Library Subscription: Guest
Hydrobiological Journal
Editorial Board Executive Secretary: L.I. Kalinina (open in a new tab)

Published 6 issues per year

ISSN Print: 0018-8166

ISSN Online: 1943-5991

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

Indexed in

Improvement in the Hydrochemical Regime of Small Urban Water Bodies under Conditions of Artificial Aeration (on the Example of Lake Telbin)

Volume 55, Issue 4, 2019, pp. 94-110
DOI: 10.1615/HydrobJ.v55.i4.90
Get accessGet access

ABSTRACT

Small water bodies located within urban territories are often subjected to the influence of anthropogenic load, which manifests itself in the deterioration of their hydrochemical regime, eutrophication, and intensive development of phytoplankton. Dissolved oxygen deficiency and the formation of anaerobic zones in the hypolimnion of the above-mentioned water bodies are environmental hazards. The artificial aeration of small water bodies is one of the ways of the improvement in their oxygen regime, which was demonstrated on the example of Lake Telbin located within the territory of Kiev. The influence of artificial aeration on the state of the water was judged from such significant indices as water temperature, pH value, dissolved oxygen content, the content of inorganic forms of nitrogen and phosphorus, and the content of some metals (Fe, Mn, Cu, Zn, and Pb). In the absence of artificial aeration, dissolved oxygen deficiency is registered in the lake from early spring until late autumn. Under anaerobic conditions at the depths of more than 2-3 m, the concentration of ammonium, inorganic phosphorus, iron, and manganese incoming from bottom sediments significantly increases. Under conditions of artificial aeration, the state of oxygen regime is improved; dissolved oxygen deficiency is observed in deeper layers of water (5.5-6.5 m), whereas high concentrations of the above mentioned chemical components are registered only in the near-bottom layer of water. The efficiency of aeration depends on a depth of aerator submission, and also on its operating conditions.

REFERENCES
  1. Nabyvanets, B.Y., V.l. Osadchy, N.M. Osadcha & Yu.B. Nabyvanets. 2007. Analitychna khimiya poverkhnevykh vod. (Analytical chemistry of surface waters.) Kyiv, Naukova Dumka Press. 456 pp. [Ukr.].

  2. Asaul, Z.l. 1975. Vyznachnyk evglenovykh vodorostey Ukrayinskoyi RSR. (Manual on Euglenophyta of Ukraine.) Kyiv, Naukova Dumka Press. 408 pp. [Ukr.].

  3. Belkina, N.A., D.A. Subetto, N.A. Yefremenko et al. 2015. Chemical composition of bottom sediments of the northern part of Lake Ladoga as the index of long-term variability of water body ecosystem.) Trudy Karelskogo Nauchnogo Tsentra RAN 9: 53-61. [Rus.].

  4. Biologicheskiye i khimicheskiye effekty antropogennogo evtrofirovaniya Izhevskogo vodokhranilishcha. (Biological and chemical effects of anthropogenic eutrophication of the Izhevsk Reservoir.) 2013. / Ed. by B.G. Kotegov. Izhevsk, Udmurtskiy Universitet Press. 177 pp. [Rus.].

  5. Denisova, A.I., Ye.P. Nakhshina, B.l. Novikov & A.K. Ryabov. 1987. Donnye otlozheniya vodokhranilishch i ikh vliyaniye na kachestvo vody. (Bottom sediments of reservoirs and their influence on water quality.) Kiev, Naukova Dumka Press. 164 pp. [Rus.].

  6. Denisova, A.l., V.M. Timchenko, Ye.P. Nakhshina et al. 1989. Gidrologiya i gidrokhimiya Dnepra iyego vodokhranilishch. (Hydrology and hydrochemistry of the Dnieper River and its reservoirs.) Kiev, Naukova Dumka Press. 216 pp. [Rus.].

  7. Krakhmalny, A.F. 2011. Dinojitovye vodorosli Ukrainy: illyustrirovanny opredelitel. (Dinophyta of Ukraine: Illustrated manual.) Kiev, Alterpres Press. 444 pp. [Rus.].

  8. Lynnyk, P.M., T.O. Vasylchuk, V.P. Osypenko & O.V. Zubko. 2010. Organic matter as the main factor of heavy metals migration in surface waters. Naukovi Zapysky Ternopilskogo Pedagogichnogo Universytetu. Seriya Biologiya 2 (43): 327-330. [Ukr.].

