Effects of grass carp introduction on macrophyte communities in a shallow lake

• Autorzy: Krupska J. , Pełechaty M. , Pukacz A. , Ossowski P.
• Języki publikacji: EN

Abstrakty

EN

In 2002, 2005 and 2007 vegetation and physicochemical properties of pelagial water were investigated in a shallow mid-forest lake. In 2002, the highest phytocoenotic diversity was recorded; charophytes and vascular submerged macrophytes formed their own extensive communities. After stocking with grass carp (Ctenopharyngodon idella Val.) in 2002, reduction of water transparency, as well as changes in qualitative and quantitative composition of macrophyte communities were observed. Submerged vegetation declined during subsequent growing seasons. Charophyte meadows vanished first. The introduction of grass carp appeared to be a potential trigger for the rapid changes observed in the vegetation.

Słowa kluczowe

EN

grass carp; Ctenopharyngodon idella; fish stocking; macrophytes; charophytes

• Wydawca: Institute of Oceanography University of Gdańsk
• Czasopismo: Oceanological and Hydrobiological Studies
• Rocznik: 2012
• Tom: Vol. 41, No. 1
• Strony: 35--40
• Opis fizyczny: Bibliogr. 41 poz., tab.

Twórcy

autor

Krupska J.

autor

Pełechaty M.

autor

Pukacz A.

autor

Ossowski P.

• Adam Mickiewicz University, Faculty of Biology, Department of Hydrobiology, Umultowska 89, 61-614 Poznań, Poland,

