References

  1. K. Belowska-Bień, Z. Zdrojewicz, Phthalates-structure, activity, clinical meaning, Adv. Clin. Exp. Med., 15 (2006) 677.
  2. C.A. Stales, D.R. Peterson, T.F. Parkerton, W.J. Adams, The environmental fate of phthalate esters: a literature review, Chemosphere, 35 (1997) 667–749.
  3. K.M. Gani, V.K. Tyagi, A.A. Kazmi, Occurrence of phthalates in aquatic environment and their removal during wastewater treatment processes: a review, Environ. Sci. Pollut. Res., 24 (2017) 17267–17284.
  4. J. Rivera-Utrilla, R. Ocampo-Pérez, J.D. Méndez-Díaz, M. Sánchez-Polo, Environmental impact of phthalic acid esters and their removal from water and sediments by different technologies–a review, J. Environ. Manage., 109 (2012) 164–178.
  5. C. Lassen, J. Maag, J.B. Hubschmann, E. Hansen, A. Searl, E. Doust, C. Corden, Data on Manufacture, Import, Export, Uses and Releases of Bis(2-ethylhexyl)phthalate (DEHP) as well as Information on Potential Alternatives to its Use, COWI A/S, IOM and Entec UK Ltd., 2009.
  6. O.O. Olujimi, O.S. Fatoki, J.P. Odendaal, J.O. Okonkwo, Endocrine disrupting chemicals (phenol and phthalates) in the South African environment: a need for more monitoring, Water SA, 36 (2010) 671–682.
  7. D.W. Gao, Z.D. Wen, Phthalate esters in the environment: A critical review of their occurrence, biodegradation, and removal during wastewater treatment processes, Sci. Total Environ., 541 (2016) 986–1001.
  8. T. Ferreira de Oliveira, O. Chedeville, B. Cagnon, H. Fauduet, Degradation kinetics of DEP in water by ozone/activated carbon process: Influence of pH, Desalination, 269 (2011) 271–275.
  9. A. Bergé, M. Cladière, J. Gasperi, A. Coursimault, B. Tassin, R. Moilleron, Meta-analysis of environmental contamination by phthalates, Environ. Sci. Pollut. Res., 19 (2012) 3798–3819.
  10. W. Ling,J. Gui-Bin, C. Ya-Qi, H. Bin, W. Ya-Wei, S. Da-Zhong, Cloud point extraction coupled with HPLC-UV for the determination of phthalate esters in environmental water samples, J. Environ. Sci., 19 (2007) 874–878.
  11. M. Polo, M. Lompart, C. Garcia-Jares, R. Cela, Multivariate optimization of a solid-phase microextraction method for the analysis of phthalate esters in environmental waters, J. Chromatogr. A, 1072 (2009) 63–72.
  12. A. Marcilla, S. Garca, J.C. Garca-Quesada, Study of the migration of PVC plasticizers, J. Anal. Appl. Pyrolysis, 71 (2004) 457–463.
  13. M.A. Fernández, B. Gómara, M.J. González, Occurrence of Phthalates and their Metabolites in the Environment and Human Health Implications, The Handbook of Environmental Chemistry Emerging Organic Contaminants and Human Health, 2012.
  14. M. Smol, M. Włodarczyk-Makuła, K. Mielczarek, J. Bohdziewicz, D. Włóka. The Use of Reverse Osmosis in the Removal of PAHs from Municipal Landfill Leachate, Polycycl Aromat Comp, 36 (2016) 20–39.
  15. M. Smol, M. Włodarczyk-Makuła, B. Skowron-Grabowska. PAHs removal from municipal landfill leachate using an integrated membrane system in aspect of legal regulations, Desal. Water Treat, 69 (2017) 335–343.
  16. P. Roslev, K. Vorkamp, J. Aarup, K. Frederiksen, P.H. Nielsen, Degradation of phthalate esters in an activated sludge wastewater treatment plant, Water Res, 41(5) (2007) 969–976.
  17. K. B. Pochwat, D. Słyś, Application of artificial neural networks in the dimensioning of retention reservoirs. Ecol Chem Eng S, 25(4) (2018) 605–617.
  18. K. Pochwat, K. Iličić, A simplified dimensioning method for high-efficiency retention tanks. In E3S Web of Conferences. EDP Sci., 45 (2018) 00065.
  19. M. Starzec, J. Dziopak, D. Słyś, K. Pochwat, S. Kordana, Dimensioning of required volumes of interconnected detention tanks taking into account the direction and speed of rain movement. Water, 10 (12) (2018) 1826.
  20. H. Fromme, T. Küchler, T. Otto, K. Pilz, J. Müller, A. Wenzel, Occurrence of phthalates and bisphenol A and F in the environment, Water Res, 36(6) (2002) 1429–1438.
