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Wanda Wilczyńska-Michalik, Renata Gasek, Marek Michalik, Janusz Dańko and Tadeusz Plaskota

6. References Baba, A., & Kaya, A. (2004). Leaching characteristics of fly ash from thermal power plants of Soma and Tunçbilek, Turkey. Environmental Monitoring and Assessment, 91 , 171-181. DOI: 10.1023/B:EMAS.0000009234.42446.d3. Bartoňová, L., Čech, B., Ruppenthalová, L., Majvelderová, V., Juchelková, D., & Klika, Z. (2012). Effect of unburned carbon content in fly ash on the retention of 12 elements out of coal-combustion flue gas. Journal of Environmental Sciences, 24, 1624-1629. DOI: 10.1016/S1001-0742(11)60981-9. Bogush, A. A

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Agnieszka Gałuszka and Zdzisław Migaszewski

References Bäckström, M., Karlsson, S., Bäckman, L., Folkeson, L., & Lind, B. (2004). Mobilization of heavy metals by deicing salts in a roadside environment. Water Research, 38 , 720-732. DOI: 10.1016/j.watres.2003.11.006. Baize, D., & Sterckeman, T. (2001). Of the necessity of knowledge of the natural pedo-geochemical background content in the evaluation of the contamination of soils by trace elements. Science of the Total Environment, 264 , 127-139. DOI: 10.1016/S0048-9697(00)00615-X

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Piotr Turek, Tomasz Bajda and Maciej Manecki

, 1493-1501. DOI: 10.1016/j.chemosphere.2011.01.056. Bajda, T., Szmit, E., & Manecki, M. (2007). Removal of As(V) from solutions by precipitations of mimetite Pb5(AsO4)3Cl. In Pawłowski L., Dudzińska M. & Pawłowski A. (Eds.), Environmental Engineering (119-124). New York, Singapore: Taylor & Francis. Ball, J.W., & Nordstrom, D.K. (1991). WATEQ4F - User’s manual with revised thermodynamic data base and test cases for calculating speciation of major, trace and redox elements in natural waters. US Geological Survey Open-File Report, 90

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Monika Kasina, Piotr R. Kowalski and Marek Michalik

. (2010). Accelerated carbonation of steel slags in a landfill cover construction. Waste Management, 30, 132-139. Drissen, P. (2007). Binding of trace elements in steel slags. In: Proceedings of the Fifth European Slag Conference (Euroslag). 19-21 September 2007 (pp. 187-198). Luxembourg. Engström, F., Adolfsson, D., Samuelsson, C., Sandström, Å., & Björkman, B. (2013). A study of the solubility of pure slag minerals. Minerals Engineering, 41, 46-52. DOI: 10.1016/j.mineng.2012.10.004. Fan, L. S. & Park, A. (2004). CO2

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Anna Potysz and Jakub Kierczak

(5), 1045–1056. [4] Baudoin E., Benizri E., Guckert A. (2003). Impact of artificial root exudates on the bacterial community structure in bulk soil and maize rhizosphere. Soil Biology & Biochemistry 35(9) , 1183–1192. [5] Bolan N., Kunhikrishnan A., Thangarajan R., Kumpiene J., Park J., Makino T., Kirkham M.B., Scheckel K. (2014). Remediation of heavy metal(oid)s contaminated soils – To mobilize or to immobilize? Journal of Hazardous Materials 266, 141–166. [6] Bortey-Sam N., Nakayama S.M., Ikenaka Y., Akoto O., Baidoo E., Yohannes Y. B

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Monika Ciężka, Maria Kossowska, Piotr Paneth and Maciej Górka

., 2006. The application of tree bark as bio-indicator for the assessment of Cr(VI) in air pollution. Journal of Hazardous Materials , B137: 1241–1245. [43] Manninen, S., Huttunen S., Torvela, H. 1991. Needle and lichen sulphur analyses on two industrial gradients. Water Air Soil Pollut. , 59: 153–163. [44] Michener, R., Lajtha K. 2007. Stable Isotopes in Ecology and Environmental Science. [45] Migaszewski, Z.M., Gałuszka, A., Świercz, A., Kucharczyk, J. 2001. Element concentrations in soils and plant bioindicators in selected habitats of the Holy