Sunday, November 27, 2016

How To Decode METARs and TAFs

METARs and TAF     

1. Current Weather Report 
Surface Observation Report  (METAR)
Automated Surface Observation Report
2. Weather Forecasts 
Terminal Aerodrome Forecast TAF
Area Forecast
Winds and Temperature Aloft Forecast

3. In flight weather Advisories and Service
In-Flight Weather Advisories
Supplemental and In-Flight Weather Services

4. Current Weather Charts
Surface Analysis Chart
Weather Depiction Chart
Radar Summary Chart

5. Forecast Weather and Upper Air Charts
Low Level significant prognostic Chart 
High Level significant prognostic Chart 
Severe Weather Forecasts
More Upper Area Charts

Observation Report

METAR
ATIS
ASOS
AWOS
PIREP
Surface Analysis Chart (3hrs - high/low pressure, temp, fronts, wind)
Weather Depiction Chart (From METAR)
Radar 

Forecast
TAF 
AF Area Forecast
Prog Chart
Weather Briefing

Weather Charts

Weather charts are graphic charts that depict current or forecast weather. They provide an overall picture of the United States and should be used in the beginning stages of flight planning. Typically, weather charts show the movement of major weather systems and fronts. Surface analysis, weather depiction, and significant weather prognostic charts are sources of current weather information. Significant weather prognostic charts provide an overall forecast weather picture.

Surface Analysis Chart

The surface analysis chart depicts an analysis of the current surface weather. [Figure 13-10] This chart is transmitted every 3 hours and covers the contiguous 48 states and adjacent areas. A surface analysis chart shows the areas of high and low pressure, fronts, temperatures, dew points, wind directions and speeds, local weather, and visual obstructions. Surface weather observations for reporting points across the United States are also depicted on this chart. Each of these reporting points is illustrated by a station model. [Figure 13-11] A station model includes:

  • Sky cover—the station model depicts total sky cover and is shown as clear, scattered, broken, overcast, or obscured/partially obscured.
  • Sea level pressure—given in three digits to the nearest tenth of a millibar (mb). For 1,000 mbs or greater, prefix a 10 to the three digits. For less than 1,000 mbs, prefix a 9 to the three digits.
  • Pressure change/tendency—pressure change in tenths of mb over the past 3 hours. This is depicted directly below the sea level pressure.
  • Dew point—given in degrees Fahrenheit.
  • Present weather—over 100 different standard weather symbols are used to describe the current weather.
  • Temperature—given in degrees Fahrenheit.
  • Wind—true direction of wind is given by the wind pointer line, indicating the direction from which the wind is blowing. A short barb is equal to 5 knots of wind, a long barb is equal to 10 knots of wind, and a pennant is equal to 50 knots.




Weather Depiction Chart

A weather depiction chart details surface conditions as derived from METAR and other surface observations. The weather depiction chart is prepared and transmitted by computer every 3 hours beginning at 0100Z time and is valid data for the forecast period. It is designed to be used for flight planning by giving an overall picture of the weather across the United States. [Figure 13-12]


The weather depiction chart also provides a graphic display of IFR, VFR, and marginal VFR (MVFR) weather. Areas of IFR conditions (ceilings less than 1,000 feet and visibility less than three miles) are shown by a hatched area outlined by a smooth line. MVFR regions (ceilings 1,000 to 3,000 feet, visibility 3 to 5 miles) are shown by a nonhatched area outlined by a smooth line. Areas of VFR (no ceiling or ceiling greater than 3,000 feet and visibility greater than five miles) are not outlined. Also plotted are fronts, troughs, and squall lines from the previous hours surface analysis chart.

Weather depiction charts show a modified station model that provides sky conditions in the form of total sky cover, ceiling height, weather, and obstructions to visibility, but does not include winds or pressure readings like the surface analysis chart. A bracket ( ] ) symbol to the right of the station indicates the observation was made by an automated station.

Significant Weather Prognostic Charts

Significant weather prognostic charts are available for low-level significant weather from the surface to FL 240 (24,000 feet), also referred to as the 400 mb level and high-level significant weather from FL 250 to FL 630 (25,000 to 63,000 feet). The primary concern of this discussion is the low-level significant weather prognostic chart.

