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I am a biologist and an R newbie, and I'm learning how to create a simple population model.

So, I have a population matrix ("pop")of 30 age classes of female (1:4 are non-breeders, 5:30 are breeders) which will be modelled for 100 years.

pop <- matrix(0,30,100)

I then populate this matrix with 3 young adult females.

pop[5, 1] <- 3

I then want to run this for 100 years, with stochasticity, to see how this population does over time. (I haven't filled these in but you don't need them, they all have different survival probabilities to the sexually-mature adults.)

for (t in 1:100)  {  # Edited y to t, typing error!
    pop[1,t+1] <- rbinom(1,colSums(pop[5:30, t]), b/2) 
    pop[5, t+1] <- rbinom(1, pop[4, t], s2)
    pop[6, t+1] <- rbinom(1, pop[5, t], s2)
    pop[30, t+1] <- rbinom(1, pop[29, t], s2)

So my question is: is there any way of populating this matrix without having to explicitly write 30 lines of code? Because lines 5 - 30 are all going to be the same, and yet even after 5 hours (literally) of web searching and R manual reading I can't find a way to index the rows, which seems to be what's needed here.

Any insight is welcome here, including a different way of modelling this population.

share|improve this question
this is a perfectly reasonable question, but ... do note that cross-posting to StackOverflow and the r-help list, while not officially deprecated, is generally considered a bad idea because it can easily lead to duplicated/wasted effort. – Ben Bolker Feb 18 '13 at 16:29
5 hours of web searching vs writing 30 lines of code... you must be a slow typer! ;) – James Feb 18 '13 at 16:34
What is t in this problem? If it is a single numeric value, then the colSums expression will break – David Robinson Feb 18 '13 at 16:37
Why don't you update the non-breeder's populations? How will you get new breeders in after your inital ones? – James Feb 18 '13 at 16:43

1 Answer 1

up vote 5 down vote accepted

since rbinom is vectorized, you should be able to replace

pop[1,t+1] <- rbinom(1,colSums(pop[5:30, t]), b/2) 
pop[5, t+1] <- rbinom(1, pop[4, t], s2)
pop[6, t+1] <- rbinom(1, pop[5, t], s2)
pop[30, t+1] <- rbinom(1, pop[29, t], s2)


pop[,t+1] <- rbinom(27,size=c(colSums(pop[5:30,t]),pop[4:29,t]),

or something like that (the 26 and 27 may be wrong, I may have miscounted)

However, what I really think you should do is something like this:

pop[1,t+1]  <- rpois(1,b/2*sum(pop[5:30,t]))
pop[-1,t+1] <- rbinom(29,size=pop[1:29,t]),

This assumes that individuals in the last age class fall off the edge of the world and die ... I'm using rpois here to allow Poisson reproduction rather than binomial, although you could use rbinom(1,size=sum(pop[5:30,t])/2,prob=p) if you really want to insist that females have at most 1 offspring (with probability p)

share|improve this answer
Thank you Ben, I went with a slight modification: > for(t in 1:(nyr-1)){ pop[,t+1] <- rbinom(rep(1,30),size=c(sum(pop[5:30,t]),pop[1,t],pop[2:29,t]), prob=c(b/2,s1,rep(s2,28))) } ...which I can now adapt to having different survival rates for the juveniles. As you assumed, the females are essentially dropping off the edge of the world for the purposes of this model. I'm sticking with binomial for now, although I'll bear poisson in mind. – Sam Feb 18 '13 at 17:18
it's more typical to use rbinom(30,...) for this case. – Ben Bolker Feb 18 '13 at 17:22
by the way, it would be courteous to respond to the thread on r-help referencing this SO question/answer so that people there can see what's been done on this side. – Ben Bolker Feb 18 '13 at 20:25

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