Introduction

The GSOD or Global Surface Summary of the Day (GSOD) data provided by the US National Centers for Environmental Information (NCEI) are a valuable source of weather data with global coverage. However, the data files are cumbersome and difficult to work with. {GSODR} aims to make it easy to find, transfer and format the data you need for use in analysis and provides six main functions for facilitating this:

get_GSOD() - this function queries and transfers files from the NCEI’s web server, reformats them and returns a data frame.
reformat_GSOD() - this function takes individual station files from the local disk and re-formats them returning a data frame.
nearest_stations() - this function returns a data.table of stations with their metadata and the distance in which they fall from the given radius (kilometres) of a point given as latitude and longitude in order from nearest to farthest.
get_inventory() - this function downloads the latest station inventory information from the NCEI’s server and returns the header information about the latest version as a message in the console and a tidy data frame of the stations’ inventory for each month that data are reported.
get_history() - this function downloads the latest version of the isd-history.csv file from the NCEI’s server and returns a {data.table} of the information for each station that is available. A version of this file is distributed with {GSODR} internally and can be updated with update_internal_isd_history().
get_updates() - this function downloads the changelog for the GSOD data from the NCEI’s server and reorders it by the most recent changes first.
update_internal_isd_history() - this function downloads the latest station list from the NCEI’s server updates the package’s internal database of stations and their metadata. Not recommended for normal use.

When reformatting data either with get_GSOD() or reformat_GSOD(), all units are converted from United States Customary System (USCS) to International System of Units (SI), e.g., inches to millimetres and Fahrenheit to Celsius. Data in the R session summarise each year by station, which also includes vapour pressure and relative humidity elements calculated from existing data in GSOD.

For more information see the description of the data provided by NCEI, https://www.ncei.noaa.gov/data/global-summary-of-the-day/doc/readme.txt.

Using get_GSOD()

Find Stations in or near Toowoomba, Queensland, Australia

{GSODR} provides lists of weather station locations and elevation values. It’s easy to find all stations in Australia.

library("GSODR")

load(system.file("extdata", "isd_history.rda", package = "GSODR"))

# create data.frame for Australia only
Oz <- subset(isd_history, COUNTRY_NAME == "AUSTRALIA")

Oz

## Key: <STNID>
##              STNID                         NAME     LAT     LON
##             <char>                       <char>   <num>   <num>
##    1: 695023-99999          HORN ISLAND   (HID) -10.583 142.300
##    2: 749430-99999           AIDELAIDE RIVER SE -13.300 131.133
##    3: 749432-99999    BATCHELOR FIELD AUSTRALIA -13.049 131.066
##    4: 749438-99999         IRON RANGE AUSTRALIA -12.700 143.300
##    5: 749439-99999     MAREEBA AS/HOEVETT FIELD -17.050 145.400
##   ---                                                          
## 1415: 959890-99999      BICHENO (COUNCIL DEPOT) -41.867 148.300
## 1416: 959950-99999 LORD HOWE ISLAND WINDY POINT -31.533 159.067
## 1417: 959970-99999    HEARD ISLAND (ATLAS COVE) -53.017  73.400
## 1418: 996600-99999          ENVIRONM BUOY 55011 -40.800 144.300
## 1419: 999999-82101               NORTHWEST CAPE -22.333 114.050
##       ELEV(M)   CTRY  STATE    BEGIN      END COUNTRY_NAME
##         <num> <char> <char>    <int>    <int>       <char>
##    1:      NA     AS        19420804 20030816    AUSTRALIA
##    2:   131.0     AS        19430228 19440821    AUSTRALIA
##    3:   107.0     AS        19421231 19430610    AUSTRALIA
##    4:    18.0     AS        19420917 19440930    AUSTRALIA
##    5:   443.0     AS        19420630 19440630    AUSTRALIA
##   ---                                                     
## 1415:    11.0     AS        19650101 20240908    AUSTRALIA
## 1416:     4.0     AS        20120920 20240909    AUSTRALIA
## 1417:     4.0     AS        19980301 20121220    AUSTRALIA
## 1418:     0.0     AS        19930221 19970403    AUSTRALIA
## 1419:    38.1     AS        19680305 19680430    AUSTRALIA
##        ISO2C  ISO3C
##       <char> <char>
##    1:     AU    AUS
##    2:     AU    AUS
##    3:     AU    AUS
##    4:     AU    AUS
##    5:     AU    AUS
##   ---              
## 1415:     AU    AUS
## 1416:     AU    AUS
## 1417:     AU    AUS
## 1418:     AU    AUS
## 1419:     AU    AUS

