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Parameterisation of a population model for Acartia spp. in the southern Baltic Sea. Part 1. Development time

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The copepod model (see Dzierzbicka-Głowacka 2005b), reduced to a zero-dimensional population model (Fennel 2001, Stegert et al. 2007), is calibrated for Acartia spp. under the environmental conditions typical of the southern Baltic Sea. Most of the coefficients used in the model are taken from the literature, containing values from various published studies and parameters derived for similar species. The parameters for growth are presented in Part 1; those for population dynamics are given in Part 2. Ingestion rates, which are dependent on developmental stage, food supply, temperature and weight of the animals, are estimated for Acartia bifilosa at 15°C from the Gdańsk Deep after the experimental data of Ciszewski & Witek (1977). In Part 1 the model presents the change in mean individual mass in successive stages. Quantitative formulae are obtained describing the effects of temperature and food concentration on the development time of Acartia spp. for each of the model stage groups. The generation time during the seasons in the upper layer of the Gdańsk Deep is also determined. The simulations computed here are similar to the experimental results. Part 2 (Dzierzbicka-Głowacka et al. 2009 - this issue) will evaluate egg production as a function of the above-mentioned parameters, temperature and food availability.
Czasopismo
Rocznik
Strony
165--184
Opis fizyczny
bibliogr. 35 poz., wykr.
Twórcy
autor
  • Physical Oceanography Department, Institute of Oceanology, Polish Academy of Sciences, Powstańców Warszawy 55, PL-81-712 Sopot, Poland;, dzierzb@iopan.gda.pl
Bibliografia
  • 1.Ambler J. W.,1985, Seasonal factors affecting egg production and viability of eggs of Acartia tonsa Dana, from East Lagoon, Galveston, Texas,Est uar. Coast. Shelf Sci.,20 (6), 743-760.
  • 2.Berggreen U., Hansen B.,Ki orboe T.,1988, Food size spectra, ingestion and growth of the copepod Acartia tonsa during development: implications for determination of copepod production,M ar. Biol., 99 (3), 341-352.
  • 3.Carlotti F.,S ciandra A., 1989, Population dynamics model of Euterpina acutifrons (Copepoda: Harpacticoida) coupling individual growth and larval development, Mar. Ecol.-Prog. Ser.,56,225-242.
  • 4.Carlotti F.,W olf K.U., 1998, A Lagrangian ensemble model of Calanus finmarchicus coupled with a 1-D ecosystem model,F ish. Oceanogr., 7 (3-4), 191-204.
  • 5.Ciszewski P.,W itek Z., 1977, Production of older stages of copepods Acartia bifilosa Giesb. and Pseudocalanus elongatus Boeck in Gdańsk Bay,Po l. Arch. Hydrobiol.,24, 449-459.
  • 6.Corkett C. J.,M cLaren I.A., 1978, The biology of Pseudocalanus,Adv. Mar. Biol., 15,1-231.
  • 7.Dzierzbicka-Głowacka L.,2005a, A numerical investigation of phytoplankton and Pseudocalanus elongatus dynamics in the spring bloom time in the Gdańsk Gulf, J. Marine Syst.,53 (1-4), 19-36.
  • 8.Dzierzbicka-Głowacka L.,2005b , Modelling the seasonal dynamics of marine plankton in the southern Baltic Sea. Part 1. A Coupled Ecosystem Model, Oceanologia,47 (4), 591-619.
  • 9.Dzierzbicka-Głowacka L.,2006, Modelling the seasonal dynamics of marine plankton in the southern Baltic Sea. Part 2. Numerical simulations, Oceanologia,48 (1), 41-71.
  • 10.Dzierzbicka-Głowacka L.,Bielecka L., Mudrak S.,2006, Seasonal dynamics of Pseudocalanus minutus elongatus and Acartia spp. in the southern Baltic Sea (Gdańsk Deep) - numerical simulations,Bi ogeosciences, 3 (4), 635-650.
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  • 13.Klein Breteler W.C.M., Gonzales S.R.,S chogt N.,1995, Development of Pseudocalanus elongatus (Copepoda, Calanoida) cultured at different temperature and food conditions,M ar. Ecol.-Progr. Ser., 119, 99-110.
  • 14.Klein Breteler W.C.M.,S chogt N.,1994, Development of Acartia clausi (Copepoda, Calanoida) cultured at different conditions temperature and food, Hydrobiologia,292-293 (1), 469-479.
  • 15.Kremer J.N.,N ixon S.W.,1978, A coastal marine ecosystem. Simulation and analysis,Ecol . Stud.,24, Springer-Verlag, Heidelberg, 217 pp.
