Angustassiminea castanea Assiminea japonica Bithynia tentaculata Heleobia australis Pyrgulopsis robusta Potamopyrgus antipodarum date: 2021/01/27; allStat version: 2021/01/27
model - abj NA abj NA abj NA abj NA abj NA abj NA NA typified model
T_typical °C 17 NA 17 NA 18 NA 15.3 NA 19 NA 16 NA NA typical body temperature
T_A K 9500 NA 9500 NA 9500 NA 8000 NA 0.018579 NA 8000 NA NA Arrhenius temperature
z - 0.055146 NA 0.2181 NA 0.57347 NA 0.025666 NA 0.26928 NA 0.06192 NA NA zoom factor
F_m l/d.cm^2 6.5 20 6.5 20 6.5 20 6.5 20 6.5 20 6.5 20 NA {F_m}, max spec searching rate
kap_X - 0.8 NA 0.8 NA 0.7 NA 0.8 NA 0.7 NA 0.8 NA NA digestion efficiency of food to reserve
kap_P - 0.1 NA 0.1 NA 0.2 NA 0.1 NA 0.2 NA 0.1 NA NA faecation efficiency of food to faeces
v cm/d 0.020143 20 0.019571 20 0.020571 20 0.020006 20 0.020718 20 0.003906 20 NA energy conductance
kap - 0.9 NA 0.9 NA 0.94365 NA 0.9 NA 0.97767 NA 0.9873 NA NA allocation fraction to soma
kap_R - 0.95 NA 0.95 NA 0.95 NA 0.95 NA 0.95 NA 0.95 NA NA reproduction efficiency
p_M J/d.cm^3 17.7621 20 15.7736 20 16.4932 20 19.0355 20 1083.29 20 37.8 20 NA [p_M], vol-spec somatic maint
p_T J/d.cm^2 0 20 0 20 0 20 0 20 0 20 0 20 NA {p_T}, surf-spec somatic maint
k_J 1/d 0.002 20 0.002 20 0.002 20 0.0014563 20 0.002 20 0.002 20 NA maturity maint rate coefficient
E_G J/cm^3 3925.53 NA 3927.51 NA 3929.03 NA 3921.5 NA 3921.02 NA 3913 NA NA [E_G], spec cost for structure
E_Hb J 0.0007757 NA 0.00335 NA 0.08559 NA 4.774e-05 NA 0.007899 NA 0.0002022 NA NA maturity at birth
E_Hj J 0.01487 NA 0.00336 NA 0.0856 NA 0.09988 NA 0.0113 NA 0.03276 NA NA maturity at metam
E_Hp J 0.2358 NA 2.32 NA 19.52 NA 2.212 NA 1.462 NA 0.0447 NA NA maturity at puberty
h_a 1/d^2 6.635e-09 20 1.167e-07 20 7.45e-08 20 6.548e-09 20 9.931e-07 20 2.873e-08 20 NA Weibull aging acceleration
s_G - 0.0001 NA 0.0001 NA 0.0001 NA 0.0001 NA 0.0001 NA 0.0001 NA NA Gompertz stress coefficient
d_X g/cm^3 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA specific density of food
d_V g/cm^3 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA specific density of structure
d_E g/cm^3 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA specific density of reserve
d_P g/cm^3 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA specific density of faeces
mu_X J/ mol 525000 NA 525000 NA 525000 NA 525000 NA 525000 NA 525000 NA NA chemical potential of food
mu_V J/ mol 500000 NA 500000 NA 500000 NA 500000 NA 500000 NA 500000 NA NA chemical potential of structure
mu_E J/ mol 550000 NA 550000 NA 550000 NA 550000 NA 550000 NA 550000 NA NA chemical potential of reserve
mu_P J/ mol 480000 NA 480000 NA 480000 NA 480000 NA 480000 NA 480000 NA NA chemical potential of faeces
mu_C J/ mol 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chemical potential of CO2
mu_H J/ mol 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chemical potential of H2O
mu_O J/ mol 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chemical potential of O2
mu_N J/ mol 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chemical potential of N-waste
n_CX - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of carbon in food
n_HX - 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA NA chem. index of hydrogen in food
n_OX - 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA NA chem. index of oxygen in food
