This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
International Atomic Energy Agency (IAEA). IAEA Safety Glossary: 2018 Edition [displayed 22 April 2021]. Available at https://www-pub.iaea.org/MTCD/Publications/PDF/PUB 1830_web.pdfInternational Atomic Energy Agency (IAEA)2018Edition [displayed 22 April 2021]. Available athttps://www-pub.iaea.org/MTCD/Publications/PDF/PUB1830_web.pdfSearch in Google Scholar
Rutherford PM, Dudas MJ, Samek RA. Environmental impacts of phosphogypsum. Sci Total Environ 1994;149:1–38. doi: 10.1016/0048-9697(94)90002-7RutherfordPMDudasMJSamekRAEnvironmental impacts of phosphogypsum19941491–3810.1016/0048-9697(94)90002-7Open DOISearch in Google Scholar
International Atomic Energy Agency (IAEA). Radiation Protection and Management of NORM Residues in the Phosphate Industry. No. 78, 2013 [displayed 22 April 2021]. Available at https://www-pub.iaea.org/MTCD/Publications/PDF/ Pub1582_web.pdfInternational Atomic Energy Agency (IAEA)2013[displayed 22 April 2021]. Available athttps://www-pub.iaea.org/MTCD/Publications/PDF/Pub1582_web.pdfSearch in Google Scholar
United States Environmental Protection Agency (US EPA). Technologically Enhanced Naturally Occurring Radioactive Materials (TENORM). US EPA [displayed 22 April 2021]. Available at https://www.epa.gov/radiation/technologically-enhanced-naturally-occurring-radioactive-materials-tenormUnited States Environmental Protection Agency (US EPA)2021Available athttps://www.epa.gov/radiation/technologically-enhanced-naturally-occurring-radioactive-materials-tenormSearch in Google Scholar
Marović G, Senčar J. 226Ra and possible water contamination due to phosphate fertilizer production. J Radioanal Nucl Chem 1995;200:9–18. doi: 10.1007/BF02164816MarovićGSenčarJ226Ra and possible water contamination due to phosphate fertilizer production199520091810.1007/BF02164816Open DOISearch in Google Scholar
Saadaoui E, Ghazel N, Ben Romdhane C, Massoudi N. Phosphogypsum: potential uses and problems-a review. Int J Environ Stud 2 0 1 7 ; 7 4 : 5 5 8 – 6 7 . doi: 10.1080/00207233.2017.1330582SaadaouiEGhazelNBenRomdhane CMassoudiNPhosphogypsum: potential uses and problems-a review2 0 1 7 ; 7 4 : 5 5 8 – 6 710.1080/00207233.2017.1330582Open DOISearch in Google Scholar
Bituh T, Vučić Z, Marović G, Prlić I. A new approach to determine the phosphogypsum spread from the deposition site into the environment. J Hazard Mater 2013;261:584–92. doi: 10.1016/j.jhazmat.2013.08.012BituhTVučićZMarovićGPrlićIA new approach to determine the phosphogypsum spread from the deposition site into the environment20132615849210.1016/j.jhazmat.2013.08.012Open DOISearch in Google Scholar
Bituh T, Marović G, Franić Z, Senčar J, Bronzović M. Radioactive contamination in Croatia by phosphate fertilizer production. J Hazard Mater 2009;162:1199–203. doi: 10.1016/j.jhazmat.2008.06.005BituhTMarovićGFranićZSenčarJBronzovićMRadioactive contamination in Croatia by phosphate fertilizer production2009162119920310.1016/j.jhazmat.2008.06.005Open DOISearch in Google Scholar
Schroeyers W, editor. Naturally Occurring Radioactive Materials in Construction: Integrating Radiation Protection in Reuse (COST Action TU1301 NORM4BUILDING), 2017, Cambridge: Woodhead Publishing; 2017.SchroeyersWeditor2017CambridgeWoodhead Publishing201710.1016/B978-0-08-102009-8.00001-3Search in Google Scholar
Odluka o donošenju Nacionalnog programa provedbe Strategije zbrinjavanja radioaktivnog otpada, iskorištenih izvora i istrošenog nuklearnog goriva (Program za razdoblje do 2025. godine s pogledom do 2060. godine) [National program on implementation of Radioactive Waste, Disused Sources and Spent Nuclear Fuel Disposal Strategy In Croatia (Program for period until 2025 with overview on 2060), in Croatian]. Narodne novine 100/2018.Odluka o donošenju Nacionalnog programa provedbe Strategije zbrinjavanja radioaktivnog otpada, iskorištenih izvora i istrošenog nuklearnog goriva (Program za razdoblje do 2025. godine s pogledom do 2060. godine) [National program on implementation of Radioactive Waste, Disused Sources and Spent Nuclear Fuel Disposal Strategy In Croatia (Program for period until 2025 with overview on 2060), in Croatian]1002018Search in Google Scholar
