Effects of pond fertilization and feeding of Carp Fry (Cyprinus carpio L.) on diversity of zooplankton groups (Rotifera, Cladocera, and Copepoda)

• Autorzy: Bielanska-Grajner I. , Cebulska K. , Sojka K. , Palosz P. , Kolek L.
• Języki publikacji: EN

Abstrakty

EN

The aim of our study was to compare the biodiversity of zooplankton in experimental ponds with various combinations of fertilizers and supplementary fish feed. Zooplankton samples were collected twice a month from April to September 2015. Rotifers were the most diverse and the most abundant zooplankton group. The most abundant rotifer species in all the ponds were Anuraeopsis fissa, Keratella cochlearis, Keratella tecta, Polyathra sp., and Trichocerca pusilla, while among cladocerans there was Bosmina longirostris. Optimal conditions for developing the Rotifera were found in the experimental ponds with standard fertilization and standard feeding of fish. The highest biomass was achieved by zooplankton in the ponds with accelerated fertilization and standard feeding of fish.

• Wydawca: -
• Czasopismo: Polish Journal of Environmental Studies
• Rocznik: 2018
• Tom: 27
• Numer: 1
• Opis fizyczny: p.11-17,fig.,ref.

Twórcy

autor

Bielanska-Grajner I.

• Department of Hydrobiology, University of Silesia, Bankowa 9, 40-007 Katowice, Poland

autor

Cebulska K.

• Department of Hydrobiology, University of Silesia, Bankowa 9, 40-007 Katowice, Poland

autor

Sojka K.

• Department of Hydrobiology, University of Silesia, Bankowa 9, 40-007 Katowice, Poland

autor

Palosz P.

• Department of Hydrobiology, University of Silesia, Bankowa 9, 40-007 Katowice, Poland

autor

Kolek L.

• Institute of Ichthyobiology and Aquaculture of the Polish Academy of Sciences in Golysz, Zaborze, Kalinowa 2, 43-520 Chybie, Poland

