PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Powiadomienia systemowe
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
  • Sesja wygasła!
Tytuł artykułu

Towards the optimal foraging strategy : is seasonal shift in the diet of Cormorants Phalacrocorax carbo (L.) in a dam reservoir the effect of water temperature or size pattern in fish assemblages?

Identyfikatory
Warianty tytułu
Konferencja
All-Poland Scientific Conference "Interspecies Relationships at Levels of Organization" (2009 ; Krasnobród)
Języki publikacji
EN
Abstrakty
EN
According to optimal foraging theory the prey choice strongly affects the benefitcost ratios. Predators search prey giving the highest benefit and costs of all components of predation (i.e. prey search, encounter, pursuit, capture, and handling) may be considerably reduced if the prey is more available. The study on Cormorant diet and the species composition of prey fish assemblages in the Dobczyce Reservoir (area 985 ha, submontane, eutrophic reservoir in Southern Poland) in spring (May-June) and in autumn (Oct-Nov) showed differences in the food composition and the prey size affected by seasonal changes in fish availability. The diet of Cormorant included eleven fish species and the dominant species in the food was roach in spring (72%) and roach and perch in autumn (49% in total). Roach and perch had the highest share in prey assemblages too (56% in spring, and 53% in autumn). Significant preference toward roach in spring was found. The share of roach and perch did not changed seas seasonally and could not explain the change in the composition of Cormorant diet. The range of the total length (LT) of fish in Cormorant diet was 3.5-35.2 cm. Diet consisted of distinctly smaller fish in autumn. Relative number of small fish was ca 3 times greater in this period compared to spring. Weighted mean of fish TL in prey assemblage was 20.0 cm for roach and 12.5 cm for perch in spring, and 11.8 and 8.1 in autumn, respectively. The proportion of average weight of roach (W = 0.004074 LT[^3.334]) to that of perch (W = 0.005779 LT[^3.260]) was greater in spring (4.1:1) than in autumn (2.9:1). Probably it can explain the diet shift in autumn. The switch to smaller but more abundant fish in autumn was not related to temperature but to fish availability which reduced the cost of searching and the prey may be easily found.
Słowa kluczowe
Rocznik
Strony
783--792
Opis fizyczny
Bibliogr. 40 poz.,Rys., tab.,
Twórcy
autor
autor
  • Karol Starmach Department of Freshwater Biology, Institute of Nature Conservation, Polish Academy of Sciences, 31-120 Kraków, al. Mickiewicza 33, Poland, gwiazda@iop.krakow.pl
Bibliografia
  • 1. Amirowicz A. 1998 – Consequences of the basin morphology for fish community in a deepstorage submontane reservoir – Acta Hydrobiologica, 39, suppl. 1: 35–56.
  • 2. Amirowicz A. 2000 – Pozycja ryb w sieci troficznej litoralu [Fishes in food web of the littoral zone] (In: Zbiornik Dobczycki: Ekologia – Eutrofizacja – Ochrona [The Dobczyce Reservoir: Ecology – Eutrophication – Restoration] Eds: J. Starmach J., G. Mazurkiewicz-Boroń) – Karol Starmach Institute of Freshwater Biology, Kraków, pp. 215–221 (in Polish).
  • 3. Blalock H.M. 1960 – Social statistics – McGraw-Hill, New York – Toronto – London, 465 pp
  • 4. Carss D.N. 1997 – The diet assessment and food intake – Working Group, Supplementi di Ricerche Biologia Selvaggina, XXVI: 197–230.
  • 5. Cramp S., Simmons K.E.L. 1977 – Handbook of the birds of Europe, the Middle East and North Africa. Vol. 1: The birds of Western Palearctic – Oxford University Press, Oxford, 720 pp.
  • 6. Čeh M., Čeh P., Kubečka J., Prchalova M., Draštík V. 2008 – Size Selectivity in Summer and Winter Diets of Great Cormorant (Phalacrocorax carbo): Does it Reflect Season-Dependent Difference in Foraging Efficiency? – Waterbirds, 31: 438–447.
