rlandfire

Tools for Accessing and Working with LANDFIRE in R

https://github.com/bcknr/rlandfire

Science Score: 36.0%

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    1 of 3 committers (33.3%) from academic institutions
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Last synced: 10 months ago · JSON representation

Repository

Tools for Accessing and Working with LANDFIRE in R

Basic Info
  • Host: GitHub
  • Owner: bcknr
  • License: gpl-3.0
  • Language: R
  • Default Branch: main
  • Homepage:
  • Size: 3.95 MB
Statistics
  • Stars: 18
  • Watchers: 2
  • Forks: 1
  • Open Issues: 0
  • Releases: 10
Created over 3 years ago · Last pushed 11 months ago
Metadata Files
Readme Changelog License

README.Rmd

---
output: github_document
---



```{r, include = FALSE}
knitr::opts_chunk$set(
  collapse = TRUE,
  comment = "#>",
  fig.path = "man/figures/README-",
  out.width = "100%"
)
```





## rlandfire: Interface to 'LANDFIRE Product Service' API ![](https://img.shields.io/github/r-package/v/bcknr/rlandfire) [![R-CMD-check](https://github.com/bcknr/rlandfire/actions/workflows/R-CMD-check.yaml/badge.svg)](https://github.com/bcknr/rlandfire/actions/workflows/R-CMD-check.yaml) `rlandfire` provides access to a diverse suite of spatial data layers via the LANDFIRE Product Services ([LFPS](https://lfps.usgs.gov/arcgis/rest/services/LandfireProductService/GPServer)) API. [LANDFIRE](https://landfire.gov) 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. ## Installation Install `rlandfire` from CRAN: ``` r install.packages("rlandfire") ``` The development version of `rlandfire` can be installed from GitHub with: ``` r # install.packages("devtools") devtools::install_github("bcknr/rlandfire") ``` Set `build_vignettes = TRUE` to access this vignette in R: ``` r devtools::install_github("bcknr/rlandfire", build_vignettes = TRUE) ``` 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](https://github.com/bcknr/rlandfire/issues). ## Using `rlandfire` To demonstrate `rlandfire`, we will explore how ponderosa pine forest canopy cover changed after the 2020 Calwood fire near Boulder, Colorado. ```{r setup, message = FALSE, warning = FALSE} library(rlandfire) library(sf) library(terra) library(foreign) ``` First, we will load the Calwood Fire perimeter data which was downloaded from Boulder County's [geospatial data hub](https://opendata-bouldercounty.hub.arcgis.com/). ```{r, fig.align = "center", fig.height = 5, fig.width = 7} boundary_file <- file.path(tempdir(), "wildfire") utils::unzip(system.file("extdata/wildfire.zip", package = "rlandfire"), exdir = tempdir()) boundary <- st_read(file.path(boundary_file, "wildfire.shp")) %>% sf::st_transform(crs = st_crs(32613)) plot(boundary$geometry, main = "Calwood Fire Boundary (2020)", border = "red", lwd = 1.5) ``` ### AOI We can use the function `rlandfire::getAOI()` to create an area of interest (AOI) vector with the correct format for `landfireAPIv2()`. `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. ```{r} aoi <- getAOI(boundary, extend = 1000) aoi ``` 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. ### Products 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](https://lfps.usgs.gov/products) which can be opened by calling `viewProducts()`. ```{r} products <- c("200CC_19", "220CC_22", "200EVT") ``` ### Email ```{r} email <- "rlandfire@example.com" ``` ### Projection and resolution 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. ```{r} projection <- 32613 resolution <- 90 ``` ### Edit rule 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](https://lfps.usgs.gov/LFProductsServiceUserGuide.pdf). *(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.*) ```{r} 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). If we wanted to restrict these edits to a certain area we could pass the path to a zip archive (`.zip`) containing a shapefile to `edit_mask`: ```{r, eval=FALSE} edit_mask <- "path/to/wildfire.zip" ``` Note: The file must follow ESRI shapefile naming standards (e.g., no special characters) and be less than 1MB in size. ### Path 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 `landfireAPIv2()` will save the data to a temporary folder by default. ```{r} path <- tempfile(fileext = ".zip") ``` ### Call `landfireAPIv2()` Now we are able to submit a request to the LANDFIRE Product Services API with the `landfireAPIv2()` function. ```{r,eval=FALSE} resp <- landfireAPIv2(products = products, aoi = aoi, email = email, projection = projection, resolution = resolution, edit_rule = edit_rule, path = path, verbose = FALSE) ``` `landfireAPIv2()` 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. ```{r,eval=FALSE} resp$path ``` ### Load and process LF data ```{r,include=FALSE} path <- system.file("extdata/LFPS_Return.zip", package = "rlandfire") ``` The files returned by the LFPS API are compressed `.zip` files. We need to unzip the directory before reading the `.tif` file. Note: all additional metadata is included in this same directory. ```{r} lf_dir <- file.path(tempdir(), "lf") utils::unzip(path, exdir = lf_dir) lf <- terra::rast(list.files(lf_dir, pattern = ".tif$", 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. ```{r, fig.align = "center", fig.height = 5, fig.width = 7} 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$geometry, add = TRUE, col = NA, border = "black", lwd = 2) ``` ### Working with Categorical Products The LFPS REST API now embeds attributes in the GeoTIFF files for some variables and returns a database file (`.dbf`) containing the full attribute table. To demonstrate, we will download the Existing Vegetation Cover product from LF 2.4.0 (`240EVC`). Unlike in the example above we will submit a minimal request with the default projection and resolution. We will also allow `rlandfire` to save the files to a temporary directory automatically. As mentioned above, we can find the path to the temporary directory in the `$path` element of the `landfire_api` object returned by `landfireAPIv2()`. ```{r,eval=FALSE} resp <- landfireAPIv2(products = "240EVC", aoi = aoi, email = email, verbose = FALSE) ``` ```{r,include=FALSE} resp <- c() resp$path <- system.file("extdata/LFPS_cat_Return.zip", package = "rlandfire") ``` When we read in and plot the EVC layer the legend will now list the `classnames` for each vegetation type. ```{r} lf_cat <- file.path(tempdir(), "lf_cat") utils::unzip(resp$path, exdir = lf_cat) evc <- terra::rast(list.files(lf_cat, pattern = ".tif$", full.names = TRUE, recursive = TRUE)) plot(evc) ``` To access the values each `classname` is assigned to we can uses the `levels()` function. This returns a simple two column data frame containing both the index and active category, in our case the vegetation cover classes. ```{r} head(levels(evc)[[1]]) ``` Alternatively, we can access the full attribute table using two methods. We can use the function `cats()` which works similarly to `levels()` but returns the full attribute table as a data frame. Alternatively, we can read the database file using `foreign::read.dbf()`. Both methods return similar results, although in this case, we see that the `.dbf` file includes an additional `Count` column not included in the data frame returned from `cats()`. ```{r} # cats attr_tbl <- cats(evc) # Find path to database file dbf <- list.files(lf_cat, pattern = ".dbf$", full.names = TRUE, recursive = TRUE) # Read file dbf_tbl <- foreign::read.dbf(dbf) head(attr_tbl[[1]]) head(dbf_tbl) ``` ### Citation Visit the [LANDFIRE webpage](https://landfire.gov/data/citation) for information on citing LANDFIRE data layers. The package citation information can be viewed with `citation("rlandfire")`.

