landmask: Global coarse resolution land / soil mask maps
In GSIF: Global Soil Information Facilities
Description
Usage
Format
Note
References
See Also
Examples
Description
Land mask showing the 1-degree cells (about 19 thousand in total) in the geographical coordinates, and the productive soils mask (areas with a positive Leaf Area Index at least once in the period 2002–2011). The land mask is based on the Global Self-consistent, Hierarchical, High-resolution Shoreline Database data (GSHHS 2.1), the productive soils mask on the MODIS Leaf Area Index monthtly product (MOD15A2), and the water mask is based on the MOD44W product. The map of the Keys to Soil Taxonomy soil suborders of the world at 20 km is based on the USDA-NRCS map of the global soil regions.
Usage
1
Format
landmask data set is a data frame with the following columns:
maskpercent; land mask value
soilmaskboolean; soil mask value
watermaskpercent; water mask value
Lon_itindication of the longitude quadrant (W or E)
Lat_itindication of the latitude quadrant (S or N)
cell_idcell id code e.g. W79_N83
xlongitudes of the center of the grid nodes
ylatitudes of the center of the grid nodes
landmask20km data set is an object of class SpatialGridDataFrame with the following columns:
maskpercent; land mask value
suborderfactor; Keys to Soil Taxonomy suborder class e.g. Histels, Udolls, Calcids, ...
soilmaskfactor; global soil mask map based on the land cover classes (see: SMKISR3)
Note
The land mask has been generated from the layer GSHHS_shp/h/GSHHS_h_L1.shp (level-1 boundaries).
References
Carroll, M., Townshend, J., DiMiceli, C., Noojipady, P., Sohlberg, R. (2009) A New Global Raster Water Mask at 250 Meter Resolution. International Journal of Digital Earth, 2(4).
Global Self-consistent, Hierarchical, High-resolution Shoreline Database (http://en.wikipedia.org/wiki/GSHHS)
USDA-NRCS Global Soil Regions Map (http://www.nrcs.usda.gov/)
Savtchenko, A., D. Ouzounov, S. Ahmad, J. Acker, G. Leptoukh, J. Koziana, and D. Nickless, (2004) Terra and Aqua MODIS products available from NASA GES DAAC. Advances in Space Research 34(4), 710-714.
Wessel, P., Smith, W.H.F., (1996) A Global Self-consistent, Hierarchical, High-resolution Shoreline Database. Journal of Geophysical Research, 101, 8741-8743.
See Also
rworldmap::rworldmapExamples, maps::map
Examples
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library(rgdal)
library(sp)
data(landmask)
gridded(landmask) <- ~x+y
proj4string(landmask) <- "+proj=longlat +datum=WGS84"
## Not run: ## plot maps:
library(maps)
country.m = map('world', plot=FALSE, fill=TRUE)
IDs <- sapply(strsplit(country.m$names, ":"), function(x) x[1])
library(maptools)
country <- as(map2SpatialPolygons(country.m, IDs=IDs), "SpatialLines")
spplot(landmask["mask"], col.regions="grey", sp.layout=list("sp.lines", country))
spplot(landmask["soilmask"], col.regions="grey", sp.layout=list("sp.lines", country))
## End(Not run)
## also available in the Robinson projection at 20 km grid:
data(landmask20km)
image(landmask20km[1])
summary(landmask20km$suborder)
summary(landmask20km$soilmask)
GSIF documentation built on March 26, 2020, 7:01 p.m.
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Description Usage Format Note References See Also Examples
Description
Land mask showing the 1-degree cells (about 19 thousand in total) in the geographical coordinates, and the productive soils mask (areas with a positive Leaf Area Index at least once in the period 2002–2011). The land mask is based on the Global Self-consistent, Hierarchical, High-resolution Shoreline Database data (GSHHS 2.1), the productive soils mask on the MODIS Leaf Area Index monthtly product (MOD15A2), and the water mask is based on the MOD44W product. The map of the Keys to Soil Taxonomy soil suborders of the world at 20 km is based on the USDA-NRCS map of the global soil regions.
Usage
1 |
Format
landmask data set is a data frame with the following columns:
maskpercent; land mask value
soilmaskboolean; soil mask value
watermaskpercent; water mask value
Lon_itindication of the longitude quadrant (W or E)
Lat_itindication of the latitude quadrant (S or N)
cell_idcell id code e.g.
W79_N83xlongitudes of the center of the grid nodes
ylatitudes of the center of the grid nodes
landmask20km data set is an object of class SpatialGridDataFrame with the following columns:
maskpercent; land mask value
suborderfactor; Keys to Soil Taxonomy suborder class e.g. Histels, Udolls, Calcids, ...
soilmaskfactor; global soil mask map based on the land cover classes (see: SMKISR3)
Note
The land mask has been generated from the layer GSHHS_shp/h/GSHHS_h_L1.shp (level-1 boundaries).
References
Carroll, M., Townshend, J., DiMiceli, C., Noojipady, P., Sohlberg, R. (2009) A New Global Raster Water Mask at 250 Meter Resolution. International Journal of Digital Earth, 2(4).
Global Self-consistent, Hierarchical, High-resolution Shoreline Database (http://en.wikipedia.org/wiki/GSHHS)
USDA-NRCS Global Soil Regions Map (http://www.nrcs.usda.gov/)
Savtchenko, A., D. Ouzounov, S. Ahmad, J. Acker, G. Leptoukh, J. Koziana, and D. Nickless, (2004) Terra and Aqua MODIS products available from NASA GES DAAC. Advances in Space Research 34(4), 710-714.
Wessel, P., Smith, W.H.F., (1996) A Global Self-consistent, Hierarchical, High-resolution Shoreline Database. Journal of Geophysical Research, 101, 8741-8743.
See Also
rworldmap::rworldmapExamples, maps::map
Examples
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 | library(rgdal)
library(sp)
data(landmask)
gridded(landmask) <- ~x+y
proj4string(landmask) <- "+proj=longlat +datum=WGS84"
## Not run: ## plot maps:
library(maps)
country.m = map('world', plot=FALSE, fill=TRUE)
IDs <- sapply(strsplit(country.m$names, ":"), function(x) x[1])
library(maptools)
country <- as(map2SpatialPolygons(country.m, IDs=IDs), "SpatialLines")
spplot(landmask["mask"], col.regions="grey", sp.layout=list("sp.lines", country))
spplot(landmask["soilmask"], col.regions="grey", sp.layout=list("sp.lines", country))
## End(Not run)
## also available in the Robinson projection at 20 km grid:
data(landmask20km)
image(landmask20km[1])
summary(landmask20km$suborder)
summary(landmask20km$soilmask)
|
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