# Look for a specific town in Australia
subset(Oz, grepl("TOOWOOMBA", NAME))

## Key: <STNID>
##           STNID              NAME     LAT     LON ELEV(M)   CTRY
##          <char>            <char>   <num>   <num>   <num> <char>
## 1: 945510-99999         TOOWOOMBA -27.583 151.933     676     AS
## 2: 955510-99999 TOOWOOMBA AIRPORT -27.550 151.917     642     AS
##     STATE    BEGIN      END COUNTRY_NAME  ISO2C  ISO3C
##    <char>    <int>    <int>       <char> <char> <char>
## 1:        19561231 19971231    AUSTRALIA     AU    AUS
## 2:        19980301 20240909    AUSTRALIA     AU    AUS

Download a Single Station and Year Using get_GSOD()

Now that we’ve seen where the reporting stations are located, we can download weather data from the station Toowoomba, Queensland, Australia for 2010 by using the STNID in the station parameter of get_GSOD().

tbar <- get_GSOD(years = 2010, station = "955510-99999")
str(tbar)

## Classes 'data.table' and 'data.frame':   365 obs. of  47 variables:
##  $ STNID           : chr  "955510-99999" "955510-99999" "955510-99999" "955510-99999" ...
##  $ NAME            : chr  "TOOWOOMBA AIRPORT" "TOOWOOMBA AIRPORT" "TOOWOOMBA AIRPORT" "TOOWOOMBA AIRPORT" ...
##  $ CTRY            : chr  "AS" "AS" "AS" "AS" ...
##  $ COUNTRY_NAME    : chr  "AUSTRALIA" "AUSTRALIA" "AUSTRALIA" "AUSTRALIA" ...
##  $ ISO2C           : chr  "AU" "AU" "AU" "AU" ...
##  $ ISO3C           : chr  "AUS" "AUS" "AUS" "AUS" ...
##  $ STATE           : chr  "" "" "" "" ...
##  $ LATITUDE        : num  -27.6 -27.6 -27.6 -27.6 -27.6 ...
##  $ LONGITUDE       : num  152 152 152 152 152 ...
##  $ ELEVATION       : num  642 642 642 642 642 642 642 642 642 642 ...
##  $ BEGIN           : int  19980301 19980301 19980301 19980301 19980301 19980301 19980301 19980301 19980301 19980301 ...
##  $ END             : int  20240909 20240909 20240909 20240909 20240909 20240909 20240909 20240909 20240909 20240909 ...
##  $ YEARMODA        : Date, format: "2010-01-01" ...
##  $ YEAR            : int  2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 ...
##  $ MONTH           : int  1 1 1 1 1 1 1 1 1 1 ...
##  $ DAY             : int  1 2 3 4 5 6 7 8 9 10 ...
##  $ YDAY            : int  1 2 3 4 5 6 7 8 9 10 ...
##  $ TEMP            : num  21.2 23.2 21.4 18.9 20.5 21.9 21.3 20.9 21.9 22.3 ...
##  $ TEMP_ATTRIBUTES : int  8 8 8 8 8 8 8 8 8 8 ...
##  $ DEWP            : num  17.9 19.4 18.9 16.4 16.4 18.7 17.4 17.1 16.2 14.9 ...
##  $ DEWP_ATTRIBUTES : int  8 8 8 8 8 8 8 8 8 8 ...
##  $ SLP             : num  1013 1010 1012 1016 1016 ...
##  $ SLP_ATTRIBUTES  : int  8 8 8 8 8 8 8 8 8 8 ...