n_NX - 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA chem. index of nitrogen in food
n_CV - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of carbon in structure
n_HV - 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA NA chem. index of hydrogen in structure
n_OV - 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA NA chem. index of oxygen in structure
n_NV - 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA chem. index of nitrogen in structure
n_CE - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of carbon in reserve
n_HE - 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA NA chem. index of hydrogen in reserve
n_OE - 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA NA chem. index of oxygen in reserve
n_NE - 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA chem. index of nitrogen in reserve
n_CP - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of carbon in faeces
n_HP - 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA 1.8 NA NA chem. index of hydrogen in faeces
n_OP - 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA 0.5 NA NA chem. index of oxygen in faeces
n_NP - 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA 0.15 NA NA chem. index of nitrogen in faeces
n_CC - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of carbon in CO2
n_HC - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of hydrogen in CO2
n_OC - 2 NA 2 NA 2 NA 2 NA 2 NA 2 NA NA chem. index of oxygen in CO2
n_NC - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of nitrogen in CO2
n_CH - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of carbon in H2O
n_HH - 2 NA 2 NA 2 NA 2 NA 2 NA 2 NA NA chem. index of hydrogen in H2O
n_OH - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of oxygen in H2O
n_NH - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of nitrogen in H2O
n_CO - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of carbon in O2
n_HO - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of hydrogen in O2
n_OO - 2 NA 2 NA 2 NA 2 NA 2 NA 2 NA NA chem. index of oxygen in O2
n_NO - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of nitrogen in O2
n_CN - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of carbon in N-waste
n_HN - 3 NA 3 NA 3 NA 3 NA 3 NA 3 NA NA chem. index of hydrogen in N-waste
n_ON - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA chem. index of oxygen in N-waste
n_NN - 1 NA 1 NA 1 NA 1 NA 1 NA 1 NA NA chem. index of nitrogen in N-waste
c_T - 0.71529 17 0.71529 17 0.800426 18 0.641043 15.3 1 19 0.685561 16 NA Temperature Correction factor
p_Am J/d.cm^2 1.08834 20 3.82247 20 10.0232 20 0.54285 20 298.371 20 2.37068 20 NA {p_Am}, spec assimilation flux
w_X g/mol 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA NA molecular weight for water-free food
w_V g/mol 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA NA molecular weight for water-free structure
w_E g/mol 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA NA molecular weight for water-free reserve
w_P g/mol 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA 23.9 NA NA molecular weight for water-free product (feaces)
M_V mol/cm^3 0.00627615 NA 0.00627615 NA 0.00627615 NA 0.00627615 NA 0.00627615 NA 0.00627615 NA NA [M_V], volume-specific mass of structure
y_V_E mol/mol 0.879341 NA 0.878898 NA 0.878558 NA 0.880245 NA 0.880353 NA 0.882158 NA NA yield of structure on reserve
