Daphnia magna Ciconia ciconia date: 2022/11/18; allStat version: 2022/11/17
model - std NA std NA NA typified model
T_typical °C 20 NA 39.5 NA NA typical body temperature
T_A K 6400 NA 9000 NA NA Arrhenius temperature
z - 0.1516 NA 7.5491 NA NA zoom factor for female
F_m l/d.cm^2 30.17 20 6.5 20 NA {F_m}, max spec searching rate
kap_X - 0.9 NA 0.8 NA NA digestion efficiency of food to reserve
kap_P - 0.05 NA 0.1 NA NA faecation efficiency of food to faeces
v cm/d 0.1858 20 0.13925 20 NA energy conductance
kap - 0.5809 NA 0.97086 NA NA allocation fraction to soma
kap_R - 0.95 NA 0.95 NA NA reproduction efficiency
p_M J/d.cm^3 1200 20 795.935 20 NA [p_M], vol-spec somatic maint
p_T J/d.cm^2 0 20 0 20 NA {p_T}, surf-spec somatic maint
k_J 1/d 0.2537 20 0.002 20 NA maturity maint rate coefficient
E_G J/cm^3 4400 NA 7323.58 NA NA [E_G], spec cost for structure
E_Hb J 0.05464 NA 4601 NA NA maturity at birth
E_Hp J 1.09 NA 4.42e+06 NA NA maturity at puberty
h_a 1/d^2 0.0002794 20 1.437e-13 20 NA Weibull aging acceleration
s_G - -0.3 NA 0.001 NA NA Gompertz stress coefficient for female
d_X g/cm^3 0.17 NA 0.28 NA NA specific density of food
d_V g/cm^3 0.19 NA 0.28 NA NA specific density of structure
d_E g/cm^3 0.19 NA 0.28 NA NA specific density of reserve
d_P g/cm^3 0.17 NA 0.28 NA NA specific density of faeces
mu_X J/ mol 525000 NA 525000 NA NA chemical potential of food
mu_V J/ mol 500000 NA 500000 NA NA chemical potential of structure
mu_E J/ mol 550000 NA 550000 NA NA chemical potential of reserve
mu_P J/ mol 480000 NA 480000 NA NA chemical potential of faeces
mu_C J/ mol 0 NA 0 NA NA chemical potential of CO2
mu_H J/ mol 0 NA 0 NA NA chemical potential of H2O
mu_O J/ mol 0 NA 0 NA NA chemical potential of O2
mu_N J/ mol 0 NA 48800 NA NA chemical potential of N-waste
n_CX - 1 NA 1 NA NA chem. index of carbon in food
n_HX - 1.8 NA 1.8 NA NA chem. index of hydrogen in food
n_OX - 0.5 NA 0.5 NA NA chem. index of oxygen in food
n_NX - 0.15 NA 0.15 NA NA chem. index of nitrogen in food
n_CV - 1 NA 1 NA NA chem. index of carbon in structure
n_HV - 1.8 NA 1.8 NA NA chem. index of hydrogen in structure
n_OV - 0.5 NA 0.5 NA NA chem. index of oxygen in structure
n_NV - 0.15 NA 0.15 NA NA chem. index of nitrogen in structure
n_CE - 1 NA 1 NA NA chem. index of carbon in reserve
n_HE - 1.8 NA 1.8 NA NA chem. index of hydrogen in reserve
n_OE - 0.5 NA 0.5 NA NA chem. index of oxygen in reserve
n_NE - 0.15 NA 0.15 NA NA chem. index of nitrogen in reserve
n_CP - 1 NA 1 NA NA chem. index of carbon in faeces
n_HP - 1.8 NA 1.8 NA NA chem. index of hydrogen in faeces
n_OP - 0.5 NA 0.5 NA NA chem. index of oxygen in faeces
n_NP - 0.15 NA 0.15 NA NA chem. index of nitrogen in faeces
n_CC - 1 NA 1 NA NA chem. index of carbon in CO2
n_HC - 0 NA 0 NA NA chem. index of hydrogen in CO2
n_OC - 2 NA 2 NA NA chem. index of oxygen in CO2
