Spatial distribution of rotifers (Rotifera) in monospecies beds of invasive Vallisneria spiralis L. in heated lakes

• Autorzy: Ejsmont-Karabin J. , Hutorowicz A.
• Języki publikacji: EN

Abstrakty

EN

Species abundance and richness of rotifer communities occupying monospecies beds of Vallisneria was studied in Lake Licheńskie included in the open cooling system of heat and power stations. Differences were found in rotifer numbers, species composition and diversity between sampling points within the same location and between the locations. Factors that seem to be responsible for the high diversity of rotifer communities inhabiting Vallisneria beds are: large-scale horizontal diversity (between macrophyte patches), small-scale horizontal diversity (within patches) and the high vulnerability of Vallisneria epiphyton to disturbances caused by wave action.

Słowa kluczowe

EN

invasive Vallisneria spiralis; Rotifera; lake littoral; heated lake

• Wydawca: Institute of Oceanography University of Gdańsk
• Czasopismo: Oceanological and Hydrobiological Studies
• Rocznik: 2011
• Tom: Vol. 40, No.4
• Strony: 71--76
• Opis fizyczny: Bibliogr. 24 poz., rys., wykr.

Twórcy

autor

Ejsmont-Karabin J.

autor

Hutorowicz A.

• Department of Hydrobiology, Institute of Biology, University of Białystok, Świerkowa 20 B, 15-950 Białystok, Poland,

Bibliografia

• 1.Duggan I.C., Green J.D., Thompson K., Shiel R.J., 1998, Rotifers in relation to littoral ecotone structure in Lake Rotomanuka, North Island, New Zealand. Hydrobiologia, 387/388: 179-197
• 2.Duggan I. C., Green J. D., Thompson K., Shiel R. J., 2001, The influence of macrophytes on the spatial distribution of littoral rotifers, Freshw. Biol., 46: 777-786
• 3.Ejsmont-Karabin J., 2011, Does invasion of Vallisneria spiralis L. promote appearance of rare and new rotifer (Rotifera) species in littoral of the lakes heated by power station (Konin Lakes, W. Poland)?, Pol. J. Ecol., 59: (in press)
• 4.Ejsmont-Karabin J., Hutorowicz A., 2011, Rotifera communities associated with invasive Vallisneria spiralis (Hydrocharitaceae) versus native macrophytes in the lakes heated by power stations (Konin lakes, W. Poland), Pol. J. Ecol., 59: (in press)
• 5.Havens K.E., 1991, Summer zooplankton dynamics in the limnetic and littoral zones of a humic acid lake. Hydrobiologia, 215: 21-29
• 6.Hillbricht-Ilkowska A., Ejsmont-Karabin J., Węgleńska T., 1988, Long-term changes in the composition, productivity and trophic efficiency in the zooplankton community of heated lakes near Konin (Poland), Ekol. pol., 36: 115-144
• 7.Hutorowicz A., 2006, Vallisneria spiralis (Hydrocharitaceae) in lakes in the vicinity of Konin (Pojezierze Kujawskie), Biodiversity: Research and Conservation, 1-2: 154-158
• 8.Hutorowicz A., Dziedzic J., Kapusta A., 2006, Nowe stanowiska Vallisneria spiralis (Hydrocharitaceae) w jeziorach konińskich (Pojezierze Kujawskie), Fragm. Flor. Geobot. Polonica, 13: 89-94
• 9.Jones J.I., Moss B., Eaton J.W., Young J.O., 2000, Do submerged aquatic plants influence periphyton community composition for the benefit of invertebrate mutualists? Freshw. Biol., 43: 591-604
• 10.Kairesalo T., 1980, Diurnal fluctuations within a littoral plankton community in oligotrophic Lake Paajarvi, southern Finland, Freshw. Biol., 10: 533-537
• 11.Kelly D.J., Hawes I., 2005, Effects of invasive macrophytes on littoralzone productivity and food web dynamics in a New Zealand high-country lake, J. N. Am. Benthol. Soc., 24: 300-320
• 12.Kuczyńska-Kippen N., 2003, The distribution of rotifers (Rotifera) within a single Myriophyllum bed, Hydrobiologia, 506-509: 327-331
• 13.Kuczyńska-Kippen N., Nagengast B., 2002, The role of hydromacrophytes in structuring zooplankton communities in Wielkowiejskie Lake (Wielkopolski National Park), MORENA, 9: 7-16 (in Polish)
• 14.Kuczyńska-Kippen N., Nagengast B., 2003, The impact of the spatial structure of hydromacrophytes on the similarity of rotifera communities (Budzyńskie Lake, Poland), Hydrobiologia, 506-509: 333-338
• 15.Paturej E., Bogacka-Kapusta E., Kapusta A., 2007, Abundance and diversity of zooplankton in the littoral zone of Lake Licheńskie, Arch. Pol. Fish., 15: 353-367
• 16.Pontin R.M., Shiel R.J., 1995, Periphytic rotifer communities of an Australian seasonal floodplain pool, Hydrobiologia, 313/314: 63-67
• 17.Shurin J.B., 2000, Dispersal limitation, invasion resistance, and the structure of pond zooplankton communities, Ecology, 81: 3074-86
• 18.Simm A.T., 1988, Changes in the composition and quantitative relations of the phytoplankton in heated lakes near Konin (Poland), Ekol. pol., 36: 97-113
• 19.Talley T.S., Levin L.A., 2001, Modification of sediments and macrofauna by an invasive marshplant, Biological Invasions, 3: 51-68
• 20.Whittaker. R. H., Fairbanks C. W., 1968, A study of plankton copepod communities in the Columbia Basin, Southeastern Washington, Ecology, 39: 46-65
• 21.Wikstrom S.A., Kautsky L., 2004, Invasions of a habitat-forming seaweed: effects on associated biota, Biological Invasions, 6: 141-150
• 22.Wilson S.J., Ricciardi A., 2009, Epiphytic macroinvertebrate communities on Eurasian watermill foil (Myriophyllum spicatum) and native milfoils Myriophyllum sibericum and Myriophyllum alterniflorum in eastern North America, Can. J. Fish. Aquat. Sci., 66: 18-30
• 23.Zdanowski B., 1994, Long-term changes of phosphorus and nitrogen content and of trophic status in heated Konin lakes, Arch. Ryb. Pol., 2: 178-192
• 24.Zdanowski B., Dunalska J., Stawecki K., 2002, Variability of nutrients content in heated lakes of the Konin area, Limnological Review, 2: 457-464