y_E_V mol/mol 1.13722 NA 1.13779 NA 1.13823 NA 1.13605 NA 1.13591 NA 1.13358 NA NA yield of reserve on structure
k_M 1/d 0.00452476 20 0.00401618 20 0.00419778 20 0.00485413 20 0.276278 20 0.00966011 20 NA somatic maintenance rate coefficient
k - 0.442012 NA 0.497986 NA 0.476443 NA 0.300012 NA 0.00723909 NA 0.207037 NA NA maintenance ratio
E_m J/cm^3 54.0308 NA 195.313 NA 487.247 NA 27.1344 NA 14401.5 NA 606.934 NA NA [E_m], reserve capacity
m_Em mol/mol 0.0156526 NA 0.0565816 NA 0.141154 NA 0.00786074 NA 4.17208 NA 0.175827 NA NA reserve capacity
g - 80.7262 NA 22.3431 NA 8.54527 NA 160.58 NA 0.278483 NA 6.53009 NA NA energy investment ratio
L_m cm 0.055146 NA 0.2181 NA 0.57347 NA 0.025666 NA 0.26928 NA 0.06192 NA NA maximum structural length
L_T cm 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA heating length (also applies to osmotic work)
l_T - 0 NA 0 NA 0 NA 0 NA 0 NA 0 NA NA scaled heating length
ome - 0.0156526 NA 0.0565816 NA 0.141154 NA 0.00786074 NA 4.17208 NA 0.175827 NA NA \omega, contribution of ash free dry mass of reserve to total ash free dry biomass
J_E_Am mol/d.cm^2 1.97881e-06 20 6.94994e-06 20 1.82239e-05 20 9.87e-07 20 0.000542493 20 4.31033e-06 20 NA {J_EAm}, max surface-spec assimilation flux
y_E_X mol/mol 0.763636 NA 0.763636 NA 0.668182 NA 0.763636 NA 0.668182 NA 0.763636 NA NA yield of reserve on food
y_X_E mol/mol 1.30952 NA 1.30952 NA 1.4966 NA 1.30952 NA 1.4966 NA 1.30952 NA NA yield of food on reserve
p_Xm J/d.cm^2 1.36043 20 4.77809 20 14.3188 20 0.678563 20 426.245 20 2.96335 20 NA {p_Xm}, max spec feeding power
J_X_Am mol/d.cm^2 2.59129e-06 20 9.10112e-06 20 2.72739e-05 20 1.2925e-06 20 0.000811895 20 5.64448e-06 20 NA {J_XAm}, max surface-spec feeding flux
y_P_X mol/mol 0.109375 NA 0.109375 NA 0.21875 NA 0.109375 NA 0.21875 NA 0.109375 NA NA yield of faeces on food
y_X_P mol/mol 9.14286 NA 9.14286 NA 4.57143 NA 9.14286 NA 4.57143 NA 9.14286 NA NA yield of food on faeces
y_P_E mol/mol 0.143229 NA 0.143229 NA 0.327381 NA 0.143229 NA 0.327381 NA 0.143229 NA NA yield of faeces on reserve
eta_XA mol/J 2.38095e-06 NA 2.38095e-06 NA 2.72109e-06 NA 2.38095e-06 NA 2.72109e-06 NA 2.38095e-06 NA NA mass-power couplers for food on assimilation
eta_PA mol/J 2.60417e-07 NA 2.60417e-07 NA 5.95238e-07 NA 2.60417e-07 NA 5.95238e-07 NA 2.60417e-07 NA NA mass-power couplers for product on assimlation
eta_VG mol/J 1.5988e-06 NA 1.598e-06 NA 1.59738e-06 NA 1.60045e-06 NA 1.60064e-06 NA 1.60392e-06 NA NA mass-power couplers for structure on growth
J_E_M mol/d.cm^3 3.22947e-05 20 2.86793e-05 20 2.99876e-05 20 3.461e-05 20 0.00196962 20 6.87273e-05 20 NA [J_EM], vol-spec somatic maint costs
J_E_T mol/d.cm^2 0 20 0 20 0 20 0 20 0 20 0 20 NA {J_ET}, surface-spec somatic maint costs
j_E_M mol/d.mol 0.00514563 20 0.00456956 20 0.00477803 20 0.00551453 20 0.313826 20 0.0109505 20 NA mass-spec somatic maint costs
j_E_J mol/d.mol 0.00227443 20 0.00227558 20 0.00227646 20 0.00165443 20 0.00227182 20 0.00226717 20 NA mass-spec maturity maint costs
kap_G - 0.799401 NA 0.798998 NA 0.798689 NA 0.800223 NA 0.800321 NA 0.801961 NA NA \kappa_G, growth efficiency
E_V J/cm^3 3138.08 NA 3138.08 NA 3138.08 NA 3138.08 NA 3138.08 NA 3138.08 NA NA [E_V], volume-specific energy of structure
K mol X/l 3.9866e-07 NA 1.40017e-06 NA 4.19599e-06 NA 1.98846e-07 NA 0.000124907 NA 8.68382e-07 NA NA half-saturation coefficient