Bituh T, Petrinec B, Skoko B, Vučić Z, Marović G. Measuring and modelling the radiological impact of a phosphogypsum deposition site on the surrounding environment. Arh Hig Rada Toksikol 2015;66:31–40. doi: 10.1515/aiht-2015-66-2587BituhTPetrinecBSkokoBVučićZMarovićGMeasuring and modelling the radiological impact of a phosphogypsum deposition site on the surrounding environment201566314010.1515/aiht-2015-66-2587Open DOISearch in Google Scholar
Tayibi H, Choura M, López FA, Alguacil FJ, López-Delgado A. Environmental impact and management of phosphogypsum. J Environ Manage 2009;90:2377–86. doi: 10.1016/j. jenvman.2009.03.007TayibiHChouraMLópezFA,AlguacilFJLópez-DelgadoAEnvironmental impact and management of phosphogypsum20099023778610.1016/j.jenvman.2009.03.007Open DOISearch in Google Scholar
Rutherford PM, Dudas MJ, Arocena JM. Heterogeneous distribution of radionuclides, barium and strontium in phosphogypsum by-product. Sci Total Environ 1996;180:201–9. doi: 10.1016/0048-9697(95)04939-8RutherfordPMDudasMJArocenaJMHeterogeneous distribution of radionuclides, barium and strontium in phosphogypsum by-product1996180201–910.1016/0048-9697(95)04939-8Open DOISearch in Google Scholar
Mas JL, San Miguel EG, Bolívar JP, Vaca F, Perez-Moreno JP. An assay on the effect of preliminary restoration tasks applied to a large TENORM wastes disposal in the south-west of Spain. Sci Total Environ 2006;364:55–66. doi: 10.1016/j. scitotenv.2005.11.006MasJLSanMiguel EGBolívarJPVacaFPerez-MorenoJPAn assay on the effect of preliminary restoration tasks applied to a large TENORM wastes disposal in the south-west of Spain2006364556610.1016/j.scitotenv.2005.11.00616343599Open DOISearch in Google Scholar
Bolívar JP, Martín JE, García-Tenorio R, Pérez-Moreno JP, Mas JL. Behaviour and fluxes of natural radionuclides in the production process of a phosphoric acid plant. Appl Radiat Isot 2009;67:345–56. doi: 10.1016/j.apradiso.2008.10.012BolívarJPMartínJEGarcía-TenorioRPérez-MorenoJPMasJLBehaviour and fluxes of natural radionuclides in the production process of a phosphoric acid plant2009673455610.1016/j.apradiso.2008.10.012Open DOISearch in Google Scholar
Beretka J, Mathew PJ. Natural radioactivity of Australian building materials, industrial wastes and by-products. Health Phys 1985;48:87–95. doi: 10.1097/00004032-198501000-00007BeretkaJMathewPJNatural radioactivity of Australian building materials, industrial wastes and by-products198548879510.1097/00004032-198501000-00007Open DOISearch in Google Scholar
Szajerski P. Distribution of uranium and thorium chains radionuclides in different ractions of phosphogypsum grains. Environ Sci Pollut Res 2020;27:15856–15868. doi: 10.1007/s11356-020-08090-ySzajerskiPDistribution of uranium and thorium chains radionuclides in different ractions of phosphogypsum grains202027158561586810.1007/s11356-020-08090-yOpen DOISearch in Google Scholar
Trevisi R, Risica S, D’Alessandro M, Paradiso D, Nuccetelli C. Natural radioactivity in building materials in the European Union: a database and an estimate of radiological significance. J Environ Radioact 2012;105:11–20. doi: 10.1016/j. jenvrad.2011.10.001TrevisiRRisicaSD’AlessandroM,ParadisoDNuccetelliCNatural radioactivity in building materials in the European Union: a database and an estimate of radiological significance2012105112010.1016/j.jenvrad.2011.10.001Open DOISearch in Google Scholar
