Contents

METAR

METAR is a format for reporting weather information. A METAR weather report is predominantly used by aircraft pilots, and by meteorologists, who use aggregated METAR information to assist in weather forecasting. Today, according to the advancement of technology in civil aviation, the METAR is sent as IWXXM model.^[1]

Raw METAR is the most common format in the world for the transmission of observational weather data.^{[citation needed]} It is highly standardized through the International Civil Aviation Organization (ICAO), which allows it to be understood throughout most of the world.

Report names[edit]

In its publication the Aeronautical Information Manual, the United States Federal Aviation Administration (FAA) describes the report as aviation routine weather report,^[2] while the international authority for the code form, the World Meteorological Organization (WMO), describes it as the aerodrome routine meteorological report. The National Oceanic and Atmospheric Administration (part of the United States Department of Commerce) and the United Kingdom's Met Office both employ the definition used by the FAA. METAR is also known as Meteorological Terminal Aviation Routine Weather Report^[3]orMeteorological Aerodrome Report.^[4]

Reports[edit]

METARs typically come from airports or permanent weather observation stations. Reports are generated once an hour or half-hour at most stations, but if conditions change significantly at a staffed location, a report known as a special (SPECI) may be issued. Some stations make regular reports more frequently, such as Pierce County Airport (ICAO code: KPLU) which issues reports three times per hour. Some METARs are encoded by automated airport weather stations located at airports, military bases, and other sites. Some locations still use augmented observations, which are recorded by digital sensors, encoded via software, and then reviewed by certified weather observers or forecasters prior to being transmitted. Observations may also be taken by trained observers or forecasters who manually observe and encode their observations prior to transmission.^{[citation needed]}

History[edit]

The METAR format was introduced internationally on 1 January 1968, and has been modified a number of times since. North American countries continued to use a Surface Aviation Observation (SAO) for current weather conditions until 1 June 1996, when this report was replaced with an approved variant of the METAR agreed upon in a 1989 Geneva agreement. The WMO's publication No. 782 "Aerodrome Reports and Forecasts" contains the base METAR code as adopted by the WMO member countries.^[5]

Information contained in a METAR[edit]

A typical METAR contains data for the temperature, dew point, wind direction and speed, precipitation, cloud cover and heights, visibility, and barometric pressure. A METAR may also contain information on precipitation amounts, lightning, and other information that would be of interest to pilots or meteorologists such as a pilot report or PIREP, colour states and runway visual range (RVR).

In addition, a short period forecast called a TREND may be added at the end of the METAR covering likely changes in weather conditions in the two hours following the observation. These are in the same format as a Terminal Aerodrome Forecast (TAF).

The complement to METARs, reporting forecast weather rather than current weather, are TAFs. METARs and TAFs are used in VOLMET broadcasts.

Regulation[edit]

METAR code is regulated by the World Meteorological Organization in consort with the International Civil Aviation Organization. In the United States, the code is given authority (with some U.S. national differences from the WMO/ICAO model) under the Federal Meteorological Handbook No. 1 (FMH-1), which paved the way for the U.S. Air Force Manual 15-111^[6] on Surface Weather Observations, being the authoritative document for the U.S. Armed Forces. A very similar code form to the METAR is the SPECI. Both codes are defined at the technical regulation level in WMO Technical Regulation No. 49, Vol II, which is copied over to the WMO Manual No. 306 and to ICAO Annex III.

METAR conventions[edit]

Although the general format of METARs is a global standard, the specific fields used within that format vary somewhat between general international usage and usage within North America. Note that there may be minor differences between countries using the international codes as there are between those using the North American conventions. The two examples which follow illustrate the primary differences between the two METAR variations.^[7][8]

Example METAR codes[edit]

International METAR codes[edit]

The following is an example METAR from Burgas AirportinBurgas, Bulgaria. It was taken on 4 February 2005 at 16:00 Coordinated Universal Time (UTC).