n_NC - 0 NA 0 NA NA chem. index of nitrogen in CO2
n_CH - 0 NA 0 NA NA chem. index of carbon in H2O
n_HH - 2 NA 2 NA NA chem. index of hydrogen in H2O
n_OH - 1 NA 1 NA NA chem. index of oxygen in H2O
n_NH - 0 NA 0 NA NA chem. index of nitrogen in H2O
n_CO - 0 NA 0 NA NA chem. index of carbon in O2
n_HO - 0 NA 0 NA NA chem. index of hydrogen in O2
n_OO - 2 NA 2 NA NA chem. index of oxygen in O2
n_NO - 0 NA 0 NA NA chem. index of nitrogen in O2
n_CN - 0 NA 1 NA NA chem. index of carbon in N-waste
n_HN - 3 NA 0.8 NA NA chem. index of hydrogen in N-waste
n_ON - 0 NA 0.6 NA NA chem. index of oxygen in N-waste
n_NN - 1 NA 0.8 NA NA chem. index of nitrogen in N-waste
c_T - 1 20 6.78574 39.5 NA Temperature Correction factor
p_Am J/d.cm^2 313.169 20 6188.94 20 NA {p_Am}, spec assimilation flux
w_X g/mol 23.9 NA 23.9 NA NA molecular weight for water-free food
w_V g/mol 23.9 NA 23.9 NA NA molecular weight for water-free structure
w_E g/mol 23.9 NA 23.9 NA NA molecular weight for water-free reserve
w_P g/mol 23.9 NA 23.9 NA NA molecular weight for water-free product (feaces)
M_V mol/cm^3 0.00794979 NA 0.0117155 NA NA [M_V], volume-specific mass of structure
y_V_E mol/mol 0.993724 NA 0.879831 NA NA yield of structure on reserve
y_E_V mol/mol 1.00632 NA 1.13658 NA NA yield of reserve on structure
k_M 1/d 0.272727 20 0.108681 20 NA somatic maintenance rate coefficient
k - 0.930233 NA 0.0184025 NA NA maintenance ratio
E_m J/cm^3 1685.52 NA 44444.8 NA NA [E_m], reserve capacity
m_Em mol/mol 0.385492 NA 6.8976 NA NA reserve capacity
g - 4.49384 NA 0.169725 NA NA energy investment ratio
L_m cm 0.1516 NA 7.5491 NA NA maximum structural length
L_T cm 0 NA 0 NA NA heating length (also applies to osmotic work)
l_T - 0 NA 0 NA NA scaled heating length
ome - 0.385492 NA 6.8976 NA NA \omega, contribution of ash free dry mass of reserve to total ash free dry biomass
J_E_Am mol/d.cm^2 0.000569399 20 0.0112526 20 NA {J_EAm}, max surface-spec assimilation flux
y_E_X mol/mol 0.859091 NA 0.763636 NA NA yield of reserve on food
y_X_E mol/mol 1.16402 NA 1.30952 NA NA yield of food on reserve
p_Xm J/d.cm^2 347.966 20 7736.17 20 NA {p_Xm}, max spec feeding power
J_X_Am mol/d.cm^2 0.000662792 20 0.0147356 20 NA {J_XAm}, max surface-spec feeding flux
y_P_X mol/mol 0.0546875 NA 0.109375 NA NA yield of faeces on food
y_X_P mol/mol 18.2857 NA 9.14286 NA NA yield of food on faeces
y_P_E mol/mol 0.0636574 NA 0.143229 NA NA yield of faeces on reserve
eta_XA mol/J 2.1164e-06 NA 2.38095e-06 NA NA mass-power couplers for food on assimilation
eta_PA mol/J 1.15741e-07 NA 2.60417e-07 NA NA mass-power couplers for product on assimlation
eta_VG mol/J 1.80677e-06 NA 1.59969e-06 NA NA mass-power couplers for structure on growth
J_E_M mol/d.cm^3 0.00218182 20 0.00144715 20 NA [J_EM], vol-spec somatic maint costs
