Predictions & Data for this entry

Model: abj climate: MC migrate: Mo
COMPLETE = 3.2 ecozone: MAE food: bjPz, jiCi
MRE = 0.260 habitat: 0jMp, jiMcd gender: D
SMSE = 0.195 embryo: Mp reprod: O

Zero-variate data
DataObservedPredicted(RE)UnitDescriptionReference
ab 28 19.9 (0.2892)dage at birthSkjaFinn2003
ap1735 1270 (0.2681)dage at pubertyRijnIbel1989
am1.095e+04 1.089e+04 (0.005068)dlife spanWhee1978
Lb0.765 0.7438 (0.02767)cmtotal length at birthSkjaFinn2003
Lp 34 34.79 (0.02323)cmtotal length at pubertyRijnIbel1989
Li 78 78.86 (0.01108)cmultimate total lengthRijnIbel1989
Wwb0.00016 0.0009943 (5.214)gwet weight at birthSkjaFinn2003
Wwp450 464.6 (0.03256)gwet weight at pubertyRijnIbel1989
Wwi5000 5413 (0.08253)gultimate wet weightRijnIbel1989
R682098 1995 (0.04894)#/dreprod rate at 68 cmKennGeff2007
Uni-variate data
DatasetFigure(RE)Independent variableDependent variableReference
WpX_2 see Fig. 1 (0.3637)wet weightingestion rateFondCron1992
WpX_6 see Fig. 1 (0.1734)wet weightingestion rateFondCron1992
WpX_10 see Fig. 1 (0.3928)wet weightingestion rateFondCron1992
WpX_14 see Fig. 1 (0.1555)wet weightingestion rateFondCron1992
WpX_18 see Fig. 1 (0.1689)wet weightingestion rateFondCron1992
WpX_22 see Fig. 1 (0.1879)wet weightingestion rateFondCron1992
WJO1_2 see Fig. 2 (0.1152)wet weightO2 consumptionFondCron1992
WJO1_6 see Fig. 2 (0.07626)wet weightO2 consumptionFondCron1992
WJO1_10 see Fig. 2 (0.1387)wet weightO2 consumptionFondCron1992
WJO1_14 see Fig. 2 (0.01602)wet weightO2 consumptionFondCron1992
WJO1_18 see Fig. 2 (0.08768)wet weightO2 consumptionFondCron1992
WJO1_22 see Fig. 2 (0.05081)wet weightO2 consumptionFondCron1992
WJO0_2 see Fig. 3 (0.01593)wet weightO2 consumptionFondCron1992
WJO0_6 see Fig. 3 (0.05975)wet weightO2 consumptionFondCron1992
WJO0_10 see Fig. 3 (0.05119)wet weightO2 consumptionFondCron1992
WJO0_14 see Fig. 3 (0.02259)wet weightO2 consumptionFondCron1992
WJO0_18 see Fig. 3 (0.1411)wet weightO2 consumptionFondCron1992
WJO0_22 see Fig. 3 (0.07524)wet weightO2 consumptionFondCron1992
LW_f see Fig. 4 (0.06979)total lengthfemale wet weightDeni1981
tL see Fig. 5 (0.1236)time since birthtotal lengthDeni1981
LN see Fig. 6 (0.1985)total lengthnumber of eggsDeni1981
WN see Fig. 7 (0.1266)wet weightnumber of eggsDeni1981
aN see Fig. 8 (0.2942)agenumber of eggsDeni1981
TdL1 see Fig. 9 (0.2197)temperaturegrowth rateGlaz1983
TdL2 see Fig. 9 (0.279)temperaturegrowth rateFondCron1992
Tah see Fig. 10 (0.1736)temperatureage at hatchBollDick2009
aL see Fig. 11 (0.03777)agelengthSkjaFinn2003
aW see Fig. 12 (0.05688)agedry weightSkjaFinn2003
Pseudo-data at Tref
DataGeneralised animalPleuronectes platessaUnitDescription
v 0.02 0.04346cm/denergy conductance
kap 0.8 0.5792-allocation fraction to soma
kap_R 0.95 0.95-reproduction efficiency
p_M 18 21.89J/d.cm^3vol-spec som maint
k_J 0.002 0.0021/dmaturity maint rate coefficient
kap_G 0.8 0.8018-growth efficiency

Bibliography

  • [Wiki] http://en.wikipedia.org/wiki/Pleuronectes_platessa.
  • [BollDick2009] L. J. Bolle, M. Dickey-Collas, J. K. L. van Beek, P. L. A. Erftemeijer, J. IJ. Witte, H. W. van der Veer, and A. D. Rijnsdorp. Variability in transport of fish eggs and larvae. iii. Effects of hydro-dynamics and larval behaviour on recruitment in plaice. Mar Ecol Prog Ser, 390:195--211, 2009.
  • [Deni1981] C. Deniel. Les poisons plats (Téléostéens-Pleuronectiformes) en Baie de Douarnenez. PhD thesis, Université de Bretagne Occidentale, 1981.
  • [FondCron1992] M. Fonds, R. Cronie, A. D. Vethaak, and P. van der Puyl. Metabolism, food consumption and growth of plaice (Pleuronectes platessa) and flounder (Platichthys flesus) in relation to fish size and temperature. Neth. J. Sea Res., 29:127--143, 1992.
  • [Glaz1983] B. Glazenburg. Een experimenteel onderzoek naar de groei van 0-groep schol en bot in relatie tot de watertemperatuur. Technical report, NIOZ, Texel, 1983. unpublished data, internal report.
  • [KennGeff2007] J. Kennedy, A. J. Geffen, and R. D. M. Nash. Maternal influences on egg and larval characteristics of plaice (Pleuronectes platessa L.). J. Sea Res., 58:65--77, 2007.
  • [Kooy2010] S.A.L.M. Kooijman. Dynamic Energy Budget theory for metabolic organisation. Cambridge Univ. Press, Cambridge, 2010.
  • [RijnIbel1989] A. D. Rijnsdorp and B. Ibelings. Sexual dimorphism in the energetics of reproduction and growth of North Sea plaice, Pleuronectes platessa L. J. Fish Biol., 35:401--415, 1989.
  • [Russ1976] F. S. Russel. The eggs and planktonic stages of British marine fishes. Academic Press, London, 1976.
  • [SkjaFinn2003] K. H. Skjærven, R. N. Finn, H. Kryvi, and H. J. Fyhn. Yolk resorption in developing plaice (Pleuronectes platessa. In H. I. Browman and A. B. Skifsrevik, editors, The Big Fish Bang., page 193. Institute of Marine Research, Bergen Norway, 2003.
  • [Whee1978] A. Wheeler. Key to the fishes of Northern Europe. Frederick Warne Ltd., London, UK, 1978.

Bibtex file with references for this entry


Henk van der Veer, Vania Freitas, 2010/10/15 (last modified by Dina Lika, Bas Kooijman 2013/08/28)

accepted: 2015/09/10

refer to this entry as: AmP Pleuronectes platessa version 2015/09/10 bio.vu.nl/thb/deb/deblab/add_my_pet/