M_Hb mol 1.41036e-09 NA 6.09091e-09 NA 1.55618e-07 NA 8.68e-11 NA 1.43618e-08 NA 3.67636e-10 NA NA maturity level at birth
U_Hb cm^2.d 0.000712735 20 0.000876397 20 0.00853922 20 8.79432e-05 20 2.64737e-05 20 8.52919e-05 20 NA scaled maturity level at birth
V_Hb cm^2.d 0.00712735 20 0.00876397 20 0.151539 20 0.000879432 20 0.00118557 20 0.00671589 20 NA scaled maturity level at birth
u_Hb - 0.00106046 NA 7.3995e-05 NA 0.000108997 NA 0.000648034 NA 0.000100868 NA 0.000214896 NA NA scaled maturity level at birth
v_Hb - 0.0106046 NA 0.00073995 NA 0.00193429 NA 0.00648034 NA 0.00451714 NA 0.0169209 NA NA scaled maturity level at birth
M_Hj mol 2.70364e-08 NA 6.10909e-09 NA 1.55636e-07 NA 1.816e-07 NA 2.05455e-08 NA 5.95636e-08 NA NA maturity level at metamorphosis
U_Hj cm^2.d 0.013663 20 0.000879013 20 0.00854022 20 0.183992 20 3.78723e-05 20 0.0138188 20 NA scaled maturity level at metamorphosis
V_Hj cm^2.d 0.13663 20 0.00879013 20 0.151557 20 1.83992 20 0.00169603 20 1.08809 20 NA scaled maturity level at metamorphosis
u_Hj - 0.0203288 NA 7.42159e-05 NA 0.00010901 NA 1.35579 NA 0.000144298 NA 0.0348169 NA NA scaled maturity level at metamorphosis
v_Hj - 0.203288 NA 0.000742159 NA 0.00193452 NA 13.5579 NA 0.00646205 NA 2.74149 NA NA scaled maturity level at metamorphosis
M_Hp mol 4.28727e-07 NA 4.21818e-06 NA 3.54909e-05 NA 4.02182e-06 NA 2.65818e-06 NA 8.12727e-08 NA NA maturity level at puberty
U_Hp cm^2.d 0.21666 20 0.606938 20 1.94749 20 4.07479 20 0.00489994 20 0.0188553 20 NA scaled maturity level at puberty
V_Hp cm^2.d 2.1666 20 6.06938 20 34.5606 20 40.7479 20 0.219433 20 1.48467 20 NA scaled maturity level at puberty
u_Hp - 0.322363 NA 0.0512443 NA 0.0248584 NA 30.0262 NA 0.0186693 NA 0.0475066 NA NA scaled maturity level at puberty
v_Hp - 3.22363 NA 0.512443 NA 0.441143 NA 300.262 NA 0.836063 NA 3.74068 NA NA scaled maturity level at puberty
t_E d 3.82744 17 15.5798 17 34.8284 18 2.00129 15.3 12.9974 19 23.1234 16 NA maximum reserve residence time
t_starve d 4.25271 17 17.3108 17 36.9082 18 2.22366 15.3 13.2943 19 23.4209 16 0 maximum survival time when starved
s_M - 2.57071 NA 1.00095 NA 1.00004 NA 12.2209 NA 1.10751 NA 5.11786 NA 1 acceleration factor at f=1
r_j 1/d 0.0113842 17 0.0277103 17 0.0212652 18 0.013516 15.3 0.3542 19 0.0170798 16 1 exponential growth rate
r_B 1/d 0.00106564 17 0.000916555 17 0.00100267 18 0.00103082 15.3 0.0200598 19 0.00191437 16 1 von Bertalanffy growth rate
W_dWm g 0.000857376 NA 0.00325712 NA 0.063775 NA 0.00921542 NA 0.0406486 NA 0.0110873 NA 1 wet weight at maximum growth
dWm g/d 4.06067e-07 17 1.32682e-06 17 2.842e-05 18 4.22196e-06 15.3 0.000362402 19 9.43345e-06 16 1 maximum growth in wet weight
U_E0 cm^2.d 0.00724934 20 0.00920487 20 0.171252 20 0.000886269 20 0.00407633 20 0.0077914 20 1 scaled initial reserve
E_0 J 0.00788977 NA 0.0351853 NA 1.71649 NA 0.000481111 NA 1.21626 NA 0.018471 NA 1 initial reserve
M_E0 mol 1.4345e-08 NA 6.39734e-08 NA 3.12089e-06 NA 8.74748e-10 NA 2.21138e-06 NA 3.35836e-08 NA 1 initial reserve
Wd_0 g 3.42846e-07 NA 1.52896e-06 NA 7.45893e-05 NA 2.09065e-08 NA 5.2852e-05 NA 8.02647e-07 NA 1 initial dry weight
Ww_0 g 2.28564e-06 NA 1.01931e-05 NA 0.000497262 NA 1.39376e-07 NA 0.000352347 NA 5.35098e-06 NA 1 initial wet weight
l_b - 0.21925 NA 0.0902716 NA 0.123922 NA 0.186197 NA 0.145228 NA 0.251638 NA 1 scaled structural length at birth
