rFIA: Unlocking the FIA Database in R

CRAN status Travis build status Lifecycle: maturing

US Biomass

The goal of rFIA is to increase the accessibility and use of the USFS Forest Inventory and Analysis (FIA) Database by providing a user-friendly, open source platform to easily query and analyze FIA Data. Designed to accommodate a wide range of potential user objectives, rFIA simplifies the estimation of forest variables from the FIA Database and allows all R users (experts and newcomers alike) to unlock the flexibility and potential inherent to the Enhanced FIA design.

Specifically, rFIA improves accessibility to the spatio-temporal estimation capacity of the FIA Database by producing space-time indexed summaries of forest variables within user-defined population boundaries. Direct integration with other popular R packages (e.g., dplyr, sp, and sf) facilitates efficient space-time query and data summary, and supports common data representations and API design. The package implements design-based estimation procedures outlined by Bechtold & Patterson (2005), and has been validated against estimates and sampling errors produced by EVALIDator. Current development is focused on the implementation of spatially-enabled model-assisted estimators to improve population, change, and ratio estimates.


You can install the released version of rFIA from CRAN with:


Alternatively, you can install the development version from GitHub:



rFIA Function Description
area Estimate land area
biomass Estimate volume, biomass, & carbon stocks of standing trees
clipFIA Spatial & temporal queries
diversity Estimate species diversity
dwm Estimate volume, biomass, and carbon stocks of down woody material
getFIA Download FIA data, load into R, and optionally save to disk
growMort Estimate recruitment, mortality, and harvest rates
invasive Estimate areal coverage of invasive species
plotFIA Produce static & animated plots of spatial FIA summaries
readFIA Load FIA database into R environment
seedling Estimate seedling abundance (TPA)
standStruct Estimate forest structural stage distributions
tpa Estimate abundance of standing trees (TPA & BAA)
vitalRates Estimate live tree growth rates

Example Usage

Download FIA Data and Load into R

The first step to using rFIA is to download subsets of the FIA Database. The easiest way to accomplish this is using getFIA. Using one line of code, you can download state subsets of the FIA Database, load data into your R environment, and optionally save those data to a local directory for future use!

## Download the state subset or Connecticut (requires an internet connection)
# All data acquired from FIA Datamart: https://apps.fs.usda.gov/fia/datamart/datamart.html
ct <- getFIA(states = 'CT', dir = '/path/to/save/data')

By default, getFIA only loads the portions of the database required to produce summaries with other rFIA functions (common = TRUE). This conserves memory on your machine and speeds download time. If you would like to download all available tables for a state, simple specify common = FALSE in the call to getFIA.

But what if I want to load multiple states worth of FIA data into R? No problem! Simply specify mutiple state abbreviations in the states argument of getFIA (e.g. states = c('MI', 'IN', 'WI', 'IL')), and all state subsets will be downloaded and merged into a single FIA.Database object. This will allow you to use other rFIA functions to produce estimates within polygons which straddle state boundaries!

Note: given the massive size of the full FIA Database, users are cautioned to only download the subsets containing their region of interest.

If you have previously downloaded FIA data would simply like to load into R from a local directory, use readFIA:

## Load FIA Data from a local directory
db <- readFIA('/path/to/your/directory/')

Compute Estimates of Forest Variables

Now that you have loaded your FIA data into R, it’s time to put it to work. Let’s explore the basic functionality of rFIA with tpa, a function to compute tree abundance estimates (TPA, BAA, & relative abundance) from FIA data, and fiaRI, a subset of the FIA Database for Rhode Island including inventories from 2013-2018.

Estimate the abundance of live trees in Rhode Island:

## Load the Rhode Island subset of the FIADB (included w/ rFIA)
## NOTE: This object can be produced using getFIA and/or readFIA

## Only estimates for the most recent inventory year
fiaRI_MR <- clipFIA(fiaRI, mostRecent = TRUE) ## subset the most recent data
tpaRI_MR <- tpa(fiaRI_MR)
#> # A tibble: 1 x 11
#>   <int> <dbl> <dbl>    <dbl>    <dbl>  <dbl>  <dbl>       <dbl>       <dbl>
#> 1  2018  427.  122.     93.2     93.7   6.63   3.06        7.62        4.48
#> # … with 2 more variables: nPlots_TREE <dbl>, nPlots_AREA <dbl>

## All Inventory Years Available (i.e., returns a time series)
tpaRI <- tpa(fiaRI)

## Time Series plot
plotFIA(tpaRI, BAA, se = TRUE,
        plot.title = 'Basal area per acre in Rhode Island over time')

What if I want to group estimates by species? How about by size class?

