17. [Ukr.].

  2. Volikov, Yu.M. & T.S. Rybka. 2015. Assessment of ecological and sanitary state of the main river channel of the Kaniv reservoir by zoobenthos and zooplankton characteristics. Ibid. 3-4: 100-103. [Ukr.].

  3. Geltser, Yu.G. 1990. Parameters of biological activity in the soil studies. Pochvovedeniye 9: 47-60. [Rus.].

  4. Guseynova, V.P. & T.S. Rybka. 2015. Planktonic communities ofthe transformed water bodies of the urbanized territories. Nauk. zap. Ternop. ped. un-tu. Ser. Biologia 3-4:163-166. [Ukr.].

  5. Davydov 0.A. & D.P. Larionova. 2014. Peculiarities ofthe diatom algae development in microphytobenthos ofthe artificial water body ofthe urbanized territory (Kyiv city). Pp. 81-83 in: Problemy gidrologii, gidrokhimii, gidroekologii: Materialy 6 Vseukr. konf. (Issues of hydrology, hydrochemistry and hydroecology.) Dnipropetrovsk, Aktsent Press. [Ukr.].

  6. Davydov 0.A. & D.P. Larionova. 2012. Assessment of trophic status ofthe stagnant water bodies of the urbanized territories by the microphytobenthos development degree. Nauk. zap. Ternop. ped. un-tu. Ser. Biologia 4: 42-44. [Ukr.].

  7. Dziuban, A.N. 2002. 0rganic matters destruction and processes of methane transformation in the bottom sediments ofthe Rybinsk reservoir. Biologiya vnutr. vod 1: 43-50. [Rus.].

  8. Dziuban, A.N. 2004. Microbiological processes of organic matters destruction and methane transformation in bottom sediments ofthe Baltic lakes. Ibid. 3: 29-37. [Rus.].

  9. Dziuban, A.N. 2004. Assessment of ecological state ofthe reservoirs by bacteriobenthos criteria. Gidrobiol. zhurn. 40(4): 73-79. [Rus.].

  10. Zabelina, 0.N. 2014. Otsenka ekologicheskogo sostoyaniya pochvy gorodskikh rekreatsionnykh territoriy na osnovanii pokazateley biologicheskoy aktivnosti (na primere g. Vladimira). (Assessment of ecological state ofthe soils ofthe urban recreational territories based on biological activity parameters (by example of Vladimir town).). PhD thesis. Vladimir. 147 pp. [Rus.].

  11. Kireyeva, N.A., Ye.l. Novosiolova & T.S. Onegina. 2002. Catalase and dehydrogenase activity in soils, polluted bu oil and oil products. Agrokhimiya 8: 64-72. [Rus.].

  12. Korneyeva, G.A. & V.l. Vedernikov. 1994. Hydrolytic enzymatic activity and some hydrobiological characteristics of the Black Sea aerobic zone. Izvestiya RAN. Ser. Biologiya 2: 290-299. [Rus.].

  13. Kosolapov, D.B. & B.B. Namsarayev. 2000. Microbial metabolism of organic carbon in the bottom sediments of the Rybinsk reservoir. Gidrobiol. zhurn. 36(3): 44-50. [Rus.].

  14. Larionova, D.P. & O.A. Davydov. 2015. Trophic-saprobiological state of the water bodies of additional net of the river section of the Kaniv reservoir by micophytobenthos biomass. Nauk. zap. Ternopil. ped. un-tu 3-4: 392-395. [Ukr.].

  15. Larionova, D.P. & O.A. Davydov. 2018. Microphytobenthos of the flowing sections with different degree of anthropogenic load. Pp. 55-57 in: Vodni ekosystemy ta zberezhennia ikh bioriznomanittia: Zbirnyk nauk. prats' Vseukr. konf. (Aquatic ecosystems and protection of their biodiversity: proc. of All-Ukrainian conf.) Zhytomyr. [Ukr.].

  16. Maximova, E.A., V.N. Maximov, G.N. Kolesnitskaya et al. 1995. Microbiological indication and assessment of bottom sediments state of the Southern Baikal. Mikrobiologiya 64(3): 399-404. [Rus.].

  17. Mukhamatdinova, A.R. 2015. Otsenka sostoyaniya i sovershenstvovniye sistemy monitoringa vodnykh obyektov v zone vliyaniya neftekhimicheskikhpredpriyatiy. (State assessment and improvement of monitoring system of the water bodies affected by the oil refineries.) PhD thesis. Ufa. 170 pp. [Rus.].

