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rlandfire
provides access to a diverse suite of spatial
data layers via the LANDFIRE Product Services (LFPS)
API. LANDFIRE is a joint program of
the USFS, DOI, and other major partners, which provides data layers for
wildfire management, fuel modeling, ecology, natural resource
management, climate, conservation, etc. The complete list of available
layers and additional resources can be found on the LANDFIRE
webpage.
Install rlandfire
from CRAN:
The development version of rlandfire
can be installed
from GitHub with:
Set build_vignettes = TRUE
to access this vignette in
R:
This package is still in development, and users may encounter bugs or unexpected behavior. Please report any issues, feature requests, or suggestions in the package’s GitHub repo.
rlandfire
vs LANDFIRE Product Service (LFPS)rlandfire
To demonstrate rlandfire
, we will explore how ponderosa
pine forest canopy cover changed after the 2020 Calwood fire near
Boulder, Colorado.
library(rlandfire)
library(sf)
#> Linking to GEOS 3.10.2, GDAL 3.4.1, PROJ 8.2.1; sf_use_s2() is TRUE
library(terra)
#> terra 1.7.46
First, we will load the Calwood Fire perimeter data which was downloaded from Boulder County’s geospatial data hub.
boundary_file <- file.path(tempdir(), "Wildfire_History")
utils::unzip(system.file("extdata/Wildfire_History.zip", package = "rlandfire"),
exdir = boundary_file)
boundary <- st_read(file.path(boundary_file, "Wildfire_History.shp")) %>%
sf::st_transform(crs = st_crs(32613))
#> Reading layer `Wildfire_History' from data source
#> `/tmp/RtmpPWAGy9/Wildfire_History/Wildfire_History.shp' using driver `ESRI Shapefile'
#> Simple feature collection with 1 feature and 7 fields
#> Geometry type: MULTIPOLYGON
#> Dimension: XY
#> Bounding box: xmin: -105.3901 ymin: 40.12149 xmax: -105.2471 ymax: 40.18701
#> Geodetic CRS: WGS 84
plot(boundary$geometry, main = "Calwood Fire Boundary (2020)",
border = "red", lwd = 1.5)
We can use the function rlandfire::getAOI()
to create an
area of interest (AOI) vector with the correct format for
landfireAPI()
. getAOI()
handles several steps
for us, it ensures that the AOI is returned in the correct order
(xmin
, ymin
, xmax
,
ymax
) and converts the AOI to latitude and longitude
coordinates (as required by the API) if needed.
Using the extend
argument, we will increase the AOI by 1
km in all directions to provide additional context surrounding the
burned area. This argument takes an optional numeric vector of 1, 2, or
4 elements.
Alternatively, you can supply a LANDFIRE map zone number in place of
the AOI vector. The function getZone()
returns the zone
number containing an sf
object or which corresponds to the
supplied zone name. See help("getZone")
for more
information and an example.
For this example, we are interested in canopy cover data for two
years, 2019 (200CC_19
) and 2022 (220CC_22
),
and existing vegetation type (200EVT
). All available data
products, and their abbreviated names, can be found in the products
table which can be opened by calling
viewProducts()
.
We can ask the API to project the data to the same CRS as our fire
perimeter data by providing the WKID
for our CRS of
interest and a resolution of our choosing, in meters.
We will use the edit_rule
argument to filter out canopy
cover data that does not correspond to Ponderosa Pine Woodland. The
edit_rule
statement should tell the API that when existing
vegetation cover is anything other than Ponderosa Pine Woodland
(7054
), the value of the canopy cover layers should be set
to a specified value.
To do so, we specify that when 220EVT
is not equal
(ne
) to 7054
, the “condition,” the canopy
cover layers should be set equal (st
) to 1
,
the “change.” The edit rule syntax is explained in more depth in the LFPS
guide.
(How the API applies edit rules can be unintuitive. For example,
if we used ‘clear value’ [cv
] or set the value outside of
0-100 the edits we want would not work. To work around this behavior, we
set the values to 1
since it is not found in the original
data set.)
edit_rule <- list(c("condition","200EVT","ne",7054),
c("change", "200CC_19", "st", 1),
c("change", "220CC_22", "st", 1))
Note: Edits are performed in the order that they are listed and are limited to fuel theme products (i.e., Fire Behavior Fuel Model 13, Fire Behavior Fuel Model 40, Forest Canopy Base Height, Forest Canopy Bulk Density, Forest Canopy Cover, and Forest Canopy Height).
Finally, we will provide a path to a temporary zip file. Setting the
path as a temp file is not strictly necessary because if
path
is left blank landfireAPI()
will save the
data to a temporary folder by default.
landfireAPI()
Now we are able to submit a request to the LANDFIRE Product Services
API with the landfireAPI()
function.
resp <- landfireAPI(products = products,
aoi = aoi,
projection = projection,
resolution = resolution,
edit_rule = edit_rule,
path = path,
verbose = FALSE)
landfireAPI()
will download your requested data into the
folder provided in the path argument. If you did not provide one, you
can find the path to your data in the $path
element of the
landfire_api
object.
The files returned by the LFPS API are compressed .zip
files. We need to unzip the directory before reading the
.tif
file. Note: all additional metadata is included in
this same directory.
lf_dir <- file.path(tempdir(), "lf")
utils::unzip(path, exdir = lf_dir)
lf <- terra::rast(list.files(lf_dir, pattern = ".tif$",
full.names = TRUE,
recursive = TRUE))
Now we can reclassify the canopy cover layers to remove any values which are not classified as Ponderosa Pine, calculate the change, and plot our results.
lf$US_200CC_19[lf$US_200CC_19 == 1] <- NA
lf$US_220CC_22[lf$US_220CC_22 == 1] <- NA
change <- lf$US_220CC_22 - lf$US_200CC_19
plot(change, col = rev(terrain.colors(250)),
main = "Canopy Cover Loss - Calwood Fire (2020)",
xlab = "Easting",
ylab = "Northing")
plot(boundary$geometry, add = TRUE, col = NA,
border = "black", lwd = 2)
Visit the LANDFIRE webpage
for information on citing LANDFIRE data layers. The package citation
information can be viewed with citation("rlandfire")
.
These binaries (installable software) and packages are in development.
They may not be fully stable and should be used with caution. We make no claims about them.