Predictions & Data for this entry

Model: std climate: Cfa migrate: phylum:
COMPLETE = 2.8 ecozone: TPi food: biCi class: Reptilia
MRE = 0.165 habitat: 0iTg gender: Dg order:
SMSE = 0.180 embryo: Tt reprod: O family:

Zero-variate data
DataObservedPredicted(RE)UnitDescriptionReference
ab2365.6 63.07 (0.03855)dage at birthChen2007
ab2833.6 36.25 (0.07888)dage at birthChen2007
tp730 681.2 (0.06679)dtime since birth at pubertyHuan2017
am2738 2813 (0.02754)dlife spanguessed
Lb2.6 2.538 (0.02377)cmSVL at hatchingChen2007
Lp5.4 6.638 (0.2292)cmSVL at pubertyHuan1998
Li7.2 6.862 (0.04688)cmultimate SVLHuan1998
Wwb0.4 0.3817 (0.04573)gwet weight at birthChen2007
Wwi7.1 7.544 (0.06253)gultimate wet weight of femaleHuan2017
Wwi_m7.72 8.531 (0.1051)gultimate wet weight of maleHuan2017
Ri0.01644 0.01572 (0.04397)#/dmaximum reprod rateHuan1998
Uni-variate data
DatasetFigure(RE)Independent variableDependent variableReference
tL see Fig. 1 (0.03556)time since birthSVLChen2007
tW_fS5 see Fig. 2 (11.57)time since starvationwet weightHuan2017
tW_mS5 see Fig. 3 (13.15)time since starvationwet weightHuan2017
tW_fS10 see Fig. 2 (9.626)time since starvationwet weightHuan2017
tW_mS10 see Fig. 3 (10.39)time since starvationwet weightHuan2017
tW_fS15 see Fig. 2 (8.327)time since starvationwet weightHuan2017
tW_mS15 see Fig. 3 (8.616)time since starvationwet weightHuan2017
LW see Fig. 4 (0.1252)SVLwet weightHuan1998
WwpT_m10 see Fig. 5 (0.3587)wet weightstandard metabolic rateHuan2017
WwpT_f10 see Fig. 6 (0.4409)wet weightstandard metabolic rateHuan2017
WwpT_m20 see Fig. 5 (0.3186)wet weightstandard metabolic rateHuan2017
WwpT_f20 see Fig. 6 (0.3424)wet weightstandard metabolic rateHuan2017
WwpT_m30 see Fig. 5 (0.4608)wet weightstandard metabolic rateHuan2017
WwpT_f30 see Fig. 6 (0.2928)wet weightstandard metabolic rateHuan2017
Pseudo-data at Tref
DataGeneralised animalTakydromus hsuehshanensisUnitDescription
v 0.02 0.02773cm/denergy conductance
kap 0.8 0.6558-allocation fraction to soma
kap_R 0.95 0.95-reproduction efficiency
p_M 18 60.31J/d.cm^3vol-spec som maint
k_J 0.002 0.0021/dmaturity maint rate coefficient
kap_G 0.8 0.8029-growth efficiency

Discussion

  • Males are assumed to differ from females by {p_Am} only

Bibliography

  • [Wiki] http://en.wikipedia.org/wiki/Takydromus.
  • [EoL] http://eol.org/pages/1055279/overview.
  • [Chen2007] Y. H. Chen. The temperature effect on embryos and hatchlings in high altitudinal grass lizard, Takydromus hsuehshanensis. PhD thesis, National Taiwan Normal University, 2007.
  • [Huan2017] Shu-Ping Huang. Unpublished data, 2017.
  • [Huan1998] Wen-San Huang. Reproductive cycles of the grass lizard, Takydromus hsuehshanensis, with comments on reproductive patterns of lizards from the central high elevation area of Taiwan. Copeia, 1998(4):866--873, 1998.
  • [Kooy2010] S.A.L.M. Kooijman. Dynamic Energy Budget theory for metabolic organisation. Cambridge Univ. Press, Cambridge, 2010.

Bibtex file with references for this entry


Shu-Ping Huang, 2017/05/15

accepted: 2017/07/14

refer to this entry as: AmP Takydromus hsuehshanensis version 2017/07/14 bio.vu.nl/thb/deb/deblab/add_my_pet/