Parma microlepis: Population traits

at T = 18.2 °C with background hazards for embryo, larva, juv, adult: 0, 0, 0, 0 1/d

Ln survival probability as function of age, with (dashed) and without (solid) thinning at max (red) and min (blue) scaled functional response for females.
Ln survivor function of the stable age distribution as function of age, with (dashed) and without (solid) thinning at max (red) and min (blue) scaled functional response for females.
model abj f_min f_max date: 2024/10/23
symbol units thinning falsethinning true thinning falsethinning true description
femalemale femalemale femalemale femalemale
f - 0.320509 0.320509 0.324443 0.324443 1 1 1 1 scaled functional response
r 1/d 0 0 0 0 0.0104752 0.0104752 0.000918349 0.000918349 spec pop growth rate
t2 d NaN NaN NaN NaN 66.1702 66.1702 754.775 754.775 population doubling time
a_b d 27.2202 27.1776 27.1644 27.122 22.7476 22.7179 22.7476 22.7179 age at birth
t_j d 92.9755 92.0803 91.8029 90.923 35.2204 34.9989 35.2204 34.9989 time since birth at metam
t_p d 2383.84 2218.83 2174.88 2051.69 339.39 336.731 339.39 336.731 time since birth at puberty
S_b - 1 1 1 1 1 1 1 1 survival probability at birth
S_j - 1 1 0.561239 0.558355 1 1 0.265266 0.26344 survival probability at metam
S_p - 0.999999 0.999999 0.141983 0.141758 1 1 0.128138 0.128088 survival probability at puberty
theta_0b - 0.00183425 0.00182581 0.139281 0.140828 0.211932 0.211687 0.517989 0.519329 frac of ind that is embryo
theta_bj - 0.00183668 0.00182821 0.105939 0.106865 0.167088 0.166947 0.281669 0.281643 frac of ind between b and j
theta_jp - 0.00443683 0.00436594 0.101229 0.100804 0.0760578 0.0750086 0.0516452 0.0508492 frac of ind between j and p
theta_pi - 0.991892 0.99198 0.653552 0.651503 0.544922 0.546357 0.148697 0.14818 frac of ind that is adult
L_bi cm 0.944011 0.953364 0.714645 0.719934 0.477766 0.480413 0.349612 0.349944 mean structural length of post-natals
L2_bi cm^2 0.903311 0.921299 0.644067 0.655134 0.348578 0.352859 0.367745 0.370167 mean squared structural length of post-natals
L3_bi cm^3 0.869021 0.8951 0.614531 0.631291 0.340037 0.34665 0.730382 0.741196 mean cubed structural length of post-natals
Ww_bi g 1.06941 1.10343 0.757975 0.780023 0.584675 0.598375 1.25585 1.27943 mean wet weight of post-natals
L_pi cm 0.948929 0.958278 0.893532 0.901495 0.616341 0.619102 0.791848 0.793347 mean structural length of adults
L2_pi cm^2 0.908843 0.926873 0.840831 0.856519 0.491148 0.496248 1.13818 1.14681 mean squared structural length of adults
L3_pi cm^3 0.874485 0.900658 0.80814 0.831322 0.489423 0.497841 2.35875 2.39548 mean cubed structural length of adults
Ww_pi g 1.07613 1.11028 0.996777 1.02718 0.841538 0.859357 4.05574 4.135 mean wet weight of adults
R 1/d 0.008545 0.0130394 0 0.00278116 0.0406271 0.0430664 0.29513 0.300472 mean reproduction rate of adults
J_X g/d 0.0104219 0.0107345 0.00750865 0.00771329 0.0129155 0.0131993 0.0135196 0.0137387 mean ingestion rate of wet food by post-natals
Y_PX mol/mol 0.109375 0.109375 0.109375 0.109375 0.109375 0.109375 0.109375 0.109375 yield of faeces on food
Y_VX mol/mol 0 0 0 0 0.27579 0.275108 0.0496128 0.0495446 yield of living structure on food
Y_VX_d mol/mol 0.00597203 0.00595344 0.0170337 0.0169843 8.67071e-07 8.56914e-07 0.0995737 0.0994369 yield of dead structure on food
Y_EX mol/mol 0 0 0 0 0.198416 0.199774 0.0356938 0.0359776 yield of living reserve on food
Y_EX_d mol/mol 0.00137709 0.00138562 0.00397602 0.00400149 6.23812e-07 6.22262e-07 0.071638 0.0722078 yield of dead reserve on food
Y_CX mol/mol 0.883276 0.883286 0.869615 0.869639 0.416417 0.415742 0.634107 0.633458 yield of CO2 on food
Y_HX mol/mol 0.635468 0.635475 0.62564 0.625657 0.299589 0.299103 0.456205 0.455738 yield of H2O on food
Y_OX mol/mol -0.960563 -0.960573 -0.945707 -0.945733 -0.452854 -0.452119 -0.689591 -0.688886 yield of O2 on food
Y_NX mol/mol 0.132491 0.132493 0.130442 0.130446 0.0624626 0.0623612 0.095116 0.0950187 yield of N-waste on food
mu_TX J/mol 468757 468761 461796 461807 225475 225070 338874 338507 yield of heat on food

Remarks

  • Reprod-code O applies. Sex ratio is assumed to be 1:1. Parameters of male and female differ.
  • Buffer handling rule: release each egg as soon as reproduction buffer allows
  • Weights of adults do not include reproduction buffer