The low-level chart is is a forecast of aviation weather hazards, primarily intended to be used as a guidance product for briefing the VFR pilot. The forecast domain covers the 48 contiguous states, southern Canada and the coastal waters for altitudes below 24,000 ft. Low altitude Significant Weather charts are issued four times daily and are valid at fixed times: 0000, 0600, 1200, and 1800 UTC. Each chart is divided on the left and right into 12 and 24 hour forecast intervals (based on the current NAM model available).

Effective September 1, 2015, the four-panel Low Level SFC-240 chart was replaced with a two-panel chart. The new two-panel chart will be the same as the top two panels in the former four-panel chart, depicting the freezing level and areas of IFR, MVFR, and moderate or greater turbulence. The bottom two panels of the chart have been removed. In lieu of these bottom two panels, an enhanced surface chart that includes fronts, pressure, precipitation type, precipitation intensity, and weather type, is displayed. The green precipitation polygons will be replaced by shaded precipitation areas using the National Digital Forecast Database (NDFD) weather grid.

Figure 13-13 depicts the new two-panel significant weather prognostic chart, as well as the symbols typically used to depict precipitation. The two panels depict freezing levels, turbulence, and low cloud ceilings and/or restrictions to visibility (shown as contoured areas of MVFR and IFR conditions). These charts enable the pilot to pictorially evaluate existing and potential weather hazards they may encounter. Pilots can balance weather phenomena with their aircraft capability and skill set resulting in aeronautical decision-making appropriate to the flight. Prognostic charts are an excellent source of information for preflight planning; however, this chart should be viewed in light of current conditions and specific local area forecasts.


The 36- and 48-hour significant weather prognostic chart is an extension of the 12- and 24-hour forecast. This chart is issued twice a day. It typically contains forecast positions and characteristics of pressure patterns, fronts, and precipitation. An example of a 36- and 48-hour surface prognostic chart is shown in Figure 13-14.





Weather Briefings

Prior to every flight, pilots should gather all information vital to the nature of the flight. This includes an appropriate weather briefing obtained from a specialist at a FSS.

For weather specialists to provide an appropriate weather briefing, they need to know which of the three types of briefings is needed—standard, abbreviated, or outlook. Other helpful information is whether the flight is visual flight rules (VFR) or IFR, aircraft identification and type, departure point, estimated time of departure (ETD), flight altitude, route of flight, destination, and estimated time en route (ETE).

This information is recorded in the flight plan system and a note is made regarding the type of weather briefing provided. If necessary, it can be referenced later to file or amend a flight plan. It is also used when an aircraft is overdue or is reported missing.

Standard Briefing

A standard briefing provides the most complete information and a more complete weather picture. This type of briefing should be obtained prior to the departure of any flight and should be used during flight planning. A standard briefing provides the following information in sequential order if it is applicable to the route of flight.

  1. Adverse conditions—this includes information about adverse conditions that may influence a decision to cancel or alter the route of flight. Adverse conditions include significant weather, such as thunderstorms or aircraft icing, or other important items such as airport closings.
  2. VFR flight not recommended—if the weather for the route of flight is below VFR minimums, or if it is doubtful the flight could be made under VFR conditions due to the forecast weather, the briefer may state “VFR flight not recommended.” It is the pilot’s decision whether or not to continue the flight under VFR, but this advisory should be weighed carefully.
  3. Synopsis—an overview of the larger weather picture. Fronts and major weather systems that affect the general area are provided.
  4. Current conditions—the current ceilings, visibility, winds, and temperatures. If the departure time is more than 2 hours away, current conditions are not included in the briefing.
  5. En route forecast—a summary of the weather forecast for the proposed route of flight.
  6. Destination forecast—a summary of the expected weather for the destination airport at the estimated time of arrival (ETA).
  7. Forecast winds and temperatures aloft—a forecast of the winds at specific altitudes for the route of flight. The forecast temperature information aloft is provided only upon request.
  8. Notices to Airmen (NOTAM)—information pertinent to the route of flight that has not been published in the NOTAM publication. Published NOTAM information is provided during the briefing only when requested.
  9. ATC delays—an advisory of any known ATC delays that may affect the flight.
  10. Other information—at the end of the standard briefing, the FSS specialist provides the radio frequencies needed to open a flight plan and to contact EFAS. Any additional information requested is also provided at this time.

Abbreviated Briefing

An abbreviated briefing is a shortened version of the standard briefing. It should be requested when a departure has been delayed or when weather information is needed to update the previous briefing. When this is the case, the weather specialist needs to know the time and source of the previous briefing so the necessary weather information is not omitted inadvertently. It is always a good idea for the pilot to update the weather information whenever he/she has additional time.

