Macropus parma (Parma wallaby):  

Implied properties for this entry

Model:  stx  

Energy investment, cumulated over the embryo period (left), and allocation during ontogeny

Exploding sectors mean dissipation; numbers denote fractions of mobilized reserve. Endpoints are somatic maintenance S, growth G, maturity maintenance J, maturity or reproduction R. Growth is splitted into overhead and flux fixed in tissue. Reproduction overhead is not idicated, since it is pays at conversion of buffer to eggs/foetuses. The change in reserve equals assimilation p_A minus mobilization p_C. Wet weight W_w and total energy E_W exclude the reproduction buffer in adults. Pies link to budget pages.

Implied properties at typical temperature (37 deg. C) and abundant food
symbol value units description
z 9.61371 -zoom factor
c_T 5.38054 -Temperature Correction factor
s_Hbp 5.94967e-05 -maturity ratio
s_HLbp 0.295466 -maturity density ratio at f=1
s_s 0.0520895 -supply stress
a_b 7.73868 dage at birth
t_g 30.6043 dgestation time
a_p 420.72 dage at puberty
a_99 983.529 dage at length 0.99 * L_i
Wd_b 0.147025 gdry weight at birth
Wd_p 730.137 gdry weight at puberty
Wd_i 1140.8 gultimate dry weight
L_b 0.485606 cmstructural length at birth
L_p 8.28493 cmstructural length at puberty
L_i 9.61371 cmultimate structural length
W_dWm 1126.72 gwet weight at maximum growth
dWm 2.33672 g/dmaximum growth in wet weight
R_i 6.44623 1/dultimate reproduction rate
N_i 18827.5 #life time reproductive output
del_Wb 0.000128878 -birth weight as fraction of maximum weight
del_Wp 0.64002 -puberty weight as fraction of maximum weight
del_V 0.233659 -fraction of max weight that is structure
r_B 0.00466631 1/dvon Bertalanffy growth rate
E_m 22642.5 J/cm^3[E_m], reserve capacity
t_starve 58.9942 dmaximum survival time when starved
t_E 51.0684 dmaximum reserve residence time
xi_WE 22.5237 kJ/ gwhole-body energy density of dry biomass (no reprod buffer)
J_Ob 0.0017193 mol/dO2 flux at birth
J_Op 0.93827 mol/dO2 flux at puberty
J_Oi 1.31583 mol/dultimate O2 flux