J_E_T mol/d.cm^2 0 20 0 20 NA {J_ET}, surface-spec somatic maint costs
j_E_M mol/d.mol 0.27445 20 0.123525 20 NA mass-spec somatic maint costs
j_E_J mol/d.mol 0.255302 20 0.00227316 20 NA mass-spec maturity maint costs
kap_G - 0.903385 NA 0.799846 NA NA \kappa_G, growth efficiency
E_V J/cm^3 3974.9 NA 5857.74 NA NA [E_V], volume-specific energy of structure
K mol X/l 2.19686e-05 NA 0.00226701 NA NA half-saturation coefficient
M_Hb mol 9.93455e-08 NA 0.00836545 NA NA maturity level at birth
U_Hb cm^2.d 0.000174474 20 0.743423 20 NA scaled maturity level at birth
V_Hb cm^2.d 0.000416307 20 25.5121 20 NA scaled maturity level at birth
u_Hb - 0.00207044 NA 0.00141775 NA NA scaled maturity level at birth
v_Hb - 0.0049402 NA 0.048653 NA NA scaled maturity level at birth
M_Hp mol 1.98182e-06 NA 8.03636 NA NA maturity level at puberty
U_Hp cm^2.d 0.00348055 20 714.177 20 NA scaled maturity level at puberty
V_Hp cm^2.d 0.00830481 20 24508.5 20 NA scaled maturity level at puberty
u_Hp - 0.0413026 NA 1.36198 NA NA scaled maturity level at puberty
v_Hp - 0.0985507 NA 46.7391 NA NA scaled maturity level at puberty
t_E d 0.815931 20 7.98919 39.5 NA maximum reserve residence time
t_starve d 1.4046 20 8.22898 39.5 0 maximum survival time when starved
s_M - 1 NA 1 NA 1 acceleration factor at f=1
r_B 1/d 0.0743616 20 0.0356691 39.5 1 von Bertalanffy growth rate
W_dWm g 0.0014303 NA 1006.72 NA 1 wet weight at maximum growth
dWm g/d 0.000159539 20 365.5 39.5 1 maximum growth in wet weight
U_E0 cm^2.d 0.000534708 20 87.7966 20 1 scaled initial reserve
E_0 J 0.167454 NA 543368 NA 1 initial reserve
M_E0 mol 3.04462e-07 NA 0.987941 NA 1 initial reserve
Wd_0 g 7.27664e-06 NA 23.6118 NA 1 initial dry weight
Ww_0 g 3.82981e-05 NA 84.3279 NA 1 initial wet weight
l_b - 0.170054 NA 0.27128 NA 1 scaled structural length at birth
L_b cm 0.0257802 NA 2.04792 NA 1 structural length at birth
M_Vb mol 1.36212e-07 NA 0.100624 NA 1 structural mass at birth
del_Ub - 0.172464 NA 0.702533 NA 1 fraction of reserve left at birth
Ww_b g 2.37391e-05 NA 67.832 NA 1 wet weight at birth
Wd_b g 4.51044e-06 NA 18.993 NA 1 dry weight at birth
E_Wb J 0.0969861 NA 432045 NA 1 energy content at birth
a_b d 0.620626 20 7.12011 39.5 1 age at birth
g_Hb - 4.51438 NA 0.413621 NA NA energy divestment ratio at birth
s_Hbp - 0.0501284 NA 0.00104095 NA NA maturity ratio
s_HLbp - 0.974389 NA 0.0520315 NA 1 maturity density ratio at f=1
l_p - 0.457233 NA 0.999302 NA 1 scaled structural length at puberty
L_p cm 0.0693165 NA 7.54383 NA 1 structural length at puberty
M_Vp mol 2.64768e-06 NA 5.02963 NA 1 structural mass at puberty
M_Ep mol 1.02066e-06 NA 34.6924 NA 1 reserve mass at puberty
Ww_p g 0.000461438 NA 3390.56 NA 1 wet weight at puberty
Wd_p g 8.76733e-05 NA 949.356 NA 1 dry weight at puberty
E_Wp J 1.8852 NA 2.15956e+07 NA 1 energy content at puberty
a_p d 6.33163 20 201.995 39.5 1 age at puberty
