[Maričić S, Mijušković-Svetinović T. Lower Drava monitoring. In: Gayer J, Scheuerlein K, Starosolszky O, editors. Proceedings of International Conference on European River development ICERD; 16-18 Apr 1998; Budapest, Hungary. Budapest: Water Resources Research Centre Plc.; 1998. p. 301-8.]Search in Google Scholar
[Habuda-Stanić M, Kuleš M, Kalajdžić B, Romić Ž. Quality of groundwater in eastern Croatia. The problem of asenic pollution. Desalination 2007;210:157-62.10.1016/j.desal.2006.05.040]Search in Google Scholar
[Romić Ž, Habuda-Stanić M, Kalajdžić B, Kuleš M. Arsenic distribution, concentration and speciation in groundwater of the Osijek area, eastern Croatia. Appl Geochem 2011;26:37-44.10.1016/j.apgeochem.2010.10.013]Search in Google Scholar
[Uredba o klasifikaciji voda [Regulation on water classification, in Croatian]. Narodne novine 1998/77.]Search in Google Scholar
[Državni plan za zaštitu voda [State plan on water protection, in Croatian]. Narodne novine 1999/8.]Search in Google Scholar
[Brodnjak-Vončina D, Dobčnik D, Novič M, Zupan J. Chemometrics characterisation of the quality of river water. Anal Chim Acta 2002;462:87-100.10.1016/S0003-2670(02)00298-2]Search in Google Scholar
[Živadinović I, Olijević K, Gržetić I, Popović A. Long-term changes in eco-chemical status of the Danube River in the region of Serbia. J Serb Chem Soc 2010;75:1125-48.10.2298/JSC091102075Z]Search in Google Scholar
[Čađo S, Miletić A, Dopuđa-Glišić T, Denić Lj. Physical-chemical characteristics and phytoplankton composition of the Sava River on its lower flow stretch through Serbia. In: Proceedings 36th International Conference of IAD; 4-8 Sep 2006; Vienna-Klosterneuburg, Austria. Vienna: Austrian Committee Danube Research; 2006. p.184-8.]Search in Google Scholar
[Dragun Z, Raspor B, Roje V. The labile metal concentrations in Sava River water assessed by diffusive gradients in thin films. Chem Spec Bioavailab 2008;1:33-46.10.3184/095422908X299164]Search in Google Scholar
[European Environment Agency. Oxygen consuming substances in river [displayed 20 September 2011]. Available at http://www.eea.europa.eu/data-and-maps/indicators/oxygen-consuming-substances-in-rivers]Search in Google Scholar
[Vuković Ž, Marković Lj., Radenković M, Vuković D, Stanković S. Heavy metal and bacterial pollution of the Sava River in Serbia. Arh Hig Rada Toksikol 2011;62:11-6.10.2478/10004-1254-62-2011-205121421528]Search in Google Scholar
[Vitale K, Marijanović-Rajčić M, Senta A. Waters in Croatia between practice and needs: public health challenge. Croat Med J 2002;43:485-92.]Search in Google Scholar
[ISO 10304-1:2007; EN ISO 10304-1:2009(E). Water quality - Determination of dissolved anions by liquid chromatography of ions - Part 1: Determination of bromide, fluoride, nitrate, nitrite, phosphate and sulphate. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 14911:1998; EN ISO 14911:1999. Water quality - Determination of dissolved Li+, Na+, NH4+, K+, Mn2+, Sr2+, Ba2+, using ion chromatography - Method for water and waste water. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 5815-2:2003. Water quality - Determination of biochemical oxygen demand after n days (BODn) Part 2. Method for undiluted samples. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 8467:1993; EN ISO 8467:1995(E). Water quality - Determination of permanganate index. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[DIN 38409-2:1987-03. German standard for the examination of water, waste water and sludge; parameters characterizing effects and substances (Group H2); determination of filterable matter and the residue on ignition (H 2). Deutsches Institut für Normung E. V. Deutschland.]Search in Google Scholar