##  $ STP             : num  942 939 941 944 944 ...
##  $ STP_ATTRIBUTES  : int  8 8 8 8 8 8 8 8 8 8 ...
##  $ VISIB           : num  NA NA 14.3 23.3 NA NA NA NA NA NA ...
##  $ VISIB_ATTRIBUTES: int  0 0 6 4 0 0 0 0 0 0 ...
##  $ WDSP            : num  4.3 3.7 7.6 8.7 7.5 6.3 7.8 7.5 6.8 6.3 ...
##  $ WDSP_ATTRIBUTES : int  8 8 8 8 8 8 8 8 8 8 ...
##  $ MXSPD           : num  6.7 5.1 10.3 10.3 10.8 7.7 8.7 8.7 8.2 7.2 ...
##  $ GUST            : num  NA NA NA NA NA NA NA NA NA NA ...
##  $ MAX             : num  25.8 26.5 28.7 24.1 24.6 26.8 26.1 26.5 27.4 28.7 ...
##  $ MAX_ATTRIBUTES  : chr  NA NA NA NA ...
##  $ MIN             : num  17.8 19.1 19.3 16.9 16.7 17.5 19.1 18.5 17.8 17.7 ...
##  $ MIN_ATTRIBUTES  : chr  NA NA "*" "*" ...
##  $ PRCP            : num  1.52 0.25 19.81 1.02 0.25 ...
##  $ PRCP_ATTRIBUTES : chr  "G" "G" "G" "G" ...
##  $ SNDP            : num  NA NA NA NA NA NA NA NA NA NA ...
##  $ I_FOG           : num  0 0 1 0 0 1 1 0 1 1 ...
##  $ I_RAIN_DRIZZLE  : num  0 0 1 0 0 0 0 0 0 0 ...
##  $ I_SNOW_ICE      : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_HAIL          : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_THUNDER       : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_TORNADO_FUNNEL: num  0 0 0 0 0 0 0 0 0 0 ...
##  $ EA              : num  2 2.2 2.2 1.9 1.9 2.2 2 1.9 1.8 1.7 ...
##  $ ES              : num  2.5 2.8 2.5 2.2 2.4 2.6 2.5 2.5 2.6 2.7 ...
##  $ RH              : num  81.5 79.2 85.7 85.4 77.3 82.1 78.5 78.9 70.1 62.9 ...
##  - attr(*, ".internal.selfref")=<externalptr>

Using nearest_stations() to Download Multiple Stations at Once

Using the nearest_stations() function, you can find stations closest to a given point specified by latitude and longitude in decimal degrees. This can be used to generate a vector to pass along to get_GSOD() and download the stations of interest.

Warning messages will be generated as not all stations have data for the requested year.

tbar_stations <- nearest_stations(LAT = -27.5598,
                                  LON = 151.9507,
                                  distance = 50)$STNID

tbar <- get_GSOD(years = 2010, station = tbar_stations)

## Warning: 
## This station, 945510-99999, only provides data for years 1956 to 1997.
## Please send a request that falls within these years.

## Warning: 
## This station, 949999-00170, only provides data for years 1971 to 1984.
## Please send a request that falls within these years.

## Warning: 
## This station, 949999-00183, only provides data for years 1983 to 1984.
## Please send a request that falls within these years.

str(tbar)

