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2022, vol. 63, br. 1, str. 58-67
Multi-elementalna analiza realnih uzoraka vode sa teritorije Požege, Srbija
aUniverzitet u Beogradu, Poljoprivredni fakultet, Odsek/institut za prehrambenu tehnologiju i biohemiju
bUniverzitet u Beogradu, Rudarsko-geološki fakultet, Geološki odsek, Smer za hidrogeologiju
cUniverzitet u Beogradu, Institut za hemiju, tehnologiju i metalurgiju - IHTM

e-adresapantelic@agrif.bg.ac.rs
Projekat:
Ministarstvo prosvete, nauke i tehnološkog razvoja Republike Srbije (institucija: Univerzitet u Beogradu, Poljoprivredni fakultet) (MPNTR - 451-03-68/2020-14/200116)

Ključne reči: mikroelementi; makroelementi; kvalitet vode; ICP-OES analiza; vodovodni sistem; Požega
Sažetak
Cilj ovog rada bio je ispitivanje kvaliteta realnih uzoraka vode za piće, prikupljenih sa teritorije grada Požege i okolnih seoskih naselja. Za određivanje koncentracije makro i mikroelemenata u uzorcima vode korišćena je analitička tehnika induktivno kuplovana plazma sa optičkom emisionom spektrometrijom, ICP-OES. Dobijeni rezultati upoređivani su sa maksimalno dozvoljenim kocentracijama elemenata propisanim nacionalnim Pravilnikom o higijenskoj ispravnosti vode za piće, kao i preporukama Svetske zdravstvene organizacije (WHO) i Američke agencije za zaštitu životne sredine (EPA). Analizirane vode su malomineralizovane (<1000 mg/L), kalcijumskog tipa i sa niskim sadržajem natrijuma. Sadržaj svih ispitivanih elemenata u uzorcima vode bio je u granicama dozvoljenih vrednosti. Konstatovano je da postoje očigledne razlike u makro i mikrokomponentnom hemijskom sastavu između uzoraka površinske vode i uzoraka podzemne vode. Ispitivane vode mogu bezbedno da se koriste u meliorativne svrhe, jer je rizik od zasoljavanja zemljišta, nagomilavanja natrijuma i štetnog uticaja bora na biljne kulture procenjen kao neznatan.
Reference
*** (1998-2019) The regulation on hygienic quality of drinking water. Službeni list SRJ, 42/98, 44/99 i 28/2019
*** (2013) The regulation on quality and other requirements for natural mineral water, natural spring water and table water. Official Gazette, 43
A.Kabata-Pendias,, A.B.Mukherjee (2007) Trace Elements from Soil to Human. Berlin: Springer-Verlag
Agency For Toxic Substances And Disease Registry Atsdr (2004) Toxicological Profile for Cobalt. Atlanta, GA: U.S. Public Health Service
Bauder, T.A., Waskom, R.M., Sutherland, P.L., Davis, J.G. (2011) Irrigation water quality criteria. Colorado State University Extension Publication, Crop series/irrigation. Fact Sheet, 506(0): 44-44
Birke, M., Reimann, C., Demetriades, A., Rauch, U., Lorenz, H., Harazim, B., Glatte, W. (2010) Determination of major and trace elements in European bottled mineral water - Analytical methods. Journal of Geochemical Exploration, 107: 217-226
Boyd, C.E. (2015) An Overview of Hydrology and Water Supply. u: Water Quality, Switzerland: Springer International Publishing, 21-40
California Environmental Protection Agency Calepa (1997) Technical Support Document for the Determination of Noncancer Chronic Reference Exposure Levels. Draft for Public Comment. Berkeley, CA: Office of Environmental Health Hazard Assessment
Concha, G., Eneroth, H., Hallström, H., Sand, S. (2013) Contaminants and minerals in foods for infants and young children. Part 2: Risk and Benefit Assessment. u: Livsmedelsverkets rapportserie, Uppsala, Sweden: National Food Agency, 1
Dragišić, V., Živanović, V. (2014) General Hydrogeology. Belgrade: Faculty of Mining and Geology
Dragišić, V., Polomčić, D. (2009) Hydrogeological Dictionary. Belgrade: Faculty of Mining and Geology
Food Standards Agency (2003) Upper Levels for Vitamins and Minerals, Expert Group on Vitamins and Minerals. http://cot.food.gov.uk/pdfs/vitmin2003.pdf
Hitchon, B. (1999) Introduction to Ground Water Geochemistry. Alberta, Canada: Geoscience Publishing Ltd
