Either could be correct. With RasterLayer r
and data.frame sites
you can do
v <- extract(r, sites[, c("Longitude", "Latitude")])
Under the assumption that "Longitude" and "Latitude" are variables in sites
.
However that only works when r
also has a ("Longitude", "Latitude") coordinate reference system. That may not be the case. Consider this RasterLayer
f <- system.file("external/test.grd", package="raster")
r <- raster(f)
r
#class : RasterLayer
#dimensions : 115, 80, 9200 (nrow, ncol, ncell)
#resolution : 40, 40 (x, y)
#extent : 178400, 181600, 329400, 334000 (xmin, xmax, ymin, ymax)
#crs : +proj=sterea +lat_0=52.15616055555555 +lon_0=5.38763888888889 +k=0.9999079 +x_0=155000 +y_0=463000 +ellps=bessel +units=m +towgs84=565.237,50.0087,465.658,-0.406857,0.350733,-1.87035,4.0812 +no_defs
#source : C:/soft/R/R-3.6.1/library/raster/external/test.grd
#names : test
#values : 128.434, 1805.78 (min, max)
The crs
is "sterea ..." and the extent "178400, 181600, ...) shows that the coordinates are clearly not longitude and latitude (they are expressed in meters away from the origin of the crs.)
In this case, you might have a point in the area covered by r
site <- data.frame(Longitude=5.745039, Latitude=50.96254)
But extract
returns NA
because the crs do not match
extract(r, site)
# [,1]
#[1,] NA
So we do
pts <- SpatialPoints(site)
crs(pts) <- "+proj=longlat +datum=WGS84"
rcrs <- crs(r)
ptrans <- spTransform(pts, rcrs)
And now it works
extract(r, ptrans)
#1529.66
head(sites)
so we can see the types and structure of the.csv
data you're starting with?