[ISO 5814:1990. Water quality - Determination of dissolved oxygen - Electrochemical probe method. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 5814:1990. Water quality - Determination of dissolved oxygen - Electrochemical probe method. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 7888:1985; EN 27888:1993(E). Water quality - Determination of electric water quality - Determination of electrical conductivity. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 10523:2008(E). Water quality - Determination of pH. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 9308-1:2000/Cor 1:2007. EN ISO 9308-1:2000/AC:2008. Water quality - Detection and enumeration of Escherichia coli and coliform bacteria - Part 1. Membrane filtration method. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[ISO 6222:2000; EN ISO 6222:1999. Water quality - Enumeration of culturable micro-organisms - Colony count by inoculation in nutrient agar culture medium. International organisation for standardization/Technical Committee ISO/TC 147/Switzerland.]Search in Google Scholar
[Mendiguchía C, Moreno C, Galindo-Riaño MD, Garcia-Vargas M. Using chemometric tools to assess anthropogenic effects in river water. A case study: Guadalquivir River (Spain). Anal Chim Acta 2004;515:143-9.]Search in Google Scholar
[Massart DL, Vandeginste BGM, Buydens LMC, De Jong S, Lewi PJ, Smeyers-Verbeke J. Handbook of Chemometrics and Qualimetrics, Part B. Amsterdam: Elsevier; 1998.]Search in Google Scholar
[Bouza-Deaño R, Ternero-Rodriguez M, Fernández-Espinosa AJ. Trend study and assesment of surface water quality in the Ebro River (Spain). J Hydrol 2008;361:227-39.10.1016/j.jhydrol.2008.07.048]Search in Google Scholar
[World Health Organisation (WHO). Water Quality Assessments - A Guide to Use of Biota, Sediments and Water in Environmental Monitoring - Second Edition [displayed 20 September 2011]. Available at http://www.who.int/water_sanitation_health/resourcesquality/watqualassess.pdf]Search in Google Scholar
[Halamić J, Galović L, Šparica M. Heavy metal (As, Cd, Cu, Hg, Pb and Zn) distribution in topsoil developed on alluvial sediments of the Drava and Sava rivers in NW Croatia. Geol Croat 2003;56:215-32.10.4154/GC.2003.14]Search in Google Scholar
[Romić M, Romić D. Heavy metals distribution in agricultural topsoils in urban area. Environ Geol 2003;43:795-805.10.1007/s00254-002-0694-9]Search in Google Scholar
[Stringfellow WT, Hanlon JS, Borglin ES, Quinn NWT. Comparison of wetland and agriculture drainage as sources of biochemical oxygen demand to the San Joaquin River, California. Agric Water Management 2008;95:527-38.10.1016/j.agwat.2007.12.007]Search in Google Scholar
[Miljušković-Svetinović T, Maričić S, Tušar B. The wastewater of the city of Osijek. In: Bednarczyk S, Szymkiewicz R, Suligowski Z, editors. Proceedings of the VII International Symposium on Water Management and Hydraulic Engineering; 10-12 Sep 2001. Miedzybrodzie Zywieckie, Poland. Gdansk: Faculty of Hydro and Environmental Engineering, Technical University of Gdansk; 2001. p. 336-42.]Search in Google Scholar
[Michalski R, Kurzyca I. Determination of nitrogen species (nitrate, nitrite and ammonia ions) in environmental samples by ion chromatography. Pol J Environ Stud 2006;1:5-18.]Search in Google Scholar
[Coletti C, Testezlaf R, Ribeiro TAP, Souza RTG, Pereira DA. Water quality index using multivariate factorial analysis. Rev Bras Eng Ageic Ambient 2010;14:517-22.10.1590/S1415-43662010000500009]Search in Google Scholar
[Milovanović M. Water quality assessment and determination of pollution sources along the Axios/Vardar River, southeastern Europe. Desalination 2007;213:159-73.10.1016/j.desal.2006.06.022]Search in Google Scholar