L_b cm 0.0120907 NA 0.0196882 NA 0.0710658 NA 0.00477894 NA 0.039107 NA 0.0155814 NA 1 structural length at birth
M_Vb mol 1.10931e-08 NA 4.78976e-08 NA 2.25256e-06 NA 6.84996e-10 NA 3.75369e-07 NA 2.37418e-08 NA 1 structural mass at birth
del_Ub - 0.0121042 NA 0.0423633 NA 0.10188 NA 0.00615558 NA 0.708186 NA 0.1243 NA 1 fraction of reserve left at birth
Ww_b g 1.79517e-06 NA 8.0635e-06 NA 0.000409568 NA 1.10001e-07 NA 0.000309336 NA 4.44799e-06 NA 1 wet weight at birth
Wd_b g 2.69275e-07 NA 1.20952e-06 NA 6.14353e-05 NA 1.65001e-08 NA 4.64004e-05 NA 6.67198e-07 NA 1 dry weight at birth
E_Wb J 0.00564205 NA 0.0254394 NA 1.30115 NA 0.00034546 NA 1.04902 NA 0.0141668 NA 1 energy content at birth
a_b d 5.88105 17 8.13036 17 21.3737 18 2.86463 15.3 6.17644 19 27.7876 16 1 age at birth
g_Hb - 81.2255 NA 22.4747 NA 8.68556 NA 161.201 NA 0.410686 NA 6.93451 NA NA energy divestment ratio at birth
l_j - 0.563627 NA 0.0903574 NA 0.123927 NA 2.27551 NA 0.160841 NA 1.28785 NA 1 scaled structural length at metamorphosis
L_j cm 0.0310818 NA 0.019707 NA 0.0710684 NA 0.0584031 NA 0.0433114 NA 0.0797434 NA 1 structural length at metamorphosis
M_Vj mol 1.88456e-07 NA 4.80344e-08 NA 2.2528e-06 NA 1.25026e-06 NA 5.09917e-07 NA 3.18257e-06 NA 1 structural mass at metamorphosis
M_Ej mol 1.88456e-07 NA 4.80344e-08 NA 2.2528e-06 NA 1.25026e-06 NA 5.09917e-07 NA 3.18257e-06 NA 1 reserve mass at metamorphosis
Ww_j g 3.04974e-05 NA 8.08652e-06 NA 0.000409613 NA 0.000200775 NA 0.000420215 NA 0.000596249 NA 1 wet weight at metamorphosis
Wd_j g 4.57461e-06 NA 1.21298e-06 NA 6.1442e-05 NA 3.01162e-05 NA 6.30323e-05 NA 8.94374e-05 NA 1 dry weight at metamorphosis
E_Wj J 0.0958506 NA 0.025512 NA 1.3013 NA 0.630538 NA 1.42504 NA 1.89905 NA 1 energy content at metamorphosis
a_j d 254.694 17 8.23325 17 21.3789 18 558.462 15.3 7.04131 19 314.571 16 1 age at metamorphosis
s_Hbp - 0.00328965 NA 0.00144397 NA 0.00438473 NA 2.15823e-05 NA 0.00540287 NA 0.00452349 NA NA maturity ratio
s_HLbp - 0.785232 NA 0.694793 NA 0.698492 NA 0.744762 NA 0.35596 NA 1.34625 NA 1 maturity density ratio at f=1
l_p - 1.36005 NA 0.707377 NA 0.671773 NA 6.06197 NA 0.586556 NA 1.68007 NA 1 scaled structural length at puberty
L_p cm 0.0750014 NA 0.154279 NA 0.385242 NA 0.155586 NA 0.157948 NA 0.10403 NA 1 structural length at puberty
M_Vp mol 2.6479e-06 NA 2.30469e-05 NA 0.000358834 NA 2.36379e-05 NA 2.47306e-05 NA 7.06586e-06 NA 1 structural mass at puberty
M_Ep mol 4.14464e-08 NA 1.30403e-06 NA 5.06509e-05 NA 1.85811e-07 NA 0.000103178 NA 1.24237e-06 NA 1 reserve mass at puberty
Ww_p g 0.000428502 NA 0.00387992 NA 0.0652446 NA 0.00379591 NA 0.0203801 NA 0.00132378 NA 1 wet weight at puberty
Wd_p g 6.42753e-05 NA 0.000581987 NA 0.00978669 NA 0.000569386 NA 0.00305702 NA 0.000198567 NA 1 dry weight at puberty
E_Wp J 1.34674 NA 12.2407 NA 207.275 NA 11.9211 NA 69.1132 NA 4.21623 NA 1 energy content at puberty
a_p d 729.075 17 1243.26 17 1000.44 18 1023.34 15.3 36.8166 19 371.006 16 1 age at puberty
g_Hp - 103.441 NA 32.3473 NA 12.4347 NA 216.446 NA 1.15374 NA 5.15099 NA NA energy divestment ratio at puberty
s_s - 0.00679371 NA 0.0206115 NA 0.0105453 NA 0.00399771 NA 9.50944e-05 NA 7.15213e-05 NA 1 supply stress
l_i - 2.57071 NA 1.00095 NA 1.00004 NA 12.2209 NA 1.10751 NA 5.11786 NA 1 ultimate scaled structural length