Outlook Briefing

An outlook briefing should be requested when a planned departure is 6 hours or more away. It provides initial forecast information that is limited in scope due to the time frame of the planned flight. This type of briefing is a good source of flight planning information that can influence decisions regarding route of flight, altitude, and ultimately the go/no-go decision. A prudent pilot requests a follow-up briefing prior to departure since an outlook briefing generally only contains information based on weather trends and existing weather in geographical areas at or near the departure airport. A standard briefing near the time of departure ensures that the pilot has the latest information available prior to his/her flight.

Aviation Weather Reports

Aviation weather reports are designed to give accurate depictions of current weather conditions. Each report provides current information that is updated at different times. Some typical reports are METARs and PIREPs.

Aviation Routine Weather Report (METAR)

A METAR is an observation of current surface weather reported in a standard international format. While the METAR code has been adopted worldwide, each country is allowed to make modifications to the code. Normally, these differences are minor but necessary to accommodate local procedures or particular units of measure. This discussion of METAR covers elements used in the United States.

METARs are issued on a regularly scheduled basis unless significant weather changes have occurred. A special METAR (SPECI) can be issued at any time between routine METAR reports.

Example:
METAR KGGG 161753Z AUTO 14021G26KT 3/4SM
+TSRA BR BKN008 OVC012CB 18/17 A2970 RMK
PRESFR

A typical METAR report contains the following information in sequential order:

  1. Type of report—there are two types of METAR reports. The first is the routine METAR report that is transmitted on a regular time interval. The second is the aviation selected SPECI. This is a special report that can be given at any time to update the METAR for rapidly changing weather conditions, aircraft mishaps, or other critical information.
  2. Station identifier—a four-letter code as established by the International Civil Aviation Organization (ICAO). In the 48 contiguous states, a unique three-letter identifier is preceded by the letter “K.” For example, Gregg County Airport in Longview, Texas, is identified by the letters “KGGG,” K being the country designation and GGG being the airport identifier. In other regions of the world, including Alaska and Hawaii, the first two letters of the four-letter ICAO identifier indicate the region, country, or state. Alaska identifiers always begin with the letters “PA” and Hawaii identifiers always begin with the letters “PH.” Station identifiers can be found by calling the FSS, a NWS office, or by searching various websites such as DUATS and NOAA’s Aviation Weather Aviation Digital Data Services (ADDS).
  3. Date and time of report—depicted in a six-digit group (161753Z). The first two digits are the date. The last four digits are the time of the METAR/SPECI, which is always given in coordinated universal time (UTC). A “Z” is appended to the end of the time to denote the time is given in Zulu time (UTC) as opposed to local time.
  4. Modifier—denotes that the METAR/SPECI came from an automated source or that the report was corrected. If the notation “AUTO” is listed in the METAR/SPECI, the report came from an automated source. It also lists “AO1” (for no precipitation discriminator) or “AO2” (with precipitation discriminator) in the “Remarks” section to indicate the type of precipitation sensors employed at the automated station. When the modifier “COR” is used, it identifies a corrected report sent out to replace an earlier report that contained an error (for example: METAR KGGG 161753Z COR).
  5. Wind—reported with five digits (14021KT) unless the speed is greater than 99 knots, in which case the wind is reported with six digits. The first three digits indicate the direction the true wind is blowing from in tens of degrees. If the wind is variable, it is reported as “VRB.” The last two digits indicate the speed of the wind in knots unless the wind is greater than 99 knots, in which case it is indicated by three digits. If the winds are gusting, the letter “G” follows the wind speed (G26KT). After the letter “G,” the peak gust recorded is provided. If the wind direction varies more than 60° and the wind speed is greater than six knots, a separate group of numbers, separated by a “V,” will indicate the extremes of the wind directions.
  6. Visibility—the prevailing visibility (¾ SM) is reported in statute miles as denoted by the letters “SM.” It is reported in both miles and fractions of miles. At times, runway visual range (RVR) is reported following the prevailing visibility. RVR is the distance a pilot can see down the runway in a moving aircraft. When RVR is reported, it is shown with an R, then the runway number followed by a slant, then the visual range in feet. For example, when the RVR is reported as R17L/1400FT, it translates to a visual range of 1,400 feet on runway 17 left.
  7. Weather—can be broken down into two different categories: qualifiers and weather phenomenon (+TSRA BR). First, the qualifiers of intensity, proximity, and the descriptor of the weather are given. The intensity may be light (–), moderate ( ), or heavy (+). Proximity only depicts weather phenomena that are in the airport vicinity. The notation “VC” indicates a specific weather phenomenon is in the vicinity of five to ten miles from the airport. Descriptors are used to describe certain types of precipitation and obscurations. Weather phenomena may be reported as being precipitation, obscurations, and other phenomena, such as squalls or funnel clouds. Descriptions of weather phenomena as they begin or end and hailstone size are also listed in the “Remarks” sections of the report. [Figure 13-5]
  8. Sky condition—always reported in the sequence of amount, height, and type or indefinite ceiling/height (vertical visibility) (BKN008 OVC012CB, VV003). The heights of the cloud bases are reported with a three-digit number in hundreds of feet AGL. Clouds above 12,000 feet are not detected or reported by an automated station. The types of clouds, specifically towering cumulus (TCU) or cumulonimbus (CB) clouds, are reported with their height. Contractions are used to describe the amount of cloud coverage and obscuring phenomena. The amount of sky coverage is reported in eighths of the sky from horizon to horizon. [Figure 13-6]
  9. Temperature and dew point—the air temperature and dew point are always given in degrees Celsius (C) or (18/17). Temperatures below 0 °C are preceded by the letter “M” to indicate minus.
  10. Altimeter setting—reported as inches of mercury (“Hg) in a four-digit number group (A2970). It is always preceded by the letter “A.” Rising or falling pressure may also be denoted in the “Remarks” sections as “PRESRR” or “PRESFR,” respectively.
  11. Zulu time—a term used in aviation for UTC, which places the entire world on one time standard.
  12. Remarks—the remarks section always begins with the letters “RMK.” Comments may or may not appear in this section of the METAR. The information contained in this section may include wind data, variable visibility, beginning and ending times of particular phenomenon, pressure information, and various other information deemed necessary. An example of a remark regarding weather phenomenon that does not fit in any other category would be: OCNL LTGICCG. This translates as occasional lightning in the clouds and from cloud to ground. Automated stations also use the remarks section to indicate the equipment needs maintenance.

