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Tytuł artykułu

Rotifera communities associated with invasive Vallisneria spiralis L. (Hydrocharitaceae) versus native macrophytes in the lakes heated by power stations (Konin lakes, W. Poland)

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The role that invasive Vallisneria spiralis L. plays in determining the species richness of the rotifer community was examined in the littoral zone of two heated (by power stations) lakes near Konin (W. Poland) (Lake Licheńskie - area 153.6 ha, max. depth 13.3 m and Lake Ślesińskie - area 148.1 ha, max. depth 25.7 m). Vallisneria spiralis is a thermophilic and vegetative reproducing species which has been recorded in the lakes since the 1990s. It spreads very quickly in the lakes, forming monospecific, dense beds which, force out all other submerged vegetation. Samples were collected in August 2004 on 8 littoral stations of Lake Licheńskie and Ślesińskie. Five-liter samples of water (plankton species) and macrophytes (epiphytic species) were elaborated separately. An analysis of the taxonomic structure of rotifer communities inhabiting single-species Vallisneria beds and mixed-species (Vallisneria plus other macrophyte species) beds showed that both communities were relatively rich in species and similar in terms of species composition. A total of 100 species of Monogononta were identified. Single-species Vallisneria beds were inhabited by 77 species, whereas 82 species were found at stations with mixed vegetation. Species diversity was relatively high in both types of macrophyte assemblages. Numbers of rotifer species inhabiting the single-species Vallisneria beds are among the average values observed in a littoral zone rich in macrophyte species from lakes of different morphometry and trophic state. The above observations confirm part of the conclusions from literature that invasions by new plant species do not always lead to a decline in the habitat value for native animals. Otherwise, the invaded plant creates the habitat easily colonized by the native plankton and epiphytic invertebrates.
Rocznik
Strony
569--576
Opis fizyczny
Bibliogr. 23 poz.,
Twórcy
  • Department of Hydrobiology, Institute of Biology, University of Białystok, Świerkowa 20 B, 15-950 Białystok, Poland, jolanta@onet.pl
Bibliografia
  • 1. Bellan-Santini D., Arnaud P.M., Bellan G., Verlaque M. 1996 - The influence of the introduced tropical alga Caulerpa taxifolia, on the biodiversity of the Mediterranean marine biota – J. Mar. Biol. Assoc. UK 76: 235–237.
  • 2. Bevington D.J., White C., Wallace R.J. 1995 – Predatory behavior of Cupelopagis vorax (Rotifera; Collothecacea; Atrochidae) on protozoan prey – Hydrobiologia, 313–314: 213–217.
  • 3. 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.
  • 4. 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. 1: 59: 201–207.
  • 5. Elton C.S. 1958 – The ecology of invasions by animals and plants – Methuen & Co. Ltd., London, 175 pp.
  • 6. Heywood V.H. 1989 – Patterns, extents, and modes of invasions by terrestrial plants (In: Biological Invasions: A Global Perspective, SCOPE 37, Eds: J.A. Drake, H.A. Mooney, F. di Castri, R.H. Groves, F.J. Kruger, M. Rejmanek and M.Williamson) – Chichester, U.K., John Wiley & Sons Ltd., pp. 31–60.
  • 7. 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.
  • 8. Hutorowicz A. 2006 – Vallisneria spiralis (Hydrocharitaceae) in lakes in the vicinity of Konin (Pojezierze Kujawskie) – Biodiversity: Research and Conservation, 1–2: 154–158.
  • 9. Hutorowicz A., Dziedzic J., Kapusta A. 2006 – Nowe stanowiska Vallisneria spiralis (Hydrocharitaceae) w jeziorach konińskich (Pojezierze Kujawskie) [Vallisneria spiralis (Hydrocharitaceae) localities in Konin Lakes (Kujawy Lakeland)] – Fragm. Flor. Geobot. Polonica, 13: 89–94.
  • 10. Kelly D.J., Hawes I. 2005 – Effects of invasive macrophytes on littoral-zone productivity and foodweb dynamics in a New Zealand high-country lake – J. North Amer. Benthol. Soc. 24: 300–320
  • 11. Kuczyńska-Kippen N. 2000 – Seasonal changes of the rotifer community in the littoral of a polymictic lake – Verh. Internat. Verein. Limnol. 27: 2964–2967.
  • 12. Morales C.L., Aizen M.A. 2002 – Does invasion of exotic plants promote invasion of exotic flower visitors? A case study from temperate forests of the southern Andes – Biological Invasions, 4: 87–100.
  • 13. Reed C. 1978 – Species diversity in aquatic ecosystems – Ecology, 59: 481–488.
  • 14. Shurin J.B. 2000 – Dispersal limitation, invasion resistance, and the structure of pond zooplankton communities – Ecology, 81: 3074–3086
  • 15. 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
  • 16. Theel H.J., Dibble E.D., Madsen J.D. 2008 – Differential influence of a monotypic and diverse native aquatic plant bed on a macroinvertebrate assemblage; an experimental implication of exotic plant induced habitat – Hydrobiologia, 600: 77–87.
  • 17. Weis J.S., Weis P. 2000 – Behavioral response and interactions of estuarine animals with an invasive marsh plant: a laboratory analysis – Biological Invasions, 2: 305–314.
  • 18. Whittaker R.H., Fairbanks C.W. 1968 – A study of plankton copepod communities in the Columbia Basin, Southeastern Washington – Ecology, 39: 46–65.
  • 19. Wilson S.J., Ricciardi A. 2009 – Epiphytic macroinvertebrate communities on Eurasian watermilfoil (Myriophyllum spicatum) and native milfoils Myriophyllum sibericum and Myriophyllum alterniflorum in eastern North America – Can. J. Fish. Aquatic. Sci. 66: 18–30.
  • 20. Viejo R.M. 1999 – Mobile epifauna inhabiting the invasive Sargassum muticum and two local seaweeds in northern Spain – Aquatic Botany, 64: 131–149.
  • 21. Wikstrom S.A., Kautsky L. 2004 – Invasions of a habitat-forming seaweed: effects on associated biota – Biological Invasions, 6: 141–150.
  • 22. 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.
  • 23. Zdanowski B., Dunalska J., Stawecki K. 2002 – Variability of nutrients content in heated lakes of the Konin area – Limnological Review, 2: 457–464.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3304-2849
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