  • 7. Dirksen S., B oudewijn T.J., Noordhuis R., Marteijn E.C.L. 1995 – Cormorants Phalacrocorax carbo sinenesis in shallow eutrophic freshwater lakes: prey choice and fish consumption in the non-breeding period and effects of large-scale fish removal – Ardea, 83: 167–184.
  • 8. Enstipp M.R., Grémilet D., Lorentsen S-H. 2005 – Energetic costs of diving and thermal status in European shags (Phalacrocorax aristotelis) – J. Experim. Biol. 208: 3451–3461.
  • 9. Engström H., Jonsson L. 2003 – Great Cormorant Phalacrocorax carbo sinensis diet in relation to fish community structure in a freshwater lake – Vogelwelt 124, suppl.: 187–196.
  • 10. Godlewska M., Świerzowski A. 2003 – Hydroacoustical parameters of fish in reservoirs with contrasting levels of eutrophication – Aquat. Living Res. 16: 167–173.
  • 11. Godlewska M., Świerzowski A., Menshutkin V., Wanzeböck J. 2005 – Can we precisely estimate fish sizes using acoustics? – Hydroacoustics, 8, pp. 8 [http://ksem.eti.pg.gda.pl/pta/referaty8/godlewska.pdf]
  • 12. Grémillet D., Wilson R.P. 1999 – A life in the fast line: energetics and foraging strategies of the great cormorant – Behav. Ecol. 10: 516–524.
  • 13. Grémillet D., Wanless S., Carss D.N., Linton D., Harris M.P., Speakman J.R., Maho Y.L. 2001 – Foraging energetics of arctic cormorants and the evolution of diving birds – Ecology Letters, 4: 180–184.
  • 14. Gmitrzuk K. 2004 – Influence of cormorant Phalacrocorax carbo on water ecosystems of Wigierski National Park – Parki Nar. Res. Przyr. 23: 129–146 (in Polish).
  • 15. Gwiazda R. 1996 – Bird assemblages and the diet of waterfowl at the Dobczyce dam reservoir in the first years of its existence – Folia Zool. 45: 161–169.
  • 16. Gwiazda R. 2003 – Changes in the piscivorous bird community at Polish submontane reservoir between 1990 and 2000 in relation to water level (In: Interaction between fish and birds: implication for management, Ed: J. Cowx) – Blackwell Science Ltd, Oxford: 211–220.
  • 17. Gwiazda R., Amirowicz A. 2006 – Selective foraging of Grey Heron Ardea cinerea L., 1758 in relation to density and composition of littoral fish community in a submontane dam reservoir – Waterbirds, 29: 226–232.
  • 18. Hartman K.J., Margraf F.J. 1992 – Effects of prey and predator abundances on prey consumption and growth of walleyes in western Lake Erie – Trans. Am. Fish. Soc. 121: 245–260.
  • 19. Horoszewicz L. 1960 – The value of lower pharyngeal arches as species criteria for defining fish of the Cyprinidae family – Roczniki Nauk Rolniczych, 75 B, 2: 237–256 (in Polish with English summary).
  • 20. Keller T. 1995 – Food of Cormorants Phalacrocorax carbo sinensis wintering in Bavaria, southern Germany – Ardea, 83: 185–192.
  • 21. Lehikoinen A. 2005 – Prey-switching and diet of the great cormorant during the breeding season in the Gulf of Finland – Waterbirds, 28: 511–515.
  • 22. Lekuona J. M. 2007 – Changes in the wintering diet of great cormorant Phalacrocorax carbo (1994-2004) in Navarra (northern Spain): Effects of the reintroduction of aloctone ichtiofauna – Ardeola, 54: 123–129.
  • 23. Liordos V., Goutner V. 2008 – Habitat and Temporal Variation in Diet of Great Cormorant Nestlings in Greek Colonies – Waterbirds, 31: 424–437.
