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Krishna Girish, Sarpangala Bhat and Koteshwara Raveesha

References Agrios G. N. 2004. Plant Pathology. 5th ed. Elsevier Academic Press, San Diego, USA. Anjaiah V., Cornelis P., Koedam N. 2003. Effect of genotype and root colonization in biological control of Fusarium wilts in pigeonpea and chickpea by Pseudomonas aeruginosa PNA1. Can. J. Microbiol. 49: 85-91. Audenaert K., Pattery T., Cornelis P., Hofte M. 2001. Induced resistance to Botrytis cineria by Pseudomonas aeruginosa: role of siderophore and pyocyanin. IOBC/WPRS Bull

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Arun Karnwal

References Adediran G.A., Ngwenya B.T., Mosselmans J.F., Heal K.V., Harvie B.A. 2016. Mixed planting with a leguminous plant outperforms bacteria in promoting growth of a metal remediating plant through histidine synthesis. International Journal of Phytoremediation 18 (7): 720–729. DOI: 10.1080/15226514.2015.1131235. Adesemoye A.O., Ugoji E.O. 2009. Evaluating Pseudomonas aeruginosa as plant growth-promoting rhizobacteria in West Africa. Archives of Phytopathology and Plant Protection 42 (2): 188–200. DOI: http://dx.doi.org/10

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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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Adriana Trojanowska

References Ambrożewski Z., 1980, Monografia Zbiornika Sulejowskiego (Monograph of the Sulejow Reservoir), WKiL, Warszawa, p. 84 (in Polish). Bojakowska I., Sokołowska G., 1998, Geochemiczne klasy czystości osadów wodnych (Geochemical class of sediments cleanliness), Prz. Geol. 46: 49-53 (in Polish). Bojakowska I., Gliwicz T., Sokołowska G., Strzelecki R., Wołkowicz S., 2000, Pierwiastki śladowe i promieniotwórcze w osadach zbiornika włocławskiego (Radioactive and trace elements in

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Barbara Poniedziałek, Halina I. Falfushynska and Piotr Rzymski

of its producers, Wat. Res. 66: 320–327. Rzymski P., Poniedziałek B., 2014b, Blue-green algae blooms: environmental and health consequences, [in:] Lambert A., Roux C. (eds), Eutrophication. Causes, economic implications and future challenges, Nova Science Publishers, New York: 155–181. Rzymski P., Poniedziałek B., Kokociński M., Jurczak T., Lipski D., Wiktorowicz K., 2014a, Interspecific allelopathy in cyanobacteria: Cylindrospermopsin and Cylindrospermopsis raciborskii effect on the growth and metabolism of Microcystis aeruginosa, Harmful Algae 35: 1

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Bożena Jaworska and Bogusław Zdanowski

, A comparison of the daily alkaline phosphatase activity of a cyanobacterium (Microcystis aeruginosa) and a diatom (Synedra capitata), Biochem. 320: 451-458. Hambright K.D., Zohary T., Easton J., Azoulay B., Fishbein T., 2001, Effects of zooplankton grazing and nutrients on the bloom-forming, N 2 -fixing cyanobacterium Aphanizomenon in Lake Kinneret, J. Plank. Res. 23(2): 165-174. Heusden G.P.H., 1972, Estimation of the biomass of plankton, Hydrobiologia 39(2): 165-208. Humphries S

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Katarzyna Buczkowska, Alina Bączkiewicz and Patrycja Gonera

. Bryol. 27: 247-252. Yang J. D. & Lin S. H. 2009. Calypogeia aeruginosa Mitten,a newly recorded liverwort to Taiwan. Endemic Species Res. 11: 93-99. Zieliński R. & Wachowiak-Zielińska M. 1994. Isozyme variation in Polish populations of Plagiochila asplenioides and P. porelloides (Hepaticae, Plagiochilaceae). Frag. Flor. Geobot. 39: 503-509.

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Piotr Rzymski, Agnieszka Brygider and Mikołaj Kokociński

P., Poniedziałek B., 2014, In search of environmental role of cylindrospermopsin: a review on global distribution and ecology of its producers, Water Res. 66: 320–327. Rzymski P., Poniedziałek B., Kokociński M., Jurczak T., Lipski D., Wiktorowicz K., 2014, Interspecific allelopathy in cyanobacteria: cylindrospermopsin and Cylindrospermopsis raciborskii effect on the growth and metabolism of Microcystis aeruginosa , Harmful Algae 35: 1–8. Rzymski P., Poniedziałek B., Mankiewicz-Boczek J., Faassen E.J., Jurczak T., Gągała-Borowska I., Ballot A

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Werner Ruppitsch

applied for epidemiological investigation and elucidation of a multinational listeriosis outbreak in Austria, Germany, and the Czech Republic in the years 2009– 2010 ( Fretz et al., 2010a , 2010b ) and an ongoing outbreak in Germany ( Ruppitsch et al., 2015b ). Furthermore, PFGE was used to identify the source of infection in a fatal case of P. aeruginosa pneumonia in a healthy woman ( Huhulescu et al., 2011 ), and for an in-depth analysis of isolates with—at that time— a new spa type t2023 occurring in two acute care hospitals in Austria. Isolates harboring spa

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Daniel Kracher and Roland Ludwig

collectively called hemicelluloses. The composition and abundance of hemicelluloses varies within plant species and tissue types, but usually represents approximately 20% of the total plant biomass. Major polysaccharides in hemicellulose are xyloglucans, xylans, mannans and glucomannans ( Scheller and Ulvskov, 2010 ). Both cellulose and hemicellulose are embedded in lignin, a dense aromatic polymer formed by the monolignols p -coumaryl, coniferyl and sinapyl alcohol. About two thirds to three quarters of all intermolecular bonds in lignin are ether bonds, which greatly