  9. Linnik,P.N. & Yu.B. Nabivanets. 1988. Use ofthe method of inversion voltammetry for determining free and complex ions of zinc and lead in natural waters. Gidrobiol. Zhurn. 24(1): 68-71. [Rus.].

  10. Metody gidroekologichnykh doslidzhen poverkhnevykh vod. (Methods of hydroecological investigations of surface waters.) 2006. / Ed. by V.D. Romanenko. Kyiv, Logos Press. 408 pp. [Ukr.].

  11. Morozova, A.A. 2009. On the problem ofthe formation of anaerobic zones and their influence on water quality of lake ecosystems of urban territories. Gidrologiya, Gidrokhimiya i Gidroekologiya. Naukovy Zbirnyk 16: 169-177. [Rus.].

  12. Morozova, A.A. 2008. Spatial and temporal variability of nutrients in the ecosystem of Lake Telbin under the influence of anthropogenic factor. Gidrologiya, Gidrokhimiya i Gidroekologiya. Naukovy Zbirnyk 14: 181-186. [Rus.].

  13. Nabivanets, B.l., P.N. Linnik & L.V. Kalabina. 1981. Kineticheskiye metody analiza prirodnykh vod. (Kinetic methods ofthe analysis of natural waters.) Kiev, Naukova Dumka Press. 140 pp. [Rus.].

  14. Papina, T.S., Ye.l. Tretyakova & A.N. Eyrikh. 2012. Assessment ofthe influx of nutrients from bottom sediments into the water ofthe Novosibirsk Reservoir. Voda: Khimiya i Ekologiya 6: 3-9. [Rus.].

  15. Ryabov, A.K. & L.A. Sirenko. 1982. Iskusstvennaya aeratsiyaprirodnykh vod. (Artificial aeration of natural waters.) Kiev, Naukova Dumka Press. 204 pp. [Rus.].

  16. Seleznev, V.A. & A.V. Selezneva. 2012. Increase in the intensity of eutrophication ofthe reservoirs of the middle and lower reaches of the Volga River under abnormal weather conditions. Pp. 113-117 in: Organicheskoye veshchestvo i biogennye elementy vo vnutrennikh vodoyemakh i morskikh vodakh. Materialy V Vserossiyskogo simpoziuma s mezhdunarodnym uchastiyem, 10-14 sentyabrya 2012 g., g. Petrozavodsk, Respublika Kareliya, Rossiya. (Organic matter and nutrients in inner water bodies and marine waters. Proceedings of the V All-Russian Symposium with International Participation, 10-14 September 2012, Petrozavodsk, Republic of Kareliya, Russia.) Petrozavodsk. [Rus.].

  17. Timchenko, V.M., A.Ye. Yaroshevich, Yu.L. Videnina & S.M. Besrodnaya. 1994. Ecological problems ofthe hydrology ofthe Shatsk lakes. Gidrobiol. Zhurn. 30(4): 59-72. [Rus.].

  18. Khilchevsky, V.K. & O.V. Boyko. 2001. Hydrological and hydrochemical characteristics of the lakes and ponds of Kiev. Gidrologiya, Gidrokhimiya i Gidroekologiya. Naukovy Zbirnyk 2: 529-535. [Rus.].

  19. Tsarenko, P.M. 1990. Kratkiy opredelitel khlorokokkovykh vodorosley Ukrainskoy SSR. (Brief manual on Chlorococcales of Ukraine.) Kiev, Naukova Dumka Press. 208 pp. [Rus.].

  20. Shcherbak, V.l. 2002. Methods of the study of phytoplankton. Pp. 41-48 in: Metodychni osnovy gidrobiologichnykh doslidzhen vodnykh ekosystem. (Methodical foundations of hydrobiological investigations of aquatic ecosystems.) Kyiv. [Ukr.].

  21. Arnell, N.W., S.J. Halliday, R.W. Battarbee et al. 2015. The implications of climate change for the water environment in England. Progress in Physical Geography 39(1): 93-120.

  22. Ashley, K.l. 1983. Hypolimnetic aeration of a naturally eutrophic lake: physical and chemical effects. Canad. J. Fish. Aquat. Sci. 40: 1343-1359.

  23. Beutel, M.W. & A.J. Horne. 1999. A review of the effects ofhypolymnetic oxygenation on lake and reservoir water quality. J. Lake Reservoir Management 15(4): 285-297.

