| getEGrowth {mizer} | R Documentation |
Get energy rate available for growth
Description
Calculates the energy rate g_i(w) (grams/year) available by species and
size for growth after metabolism, movement and reproduction have been
accounted for.
Usage
getEGrowth(
params,
n = initialN(params),
n_pp = initialNResource(params),
n_other = initialNOther(params),
t = 0,
...
)
Arguments
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 |
Value
A two dimensional array (prey species x prey size)
Your own growth rate function
By default getEGrowth() calls mizerEGrowth(). However you can
replace this with your own alternative growth rate function. If
your function is called "myEGrowth" then you register it in a MizerParams
object params with
params <- setRateFunction(params, "EGrowth", "myEGrowth")
Your function will then be called instead of mizerEGrowth(), with the
same arguments.
See Also
getERepro(), getEReproAndGrowth()
Other rate functions:
getERepro(),
getEReproAndGrowth(),
getEncounter(),
getFMort(),
getFMortGear(),
getFeedingLevel(),
getMort(),
getPredMort(),
getPredRate(),
getRDD(),
getRDI(),
getRates(),
getResourceMort()
Examples
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 energy at a particular time step
getEGrowth(params, n = N(sim)[15, , ], n_pp = NResource(sim)[15, ], t = 15)