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Martin Pivokonsky, Petra Bubakova, Petra Hnatukova and Bohuslav Knesl

treatment of water with high DOC and low alkalinity. Water Sci. Technol. - Water Suppl., 8 , 1, 9-17. PIVOKONSKY M., POLASEK P., PIVOKONSKA L., TOMASKOVA H., 2009: Optimized reaction conditions for removal of cellular organic matter of Microcystis aeruginosa during the destabilization and aggregation process using ferric sulfate in water purification. Water Env. Res., 81 , 5, 514-522. POLASEK P., 2007: Differentiation between different kinds of mixing in water purification: back to basics. Water SA, 33 , 2, 249

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Petra Ebubakova, Martin Pivokonsky and Lenka Pivokonska

., PIVOKONSKA L., TOMASKOVA H., 2009: Optimized reaction conditions for removal of Cellular Organic Matter of Microcystis aeruginosa during the destabilization and aggregation process using ferric sulfate in water purification. Water Env. Res., 81 , 5, 514-522. POLASEK P., MUTL S., 2005: Optimisation of reaction conditions of particle aggregation in water purification-back to basics. Water SA, 31 , 1, 61-72. SOOS M., WANG L., FOX R. O., SEFCIK J., MORBIDELLI M., 2007: Population balance modeling of aggregation and

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Martin Pivokonský, Lenka Pivokonská, Jitka Bäumeltová and Petra Bubáková

matter. Z. Wasser-Abwasser-Forsch. , 19, 219-228. CHIN Y. P., AIKEN G., O'LONGHLIN E., 1994: Molecular weight, polydispersity and spectroscopic properties of aquatic humic substances. Environ. Sci. Tech. , 28, 1853-1858. CHOW C. W. K., van LEEUWEN J. A., DRIKAS M., FABRIS R., SPARK K.M., PAGE D.W., 1999: The impact of the character of natural organic matter in conventional treatment with alum. Wat. Sci. Technol. , 40, 97-104. CROUE J. P., LEFEBVRE E., MARTIN B., LEGUBE B., 1993: Removal of

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Konrad Chabowski, Adam F. Junka, Tomasz Piasecki, Damian Nowak, Karol Nitsch, Danuta Smutnicka, Marzenna Bartoszewicz, Magdalena Moczała and Patrycja Szymczyk

References [1] O’Toole, G.A. (2002). A resistance switch. Nature, 416, 695−696. [2] Flemming, H.C., Wingender, J. (2010). The biofilm matrix. Nat. Rev. Microbiol., 8, 623-633. [3] Costerton, J.W., Stewart, P.S., Greenberg, E.P. (1999). Bacterial Biofilms: A Common Cause of Persistent Infections. Science, 284, 1318-1332. [4] James, G.A., Swogger, E., Wolcott, R., Pulcini, E., Secor, P., Sestrich, J., Costerton, J.W., Stewart, P.S. (2008). Biofilms in chronic wounds. Wound Repair Reg., 16, 37

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Marlena Piontek and Wanda Czyżewska

L., Zheng L., Ni L.: Tissue distribution and seasonal dynamics of the hepatotoxic microcystins-LR and - RR in a freshwater snail (Bellamya aeruginosa) from a large shallow, eutrophic lake the subtropical China, Environmental Pollution, 134 (2005) 423-430. 6. Chen J., Xie P.: Microcystin accumulation in freshwater bivalves from lake Taihu, China and potential risk to human consumption, Environmental Toxicolology and Chemistry, 26, 5 (2007) 1066-1073. 7. Czyżewska W.: Application of biological methods for the estimation of cyanotoxic