Kuzmanović P, Todorović N, Forkapić S, Petrović LF, Knežević J, Nikolov J, Miljević B. Radiological characterization of phosphogypsum produced in Serbia. Radiat Phys Chem 2020;166:108463. doi: 10.1016/j. radphyschem.2019.108463KuzmanovićPTodorovićNForkapićSPetrovićLFKneževićJNikolovJMiljevićBRadiological characterization of phosphogypsum produced in Serbia202016610846310.1016/j.radphyschem.2019.108463Open DOISearch in Google Scholar
Roper AR, Stabin MG, Delapp RC, Kosson DS. Analysis of naturally-occurring radionuclides in coal combustion fly ash, gypsum, and scrubber residue samples. Health Phys 2013;104:264–9. doi: 10.1097/HP.0b013e318279f3bfRoperARStabinMGDelappRCKossonDSAnalysis of naturally-occurring radionuclides in coal combustion fly ash, gypsum, and scrubber residue samples2013104264910.1097/HP.0b013e318279f3bfOpen DOISearch in Google Scholar
Hull CD, Burnett WC. Radiochemistry of Florida phosphogypsum. J Environ Radioact 1996;32:213–38. doi: 10.1016/0265-931X(95)00061-EHullCDBurnettWCRadiochemistry of Florida phosphogypsum1996322133810.1016/0265-931X(95)00061-EOpen DOISearch in Google Scholar
Ishimori Y, Lange K, Martin P, Mayya YS, Phaneuf M. Measurement and Calculation of Radon Releases from NORM Residues. Techn Rep Ser No. 474, 2013 [displayed 22 April 2021]. Available at https://www-pub.iaea.org/MTCD/Publications/PDF/trs474_webfile.pdfIshimoriYLangeKMartinPMayyaYSPhaneufM2013[displayed 22 April 2021]. Available athttps://www-pub.iaea.org/MTCD/Publications/PDF/trs474_webfile.pdfSearch in Google Scholar
United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR). Sources and Effects of Ionizing Radiation - Annex B. Exposures from natural radiation sources. Vol. I. New York: Unitet Nations; 2010.United Nations Scientific Committee on the Effects of Atomic Radiation (UNSCEAR)New YorkUnitet Nations2010Search in Google Scholar
Kovler K. Radioactive materials. Chapter 8. In: Torgal FP, Jalali S, Fucic A, editors. Toxicity of building material. Cambridge: Woodhead Publishing Limited; 2012, p. 196–240.KovlerKRadioactive materials. Chapter 8InTorgalFPJalaliSFucicAeditorsCambridgeWoodhead Publishing Limited2012p196–24010.1533/9780857096357.196Search in Google Scholar
Pérez-López R, Nieto JM, López-Coto I, Aguado JL, Bolívar JP, Santisteban M. Dynamics of contaminants in phosphogypsum of the fertilizer industry of Huelva (SW Spain): From phosphate rock ore to the environment. Appl Geochemistry 2010;25:705–15. doi: 10.1016/j. apgeochem.2010.02.003Pérez-LópezRNietoJMLópez-CotoIAguadoJLBolívarJPSantistebanMDynamics of contaminants in phosphogypsum of the fertilizer industry of Huelva (SW Spain): From phosphate rock ore to the environment2010257051510.1016/j.apgeochem.2010.02.003Open DOISearch in Google Scholar
Zmemla R, Chaurand P, Benjdidia M, Elleuch B, Yves J. Characterization and pH dependent leaching behavior of Tunisian phosphogypsum. Am Sci Res J Eng Technol Sci 2016;24:230–44.ZmemlaRChaurandPBenjdidiaMElleuchBYvesJCharacterization and pH dependent leaching behavior of Tunisian phosphogypsum20162423044Search in Google Scholar
Franković Mihelj N, Ukrainczyk N, Leaković S, Šipušić J. Waste phosphogypsum - Toward sustainable reuse in calcium sulfoaluminate cement based building materials. Chem Biochem Eng Q 2013;27:219–26.FrankovićMihelj NUkrainczykNLeakovićSŠipušićJWaste phosphogypsum - Toward sustainable reuse in calcium sulfoaluminate cement based building materials20132721926Search in Google Scholar
Leaković S, Lisac H, Vukadin R. Primjena industrijskog otpada CaF2 u procesu ozelenjivanja odlagališta fosfogipsa [Application of industrial waste CaF2 for vegetative covering of phosphogypsum disposal site, in Croatian]. Kem Ind 2012;61:505–12. doi: 10.15255/KUI.2012.001LeakovićSLisacHVukadinRPrimjena industrijskog otpada CaF2 u procesu ozelenjivanja odlagališta fosfogipsa [Application of industrial waste CaF2 for vegetative covering of phosphogypsum disposal site, in Croatian]2012615051210.15255/KUI.2012.001Open DOISearch in Google Scholar
