eBird is an online tool for recording bird observations. Since its inception, over 600 million records of bird sightings (i.e. combinations of location, date, time, and bird species) have been collected, making eBird one of the largest citizen science projects in history and an extremely valuable resource for bird research and conservation. The full eBird database is packaged as a text file and available for download as the eBird Basic Dataset (EBD). Due to the large size of this dataset, it must be filtered to a smaller subset of desired observations before reading into R. This filtering is most efficiently done using AWK, a Unix utility and programming language for processing column formatted text data. This package acts as a front end for AWK, allowing users to filter eBird data before import into R.
auk requires the Unix utility AWK, which is available on most Linux and Mac OS X machines. Windows users will first need to install Cygwin before using this package. Note that Cygwin must be installed in the default location (
C:/cygwin64/bin/gawk.exe) in order for
auk to work.
Full details on using
auk to produce both presence-only and presence-absence data are outlined in the vignette, which can be accessed with
Those interested in eBird data may also want to consider
rebird, an R package that provides an interface to the eBird APIs. The functions in
rebird are mostly limited to accessing recent (i.e. within the last 30 days) observations, although
ebirdfreq() does provide historical frequency of observation data. In contrast,
auk gives access to the full set of ~ 500 million eBird observations. For most ecological applications, users will require
auk; however, for some use cases, e.g. building tools for birders,
rebird provides a quick and easy way to access data.
This package contains a current (as of the time of package release) version of the bird taxonomy used by eBird. This taxonomy determines the species that can be reported in eBird and therefore the species that users of
auk can extract. eBird releases an updated taxonomy once a year, typically in August, at which time
auk will be updated to include the current taxonomy. When using
auk, users should be careful to ensure that the version they’re using is in sync with the eBird Basic Dataset they’re working with. This is most easily accomplished by always using the must recent version of
auk and the most recent release of the dataset.
This package uses the command-line program AWK to extract subsets of the eBird Basic Dataset for use in R. This is a multi-step process:
auk_speciesto filter by species. At this stage the filters are only set up, no actual filtering is done until the next step.
Because the eBird dataset is so large, step 3 typically takes several hours to run. Here’s a simple example that extract all Canada Jay records from within Canada.
library(auk) # path to the ebird data file, here a sample included in the package # get the path to the example data included in the package # in practice, provide path to ebd, e.g. f_in <- "data/ebd_relFeb-2018.txt f_in <- system.file("extdata/ebd-sample.txt", package = "auk") # output text file f_out <- "ebd_filtered_grja.txt" ebird_data <- f_in %>% # 1. reference file auk_ebd() %>% # 2. define filters auk_species(species = "Canada Jay") %>% auk_country(country = "Canada") %>% # 3. run filtering auk_filter(file = f_out) %>% # 4. read text file into r data frame read_ebd()
For those not familiar with the pipe operator (
%>%), the above code could be rewritten:
f_in <- system.file("extdata/ebd-sample.txt", package = "auk") f_out <- "ebd_filtered_grja.txt" ebd <- auk_ebd(f_in) ebd_filters <- auk_species(ebd, species = "Canada Jay") ebd_filters <- auk_country(ebd_filters, country = "Canada") ebd_filtered <- auk_filter(ebd_filters, file = f_out) ebd_df <- read_ebd(ebd_filtered)
auk uses a pipeline-based workflow for defining filters, which can then be compiled into an AWK script. Users should start by defining a reference to the dataset file with
auk_ebd(). Then any of the following filters can be applied:
auk_species(): filter by species using common or scientific names.
auk_country(): filter by country using the standard English names or ISO 2-letter country codes.
auk_state(): filter by state using eBird state codes, see
auk_bcr(): filter by Bird Conservation Region (BCR) using BCR codes, see
auk_bbox(): filter by spatial bounding box, i.e. a range of latitudes and longitudes in decimal degrees.
auk_date(): filter to checklists from a range of dates. To extract observations from a range of dates, regardless of year, use the wildcard “
*” in place of the year, e.g.
