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fish species with regards to their feeding habits and trophic levels - Environ. Monit. Assess. 35: 207-219. Przybył A., Koligot A. 1997a - The role of mineral components in the animal nutrition. I. Macroelements - Prz. Ryb. 2: 48-52 (in Polish). Przybył A., Koligot A. 1997b - The role of mineral components in the animal nutrition. I I. Microelements - Prz. Ryb. 3: 38-42 (in Polish). Quevauviller P. H., Imbert J. L., Wagstaffe P. J., Kramer G. N., griepink B. 1993 - Commission of the European Communities BCR Information - Reference materials, ECSC EEC

. In: Zohary, M. (ed.), Flora Palaestina. Jerusalem. 4, 6–12. Gawel, N. J., Jarret, R. L., 1991: A modified CTAB extraction procedure for Musa and Ipomoea . Plant Molecular Biology Reporter 9, 262–266. Green, A. J., Figuerola, J., Sanchez, M. L., 2002: Implications of waterbird ecology for the dispersal of aquatic organisms. Acta Oecologica 23, 177–189. Han, Q., Wang, G., Li, W., Liu, F., 2014: Genetic diversity of Potamogeton pectinatus L. in relation to species diversity in a pair of lakes of contrasting trophic levels. Biochemical Systematics and Ecology 57

References Alhashemi A.S., Karbassi A.R., Kiabi B.H., Monavari S.M., Nabavi S.M., Sekhavatjou M.S., 2011, Bioaccumulation of trace elements in trophic levels of wetland plants and waterfowl birds, Biol. Trace Elem. Res. 142: 500-16. Bajkiewicz-Grabowska E., 2004, Podatność jezior na eutrofizację (Susceptibility of lakes to eutrophication), [in:] Zdanowski B., Hutorowicz A., Białokoz W. (eds.), Ekosystemy wodne Parku Narodowego Bory Tucholskie (Water ecosystems of the Tuchola Forest National Park), IRS, Olsztyn: 17-32 (in Polish). Berry W.J., Boothman W.S., Serbst

flowering times and temperature at the national scale using long-term phenological records from the UK. International Journal of Biometeorology 44(2): 82-87. DOI: 10.1007/s004840000049 Stawiarz E., Wróblewska A. (2010) Melissopalynological analysis of multifloral honeys from the Sandomierska Upland area of Poland. Journal of Apicultural Science 54(1): 65-75. Szentesi Á., Wink M. (1991) Fate of quinolizidine alkaloids through three trophic levels: Laburnum anagyroides (Leguminosae) and associated organisms. Journal of Chemical Ecology 17(8): 1557-1573. DOI: 10.1007/BF

the second decade of the 21st century), FRUG, Gdańsk: 19–50 (in Polish, English summary). Burns N.M., Bryers G., Bowman E., 2000, Protocol for monitoring trophic levels of New Zealand lakes and reservoirs, Ministry for the Environment, Wellington, 137 pp. Carlson R.E., 1977, A trophic state index for lakes, Limnol. Oceanogr. 22(2): 361–369. Carlson R.E., 1983, Discussion on “Using differences among Carlson’s trophic state index values in regional water quality assessment”, by Richard A. Osgood, Wat. Res. Bull. 19(2): 307–309. Carlson R.E., Simpson J., 1996, A

oraz warunki siedliskowe ichtiofauny (The largest dimictic lakes of Western Pomerania. Trophic status, susceptibility to degradation, and ichthyofauna habitat conditions), Rozpr. AR Szczec. 214, Szczecin, 96 pp (in Polish, English summary). Kubiak J., Machula S., Stepanowska K., Biernaczyk. M., 2012, Evaluation of trophic level of the largest dimictic lakes of western Pomerania based on the Carlson criteria, Limnol. Rev. 12(2): 79–85. Kubiak J., Tórz A., 2005, Eutrofizacja. Podstawowy problem ochrony jezior na Pomorzu Zachodnim (Eutrophication. Basic problems of lake

P.A. 2007 – Evaluating stocking of YOY pike Esox lucius as a tool in the restoration of shallow lakes – Freshw. Biol. 52: 1834-1845. Søndergaard M., Jeppesen E., Berg S. 1997 – Pike ( Esox lucius L.) stocking as a biomanipulation tool 2. Effects on lower trophic levels in Lake Lyng, Denmark – Hydrobiologia 342: 319-325. Seggel A., De Young C., Soto D. 2016 – Climate change implications for fisheries and aquaculture. Summary of the findings of the intergovernmental panel on climate change fifth Assessment Report – FAO Fisheries and Aquaculture Circular No. C1122

., Brendonck L., De Meester L., 2005, Biodiversity in shallow lakes: patterns of taxon richness at multiple trophic levels along a gradient in phosphorus and water plant cover, Ecology 86: 1905–1915. Doyle R.D., Smart R.M.. 2001. Impacts of water column turbidity on the survival and growth of Vallisneria americana winterbuds and seedlings. J. Lake Reserv. Manage. 17(1): 17–28. Duarte C.M.. Kalff J., 1987, Latitudinal influences on the depth of maximum colonization and maximum biomass of submerged angiosperms in lakes, Can. J. Fish. Aquat. Sci. 44(10): 1759–1764. Duarte C

.G., Tscheulin, T., Pilgrim, E., Ramsey, A.J., Harrison-Cripps, J., Brown, V.K. and Tallowin, J.R. 2009. Responses of invertebrate trophic level, feeding guild and body size to the management of improved grassland field margins. Journal of Applied Ecology 46 : 920-929. Woodcock, B.A., Potts, S.G., Westbury, D.B., Ramsay, A.J., Lambert, M., Harris, S.J. and Brown, V.K. 2007b. The importance of sward architectural complexity in structuring predatory and phytophagous invertebrate assemblages. Ecological Entomology 32 : 302-311. Zechmeister, H.G., Schmitzberger, I., Steurer, B

application for biological quality assessment in the context of the Water Framework Directive. Hydrobiologia 695, 153-170. BERTHON, V., BOUCHEZ, A., RIMET, F., 2011: Using diatom life-forms and ecological guilds to assess organic pollution and trophic level in rivers: a case study of rivers in south-eastern France. Hydrobiologia 673, 259-271. B-BÉRES, V., TÖRÖK, P., KÓKAI, ZS., T-KRASZNAI, E., TÓTHMÉRÉSZ, B., BÁCSI, I., 2014: Ecological behaviour of diatom guilds during an extremely changing water regime: empirical evidences from a lowland river of Central