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Zooplankton was the only food component of common bream and silver bream, and the main food component of roach and bleak in the pelagic zone of the Dobczyce Reservoir (southern Poland) from April to October 1994. Cladocera and Copepoda constituted 67.9% of the food consumed by the whole fish community. The average size of eaten individuals ranged from 0.62 to 1.43 mm. Planktivorous fishes selected phytoplankton-controlling filtrators, mainly large Daphnia species, which were eliminated most effectively in the summer.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
15--31
Opis fizyczny
Bibliogr. 38 poz., tab., wykr.
Twórcy
autor
- Karol Starmach Institute of Freshwater Biology, Polish Academy of Sciences, ul. Sławkowska 17, 31-016 Kraków, Poland
autor
- Karol Starmach Institute of Freshwater Biology, Polish Academy of Sciences, ul. Sławkowska 17, 31-016 Kraków, Poland
Bibliografia
- [1]. Adamek Z., 2000, Manipulowanie biomasą ryb i strukturą gatunków jako metoda kontroli kształtowania jakości wody w zbiornikach wodnych, Przegląd Rybacki, 3 (52), 33-43.
- [2]. Armirowicz A., 1998, Consequences of the basin morphology for fish community in a deep-storage submontane reservoir, Acta Hydrobiol., 39 (1997), Suppl. 1,35-56.
- [3]. Amirowicz A., 2000, Morfologia zbiornika, [in:] Zbiornik Dobczycki. Ekologia - eutrofizacja - ochrona, Starmach J., Mazurkiewicz-Boroń G. (eds.), ZBW PAN, Kraków, 57-63.
- [4]. Amirowicz A., Pociecha A., Wilk-Woźniak E., 2000, Łańcuch troficzny w pelagialu, [in:] Zbiornik Dobczycki. Ekologia - eutrofizacja - ochrona, Starmach J., Mazurkiewicz-Boroń G. (eds.), ZBW PAN, Kraków, 177-184.
- [5]. Areifa M. S., 1986, Fish—zooplankton interactions and their effects on water quality of a tropical Brazilian reservoir, Hydrobiologia, 139, 49-58.
- [6]. Bottrell H. H., Duncan A., Gliwicz Z. M., Grygierek E., Herzig A., Hilbricht-Ilkowska A., Kurasawa H., Larsson P., Węgleńska T., 1976, A review of some problems in zooplankton production studies, Norwegian Journal of Zoology, 24, 419-456.
- [7]. Brooks J. L., Dodson S. I., 1965, Predation, body size and the composition of the plankton, Science, 150, 28-35.
- [8]. Van den Berg C., Van den Boogaart J. G. M., Sibbing F. A. Osse J. W. M., 1994, Zooplankton feeding in common bream (Abramis brama), white breani (Blicca bjoerkna) and roach (Rutilus rutilus): experiments, models and energy intake, Netherlands Journal of Zoology 44 (1-2): 15-42.
- [9]. Cummins K. W., Costa R. R., Rowe R. E., Moshiri G. A., Scanlon R. M. Zajdel R. K., 1969, Ecological energetics of a natural population zooplankter Leptodora kindtii Focke (Cladocera), Oikos, 20,189-223.
- [10]. Dawidowicz P., Gliwicz Z. M., 1987, Biomanipulacja. 3. Rola bezpośrednich i pośrednich zależności pomiędzy fitoplanktonem i zooplanktonem, Wiad. Ekol., 33, 259-277.
- [11]. Dumont H. J., Van de Velde I., Dumont S., 1975, The dry weight estimate of biomass in a selection of Cladocera, Copepoda and Rotifera from the plankton, periphyton and benthos of continental waters, Oecologia (Beri.), 19, 75-97.
- [12]. Eggers D.M. 1979. Comments on some recent methods for estimating food consumption by fish, J. Fish. Res. Bd Can., 36, 1018-1019.
- [13]. Gliwicz Z. M., Jachner A., 1992, Diel migrations of juvenile fish: a ghost of predation past or present? Arch. Hydrobiol., 124, 385-410.
- [14]. Gliwicz Z. M., Prejs A, 1977, Can planktivorousfish keep in check planktonie crustacean populations? A test of size efficiency hypothesis in typical Polish lakes, Ekol. Pol., 25, 567-591.
- [15]. Hessen D. O., 1985, Selective zooplankton predation by pre-adult roach (Rutilus rutilus): the size selective hypothesis vs. t/ze visibility-selective hypothesis, Hydrobiologia, 124, 73-80.
- [16]. Hessen D. O., Nilssen J. P., 1986, From phytoplankton to detritus and Bacteria: effects of short-term nutrient and fish perturbations in an eutrophic lake, Arch. Hydrobiol., 105, 273-284.