g_Hp - 4.63304 NA 7.94943 NA NA energy divestment ratio at puberty
s_s - 0.012965 NA 0.0236243 NA 1 supply stress
l_i - 1 NA 1 NA 1 ultimate scaled structural length
L_i cm 0.1516 NA 7.5491 NA 1 ultimate structural length
M_Vi mol 2.76983e-05 NA 5.04018 NA 1 ultimate structural mass
M_Ei mol 1.06775e-05 NA 34.7651 NA 1 ultimate reserve mass
Ww_i g 0.00482727 NA 3397.67 NA 1 ultimate wet weight
Wd_i g 0.000917181 NA 951.347 NA 1 ultimate dry weight
E_Wi J 19.7218 NA 2.16409e+07 NA 1 ultimate energy content
xi_WE kJ/ g 21.5026 NA 22.7477 NA 1 whole-body energy density of dry biomass (no reprod buffer)
del_Wb - 0.00491772 NA 0.0199643 NA 1 birth weight as fraction of maximum weight
del_Wp - 0.0955899 NA 0.997908 NA 1 puberty weight as fraction of maximum weight
del_V - 0.721765 NA 0.126621 NA 1 fraction of max weight that is structure
h_W 1/d 0.0385012 20 5.16812e-05 39.5 1 Weibull ageing rate
h_G 1/d -0.367678 20 0.000125169 39.5 1 Gompertz aging rate
S_b - 0.999921 NA 1 NA 1 survival probability at birth
S_p - 0.986758 NA 0.999999 NA 1 survival probability at puberty
a_m d 45.4484 20 14294.1 39.5 1 life span
a_99 d 60.0434 20 127.356 39.5 1 age at length 0.99 * L_i
R_i 1/d 15.5441 20 0.0170568 39.5 1 ultimate reproduction rate
N_i # 403.577 NA 240.482 NA 1 life time reproductive output
M_E0_min_G mol 2.73028e-07 NA 0.427233 NA NA egg mass whereby growth ceases at birth
M_E0_min_R mol 2.73012e-07 NA 0.309524 NA NA egg mass whereby maturation ceases at birth
eb_min_G - 0.169857 NA 0.247839 NA NA scaled reserve density whereby growth ceases at birth
eb_min_R - 0.158925 NA 0.0215892 NA NA scaled reserve density whereby maturation ceases at birth
ep_min - 0.450904 NA 0.951011 NA NA scaled reserve density whereby maturation and growth cease at puberty
sM_min - 1 NA 1 NA NA acceleration factor whereby maturation ceases at puberty
p_Xb J/d 0.231265 20 220166 39.5 1 food intake at birth
J_Xb mol/d 4.40506e-07 20 0.419363 39.5 1 food intake at birth
F_mb l/d 0.0200516 20 184.985 39.5 1 max searching rate at birth
p_Xp J/d 1.6719 20 2.9875e+06 39.5 1 food intake at puberty
J_Xp mol/d 3.18457e-06 20 5.69047 39.5 1 food intake at puberty
F_mp l/d 0.14496 20 2510.12 39.5 1 max searching rate at puberty
p_Xi J/d 7.99714 20 2.99167e+06 39.5 1 ultimate food intake
J_Xi mol/d 1.52327e-05 20 5.69842 39.5 1 ultimate food intake
F_mi l/d 0.693384 20 2513.63 39.5 1 max ultimate searching rate
p_Ab J/d 0.208155 20 176133 39.5 1 assimilation at birth
p_Cb J/d 0.17671 20 66404.9 39.5 1 mobilisation at birth
p_Sb J/d 0.0205633 20 46389 39.5 1 somatic maintenance at birth
p_Jb J/d 0.0138382 20 62.3528 39.5 1 maturity maintenance at birth
p_Gb J/d 0.0820873 20 18080.9 39.5 1 growth at birth
p_Rb J/d 0.0602208 20 1872.69 39.5 1 maturation at birth
p_Db J/d 0.0946223 20 48324 39.5 1 dissipation at birth
