APPLICATION OF PRIORITISATION METHOD AND EVALUATION OF VULNERABILITY OF DANUBE SURFACE WATER IN THE CITY OF NOVI SAD
DOI:
https://doi.org/10.24867/16HZ01SeocanacKeywords:
emerging substances, prioritization methods, Danube, vulnerability assessment, surface water qualityAbstract
The paper provides an insight into the occurrence, distribution, ecotoxicological risk of emerging and priority pollutants present in the surface water of the Danube examined during the flow through the city of Novi Sad. Based on literature data, which show examples of prioritization methods and vulnerability assessment, as well as calculation data, it is possible to see the quality of surface waters based on which appropriate regulatory measures can be implemented and the possibility of determining adequate management of the Danube River Basin.
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[4]https://www.hbm4eu.eu/the-substances/emerging-substances/ (pristupljeno u avgustu 2021.)
[5]http://www.norman-network.net/index_php.php (pristupljeno u avgustu 2021.)
[6] M. Miloradov, M. Turk Sekulić, J. Radonić, N. Milić, N. Grujić Letić, I. Mihajlović, M. Milanović, “Industrijske emergentne hemikalije u životnom okruženju”, Hemijska Industrija, Vol. 68, pp. 51 – 62, 2014.
[7] M. Miloradov, M. Turk Sekulić, J. Radonić, J. Kiurski, D. Milovanović, I. Spanik, I. Mihajlović, “Pseudopersistent pollutant in the environment: Emerging substances”, XVII International Symposium on Analytical and Environmental Problems, Szeged, Hungary, 2011, Proceedings. pp.180 – 184,2011.
[8] K. Daginnus, S. Gottardo, A. Payá-Pérez, P. Whitehouse, H. Wilkinson, J.M. Zaldívar, “A modelling approach for the prioritization of chemicals under the Water Framework Directive” JRC Scientific and Techical Reports, Vol. 8, pp. 435 – 455, 2011.
[9] K.O. Ozgun, B. Basak, C. Eropak, S. Abat, G. Kirim, E. Girgin, A. Hanedar, E. Gunes, E. Citil, E. Gorgun, Y.C. Gomec, G.F. Babuna, S. Ovez, A. Tanik, I. Ozturk, C. Kinaci, Y. Karaaslan, M.S. Gucver, E. Siltu, K.A. Orhon, “Prioritization methodology of dangerous substances for water quality monitoring with scarce data”, Clean. Technol. Environ. Policy, Vol.19, pp. 105-122, 2016.
[10] P.C. von der Ohe, V. Dulio, J. Slobodnik, E. De Deckere, R. Kühne, R.U. Ebert, A. Ginebreda, W. De Cooman, G. Schüürmann, W. Brack, “A new risk assessment approach for the prioritization of 500 classical and emerging organic microcontaminants as potential river basin specific pollutants under the European Water Framework Directive”, Sci. Total Environ, Vol. 409, pp. 2064 – 2077, 2011.
[11] M. Kuzmanović, A. Ginebreda, M. Petrović, D. Barcelo, “Risk assessment based prioritization of 200 organic micropollutants in 4 Iberian rivers”, Sci. Total Environ, Vol. 289, pp. 503 – 504, 2015.
[12] K. Booij, B. Vrana, J.N. Huckins, “Theory, modelling and calibration of passive samplers used in water monitoring: Chapter 7”, Amsterdam, Elsevier Science, 2007.
[13] F.S. Alavipoor, Z. Ghorbaninia, S. Karimi, H. Jafari, “Surface Water Contamination Risk Assessment Modeled by Fuzzy‐WRASTIC”, Water Environ. Res, Vol. 88, pp. 589 – 601, 2016.
[14] K. Williams, “Source Water Assessment and Protection Program”, United States Environmental Protection Agency, 2000.
[15] C. Diamantino, M.J. Henriques, M.M. Oliveira, J.P.L. Ferreira, “Methodologies for pollution risk assessment of water resources systems”, Water in Celtic Countries: Quantity, Quality and Climate Variability, pp. 298-306, 2007.
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Published
2022-03-04
Issue
Section
Environment and Occupational Safety Engineering
