|
Pelomedusa subrufa |
| allStat version: 2021/09/26 |
symbol | units |
value | °C |
func resp | description |
model | - |
std | NA |
NA | typified model |
T_typical | °C |
27 | NA |
NA | typical body temperature |
T_ref | K |
293.15 | NA |
NA | Reference temperature |
T_A | K |
8000 | NA |
NA | Arrhenius temperature |
z | - |
12.5943 | NA |
NA | zoom factor for female |
F_m | l/d.cm^2 |
6.5 | 20 |
NA | {F_m}, max spec searching rate |
kap_X | - |
0.8 | NA |
NA | digestion efficiency of food to reserve |
kap_P | - |
0.1 | NA |
NA | faecation efficiency of food to faeces |
v | cm/d |
0.044227 | 20 |
NA | energy conductance |
kap | - |
0.64744 | NA |
NA | allocation fraction to soma |
kap_R | - |
0.95 | NA |
NA | reproduction efficiency |
p_M | J/d.cm^3 |
3.6178 | 20 |
NA | [p_M], vol-spec somatic maint |
p_T | J/d.cm^2 |
0 | 20 |
NA | {p_T}, surf-spec somatic maint |
k_J | 1/d |
0.00013896 | 20 |
NA | maturity maint rate coefficient |
E_G | J/cm^3 |
7860.36 | NA |
NA | [E_G], spec cost for structure |
E_Hb | J |
13160 | NA |
NA | maturity at birth |
E_Hp | J |
585800 | NA |
NA | maturity at puberty |
h_a | 1/d^2 |
4.559e-10 | 20 |
NA | Weibull aging acceleration |
s_G | - |
0.0001 | NA |
NA | Gompertz stress coefficient |
d_X | g/cm^3 |
0.3 | NA |
NA | specific density of food |
d_V | g/cm^3 |
0.3 | NA |
NA | specific density of structure |
d_E | g/cm^3 |
0.3 | NA |
NA | specific density of reserve |
d_P | g/cm^3 |
0.3 | NA |
NA | specific density of faeces |
mu_X | J/ mol |
525000 | NA |
NA | chemical potential of food |
mu_V | J/ mol |
500000 | NA |
NA | chemical potential of structure |
mu_E | J/ mol |
550000 | NA |
NA | chemical potential of reserve |
mu_P | J/ mol |
480000 | NA |
NA | chemical potential of faeces |
mu_C | J/ mol |
0 | NA |
NA | chemical potential of CO2 |
mu_H | J/ mol |
0 | NA |
NA | chemical potential of H2O |
mu_O | J/ mol |
0 | NA |
NA | chemical potential of O2 |
mu_N | J/ mol |
48800 | NA |
NA | chemical potential of N-waste |
n_CX | - |
1 | NA |
NA | chem. index of carbon in food |
n_HX | - |
1.8 | NA |
NA | chem. index of hydrogen in food |
n_OX | - |
0.5 | NA |
NA | chem. index of oxygen in food |
n_NX | - |
0.15 | NA |
NA | chem. index of nitrogen in food |
n_CV | - |
1 | NA |
NA | chem. index of carbon in structure |
n_HV | - |
1.8 | NA |
NA | chem. index of hydrogen in structure |
n_OV | - |
0.5 | NA |
NA | chem. index of oxygen in structure |
n_NV | - |
0.15 | NA |
NA | chem. index of nitrogen in structure |
n_CE | - |
1 | NA |
NA | chem. index of carbon in reserve |
n_HE | - |
1.8 | NA |
NA | chem. index of hydrogen in reserve |
n_OE | - |
0.5 | NA |
NA | chem. index of oxygen in reserve |
n_NE | - |
0.15 | NA |
NA | chem. index of nitrogen in reserve |
n_CP | - |
1 | NA |
NA | chem. index of carbon in faeces |
n_HP | - |
1.8 | NA |
NA | chem. index of hydrogen in faeces |
n_OP | - |
0.5 | NA |
NA | chem. index of oxygen in faeces |
