bce the Baranov Catch Equation. The total mortality of
fish in an exploited population is made up of fish being killed
by fishing and others dying naturally. We use the bce to estimate
the catch (those killed by fishing). The problem is that some
fish that would be expected to die naturally can be expected to
be caught and killed by fishing so estimating the catch is
slightly more complex than numbers of fish available times the
harvest rate, Nt x Ht. It is invariably better to use the
Baranov Catch Equation when calculating the expected catches.
Usage
bce(M, Fat, Nt, ages)
Arguments
M
instantaneous rate of natural mortality, assumed constant
Fat
a vector of age-specific instantaneous rates of fishing
mortality over the time period t, this is usually estimated by
multiplying the fully selected F by the selectivity/availability
at age.
Nt
The population numbers-at-age at the start of time t
ages
the ages 0:maxage used in the calculations
Value
a matrix of numbers-, natural mortality-, and catch-at-age
# NOT RUN {age <- 0:25Ft <- -log(1 - 0.2) # harvest rate of 0.2Faa <- rep(Ft,length(age))
M <- 0.12
Nt <- 1000
bce(M,Fat=Faa,Nt,ages=age) # should give 188.8862# }