Bibliografia

• 1.Blindow, I. (1992). Decline of charophytes during eutrophication: a comparison to angiosperm. Freshwater Biol., 28, 15-27.
• 2.Bonar, S. A., Sehgal, H. S., Pauley, G. B. & Thomas, G. L. (1990). Relationshipbetween the chemical composition of aquatic macrophytes and their consumption by grass carp, Ctenopharyngodon idella. J. Fish Biol., 36, 149-157.
• 3.Braun-Blanquet, J. (1964). Pflanzensoziologie, Grundzüge der Vegetationskunde, Wien-New York. Springer Verlag, 3, 865.
• 4.Carlson, R. E. (1977). A trophic state index for lakes. Limnol. Oceanogr., 22, 361-369.
• 5.Cassani, J. R. & Caton, W. E. (2006). Feeding behaviour of yearling and older hybrid grass carp. J. Fish Biol., 22 (1), 35-41.
• 6.Catarino, L. F., Ferreira, M. T. & Moreira, I. S. (1997). Preferences of grass carp for macrophytes in Iberian drainage channels. J. Aquat. Plant Manage., 36, 79-83.
• 7.Cure, V. (1970). Dezvoltarea speciei Ctenopharyngodon idella (Val.) in azul Frasinet. Bulet. Instit. de Cercet. si Piscic., XXIX (4), 31-51.
• 8.Dąmbska, I. (1964). Charophyta - ramienice. Flora słodkowodna Polski (pp. 126). Warszawa: Polska Akademia Nauk, Instytut Botaniki.
• 9.Dibble, E. D. & Kovalenko, K. (2009). Ecological Impact of Grass Carp.
• 10.A Review of the Available Data. J. Aquat. Plant Manage, 47, 1-15.
• 11.Fischer, Z. (1968). Food selection in Grass carp (Ctenopharyngodon idella Val.) under experimental conditions. Pol. Arch. Hydrobiol., 15, 1-8.
• 12.Fischer, Z. & Lyakhnovich, V. P. (1973). Biology and bioenergetics of grass carp (Ctenopharyngodon idella Val.). Pol. Arch. Hydrobiol., 20, 521-557.
• 13.Fukarek, F. (1967). Fitosocjologia (pp. 217). Warszawa: PWRiL.
• 14.Hargeby, A., Blindow, I. & Andersson, G. (2007). Long-term patterns of shifts between clear and turbid states in Lake Krankesjön and Lake Tåkern. Ecosystems, 10, 29-36.
• 15.Hargeby, A., Blindow, I. & Hansson L. A . (2004). Shifts between clear and turbid states in a shallow lake: multicausal stress from climate, nutrients and biotic interactions. Arch. Hydrobiol., 161, 433-454.
• 16.Hietala, J., Vakkilainen, K. & Kairesalo, T. (2004). Community resistance and change to nutrient enrichment and fish manipulation in a vegetated lake littoral. Freshwater Biol., 49, 1525-1537.
• 17.Hutchinson, G. E. (1975). A treatise on Limnology, vol 3: Limnological botany (pp. 660). New York: John Willey & Sons.
• 18.Jähnichen, H. (1967). Die Aufnahme von Wasser- und Landpflanzen durch junge Graskarpfen Ctenopharyngodon idella. Dt. Fisch Ztg., Radebul 14, 147-151.
• 19.Jańczak, J. (Ed.). (1996). Atlas jezior Polski. Tom I. Jeziora Pojezierza Wielkopolskiego w granicach dorzecza Odry (pp. 28-29). Poznań: Bogucki Wydawnictwo Naukowe.
• 20.Jeppesen, E., Søndergaard, M., Søndergaard, M. & Christoffersen, K. (Eds.). (1997). The structuring role of submerged macrophytes in lakes. In: Ecological Studies vol. 131 (pp. 423). New York: Springer.
• 21.Krause, W. (1981). Characeen als Bioindicatoren für den Gewässerzustandt. Limnologica, 13, 399-418.
• 22.Krause, W. (1997). Charales (Charophyceae), Süsswasserflora von Mitteleuropa, Band 18 (pp. 202). Jena: Gustav Fischer Verlag.
• 23.Krzywosz, T., Krzywosz, W. & Radziej, J. (1980). The effect of grass carp, Ctenopharyngodon idella (Val.), on aquatic vegetation and ichtyofauna of Lake Dgał Wielki. Ekol. Pol., 28, 433-450.
• 24.Moss, B., Stephen, D., Balayla, D. J., Bécares, E. & Collings, S. E. (2004). Continental-scale patterns of nutrient and fish effects on shallow lakes: synthesis of a pan-European mesocosm experiment. Freshwater Biol., 49, 1633-1649.
• 25.Opuszyński, K. (1969). Produkcja ryb roślinożernych (Ctenopharyngodon idella Val. i Hypophthalmichthys molitrix Val.) w stawach karpiowych. Roczniki Nauk Rolniczych, Seria H, 91, 221-309.
• 26.Opuszyński, K. & Shireman J. V. (1995). Herbivorous Fishes: Culture and Use for Weed Management, Boca Raton (pp. 223). Florida: CRC Press.
• 27.Pełechaty, M. (2006). Wykorzystanie ramienic w fitoindykacji. Ekologia i Technika, XIV (3), 98-102.
• 28.Pełechaty, M. & Pukacz A. (2004). Chara polyacantha i Charetum polyacanthae - rzadki gatunek i zbiorowisko na tle struktury roślinności płytkiego śródleśnego jeziora. Badania fizjograficzne nad Polska Zachodnią, Seria B - Botanika 53, 71-80.
• 29.Pełechaty, M. & Pukacz, A. (2008). Klucz do oznaczanie gatunków ramienic (Characeae) w rzekach i jeziorach (pp 80). Warszawa: Biblioteka Monitoringu Środowiska.
• 30.Pine, R. T. & Anderson L. W. J. (1991). Plant preferences of triploid grass carp. J. Aquat. Plant Menage., 29, 80-82.
• 31.Pípalová, I. (2006). A review of grass carp use for aquatic weed control and its impact on water bodies. J. Aquat. Plant Menage., 4, 1-12.
• 32.Pukacz, A., Pełechaty, M. & Pełechata, A. (2004). Próba oceny stanu ekologicznego jezior o różnej morfometrii i typie miksji. Ekologia i Technika, XIV 4, 99-108.
• 33.Scheffer, M. & Jeppesen, E. (1997). Alternative stable states. In: Jeppesen, E., Søndergaard, M., Søndergaard, M. & Christoffersen K. (Eds.), The structuring role of submerged macrophytes in lakes (pp. 397-406). New York: Springer.
• 34.Stephen, D., Balayla, D., Bécares, E., Collings, S. E. & Fernández-Aláez C. (2004). Continental-scale patterns of nutrient and fish effects on shallow lakes: introduction to a pan-European mesocosm experiment. Freshwater Biol., 49, 1517-1524.
• 35.Van De Bund, W. J. & Van Donk, E. (2004). Effects of fish and nutrient additions on food-web stability in a charophyte-dominated lake. Freshwater Biol., 49, 1565-1573.
• 36.Van den Berg, M. S., Scheffer, M., Coops, H. & Simons, J. (1998). The role of Characean algae in the management of eutrophic shallow lakes. J. Phycol., 34, 750-756.
• 37.Van den Berg, M. S., Scheffer, M., Van Nes, E. H. & Coops, H. (1999). Dynamics and stability of Chara sp and Potamogeton pectinatus in a shallow lake changing in eutrophication level. Hydrobiologia, 409, 335-342.
• 38.Van der Zwerde, W. (1990). Biological control of aquatic weeds by means of phytophagous fish. In Pieterse, A. H & Murphy, K. J. (Eds.), Aquatic Weeds The Ecology Management of Nuisance Aquatic Vegetation (pp. 201-221). Oxford: Oxford. Univ. Press.
• 39.Van Donk, E. & Van de Bund, W. J. (2002). Impact of submerged macrophytes including charophytes on phyto- and zooplankton communities: allelopathy versus other mechanisms. Aquat. Bot., 72, 261-274.
• 40.Van Zon, J. C. J. (1977). Grass carp (Ctenopharyngodon idella Val.) in Europe. Aquat. Bot., 3, 143-155.
• 41.Verigin, B. V. (1961). Itogi rab po aklimatizacii dal'nevostočnyh rastitel'noâdnyh ryb i merpriâtiâ po ih dal'nejšemu osvoeniû i Izuniu v novyhrajonah. Vop. Ihtiol., 1 (18), 640-649.