Using R, I am trying to graphically analyze a predator-prey interaction, with a Holling's Type IV functional response, using predator prey isoclines.
This is the script I am using:
library(deSolve) library(phaseR) model.LV <- function(t, y, parameters){ with(as.list(parameters),{ N<-y[1] P<-y[2] dN <- r*N*(1-N/K)-(1.511*N/((N^2/9.2724)+N+1.483))*P*N dP <- -b*P+(1.511*N/((N^2/9.2724)+N+1.483))*a*P*N list(c(dN,dP)) }) } params.LV<-c(r=0.8,K=10,b=4.2,a=6) data.LV<-as.data.frame(lsoda(c(N=3,P=3),seq(1,100,by=0.5), model.LV, params.LV)) plot(data.LV$N, data.LV$P, type="l", col="blue", main="Trajectory for Type-IV Functional Response", xlab="Prey density N", ylab="Predator density P", xlim=c(0,5), ylim=c(0,5)) nullclines(model.LV, x.lim=c(0,5),y.lim=c(0,5), parameters=params.LV, system="two.dim", colour=c("green","red"), add=TRUE) The isocline should have a parabola with two vertical lines intersecting it, but the graphic is completely wrong. Can this simulation be ran in R? I've seen it done in MATLAB, and was told that R is probably not powerful enough to run this simulation.
Thank you.
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