n_NP | - |
0.15 | NA |
NA | chem. index of nitrogen in faeces |
n_CC | - |
1 | NA |
NA | chem. index of carbon in CO2 |
n_HC | - |
0 | NA |
NA | chem. index of hydrogen in CO2 |
n_OC | - |
2 | NA |
NA | chem. index of oxygen in CO2 |
n_NC | - |
0 | NA |
NA | chem. index of nitrogen in CO2 |
n_CH | - |
0 | NA |
NA | chem. index of carbon in H2O |
n_HH | - |
2 | NA |
NA | chem. index of hydrogen in H2O |
n_OH | - |
1 | NA |
NA | chem. index of oxygen in H2O |
n_NH | - |
0 | NA |
NA | chem. index of nitrogen in H2O |
n_CO | - |
0 | NA |
NA | chem. index of carbon in O2 |
n_HO | - |
0 | NA |
NA | chem. index of hydrogen in O2 |
n_OO | - |
2 | NA |
NA | chem. index of oxygen in O2 |
n_NO | - |
0 | NA |
NA | chem. index of nitrogen in O2 |
n_CN | - |
1 | NA |
NA | chem. index of carbon in N-waste |
n_HN | - |
0.8 | NA |
NA | chem. index of hydrogen in N-waste |
n_ON | - |
0.6 | NA |
NA | chem. index of oxygen in N-waste |
n_NN | - |
0.8 | NA |
NA | chem. index of nitrogen in N-waste |
E_Hpm | J |
2.646e+07 | NA |
NA | maturity at puberty for maless |
c_T | - |
1.88975 | 27 |
NA | Temperature Correction factor |
p_Am | J/d.cm^2 |
70.3751 | 20 |
NA | {p_Am}, spec assimilation flux |
w_X | g/mol |
23.9 | NA |
NA | molecular weight for water-free food |
w_V | g/mol |
23.9 | NA |
NA | molecular weight for water-free structure |
w_E | g/mol |
23.9 | NA |
NA | molecular weight for water-free reserve |
w_P | g/mol |
23.9 | NA |
NA | molecular weight for water-free product (feaces) |
M_V | mol/cm^3 |
0.0125523 | NA |
NA | [M_V], volume-specific mass of structure |
y_V_E | mol/mol |
0.878302 | NA |
NA | yield of structure on reserve |
y_E_V | mol/mol |
1.13856 | NA |
NA | yield of reserve on structure |
k_M | 1/d |
0.000460259 | 20 |
NA | somatic maintenance rate coefficient |
k | - |
0.301917 | NA |
NA | maintenance ratio |
E_m | J/cm^3 |
1591.22 | NA |
NA | [E_m], reserve capacity |
m_Em | mol/mol |
0.230487 | NA |
NA | reserve capacity |
g | - |
7.62976 | NA |
NA | energy investment ratio |
L_m | cm |
12.5943 | NA |
NA | maximum structural length |
L_T | cm |
0 | NA |
NA | heating length (also applies to osmotic work) |
l_T | - |
0 | NA |
NA | scaled heating length |
ome | - |
0.230487 | NA |
NA | \omega, contribution of ash free dry mass of reserve to total ash free dry biomass |
J_E_Am | mol/d.cm^2 |
0.000127955 | 20 |
NA | {J_EAm}, max surface-spec assimilation flux |
y_E_X | mol/mol |
0.763636 | NA |
NA | yield of reserve on food |
y_X_E | mol/mol |
1.30952 | NA |
NA | yield of food on reserve |
p_Xm | J/d.cm^2 |
87.9689 | 20 |
NA | {p_Xm}, max spec feeding power |
J_X_Am | mol/d.cm^2 |
0.00016756 | 20 |
NA | {J_XAm}, max surface-spec feeding flux |
y_P_X | mol/mol |
0.109375 | NA |
NA | yield of faeces on food |
y_X_P | mol/mol |
9.14286 | NA |
NA | yield of food on faeces |
y_P_E | mol/mol |
0.143229 | NA |
NA | yield of faeces on reserve |
eta_XA | mol/J |
