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2013 | 01 | 1 |

Tytuł artykułu

New approach to trophic state assessment of running waters in Poland

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The problem of eutrophication has, since the 1970s, reached a global scale and become a problem of principal importance due to its negative consequences, which could result in the total loss of biospheric functions of aquatic ecosystems, and also their economic role. The increasing intensity of eutrophication processes and their specificity in various types of waters requires the development of special methods of control and protection of aquatic ecosystems. As a result of the high dynamism of eutrophication and its dependence on different factors (hydrological, hydrodynamic, hydrobiological, morphological, edaphic and climatic conditions), the assessment of trophic status in order to control and manage this process is very complicated. The evaluation of the consequences of anthropogenic eutrophication and the scale of its development can be provided only on the basis of systematic observation during a multi-annual period. Careful analysis of the state of knowledge on the issues related to eutrophication, especially the methods of trophic status assessment, have allowed us to conclude that at present there is no universal methodology for the assessment of the surface water trophic level, while the existing methods have various shortcomings, which reduce the reliability of the results and complicate the development of appropriate technical, organizational and legal protection measures. A critical analysis of trophic status assessment approaches for different categories of waters has also allowed us to state that there is no an appropriate method for the assessment of the trophic status of running waters, since almost all existing assessment methods are developed for lakes and coastal areas. This paper presents an original approach elaborated for the assessment of the trophic state of running waters based on the statistical analysis of long-term monitoring data and numerical criterion ITS, which allows for a simple and low-cost monitoring of eutrophication suitable for the solving of different application tasks in the field of surface water protection.

Wydawca

-

Rocznik

Tom

01

Numer

1

Opis fizyczny

p.15-21,fig.,ref.

Twórcy

  • AGH University of Science and Technology, Aleja Mickiewicza 30 (C-4), 30-059 Krakow, Poland
  • AGH University of Science and Technology, Aleja Mickiewicza 30 (C-4), 30-059 Krakow, Poland

Bibliografia

  • Bogestrand J., 2004, Phosphorus in Lakes, EEA Indicator Fact Sheet, 125 pp
  • BPRC-Bay of Plenty Regional Council: Trophic Level Index, http://monitoring.boprc.govt.nz/ Environment/Trophic-Level-Index.aspx.
  • Bricker S.B., Ferreira J.G., Simas T., 2003, An integrated methodology for assessment of estuarine trophic status, Ecological Modelling, 169, 39-60
  • Carlson R., 1975, A trophic state index for Lakes, Limnology and Oceanography, 22 (2977), 361-369
  • Cierniawska-Kusza I., 2003, Biological Water Quality Assessment of the Ścinawa Niemodlińska River Based on the Biotic Index Method, Archives of Environment Protection, 29 (1), 29-46
  • Dodds W.K., Jones J.R., Welch E.B., 1998, Suggested classification of stream trophic state: distributions of temperate stream types by chlorophyll, total nitrogen, and phosphorus, Water Research, 32 (5), 1455-1462
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  • Ferreira J.G., Andersen J., Borja A., 2011, Overview of eutrophication indicators to assess environmental status within the European Marine Strategy Framework Directive Estuarine, Coastal and Shelf Science, 93 (2), 117-131
  • GIOŚ Główny Inspektorat Ochrony Środowiska, 2010, Raport o stanie środowiska w Polsce 2008, Warszawa
  • Giovanardi F., Vollenweider R., 2004, Trophic conditions of marine coastal waters: experience in applying the Trophic Index TRIX to two areas of the Adriatic and Tyrrhenian seas, Journal of Limnology, 63 (2), 199-218
  • Helsinki Commission, Danish EPA, 2007, Testing of the draft HELCOM eutrophication assessment tool (HEAT) in 45 basins and costal water bodies of the Baltic Sea, HELCOM EUTRO-PRO 5/2007
  • Karydis M., 2009, Eutrophication assessment of coastal waters based on, Global NEST Journal, 11 (4), 373-390
  • Kowalewski Z., 2012, Weryfikacja możliwości zastosowania integralnego kryterium do oceny stanu troficznego wód, rozprawa doktorska, AGH Kraków
  • Kristensen P., Bogestrand J., 1996, Surface Water Quality Monitoring National, European Topic Center on Inland Waters, National Environmental Research Institute, Denmark
  • Lopez-Bernal K.E., 2003, Design of a watershed-based nitrogen trading system or the Big and Little Wood Rivers Watershed, Massachusetts Institute of Technology, Dept. of Civil and Environmental Engineering
  • Neverova-Dziopak E., 2010, Podstawy zarządzania procesem eutrofizacji antropogenicznej, Wydawnictwa Dydaktyczne AGH, Kraków, 131 pp
  • Smith V.H., 2007, Using primary productivity as an index of coastal eutrophication: the units of measurement matter, Journal of Plankton Research, 29 (1), 1-6
  • Soszka H., 2009, Problemy metodyczne związane z oceną stopnia eutrofizacji jezior na potrzeby wyznaczania stref wrażliwych na azotany, Woda-Środowisko-Obszary Wiejskie, 9 (1), 151-159
  • WIOŚ Wojewódzki Inspektorat Ochrony Środowiska w Krakowie, 2011, Raport o stanie środowiska w województwie małopolskim w 2010 roku, Kraków

Typ dokumentu

Bibliografia

Identyfikatory

Identyfikator YADDA

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