Predictions & Data for this entry
| Model: std | climate: Am, Cfa | migrate: | phylum: |
| COMPLETE = 2.5 | ecozone: TN | food: bpCi, bpCva, biCvf | class: |
| MRE = 0.128 | habitat: 0bTd, biFc, biFr | gender: Dtfm | order: |
| SMSE = 0.027 | embryo: Tt | reprod: O | family: |
Zero-variate data
| Data | Observed | Predicted | (RE) | Unit | Description | Reference |
|---|---|---|---|---|---|---|
| tp | 4562 | 3311 | (0.2743) | d | time since birth at puberty | Wiki |
| am | 1.825e+04 | 1.826e+04 | (0.00063) | d | life span | Wiki |
| Lb | 31.22 | 24.78 | (0.2062) | cm | total length at birth | CampMour2014 |
| Lbm | 32.1 | 33.24 | (0.0356) | cm | total length at birth for males | CampMour2014 |
| Lp | 125 | 158.5 | (0.2678) | cm | SVL at puberty | Wiki |
| Lpm | 125 | 125 | (1.379e-05) | cm | SVL at puberty for males | Wiki |
| Li | 140 | 212.3 | (0.5161) | cm | ultimate total length for female | Wiki |
| Lim | 300 | 285.2 | (0.04948) | cm | ultimate total length for male | Wiki |
| Wwb | 30 | 32.12 | (0.07058) | g | wet weight at birth | guess |
| Wwi | 2.3e+04 | 2.018e+04 | (0.1225) | g | ultimate wet weight of female | Wiki |
| Wwim | 5.8e+04 | 6.124e+04 | (0.05578) | g | ultimate wet weight of male | Wiki |
| Ri | 0.1205 | 0.1197 | (0.006627) | #/d | max reprod rate | Wiki |
Uni- and bivariate data
| Data | Figure | Independent variable | Dependent variable | (RE) | Reference |
|---|---|---|---|---|---|
| tL_f | ![]() | time since birth | total length | (0.08735) | CampMour2014 |
| tL_m | ![]() | time since birth | total length | (0.09905) | CampMour2014 |
Pseudo-data at Tref = 20°C
| Data | Generalised animal | Caiman yacare | Unit | Description |
|---|---|---|---|---|
| v | 0.02 | 0.02433 | cm/d | energy conductance |
| kap | 0.8 | 0.6777 | - | allocation fraction to soma |
| kap_R | 0.95 | 0.95 | - | reproduction efficiency |
| p_M | 18 | 17.69 | J/d.cm^3 | vol-spec som maint |
| k_J | 0.002 | 0.002 | 1/d | maturity maint rate coefficient |
| kap_G | 0.8 | 0.7998 | - | growth efficiency |
Discussion
- Males are assumed to differ from females by {p_Am} and E_Hp only
- mod_1: males have equal state variables at b, compared to females
Facts
- temperature effects sex of neonate (Ref: Wiki)
Bibliography
