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Ewa Dembowska

. International Conference on Limnology of Shallow Lakes, Balatonfüred, Hungary 25-30 May (2002), Veszprm University Press. Wallace B.B., Bailey M.C., Hamilton D.P., 2000, Simulation of vertical position of buoyancy regulating Microcysis aeruginosa in shallow eutrophic lake, Aquat. Sci. 62: 320-333. Wehr J.D., Sheath R.G., 2003, Freshwater algae of North America: ecology and classification, Academic Press, San Diego, pp. 950. Yamamoto Y., 2009, Environmental factors that determine the occurrence and

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É. György and É. Laslo

antibiotic resistance. In: Om. V. Singh (eds), Foodborne pathogens and antibiotic resistance . John Wiley & Sons, Inc. Published (2017). [11] R. Davis, P. D. Brown, Multiple Antibiotic Resistance index, fitness and virulence potential in respiratory Pseudomonas aeruginosa from Jamaica. Journal of Medical Microbiology , 65. (2016) 261–271. [12] EFSA. 2018. The European Union summary report on antimicrobial resistance in zoonotic and indicator bacteria from humans, animals and food in 2016. EFSA Journal , 16. 2. (2018) 5182. [13] M. Friedman

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Krzysztof Rychert and Thomas Neu

References Böckelmann U., Manz W., Neu T., Szewzyk U. 2000. Characterization of microbial community of lotic organic aggregates (‘river snow’) in the Elbe River of Germany by cultivation and molecular methods. FEMS Microbiol. Ecol. 33: 157-170. Cole J. 1999. Aquatic microbiology for ecosystem scientists: new and recycled paradigms in ecological microbiology. Ecosystems 2: 215-225. Hall-Stoodley L., Costerton J. W., Stoodley P. 2004. Bacterial biofilms: from the natural environment

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Anna A. Tolmacheva, Eugene A. Rogozhin and Dmitry G. Deryabin

-1307; DOI: 10.1172/ JCI200320074. 4. M. C. Marjorie, Plant products as antimicrobial agents, Clin. Microbiol. Rev. 4 (1999) 564-582. 5. D. Trombetta, F. Castelli, M. G. Sarpietro, V. Venuti, M. Cristani, C. Daniele, A. Saija, G. Mazzanti and G. Bisignano, Mechanisms of antibacterial action of three monoterpenes, Antimicrob. Agents Chemother. 49 (2005) 2474-2478; DOI: 10.1128/AAC.49.6.2474-2478.2005. 6. W. C. Fuqua, S. C. Winans and E. P. Greenberg, Quorum sensing in bacteria: the LuxR-LuxI family of cell density

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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

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M.F. Rahman, M. Rusnam, N. Gusmanizar, N.A. Masdor, C.H. Lee, M.S. Shukor, M.A.H. Roslan and M.Y. Shukor

. Toxicol., 1, 2013, 9-14. AHMAD, S.A., SHUKOR, M.Y., SHAMAAN, N.A., MAC CORMACK, W.P., SYED, M.A.: Molybdate reduction to molybdenum blue by an Antarctic bacterium. BioMed Res. Int., 2013, 2013a, 10 p. AHMAD, W.A., WAN AHMAD, W.H., KARIM, N.A., SANTHANA RAJ, A.S., ZAKARIA, Z.A.: Cr(VI) reduction in naturally rich growth medium and sugarcane bagasse by Acinetobacter haemolyticus . Int. Biodeterior. Biodegrad., 85, 2013b, 571-576. AMBILY, P.S., JISHA, M.S.: Biodegradation of anionic surfactant, sodium dodecyl sulphate by Pseudomonas aeruginosa MTCC

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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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Ogofure G. Abraham, Bello-Osagie O. Idowu, Aduba U. Barbara, Ighodaro E. Veadams and Emoghene O. Alexander

pp. Clinical Laboratory Standard Institute (CLSI), 2017. Performance Standards for Antimicrobial Susceptibility Testing 27th ed.. CLSI supplement M100S. Wayne, Pennsylvania 250 pp. Dantas, S. T., Silva, N., Dantas, F. B. H. 2006. External Microbiological Contamination of Beverage Packaging. Brazil. J. Food Tech., 93 , 193-199. Davis, R. and Brown, P.D., 2016. Multiple antibiotic resistance index, fitness and virulence potential in respiratory Pseudomonas aeruginosa from Jamaica. J. Med. Microbiol., 65 , 261–271. Ekrami, A

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Edinardo F.F. Matias, Karla K.A. Santos, Jos Galberto M Costa and Henrique D.M. Coutinho

GHN. Antiviral and antimicrobial activities of Colombian medicinal plants. J Ethnopharmacol. 2001; 77:189-96. 5. Violla G, Dall’aque F. Photosensitization of biomolecules by phenothiazine derivatives. Curr Drug Targets. 2006; 7:1135-54. 6. Breuckmann F, Gambichler T, Altmeyer P, Kreuter A. UVA/UVAI phototherapy and PUVA photochemotherapy in connective tissue diseases and related disorders: a research based review. BMC Dermatol. 2004; 4:11. 7. Towers GHN, Page J, Hudson JB. Light-mediated biological activities of

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Magdalena Mizerska-Dudka and Mariola Andrejko

. 1999. Phylogenetic perspective in innate immunity. Science 284, 1313-1318. Iwanaga S., Lee B. L. 2005. Recent advances in the innate immunity of invertebrate animals. J. Biochem. Mol. Biol. 38, 128-150. Kavanagh K., Reeves E. P. 2004. Exploiting the potential of insects for in vivo pathogenicity testing of microbial pathogens. FEMS Microbiol. Rev. 28, 101-112. Kipnis E., Sawa T., Wiener-Kronish J. 2006. Targeting mechanisms of Pseudomonas aeruginosa pathogenesis. Méd. Mal. Infect. 36