p_Ap J/d 1.50471 20 2.39e+06 39.5 1 assimilation at puberty
p_Cp J/d 1.35605 20 2.38857e+06 39.5 1 mobilisation at puberty
p_Sp J/d 0.39966 20 2.31873e+06 39.5 1 somatic maintenance at puberty
p_Jp J/d 0.276309 20 56669.7 39.5 1 maturity maintenance at puberty
p_Gp J/d 0.388069 20 234.954 39.5 1 growth at puberty
p_Rp J/d 0.292011 20 12933.3 39.5 1 reproduction at puberty
p_Dp J/d 0.96798 20 2.38834e+06 39.5 1 dissipation at puberty
p_Ai J/d 7.19743 20 2.39334e+06 39.5 1 ultimate assimilation
p_Ci J/d 7.19743 20 2.39334e+06 39.5 1 ultimate mobilisation
p_Si J/d 4.18099 20 2.3236e+06 39.5 1 ultimate somatic maintenance
p_Ji J/d 0.280277 20 60374 39.5 1 ultimate maturity maintenance
p_Gi J/d 0 20 0 39.5 1 ultimate growth
p_Ri J/d 2.73617 20 9367.87 39.5 1 ultimate reproduction
p_Di J/d 4.59807 20 2.38444e+06 39.5 1 ultimate dissipation
J_Cb mol/d 2.10961e-07 20 0.117867 39.5 1 CO2 flux at birth
J_Cp mol/d 2.03897e-06 20 4.1154 39.5 1 CO2 flux at puberty
J_Ci mol/d 9.67352e-06 20 4.11042 39.5 1 ultimate CO2 flux
J_Hb mol/d 1.52355e-07 20 0.125483 39.5 1 water flux at birth
J_Hp mol/d 1.4714e-06 20 4.38132 39.5 1 water flux at puberty
J_Hi mol/d 6.98093e-06 20 4.37601 39.5 1 ultimate water flux
J_Ob mol/d 2.2942e-07 20 0.1496 39.5 1 O2 flux at birth
J_Op mol/d 2.21738e-06 20 5.22339 39.5 1 O2 flux at puberty
J_Oi mol/d 1.05199e-05 20 5.21707 39.5 1 ultimate O2 flux
J_Nb mol/d 3.16442e-08 20 0.0272 39.5 1 N-waste flux at birth
J_Np mol/d 3.05846e-07 20 0.949708 39.5 1 N-waste flux at puberty
J_Ni mol/d 1.45103e-06 20 0.948558 39.5 1 ultimate N-waste flux
RQ_b mol C/mol O 0.91954 NA 0.787879 NA 1 resp quotient at birth
UQ_b mol N/mol O 0.137931 NA 0.181818 NA 1 urine quotient at birth
WQ_b mol H/mol O 0.62069 NA 0.8 NA 1 water quotient at birth
SDA_b mol O/mol X 0.093766 NA 0.130957 NA 1 specific dynamic action at birth
VO_b L/h.g -0.0421716 20 -0.00517272 39.5 1 dioxygen use per gram max dry weight, <J_OD> at birth
p_Tb J/d 0.114117 20 73959.6 39.5 1 total heat at birth
RQ_p mol C/mol O 0.91954 NA 0.787879 NA 1 resp quotient at puberty
UQ_p mol N/mol O 0.137931 NA 0.181818 NA 1 urine quotient at puberty
WQ_p mol H/mol O 0.62069 NA 0.8 NA 1 water quotient at puberty
SDA_p mol O/mol X 0.093766 NA 0.130957 NA 1 specific dynamic action at puberty
VO_p L/h.g -0.0221945 20 -0.00511464 39.5 1 dioxygen use per gram max dry weight, <J_OD> at puberty
p_Tp J/d 1.08907 20 2.68713e+06 39.5 1 total heat at puberty
RQ_i mol C/mol O 0.91954 NA 0.787879 NA 1 ultimate resp quotient
UQ_i mol N/mol O 0.137931 NA 0.181818 NA 1 ultimate urine quotient
WQ_i mol H/mol O 0.62069 NA 0.8 NA 1 ultimate water quotient
SDA_i mol O/mol X 0.093766 NA 0.130957 NA 1 ultimate specific dynamic action
VO_i L/h.g -0.0100778 20 -0.0050956 39.5 1 ultimate dioxygen use per gram max dry weight, <J_OD>
p_Ti J/d 4.99793 20 2.6836e+06 39.5 1 ultimate total heat