  • 24. MacArthur R.H., Pianka E.R. 1966 – On optimal use of a patchy environment – American Naturalist, 100: 603–609.
  • 25. Martyniak A., Wziątek B., Szymańska U., Hliwa P., Terlecki J. 2003 – Diet composition of Great Cormorants Phalacrocorax carbo sinenesis at Kąty Rybackie, NE Poland, as assessed by pellets and regurgitated prey – Vogelwelt 124, suppl.: 217–225.
  • 26. Mellin M. 1990 – Preliminary results of the dissection of cormorants shot in the Mazurian Lakeland in spring 1987 – Notatki Ornitologiczne, 31: 53–60 (in Polish with English summary).
  • 27. Mellin M., Mirowska-Ibron I. 1997 – Results of cormorant Phalacrocrax carbo control in north-eastern Poland in 1987–1992 – Ekologia polska, 45: 305–308.
  • 28. De Nie H. 1995 – Changes in the inland fish populations in Europe in relation to the increase of the Cormorant (Phalacrocorax carbo sinensis) – Ardea, 83: 115–122.
  • 29. Pyke G.H. 1979 – Optimal foraging in fish (In: Predator–Prey Systems in Fisheries Management, Eds: R.H. Stroud, H. Clepper) – Sport Fishing Institute, Washington, D.C.: 199–202.
  • 30. Russell I.C., Cook A.C., Kinsman D.A., Ives M.J., Lower N.J. 2003 – Stomach content analysis of Great Cormorants Phalacrocorax carbo at some different fishery types in England and Wales – Vogelwelt 124, suppl.: 255–259.
  • 31. Seiche K. 2003 – The conflicts between Great Cormorants Phalacrocorax carbo sinensis and Carp fish farming: attempted resolution and strategy in Saxony, Germany – Vogelwelt 124, suppl.: 349–354.
  • 32. Schoener T. W. 1971 – Theory of feeding strategies – Annu. Rev.Ecol. Syst. 2: 369–404.
  • 33. Starzecka A., Bednarz T., Amirowicz A. 1999 – Model of energy flow in the bottom sediments of littoral zone of a dam reservoir with regard to detritivorous roach Rutilus rutilus (L.) – Pol. J. Ecol. 47: 103–112.
  • 34. Stempniewicz L., Martyniak A., Borowski W., Goc M. 2003 – Fish stocks, commercial fishing and cormorant predation in the Vistula Lagoon, Poland (In: Interactions between fish and birds: implications for management, Ed: I.G. Cowx) – Blackwell Science Ltd, Oxford, pp. 51–64.
  • 35. Stephens D.W., Krebs J.R. 1986 – Foraging theory – Princeton University Press, Princeton, 247 pp.
  • 36. Van Eerden M.R., Voslamber B. 1995 – Mass fishing by cormorants Phalacrocorax carbo sinenesis at Lake IJseelmeer, The Netherlands: a recent and successful adaptation to a turbid environment – Ardea, 83: 199–212.
  • 37. Veldkamp R. 1995a – The use of chewing pads for estimating the consumption of cyprinids by Cormorants Phalacrocorax carbo – Ardea, 83: 135–138.
  • 38. Veldkamp R. 1995b – Diet of Cormorants Phalacrocorax carbo sinensis at Wanneperveen, The Netherlands, with special reference to Bream Abramis brama – Ardea, 83: 143–155.
  • 39. Wziątek B., Martyniak A., Szymańska U., Kozłowski J., Dostatni D. 2003 – Composition of the Great Cormorant Phalacrocorax carbo sinensis diet in the Drawa National Park, NW-Poland – Vogelwelt 124, suppl.: 291–295.
  • 40. Zar J.H. 1996 – Biostatistical analysis – Prentice Hall, Upper Saddle River, N.J. 662 pp
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BGPK-3179-2324
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.