Hhorizontal distribution of planktonic Crustacea
Polish Academy of Sciences. Institute of Ecology
Polish Academy of Sciences. Institute of Ecology. Publishing Office
Strony 205-218 : ilustracje ; 27 cm ; Bibliografia na stronach 217-218
The research concerned the density, dominance structure and species composition of planktonic Crustacea community, as well as their diel horizontal migrations between aggregations of vegetation and open water in the littoral zone of two lakes. The Cladocera communities of sparse beds of submerged macrophyte showed a sharp domination (70%) of individuals of large-sized tycholimnetic species. In the Cladocera community in a dense beds of macrophyte also individuals of littoral species occurred in greater numbers. The filamentous algal mats were mainly dominated by Copepoda and small tycholimnetic species of Cladocera. We observed a sharp daily gradient of Crustacea density across macrophyte beds and open water. The greatest diel changes were found near the edge of the macrophyte beds (ecotone zone). Daytime density of Cladocera was several times greater in the macrophyte beds than in the open zone, while during the night-time density differences were not so marked. In contrast, in the case of filamentous algal mat, the sharp gradient of abundance remained constant by both day and night.An inverse relationship between chlorophyll a concentration and Cladocera density was noted in the transect between beds of submerged macrophytes and open water, provide to effective control of phytoplankton biomass by Cladocera during their diel migrations.
Beklioglu M., Moss B., 1996 – Mesocosm experiments on the interaction of sediment influence, fish predation and aquatic plants with the structure of phytoplankton and zooplankton communities - Fresh. Wat. Biol. 36: 315-325.
Bottrell H. H., Duncan A., Gliwicz Z. M., Grygierek E., Herzig A., Hillbricht-Ilkowska A., Kurasawa H., Larsson P., Węgleńska T., 1976 - A review of some problems in zooplankton production studies - Norw. J. Zool. 24:419-456.
Canfield D. E. Jr., Shireman J. V., Colie D. E., Hailer W. T., Watkins C. E. II, Maceina M. J., 1984 - Prediction of chlorophyll a concentrations in Florida lakes: importance of aquatic macrophytes - Can. J. Fish. Aquat. Sci. 41:497-501.
Carpenter S., Lodge D., 1986 - Effects of submersed macrophytes on ecosystem processes - Aquat. Bot. 26: 341-370.
Czernik M., Rybak J. I., 1995 - Chwytacz do ilościowego pobierania próbek fauny bezkręgowej zasiedlającej skupiska glonów nitkowatych i związanej z makrofitami zanurzonymi [A new sampler for quantitative collection of invertebrate fauna associated with aggregations of tilamentous algae and submerged macrophytes] - Wiad. ekol. 41: 89-95 (in Polish, English summary).
Davies J., 1985 - Evidence for a diurnal horizontal migration in Daphnia hyalina lacustris Sars - Hydrobiologia 120: 103-105.
De Stasio B. T. Jt. 1993 - Diet vertical and horizontal migration by zooplankton: population budgets and than diurnal deficit - Bull. Mar. SCI. 53:44-64.
Jeppesen E., Lauridsen T. I., Kairesalo T., Perrow M. R. 1997 - Impact of submerged macrophytes on fish zooplankton interaction in lakes. (In: The structuring role of submerged macrophytes in lakes, Eds: E. Jeppesen, Martin Sondergaard, Morten Sondergaard, K. Christaffersen) - Springer Verlag, New York, 91 -114.
Kairesalo T., 1980 - Diurnal fluctuations within littoral plankton community in oligotrophic Lake Paajarvi, southern Finland - Freshwat. Biol. 10: 533-537.
Lauridsen T. L., Buenk I., 1996 - Diel changes in the horizontal distribution of zooplankton in the littoral zone of two shallow eutrophic lakes - Arch. Hydrobiol. 137: 161-176.
