getESpawning | R Documentation |
getERepro()
An alias provided for backward compatibility with mizer version <= 1.0
getESpawning(
params,
n = initialN(params),
n_pp = initialNResource(params),
n_other = initialNOther(params),
t = 0,
...
)
params |
A MizerParams object |
n |
A matrix of species abundances (species x size). |
n_pp |
A vector of the resource abundance by size |
n_other |
A list of abundances for other dynamical components of the ecosystem |
t |
The time for which to do the calculation (Not used by standard mizer rate functions but useful for extensions with time-dependent parameters.) |
... |
Unused |
A two dimensional array (prey species x prey size) holding
\psi_i(w)E_{r.i}(w)
where E_{r.i}(w)
is the rate at which energy becomes available for
growth and reproduction, calculated with getEReproAndGrowth()
,
and \psi_i(w)
is the proportion of this energy that is used for
reproduction. This proportion is taken from the params
object and is
set with setReproduction()
.
By default getERepro()
calls mizerERepro()
. However you can
replace this with your own alternative reproduction rate function. If
your function is called "myERepro"
then you register it in a MizerParams
object params
with
params <- setRateFunction(params, "ERepro", "myERepro")
Your function will then be called instead of mizerERepro()
, with the
same arguments.
Other rate functions:
getEGrowth()
,
getEReproAndGrowth()
,
getEncounter()
,
getFMort()
,
getFMortGear()
,
getFeedingLevel()
,
getMort()
,
getPredMort()
,
getPredRate()
,
getRDD()
,
getRDI()
,
getRates()
,
getResourceMort()
params <- NS_params
# Project with constant fishing effort for all gears for 20 time steps
sim <- project(params, t_max = 20, effort = 0.5)
# Get the rate at a particular time step
erepro <- getERepro(params, n = N(sim)[15, , ], n_pp = NResource(sim)[15, ], t = 15)
# Rate at this time for Sprat of size 2g
erepro["Sprat", "2"]
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