  21. M. Vitali, M. Guidotti, G. Macilenti, C. Cremisini, Phthalate esters in freshwaters as markers of contamination sources - A site study in Italy, Environ Int, 23(3) (1997) 337–347.
  22. D. Gao, Z. Li, Z. Wen, N. Ren, Occurrence and fate of phthalate esters in full-scale domestic wastewater treatment plants and their impact on receiving waters along the Songhua River in China, Chemosphere, 95 (2014) 24–32.
  23. O.S. Fatoki, A. Noma, Solid phase extraction method for selective determination of phthalate esters in the aquatic environment, Water Air Soil Poll,140(1–4) (2002) 85–98.
  24. S. Net, D. Dumoulin, R. El-Osmani, S. Rabodonirina, B. Ouddane, Case study of PAHs, Me-PAHs, PCBs, phthalates and pesticides contamination in the Somme River water, France, Int J Environ Res, 8(4) (2014) 1159–1170.
  25. A.D. Vethaak, J. Lahr, S.M. Schrap, A.C. Belfroid, G.B.J. Rijs, A. Gerritsen, J.de Boer, A.S. Bulder, G.C.M. Grinwis, R.V. Kuiper, J. Legler, T.A.J. Murk, W. Peijnenburg, H.J.M. Verhaar, P. de Voogt, An integrated assessment of estrogenic contamination and biological effects in the aquatic environment of The Netherlands, Chemosphere, 59 (2005) 511–524.
  26. S. Net, S. Rabodonirina, R. Ben Sghaier, D. Dumoulin, C. Chbib, I. Tlili, Distribution of phthalates, pesticides and drug residues in the dissolved, particulate and sedimentary phases from transboundary rivers (France–Belgium), Sci Total Environ, 521 (2015) 152–159.
  27. F. Wang, X.H. Xia, Y.J. Sha, Distribution of phthalic acid esters in Wuhan section of the Yangtze River, China, J Hazard Mater, 154(1–3) (2008) 317–324.
  28. G. Teijon, L. Candela, K. Tamoh, A. Molina-Díaz, A.R. Fernández-Alba, Occurrence of emerging contaminants, priority substances (2008/105/CE) and heavy metals in treated wastewater and groundwater at Depurbaix facility (Barcelona, Spain), Sci Total Environ, 408 (2010) 3584–3595.
  29. R.J. Law, T.W. Fileman, P. Matthiessen, Phthalate esters and other industrial organic chemicals in the North and Irish Seas, Water Sci Tech, 24(10) (1991) 127–134.
  30. C. Staples, Observed concentrations in the environment, In phthalate esters, Springer, Berlin, 2003.
  31. C. Dargnat, M. Blanchard, M. Chevreuil, M.J. Teil, Occurrence of phthalate esters in the Seine River estuary (France), Hydrol Process, 23(8) (2009) 1192–1201.
  32. C.W. Chen, C.F. Chen, C.D. Dong, Distribution of phthalate esters in sediments of Kaohsiung Harbor, Taiwan, Soil Sediment Contam, 22 (2) (2013) 119–131.
  33. X.X. Zheng, B.T. Zhang, Y.G. Teng, Distribution of phthalate acid esters in lakes of Beijing and its relationship with anthropogenic activities, Sci Total Environ, 476 (2014) 107–113.
  34. S.Y. Yuan, C. Liu, C.S. Liao, B.V. Chang, Occurrence and microbial degradation of phthalate esters in Taiwan river sediments, Chemosphere, 49(10) (2002) 1295–1299.
  35. A.I. Rushdi, A.A. DouAbul, B.R. Simoneit, A.H. El-Mubarak, K.F. Al-Mutlaq, M.A. Qurban, M.A. Goni, Nonpolar lipid tracers in sediments from the Shatt al-Arab River of Iraq and the northwestern Arabian Gulf, Arab J Geosci, 7(12) (2014) 5495–5508.
  36. K. Luks-Betlej, M. Dudziak, Membrane techniques in water treatment processes: removal of polycyclic aromatic hydrocarbons and phthalates by means of nanofiltration, Int J Ecohydrol Hydrobiol, 05 (2005) 93–99.
  37. E. Psillakis, N. Kalogerakis, Hollow-fibre liquid-phase microextraction of phthalate esters from water, J Chromatograph A, 999(1–2) (2003) 145–153.
  38. C.R. Fang, Y.Y. Long, D.S. Shen, Comparison on the removal of phthalic acid diesters in a bioreactor landfill and a conventional landfill, Bioresource Technol, 100(23) (2009) 5664–5670.
