Predictions & Data for this entry

Model: stx climate: Aw migrate: phylum:
COMPLETE = 2.1 ecozone: TA food: bxM, xiHl class:
MRE = 0.032 habitat: 0iTi, 0iTs, 0iTh gender: Dg order:
SMSE = 0.001 embryo: Tv reprod: O family:

Zero-variate data

Data Observed Predicted (RE) Unit Description Reference
tg 34 35.88 (0.05541) d gestation time Cala1995
tx 426 443.2 (0.04048) d time since birth at weaning PoolMerc1987
tp 639 669.3 (0.04738) d time since birth at puberty RussRich1971
am 3650 3652 (0.0005251) d life span RussRich1971
Wwb 0.703 0.7161 (0.01868) g wet weight at birth RussRich1971
Wwx 7500 7334 (0.02211) g wet weight at weaning Hirs2006
Wwp 1.25e+04 1.192e+04 (0.0466) g wet weight at puberty Hirs2006
Wwi 1.75e+04 1.868e+04 (0.06769) g ultimate wet weight Cala1995
Ri 0.003704 0.003726 (0.006137) #/d maximum reprod rate Cala1995
pL 9.973e+04 9.787e+04 (0.01866) J/d average yearly milk production CorkDove1989

Pseudo-data at Tref = 20°C

Data Generalised animal Macropus antilopinus Unit Description
v 0.02 0.05489 cm/d energy conductance
kap 0.8 0.807 - allocation fraction to soma
kap_R 0.95 0.95 - reproduction efficiency
p_M 18 31.08 J/d.cm^3 vol-spec som maint
k_J 0.002 0.001896 1/d maturity maint rate coefficient
kap_G 0.8 0.8017 - growth efficiency

Discussion

  • 90 percent of milk production originates from upregulation

Bibliography

Citation