cum_reprod_s
gets cumulative reproduction as function of time for delayed type M acceleration
Contents
Syntax
[N, L, UE0, Lb, Ls, Lj, Lp, t_b, t_s, t_j, t_p, info] = cum_reprod_s (t, f, p, Lf)
Description
Calculates the cumulative reproduction in number of eggs with delayed type M acceleration as juvenile for an individual of age t and scaled reserve density e.
Input
- t: n-vector with time since birth or since start if Lb0 has length 2
- f: scalar with functional response
- p: 11-vector with parameters: kappa; kappa_R, g, k_J, k_M, L_T, v, U_Hb, U_Hs, U_Hj, U_Hp
g and v refer to the values for embryo; scaling is always with respect to embryo values
- Lf: optional scalar with length at birth (initial value only) or optional 2-vector with length, L, and scaled maturity, UH < UHp for a juvenile that is now exposed to f, but previously at another f
Output
- N: n-vector with cumulative reproduction
- UE0; scalar with initial scaled reserve
- Lb: scalar with length at birth
- Ls: scalar with length at start acceleration
- Lj: scalar with length at end acceleration
- Lp: scalar with length at puberty
- t_b: time at birth if always exposed to f
- t_s: time at start acceleration if always exposed to f
- t_j: time at end acceleration if always exposed to f
- t_p: time at puberty if always exposed to f
- info: indicator equals 1 if successful, 0 otherwise
Remarks
For type M acceleration see cum_reprod_j and for delayed type M acceleration cum_reprod_s. For reproduction rates see reprod_rate, reprod_rate_foetus, reprod_rate_j and reprod_rate_s