2.38095e-06 | NA |
NA | mass-power couplers for food on assimilation |
eta_PA | mol/J |
2.60417e-07 | NA |
NA | mass-power couplers for product on assimlation |
eta_VG | mol/J |
1.59691e-06 | NA |
NA | mass-power couplers for structure on growth |
J_E_M | mol/d.cm^3 |
6.57782e-06 | 20 |
NA | [J_EM], vol-spec somatic maint costs |
J_E_T | mol/d.cm^2 |
0 | 20 |
NA | {J_ET}, surface-spec somatic maint costs |
j_E_M | mol/d.mol |
0.000524033 | 20 |
NA | mass-spec somatic maint costs |
j_E_J | mol/d.mol |
0.000158214 | 20 |
NA | mass-spec maturity maint costs |
kap_G | - |
0.798456 | NA |
NA | \kappa_G, growth efficiency |
E_V | J/cm^3 |
6276.15 | NA |
NA | [E_V], volume-specific energy of structure |
K | mol X/l |
2.57784e-05 | NA |
NA | half-saturation coefficient |
M_Hb | mol |
0.0239273 | NA |
NA | maturity level at birth |
U_Hb | cm^2.d |
186.998 | 20 |
NA | scaled maturity level at birth |
V_Hb | cm^2.d |
530.4 | 20 |
NA | scaled maturity level at birth |
u_Hb | - |
0.000542614 | NA |
NA | scaled maturity level at birth |
v_Hb | - |
0.00153907 | NA |
NA | scaled maturity level at birth |
M_Hp | mol |
1.06509 | NA |
NA | maturity level at puberty |
U_Hp | cm^2.d |
8323.97 | 20 |
NA | scaled maturity level at puberty |
V_Hp | cm^2.d |
23610.1 | 20 |
NA | scaled maturity level at puberty |
u_Hp | - |
0.0241538 | NA |
NA | scaled maturity level at puberty |
v_Hp | - |
0.0685096 | NA |
NA | scaled maturity level at puberty |
t_E | d |
150.689 | 27 |
NA | maximum reserve residence time |
t_starve | d |
232.747 | 27 |
0 | maximum survival time when starved |
s_M | - |
1 | NA |
1 | acceleration factor at f=1 |
r_B | 1/d |
0.000256329 | 27 |
1 | von Bertalanffy growth rate |
W_dWm | g |
728.325 | NA |
1 | wet weight at maximum growth |
dWm | g/d |
0.0829736 | 27 |
1 | maximum growth in wet weight |
U_E0 | cm^2.d |
603.431 | 20 |
1 | scaled initial reserve |
E_0 | J |
42466.5 | NA |
1 | initial reserve |
M_E0 | mol |
0.0772118 | NA |
1 | initial reserve |
Wd_0 | g |
1.84536 | NA |
1 | initial dry weight |
Ww_0 | g |
6.15121 | NA |
1 | initial wet weight |
l_b | - |
0.114626 | NA |
1 | scaled structural length at birth |
L_b | cm |
1.44363 | NA |
1 | structural length at birth |
M_Vb | mol |
0.0377652 | NA |
1 | structural mass at birth |
del_Ub | - |
0.112734 | NA |
1 | fraction of reserve left at birth |
Ww_b | g |
3.70208 | NA |
1 | wet weight at birth |
Wd_b | g |
1.11062 | NA |
1 | dry weight at birth |
E_Wb | J |
23670 | NA |
1 | energy content at birth |
a_b | d |
83.8892 | 27 |
1 | age at birth |
g_Hb | - |
7.79692 | NA |
NA | energy divestment ratio at birth |
s_Hbp | - |
0.022465 | NA |
NA | maturity ratio |
s_HLbp | - |
0.793068 | NA |
1 | maturity density ratio at f=1 |
l_p | - |
0.376025 | NA |
1 | scaled structural length at puberty |
L_p | cm |
4.73577 | NA |
1 | structural length at puberty |
M_Vp | mol |
1.3332 | NA |
1 | structural mass at puberty |
M_Ep | mol |
