Predictions & Data for this entry

Model: std climate: BSk, Cfb, Dfb migrate: Ml phylum:
COMPLETE = 2.6 ecozone: THp food: biCi, biHs class:
MRE = 0.016 habitat: 0iTh gender: Dg order:
SMSE = 0.001 embryo: Tnsf reprod: O family:

Zero-variate data

Data Observed Predicted (RE) Unit Description Reference
ab 13 13.18 (0.0136) d age at birth Harr1975
tx 9.5 9.544 (0.004613) d time since birth at fledging HartRoyl2000
tp 28.5 28.54 (0.00151) d time since birth at puberty guess
tR 365 365 ( 0) d time since birth at 1st brood AnAge
am 3869 3806 (0.01617) d life span AnAge
Wwb 3.5 3.483 (0.004987) g wet weight at birth Harr1975
Wwi 32 31.87 (0.004044) g ultimate wet weight for females HartRoyl2000
Wwim 38 39.15 (0.03027) g ultimate wet weight for males HartRoyl2000
Ri 0.01096 0.01097 (0.0008465) #/d maximum reprod rate EoL

Uni- and bivariate data

Data Figure Independent variable Dependent variable (RE) Reference
tW_f Data for females, males time since birth wet weight (0.03138) HartRoyl2000
tW_m Data for females, males time since birth wet weight (0.0343) HartRoyl2000

Pseudo-data at Tref = 20°C

Data Generalised animal Emberiza calandra Unit Description
v 0.02 0.04513 cm/d energy conductance
p_M 18 779.6 J/d.cm^3 vol-spec som maint
k_J 0.002 0.03209 1/d maturity maint rate coefficient
k 0.3 0.3014 - maintenance ratio
kap 0.8 0.9676 - allocation fraction to soma
kap_G 0.8 0.7999 - growth efficiency
kap_R 0.95 0.95 - reproduction efficiency

Discussion

  • males are assumed to differ from females by {p_Am} only
  • mod_1: v is reduced; food availability taken to be variable in tW data
  • mod_2: males have equal state variables at b, compared to females
  • mod_3: Pseudo-data point k is used, rather than k_J; Data set tp and parameter t_R are added, the latter replacing clutch interval t_N. Postnatal T is based on PrinPres1991, see get_T_Aves. See further the revision page, theme puberty

Bibliography

Citation