  24. Correll, D.L. 1998. The role of phosphorus in the eutrophication of receiving waters: a review. J. Environ. Qual. 27: 261-266.

  25. Effect of bottom conditions on eutrophy of impoundments. 1979. lllinois state water survey. Urbana. 61 pp.

  26. Fillos, J. & W.R. Swanson. 1975. The release rate of nutrients from river and lake sediments. J. Water Pollution Control Federation 47(5): 1032-1042.

  27. Golosov, S., A. Terzhevik, l. Zverev et al. 2012. Climate change impact on thermal and oxygen regime of shallow lakes. Tellus A: Dynamic Meteorology and Oceanography 64(1): 1-12.

  28. Header, D.-P., H.D. Kumar, R.C. Smith & R.C. Worrest. 2007. Effects of solar UV radiation on aquatic ecosystems and interactions with climate change. Photochem. Photobiol. Sci. 6: 267-285.

  29. Heo Woo-Myung & K. Bomchul. 2004. The effect of artificial destrafication on phytoplankton in a reservoir. Hydrobiologia 524: 229-239.

  30. Hou, D., J. He, C. Lu et al. 2013. Effects of environmental factors on nutrients release at sediment-water interface and assessment of trophic status for a typical shallow lake, Northwest China. Sci. World J. Article ID 716342. 16 p. http://dx.doi.org/10.1155/2013/716342.

  31. Imteaz, M.A. & T. Asaeda. 2000. Artificial mixing of lake water by bubble plume and effects of bubbling operation on algal bloom. Wat. Res. 34(6): 1919-1929.

  32. Jankowski, T., D.M. Livingstone, R. Forster et al. 2006. Consequences of the 2003 European heat wave for lakes: implications for a warmer world. Limnol. Oceanogr. 51: 815-819.

  33. Klochenko, P.D., T.F. Shevchenko & G.V. Kharchenko. 2015. Structural and functional organization of phytoplankton in the thickets and in the sections free of vegetation in the lakes of Kiev. Hydrobiol. J. 51(3): 45-60.

  34. Klochenko, P.D., T.F. Shevchenko & G.V. Kharchenko. 2013. Structural organization of phytoplankton and phytoepiphyton of the lakes of Kiev. Hydrobiol. J. 49(4): 47-63.

  35. Klochenko, P.D., T.F. Shevchenko, T.A. Vasilchuk et al. 2014. On the ecology of phytoepiphyton of water bodies of the Dnieper River basin. Hydrobiol. J. 50(3): 41-54.

  36. Komarek, J. & K. Anagnostidis. 2005. Cyanoprokaryota. Sufiwasserflora von Mitteleuropa. Bd. 19/2. Heidelberg, Springer Spektrum. 759 pp.

  37. Komarek, J. & K. Anagnostidis. 1999. Cyanoprokaryota. Sufiwasserflora von Mitteleuropa. Bd. 19/1. Jena, etc., G. Fischer Verl. 548 pp.

  38. Komarek, J. & K. Anagnostidis. 2013. Cyanoprokaryota. Sufiwasserflora von Mitteleuropa. Bd. 19/3. Jena, etc., G. Fischer Verl. 1131 pp.

  39. Kowalczewska-Madura, K., R. Goldyn & R. Dondajewska. 2010. The bottom sediments of Lake Uzarzewskie - a phosphorus source or sink? Oceanol. Hydrobiol. St. 39(3): 81-91.

  40. Krammer, K. & H. Lange-Bertalot. 1986. Bacillariophyceae. Sufiwasserflora von Mitteleuropa. Bd. 2/1. Stuttgart, Jena, G. Fischer Verl. 876 pp.

  41. Krammer, K. & H. Lange-Bertalot. 1988. Bacillariophyceae. Sufiwasserflora von Mitteleuropa. Bd. 2/2. Stuttgart, Jena, G. Fischer Verl. 611 pp.

  42. Krammer, K. & H. Lange-Bertalot. 1991. Bacillariophyceae. Sufiwasserflora von Mitteleuropa. Bd. 2/4. Stuttgart, Jena, G. Fischer Verl. 536 pp.

  43. Krammer, K. & H. Lange-Bertalot. 1991. Bacillariophyceae. Centrales, Fragilariaceae, Eunotiaceae. Sufiwasserflora von Mitteleuropa. Bd. 2/3. Stuttgart, Jena, G. Fischer Verl. 807 pp.