- [17]. Horppila J., Kairesalo T., 1992, impacts of bleak (Alburnus alburnus (L.)) and roach (Rutilus rutilus (L.)) on witer quality, sedimentation and internal nutrient loading, Hydrobiologia, 243/244, 323-331.
- [18]. Horppila J., 1994, The diet and growth of roach (Rutilus rutilus (L.)) in Lake Vesijćirvi and possible changes in the course of biomanipulation, Hydrobiologia, 294, 35-41.
- [19]. Jeppesen E., Sondergaard M., Mortensen E., Kristensen P., Riemann B., Jensen H. J., Miller J. P., Sortkjaer O., Jensen J. P., Christoffersen K., Bosselmann S., Dall E., 1990, Fish manipulation as a lake restoration tool in shallow, eutrophic temperate lakes. 1: cross-analysis of three Danish case-studies, Hydrobiologia, 200/201, 205-218.
- [20]. Lang B., Lang C., 1986, Coregonidfish: key predators in an eutrophic lake? Arch. Hydrobiol. Beih., 22, 363-372.
- [21]. O'Brien W. J., 1979, The predator - prey intĘraction of planktivorous fish and zooplankton, Am. Sci., 67, 572-581.
- [22]. Mazurkiewicz G., 1988. Environmental characteristics of affluents of the Dobczyce Reservoir (Southern Poland) in the preimpoundment period (1983-1985). 1. Some physico-chemical indices, Acta Hydrobiol., 30, 287-296.
- [23]. Mazurkiewicz-Boroń G., 2000, Parametry siedliskowe i troficzne, [in:] Zbiornik Dobczycki. Ekologia - eutrofizacja - ochrona, Starmach J., Mazurkiewicz-Boroń G. (eds.), ZBW PAN, Kraków, 63-80.
- [24]. Pasternak K., 1980, Characteristics of the Dobczyce dam water reservoir, Zesz. Probl. Post. Nauk Roln., 235, 201-203 [in Polish with English summary].
- [25]. Persson G., Ekbohm G., 1980, Estimation of dry weight in zooplankton populations: Methods applied to crustacean populations from lakes in the Koukkel Area, Northern Sweden, Arch. Hydrobiol., 89,1/2, 225-246.
- [26]. Pociecha A., 2002, Wpływ czynników abiotycznych i biotycznych na strukturę i dynamikę zespołu zooplanktonu w zbiorniku zaporowym (Zbiornik Dobczycki, południowa Polska), PhD thesis, Uniwersytet Łódzki, Łódź, 106 pp.
- [27]. Post J. R., McQueen D. J., 1987, The impact of planktivorous fish on the srructure of a plankton community, Freshwater Biology, 17, 79-89.
- [28]. Punzet J., 1969, Hydrological characteristics of the River Raba, Acta Hydrobiol., 11, 423-477 [in Polish with English summary].
- [29]. Pyke G. H., Pulliam R., Charnow I., 1977, Optimal foraging: a selective review oftheory and tests, Ann. Rev. Biol., 52, 137-150.
- [30]. Raess F., Maly E. J., 1986, The short-term effects of perch predation on a zooplankton prey community, Hydrobiologia, 140, 155-160.
- [31]. Reynolds C. S., 1994, The ecological basis for the successful biomanipulation of aquatic communities. Arch. Hydrobiol., 130, 1-33.
- [32]. Rutner-Kolisko A., 1977, Suggestions for biomass calculation of plankton rotifers, Arch. Hydrobiol. Beih., 8, 71-76.
- [33]. Santer B., 1993, Potential importance of algae in the diet of adult Cyclops vicinus, Freshwater Biology, 30, 269-278.
- [34]. Santer B., Van den Bosch F. 1994, Herbivorous nutrition of Cyclops vicinus the effect of a pure algal diet on feeding, development, reproduction and life cycle, Journal of Plankton Research, 16, (2), 171-195.
- [35]. Seda J., Kubecka J., Brandi Z., 1989, Zooplankton structure and fish population development in the Rimov Reservoir, Czechoslovakia, Arch. Hydrobiol. Beih., Ergebn. Limnol., 33, 605-609.
- [36]. Sokal R. R., Rohlf F. J., 1987, Introduction to biostatistics, W.H. Freeman and Comp., New York, 365 pp.
- [37]. Starmach J., 1988, Możliwość regulacji funkcjonowania ekosystemu Zbiornika Dobczyckiego, [in:] "Biomanipulacja jako metoda biologiczna zachowania czystości wody w zbiornikach zaporowych", Mat. Symp., Mogilany, 16-17 maja 1988, (Publ. PZITS No 553), 139-143.
- [38]. Wilk-Woźniak E., 2000, Fitoplankton, [in:] Zbiornik Dobczycki. Ekologia - eutrofizacja - ochrona, Starmach J., Mazurkiewicz-Boroń G. (eds.), ZBW PAN, Kraków, 95-112.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS8-0013-0039