Figure 13-5. Descriptors and weather phenomena used in a typical METAR.


Figure 13-6. Reportable contractions for sky condition.

Example:
METAR KGGG 161753Z AUTO 14021G26KT 3/4SM
+TSRA BR BKN008 OVC012CB 18/17 A2970 RMK
PRESFR

Explanation:

Routine METAR for Gregg County Airport for the 16th day of the month at 1753Z automated source. Winds are 140 at 21 knots gusting to 26. Visibility is ¾ statute mile. Thunderstorms with heavy rain and mist. Ceiling is broken at 800 feet, overcast at 1,200 feet with cumulonimbus clouds. Temperature 18 °C and dew point 17 °C. Barometric pressure is 29.70 “Hg and falling rapidly.

Pilot Weather Reports (PIREPs)

PIREPs provide valuable information regarding the conditions as they actually exist in the air, which cannot be gathered from any other source. Pilots can confirm the height of bases and tops of clouds, locations of wind shear and turbulence, and the location of inflight icing. If the ceiling is below 5,000 feet, or visibility is at or below five miles, ATC facilities are required to solicit PIREPs from pilots in the area. When unexpected weather conditions are encountered, pilots are encouraged to make a report to a FSS or ATC. When a pilot weather report is filed, the ATC facility or FSS adds it to the distribution system to brief other pilots and provide inflight advisories.


PIREPs are easy to file and a standard reporting form outlines the manner in which they should be filed. Figure 13-7 shows the elements of a PIREP form. Item numbers 1 through 5 are required information when making a report, as well as at least one weather phenomenon encountered. A PIREP is normally transmitted as an individual report but may be appended to a surface report. Pilot reports are easily decoded, and most contractions used in the reports are self-explanatory.