date = c("*-05-01", "*-06-30")for observations from May and June of any year.
auk_last_edited(): filter to checklists from a range of last edited dates, useful for extracting just new or recently edited data.
auk_protocol(): filter to checklists that following a specific search protocol, either stationary, traveling, or casual.
auk_project(): filter to checklists collected as part of a specific project (e.g. a breeding bird survey).
auk_time(): filter to checklists started during a range of times-of-day.
auk_duration(): filter to checklists with observation durations within a given range.
auk_distance(): filter to checklists with distances travelled within a given range.
auk_breeding(): only retain observations that have an associate breeding bird atlas code.
auk_complete(): only retain checklists in which the observer has specified that they recorded all species seen or heard. It is necessary to retain only complete records for the creation of presence-absence data, because the “absence”" information is inferred by the lack of reporting of a species on checklists.
Note that all of the functions listed above only modify the
auk_ebd object, in order to define the filters. Once the filters have been defined, the filtering is actually conducted using
# sample data f <- system.file("extdata/ebd-sample.txt", package = "auk") # define an EBD reference and a set of filters ebd <- auk_ebd(f) %>% # species: common and scientific names can be mixed auk_species(species = c("Canada Jay", "Cyanocitta cristata")) %>% # country: codes and names can be mixed; case insensitive auk_country(country = c("US", "Canada", "mexico")) %>% # bbox: long and lat in decimal degrees # formatted as `c(lng_min, lat_min, lng_max, lat_max)` auk_bbox(bbox = c(-100, 37, -80, 52)) %>% # date: use standard ISO date format `"YYYY-MM-DD"` auk_date(date = c("2012-01-01", "2012-12-31")) %>% # time: 24h format auk_time(start_time = c("06:00", "09:00")) %>% # duration: length in minutes of checklists auk_duration(duration = c(0, 60)) %>% # complete: all species seen or heard are recorded auk_complete() ebd #> Input #> EBD: /Users/mes335/projects/auk/inst/extdata/ebd-sample.txt #> #> Output #> Filters not executed #> #> Filters #> Species: Cyanocitta cristata, Perisoreus canadensis #> Countries: CA, MX, US #> States: all #> BCRs: all #> Bounding box: Lon -100 - -80; Lat 37 - 52 #> Date: 2012-01-01 - 2012-12-31 #> Start time: 06:00-09:00 #> Last edited date: all #> Protocol: all #> Project code: all #> Duration: 0-60 minutes #> Distance travelled: all #> Records with breeding codes only: no #> Complete checklists only: yes
Each of the functions described in the Defining filters section only defines a filter. Once all of the required filters have been set,
auk_filter() should be used to compile them into an AWK script and execute it to produce an output file. So, as an example of bringing all of these steps together, the following commands will extract all Canada Jay and Blue Jay records from Canada and save the results to a tab-separated text file for subsequent use:
Filtering the full dataset typically takes at least a couple hours, so set it running then go grab lunch!
