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Estimating the level of water eutrophication in poraj dam reservoir based on selected methods

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Identyfikatory
Warianty tytułu
PL
Oszacowanie poziomu zeutrofizowania wody zbiornika zaporowego Poraj na podstawie wybranych metod
Języki publikacji
EN
Abstrakty
EN
In this publication the chosen methods of estimation of the eutrophication were presented. These methods were used for the evaluation of the trophic status of the Poraj Reservoir water. In this research the Integral trophic state index was used. In addition the loading reservoir with total phosphorus was estimated, as well as the permissible and the critical loads of phosphorus according to Vollenweider were also defined. Furthermore, the trophic classification of reservoir water was achieved on the grounds of: the concentrations of biogenic substances in reservoir water, the concentrations of the chlorophyll a, the biomass of phytoplankton and the species composition of phytoplankton. The every chosen methods indicated on the advanced eutrophication processes occurring in this reservoir.
PL
W artykule zostały zaprezentowane wybrane metody oszacowania poziomu eutrofizacji. Metody te użyto do oceny statusu troficznego wód zbiornika zaporowego Poraj. W badaniach został zastosowany Integralny wskaźnik stanu troficznego. Dodatkowo oszacowano obciążenie zbiornika ładunkiem fosforu ogólnego oraz obliczono ładunki dopuszczalne i niebezpieczne fosforu ogólnego według Vollenweidera. Ponadto, klasyfikacji troficznej wód zbiornika dokonano na podstawie koncentracji związków biogennych oraz chlorofilu a, a także biomasy fitoplanktonu oraz składu gatunkowego fitoplanktonu. Wszystkie wybrane metody wskazały na postępujące procesy eutrofizacyjne w wodach tego zbiornika.
Rocznik
Strony
779--790
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
  • Institute of Engineering and Environmental Protection, University of Bielsko-Biala, ul. Willowa 2, 43–309 Bielsko-Biała, Poland, phone: +48 33 827 91 61
autor
  • Institute of Engineering and Environmental Protection, University of Bielsko-Biala, ul. Willowa 2, 43–309 Bielsko-Biała, Poland, phone: +48 33 827 91 61
Bibliografia
  • [1] Chapra SC, Dobson HFH. Quantification of the lake trophic typologies of Naumann (surface quality) and Thienemann (oxygen) with special reference to the Great Lakes. Journal of Great Lakes Research. Internat Assoc Great Lakes Res. 1981;7(2):182-193.
  • [2] Wilk-Woźniak E. The algae – formation, from which everything didn’t begin at all. Supplementa ad Acta hydrobiologica. 2001;1:27-32.
  • [3] Straškraba M. Limnological differences between deep valley reservoirs and deep lakes. International Reviev Hydrobiol. Spec Issue. 1998;83:1-12.
  • [4] Vollenveider RA. OECD Report. Scientific fundamentals of the eutrophication of lakes and flowing waters, with particular reference to nitrogen and phosphorus as factors in eutrophication. Technical Report DA 5/SCI/68.27. Paris; 1968.
  • [5] Islam N, Kitazawa D, Hamill T, Park H-D. Modeling mitigation strategies for toxic cyanobacteria blooms in shallow and eutrophic Lake Kasumigaura, Japan. Mitig Adapt Strateg Glob Change. 2013;18:449-470. DOI: 10.1007/s11027-012-9369-3.
  • [6] Wiśniewski R. The role of internal supply in the eutrophication of dam reservoirs. In: The biological processes in the protection and remediation of lowland dam reservoirs. Zalewski M, editor. Łódź: Biblioteka Monitoringu Środowiska; 1995:61-70.
  • [7] Krzanowski S. The influence of the reservoir retention on a chosen elements of the environment, with particular reference to changes of the flows regime in the river below the reservoir (by example of the San river basin). The Scholarly Notebooks of University of Agriculture in Krakow. The dissertations. Kraków: Publishing Company AR; 2000.
  • [8] Kasza H. The dam reservoirs. Meaning – Eutrophication – Protection. Bielsko-Biała: Publishing Company ATH; 2009.