Example:

UA/OV GGG 090025/TM 1450/FL 060/TP C182/SK
080 OVC/WX FV04SM RA/TA 05/WV 270030KT/TB
LGT/RM HVY RAIN

Explanation:

Type:Routine pilot report
Location:25 NM out on the 090° radial, Gregg County VOR
Time:1450 Zulu
Altitude or Flight Level:6,000 feet
Aircraft Type:Cessna 182
Sky Cover:8,000 overcast
Visibility/Weather:4 miles in rain
Temperature:5 °Celsius
Wind:270° at 30 knots
Turbulence:Light
Icing:None reported
Remarks:Rain is heavy

Aviation Forecasts

Observed weather condition reports are often used in the creation of forecasts for the same area. A variety of different forecast products are produced and designed to be used in the preflight planning stage. The printed forecasts that pilots need to be familiar with are the terminal aerodrome forecast (TAF), aviation area forecast (FA), inflight weather advisories (SIGMET, AIRMET), and the winds and temperatures aloft forecast (FB).

Terminal Aerodrome Forecasts (TAF)

A TAF is a report established for the five statute mile radius around an airport. TAF reports are usually given for larger airports. Each TAF is valid for a 24 or 30-hour time period and is updated four times a day at 0000Z, 0600Z, 1200Z, and 1800Z. The TAF utilizes the same descriptors and abbreviations as used in the METAR report. The TAF includes the following information in sequential order:

  1. Type of report—a TAF can be either a routine forecast (TAF) or an amended forecast (TAF AMD).
  2. ICAO station identifier—the station identifier is the same as that used in a METAR.
  3. Date and time of origin—time and date (081125Z) of TAF origination is given in the six-number code with the first two being the date, the last four being the time. Time is always given in UTC as denoted by the Z following the time block.
  4. Valid period dates and times—The TAF valid period (0812/0912) follows the date/time of forecast origin group. Scheduled 24 and 30 hour TAFs are issued four times per day, at 0000, 0600, 1200, and 1800Z. The first two digits (08) are the day of the month for the start of the TAF. The next two digits (12) are the starting hour (UTC). 09 is the day of the month for the end of the TAF, and the last two digits (12) are the ending hour (UTC) of the valid period. A forecast period that begins at midnight UTC is annotated as 00. If the end time of a valid period is at midnight UTC, it is annotated as 24. For example, a 00Z TAF issued on the 9th of the month and valid for 24 hours would have a valid period of 0900/0924.
  5. Forecast wind—the wind direction and speed forecast are coded in a five-digit number group. An example would be 15011KT. The first three digits indicate the direction of the wind in reference to true north. The last two digits state the windspeed in knots appended with “KT.” Like the METAR, winds greater than 99 knots are given in three digits.
  6. Forecast visibility—given in statute miles and may be in whole numbers or fractions. If the forecast is greater than six miles, it is coded as “P6SM.”
  7. Forecast significant weather—weather phenomena are coded in the TAF reports in the same format as the METAR.
  8. Forecast sky condition—given in the same format as the METAR. Only cumulonimbus (CB) clouds are forecast in this portion of the TAF report as opposed to CBs and towering cumulus in the METAR.
  9. Forecast change group—for any significant weather change forecast to occur during the TAF time period, the expected conditions and time period are included in this group. This information may be shown as from (FM), and temporary (TEMPO). “FM” is used when a rapid and significant change, usually within an hour, is expected. “TEMPO” is used for temporary fluctuations of weather, expected to last less than 1 hour.
  10. PROB30—a given percentage that describes the probability of thunderstorms and precipitation occurring in the coming hours. This forecast is not used for the first 6 hours of the 24-hour forecast.

Example:

TAF
KPIR 111130Z 1112/1212
TEMPO 1112/1114 5SM BR FM1500 16015G25KT P6SM SCT040 BKN250
FM120000 14012KT P6SM BKN080 OVC150 PROB30 1200/1204 3SM TSRA BKN030CB
FM120400 1408KT P6SM SCT040 OVC080
TEMPO 1204/1208 3SM TSRA OVC030CB

Explanation:

Routine TAF for Pierre, South Dakota…on the 11th day of the month, at 1130Z…valid for 24 hours from 1200Z on the 11th to 1200Z on the 12th…wind from 150° at 12 knots…visibility greater than 6 SM…broken clouds at 9,000 feet…temporarily, between 1200Z and 1400Z, visibility 5 SM in mist…from 1500Z winds from 160° at 15 knots, gusting to 25 knots visibility greater than 6 SM…clouds scattered at 4,000 feet and broken at 25,000 feet…from 0000Z wind from 140° at 12 knots…visibility greater than 6 SM…clouds broken at 8,000 feet, overcast at 15,000 feet…between 0000Z and 0400Z, there is 30 percent probability of visibility 3 SM…thunderstorm with moderate rain showers…clouds broken at 3,000 feet with cumulonimbus clouds…from 0400Z…winds from 140° at 8 knots…visibility greater than 6 miles…clouds at 4,000 scattered and overcast at 8,000…temporarily between 0400Z and 0800Z…visibility 3 miles…thunderstorms with moderate rain showers…clouds overcast at 3,000 feet with cumulonimbus clouds…end of report (=).