L_i cm 0.141764 NA 0.218307 NA 0.573491 NA 0.313663 NA 0.29823 NA 0.316898 NA 1 ultimate structural length
M_Vi mol 1.78811e-05 NA 6.52978e-05 NA 0.00118379 NA 0.000193679 NA 0.000166474 NA 0.000199733 NA 1 ultimate structural mass
M_Ei mol 2.79884e-07 NA 3.69465e-06 NA 0.000167096 NA 1.52246e-06 NA 0.000694545 NA 3.51185e-05 NA 1 ultimate reserve mass
Ww_i g 0.00289364 NA 0.0109928 NA 0.215241 NA 0.031102 NA 0.137189 NA 0.0374197 NA 1 ultimate wet weight
Wd_i g 0.000434046 NA 0.00164892 NA 0.0322861 NA 0.0046653 NA 0.0205784 NA 0.00561296 NA 1 ultimate dry weight
E_Wi J 9.09446 NA 34.681 NA 683.796 NA 97.6766 NA 465.237 NA 119.182 NA 1 ultimate energy content
xi_WE kJ/ g 20.9527 NA 21.0325 NA 21.1793 NA 20.9368 NA 22.6081 NA 21.2333 NA 1 whole-body energy density of dry biomass (no reprod buffer)
del_Wb - 0.000620383 NA 0.000733526 NA 0.00190284 NA 3.53677e-06 NA 0.00225481 NA 0.000118867 NA 1 birth weight as fraction of maximum weight
del_Wp - 0.148084 NA 0.352951 NA 0.303124 NA 0.122047 NA 0.148555 NA 0.0353765 NA 1 puberty weight as fraction of maximum weight
del_V - 0.984589 NA 0.946448 NA 0.876306 NA 0.992201 NA 0.193346 NA 0.850465 NA 1 fraction of max weight that is structure
h_W 1/d 0.000528748 17 0.000861207 17 0.000611277 18 0.000607398 15.3 0.00233522 19 0.000459983 16 1 Weibull ageing rate
h_G 1/d 0.000443864 17 6.43691e-06 17 2.87153e-06 18 0.0912016 15.3 1.04517e-05 19 0.000579712 16 1 Gompertz aging rate
S_b - 0.999998 NA 0.999983 NA 0.999968 NA 0.999999 NA 0.999998 NA 0.999988 NA 1 survival probability at birth
S_j - 0.996823 NA 0.999983 NA 0.999968 NA 0.994693 NA 0.999998 NA 0.999342 NA 1 survival probability at metam
S_p - 0.965935 NA 0.542628 NA 0.884708 NA 0.979831 NA 0.999834 NA 0.999306 NA 1 survival probability at puberty
a_m d 1478.77 17 1311.87 17 1920.49 18 1573.85 15.3 343.282 19 1310.39 16 1 life span
a_99 d 4343.96 17 4929.44 17 4482.35 18 4826.08 15.3 228.79 19 2568.73 16 1 age at length 0.99 * L_i
R_i 1/d 0.443658 17 0.262547 17 0.0649998 18 78.5405 15.3 0.510333 19 0.54246 16 1 ultimate reproduction rate
N_i # 138.399 NA 6.84425 NA 30.9937 NA 15254.1 NA 133.183 NA 256.776 NA 1 life time reproductive output
M_E0_min_G mol 1.42183e-08 NA 6.17113e-08 NA 2.87392e-06 NA 8.66876e-10 NA 8.11066e-07 NA 3.06667e-08 NA NA egg mass whereby growth ceases at birth
M_E0_min_R mol 1.42599e-08 NA 6.1504e-08 NA 2.85845e-06 NA 1.40914e-09 NA 6.52882e-07 NA 3.01972e-08 NA NA egg mass whereby maturation ceases at birth
eb_min_G - 0.219006 NA 0.0901024 NA 0.123346 NA 0.185831 NA 0.133936 NA 0.248921 NA NA scaled reserve density whereby growth ceases at birth
eb_min_R - 0.0974362 NA 0.0454224 NA 0.0604657 NA 0.0407442 NA 0.00299508 NA 0.0564866 NA NA scaled reserve density whereby maturation ceases at birth
ep_min - 0.463692 NA 0.633705 NA 0.594536 NA 0.399284 NA 0.175652 NA 0.261574 NA NA scaled reserve density whereby maturation and growth cease at puberty
sM_min - 2.42681 NA 1.00092 NA 1.00003 NA 11.2272 NA 1.03753 NA 3.51078 NA NA acceleration factor whereby maturation ceases at puberty
p_Xb J/d 0.000142254 17 0.0013248 17 0.0578828 18 9.93437e-06 15.3 0.651881 19 0.000493223 16 1 food intake at birth
J_Xb mol/d 2.7096e-10 17 2.52342e-09 17 1.10253e-07 18 1.89226e-11 15.3 1.24168e-06 19 9.39472e-10 16 1 food intake at birth
F_mb l/d 0.000679676 17 0.00180223 17 0.0262758 18 9.5162e-05 15.3 0.00994084 19 0.00108186 16 1 max searching rate at birth