  • [9] Pawlik-Skowrońska B, Toporowska M. Blooms of toxin-producing Cyanobacteria – a real threat in small dam reservoirs at the beginning of their operation. Oceanological and Hydrobiological Studies. 2011;40(4):30-37. DOI:10.2478/s13545-011-0038-z.
  • [10] Jaguś A, Rzętała M. Poraj reservoir. Physical-geographical characteristics. Sosnowiec: Faculty of Earth Sciences, University of Silesia in Katowice; 2000.
  • [11] Neverova-Dziopak E. The ecological aspects of surface water protection. The Monograph. Rzeszów: Publishing House of the Rzeszów Technical University; 2007.
  • [12] Kowalewski Z. Methods of assessment of surface water trophic state. The Materials of Cracovian Conference of Young Scholars. 17–19 September, Kraków: AGH; 2009:343-351.
  • [13] Elbanowska H, Zerbe J, Siepak J. Physical-chemical research of water. Poznań: UAM; 1999.
  • [14] Dojlido JR. Chemistry of surface water. Białystok: Publishing Company Economics and the Environment; 1995.
  • [15] Giziński A, Falkowska E. The applied hydrobiology: Protection of surface water. Włocławek: Publishing House of a Włocławek Learned Society; 2003.
  • [16] Vollenweider R. Advances in defining critical loading levels for phosphorus in lake eutrophication. Mem Ist Ital Idrobiol. 1976;33:53-83.
  • [17] Siemińska J. The freshwater flora of Poland. Bacillariophyceae. Warszawa: PWN; 1964.
  • [18] Starmach K. The phytoplankton of freshwater. The methods of research and keys to identification of species occurring in water of Central Europe. Warsaw, Krakow: PWN; 1989.
  • [19] Hindák F. Key to the unbranched filamentous green algae (Ulotrichineae, Ulotrichales, Chlorophyceae). Bulletin Slovenskej Botanickej Spoločnosti Pri Sav. Supplement 1. 1996:1-77.
  • [20] Rott E. Some results from phytoplankton counting intercalibrations. Schweiz Z Hydrol Birkhäuser Verlag Basel. 1981;43/1:34-62.
  • [21] Heinonen P. Quantity and composition of phytoplankton in Finnish inland waters. Nat Board of waters. 1980;37:1-91.
  • [22] Mazurkiewicz-Boroń G. The habitat and trophic parameters. In: Starmach J, Mazurkiewicz-Boroń G. The Dobczycki reservoir. Ecology – Eutrophication – Protection. Kraków: The Institution of Water Biology – PAN; 2000;63-80.
  • [23] Szeląg-Wasielewska E. Relationship between phytoplankton and abiotic elements in a dam reservoir. Acta Hydrobiologica. 1992;34(4):341-356.
  • [24] Strutyński J, Łojek J, Skawiński W. The evaluation of the action effectiveness of mechanical-biological sewage treatment plant in Myszków. The Scholarly Notebooks of University in Bielsko-Biała. 2005;19(6):272-281.
  • [25] Wilk-Woźniak E. Phytoplankton – formation reflecting variation of trophy in dam reservoirs. Ecohydrology and Hydrobiology. Proceedings of the XXth International Phycological Symposium. 2003;3(2):213-219.
  • [26] Xu Y, Wang G, Yang W, Li R. Dynamics of the water bloom-forming Microcystis and its relationship with physicochemical factors in Lake Xuanwu (China). Environ Sci Pollut Res. 2010;17:1581-1590. DOI 10.1007/s11356-010-0345-8.
  • [27] Kagami M, Hirose Y, Ogura. H. Phosphorus and nitrogen limitation of phytoplankton growth in eutrophic Lake Inba, Japan. Limnology. 2013;14:51-58. DOI: 10.1007/s10201-012-0385-5.
  • [28] Reynolds CS. The plant life of the pelagic. Verh Internat Verein Limnol. 1996;26:97-113.
  • [29] Grabowska M. The role of a eutrophic lowland reservoir in shaping the composition of river phytoplankton. Ecohydrology and Hydrobiology. 2012;12(3):231-242. DOI: 10.2478/v10104-012-0016-0.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d7c97c42-beb6-4161-b385-a4f07daf155a
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