Area Forecasts (FA)

The FA gives a picture of clouds, general weather conditions, and visual meteorological conditions (VMC) expected over a large area encompassing several states. There are six areas for which area forecasts are published in the contiguous 48 states. Area forecasts are issued three times a day and are valid for 18 hours. This type of forecast gives information vital to en route operations, as well as forecast information for smaller airports that do not have terminal forecasts.

Area forecasts are typically disseminated in four sections and include the following information:

1. Header—gives the location identifier of the source of the FA, the date and time of issuance, the valid forecast time, and the area of coverage.

Example:

DFWC FA 120945
SYNOPSIS AND VFR CLDS/WX
SYNOPSIS VALID UNTIL 130400
CLDS/WX VALID UNTIL 122200…OTLK VALID
122200-130400
OK TX AR LA MS AL AND CSTL WTRS

Explanation:

The area forecast shows information given by Dallas Fort Worth, for the region of Oklahoma, Texas, Arkansas, Louisiana, Mississippi, and Alabama, as well as a portion of the Gulf coastal waters. It was issued on the 12th day of the month at 0945. The synopsis is valid from the time of issuance until 0400 hours on the 13th. VFR clouds and weather information on this area forecast are valid until 2200 hours on the 12th and the outlook is valid from 2200Z on the 12th to 0400Z on the 13th.

2. Precautionary statements—IFR conditions, mountain obscurations, and thunderstorm hazards are described in this section. Statements made here regarding height are given in MSL, and if given otherwise, AGL or ceiling (CIG) is noted.

Example:

SEE AIRMET SIERRA FOR IFR CONDS AND MTN OBSCN.
TS IMPLY SEV OR GTR TURB SEV ICE LLWS AND IFR CONDS.
NON MSL HGTS DENOTED BYAGL OR CIG.

Explanation:

The area forecast covers VFR clouds and weather, so the precautionary statement warns that AIRMET Sierra should be referenced for IFR conditions and mountain obscuration. The code TS indicates the possibility of thunderstorms and implies there may be occurrences of severe or greater turbulence, severe icing, low-level wind shear, and IFR conditions. The final line of the precautionary statement alerts the user that heights, for the most part, are MSL. Those that are not MSL will state AGL or CIG.

3. Synopsis—gives a brief summary identifying the location and movement of pressure systems, fronts, and circulation patterns.

Example:

SYNOPSIS…LOW PRES TROF 10Z OK/TX PNHDL AREA FCST MOV EWD INTO CNTRL-SWRN OK BY 04Z. WRMFNT 10Z CNTRL OK-SRN AR-NRN MS FCST LIFT NWD INTO NERN OK-NRN AR EXTRM NRN MS BY 04Z.

Explanation:

As of 1000Z, there is a low pressure trough over the Oklahoma and Texas panhandle area, which is forecast to move eastward into central to southwestern Oklahoma by 0400Z. A warm front located over central Oklahoma, southern Arkansas, and northern Mississippi at 1000Z is forecast to lift northwestward into northeastern Oklahoma, northern Arkansas, and extreme northern Mississippi by 0400Z.

4. VFR Clouds and Weather—This section lists expected sky conditions, visibility, and weather for the next 12 hours and an outlook for the following 6 hours.

Example:

S CNTRL AND SERN TX
AGL SCT-BKN010. TOPS 030. VIS 3-5SM BR. 14-16Z BECMG AGL SCT030. 19Z AGL SCT050.
OTLK…VFR
OK
PNDLAND NW…AGL SCT030 SCT-BKN100.
TOPS FL200.
15Z AGL SCT040 SCT100. AFT 20Z SCT TSRA DVLPG..FEW POSS SEV. CB TOPS FL450.
OTLK…VFR

Explanation:

In south central and southeastern Texas, there is a scattered to broken layer of clouds from 1,000 feet AGL with tops at 3,000 feet, visibility is 3 to 5 SM in mist. Between 1400Z and 1600Z, the cloud bases are expected to increase to 3,000 feet AGL. After 1900Z, the cloud bases are expected to continue to increase to 5,000 feet AGL and the outlook is VFR.