## Classes 'data.table' and 'data.frame':   1095 obs. of  47 variables:
##  $ STNID           : chr  "945520-99999" "945520-99999" "945520-99999" "945520-99999" ...
##  $ NAME            : chr  "OAKEY" "OAKEY" "OAKEY" "OAKEY" ...
##  $ CTRY            : chr  "AS" "AS" "AS" "AS" ...
##  $ COUNTRY_NAME    : chr  "AUSTRALIA" "AUSTRALIA" "AUSTRALIA" "AUSTRALIA" ...
##  $ ISO2C           : chr  "AU" "AU" "AU" "AU" ...
##  $ ISO3C           : chr  "AUS" "AUS" "AUS" "AUS" ...
##  $ STATE           : chr  "" "" "" "" ...
##  $ LATITUDE        : num  -27.4 -27.4 -27.4 -27.4 -27.4 ...
##  $ LONGITUDE       : num  152 152 152 152 152 ...
##  $ ELEVATION       : num  407 407 407 407 407 ...
##  $ BEGIN           : int  19730430 19730430 19730430 19730430 19730430 19730430 19730430 19730430 19730430 19730430 ...
##  $ END             : int  20240909 20240909 20240909 20240909 20240909 20240909 20240909 20240909 20240909 20240909 ...
##  $ YEARMODA        : Date, format: "2010-01-01" ...
##  $ YEAR            : int  2010 2010 2010 2010 2010 2010 2010 2010 2010 2010 ...
##  $ MONTH           : int  1 1 1 1 1 1 1 1 1 1 ...
##  $ DAY             : int  1 2 3 4 5 6 7 8 9 10 ...
##  $ YDAY            : int  1 2 3 4 5 6 7 8 9 10 ...
##  $ TEMP            : num  23.4 26.2 24.5 21.6 22.6 24.7 24 23.3 24.4 25.1 ...
##  $ TEMP_ATTRIBUTES : int  16 16 16 16 16 16 16 16 16 16 ...
##  $ DEWP            : num  18.4 19.4 19.4 16.8 16.9 18.7 17.1 17.1 15.7 13.6 ...
##  $ DEWP_ATTRIBUTES : int  16 16 16 16 16 16 16 16 16 16 ...
##  $ SLP             : num  1012 1009 1011 1015 1015 ...
##  $ SLP_ATTRIBUTES  : int  16 16 16 16 16 16 16 16 16 16 ...
##  $ STP             : num  967 964 966 969 969 ...
##  $ STP_ATTRIBUTES  : int  16 16 16 16 16 16 16 16 16 16 ...
##  $ VISIB           : num  NA NA NA NA NA NA NA NA NA NA ...
##  $ VISIB_ATTRIBUTES: int  0 0 0 0 0 0 0 0 0 0 ...
##  $ WDSP            : num  4.3 4.1 6.1 7.5 4.4 4.3 5.8 6.2 5.6 4.5 ...
##  $ WDSP_ATTRIBUTES : int  16 16 16 16 16 16 16 16 16 16 ...
##  $ MXSPD           : num  7.2 6.2 8.7 9.8 7.7 6.2 8.2 9.3 7.7 7.2 ...
##  $ GUST            : num  NA NA NA NA NA NA NA NA NA NA ...
##  $ MAX             : num  28.5 31.2 33.6 27.1 27.8 30.4 30 30.5 31.9 33.2 ...
##  $ MAX_ATTRIBUTES  : chr  NA NA NA NA ...
##  $ MIN             : num  19.5 20.5 21.3 18.8 18.4 18.6 20.6 18.6 17.2 16.2 ...
##  $ MIN_ATTRIBUTES  : chr  NA NA "*" "*" ...
##  $ PRCP            : num  0.51 0 3.3 0 0 0 0 0.25 0 0 ...
##  $ PRCP_ATTRIBUTES : chr  "G" "G" "G" "G" ...
##  $ SNDP            : num  NA NA NA NA NA NA NA NA NA NA ...
##  $ I_FOG           : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_RAIN_DRIZZLE  : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_SNOW_ICE      : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_HAIL          : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_THUNDER       : num  0 0 0 0 0 0 0 0 0 0 ...
##  $ I_TORNADO_FUNNEL: num  0 0 0 0 0 0 0 0 0 0 ...
##  $ EA              : num  2.1 2.2 2.2 1.9 1.9 2.2 1.9 1.9 1.8 1.6 ...
##  $ ES              : num  2.9 3.4 3.1 2.6 2.7 3.1 3 2.9 3.1 3.2 ...
##  $ RH              : num  73.5 66.2 73.3 74.2 70.2 69.3 65.3 68.2 58.4 48.9 ...
##  - attr(*, ".internal.selfref")=<externalptr>

