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Archives of Environmental Protection

The Journal of Institute of Environmental Engineering and Committee of Environmental Engineering of Polish Academy of Sciences

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Yuzhi Song, Mindong Chen and Junying Zhou

References Bajet, C.M., Kumar, A., Calingacion, M.N. & Narvacan, T.C. (2012). Toxicological assessment of pesticides used in the Pagsanjan-Lumban catchment to selected non-target aquatic organisms in Laguna Lake, Philippines. Agricultural Water Management , 106, pp. 42–49. Barata, C., Solayan, A. & Porte, C. (2004). Role of B-esterases in assessing toxicity of organophosphorus (chlorpyrifos, malathion) and carbamate (carbofuran) pesticides to Daphnia magna, Aquatic Toxicology , 66, pp. 125–139. Calabrese, E.J. (2005). Paradigm lost, paradigm

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M. Reimov, Dušan Húska and Alim Pulatov

, 2007, no. 1, pp. 43-50. Carr, E.R. - Winegard, P.M. - Yorty , S.C. - Thompson, M.C. - Jensen, N.K. - Roberson, J. 2007. Applying DPSIR to sustainable development. In International Journal of Sustainable development and world ecology, vol. 14, 2007, no. 6, pp. 1-1. Cawater -info portal of knowledge for water and Environmental issues in Central Asia. Available on: Digout , D. 2005 . DPSIR framework for State of Environment Reporting. UNEP/GRID-Arendal, available on: http

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Zbigniew Mucha and Przemysław Kułakowski

measurement for determination of small wastewater treatment plants disinfection efficiency, RWTH Aachen 2007. (in German) Dargeloh E. 2007 Use of turbidity measurement for determination of small wastewater treatment plants disinfection efficiency RWTH Aachen 2007 (in German) Duclos, N., Molle, P., Laurent, J., Wanko, A. & Mosé, R. (2013). Constructed wetlands to treat micropollutants of urban runoff from three residential watersheds, 8 th International Conference NOVATECH, Lyon 2013. Duclos N. Molle P. Laurent J. Wanko A. Mosé R

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Dmytro Kachan

References AFANASYEV, S. 2006. Quality elemental base a basis of reliability of domestic technology. In Machinery of agroindustrial complex, 2006, no. 5–6, pp. 40–43. BELOUSKO,Y. 2008. Development of agricultural machinery market. K. : NSC IAE, 2008, 132 p. BREWER, P. 2011. Current state of technical potential of agricultural enterprises of Zhytomyr region. In Bulletin of Zhytomyr National Agroecological University. Scientific-theoretical collection (economic sciences). Zhytomyr : ZNAMEU, vol. 2, 2011, no. 1 (28), pp. 134–142. BURKOVSKII

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Masoud Moradi, Mehdi Fazlzadehdavil, Meghdad Pirsaheb, Yadollah Mansouri, Touba Khosravi and Kiomars Sharafi

References Akbal, F. (2005) Adsorption of basic dyes from aqueous solution onto pumice powder, Journal of colloid and interface science , 286(2), pp. 455–458. Arslan, A. & Veli, S. (2012) Zeolite 13X for adsorption of ammonium ions from aqueous solutions and hen slaughterhouse wastewaters, Journal of the Taiwan institute of chemical engineers, 43(3), pp. 393–398. Bandosz, T.J. & Petit, C. (2009) On the reactive adsorption of ammonia on activated carbons modified by impregnation with inorganic compounds, Journal of colloid and interface

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Mariola Rajca

References Adamski W., K. Majewska-Nowak: Zastosowanie reaktorów wielofunkcyjnych do oczyszczania wody , Ochrona Środowiska, 32 , (1), 3-8 (2010). Apell J. N., T.H. Boyer: Combined ion exchange treatment for removal of dissolved organic matter and hardness , Water Research, 44 , 2419-2430 (2010). Hsu S., P.C. Singer: Removal of bromide and natural organic matter by anion exchange , Water Research, 44 , 2133-2140 (2010). Huang H., K. Schwab, J

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Małgorzata Kuczajowska-Zadrożna, Urszula Filipkowska and Tomasz Jóźwiak

. (1999). Biosurfactants as emulsifying agents for hydrocarbons, Colloids and Surfaces, 152, pp. 41-52. [5] Chen, C., Yang, C. & Chen, A. (2010). Biosorption of Cu(II), Zn(II), Ni(II) and Pb(II) ions by cross-linked metal-imprinted chitosans with epichlorohydrin, Journal of Environmental Management, 92, pp. 796-802. [6] Chen, W-J., Hsiao, L.C. & Chen, K.K-Y. (2008). Metal desorption from copper(II)/nickel(II)-spiked kaolin as a soil component using plant-derived saponin biosurfactant, Process Biochemistry, 43, pp. 488

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Iwona Zawierucha, Grzegorz Malina, Wojciech Ciesielski and Piotr Rychter

Environmental Microbiology, 72, 28-36. [6] Devinny, J. & Chang, S.H. (2000). Bioaugmentation for soil bioremediation. In Wise, D.L., Trantolo, D. (Eds.), Bioremediation of Contaminated Soils, 465-488, Marcel Dekker, New York 2000. [7] Fantroussi, S.E. & Agathos, S.N. (2005). Is bioaugmentation a feasible strategy for pollutant removal and site remediation? Current Opinion in Microbiology, 8, 268-275. [8] Gentry, T.J., Rensing, C. & Pepper, I.L. (2004). New approaches for bioaugmentation as a remediation technology, Critical

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Kamila Kašovská, Łukasz Pierzchała, Edyta Sierka and Barbara Stalmachová

-17. [7] Berezina, N.A. (2003). Tolerance of freshwater invertebrates to changes in water salinity, Rus J Ecol 34, 261-266. [8] Connell, J.H. (1978). Diversity in tropical rain forests and coral reefs. Science, 199, 1302-1309. [9] Chełmicki, W. (2002). Woda zasoby, degradacja, ochrona. Wydawnictwo naukowe PWN. Warszawa 2002. [10] Clark, T.M., Flis, B.J. & Remold, S.K. (2004). Differences in the effects of salinity on larval growth and developmental programs of a freshwater and a euryhaline mosquito species (Insecta