Bibliografia

• 1. OERTLI B., CÉRÉGHINO R., HULL A., MIRACLE R. Pond conservation: from science to practice. Hydrobiologia 634, 1, 2009.
• 2. DOWNING J. A. Emerging global role of small lakes and ponds: little things mean a lot. Limnetica 29 (1), 9, 2010.
• 3. MIRACLE R., OERTLI B., CÉRÉGHINO R., HULL A., ANDREW P. Preface: conservation of european pondscurrent knowledge and future needs. Limnetica 29 (1), 1, 2010.
• 4. BOIX D., BIGGS J., CÉRÉGHINO R., HULL A.P., KALETTKA T., OERTLI B. Pond research and management in Europe: ‘‘Small is Beautiful’’. Hydrobiologia 689, 1, 2012.
• 5. FAHD K., ARECHEDERRA A., FLORENCIO M., LEON D., SERRANO L. Copepods and branchiopods of temporary ponds in the Doñana Natural Area (SW Spain): a four - decade record (1964-2007). Hydrobiologia 634, 219, 2009.
• 6. CÉRÉGHINO R., BIGGS J., OERTL, B DECLERCK S. The ecology of European ponds: Defining the characteristics of a neglected freshwater habitat. Hydrobiologia 597, 1, 2008.
• 7. CÉRÉGHINO R., RUGGIERO A., MARTY P., ANGE´LIBERT S. Biodiversity and distribution patterns of freshwater invertebrates in farm ponds of a southwestern French agricultural landscape. Hydrobiologia 597 (1), 43, 2007.
• 8. KUCZYŃSKA-KIPPEN N. Functioning of plankton communities in habitat differentiated small water bodies of the Wielkopolska area. Bonami, Poznań, pp. 505, 2009 [In Polish].
• 9. BIGGS J., WILLIAMS P., WHITFIELD M., NICOLET P., WEATHERBY A. 15 years of pond assessment in Britain: results and lessons learned from the work of Pond Conservation. Aquat. Conserv. Mar. Freshw. Ecosyst. 15, 693, 2005.
• 10. HAGLUND A. L., HILLEBRAND H. The effect of grazing and nutrient supply on periphyton associated bacteria. Microbiol. Ecol. 52 (1), 31, 2006.
• 11. KUCZYŃSKA-KIPPEN N., JONIAK T. The Impact of Water Chemistry on Zooplankton Occurrence in Two Types (Field versus Forest) of Small Water Bodies. Internat. Rev. Hydrobiol. 95 (2), 130, 2010.
• 12. TESSIERT C., CATTANEOL A., PINEL-ALLOUL B., HUDON C., BORCARD D. Invertebrate communities and epiphytic biomass associated with metaphyton and emergent and submerged macrophytes in a large river. Aquat. Sci. 70, 10, 2008.
• 13. SOHAIL M., QURESHI N, A., KHAN N., KHAN M. N., IQBAL K. J., ABBAS F. Effect of Supplementary Feed, Fertilizer and Physico-Chemical Parameters on Pond Productivity Stocked With Indian Major Carps in Monoculture System. Pakistan J. Zool. 46 (6), 1633, 2014.
• 14. PARK K. S., SHIN H.W. Studies on phyto-and-zooplankton composition and its relation to fish productivity in a west coast fish pond ecosystem. Journal of Environmental Biology. 28 (2), 415, 2007.
• 15. RAHMAN M.M., NAGELKERKE L.A.J., VERDEGEM M.C.J., WAHAB M.A., VERRETH J.A.J. Relationships among water quality, food resources, fish diet and fish growth in polyculture ponds: A multivariate approach. Aquaculture. 275, 108, 2008.
• 16. HOSSAIN S., RAHMAN M.M., AKTER M., BHOWMIK S. Species Composition and Abundance of Zooplankton Population in Freshwater Pond of Noakhali District, Bangladesh. World Journal of Fish and Marine Sciences 7 (5), 387, 2015.
• 17. RAHMAN M.M. Role of common carp (Cyprinus carpio) in aquaculture production systems. Frontiers in Life Science 8 (4), 399, 2015.
• 18. SEGER S H. Annotated checklist of the rotifers (Phylum Rotifera), with the notes on nomenclature, taxonomy and distribution. Zootaxa. 1564, 1, 2007.
• 19. RYBAK J. I., BŁĘDZKI L. A. Freshwater planktonic crustaceans. Publisher Warsaw University, Warsaw, pp. 366, 2010 [In Polish].
• 20. SZUMIEC M., JAKUBAS M., KOLASA-JAMIÑSKA B., URBANIEC-BRÓZDA W. The effect of temperature decrease on carp Cyprinus carpio L. culture in a temperature climate. Part II. Zoo and Phytoplankton dynamics and the chemical composition of pond water. Arch. Pol. Fish. 9 (2), 209, 2001.
• 21. ILLOVÁ M., PASTUCHOVÁ Z. The zooplankton communities of small water reservoirs with different trophic conditions in two catchments in western Slovakia. Limnologica 42, 271, 2012.
• 22. LEÓN D., PEÑALVER P., CASAS J., JUAN M., FUENTES F., GALLEGO I., TOJA J. Zooplankton richness in farm ponds of Andalusia (southern Spain). A comparison with natural wetlands. Limnetica 29 (1), 153, 2010.
• 23. GOŹDZIEJEWSKA A., KARPOWICZ M. Dynamics of zooplankton structure in three small water bodies on the area of an agritourism farm. Teka Commision of Protection and Formation of Natural Environment, PAN. 10, 102, 2013.
• 24. GOŹDZIEJEWSKA A., TUCHOLSKI S. Zooplankton of fish culture ponds periodically fed with treated westwater. Polish J. of Environ. Stud. 20 (1), 67, 2011.
• 25. BIELAŃSKA-GRAJNER I., EJSMONT-KARABIN J., RADWAN S. Rotifers Rotifera monogononta. Freshwater fauna of Poland. University of Łódź and Jagiellonian University Press, Łódź - Kraków, 63, 2015.
• 26. BRUCET S., BOIX D., QUINTANA D., JENSEN E., NATHANSEN L. W., TROCHINE C., MEERHOFF M., GASCO’N S., JEPPESENA E. Factors influencing zooplankton size structure at contrasting temperatures in coastal shallow lakes: implications for effects of climate change. Limnol. Oceanog. 55 (4), 1697, 2010.
• 27. ĆIRIĆ M., SUBAKOV-SIMIĆ G., DULIĆ Z., BJELANOVIĆ K., ČIČOVAČKI S. MARKOVIĆ Z. Effect of supplemental feed type on water quality, plankton and benthos availability and carp (Cyprinus carpio L.) growth in semi–intensive monoculture ponds. Aquaculture Research 46 (4), 777, 2015.
• 28. VAKKILAINEN K., KAIRESALO T., HIETALA J., BALAYLA D.M., BÉCARES E., VAN DE BUND W. J., VAN DONK E., FERNÁNDEZ-ALÁEZ M., GYLLSTRÖM M., HANSSON L A., MIRACLE M.R., MOSS,B., ROMO S., RUEDA J., STEPHEN D. Response of zooplankton to nutrient enrichment and fish in shallow lakes: a pan-European mesocosm experiment. Freshwater Biology 49, 1619, 2004.

Identyfikatory

DOI

10.15244/pjoes/75185