Plot Maximum and Minimum Temperature Values

Using the first data downloaded for a single station, 955510-99999, plot the temperature for 2010.

library("ggplot2")
library("tidyr")

# Create a dataframe of just the date and temperature values that we want to
# plot
tbar_temps <- tbar[, c("YEARMODA", "TEMP", "MAX", "MIN")]

# Gather the data from wide to long
tbar_temps <-
  pivot_longer(tbar_temps, cols = TEMP:MIN, names_to = "Measurement")

ggplot(data = tbar_temps, aes(x = YEARMODA,
                              y = value,
                              colour = Measurement)) +
  geom_line() +
  scale_color_brewer(type = "qual", na.value = "black") +
  scale_y_continuous(name = "Temperature") +
  scale_x_date(name = "Date") +
  ggtitle(label = "Max, min and mean temperatures for Toowoomba, Qld, AU",
          subtitle = "Data: U.S. NCEI GSOD") +
  theme_classic()

plot of chunk Ex5

Using reformat_GSOD()

You may have already downloaded GSOD data or may just wish to use your browser to download the files from the server to you local disk and not use the capabilities of get_GSOD(). In that case the reformat_GSOD() function is useful.

There are two ways, you can either provide reformat_GSOD() with a list of specified station files or you can supply it with a directory containing all of the “STATION.csv” station files or “YEAR.zip” annual files that you wish to reformat.

Note Any .csv file provided to reformat_GSOD() will be imported, if it is not a GSOD data file, this will lead to an error. Make sure the directory and file lists are clean.

Reformat a List of Local Files

In this example two STATION.csv files are in subdirectories of user’s home directory and are listed for reformatting as a string.

y <- c("~/GSOD/gsod_1960/20049099999.csv",
       "~/GSOD/gsod_1961/20049099999.csv")
x <- reformat_GSOD(file_list = y)

Reformat all Local Files Found in Directory

In this example all STATION.csv files in the sub-folder GSOD/gsod_1960 will be imported and reformatted.

x <- reformat_GSOD(dsn = "~/GSOD/gsod_1960")

Using get_updates()

{GSODR} provides a function, get_updates(), to retrieve the changelog for the GSOD data and return it in order from newest to oldest changes to the data set.

Following is an example how to use this function.

{r Ex17, eval=TRUE, message=FALSE}' get_updates()

Using get_inventory()

{GSODR} provides a function, get_inventory() to retrieve an inventory of the number of weather observations by station-year-month for the beginning of record through to current.

Following is an example of how to retrieve the inventory and check a station in Toowoomba, Queensland, Australia, which was used in an earlier example.

inventory <- get_inventory()

