A pilot report or PIREP is a report of actual weather conditions encountered by an aircraft in flight. This information is usually relayed by radio to the nearest ground station. The message would then be encoded and relayed to other weather offices and air traffic service units.
Although the actual form used to record the PIREP may differ from one country to another, the standards and criteria will remain almost the same. At a minimum the PIREP must contain a header, aircraft location, time, flight level, aircraft type and one other field.
In recent years, a PIREP will also include UA or UUA used to identify the PIREP as routine or urgent.
- UA or UUA used to identify the PIREP as routine or urgent (Note: in Canada this is indicated by the prefix to the PIREP: "UACN01" for an urgent PIREP or "UACN10" for a normal PIREP).
- /OV location of the PIREP, in relation to a NAVAID, an aerodrome or geographical coordinates
- /TM time the PIREP was received from the pilot. Coordinated Universal Time.
- /FL flight level or altitude above sea level at the time the PIREP is filed. Essential for turbulence and icing reports.
- /TP aircraft type. Essential also for turbulence and icing reports.
Optional (at least one is required)
- /SK sky cover
- /TA ambient temperature. Important for icing reports.
- /WV wind velocity referenced in terms of True North (ICAO), or magnetic north (in the United States).
- /TB turbulence. Intensity, whether it occurred in or near clouds, and duration.
- /IC icing
- /RM remarks
- /WX flight visibility and weather.
The message identifier "UA" is used when the PIREP contains non-hazardous weather information. If the PIREP contains a report of a tornado, funnel cloud, waterspout, severe turbulence, severe icing, hail, or a low-level wind shear hazard, the identifier "UUA" would be used.
The location (/OV) can be reported in one of three ways: as a direction and distance from a navigation aid (NAVAID), as a direction and distance from an airport, or as the latitude and longitude of the aircraft.
The time (/TM) used is the UTC time that the PIREP is reported.
The flight level (/FL) is reported as either a three digit value that indicates the altitude of the aircraft above sea level in hundreds of feet or can be one of three abbreviations: DURD (during descent or on approach), DURC (during climb or after takeoff) and UNKN (unknown).
Aircraft type (/TP) will be the approved ICAO designator, or UNKN if not reported.
Sky cover (/SK) is used to report the cloud layer amounts and the height of the cloud base. The tops of the cloud layers can also be included, as can more than one layer of cloud. Heights are in hundreds of feet above sea level and are three digits. Abbreviations used in this group are "CLR" (clear), "FEW" (few), "SCT" (scattered), "BKN" (broken) and "OVC" (overcast).
Temperature (/TA) is the air temperature in whole degrees Celsius as a two-digit value, with negative temperatures preceded by a minus (-) sign.
Wind velocity (/WV) must contain both the wind speed and direction. Direction is reported as a three-digit value in whole degrees true and the wind speed in knots also in three digits.
Turbulence (/TB) and the intensity are reported in a PIREP based on the aircraft and occupants reaction to the turbulence. The altitude of the turbulence should be included using three-digit groups. When the top or the base of the turbulence is unknown then the abbreviation BLO (below) or ABV (above) should be used. Turbulence should be reported as LGT (light), MDT (moderate), SVR (severe) or in exceptional cases EXTRM (extreme). Clear-air turbulence is reported as CAT.
Icing (/IC) is reported by type and the intensity or rate of accretion. The type of ice is reported as "CLR" (clear), "RIME", or "MXD" (mixed). The intensity is reported as "TR" (trace), "LGT" (light), "MDT" (moderate), and "SVR" (severe).
Remarks (/RM) report on other weather conditions that are not covered in the rest of the PIREP may include such things as icing in precipitation, thunderstorms, St Elmo's fire and frontal conditions. There are many other types of weather conditions that could be reported in a PIREP.
The above explanation of PIREP fields is Canadian. The United States version may also include a weather (/WX) group, while other countries may use other groups and measurements.
These examples are taken from the Canadian MANOBS (Manual of Surface Weather Observations) published by Environment Canada.
UACN10 CYQT 192128
UA /OV YSP 090025 /TM 2120 /FL050 /TP BE99 /SK 020BKN040 110OVC /TA -14 /WV 030045 /TB MDT CAT 060-080 /IC LGT RIME 020-040 /RM LGT FZRA INC
Routine Upper Air, Aircraft report from Thunder Bay, Ontario issued at 2128 UTC on the 19th
YZ is Toronto and WG is Winnipeg. This is the Flight Information Region where the PIREP was issued
Aircraft observation was 25 nmi (46 km) east (090 degrees magnetic) of the Marathon, Ontario VOR/DME at 2120 UTC. The aircraft was at 5,000 ft (1,524 m)and is a Beech 99. The clouds were broken at 2,000 ft (610 m) AMSL with tops at 4,000 ft (1,219 m) and an overcast layer at 11,000 ft (3,353 m) AMSL. The temperature is −14 Celsius and the winds are from the NE (030 degrees true) at 45 knots (83 km/h). There is moderate clear air turbulence between 6,000 ft (1,829 m) and 8,000 ft (2,438 m). There is light rime icing between 2,000 ft (610 m) and 4,000 ft (1,219 m). Note this would indicate that the icing is picked up in the cloud. The remarks section says that light freezing rain was encountered in the cloud.
UACN10 CYXU 032133
UA /OV YUX 09010 /TM 2120 /FL030 /TP C172 /TB MDT /RM MDT TURB BLO 050 CYKF CYXU
Routine message from London Ontario, issued at 2133 UTC on the 3rd
The Flight Information Region is Toronto
The aircraft was 10 nmi (19 km) east (090 degrees true) of the London VOR at 2120 UTC. The aircraft was at 3,000 ft (914 m) and was a Cessna 172. The pilot reported moderate turbulence. Then in remarks went on to say that the turbulence was below 5,000 ft (1,524 m) between Kitchener/Waterloo and London.
- Ceilings at or below 5,000 feet (1,500 m)
- Visibility at or less than 5 miles (8.0 km)
- Thunderstorms and related phenomena
- Turbulence of moderate degree or greater
- Icing of light degree or greater
- Wind shear
- Volcanic ash clouds
At least once hourly, terminal controllers must obtain a descent/climb-out PIREP, including cloud information and other related phenomena.
- AMDAR – aircraft meteorological data relay—is a WMO FM-42 code for an automatic meteorological report from an aircraft.
- ACARS – Aircraft Communication Addressing and Reporting System