References

1. S. Boehler, R. Strecker, P. Heinrich, E. Prochazka, G.L. Northcott, J.M. Ataria, F.D.L. Leusch, T. Braunbeck, L.A. Tremblay, Assessment of urban stream sediment pollutants entering estuaries using chemical analysis and multiple bioassays to characterise biological activities, Sci. Total Environ., 593–594 (2017) 498–507.
2. G. Tixier, M. Lafont, L. Grapentine, Q. Rochfort, J. Marsalek, Ecological risk assessment of urban stormwater ponds: literature review and proposal of a new conceptual approach providing ecological quality goals and the associated bioassessment tools, Ecol. Indic., 11 (2011) 1497–1506.
3. M. Walaszek, P. Bois, J. Laurent, E. Lenormand, A. Wanko, Micropollutants removal and storage efficiencies in urban stormwater constructed wetland, Sci. Total Environ., 645 (2018) 854–864.
4. A. Baun, E. Eriksson, A. Ledin, P.S. Mikkelsen, A methodology for ranking and hazard identification of xenobiotic organic compounds in urban stormwater, Sci. Total Environ., 370 (2006) 29–38.
5. M.G. Faram, K.O. Iwugo, R.Y.G. Andoh, Characteristics of urban run-off derived sediments captured by proprietary flowthrough stormwater interceptors, Water Sci. Technol., 56 (2007) 21–27.
6. M.O. Gessner, R. Hinkelmann, G. Nützmann, M. Jekel, G. Singer, J. Lewandowski, T. Nehls, M. Barjenbruch, Urban Water interfaces, J. Hydrol., 514 (2014) 226–232.
7. X.Y. Yuan, L.J. Zhang, J.Z. Li, C. Wang, J.F. Ji, Sediment properties and heavy metal pollution assessment in the river, estuary and lake environments of a fluvial plain, China, CATENA, 119 (2014) 52–60.
8. A. El-Mufleh, B. Béchet, V. Ruban, M. Legret, B. Clozel, S. Barraud, C. Gonzalez-Merchan, J.-P. Bedell, C. Delolme, Review on physical and chemical characterizations of contaminated sediments from urban stormwater infiltration basins within the framework of the French observatory for urban hydrology (SOERE URBIS), Environ. Sci. Pollut. Res. Int., 21 (2014) 5329–5346.
9. M. Tobiszewski, J. Namieśnik, PAH diagnostic ratios for the identification of pollution emission sources, Environ. Pollut., 162 (2012) 110–119.
10. M. Tsapakis, E.G. Stephanou, Occurrence of gaseous and particulate polycyclic aromatic hydrocarbons in the urban atmosphere: study of sources and ambient temperature effect on the gas/particle concentration and distribution, Environ. Pollut., 133 (2005) 147–156.
11. EU Commission (2000) Directive 2000/60/EC of the European Parliament and of the Council, of 23 October 2000, Establishing a Framework for Community Action in the Field of Water Policy, Official Journal of the European Union, Publications Office of the European Union, 2, rue Mercier – 2985 Luxembourg, Luxembourg, 2000.
12. ATSDR (Agency for Toxic Substances and Disease Registry) Polycyclic Aromatic Hydrocarbons, US Department of Health and Human Services, Public Health Service, Atlanta, GA, USA, 1995.
13. A. Valentyne, K. Crawford, T. Cook, P.D. Mathewson, Polycyclic aromatic hydrocarbon contamination and source profiling in watersheds serving three small Wisconsin, USA Cities, Sci. Total Environ., 627 (2018) 1453–1463.
14. B. Kumar, V.K. Verma, C.S. Sharma, A.B. Akolkar, Estimation of toxicity equivalency and probabilistic health risk on lifetime daily intake of polycyclic aromatic hydrocarbons from urban residential soils, Hum. Ecol. Risk Assess., 21 (2015) 434–444.
15. PN-EN ISO 5667–15:2009, Water Quality. Sampling. Part 15: Guidance on the Preservation and Handling of Sludge and Sediment Samples, Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
16. PN-EN 12176:2004, Characterization of Sludge. Determination of pH Value, Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
17. PN-EN 15934:2013–02, Sewage Sludge, Treated Bio-Waste, Soil and Waste. Determination of Dry Matter by Determination of Dry Residue Content or Water Content, Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
18. PN-EN 15169:2011, Characterization of Waste. Determination of Loss on Ignition of Waste, Sludges and Sediments, Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
19. PN-EN 15527:2008, Characterization of Waste. Determination of Polycyclic Aromatic Hydrocarbons (PAH) in Waste Using Gas Chromatography Mass Spectrometry (GC/MS), Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
20. PN-EN ISO 14911:2002, Water Quality. Determination of Li⁺, Na⁺, NH₄⁺, K⁺, Mn²⁺, Ca²⁺, Mg²⁺, Sr²⁺ and Ba²⁺ by ion chromatography. Method for Water and Wastewater, Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
21. PN-EN ISO 10304–1:2009, Water Quality. Determination of Dissolved Anions by Ion Chromatography. Part 1: Determination of Bromides, Chlorides, Fluorides, Nitrates, Nitrites, Phosphates and Sulphates, Polish Committee for Standardization (Polski Komitet Normalizacyjny – PKN), Polish Standardization Act of 12 September 2002, Warsaw, Poland (in Polish).
22. H.Y. Li, L. Liu, M.Y. Li, X.R. Zhang, Effects of pH, temperature, dissolved oxygen, and flow rate on phosphorus release processes at the sediment and water interface in storm sewer, J. Anal. Methods Chem., 2013 (2013) 104316 1–7, doi: 10.1155/2013/104316.
23. A. Sałata, L. Dąbek, Sorption of Selected Compounds on Sediments Derived from Stormwater Treatment Plant, Mineral Sorbents – Raw Materials, Energy, Environment Protection, Modern Technologies, AGH University of Science and Technology Press, Cracow, Poland, 2015, pp. 285–295 (in Polish).
24. D.D. MacDonald, C.G. Ingersoll, T.A. Berger, Development and evaluation of consensus-based sediment quality guidelines for freshwater ecosystems, Arch. Environ. Contam. Toxicol., 39 (2000) 20–31.
25. I. Bojakowska, Criteria of evaluation of pollution of aquatic sediments, Polish Geol. Rev., 49 (2001) 213–218 (in Polish).
26. A. Sałata, L. Dąbek, Sediments from stormwater drainage system as sorbents of organic and inorganic pollutants, E3S Web Conf., 22 (2017) 00152, doi: 10.1051/e3sconf/20172200152.
27. L. Liu, A. Liu, Y. Li, L.X. Zhang, G.J. Zhang, Y.T. Guan, Polycyclic aromatic hydrocarbons associated with road deposited solid and their ecological risk: implications for road stormwater reuse, Sci. Total Environ., 563–564 (2016) 190–198.
28. J. Gunawardena, A.M. Ziyath, P. Egodawatta, G.A. Ayoko, A. Goonetilleke, Influence of traffic characteristics on polycyclic aromatic hydrocarbon build-up on urban road surfaces, Int. J. Environ. Sci. Technol., 11 (2014) 2329–2336.
29. J. Zhang, J.W. Wu, P. Hua, Z.H. Zhao, L. Wu, G.D. Fan, Y. Bai, T. Kaeseberg, P. Krebs, The influence of land use on source apportionment and risk assessment of polycyclic aromatic hydrocarbons in road-deposited sediment, Environ. Pollut., 229 (2017) 705–714.