0.307285 | NA |
1 | reserve mass at puberty |
Ww_p | g |
130.692 | NA |
1 | wet weight at puberty |
Wd_p | g |
39.2076 | NA |
1 | dry weight at puberty |
E_Wp | J |
835607 | NA |
1 | energy content at puberty |
a_p | d |
1448.93 | 27 |
1 | age at puberty |
g_Hp | - |
9.83134 | NA |
NA | energy divestment ratio at puberty |
s_s | - |
0.00305683 | NA |
1 | supply stress |
l_i | - |
1 | NA |
1 | ultimate scaled structural length |
L_i | cm |
12.5943 | NA |
1 | ultimate structural length |
M_Vi | mol |
25.0753 | NA |
1 | ultimate structural mass |
M_Ei | mol |
5.77951 | NA |
1 | ultimate reserve mass |
Ww_i | g |
2458.1 | NA |
1 | ultimate wet weight |
Wd_i | g |
737.429 | NA |
1 | ultimate dry weight |
E_Wi | J |
1.57164e+07 | NA |
1 | ultimate energy content |
xi_WE | kJ/ g |
21.3124 | NA |
1 | whole-body energy density of dry biomass (no reprod buffer) |
del_Wb | - |
0.00150607 | NA |
1 | birth weight as fraction of maximum weight |
del_Wp | - |
0.053168 | NA |
1 | puberty weight as fraction of maximum weight |
del_V | - |
0.812687 | NA |
1 | fraction of max weight that is structure |
h_W | 1/d |
0.00012166 | 27 |
1 | Weibull ageing rate |
h_G | 1/d |
6.63617e-07 | 27 |
1 | Gompertz aging rate |
S_b | - |
0.999985 | NA |
1 | survival probability at birth |
S_p | - |
0.993648 | NA |
1 | survival probability at puberty |
a_m | d |
9711.03 | 27 |
1 | life span |
a_99 | d |
17574.8 | 27 |
1 | age at length 0.99 * L_i |
R_i | 1/d |
0.162931 | 27 |
1 | ultimate reproduction rate |
N_i | # |
753.543 | NA |
1 | life time reproductive output |
M_E0_min_G | mol |
0.0699981 | NA |
NA | egg mass whereby growth ceases at birth |
M_E0_min_R | mol |
0.0696867 | NA |
NA | egg mass whereby maturation ceases at birth |
eb_min_G | - |
0.113885 | NA |
NA | scaled reserve density whereby growth ceases at birth |
eb_min_R | - |
0.035737 | NA |
NA | scaled reserve density whereby maturation ceases at birth |
ep_min | - |
0.274503 | NA |
NA | scaled reserve density whereby maturation and growth cease at puberty |
sM_min | - |
1 | NA |
NA | acceleration factor whereby maturation ceases at puberty |
p_Xb | J/d |
346.454 | 27 |
1 | food intake at birth |
J_Xb | mol/d |
0.000659912 | 27 |
1 | food intake at birth |
F_mb | l/d |
25.5994 | 27 |
1 | max searching rate at birth |
p_Xp | J/d |
3728.33 | 27 |
1 | food intake at puberty |
J_Xp | mol/d |
0.00710158 | 27 |
1 | food intake at puberty |
F_mp | l/d |
275.485 | 27 |
1 | max searching rate at puberty |
p_Xi | J/d |
26368.2 | 27 |
1 | ultimate food intake |
J_Xi | mol/d |
0.0502252 | 27 |
1 | ultimate food intake |
F_mi | l/d |
1948.34 | 27 |
1 | max ultimate searching rate |
p_Ab | J/d |
277.163 | 27 |
1 | assimilation at birth |
p_Cb | J/d |
248.728 | 27 |
1 | mobilisation at birth |
p_Sb | J/d |
20.5692 | 27 |
1 | somatic maintenance at birth |
p_Jb | J/d |
3.4454 | 27 |
1 | maturity maintenance at birth |
p_Gb | J/d |
140.467 | 27 |