eBird Basic Dataset files can be read with
system.file("extdata/ebd-sample.txt", package = "auk") %>% read_ebd() %>% str() #> Classes 'tbl_df', 'tbl' and 'data.frame': 494 obs. of 45 variables: #> $ checklist_id : chr "S6852862" "S14432467" "S39033556" "S38303088" ... #> $ global_unique_identifier : chr "URN:CornellLabOfOrnithology:EBIRD:OBS97935965" "URN:CornellLabOfOrnithology:EBIRD:OBS201605886" "URN:CornellLabOfOrnithology:EBIRD:OBS530638734" "URN:CornellLabOfOrnithology:EBIRD:OBS520887169" ... #> $ last_edited_date : chr "2016-02-22 14:59:49" "2013-06-16 17:34:19" "2017-09-06 13:13:34" "2017-07-24 15:17:16" ... #> $ taxonomic_order : num 20145 20145 20145 20145 20145 ... #> $ category : chr "species" "species" "species" "species" ... #> $ common_name : chr "Green Jay" "Green Jay" "Green Jay" "Green Jay" ... #> $ scientific_name : chr "Cyanocorax yncas" "Cyanocorax yncas" "Cyanocorax yncas" "Cyanocorax yncas" ... #> $ observation_count : chr "4" "2" "1" "1" ... #> $ breeding_bird_atlas_code : chr NA NA NA NA ... #> $ breeding_bird_atlas_category: chr NA NA NA NA ... #> $ age_sex : chr NA NA NA NA ... #> $ country : chr "Mexico" "Mexico" "Mexico" "Mexico" ... #> $ country_code : chr "MX" "MX" "MX" "MX" ... #> $ state : chr "Yucatan" "Chiapas" "Chiapas" "Chiapas" ... #> $ state_code : chr "MX-YUC" "MX-CHP" "MX-CHP" "MX-CHP" ... #> $ county : chr NA NA NA NA ... #> $ county_code : chr NA NA NA NA ... #> $ iba_code : chr NA NA NA NA ... #> $ bcr_code : int 56 60 60 60 60 55 55 60 56 55 ... #> $ usfws_code : chr NA NA NA NA ... #> $ atlas_block : chr NA NA NA NA ... #> $ locality : chr "Yuc. Hacienda Chichen" "Berlin2_Punto_06" "07_020_LaConcordia_SanFrancsco_Magallanes_P01" "07_020_CerroBola_BuenaVista_tr3_trad_P03" ... #> $ locality_id : chr "L989845" "L2224225" "L6247542" "L6120049" ... #> $ locality_type : chr "P" "P" "P" "P" ... #> $ latitude : num 20.7 15.8 15.8 15.8 15.7 ... #> $ longitude : num -88.6 -93 -93 -92.9 -92.9 ... #> $ observation_date : Date, format: "2010-09-05" "2011-08-18" "2012-02-02" ... #> $ time_observations_started : chr "06:30:00" "08:00:00" "09:13:00" "06:40:00" ... #> $ observer_id : chr "obsr55719" "obsr313215" "obsr313215" "obsr313215" ... #> $ sampling_event_identifier : chr "S6852862" "S14432467" "S39033556" "S38303088" ... #> $ protocol_type : chr "Traveling" "Traveling" "Stationary" "Stationary" ... #> $ protocol_code : chr "P22" "P22" "P21" "P21" ... #> $ project_code : chr "EBIRD" "EBIRD_MEX" "EBIRD_MEX" "EBIRD" ... #> $ duration_minutes : int 90 10 10 10 10 120 30 10 80 30 ... #> $ effort_distance_km : num 1 0.257 NA NA 0.257 ... #> $ effort_area_ha : num NA NA NA NA NA NA NA NA NA NA ... #> $ number_observers : int 3 1 1 1 1 2 2 1 13 2 ... #> $ all_species_reported : logi TRUE TRUE TRUE TRUE TRUE TRUE ... #> $ group_identifier : chr NA NA NA NA ... #> $ has_media : logi FALSE FALSE FALSE FALSE FALSE FALSE ... #> $ approved : logi TRUE TRUE TRUE TRUE TRUE TRUE ... #> $ reviewed : logi FALSE FALSE FALSE FALSE FALSE FALSE ... #> $ reason : chr NA NA NA NA ... #> $ trip_comments : chr NA "Alonso Gomez Hdz Monitoreo Comunitario, Transectos en Bosque de Pino Encino, La Concordia,1098 msnm" "Miguel Mndez Lpez" "Rogelio Lpez Encino" ... #> $ species_comments : chr NA NA NA NA ... #> - attr(*, "rollup")= logi TRUE
For many applications, presence-only data are sufficient; however, for modeling and analysis, presence-absence data are required.
auk includes functionality to produce presence-absence data from eBird checklists. For full details, consult the vignette:
Please note that this project is released with a Contributor Code of Conduct. By participating in this project you agree to abide by its terms.
This package is based on AWK scripts provided as part of the eBird Data Workshop given by Wesley Hochachka, Daniel Fink, Tom Auer, and Frank La Sorte at the 2016 NAOC on August 15, 2016.