Hilton J. Towards a management and regulatory strategy for phosphoric acid and phosphogypsum as co-products. In: Naturally Occurring Radioactive Material (NORM V) Proceedings of an international symposium; 19–22 March 2007; Seville, Spain. Vienna: IAEA; p. 281–95.HiltonJTowards a management and regulatory strategy for phosphoric acid and phosphogypsum as co-productsIn2007Seville, Spain. ViennaIAEAp281–95Search in Google Scholar
Kovler K, Perevalov A, Steiner V, Rabkin E. Determination of the radon diffusion length in building materials using electrets and activated carbon. Health Phys 2004;86:505–16. doi: 10.1097/00004032-200405000-00007KovlerKPerevalovASteinerVRabkinEDetermination of the radon diffusion length in building materials using electrets and activated carbon2004865051610.1097/00004032-200405000-0000715083146Open DOISearch in Google Scholar
Kovler K. Measurements of radon exhalation rate for monitoring cement hydration. Mat Struct 2007;40:419–30. doi:10.1617/s11527-006-9149-1KovlerKMeasurements of radon exhalation rate for monitoring cement hydration2007404193010.1617/s11527-006-9149-1Open DOISearch in Google Scholar
Pravilnik o praćenju stanja radioaktivnosti u okolišu [Ordinance on environmental monitoring of radioactivity, in Croatian]. Narodne novine 40/2018.Pravilnik o praćenju stanja radioaktivnosti u okolišu [Ordinance on environmental monitoring of radioactivity, in Croatian]402018Search in Google Scholar
European Commission (EC). Radiological protection principles concerning the natural radioactivity of building materials. Radiation Protection 112. Luxembourg: EC; 1999.European Commission (EC)Luxembourg: EC1999Search in Google Scholar
Abril JM, García-Tenorio R, Enamorado SM, Hurtado MD, Andreu L, Delgado A. The cumulative effect of three decades of phosphogypsum amendments in reclaimed marsh soils from SW Spain: 226Ra, 238U and Cd contents in soils and tomato fruit. Sci Total Environ 2008;403:80–8. doi: 10.1016/j.scitotenv.2008.05.013AbrilJMGarcía-TenorioREnamoradoSMHurtadoMDAndreuLDelgadoAThe cumulative effect of three decades of phosphogypsum amendments in reclaimed marsh soils from SW Spain: 226Ra, 238U and Cd contents in soils and tomato fruit200840380810.1016/j.scitotenv.2008.05.01318602676Open DOISearch in Google Scholar
Papastefanou C, Stoulos S, Ioannidou A, Manolopoulou M. The application of phosphogypsum in agriculture and the radiological impact. J Environ Radioact 2006;89:188–98. doi: 10.1016/j.jenvrad.2006.05.005PapastefanouCStoulosSIoannidouAManolopoulouMThe application of phosphogypsum in agriculture and the radiological impact2006891889810.1016/j.jenvrad.2006.05.00516806608Open DOISearch in Google Scholar
Mesić M, Brezinščak L, Zgorelec Ž, Perčin A, Šestak I, Bilandžija D, Trdenić M, Lisac H. The application of phosphogypsum in agriculture. Agric Conspec Sci 2016;81:7–13.MesićMBrezinščakLZgorelecŽPerčinAŠestakIBilandžijaDTrdenićMLisacHThe application of phosphogypsum in agriculture2016817–13Search in Google Scholar
Elloumi N, Zouari M, Chaari L, Abdallah F Ben, Woodward S, Kallel m. Effect of phosphogypsum on growth, physiology, and the antioxidative defense system in sunflower seedlings. Environ Sci Pollut Res Int 2015;22:14829–40. doi: 10.1007/s11356-015-4716-zElloumiNZouariMChaariLAbdallahF BenWoodwardSKallelmEffect of phosphogypsum on growth, physiology, and the antioxidative defense system in sunflower seedlings201522148294010.1007/s11356-015-4716-z25994270Open DOISearch in Google Scholar
Enamorado S, Abril JM, Delgado A, Más JL, Polvillo O, Quintero JM. Implications for food safety of the uptake by tomato of 25 trace-elements from a phosphogypsum amended soil from SW Spain. J Hazard Mater 2014;266:122–31. doi: 10.1016/j.jhazmat.2013.12.019EnamoradoSAbrilJMDelgadoAMásJL,PolvilloOQuinteroJMImplications for food safety of the uptake by tomato of 25 trace-elements from a phosphogypsum amended soil from SW Spain20142661223110.1016/j.jhazmat.2013.12.01924389006Open DOISearch in Google Scholar