inventory

##   *** FEDERAL CLIMATE COMPLEX INTEGRATED SURFACE DATA INVENTORY ***  
##    This inventory provides the number of weather observations by  
##    STATION-YEAR-MONTH for beginning of record through October 2024  
## Key: <STNID>
##                STNID                NAME    LAT    LON ELEV(M)
##               <char>              <char>  <num>  <num>   <num>
##      1: 008415-99999                <NA>     NA     NA      NA
##      2: 010010-99999 JAN MAYEN(NOR-NAVY) 70.933 -8.667       9
##      3: 010010-99999 JAN MAYEN(NOR-NAVY) 70.933 -8.667       9
##      4: 010010-99999 JAN MAYEN(NOR-NAVY) 70.933 -8.667       9
##      5: 010010-99999 JAN MAYEN(NOR-NAVY) 70.933 -8.667       9
##     ---                                                       
## 141861:   A51256-451                <NA>     NA     NA      NA
## 141862:   A51256-451                <NA>     NA     NA      NA
## 141863:   A51256-451                <NA>     NA     NA      NA
## 141864:   A51256-451                <NA>     NA     NA      NA
## 141865:   A51256-451                <NA>     NA     NA      NA
##           CTRY  STATE    BEGIN      END COUNTRY_NAME  ISO2C
##         <char> <char>    <int>    <int>       <char> <char>
##      1:   <NA>   <NA>       NA       NA         <NA>   <NA>
##      2:     NO        19310101 20240909       NORWAY     NO
##      3:     NO        19310101 20240909       NORWAY     NO
##      4:     NO        19310101 20240909       NORWAY     NO
##      5:     NO        19310101 20240909       NORWAY     NO
##     ---                                                    
## 141861:   <NA>   <NA>       NA       NA         <NA>   <NA>
## 141862:   <NA>   <NA>       NA       NA         <NA>   <NA>
## 141863:   <NA>   <NA>       NA       NA         <NA>   <NA>
## 141864:   <NA>   <NA>       NA       NA         <NA>   <NA>
## 141865:   <NA>   <NA>       NA       NA         <NA>   <NA>
##          ISO3C  YEAR   JAN   FEB   MAR   APR   MAY   JUN   JUL
##         <char> <int> <int> <int> <int> <int> <int> <int> <int>
##      1:   <NA>  2020     0     0    14     0     0     0     0
##      2:    NOR  2020   736   695   744   717   744   718   743
##      3:    NOR  2021   686   562   729   710   733   654   726
##      4:    NOR  2022   549   513   292    98     0     0   137
##      5:    NOR  2023   738   657   715   713   735   666   735
##     ---                                                       
## 141861:   <NA>  2020  2165  1455  2144  2125  2199  2123  2112
## 141862:   <NA>  2021  2085  1992  2217  1975  2146  2092  2227
## 141863:   <NA>  2022  2203  1937  2204  2144  2218  2119  2224
## 141864:   <NA>  2023  2006  1988  2172  1993  2063  2088  2189
## 141865:   <NA>  2024  2223  1956  2215  2152  2221  2004  2210
##           AUG   SEP   OCT   NOV   DEC
##         <int> <int> <int> <int> <int>
##      1:     0     0     0     0     0
##      2:   742   718   694   708   740
##      3:   717   712   737   714   630
##      4:     0   292   709   708   724
##      5:   726   693   729   698   741
##     ---                              
## 141861:  2192  2083  2079  2074  2187
## 141862:  2170  2080  2163  2120  2168
## 141863:  2209  2137  1743  2126  2201
## 141864:  2182  2147  2199  2120  2197
## 141865:  2124  1703     0     0     0

subset(inventory, STNID %in% "955510-99999")

##   *** FEDERAL CLIMATE COMPLEX INTEGRATED SURFACE DATA INVENTORY ***  
##    This inventory provides the number of weather observations by  
##    STATION-YEAR-MONTH for beginning of record through October 2024  
## Key: <STNID>
##           STNID              NAME    LAT     LON ELEV(M)   CTRY
##          <char>            <char>  <num>   <num>   <num> <char>
## 1: 955510-99999 TOOWOOMBA AIRPORT -27.55 151.917     642     AS
## 2: 955510-99999 TOOWOOMBA AIRPORT -27.55 151.917     642     AS
## 3: 955510-99999 TOOWOOMBA AIRPORT -27.55 151.917     642     AS
## 4: 955510-99999 TOOWOOMBA AIRPORT -27.55 151.917     642     AS
## 5: 955510-99999 TOOWOOMBA AIRPORT -27.55 151.917     642     AS
##     STATE    BEGIN      END COUNTRY_NAME  ISO2C  ISO3C  YEAR
##    <char>    <int>    <int>       <char> <char> <char> <int>
## 1:        19980301 20240909    AUSTRALIA     AU    AUS  2020
## 2:        19980301 20240909    AUSTRALIA     AU    AUS  2021
## 3:        19980301 20240909    AUSTRALIA     AU    AUS  2022
## 4:        19980301 20240909    AUSTRALIA     AU    AUS  2023
## 5:        19980301 20240909    AUSTRALIA     AU    AUS  2024
##      JAN   FEB   MAR   APR   MAY   JUN   JUL   AUG   SEP   OCT
##    <int> <int> <int> <int> <int> <int> <int> <int> <int> <int>
## 1:   246   232   248   238   248   348   493   492   480   496
## 2:   485   483   742   720   743   716   744   737   719   744
## 3:   743   672   739   716   739   716   728   742   716   726
## 4:   738   663   730   715   737   701   733   729   700   730
## 5:   741   691   626   662   714   703   719   707   708   310
##      NOV   DEC
##    <int> <int>
## 1:   475   496
## 2:   720   726
## 3:   713   726
## 4:   710   744
## 5:     0     0