p_Xp J/d 0.00547389 17 0.0813484 17 1.70096 18 0.0105298 15.3 10.6337 19 0.0219859 16 1 food intake at puberty
J_Xp mol/d 1.04265e-08 17 1.54949e-07 17 3.23993e-06 18 2.00568e-08 15.3 2.02547e-05 19 4.18779e-08 16 1 food intake at puberty
F_mp l/d 0.0261537 17 0.110664 17 0.77215 18 0.100866 15.3 0.162159 19 0.0482252 16 1 max searching rate at puberty
p_Xi J/d 0.0195565 17 0.162882 17 3.76948 18 0.0427959 15.3 37.9107 19 0.204018 16 1 ultimate food intake
J_Xi mol/d 3.72505e-08 17 3.10251e-07 17 7.17996e-06 18 8.1516e-08 15.3 7.22108e-05 19 3.88605e-07 16 1 ultimate food intake
F_mi l/d 0.0934391 17 0.221581 17 1.71115 18 0.409945 15.3 0.578117 19 0.447505 16 1 max ultimate searching rate
p_Ab J/d 0.000113831 17 0.00106 17 0.0405196 18 7.95248e-06 15.3 0.456352 19 0.000394654 16 1 assimilation at birth
p_Cb J/d 0.000112744 17 0.00101869 17 0.0368007 18 7.91243e-06 15.3 0.151243 19 0.000355432 16 1 mobilisation at birth
p_Sb J/d 2.24618e-05 17 8.61191e-05 17 0.00473834 18 1.33266e-06 15.3 0.0647952 19 9.80487e-05 16 1 somatic maintenance at birth
p_Jb J/d 1.10999e-06 17 4.7932e-06 17 0.00013703 18 4.45976e-08 15.3 1.58052e-05 19 2.77353e-07 16 1 maturity maintenance at birth
p_Gb J/d 7.90078e-05 17 0.000830702 17 0.0299886 18 5.78853e-06 15.3 0.0830703 19 0.00025287 16 1 growth at birth
p_Rb J/d 1.01644e-05 17 9.70758e-05 17 0.00193669 18 7.46645e-07 15.3 0.00336144 19 4.23664e-06 16 1 maturation at birth
p_Db J/d 3.37362e-05 17 0.000187988 17 0.00681206 18 2.1239e-06 15.3 0.0681725 19 0.000102563 16 1 dissipation at birth
p_Ap J/d 0.0112574 17 0.0651406 17 1.19072 18 0.102947 15.3 8.24387 19 0.0900166 16 1 assimilation at puberty
p_Cp J/d 0.0111925 17 0.0643221 17 1.14977 18 0.102626 15.3 5.21077 19 0.0819867 16 1 mobilisation at puberty
p_Sp J/d 0.00536023 17 0.0414316 17 0.754791 18 0.0459585 15.3 4.26861 19 0.0291749 16 1 somatic maintenance at puberty
p_Jp J/d 0.000337331 17 0.00331894 17 0.0312486 18 0.00206501 15.3 0.00293886 19 6.12892e-05 16 1 maturity maintenance at puberty
p_Gp J/d 0.00471306 17 0.0164583 17 0.33019 18 0.046405 15.3 0.825806 19 0.0517705 16 1 growth at puberty
p_Rp J/d 0.000781924 17 0.00311327 17 0.0335409 18 0.0081976 15.3 0.113418 19 0.000979941 16 1 reproduction at puberty
p_Dp J/d 0.00647949 17 0.0478639 17 0.81958 18 0.0562212 15.3 4.38496 19 0.0302162 16 1 dissipation at puberty
p_Ai J/d 0.0402192 17 0.130429 17 2.63873 18 0.418405 15.3 29.3905 19 0.835308 16 1 ultimate assimilation
p_Ci J/d 0.0402192 17 0.130429 17 2.63873 18 0.418405 15.3 29.3905 19 0.835308 16 1 ultimate mobilisation
p_Si J/d 0.0361973 17 0.117386 17 2.49004 18 0.376565 15.3 28.7342 19 0.824699 16 1 ultimate somatic maintenance
p_Ji J/d 0.000337331 17 0.00331894 17 0.0312486 18 0.00206501 15.3 0.002924 19 6.12892e-05 16 1 ultimate maturity maintenance
p_Gi J/d 4.20539e-18 17 -1.44393e-17 17 0 18 5.21223e-17 15.3 0 19 -1.77105e-16 16 1 ultimate growth
p_Ri J/d 0.00368459 17 0.00972399 17 0.117444 18 0.0397755 15.3 0.653366 19 0.0105471 16 1 ultimate reproduction
p_Di J/d 0.0367188 17 0.121192 17 2.52716 18 0.380618 15.3 28.7698 19 0.825288 16 1 ultimate dissipation
J_Cb mol/d 1.13089e-10 17 8.45201e-10 17 3.14738e-08 18 7.52648e-12 15.3 2.82426e-07 19 3.59982e-10 16 1 CO2 flux at birth
J_Cp mol/d 1.62186e-08 17 1.10345e-07 17 1.9294e-06 18 1.43451e-07 15.3 1.06887e-05 19 9.32477e-08 16 1 CO2 flux at puberty
