Predictions & Data for this entry

Model: std climate: C, D migrate: phylum:
COMPLETE = 2.1 ecozone: TH food: biCv, biCi class:
MRE = 0.033 habitat: 0iTf gender: Dg order:
SMSE = 0.002 embryo: Tnsfm reprod: O family:

Zero-variate data

Data Observed Predicted (RE) Unit Description Reference
ab 25.9 23.98 (0.07394) d age at birth bow
tx 31.5 31.4 (0.003267) d time since birth at fledging bow
tp 95 92.35 (0.02789) d time since birth at puberty guess
tR 1095 1095 ( 0) d time since birth at 1st brood AnAge
am 1.23e+04 1.215e+04 (0.01255) d life span avibase
Ww0 51 52.17 (0.0229) g initial weight avibase
Wwb 36 35.99 (0.0001391) g weight at birth bow
Wwi 360 356.2 (0.01069) g ultimate wet weight for females avibase
Wwim 413 411.8 (0.002925) g ultimate wet weight for males avibase
Ri 0.007671 0.007486 (0.02412) #/d maximum reprod rate avibase
JOi 405 376.2 (0.071) ml O2/h max BMR GavrGolu2023

Pseudo-data at Tref = 20°C

Data Generalised animal Larus canus Unit Description
v 0.02 0.01975 cm/d energy conductance
p_M 18 1389 J/d.cm^3 vol-spec som maint
k_J 0.002 0.002 1/d maturity maint rate coefficient
k 0.3 0.01054 - maintenance ratio
kap 0.8 0.9676 - allocation fraction to soma
kap_G 0.8 0.8 - growth efficiency
kap_R 0.95 0.95 - reproduction efficiency
s_s 0.01 0.01305 - supply stress

Discussion

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

Bibliography

Citation