In northwestern Oklahoma and panhandle, the clouds are scattered at 3,000 feet with another scattered to broken layer at 10,000 feet AGL, with the tops at 20,000 feet. At 1500 Z, the lowest cloud base is expected to increase to 4,000 feet AGL with a scattered layer at 10,000 feet AGL. After 2000Z, the forecast calls for scattered thunderstorms with rain developing and a few becoming severe; the CB clouds have tops at flight level (FL) 450 or 45,000 feet MSL.

It should be noted that when information is given in the area forecast, locations may be given by states, regions, or specific geological features such as mountain ranges. Figure 13-8 shows an area forecast chart with six regions of forecast, states, regional areas, and common geographical features.

Inflight Weather Advisories

Inflight weather advisories, which are provided to en route aircraft, are forecasts that detail potentially hazardous weather. These advisories are also available to pilots prior to departure for flight planning purposes. An inflight weather advisory is issued in the form of either an AIRMET, SIGMET, or convective SIGMET.

AIRMET

AIRMETs (WAs) are examples of inflight weather advisories that are issued every 6 hours with intermediate updates issued as needed for a particular area forecast region. The information contained in an AIRMET is of operational interest to all aircraft, but the weather section concerns phenomena considered potentially hazardous to light aircraft and aircraft with limited operational capabilities.

An AIRMET includes forecast of moderate icing, moderate turbulence, sustained surface winds of 30 knots or greater, widespread areas of ceilings less than 1,000 feet and/or visibilities less than three miles, and extensive mountain obscurement.

Each AIRMET bulletin has a fixed alphanumeric designator, numbered sequentially for easy identification, beginning with the first issuance of the day. Sierra is the AIRMET code used to denote IFR and mountain obscuration; Tango is used to denote turbulence, strong surface winds, and low-level wind shear; and Zulu is used to denote icing and freezing levels.

Example:

BOSS WA 211945
AIRMET SIERRA UPDT 3 FOR IFR AND MTN OBSCN
VALID UNTIL 220200
AIRMET IFT…ME NH VT MA CT RI NY NJ AND CSTL
WTRS FROM CAR TO YSJ TO 150E ACK TO EWR TO
YOW TO CAR OCNL CIG BLW 010/VIS BLW 3SM
PCPN/BR. CONDS CONT BYD 02Z THRU 08Z
AIRMET MTN OBSCN…ME NH VT MA NY PA
FROM CAR TO MLT TO CON TO SLT TO SYR TO CAR
MTNS OCNLY OBSCD BY CLDS/PCPN/BR. CONDS CONT BYD 02Z THRU 08Z

Explanation:

AIRMET SIERRA was issued for the Boston area at 1945Z on the 21st day of the month. SIERRA contains information on IFR and/or mountain obscurations. This is the third updated issuance of this Boston AIRMET series as indicated by “SIERRA UPDT 3” and is valid until 0200Z on the 22nd. The affected states within the BOS area are: Maine, New Hampshire, Vermont, Massachusetts, New York, and Pennsylvania. Within an area bounded by: Caribou, ME; to Saint Johns, New Brunswick; to 150 nautical miles east of Nantucket, MA; to Newark, NJ; to Ottawa, Ontario; to Caribou, ME. The effected states within Caribou, ME to Millinocket, ME to Concord, NH to Slate Run, PA to Syracuse, NY to Caribou, ME will experience ceilings below 1,000 feet/visibility below 3 SM, precipitation/mist. Conditions will continue beyond 0200Z through 0800Z.

SIGMET

SIGMETs (WSs) are inflight advisories concerning non-convective weather that is potentially hazardous to all aircraft. They report weather forecasts that include severe icing not associated with thunderstorms, severe or extreme turbulence or clear air turbulence (CAT) not associated with thunderstorms, dust storms or sandstorms that lower surface or inflight visibilities to below three miles, and volcanic ash. SIGMETs are unscheduled forecasts that are valid for 4 hours unless the SIGMET relates to a hurricane, in which case it is valid for 6 hours.

A SIGMET is issued under an alphabetic identifier, from November through Yankee. The first issuance of a SIGMET is designated as an Urgent Weather SIGMET (UWS). Reissued SIGMETs for the same weather phenomenon are sequentially numbered until the weather phenomenon ends.