  18. Novosiolova, Ye.l. 2008. Ekologicheskiye aspekty transformatsiifermentnogopulapochvypri neftianom zagriaznenii i rekultivatsii. (Ecological aspects o the enzymatic pool transformation in soil at oil pollution and reclamation.) Author's abstract of PhD thesis. Voronezh. 41 pp. [Rus.].

  19. Oleynik, G.N., V.N. Belokon' & Y.N. Kabakova. 1996. Bacteriobenthos and heavy metals content in bottom sediments of Sasyk reservoir. Gidrobiol. zhurn. 32(6): 21-31. [Rus.].

  20. Peterson, N.V., Ye.l. Kuryliak & Ye.l. Franchuk. 1984. Determination of catalase activity in soil. Mikrobiologiya 46(2): 85-87. [Rus.].

  21. Rybka, T.S. & Y.M. Volikov. 2014. Assessment of ecological and sanitary state of the water bodies of urbanized territories by zooplankton and macrozoobenthos parameters. Nauk. zap. Ternop. ped. un-tu. Ser. Biologia 2: 52-56. [Ukr.].

  22. Romanenko, V.D. 2015. Hydroecological issues under urbanization. lbid. 3-4: 18-21. [Ukr.].

  23. Romanenko, O.V., O.M. Arsan, L.S. Kipnis at al. 2015. Ekologichni problem Kyivskykh vodoym i pryleglykh terytoriy. (Ecological issues of the Kyiv water bodies and adjacent territories.). Kyiv, Naukova Dumka Press. 192 pp. [Rus.].

  24. Skvortsova, l.N., M.N. Stroganova & M.G. Agarkova. 1990. Modifications of microbial communities composition as one of indicators in ecological monitoring. Pp. 84 in: Ekologicheskiye problemy okhrany zhivoy prorody: mat. Vsesoyuzn. konf. (Environmental issues of living nature protection: Proc. Of All-Union conf.). Moscow. [Rus.].

  25. Skurlatov, Yu.l., S.O. Travin & L.S. Ernestova. 1987. Red-ox processes in natural waters. Vodniye resursy 5: 66-72. [Rus.].

  26. Timofeyeva, S.S., V.Z. Bespalova & N.V. Cheremnykh. 1988. Use of oxidative and reducing enzymes in pollutions bioindication. Pp. 76-77 in: Vodnaya toksikologiya: tez. dokl. 5-y Vsesoyuzn. konf. (Aquatic toxicology: abstracts of 5th All-Union conf.) Moccow. [Rus.].

  27. Tsokur, N.l. & N.A. Stepaniuk. 1989. Biological activity of the silts of the Odessa bay in different seasons. Gidrobiol. zhurn. 25(1): 49-53. [Rus.].

  28. Feriance, P. & D. Toth. 1993. Microbial numbers, biomass and microbial activity in sediments of 2 hydromelioration channels in the Eastern Slovakia Lowlands. Biologia 48: 319.

  29. Lehman, R.M. & S.P. O'Connell. 2002. Comparison of extracellular enzyme activities and community composition of attached and free-living bacteria in porous medium columns. App. Environ. Microbiol. 68(4): 1569-1575.

  30. Mudryk, Z. & W. Donderski. 1992. The proteolytic activity of benthic bacteria in three estuarine lakes. Oceanologia (PAS) 32: 109-119.

  31. Olejnik, G., A. Swiotecki, Gorniak D., Kacprzycka-Nowicka M. 2001. Struktura i funkcja bakteriobentosu w jeziorach o roznej trofii. Skupskiepracepizyrodnicze 1: 141.

  32. Oleynik G.N., Starosila Ye.V. 2010. Structure and functioning of bacterioplankton and bacteriobenthos in the water bodies with high content of inorganic nitrogen. Hydrobiol. J. 46(6): 26-36.

  33. Oleynik, G.N., V.l. Yurishinets & Ye.V. Starosila. 2011. Bacterioplankton and bacteriobenthos as biological indicators of aquatic ecosystem state. Ibid. 47(2): 37-48.

  34. Sinsabough, R.L., S. Findley, P. Franchini et al. 1997. Enzymatic analysis of riverine bacterioplankton production. Limnol. Oceanogr. 42: 29-38.

  35. Starosyla, Ye.V. 2008. Destruction of organic matter and catalase activity in bottom sediments of ponds extremely loaded with allochtonous nitrogen. Hydrobiol. J. 44(6): 64-73.

  36. Starosyla, Ye.V. & G.N. Oleynik 2006. Catalase activity in pond bottom sediments contaminated by mineral nitrogen. Ibid. 42(1): 47-56.

Portal Digitalde Biblioteca Digital eLibros Revistas Referencias y Libros de Ponencias Colecciones Precios y Políticas de Suscripcione Begell House Contáctenos Language English 中文 Русский Português German French Spain