Jović, V., Jovanović, L. (2004) Geochemical Fundamentals of Environmental Management. Belgrade: Society for Dissemination and Application of Science, 216
Kabata-Pendias, A., B.Szteke (2015) Trace Elements in Abiotic and Biotic Environments. Boca Raton: CRC Press Taylor & Francis Group, Fourth Edition
Koraćević, D., Bjelaković, G., Đorđević, V., Nikolić, J., Pavlović, D., Kocić, G. (2003) Biochemistry. Belgrade: Savremena administracija
Kostić, A.Ž., Pantelić, N.Đ., Kaluđerović, L., Jonaš, J., Dojčinović, B.P., Popović-Djordjević, J. (2016) Physicochemical Properties of Waters in Southern Banat (Serbia); Potential Leaching of Some Trace Elements from Ground and Human Health Risk. Exposure and Health, 8(2): 227-238
Leščešen, I., Dolinaj, D., Pantelić, M., Savić, S., Milošević, D. (2018) Statistical Analysis of Water Quality Parameters in Seven Major Serbian Rivers during 2004-2013 Period. Water Resources, 45(3): 418-426
Maloparac, I., Pantelić, N. (2017) Study of selected physicochemical parameters in real water samples of the Zlatibor area, Serbia. u: Proceedings of the Conference of agronomy students, with international participation, Čačak, 10(10), 344-349
Pan, J., Plant, J.A., Voulvoulis, N., Oates, C.J., Ihnelfeld, C. (2010) Cadmium levels in Europe: Implications for human health, Environmental Geochemistry Health. 32: 1-12
Pantelić, N.Đ., Jaćimović, S., Štrbački, J., Milovanović, D.B., Dojčinović, B.P., Kostić, A.Ž. (2019) Assessment of spa mineral water quality from Vrnjačka Banja, Serbia: geochemical, bacteriological, and health risk aspects. Environmental Monitoring and Assessment, 191(11): 648-648
Pantelić, N.Đ., Dramićanin, A.M., Milovanović, D.B., Popović-Djordjević, J.B., Kostić, A.Ž. (2017) Evaluation of the quality of drinking water in Rasina district, Serbia: Physicochemical and bacteriological
Perelman, A.I. (1972) Geochemistry of elements in the hypergenesis zone. Moscow: Nedra
Rajković, M.B., Stojanović, M., Milojković, S. (2015) Investigation of drinking water quality from the individual wells from the Dubravica village in Braničevo district. Zaštita materijala, vol. 56, br. 2, str. 213-223
Reimann, C., Birke, M. (2010) Geochemistry of European Bottled Water. Stuttgart: Borntraeger Science Publishers, 268 pp
Richards, L.A. (1954) Diagnosis and Improvement of Saline and Alkali Soils. Washington, DC: United States Department of Agriculture
Scheer, J.F. (1997) Silica: Health and beauty from nature. Better Nutrition, 59(12): 1-38
Stojanović, Z.S., Švarc-Gajić, J.V., Đorđević, M.Z., Grahovac, N.L., Vasin, J.R., Đurović, A.D., Kravić, S.Ž. (2015) Study on the quality of ground, spring and river waters in South-East Serbia. Hemijska industrija, 69(2), 185-192
Stojiljković, D., Zdravić, V., Šekularac, G. (2003) Health aspects of bottled water quality. Chronicle of scientific papers of the Faculty of Agriculture, 27(1): 185-188
Veljković, N., Jovičić, M. (2015) Availability and use of water resources in Serbia, Serbian Water Book -in the period of adaptation to climate change. Environmental Protection Agency of the Republic of Serbia, 32-54
Veljković, N., Jovičić, M. (2015) Quality of water resources in Serbia, Serbian Water Book -in the period of adaptation to climate change. Environmental Protection Agency of the Republic of Serbia, 54-84
Wilcox, L.V. (1995) Classification and Use of Irrigation Waters. Washington, DC: US Department of Agriculture
World Health Organization W.H.O. (2017) Guidelines for drinking-water quality: Fourth edition incorporating the first addendum. Geneva
Zaman, M., Shahid, S.A., Heng, L. (2018) Irrigation Water Quality, Guideline for Salinity Assessment, Mitigation and Adaptation Using Nuclear and Related Techniques. Switzerland: Springer
 

O članku

jezik rada: engleski
vrsta rada: naučni članak
DOI: 10.5937/zasmat2201058P
primljen: 02.10.2021.
prihvaćen: 05.11.2021.
objavljen u SCIndeksu: 10.03.2022.
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