Let's say I have species-habitat abundance matrices sampled in time. I am trying to find a neat way to to aggregate over temporal replicates, creating a single species abundances matrix.

```
# Construct dummy data
mat1<-matrix(c(1,3,0,2,0,0,6,0,10,1), ncol=5, nrow=2)
mat2<-matrix(c(0,11,0,0,1,0,2,3,7,1), ncol=5, nrow=2)
mat3<-matrix(c(2,1,0,0,3,1,1,0,4,0), ncol=5, nrow=2)
colnames(mat1) <-c('sp1','sp2','sp3','sp4','sp5')
rownames(mat1) <- c('h1','h2')
colnames(mat2) <-c('sp1','sp2','sp3','sp4','sp5')
rownames(mat2) <- c('h1','h2')
colnames(mat3) <-c('sp1','sp2','sp3','sp4','sp5')
rownames(mat3) <- c('h1','h2')
# Special case when new species occur
mat4 <- matrix(c(2,1,0,0,3,1,1,0,4,0,6,3), ncol=6, nrow=2)
colnames(mat4) <-c('sp1','sp2','sp3','sp4','sp5','sp6')
rownames(mat4) <- c('h1','h2')
# Replicate matrices are within a list
l.mat<-list(mat1,mat2,mat3,mat4)
```

My first thought was to use `apply(margin=2)`

(but then again, the matices are within a list, `lapply`

?) and `colSums`

but I have not find a way not to sum over rows *(habitat)* within each matrix, but rather between, as seen below. Also when a new species occur, it should appear in the aggregated matrix

```
# Desired output
# Aggregated matrix
sp1 sp2 sp3 sp4 sp5 sp6
h1 5 0 7 10 25 6
h2 16 2 2 3 2 3
```

Any pointers would be very much appreciated, thanks!

`mat4`

. – jO. Mar 8 '14 at 11:33