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I have administrative boundary data from the Global Administrative Areas Database. Plotting subdivisions with this data is very easy. For example, if I want to overplot geocoded data contained in the file mydata on counties in Florida, I download the "level 2" for the US, and then use this code:

load("/home/anindya/Desktop/DELETE/USA_adm2.RData")
temp = as.data.frame(gadm) *Code for eyeballing structure of data
florida = gadm[344:410,]
plot(florida); points(mydata$longitude, mydata$latitude)

But how do you overlay other information on this, say for topography and waterways? I am particularly interested in data from Natural Earth and the Global Lakes and Wetlands Database.

FOLLOW-UP EDIT: Many thanks to Paul for a soloution to the problem. I had crossposted a variation of this question on here at gis.stackexchange, where R.K. gave an excellent answer. Do read up on it as well.

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Take a look at gis.stackexchange.com –  Ahmet Kakıcı Feb 9 '12 at 12:33
    
Sorry I couldn't find something directly relevant. Sure there should be a simple function for overlaying two plots with different kinds of details on the same geographical area?! –  user702432 Feb 10 '12 at 4:32

1 Answer 1

up vote 3 down vote accepted

If I understand you correctly you are asking about how to superimpose different geographic layers as one would using a GUI GIS.

This is straightforward if the data is in a Spatial* object (e.g. SpatialPoints, SpatialLines, SpatialPolygons etc. from the sp package) or as a Raster* object from the raster package. The plot() methods in both of these packages can handle this superimposition if the parameter add=TRUE is given.

To get your vector-based geographic data into Spatial* objects you can use functions from the maptools package (e.g. readShapePoly() reads ESRI polygon shapefiles). Rasters from a variety of file specifications can be loaded using raster() and additional formats are available if the rgdal package is installed.

Here is an example of superimposing geographic data types using fabricated geographic data. First create some example data on a UTM grid:

library(sp)
library(raster)

## Create a RasterLayer object and fill with random values
baseRaster <- raster(nrow=100, ncol=100, 
    xmn=0, xmx=100, ymn=0, ymx=100,
    crs= "+proj=utm")
baseRaster[] <- runif(ncell(baseRaster))

## Create a second raster to superimpose
## It should contain NA values where it is transparent
supRaster <- baseRaster
supRaster[] <- NA
supRaster[cellFromCol(supRaster, 48:52)] <- 1


## Create SpatialPoints object to superimpose on these
loc <- SpatialPoints(cbind(seq(10, 90, by=10), seq(10, 90, by=10)))

Now do the plots:

## Plot base raster
plot(baseRaster)

## Superimpose second raster in a different colour
## Turn off legend
plot(supRaster, add=TRUE, col="blue", legend=FALSE)

## Superimpose points and make them big and colourful
plot(loc, add=TRUE, pch=20, cex=3, col="red")

Here is the result:

enter image description here

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Note that overlays like this only work if the datasets have the same coordinate reference system. R won't do coordinate transformation on-the-fly so you have to use spTransform from rgdal if, say, you've got one set of data in lat-long coords and one in some UTM metric grid. –  Spacedman Feb 10 '12 at 8:39
    
@Spacedman - transformations to a common CRS is often essential, but doing it in R remains a bit of mystery to me. I have asked this follow-up question at: stackoverflow.com/questions/9230318 –  digitalmaps Feb 10 '12 at 15:43

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