J_Ci mol/d 7.8922e-08 17 2.59784e-07 17 5.40669e-06 18 8.1854e-07 15.3 6.13512e-05 19 1.75308e-06 16 1 ultimate CO2 flux
J_Hb mol/d 8.16751e-11 17 6.10423e-10 17 2.27311e-08 18 5.43579e-12 15.3 2.03974e-07 19 2.59987e-10 16 1 water flux at birth
J_Hp mol/d 1.17134e-08 17 7.96933e-08 17 1.39346e-06 18 1.03603e-07 15.3 7.71961e-06 19 6.73455e-08 16 1 water flux at puberty
J_Hi mol/d 5.69992e-08 17 1.87622e-07 17 3.90483e-06 18 5.91168e-07 15.3 4.43092e-05 19 1.26611e-06 16 1 ultimate water flux
J_Ob mol/d 1.22984e-10 17 9.19156e-10 17 3.42278e-08 18 8.18504e-12 15.3 3.07139e-07 19 3.91481e-10 16 1 O2 flux at birth
J_Op mol/d 1.76377e-08 17 1.2e-07 17 2.09822e-06 18 1.56003e-07 15.3 1.16239e-05 19 1.01407e-07 16 1 O2 flux at puberty
J_Oi mol/d 8.58276e-08 17 2.82515e-07 17 5.87977e-06 18 8.90162e-07 15.3 6.67195e-05 19 1.90648e-06 16 1 ultimate O2 flux
J_Nb mol/d 1.69633e-11 17 1.2678e-10 17 4.72107e-09 18 1.12897e-12 15.3 4.23639e-08 19 5.39974e-11 16 1 N-waste flux at birth
J_Np mol/d 2.43278e-09 17 1.65517e-08 17 2.8941e-07 18 2.15176e-08 15.3 1.6033e-06 19 1.39871e-08 16 1 N-waste flux at puberty
J_Ni mol/d 1.18383e-08 17 3.89676e-08 17 8.11003e-07 18 1.22781e-07 15.3 9.20268e-06 19 2.62962e-07 16 1 ultimate N-waste flux
RQ_b mol C/mol O 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 1 resp quotient at birth
UQ_b mol N/mol O 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 1 urine quotient at birth
WQ_b mol H/mol O 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 1 water quotient at birth
SDA_b mol O/mol X 0.1381 NA 0.1381 NA 0.122962 NA 0.1381 NA 0.122962 NA 0.1381 NA 1 specific dynamic action at birth
VO_b L/h.g -0.000249274 17 -0.000309238 17 -0.000221377 18 -0.000254609 15.3 -0.0029434 19 -0.000304799 16 1 dioxygen use per gram max dry weight, <J_OD> at birth
p_Tb J/d 6.3814e-05 17 0.000487461 17 0.0186376 18 4.27438e-06 15.3 0.149953 19 0.000201972 16 1 total heat at birth
RQ_p mol C/mol O 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 1 resp quotient at puberty
UQ_p mol N/mol O 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 1 urine quotient at puberty
WQ_p mol H/mol O 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 1 water quotient at puberty
SDA_p mol O/mol X 0.1381 NA 0.1381 NA 0.122962 NA 0.1381 NA 0.122962 NA 0.1381 NA 1 specific dynamic action at puberty
VO_p L/h.g -0.000200574 17 -0.000163633 17 -0.000167197 18 -0.000195307 15.3 -0.00287362 19 -0.000301725 16 1 dioxygen use per gram max dry weight, <J_OD> at puberty
p_Tp J/d 0.0088321 17 0.0593146 17 1.05615 18 0.0783602 15.3 5.72755 19 0.0517208 16 1 total heat at puberty
RQ_i mol C/mol O 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 0.91954 NA 1 ultimate resp quotient
UQ_i mol N/mol O 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 0.137931 NA 1 ultimate urine quotient
WQ_i mol H/mol O 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 0.62069 NA 1 ultimate water quotient
SDA_i mol O/mol X 0.1381 NA 0.1381 NA 0.122962 NA 0.1381 NA 0.122962 NA 0.1381 NA 1 ultimate specific dynamic action
VO_i L/h.g -0.000168318 17 -0.000146235 17 -0.000156275 18 -0.000161375 15.3 -0.00280083 19 -0.000291536 16 1 ultimate dioxygen use per gram max dry weight, <J_OD>
p_Ti J/d 0.0417462 17 0.137495 17 2.90412 18 0.432919 15.3 32.9684 19 0.929701 16 1 ultimate total heat