Using update_internal_isd_history()

{GSODR} uses internal databases of station data from the NCEI to provide location and other metadata, e.g. elevation, station names, WMO codes, etc. to make the process of querying for weather data faster. This database is created and packaged with {GSODR} for distribution and is updated with new releases. Users have the option of updating these databases after installing GSODR. While this option gives the users the ability to keep the database up-to-date and gives GSODR’s authors flexibility in maintaining it, this also means that reproducibility may be affected since the same version of {GSODR} may have different databases on different machines. If reproducibility is necessary, care should be taken to ensure that the version of the databases is the same across different machines.

The database file isd_history.rda can be located on your local system by using the following command, paste0(.libPaths(), "/GSODR/extdata")[1], unless you have specified another location for library installations and installed {GSODR} there, in which case it would still be in GSODR/extdata.

To update GSODR’s internal database of station locations simply use update_station_list(), which will update the internal station database according to the latest data available from the NCEI.

update_internal_isd_history()

Notes

WMO Resolution 40. NOAA Policy

The data summaries provided here are based on data exchanged under the World Meteorological Organization (WMO) World Weather Watch Program according to WMO Resolution 40 (Cg-XII). This allows WMO member countries to place restrictions on the use or re-export of their data for commercial purposes outside of the receiving country. Data for selected countries may, at times, not be available through this system. Those countries’ data summaries and products which are available here are intended for free and unrestricted use in research, education, and other non-commercial activities. However, for non-U.S. locations’ data, the data or any derived product shall not be provided to other users or be used for the re-export of commercial services.

Appendices

Appendix 1: GSODR Final Data Format, Contents and Units

{GSODR} formatted data include the following fields and units:

STNID - Station number (WMO/DATSAV3 number) for the location;
NAME - Unique text identifier;
CTRY - Country in which the station is located. This field is the original FIPS code that NCEI provides;
COUNTRY_NAME - Country in which the station is located. This field is the country name in English language;
ISO2C - Country in which the station is located. This field is the two letter ISO country code;
ISO3C - Country in which the station is located. This field is the three letter ISO country code;
LAT - Latitude. Station dropped in cases where values are < -90 or > 90 degrees or Lat = 0 and Lon = 0;
LON - Longitude. Station dropped in cases where values are < -180 or > 180 degrees or Lat = 0 and Lon = 0;
ELEVATION - Elevation in metres;
YEARMODA - Date in YYYYMMDD format;
YEAR - The year (YYYY);
MONTH - The month (mm);
DAY - The day (dd);
YDAY - Sequential day of year (not in original GSOD);
TEMP - Mean daily temperature converted to degrees C to tenths. Missing = NA;
TEMP_ATTRIBUTES - Number of observations used in calculating mean daily temperature;
DEWP - Mean daily dew point converted to degrees C to tenths. Missing = NA;
DEWP_ATTRIBUTES - Number of observations used in calculating mean daily dew point;
SLP - Mean sea level pressure in millibars to tenths. Missing = NA;
SLP_ATTRIBUTES - Number of observations used in calculating mean sea level pressure;
STP - Mean station pressure for the day in millibars to tenths. Missing = NA;
STP_ATTRIBUTES - Number of observations used in calculating mean station pressure;
VISIB - Mean visibility for the day converted to kilometres to tenths. Missing = NA;
VISIB_ATTRIBUTES - Number of observations used in calculating mean daily visibility;
WDSP - Mean daily wind speed value converted to metres/second to tenths. Missing = NA;
WDSP_ATTRIBUTES - Number of observations used in calculating mean daily wind speed;
MXSPD - Maximum sustained wind speed reported for the day converted to metres/second to tenths. Missing = NA;
GUST - Maximum wind gust reported for the day converted to metres/second to tenths. Missing = NA;
MAX - Maximum temperature reported during the day converted to Celsius to tenths–time of max temp report varies by country and region, so this will sometimes not be the max for the calendar day. Missing = NA;
MAX_ATTRIBUTES - Blank indicates max temp was taken from the explicit max temp report and not from the ‘hourly’ data. An “*” indicates max temp was derived from the hourly data (i.e., highest hourly or synoptic-reported temperature);
MIN - Minimum temperature reported during the day converted to Celsius to tenths–time of min temp report varies by country and region, so this will sometimes not be the max for the calendar day. Missing = NA;
MIN_ATTRIBUTES - Blank indicates max temp was taken from the explicit min temp report and not from the ‘hourly’ data. An “*” indicates min temp was derived from the hourly data (i.e., highest hourly or synoptic-reported temperature);
PRCP - Total precipitation (rain and/or melted snow) reported during the day converted to millimetres to hundredths; will usually not end with the midnight observation, i.e., may include latter part of previous day. A value of “.00” indicates no measurable precipitation (includes a trace). Missing = NA; Note: Many stations do not report ‘0’ on days with no precipitation– therefore, NA will often appear on these days. For example, a station may only report a 6-hour amount for the period during which rain fell. See FLAGS_PRCP column for source of data;
PRCP_ATTRIBUTES -
- A = 1 report of 6-hour precipitation amount;
- B = Summation of 2 reports of 6-hour precipitation amount;
- C = Summation of 3 reports of 6-hour precipitation amount;
- D = Summation of 4 reports of 6-hour precipitation amount;
- E = 1 report of 12-hour precipitation amount;
- F = Summation of 2 reports of 12-hour precipitation amount;
- G = 1 report of 24-hour precipitation amount;
- H = Station reported ‘0’ as the amount for the day (e.g. from 6-hour reports), but also reported at least one occurrence of precipitation in hourly observations–this could indicate a trace occurred, but should be considered as incomplete data for the day;
- I = Station did not report any precipitation data for the day and did not report any occurrences of precipitation in its hourly observations–it’s still possible that precipitation occurred but was not reported;
SNDP - Snow depth in millimetres to tenths. Missing = NA;
I_FOG - Indicator for fog, (1 = yes, 0 = no/not reported) for the occurrence during the day;
I_RAIN_DRIZZLE - Indicator for rain or drizzle, (1 = yes, 0 = no/not reported) for the occurrence during the day;
I_SNOW_ICE - Indicator for snow or ice pellets, (1 = yes, 0 = no/not reported) for the occurrence during the day;
I_HAIL - Indicator for hail, (1 = yes, 0 = no/not reported) for the occurrence during the day;
I_THUNDER - Indicator for thunder, (1 = yes, 0 = no/not reported) for the occurrence during the day;
I_TORNADO_FUNNEL - Indicator for tornado or funnel cloud, (1 = yes, 0 = no/not reported) for the occurrence during the day;
EA - Mean daily actual vapour pressure as calculated using improved August-Roche-Magnus approximation (Alduchov and Eskridge 1996). Missing = NA;
ES - Mean daily saturation vapour pressure as calculated using improved August-Roche-Magnus approximation (Alduchov and Eskridge 1996). Missing = NA;
RH - Mean daily relative humidity as calculated using improved August-Roche-Magnus approximation (Alduchov and Eskridge 1996). Missing = NA.

Appendix 2: Map of Current GSOD Station Locations

GSOD Station Locations. Data comes from US NCEI GSOD and CIA World DataBank II

References

Alduchov, Oleg A., and Robert E. Eskridge. 1996. “Improved Magnus Form Approximation of Saturation Vapor Pressure.” Journal of Applied Meteorology 35 (4): 601–9.