Council Directive 2013/59/Euratom of 5 December 2013 laying down basic safety standards for protection against the dangers arising from exposure to ionising radiation, and repealing Directives 89/618/Euratom, 90/641/Euratom, 96/29/Euratom, 97/43/Euratom and 2003/122/Euratom [displayed 22 April 2021]. Available at http://eur-lex.europa.eu/Lex Uri Serv/Lex Uri Serv.do?uri=OJ:L:2014:013:FULL:EN:PDFCouncil Directive 2013/59/Euratom of 5 December 2013 laying down basic safety standards for protection against the dangers arising from exposure to ionising radiation, and repealing Directives 89/618/Euratom, 90/641/Euratom, 96/29/EuratomAvailable athttp://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2014:013:FULL:EN:PDFSearch in Google Scholar
Pravilnik o uvjetima i mjerama zaštite od ionizirajućeg zračenja za obavljanje djelatnosti s izvorima ionizirajućeg zračenja [Ordinance on the conditions and measures of ionising radiation protection for performing activities involving ionising radiation sources, in Croatian]. Narodne novine 53/2018.Pravilnik o uvjetima i mjerama zaštite od ionizirajućeg zračenja za obavljanje djelatnosti s izvorima ionizirajućeg zračenja [Ordinance on the conditions and measures of ionising radiation protection for performing activities involving ionising radiation sources, in Croatian]532018Search in Google Scholar
Strategija zbrinjavanja radioaktivnog otpada, iskorištenih izvora i istrošenog nuklearnog goriva [Radioactive waste, disused sources and spent nuclear fuel disposal strategy, in Croatian]. Narodne novine 125/2014.Strategija zbrinjavanja radioaktivnog otpada, iskorištenih izvora i istrošenog nuklearnog goriva [Radioactive waste, disused sources and spent nuclear fuel disposal strategy, in Croatian]1252014Search in Google Scholar
Plan gospodarenja otpadom u Republici Hrvatskoj za razdoblje 2007.–2015. godine [Waste management plan of the Republic of Croatia for 2007–2015, in Croatian]. Narodne novine 85/2007; 126/2010; 31/2011; 46/2015.Plan gospodarenja otpadom u Republici Hrvatskoj za razdoblje2007–2015. godine [Waste management plan of the Republic of Croatia for 2007–2015, in Croatian]852007126/2010; 31/2011; 46/2015Search in Google Scholar
Odluka o donošenju Plana gospodarenja otpadom Republike Hrvatske za razdoblje 2017.–2022. godine [Waste management plan of the Republic of Croatia for the Period 2017–2022, in Croatian]. Narodne novine 3/2017.Odluka o donošenju Plana gospodarenja otpadom Republike Hrvatske za razdoblje2017–2022. godine [Waste management plan of the Republic of Croatia for the Period 2017–2022, in Croatian]32017Search in Google Scholar
Council Directive 2016/52/Euratom of 15 January 2016 laying down maximum permitted levels of radioactive contamination of food and feed following a nuclear accident or any other case of radiological emergency, and repealing Regulation (Euratom) No 3954/87 and Commission Regulations (Euratom) No 944/89 and (Euratom) No 770/90 [displayed 31 May 2021]. Available at https://eur-lex.europa.eu/legal-content/hr/TXT/?uri=CELEX%3A32016R0052Available athttps://eur-lex.europa.eu/legal-content/hr/TXT/?uri=CELEX%3A32016R0052Search in Google Scholar
Pravilnik o obavješćivanju, registriranju i odobrenjima te prometu izvorima ionizirajućeg zračenja [Ordinance on notification, registration, approval and placing on the market of sources of ionising radiation, in Croatian]. Narodne novine 54/2018.Pravilnik o obavješćivanju, registriranju i odobrenjima te prometu izvorima ionizirajućeg zračenja [Ordinance on notification, registration, approval and placing on the market of sources of ionising radiation, in Croatian]542018Search in Google Scholar