  39. H. Liu, Y. Liang, D. Zhang, C. Wang, H.C. Liang, H.S. Cai, Impact of MSW landfill on the environmental contamination of phthalate esters, Waste Manage, 30(8–9) (2010) 1569–1576.
  40. S. Jonsson, M. Ejlertsson, A. Ledin, I. Mersiowsky, B.H. Svensson, Mono- and diestersfromo-phthalic acid in leachates fromdifferent European landfills, Water Res, 37(3) (2003) 609–617.
  41. F.L. Santos, B. Campos, M. de Araújo, M. Goreti Rodrigues Vale, E.B. Caramão, Application of activated carbon in the characterization of nitrogen compounds and phthalates in a landfill leachate, Microchem J, 78 (2004) 61–64.
  42. M. Swati, T. Rema, K. Joseph, Hazardous organic compounds in urban municipal solid waste from a developing country, J. Hazard. Mater., 160 (2008) 213–219.
  43. C. Zhang, Y. Wang, Removal of dissolved organic matter and phthalic acid esters from landfill leachate through a complexation–flocculation process, Waste Manage., 29 (2009) 110–116.
  44. V. Boonyaroj, C. Chiemchaisri, W. Chiemchaisri, S. Theepharaksapan, K. Yamamoto, Toxic organic micropollutants removal mechanisms in long-term operated membrane bioreactor treating municipal solid waste leachate, Bioresour. Technol., 113 (2012) 174–180.
  45. US EPA, Endocrine Disruption, United States Environmental Protection Agency, Washington D.C., USA, 2011. Available at: https://www.epa.gov/, access: 10.08.2018.
  46. WHO, Guidelines for Drinking-water Quality: Recommendations, Vol. 1, World Health Organization, Geneva, Switzerland, 2004. Available at: www.who.int/access:16.08.2018
  47. US EPA, Methods for Organic Chemical Analysis of Municipal and Industrial Wastewater, Method 606: Phthalate Esters, United States Environmental Protection Agency, Washington D.C., USA, 2001. Available at: https://www.epa.gov/, access: 10.08.2018
  48. D. Maycock, J. Fawell, G. Merrington, C. Watts, Review of England and Wales monitoring data for which a national or international standard has been set, Guidelines for Drinking- Water Quality, Watts and Crane Associates, London, UK, 2008, pp. 1–14.
  49. H. Cheng, S. Chen, J. Lin, Biodegradation of di-(2-ethylhexyl) phthalate in sewage sludge, Water Sci. Technol., 41 (2000) 1–6.
  50. UOKiK, Concentration of Phthalates in Toys. Control of the Trade Inspection, UOKiK, National Tax Administration, Warsaw, Poland, 2018. Available at: https://www.uokik.gov.pl, dostęp: 12.06.2018
  51. H. Bette, California bans phthalates in toys for children, Chem. Eng. News, 85 (2007) 12.
  52. H. Frederiksen, K. Sørensen, A. Mouritsen, L. Aksglaede, C.P. Hagen, J.H. Petersen, N.E. Skakkebaek, A.M. Andersson, A. Juul, High urinary phthalate concentration associated with delayed pubarche in girls, Int. J. Androl., 35 (2012) 216–226.
  53. L. Trasande, T.M. Attina, Association of exposure to di-2-ethylhexylphthalate replacements with increased blood pressure in children and adolescents novelty and significance, Hypertension, 66) (2015) 301–308.
  54. Regulation of the Minister of the Environment of 21 July 2016 on the Method of Classifying the Status of Uniform Surface Water Bodies and Environmental Quality Standards for Priority Substances, [Dz.U. 2016 poz. 1187].
  55. Environmental Monitoring Library, Report on the State of the Podlaskie Voivodeship in 2015, Białystok, 2016.
  56. Inspection of Environment Protection, Information on the state of the environment in the Podlaskie Voivodeship in 2016, WIOŚ Białystok, 2017.
  57. J. Piekutin, The impact of economic development on the quality of surface water of the Narew River and its tributaries in the Białystok powiat. Infrastructure and Ecology of Rural Areas, 05 (2008) 31–40.
  58. Website: https://agro-technika.pl/archiwa/folie-kiszonkowe/ [access: 10.05.2019].
  59. Anon. Report: innovations in plasticizers. Plasticizer manufacturers have not said the last word yet. Plastic Review, 4(187) (2017) 48–55.
  60. E. Skorbiłowicz, M. Skorbiłowicz, Trace elements in a valley of upper river Narew and its selected tributaries, NE Poland, Environment Protection Engineering, 35 (2009) 259–278.
  61. Website:https://www.radio.bialystok.pl/wiadomosci/index/ id/82094[access: 10.05.2005].
  62. Website: http://www.wios.bialystok.pl [access: 10.05.2019].