METAR LBBG 041600Z 12012MPS 090V150 1400 R04/P1500N R22/P1500U +SN BKN022 OVC050 M04/M07 Q1020 NOSIG 8849//91=

• METAR indicates that the following is a standard hourly observation.
• LBBG is the ICAO airport code for Burgas Airport.
• 041600Z indicates the time of the observation. It is the day of the month (04) followed by the time of day (1600 Zulu time, which equals 4:00 pmGreenwich Mean Time or 6:00 pm local time).
• 12012MPS indicates the wind direction is from 120° (east-southeast) at a speed of 12 m/s (23 knots; 27 mph; 44 km/h). Speed measurements can be in knots (abbreviated KT) or meters per second (abbreviated MPS).
• 090V150 indicates the wind direction is varying from 90° true (east) to 150° true (south-southeast).
• 1400 indicates the prevailing visibility is 1,400 m (4,600 ft).
• R04/P1500N indicates the Runway Visual Range (RVR) along runway 04 is 1,500 m (4,900 ft) and not changing significantly.
• R22/P1500U indicates RVR along runway 22 is 1,500 m (4,900 ft) and rising.
• +SN indicates snow is falling at a heavy intensity. If any precipitation begins with a minus or plus (-/+), it's either light or heavy.
• BKN022 indicates a broken (over half the sky) cloud layer with its base at 2,200 ft (670 m) above ground level (AGL). The lowest "BKN" or "OVC" layer specifies the cloud ceiling.
• OVC050 indicates an unbroken cloud layer (overcast) with its base at 5,000 ft (1,500 m) above ground level (AGL).
• M04/M07 indicates the temperature is −4 °C (25 °F) and the dew point is −7 °C (19 °F). An M in front of the number indicates that the temperature/dew point is below zero Celsius.
• Q1020 indicates the current altimeter setting (inQNH) is 1,020 hPa (30.12 inHg).
• NOSIG is an example of a TREND forecast which is appended to METARs at stations while a forecaster is on watch. NOSIG means that no significant change is expected to the reported conditions within the next 2 hours.
• 8849//91 indicates the condition of the runway.
  • The first two characters indicate which runway is being described.
    • If there are two or more runways with the same number, some locations will use three characters (e.g. 25L and 25R). Otherwise, the left runway will use just its number and the right runway will add 50 (e.g. 25 = 25L and 75 = 25R).
    • 88 indicates all the airport's runways.
    • 99 indicates repetition of the last message as no new information received.
  • 4 means the runway is coated with dry snow
  • 9 means 51% to 100% of the runway is covered
  • // means the thickness of the coating was either not measurable or not affecting usage of the runway
  • 91 means the braking index is bad, in other words the tires have bad grip on the runway
• CAVOK is an abbreviation for Ceiling AndVisibility OK, indicating no cloud below 5,000 ft (1,500 m) or the highest minimum sector altitude and no cumulonimbusortowering cumulus at any level, a visibility of 10 km (6 mi) or more and no significant weather change.^[9]
• = indicates the end of the METAR

North American METAR codes[edit]

North American METARs deviate from the WMO (who write the code on behalf of ICAO) FM 15-XII code. Details are listed in the FAA's Aeronautical Information Manual (AIM), but the non-compliant elements are mostly based on the use of non-standard units of measurement. This METAR example is from Trenton-Mercer Airport near Trenton, New Jersey, and was taken on 5 December 2003 at 18:53 UTC.

METAR KTTN 051853Z 04011KT 1/2SM VCTS SN FZFG BKN003 OVC010 M02/M02 A3006 RMK AO2 TSB40 SLP176 P0002 T10171017=^[10]

• METAR indicates that the following is a standard hourly observation.
• KTTN is the ICAO identifier for the Trenton-Mercer Airport.
• 051853Z indicates the day of the month is the 5th and the time of day is 1853 Zulu/UTC, or 1:53PM Eastern Standard Time.
• 04011KT indicates the wind is from 040° true (north east) at 11 knots (20 km/h; 13 mph). In the United States, the wind direction must have a 60° or greater variance for variable wind direction to be reported and the wind speed must be greater than 3 knots (5.6 km/h; 3.5 mph).
• 1/2SM indicates the prevailing visibility is 1⁄2 mi (800 m) SM = statute mile.
• VCTS indicates a thunderstorm (TS) in the vicinity (VC), which means from 5–10 mi (8–16 km).
• SN indicates snow is falling at a moderate intensity; a preceding plus or minus sign (+/-) indicates heavy or light precipitation. Without a +/- sign, moderate precipitation is assumed.
• FZFG indicates the presence of freezing fog.
• BKN003 OVC010 indicates a broken (5⁄8to7⁄8 of the sky covered) cloud layer at 300 ft (91 m) above ground level (AGL) and an overcast (8/8 of the sky covered) layer at 1,000 ft (300 m).
• M02/M02 indicates the temperature is −2 °C (28 °F) and the dew point is −2 °C (28 °F). An M in front of the number indicates a negative Celsius temperature/dew point ("minus").
• A3006 indicates the altimeter setting is 30.06 inHg (1,018 hPa).
• RMK indicates the remarks section follows.