Owner

  • Name: Mark Buckner
  • Login: bcknr
  • Kind: user
  • Location: Ithaca, NY
  • Company: Cornell University

Predictive Community Ecology | Global Change | Conservation

GitHub Events

Total
  • Create event: 5
  • Release event: 1
  • Issues event: 9
  • Watch event: 7
  • Delete event: 5
  • Issue comment event: 3
  • Push event: 34
  • Pull request event: 9
Last Year
  • Create event: 5
  • Release event: 1
  • Issues event: 9
  • Watch event: 7
  • Delete event: 5
  • Issue comment event: 3
  • Push event: 34
  • Pull request event: 9

Committers

Last synced: 10 months ago

All Time
  • Total Commits: 177
  • Total Committers: 3
  • Avg Commits per committer: 59.0
  • Development Distribution Score (DDS): 0.051
Past Year
  • Commits: 83
  • Committers: 2
  • Avg Commits per committer: 41.5
  • Development Distribution Score (DDS): 0.012
Top Committers
Name Email Commits
bcknr m****7@c****u 168
Mark Buckner 7****r@u****m 8
JoshOBrien j****n@g****m 1
Committer Domains (Top 20 + Academic)

Issues and Pull Requests

Last synced: 11 months ago

All Time
  • Total issues: 14
  • Total pull requests: 23
  • Average time to close issues: 3 months
  • Average time to close pull requests: about 6 hours
  • Total issue authors: 3
  • Total pull request authors: 2
  • Average comments per issue: 0.86
  • Average comments per pull request: 0.04
  • Merged pull requests: 19
  • Bot issues: 0
  • Bot pull requests: 0
Past Year
  • Issues: 4
  • Pull requests: 8
  • Average time to close issues: 5 days
  • Average time to close pull requests: about 2 hours
  • Issue authors: 3
  • Pull request authors: 1
  • Average comments per issue: 0.75
  • Average comments per pull request: 0.0
  • Merged pull requests: 5
  • Bot issues: 0
  • Bot pull requests: 0
Top Authors
Issue Authors
  • bcknr (12)
  • mikoontz (1)
  • TylerLMcIntosh (1)
Pull Request Authors
  • bcknr (26)
  • JoshOBrien (2)
Top Labels
Issue Labels
enhancement (4) bug (4) awaiting release (2) documentation (1) todo (1)
Pull Request Labels

Packages

  • Total packages: 2
  • Total downloads:
    • cran 137 last-month
  • Total dependent packages: 0
    (may contain duplicates)
  • Total dependent repositories: 0
    (may contain duplicates)
  • Total versions: 13
  • Total maintainers: 1
proxy.golang.org: github.com/bcknr/rlandfire
  • Versions: 10
  • Dependent Packages: 0
  • Dependent Repositories: 0
Rankings
Dependent packages count: 5.4%
Average: 5.6%
Dependent repos count: 5.8%
Last synced: 10 months ago
cran.r-project.org: rlandfire

Interface to 'LANDFIRE Product Service' API

  • Versions: 3
  • Dependent Packages: 0
  • Dependent Repositories: 0
  • Downloads: 137 Last month
Rankings
Dependent packages count: 28.1%
Average: 32.1%
Dependent repos count: 36.1%
Maintainers (1)
Last synced: 10 months ago

Dependencies

DESCRIPTION cran
  • httr * imports
  • sf * imports
  • stringr * imports
  • terra * imports
  • utils * imports
  • knitr * suggests
  • raster * suggests
  • rmarkdown * suggests
  • stars * suggests
  • testthat >= 3.0.0 suggests
.github/workflows/R-CMD-check.yaml actions
  • actions/checkout v4 composite
  • r-lib/actions/check-r-package v2 composite
  • r-lib/actions/setup-pandoc v2 composite
  • r-lib/actions/setup-r v2 composite
  • r-lib/actions/setup-r-dependencies v2 composite