## Group estimates by species
tpaRI_species <- tpa(fiaRI_MR, bySpecies = TRUE)
head(tpaRI_species, n = 3)
#> # A tibble: 3 x 14
#>   <int> <int> <chr>       <chr>            <dbl>  <dbl>    <dbl>    <dbl>
#> 1  2018    12 balsam fir  Abies balsamea  0.0873 0.0295   0.0191   0.0226
#> 2  2018    43 Atlantic w… Chamaecyparis … 0.247  0.180    0.0539   0.138 
#> 3  2018    68 eastern re… Juniperus virg… 1.14   0.138    0.249    0.106 
#> # … with 6 more variables: TPA_SE <dbl>, BAA_SE <dbl>, TPA_PERC_SE <dbl>,
#> #   BAA_PERC_SE <dbl>, nPlots_TREE <dbl>, nPlots_AREA <dbl>

## Group estimates by size class
## NOTE: Default 2-inch size classes, but you can make your own using makeClasses()
tpaRI_sizeClass <- tpa(fiaRI_MR, bySizeClass = TRUE)
head(tpaRI_sizeClass, n = 3)
#> # A tibble: 3 x 12
#>   <int>     <dbl> <dbl> <dbl>    <dbl>    <dbl>  <dbl>  <dbl>       <dbl>
#> 1  2018         1 188.   3.57     41.0     2.74  13.0   12.8         6.39
#> 2  2018         3  68.6  5.76     15.0     4.42  15.1   15.8         6.39
#> 3  2018         5  46.5  9.06     10.2     6.95   6.51   6.57        6.38
#> # … with 3 more variables: BAA_PERC_SE <dbl>, nPlots_TREE <dbl>,
#> #   nPlots_AREA <dbl>

## Group by species and size class, and plot the distribution 
##  for the most recent inventory year
tpaRI_spsc <- tpa(fiaRI_MR, bySpecies = TRUE, bySizeClass = TRUE)
plotFIA(tpaRI_spsc, BAA, grp = COMMON_NAME, x = sizeClass,
        plot.title = 'Size-class distributions of BAA by species', 
        x.lab = 'Size Class (inches)', text.size = .75,
        n.max = 5) # Only want the top 5 species, try n.max = -5 for bottom 5

What if I want estimates for a specific type of tree (ex. greater than 12-inches DBH and in a canopy dominant or subdominant position) in specific area (ex. growing on mesic sites), and I want to group by estimates by some variable other than species or size class (ex. ownsership group)? Easy! Each of these specifications are described in the FIA Database, and all rFIA functions can leverage these data to easily implement complex queries!

## grpBy specifies what to group estimates by (just like species and size class above)
## treeDomain describes the trees of interest, in terms of FIA variables 
## areaDomain, just like above,describes the land area of interest
tpaRI_own <- tpa(fiaRI_MR, 
                     grpBy = OWNGRPCD, 
                     treeDomain = DIA > 12 & CCLCD %in% c(1,2),
                     areaDomain = PHYSCLCD %in% c(20:29))
#> # A tibble: 2 x 12
#>   <int>    <int> <dbl> <dbl>    <dbl>    <dbl>  <dbl>  <dbl>       <dbl>
#> 1  2018       30 0.848  3.57     20.8     29.3   59.0   59.1        24.7
#> 2  2018       40 1.49   3.99     79.2     70.7   25.7   27.7        24.7
#> # … with 3 more variables: BAA_PERC_SE <dbl>, nPlots_TREE <dbl>,
#> #   nPlots_AREA <dbl>

What if I want to produce estimates within my own population boundaries (within user-defined spatial zones/polygons)? This is where things get really exciting.

## Load the county boundaries for Rhode Island
data('countiesRI') ## Load your own spatial data from shapefiles using readOGR() (rgdal)

## polys specifies the polygons (zones) where you are interested in producing estimates
## returnSpatial = TRUE indicates that the resulting estimates will be joined with the 
##    polygons we specified, thus allowing us to visualize the estimates across space
tpaRI_counties <- tpa(fiaRI_MR, polys = countiesRI, returnSpatial = TRUE)

## NOTE: Any grey polygons below simply means no FIA data was available for that region
plotFIA(tpaRI_counties, BAA) # Plotting method for spatial FIA summaries, also try 'TPA' or 'TPA_PERC'

We produced a really cool time series earlier, how would I marry the spatial and temporal capacity of rFIA to produce estimates across user-defined polygons and through time? Easy! Just hand tpa the full FIA.Database object you produced with readFIA (not the most recent subset produced with clipFIA). For stunning space-time visualizations, hand the output of tpa to plotFIA. To save the animation as a .gif file, simpy specify fileName (name of output file) and savePath (directory to save file, combined with fileName).

## Using the full FIA dataset, all available inventories
tpaRI_st <- tpa(fiaRI, polys = countiesRI, returnSpatial = TRUE)

## Animate the output
plotFIA(tpaRI_st, TPA, animate = TRUE, legend.title = 'Abundance (TPA)', legend.height = .8)