Predictions & Data for this entry

Model: abj climate: ME migrate: phylum:
COMPLETE = 2.5 ecozone: MS food: biCi class:
MRE = 0.051 habitat: 0iMb gender: D order:
SMSE = 0.014 embryo: Mb reprod: Os family:

Zero-variate data

Data Observed Predicted (RE) Unit Description Reference
am 430 438.3 (0.01934) d life span for female SchwHovi2019
Wwb 0.1 0.09624 (0.03765) g wet weight at birth SchwHovi2019
Wwp 65 64.55 (0.006849) g wet weight at puberty SchwHovi2019
Wwi 250 174.1 (0.3038) g wet weight at death SchwHovi2019
Ni 70 69.14 (0.01226) # fecundity SchwHovi2019

Uni- and bivariate data

Data Figure Independent variable Dependent variable (RE) Reference
LWw_f Data for females, males mantle length wet weight (0.2544) SchwHovi2019
LWw_m Data for females, males mantle length wet weight (0.2408) SchwHovi2019
tWw time since birth wet weight (0.2573) SchwHovi2019

Pseudo-data at Tref = 20°C

Data Generalised animal Muusoctopus rigbyae Unit Description
v 0.02 0.0422 cm/d energy conductance
p_M 18 1000 J/d.cm^3 vol-spec som maint
k_J 0.002 0.002 1/d maturity maint rate coefficient
k 0.3 0.01099 - maintenance ratio
kap 0.8 0.6019 - allocation fraction to soma
kap_G 0.8 0.7992 - growth efficiency
kap_R 0.95 0.95 - reproduction efficiency

Discussion

  • Males are assumed not to differ from females
  • time-weight data assumes that growth increments of beaks are daily, which is speculative for cold-water species (SchwHovi2019)

Facts

  • Programmed death, not by ageing (Ref: Wiki)

Bibliography

Citation