I ended up using the suggestion from JoshO'Brien
mentioned above and found here.
I took his code and changed state
to county
as shown here:
library(sp)
library(maps)
library(maptools)
# The single argument to this function, pointsDF, is a data.frame in which:
# - column 1 contains the longitude in degrees (negative in the US)
# - column 2 contains the latitude in degrees
latlong2county <- function(pointsDF) {
# Prepare SpatialPolygons object with one SpatialPolygon
# per county
counties <- map('county', fill=TRUE, col="transparent", plot=FALSE)
IDs <- sapply(strsplit(counties$names, ":"), function(x) x[1])
counties_sp <- map2SpatialPolygons(counties, IDs=IDs,
proj4string=CRS("+proj=longlat +datum=WGS84"))
# Convert pointsDF to a SpatialPoints object
pointsSP <- SpatialPoints(pointsDF,
proj4string=CRS("+proj=longlat +datum=WGS84"))
# Use 'over' to get _indices_ of the Polygons object containing each point
indices <- over(pointsSP, counties_sp)
# Return the county names of the Polygons object containing each point
countyNames <- sapply(counties_sp@polygons, function(x) x@ID)
countyNames[indices]
}
# Test the function using points in Wisconsin and Oregon.
testPoints <- data.frame(x = c(-90, -120), y = c(44, 44))
latlong2county(testPoints)
[1] "wisconsin,juneau" "oregon,crook" # IT WORKS