1 | growth at birth |
p_Rb | J/d |
84.246 | 27 |
1 | maturation at birth |
p_Db | J/d |
108.261 | 27 |
1 | dissipation at birth |
p_Ap | J/d |
2982.66 | 27 |
1 | assimilation at puberty |
p_Cp | J/d |
2767 | 27 |
1 | mobilisation at puberty |
p_Sp | J/d |
726.14 | 27 |
1 | somatic maintenance at puberty |
p_Jp | J/d |
153.684 | 27 |
1 | maturity maintenance at puberty |
p_Gp | J/d |
1065.33 | 27 |
1 | growth at puberty |
p_Rp | J/d |
821.851 | 27 |
1 | reproduction at puberty |
p_Dp | J/d |
1701.67 | 27 |
1 | dissipation at puberty |
p_Ai | J/d |
21094.6 | 27 |
1 | ultimate assimilation |
p_Ci | J/d |
21094.6 | 27 |
1 | ultimate mobilisation |
p_Si | J/d |
13657.5 | 27 |
1 | ultimate somatic maintenance |
p_Ji | J/d |
154.854 | 27 |
1 | ultimate maturity maintenance |
p_Gi | J/d |
0 | 27 |
1 | ultimate growth |
p_Ri | J/d |
7282.25 | 27 |
1 | ultimate reproduction |
p_Di | J/d |
14176.4 | 27 |
1 | ultimate dissipation |
J_Cb | mol/d |
0.000253273 | 27 |
1 | CO2 flux at birth |
J_Cp | mol/d |
0.00343809 | 27 |
1 | CO2 flux at puberty |
J_Ci | mol/d |
0.0261246 | 27 |
1 | ultimate CO2 flux |
J_Hb | mol/d |
0.000269291 | 27 |
1 | water flux at birth |
J_Hp | mol/d |
0.00365554 | 27 |
1 | water flux at puberty |
J_Hi | mol/d |
0.027777 | 27 |
1 | ultimate water flux |
J_Ob | mol/d |
0.000321461 | 27 |
1 | O2 flux at birth |
J_Op | mol/d |
0.00436373 | 27 |
1 | O2 flux at puberty |
J_Oi | mol/d |
0.0331582 | 27 |
1 | ultimate O2 flux |
J_Nb | mol/d |
5.84475e-05 | 27 |
1 | N-waste flux at birth |
J_Np | mol/d |
0.000793406 | 27 |
1 | N-waste flux at puberty |
J_Ni | mol/d |
0.00602876 | 27 |
1 | ultimate N-waste flux |
RQ_b | mol C/mol O |
0.787879 | NA |
1 | resp quotient at birth |
UQ_b | mol N/mol O |
0.181818 | NA |
1 | urine quotient at birth |
WQ_b | mol H/mol O |
0.8 | NA |
1 | water quotient at birth |
SDA_b | mol O/mol X |
0.130957 | NA |
1 | specific dynamic action at birth |
VO_b | L/h.g |
-0.000190253 | 27 |
1 | dioxygen use per gram max dry weight, <J_OD> at birth |
p_Tb | J/d |
171.216 | 27 |
1 | total heat at birth |
RQ_p | mol C/mol O |
0.787879 | NA |
1 | resp quotient at puberty |
UQ_p | mol N/mol O |
0.181818 | NA |
1 | urine quotient at puberty |
WQ_p | mol H/mol O |
0.8 | NA |
1 | water quotient at puberty |
SDA_p | mol O/mol X |
0.130957 | NA |
1 | specific dynamic action at puberty |
VO_p | L/h.g |
-8.471e-05 | 27 |
1 | dioxygen use per gram max dry weight, <J_OD> at puberty |
p_Tp | J/d |
2289.22 | 27 |
1 | total heat at puberty |
RQ_i | mol C/mol O |
0.787879 | NA |
1 | ultimate resp quotient |
UQ_i | mol N/mol O |
0.181818 | NA |
1 | ultimate urine quotient |
WQ_i | mol H/mol O |
0.8 | NA |
1 | ultimate water quotient |
SDA_i | mol O/mol X |
0.130957 | NA |
1 | ultimate specific dynamic action |
VO_i | L/h.g |
-3.75211e-05 | 27 |
1 | ultimate dioxygen use per gram max dry weight, <J_OD> |
p_Ti | J/d |
16813.3 | 27 |
1 | ultimate total heat |