Macrozoobenthos assemblage patterns in European carp (Cyprinus carpio) ponds − the importance of emersed macrophyte beds | Knowledge and Management of Aquatic Ecosystems

Open Access

Issue		Knowl. Manag. Aquat. Ecosyst. Number 422, 2021 Topical Issue on Fish Ecology


Article Number		9
Number of page(s)		11
DOI		https://doi.org/10.1051/kmae/2021008
Published online		02 March 2021

Adamek Z, Mössmer M, Hauber M. 2019. Current principles and issues affecting organic carp (Cyprinus carpio) pond farming. Aquaculture 512: 734261. [Google Scholar]
Adamek Z, Mrkvova M, Zukal J, Roche K, Mikl L, Slapansky L, Janac M, Jurajda, P. 2016. Environmental quality and natural food performance at feeding sites in a carp (Cyprinus carpio) pond. Aquac Int 24: 1591–1606. [Google Scholar]
Adamek Z, Sychra J. 2012. Littoral corer. Úřadprůmyslovéhovlastnictví ČR, Prague. Utility model No. 24190 (in Czech). [Google Scholar]
Anton-Pardo M, Hlavac D, Masilko J, Hartman P, Adámek Z. 2014. Natural diet of mirror and scaly carp (Cyprinus carpio) phenotypes in earth ponds. Folia Zool Brno 63: 229–237. [Google Scholar]
Anton-Pardo M, Hlavac D, Bauer C, Adamek Z. 2020. Environmental and biotic variables in carp (Cyprinus carpio) ponds: organic vs. conventional management. Aquac Int 18: 1–7. [Google Scholar]
Bazzanti M, Coccia C, Dowgiallo MG. 2010. Microdistribution of macroinvertebrates in a temporary pond of Central Italy: taxonomic and functional analyses. Limnologica 40: 291–299. [Google Scholar]
Brauns M, Gücker B, Wagner C, Garcia XF, Walz N, Pusch MT. 2011. Human lakeshore development alters the structure and trophic basis of littoral food webs. J Appl Ecol 48: 916–925. [Google Scholar]
Cizkova H, Vlasakova L, Kvet J. ed. 2019. Wetlands: Ecology, protection and sustainable use. Czech Republic (in Czech): EPISTEME ČeskéBudějovice. [Google Scholar]
Della Bella V, Bazzanti M, Chiarotti F. 2005. Macroinvertebrate diversity and conservation status of Mediterranean ponds in Italy: water permanence and mesohabitat influence. Aquat Conserv 15: 583–600. [Google Scholar]
Diehl S, Kornijow R. 1998. Influence of submerged macrophytes on trophic interactions among fish and macroinvertebrates. In: Jeppesen E, Søndergaard Ma, Søndergaard Mo, Christoffersen K, eds. The Structuring Role of Submerged Macrophytes in Lakes. New York: Springer Verlag, pp. 24–46. [Google Scholar]
Dvorak J, Imhof G. 1998. The role of animals and animal communities in wetlands. In Westlake DF, Kvet J, Szczepanski A, eds. The Production Ecology of Wetlands, The IBP Synthesis. Cambridge: Cambridge University Press, pp. 211– 318. [Google Scholar]
Dvorak J. 1978. Macrofauna of invertebrates in helophyte communities. In: Dykyjova D, Kvet J, ed. Pond Littoral Ecosystems, Structure and Functioning, Ecological Studies 28. Berlin, Heidelberg, New York: Springer Verlag, pp. 389– 392. [Google Scholar]
Dykyjova D, Kvet J. ed. 1978. Pond Littoral Ecosystems. Structure and Functioning. Ecological Studies 28. Berlin, Heidelberg, New York: Springer Verlag. [Google Scholar]
Dykyjova D, Ulehlova B. 1978. Structure and chemistry of the fishpond bottom. In: Dykyjova D, Kvet J, ed. Pond Littoral Ecosystems, Structure and Functioning, Ecological Studies 28. Berlin, Heidelberg, New York: Springer Verlag, pp. 141–152. [Google Scholar]
Fiala K. 1978. Seasonal development of helophyte polycormones and relationship between underground and aboveground organs. In: Dykyjova D, Kvet J, ed. Pond Littoral Ecosystems, Structure and Functioning, Ecological Studies 28. Berlin, Heidelberg, New York: Springer Verlag, pp. 174–181. [Google Scholar]
Francova K, Sumberova K, Janauer GA, Adamek Z. 2019. Effects of fish farming on macrophytes in temperate carp ponds. Aquac Int 27: 413–436. [Google Scholar]
Hejny S, Husak S. 1978. Higher plant communities. In: Dykyjova D, Kvet J, ed. Pond Littoral Ecosystems, Structure and Functioning, Ecological Studies 28. Berlin, Heidelberg, New York: Springer Verlag, 23–64. [Google Scholar]
James MR, Weatherhead M, Stanger C, Graynoth E. 1998. Macroinvertebrate distribution in the littoral zone of Lake Coleridge, South Island, New Zealand − effects of habitat stability, wind exposure, and macrophytes. N Z J Mar Freshwater Res 32: 287–305. [Google Scholar]
Korinkova J. 1971 Sampling and distribution of animals in submerged vegetation. Věstník Českoslov Spol Zool 35: 209–221. [Google Scholar]
Lellak J. 1957. Der Einfluss der Fresstätigkeit des Fischbest and esaufdie Bodenfauna der Fischteiche. Zeitschrift für Fischerei und deren Hilfswissenschaften 8: 621–633. [Google Scholar]
Lellak J. 1969. There generation-rate of bottom fauna populations of the fish ponds after wintering or summering. Verh Internat Verein Limnol 17: 560–569. [Google Scholar]
