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. Прудовиковые и чашечковые- (Lymnaeidae,- Acroloxidae) Украины- :- Монография.— Клев-:- Центр учебной литературы, 2004. - 327 с. Stenko R. P. The role of mollusks of Lymnaea "stagnalis" group in the development of trematodes in Crimea // Parasites and diseases of acquatic inverterbrates. — Moscow, 1986. — P. 135-137. — Russian : Стенько Р. П. Роль моллюсков Lymnaea группы-stagnalis-в развитии трематод на территории Крыма // Паразиты и болезни водныХ беспозвоночныХ. Shigina N. G. Life cycle of Plagiorchis mutationis Panova, 1927 — parasite gull birds / Parasitic worms of

Journal, 35(4), 75‒88. Cihon-Lukanina, E.A. (1987). Trophology of aquatic molluscs (in Russian) . Moscow: Nauka. Frömming, E. (1953). Quantitative studies on food intake of freshwater pulmonata snail Lymnaea stagnalis L. Fisheries, 2(5‒6), 451‒456. Kerr, S.R. (1982). Estimating the energy budget of actively predatory fishes. Can. J. Fish. Aquat. Sci., 39(3), 371‒379. DOI: 10.1139/f82-054. Kunakh, O.N., Kramarenko, S.S., Zhukov, A.V., Kramarenko, A.S. & Yorkina N.V. (2018). Fitting competing models and evaluation model parameters of the abundance distribution of

The Discovery of the Intermediate Host for the Trematode Moliniella anceps (Trematoda, Echinostomatidae) in Ukraine

The freshwater molluscs Lymnaea stagnalis (Linnaeus, 1758) are first reported as intermediate hosts of the trematode Moliniella anceps (Molin, 1859) Hübner, 1939, the parasite of meadow birds (Rallidae), in Ukraine (Dneprodzerzhynsk Reservoir, Poltavska oblast). Description and figure of metacercariae are provided.

: frontiers and constraints. Int. J. Parasitol., 44, 581-589. Rastyazhenko, N. M., Vodyanitskaya, S. N., Yurlova N. I. 2015. Th e emission of Plagiorchis multiglandulari cercariae from naturally infected snails Lymnaea stagnalis in Chany lake, south of West Siberia. Parazitologia, 49 (3), 190-199 [In Russian]. Shcherbina, T. V. 1976. Study of the life cycle of Plagiorchis multiglandularis. In: Biology of feeding, development and behaviour of birds. Leningrad, 149-155 [In Russian]. Shtein, G. A. 1957. Materials on the parasitology of water arthropods from some lakes of

-organism respiration rate on fitness. J. Evolutiona. Biol., 15: 388-398. Dalesman S., Lukowiak K. (2010). Effect of acute exposure to low environmental calcium on respiration and locomotion in Lymnaea stagnalis (L.). J. Exp. Biol., 213: 1471-1476. Dalesman S., Rundle S.D., Coleman R.A., Cotton P.A. (2006). Cue association and antipredator behavior inapulmonate snail, Lymnaea stagnalis. Anim. Behav., 71: 789-797. Dankowska E. (2011). Effectiveness of beer traps and molluscicides as means of gastropod control. Folia Malacol., 19: 273-275. Davies M.S., Blackwell J. (2007). Energy

gastropods. Proceedings of the Royal Society B: Biological Sciences, 237: 347-362. Presing, M., Balogh, K.V., Salinki, J., 1993. Cadmium uptake and depuration in different organs of Lymnaea stagnalis L. and the effect of cadmium on the natural zinc level. Archives of Environmental Contamination and Toxicology, 24: 28-34. Ratcliffe, N.A., Götz, P., 1990. Functional studies on insect haemocytes, including non-self recognition. Research in Immunology, 141: 919-923. Safaee, S., Fereidoni, M., Mahdavi-Shanri, N., Haddad, F., Mirshamsi, O., 2014. Effects of lead on the

bushiensis (Trematoda: Cyathocotylidae). Parazitologiya, 38, 191–205 (In Russian) [54] Yurlova N. I., Vodyanitskaya S. N, Serbina E. A., Biserkov V. Y., Georgiev B. B., Chipev N. H. (2006): Temporal Variation in Prevalence and Abundance of Metacercariae in the Pulmonate Snail Lymnaea stagnalis in Chany Lake, West Siberia, Russia: Long-Term Patterns and Environmental Covariates. J. Parasitol., 92(2): 249–259. DOI: 10.1645/GE-544R2.1 http://dx.doi.org/10.1645/GE-544R2.1 [55] Žďárská, Z. (1963): Trematode larval stages of aquatic snails in the territory of the CSSR

Association, Singapore. De Schamphelaere, K. A. C., Koene, J. M., Heijerick, D. G., Janssen, C. R. (2008): Reduction of growth and haemolymph Ca levels in the freshwater snail Lymnaea stagnalis chronically exposed to cobalt. Ecotoxicological and Environment Safety, 71, 65-71. Detholff, G. M., Schlenk, D., Hamm, J. T., Bailey, H. C. (1999): Alterations in physiological parameters of rainbow trout ( Oncorhynchus mykiss ) with exposure to copper and copper/zinc mixtures. Ecotoxicological and Environ Safety, 42, 253–264. Dhanakumar, S., Solaraj, G., Mohanraj, R. (2015): Heavy

: A review. Am. Mid. Nat., 131(2): 209–237. DOI: 10.2307/2426248 http://dx.doi.org/10.2307/2426248 [11] Esch, G. W., Kennedy, C. R., Bush, A. O., Aho, J. M. (1988): Patterns in helminth communities in freshwater fish in Great Britain: Alternative strategies for colonization. Parasitology, 96(3): 519–532. DOI: 10.1017/S003118200008015X http://dx.doi.org/10.1017/S003118200008015X [12] Faltynkova, A., Nasincova, V., Kablaskova, L. (2007): Larval trematodes (Digenea) of the great pond snail, Lymnaea stagnalis (L.), (Gastropoda, Pulmonata) in central Europe: A survey of

Protection, University of Opole; 2007. [73] Nałęcz-Jawecki G. Aquatic toxicity test method bioindicative. Biul Farmac. 2003;2:34-39. [74] Elder JF, Collins JJ, Freshwater molluscs as indicators of bioavailability and toxicity of metals in surface-water systems. Rev Environ Contam Toxicol. 1991;122:37-79. [75] Jurkiewicz-Karnkowska E, Krolak E. Heavy metal concentrations in molluscs from the Zegrzynski Reservoir and the rivers supplying it. Pol Arch Hydrobiol. 1996;43(3):335-346. [76] Piotrowski S. Heavy metal contents in shells of Lymnaea peregra (O.F. Müll.) and Lymnaea