Predictions & Data for this entry

Model: std climate: Aw, BWh, BSh, Cwa, Cwb migrate:
COMPLETE = 2.5 ecozone: TPa food: biCii
MRE = 0.075 habitat: 0iTg, 0iTs, 0iFm, 0iSm gender: Dg
SMSE = 0.076 embryo: Tnsfm reprod: O

Zero-variate data
tx 30 28.88 (0.03741)dtime since birth at fledgingTjorUnde2008
tR365 481.3 (0.3186)dtime since birth at 1st broodguess
am5475 5506 (0.005638)dlife spanguess
Wwb6.1 5.619 (0.07884)gwet weight at birthTjorUnde2008
Wwx 28 29.98 (0.07055)gwet weight at fledgindTjorUnde2008
Wwi42.6 42.01 (0.01374)gultimate wet weightTjorUnde2008
Ri0.005205 0.005103 (0.01971)#/dmaximum reprod rateTjorUnde2008
Uni-variate data
DatasetFigure(RE)Independent variableDependent variableReference
tW see Fig. 1 (0.05186)time since birthwet weightTjorUnde2008
Pseudo-data at Tref
DataGeneralised animalCharadrius pecuariusUnitDescription
v 0.02 0.3367cm/denergy conductance
kap 0.8 0.8649-allocation fraction to soma
kap_R 0.95 0.95-reproduction efficiency
p_M 18 184.1J/^3vol-spec som maint
k_J 0.002 0.0021/dmaturity maint rate coefficient
kap_G 0.8 0.8007-growth efficiency


  • [Wiki]
  • [Kooy2010] S.A.L.M. Kooijman. Dynamic Energy Budget theory for metabolic organisation. Cambridge Univ. Press, Cambridge, 2010.
  • [TjorUnde2008] K. M. C. Tjørve, L. G. Underhill, and G. H. Visser. The energetic implications of precocial development for three shorebird species breeding in a warm environment. Ibis, 150:125--138, 2008.

Bibtex file with references for this entry

Bas Kooijman, 2017/01/10

accepted: 2017/01/10

refer to this entry as: AmP Charadrius pecuarius version 2017/01/10