Matena J. 1989. Seasonal dynamics of a Chironomus plumosus (L.) (Diptera, Chironomidae) population from a fish pond in southern Bohemia. Int Rev ges Hydrobiol Hydrogr 74: 599–610. [Google Scholar]
Miler O, Porst G, McGoff E, Pilotto F, Donohue L, Jurca T, Solimini A, Sandin L, Irvine K, Aroviita J, Clarke R. 2013. Morphological alterations of lake shores in Europe: a multimetric ecological assessment approach using benthic macroinvertebrates. Ecol Indic 34: 398–410. [Google Scholar]
Moss B, Stephen D, Alvarez C, Becares E, Bund WV, Collings SE, Donk EV, Eyto ED, Feldmann T, Fernandez-Alaez C, Fernandez-Alaez M. 2003. The determination of ecological status in shallow lakes—a tested system (ECOFRAME) for implementation of the European Water Framework Directive. Aquat Conserv 13: 507–549. [Google Scholar]
Newman RM. 1991. Herbivory and detritivory on freshwater macrophytes by invertebrates: a review. J N Am Benthol Soc 10: 89–114. [Google Scholar]
Pieczynska E. 1972. Ecology of eulittoral zone of lakes. Ekol Polska 20: 637–732. [Google Scholar]
Pechar L. 2000. Impacts of long-term changes in fishery management on the trophic level water quality in Czech fish ponds. Fish Manag Ecol 7: 23–31. [Google Scholar]
Petr T. 2000. Interactions between fish and aquatic macrophytes in inland waters. A review. FAO Fisheries Technical Paper 396, FAO, Rome, 185 p. [Google Scholar]
Rahman MM, Kadowaki S, Balcombe SR, Wahab MA. 2010. Common carp (Cyprinus carpio L.) alters its feeding niche in response to changing food resources: direct observations in simulated ponds. Ecol Res 25: 303–309. [Google Scholar]
Saether OA. 1979. Chironomid communities as water quality indicators. Ecography 2: 65–74. [Google Scholar]
Sagova-Mareckova M. 2002a. Distribution of benthic macroinvertebrates in relationship to plant roots, sediment type and spatial scale in fishponds and slow streams. Arch Hydrobiol 156: 63–81. [Google Scholar]
Sagova-Mareckova M. 2002b. Interactions between crayfish, benthic invertebrates, macrophyte roots and sediment in a littoral zone. Arch Hydrobiol 155: 645–665. [Google Scholar]
Sagova-Mareckova M, Kvet J. 2002. Impact of oxygen released by the roots of aquatic macrophytes on composition and distribution of benthic macroinvertebrates in a mesocosm experiment. Arch Hydrobiol 155: 567–584. [Google Scholar]
Sagova M, Adams MS, Butler MG. 1993. Relationship between plant-roots and benthic animals in 3 sediment types of a dimictic mesotrophic lake. Arch Hydrobiol 128: 423–436. [Google Scholar]
Setlikova I, Blaha M, Edwards-Jonasova M, Dvorak J, Burianova K. 2016. Diversity of phytophilous macroinvertebrates in polycultures of semi-intensively managed fishponds. Limnologica 60: 59–67. [Google Scholar]
Soszka GJ. 1975. Ecological relations between invertebrates and submerged macrophytes in the lake littoral. Ekol Polska 23: 393–415. [Google Scholar]
Spataru P, Hepher B, Halev, A. 1980. The effect of the method of supplementary feed application on the feeding habits of carp (Cyprinus carpio L.) with regard to natural food in ponds. Hydrobiologia 72: 171–178. [Google Scholar]
Strayer DL, Findlay SE. 2010. Ecology of freshwater shore zones. Aquat Sci 72: 127–163. [Google Scholar]
Sychra J, Adamek Z. 2010. Sampling efficiency of Gerking sampler and sweep net in pond emergent littoral macrophyte beds–a pilot study. Turkish J Fish Aquat Sci 10: 161–167. [Google Scholar]
Sychra J, Adamek Z, Petrivalska K. 2010. Distribution and diversity of littoral macroinvertebrates within extensive reed beds of a lowland pond. Ann Limnol 46: 281–289. [Google Scholar]
Ulehlova B, Pribil S. 1978. Water Chemistry in the Fishpond Littorals. In Dykyjova D, Kvet J, eds. Pond Littoral Ecosystems, Structure and Functioning, Ecological Studies 28. Berlin, Heidelberg, New York: Springer Verlag, pp. 126– 140. [Google Scholar]
Weber MJ, Brown ML. 2009. Effects of common carp on aquatic ecosystems 80 years after “carp as a dominant”: ecological insights for fisheries management. Rev Fish Sci 17: 524–537. [Google Scholar]
Wetzel J. 2001. Limnology − Lake and River Ecosystems. San Diego: Academic Press. [Google Scholar]
Zbikowski J, Kobak J. 2007. Factors influencing taxonomic composition and abundance of macrozoobenthos in extralittoral zone of shallow eutrophic lakes. Hydrobiologia 584: 145–155. [Google Scholar]

Current usage metrics show cumulative count of Article Views (full-text article views including HTML views, PDF and ePub downloads, according to the available data) and Abstracts Views on Vision4Press platform.

Data correspond to usage on the plateform after 2015. The current usage metrics is available 48-96 hours after online publication and is updated daily on week days.

Initial download of the metrics may take a while.