  • 16.Last J.M.,1978a, The food of four species of pleuronectiform larvae in the eastern English Channel and southern North Sea, Mar. Biol.,45 (4),359-368.
  • 17.Last J.M.,1978b , The food of three species of gadoid larvae in the eastern English Channel and southern North Sea,M ar. Biol., 48 (4),377-386.
  • 18.Last J.M.,1980, The food of twenty species of fish larvae in the west-central North Sea,F ish. Res. Tech. Rep. No. 60,Lo westoft,44 pp.
  • 19.McLaren I.A.,1978, Generation lengths of some temperate marine copepods: estimation, production and implications,J. Fish Res. Board Can., 35, 1330 -1342.
  • 20.McLaren I.A.,Leon ard A.,1995, Assessing the equivalence of growth and egg production of copepods,I CES J. Mar. Sci., 52, doi:10.1016/1054-3139(95)80054-9,397-408.
  • 21.McLaren I.A.,Sévigny J.M.,C orkett C. J.,1989, Temperature-dependent development in Pseudocalanus species,C an. J. Zoolog., 67 (3), 559-564.
  • 22.Miller C.B.,Johnson J. K., Heinle D. R.,1977, Growth rules in the marine copepod genus Acartia,Li mnol. Oceanogr., 22 (2), 326-335.
  • 23.Norrbin M. F.,1996, Timing of diapause in relation to the onset of winter in the high-latitude copepods Pseudocalanus acuspes and Acartia longiremis,Mar. Ecol.-Prog. Ser.,142,99-109.
  • 24.Paffenhöfer G.A.,1971, Grazing and ingestion rates of nauplii, copepodids and adults of the marine planktonic copepod Calanus helgolandicus,Ma r. Biol., 11 (3),286-298.
  • 25.Paffenhöfer G.A.,Harris R.P., 1976, Feeding, growth and reproduction of the marine planktonic copepod Pseudocalanus elongatus Boeck,J. Mar. Biol. Assoc. UK,56,327-344
  • 26.Piontkovskii S.A.,Petipa T. S.,1976, Quantitative description of the behavior of copepod Acartia clausi during feeding on algae, Sov. J. Mar. Biol.,2,40-46.
  • 27.Renk H.,2000, Primary production in the southern Baltic,Sea Fisher. Inst., Gdynia,7 8 pp., (in Polish).
  • 28.Sekiguchi H.,McLaren I.A., Corkett C. J.,1980, Relationship between growth rate and egg production in the copepod Acartia clausi Hudsonica,Ma r. Biol., 58 (2), 133-138.
  • 29.Steele J.H.,Mullin M. M.,1977, Zooplankton dynamics,[in:] The sea. Ideas and observations on progress in the study of seas. Vol. 6. Marine modelling,E. D. Goldberg,I. N. McCave,J. J. O'Brien & J. H. Steele (eds.), Wiley-Intersci., New York,857-887.
  • 30.Stegert Ch.,Kreus M.,Carlotii F.,Moll A., 2007, Parameterisation of a zooplankton population model for Pseudocalanus elongatus using stage durations from laboratory experiments,Ecol . Model.,206 (3-4), 213-230.
  • 31.Thompson A.M.,Durbin E.G.,Durbin A.G.,1994, Seasonal changes in maximum ingestion rate of Acartia tonsa in Narragansett Bay, Rhode Island, USA,Ma r. Ecol.-Prog. Ser.,108,91-105.
  • 32.Turner J.T.,Tester P.A.,1989, Zooplankton feeding ecology: nonselective grazing by the copepods Acartia tonsa Dana, Centropages velificatus De Oliveira, and Eucalanus pileatus Giesbrecht in the plume of the Mississippi River,J. Exp. Mar. Biol. Ecol.,126 (1), 21-43.
  • 33.Verity P.G.,Smayda T. J.,1989, Nutritional value of Phaeocystis pouchetii (Prymnesiophyceae) and other phytoplankton for Acartia spp. (Copepoda): ingestion, egg production, and growth of nauplii, Mar. Biol.,100 (2),161-171.
  • 34.Wlodarczyk E.,Durbin A.G.,Durbin E.G.,1992, Effect of temperature on lower feeding thresholds, gut evacuation rate, and diel feeding behavior in the copepod Acartia hudsonica, Mar. Ecol.-Prog. Ser.,85,93-106.
  • 35.Załachowski W.,Szypuła J., Krzykawski S.,Krzykawska I.,1975, Feeding of some commercial fishes in the southern region of the Baltic Sea in 1971 and 1972, Pol. Arch. Hydrobiol.,22,429-448.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS5-0020-0032
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