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, Poznań. Messyasz B., Pikosz M., Rybak A. & Łepkowska K. 2012. Epiphytic diatom community and calcium carbonate crystals characteristics on the surface of freshwater Ulva thalli. Teka Kom. Ochr. Kszt. Środ. Przyr.-OL PAN. 9: 96-106. Morin A. & Cattaneo A. 1992. Factors affecting sampling variability of freshwater periphyton and the power of periphyton studies. Can. J. Fish. Aquat. Sci. 49: 1695-1703. Najberek K. & Solarz W. 2011. Jeziora Konińskie jako ognisko inwazji gatunków obcych w Polsce. In: Z. Głowaciński, H. Okarma, J. Pawłowski & W. Solarz (eds.). Gatunki obce

References Asaduzzaman, M., Rahman, M.M., Azim, M.E, Islam, M.A., Wahab, M.A., Verdegem, M.C.J. & Verreth J.A.J. (2010). Effects of C/N ratio and substrate addition on natural food communities in freshwater prawn monoculture ponds. Aquaculture, 306, 127-136. DOI: 10.1016/j.aquaculture.2010.05.035. Azim, M.A., Verdegem, M.C.J., van Dam, A.A. & Beveridge C.M. (2005). Periphyton: ecology, exploitation and management. Oxfordshire: CABI Publishing. Battarbee, R.W. (1979). Diatoms in lake sediments. In B.E. Berglund (Ed.), International Geological Correlation

References 1. Azim M. E. and Little D. C., 2006 - Intensifying aquaculture production through new approaches to manipulating natural food, CAB Reviews: Perspectives in Agriculture, Veterinary Science, Nutrition and Natural Resources , 062, 23. 2. Azim M. E., Verdegem M. C. J., van Dam A. and Beveridge M. C. M. (eds), 2005 - Periphyton: ecology, exploitation and management, CABI Publishing , UK, 319. 3. Azim M. E., Verdegem M. C. J., Khatoon H., Wahab M. A., van Dam A. A. and Beveridge M. C. M., 2002a - A comparison of fertilization, feeding and three periphyton


The data of the size-mass indices in the mussels Mytilus galloprovincialis (Lamarck, 1819) from three phenotypic groups - brown, dark violet (black) and “zebra” (brown with radial black stripes) shells in the periphyton settlements on the concrete traverses near Odessa coast, the North-western part of Black Sea (Ukraine), in March-November 2014-2015 are presented. A comparative evaluation has been made on the relationships of total mass of the mollusks, wet and dry mass of their soft body and mass of the shells on the one hand, and the size of animals (length of its shells) on the other hand, in the each of phenotypical groups from the five marine beach areas. It is shown, that in the marine areas with different degrees of isolation from the open sea by coast-protection engineering constructions, the mussels from different phenotypes have almost the same size-mass characteristics. Only the dry weight of soft animal body, which indicated to fatness of mollusk and therefore demonstrated his biological prosperity in specific hydrological conditions, can serve as a reliable criterion which can mark the shellfish habitats with different gradients of environmental factors.

.P. (2000): Factors controlling periphyton accrual during summeheadwater streams of southwestern British Columbia, Canada. Journal of Freshwater Ecology, 15, 339-351. Kovačević, G., Želježić, D., Horvatin, K., Kalafatić, M. (2007): Morphological features and comet assay of green and brown hydra treated with aluminium. Symbiosis, 44, 1-3, 145-152. Kovačević, G., Gregorović, G., Matijević, A., Kalafatić, M. (2016): Toxic effects of iron on green and brown hydra. Current science, 110, 4, 502-504. Liboriussen, L., Jeppesen, E., Bramm, M.E., Lassen, M.F. (2005): Periphyton

References Asaduzzman M., Wahab M., Verdegem M., Huque S., Salam M., Azim M.E. 2008 – C/N ratio control and substrate addition for periphyton development jointly enhance freshwater prawn Macrobrachium rosenbergii production in ponds – Aquaculture 280: 117-123. Avnimelech Y. 1999 – Carbon/nitrogen ratio as a control element on aquaculture systems – Aquaculture 176: 227-235. Avnimelech Y., Kochva M., Diab S. 1994 – Development of controlled intensive aquaculture systems with a limited water exchange and adjusted carbon to nitrogen ratio – Isr. J. Aquacult

development in the Lower Vistula (Ed.) Z. Churski, Inst. Geogr. UMK Torun (in Polish). Głodek J. 1985 - Dam lakes of the world - PWN Warszawa, 174 p. (in Polish). Głogowska B. 2000 - A geographical and hydrological profile of the study area. Hydrobiology of the lower Vistula River between Wyszogrod and Torun. An assessment of the influence of the Włocławek dam on the structure and functions of the river ecosystem. Part II - AUNC Limnol. Pap. 21: 11-22. Hanak-Schmager M. 1974 - Seston and periphyton of the Vistula River along the section from Nowy Bierun till the stage of

References Basu B.K., Kalff J., Pinel-Alloul B., 2000, The influence of macrophyte beds on plankton communities and their export from fluvial lakes in the St Lawrence River, Freshwater Biol. 45: 373-382. Downes B.J., Lake P.S., Schreiber E. S.G., Glaister A., 1998, Habitat structure and regulation of local species diversity in a stony, upland stream, Ecol. Monogr. 68: 237-257. Duggan I.C., 2001, The ecology of periphytic rotifers, Hydrobiologia 446/447: 139-148. Erben R., 1987, Rotifer fauna in the periphyton of Karst rivers in Croatia, Yugoslavia, Hydrobiologia

References Asaeda T., Son D.H. 2000 - Spatial structure and populations of a periphyton community: a model and verification - Ecol. Model. 133: 195-207. Battarbee R.W. 1979 - Diatoms in lake sediments - In: Paleohydrological changes in the temperate zone in the last 15,000 years (Ed.) B. Berglund, Lake and Mire Environments, Lund: 177-226. Belyaeva P.G. 2010 - Dynamics of Phytoperiphyton in the Basin of the Piedmont Sylva River, Perm Krai - Russ. J Ecol. 41: 95-98. Biggs B.J. 1996 - Hydraulic habitat suitability for periphyton in rivers - River Res. Appl. 12: 251

.A., 1956: Metody ekofiziologičeskogo issledovanija vodoroslej. - In: Pavlovsk i E .N., Zadin V.I. (eds), Life in the USS R freshwaters, 4: 122-160. - Moskva-Leningrad. Hill B.H., Webster J.R., 1982: Periphyton produc tion in Appalachian river. - Hydrobiologia, 97(3): 275-280. Jarlman A., Lindstrom E.-A., Eloranta P., Bengtsson R., 1996: Nordic standard for assessment of environmental quality in running water. - In: Whitton B.A., Rott E. (eds), Use of algae for monitoring rivers II: 17-29. - Innsbruck. Johanss on C., 1982: Attached algal vegetation in running waters of