Predictions & Data for this entry

Model: abj climate: MB migrate: phylum:
COMPLETE = 2.5 ecozone: MPE food: bjPz, jiCi, jiCvf class:
MRE = 0.053 habitat: 0jMp, jiMdb gender: D order:
SMSE = 0.008 embryo: Mv reprod: O family:

Zero-variate data

Data Observed Predicted (RE) Unit Description Reference
am 1.387e+04 1.431e+04 (0.03139) d life span fishbase
Lp 11 10.57 (0.03866) cm total length at puberty LoveMorr1990
Li 38 37.87 (0.003361) cm ultimate total length fishbase
Wwb 0.000268 0.0002644 (0.01335) g ultimate wet weight guess
Wwp 16.5 16.64 (0.008262) g wet weight at puberty fishbase, LoveMorr1990
Wwi 761 764.2 (0.004206) g ultimate wet weight fishbase
Ri 630.1 780.3 (0.2383) #/d maximum reprod rate fishbase

Uni- and bivariate data

Data Figure Independent variable Dependent variable (RE) Reference
tL_f Data for females, males time since birth total length (0.04039) LoveMorr1990
tL_m Data for females, males time since birth total length (0.1061) LoveMorr1990
LW_f total length weight (0.08906) LoveMorr1990
LW_m total length weight (0.1036) LoveMorr1990
LN total length fecundity (0.2359) LoveMorr1990

Pseudo-data at Tref = 20°C

Data Generalised animal Sebastes saxicola Unit Description
v 0.02 0.02339 cm/d energy conductance
p_M 18 36.86 J/d.cm^3 vol-spec som maint
k_J 0.002 0.002 1/d maturity maint rate coefficient
k 0.3 0.283 - maintenance ratio
kap 0.8 0.6272 - allocation fraction to soma
kap_G 0.8 0.8022 - growth efficiency
kap_R 0.95 0.95 - reproduction efficiency

Discussion

  • Males are assumed to differ from females by {p_Am} only
  • I had to add 1 yr to age estimates in tL data to arrive at reasonable predictions

Facts

  • length-weight: weight(in g) = 0.01000*(TL in cm)^3.09 (Ref: fishbase)

Bibliography

Citation