Lauridsen T. L., Jeppesen E., Sondergaard Martin, Lodge D. M., 1998 - Horizontal migration of zooplankton: predator - mediated use of macrophyte habitat. (In: The structuring role of submerged macrophytes in lakes, Eds: E. Jeppesen, Martin Sondergaard, Morten Sondergaard, K. Christatfersen) - Springer Verlag, New York, 233-239.
Lauridsen T. L., Lodge D., 1996 - Avoidance by Daphnia magna fish and macrophytes: chemical cues and predator-mediated use of macrophyte habitat - Limnol. Oceanogr. 41 : 794-798.
Lauridsen T. L., Pedersen L. J., Jeppesen E., Sondergaard M., 1996 - The importance of macrophyte bed size for cladoceran composition and horizontal migration in a shallow lake - J. Plankton Res., 18: 2283-2294.
Paterson M., 1993 - The distribution of microcrustacea in the littoral zone of a freshwater lake - Hydrobiologia 263: 173-183.
Pennak R. W., 1973 - Some evidence for aquatic macrophyte as repellents for a limnetic species of Daphnia - Int. Rev. Ges. Hydrobiol. 58: 569-573.
Reynoldson C. S., 1994 - The ecological basis for the successful biomanipulation of aquatic communities - Arch. Hydrobiol. 130: 1-33.
Rybak J. I. 1960 - Rozmieszczenie skorupiaków planktonowych w litoralu i pelagialu ze szczególnym uwzględnieniem granicy między tymi biotopami [Distribution of the planktonic crustaceans in the littoral and pelagial zone with the special attemps given to the border between these biotopes] - Ekol. Pol. seria A, 8: 133-153. (In Polish, English summary).
Siebeck O. 1980 - Optical orientation of pelagic crustaceans and its consequence in the pelagic and littoral zones. (In: Evolution and ecology of zooplankton communities, Ed. W. C. Kerfoot) - Hannover, NH. University Press of New England, 28-38.
Sondergaard M., Moss B., 1997 - Impact of submerged macrophytes on phytoplankton in shallow freshwater lakes. (In: The structuring role of submerged macrophytes in lakes, Eds: E. Jeppesen, Martin Sondergaard, Morten Sondergaard, K. Christaffersen) - Springer Verlag, New York, 125-132.
Straskraba M., 1967 - Quantitative study on the littoral zooplankton of the Poltruba backwater with an attempt to disclose the effect of fish. (In: Contribution to the productivity of the littoral region of ponds and pools, Eds: M. Straskraba, J. Korinkova, M. Postolnikova) - Rozpr. CSAV, Rada Matemat. Prirod. Ved, 77: 3-34.
Szlauer L., 1963 - Diurnal migration of minute invertebrates in habiting the zone of submerged hydrophytes in a lake - Schweiz. A. Hydrol. 25: 56--64.
Timms R. M., Moss B., 1984 - Prevention of growth of potentially dense phytoplankton populations by zooplankton grazing in the presence of zooplanktivorous fish, in a shallow wetland ecosystem - Limnol. Oceanogr. 29: 477-486.
Walls M., Rajasilta M., Sarvala J., Salo J., 1990 - Diet changes in horizontal distribution of littoral Cladocera - Limnologica, 20: 253-258
Węgleńska T., Ejsmont-Karabin J., Rybak J. I., 1997 - Biotic interactions of the zooplankton community of a shallow, humic lake - Hydrobiologia 342/343: 185-195.
Whittaker R. A., Fairbanks C. K., 1958 - A study of plankton communities in the Columbia Basin - Ecology 39: 46-65.
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Muzeum i Instytut Zoologii Polskiej Akademii Nauk
Biblioteka Muzeum i Instytutu Zoologii PAN
Feb 4, 2022
Mar 18, 2020
52
https://rcin.org.pl./publication/91627
Ozimek, Teresa
Rybak, Jan Igor Węgleńska, Teresa
Kufel, Lech Królikowska, Joanna Kufel, Irena
Ozimek, Teresa
Ozimek, Teresa Prejs, Krystyna Prejs, Andrzej
Węgleńska, Teresa