Note that what follows are not part of standard observations outside of the United States and can vary significantly.

• AO2 indicates that the station is automated with a precipitation discriminator (rain/snow) sensor.^{[note 1]} Stations that aren't equipped with a rain/snow sensor are designated AO1.^[11]
• TSB40 indicates the thunderstorm began at 40 minutes past the hour at 1840 Zulu/UTC, or 1:40 p.m. Eastern Standard Time.
• SLP176 indicates the current barometric pressure extrapolated to sea level is 1,017.6 hPa (30.05 inHg).
• P0002 indicates that 0.02 inches (0.5 mm) of liquid-equivalent precipitation accumulated during the last hour.
• T10171017 is a breakdown of the temperature and dew point in eight digits separated into two groups of four. The first four digits (1017) indicate the temperature. The first digit (1) designates above or below zero Celsius (0=above zero 1=below zero). The next three digits in the group "017" give the temperature in degrees and tenths of a degree Celsius, −1.7 °C (28.9 °F). The last four digits "1017" indicate the dew point, −1.7 °C (28.9 °F). Note: ASOS software, as of this update, uses whole degrees in °F to compute the °C values in this group.^{[citation needed]}
• = indicates the end of the METAR.

In Canada, RMK is followed by a description of the cloud layers and opacities, in eighths (oktas). For example, CU5 would indicate a cumulus layer with 5⁄8 opacity.^[12]

Cloud reporting[edit]

Cloud coverage is reported by the number of 'oktas' (eighths) of the sky that is occupied by cloud.

This is reported as:^[13]

Flight categories in the U.S.[edit]

METARs can be expressed concisely using so-called aviation flight categories, which indicates what classes of flight can operate at each airport by referring to the visibility and ceiling in each METAR. Four categories are used in the U.S.:^[16]

METAR weather codes[edit]

METAR abbreviations used in the weather and events section. Remarks section will also include began and end times of the weather events.^[17] Codes before remarks will be listed as "-RA" for "light rain". Codes listed after remarks may be listed as "RAB15E25" for "Rain began at 15 minutes after the top of the last hour and ended at 25 minutes after the top of the last hour."

Combinations of two precipitation types are accepted; e.g., RASN (Rain and snow mixed), SHGSSN etc.

U.S. METAR abbreviations[edit]

The following METAR abbreviations are used in the United States; some are used worldwide:^[7]

METAR and TAF Abbreviations and Acronyms:

U.S. METAR numeric codes[edit]

Additional METAR numeric codes listed after RMK.^[17]

WMO codes for cloud types[edit]

The following codes identify the cloud types used in the 8/nnn part. ^[17]

See also[edit]

• BUFR
• CLIMAT
• IWXXM
• Surface weather observation
• SYNOP
• TAF
• Trend type forecast

Notes[edit]

References[edit]

External links[edit]

Look up METAR orSPECI in Wiktionary, the free dictionary.

• Aerodrome reports and forecasts: A Users’ Handbook to the Codes

Decoding

• METAR Study Guide — approved by the National Weather Services Directorate of Environment Canada
• E6BX Online Metar Decoder
• FlightUtilities.com METAR and TAF online decoder

Format specifications

• OFCM.gov — U.S. Federal Meteorological Handbook No. 1 — Surface Weather Observations and Reports (September 2005). Complete documentation on the METAR format, PDF.

Software libraries

• Perl modules for parsing METAR reports at the CPAN site
• PhpWeather is a PHP application (with a GNU General Public License) that parses METAR reports.
• pymetar and metar — Python libraries for METAR fetching and parsing
• Using METAR data to see the Atmospheric Tide.

Current reports

• Selection of worldwide METAR reports from the U.S. NOAA
• List of Stations in NOAA database. Use CTRL+F to search for a station. Input four-letter ICAO identifier to Worldwide METAR Data Access from the U.S. NOAA.
• CheckWX — Raw and decoded METARs, METAR cycles, trends and graphs for locations worldwide.