  44. Linnik, P.N. 2003. Complexation as the most important factor in the fate and transport of heavy metals in the Dnieper water bodies. Anal. Bioanal. Chem. 376(3): 405-412.

  45. Linnik, P.N., A.A. Leshchinskaya & B.l. Nabivanets. 1989. Methodology for investigating coexisting forms of chromium in natural waters. Hydrobiol. J. 25(2): 91-96.

  46. Linnik, P.N. 2003. Sources of water quality deterioration in the Kiev and Kanev reservoirs. Khimiya i Tekhnologiya Vody 25(4): 384-403.

  47. Linnik, P.N., O.V. Timchenko, A.V. Zubko et al. 2009. Oxygen regime of the water bodies as main factor of different metals forms migration within the system "bottom sediments - water". Hydrobiol. J. 45(2): 85-105.

  48. Lychagin, M.Yu., A.N. Tkachenko, N.S. Kasimov & S.B. Kroonenberg. 2015. Heavy metals in the water, plants, and bottom sediments of the Volga River mouth area. J. Coast. Res. 31(4): 859-868.

  49. Murdoch, P.S., J.S. Baron & T.L. Miller. 2000. Potential effects of climate change on surface-water quality in North America. J. Amer. Water Res. Assoc. 36(2): 347-366.

  50. Mushtaq, B., R. Raina, A.R. Yousuf et al. 2015. Chemical characteristics ofbottom sediments ofDal Lake Srinagar, Kashmir. J. Environ. Protection and Sustainable Development 1(1): 1-7.

  51. Nguyen, H.V. & M. Maeda. 2016. Effects of pH and oxygen on phosphorus release from agricultural drainage ditch sediment in reclaimed land, Kasaoka bay, Japan. J. Water Environ. Technology 14(4): 228-235.

  52. Shevchenko, T.F., G.V. Kharchenko & P.D. Klochenko. 2010. Cenological analysis of phytoepiphyton of water bodies of Kiev. Hydrobiol. J. 46(1): 41-55.

  53. Solheim, A.L., K. Austnes, T.E. Eriksen et al. 2010. Climate change impacts on water quality and biodiversity. Background Report /or EEA European Environment State and Outlook Report 2010. European Topic Centre on Water. Prague. 68 pp.

  54. Steinman, A., X. Chu & M. Ogdahl. 2007. Spatial and temporal variability of internal and external phosphorus loads in Mona Lake, Michigan. Aquat. Ecol. 18 p. DOl 10.1007/s10452-007-9147-6.

  55. Sun, X., W. Zhao, M. Zhang & T. Huang. 2013. Effects of temperature gradient on algae inhibition zone in source water reservoirs using in-situ water-lifting aeration technology. Advanced Materials Res. 663: 870-875.

  56. Verweij, W., J. van der Wiele, l. van Moorselaar & E. van der Grinten. 2010. Impact of climate change on water quality in the Netherlands. RJVM Report 607800007. 63 pp.

  57. Whitehead, P.G., R.L. Wilby, R.W. Battarbee et al. 2009. A review of the potential impacts of climate change on surface water quality. Hydrol. Sci. J. 54(1): 101-123.

  58. Zhuravleva, L.A. & P.N. Linnik. 1989. Factors governing extreme situations in the hydrologic regime of the Dnieper-Bug lagoon. Hydrobiol. J. 25(3): 73-77.

CITED BY
  1. Linnik P. N., Zhezherya V. A., Zhezherya T. P., Features of the Hydrochemical Regime of Water Bodies of Urbanized Areas in Summer: I. Biogenic and Organic Substances, Russian Journal of General Chemistry, 91, 13, 2021. Crossref

  2. Zhezherya V. A., Linnik P. M. , Peculiarities of the Dynamics of Some Elements of Hydrochemical Regime in Small Water Bodies of Urban Territories: Coexisting Forms of Metals , Hydrobiological Journal, 58, 5, 2022. Crossref

  3. Zhezherya V. A., Zhezherya T. P. , Linnik P. M. , Osipenko V. P., Yevtukh T. V. , Peculiarities of the Dynamics of Some Elements of Hydrochemical Regime in Small Water Bodies of Urban Territories: Nutrients and Organic Matter , Hydrobiological Journal, 58, 6, 2022. Crossref

Begell Digital Portal Begell Digital Library eBooks Journals References & Proceedings Research Collections Prices and Subscription Policies Begell House Contact Us Language English 中文 Русский Português German French Spain