Example:

SFOR WS 100130
SIGMET ROME02 VALID UNTIL 100530
OR WA
FROM SEA TO PDT TO EUG TO SEA
OCNL SEV CAT BTN FL280 AND FL350 EXPCD
DUE TO JTSTR.
CONDS BGNG AFT 0200Z CONTG BYD 0530Z .

Explanation:

This is SIGMET Romeo 2, the second issuance for this weather phenomenon. It is valid until the 10th day of the month at 0530Z time. This SIGMET is for Oregon and Washington, for a defined area from Seattle to Portland to Eugene to Seattle. It calls for occasional severe clear air turbulence between FL280 and FL350 due to the location of the jet stream. These conditions will begin after 0200Z and continue beyond the forecast scope of this SIGMET of 0530Z.

Convective Significant Meteorological Information (WST)

A Convective SIGMET (WST) is an inflight weather advisory issued for hazardous convective weather that affects the safety of every flight. Convective SIGMETs are issued for severe thunderstorms with surface winds greater than 50 knots, hail at the surface greater than or equal to ¾ inch in diameter, or tornadoes. They are also issued to advise pilots of embedded thunderstorms, lines of thunderstorms, or thunderstorms with heavy or greater precipitation that affect 40 percent or more of a 3,000 square mile or greater region.

Convective SIGMETs are issued for each area of the contiguous 48 states but not Alaska or Hawaii. Convective SIGMETs are issued for the eastern (E), western (W), and central (C) United States. Each report is issued at 55 minutes past the hour, but special Convective SIGMETs can be issued during the interim for any reason. Each forecast is valid for 2 hours. They are numbered sequentially each day from 1–99, beginning at 00Z time. If no hazardous weather exists, the convective SIGMET is still issued; however, it states “CONVECTIVE SIGMET…NONE.”

Example:

MKCC WST 221855
CONVECTIVE SIGMET 20C
VALID UNTIL 2055Z
ND SD
FROM 90W MOT-GFK-ABR-90W MOT
INTSFYG AREA SEV TS MOVG FROM 24045KT. TOPS
ABV FL450. WIND GUSTS TO 60KTS RPRTD.
TORNADOES…HAIL TO 2 IN… WIND GUSTS TO 65KTS
POSS ND PTN

Explanation:

Convective SIGMET was issued for the central portion of the United States on the 22nd at 1855Z. This is the 20th Convective SIGMET issued on the 22nd for the central United States as indicated by “20C” and is valid until 2055Z. The affected states are North and South Dakota, from 90 nautical miles west of Minot, ND; to Grand Forks, ND; to Aberdeen, SD; to 90 nautical miles west of Minot, ND. An intensifying area of severe thunderstorms moving from 240 degrees at 45 knots (to the northeast). Thunderstorm tops will be above FL 450. Wind gusts up to 60 knots were reported.

Also reported were tornadoes, hail to 2 inches in diameter, and wind gusts to 65 knots possible in the North Dakota portion.

Winds and Temperature Aloft Forecast (FB)

Winds and temperatures aloft forecasts (FB) provide wind and temperature forecasts for specific locations throughout the United States, including network locations in Hawaii and Alaska. The forecasts are made twice a day based on the radiosonde upper air observations taken at 0000Z and 1200Z.

Altitudes through 12,000 feet are classified as true altitudes, while altitudes 18,000 feet and above are classified as altitudes and are termed flight levels. Wind direction is always in reference to true north, and wind speed is given in knots. The temperature is given in degrees Celsius. No winds are forecast when a given level is within 1,500 feet of the station elevation. Similarly, temperatures are not forecast for any station within 2,500 feet of the station elevation.

If the wind speed is forecast to be greater than 99 knots but less than 199 knots, the computer adds 50 to the direction and subtracts 100 from the speed. To decode this type of data group, the reverse must be accomplished. For example, when the data appears as “731960,” subtract 50 from the 73 and add 100 to the 19, and the wind would be 230° at 119 knots with a temperature of –60 °C. If the wind speed is forecast to be 200 knots or greater, the wind group is coded as 99 knots. For example, when the data appears as “7799,” subtract 50 from 77 and add 100 to 99, and the wind is 270° at 199 knots or greater. When the forecast wind speed is calm, or less than 5 knots, the data group is coded “9900,” which means light and variable. [Figure 13-9]

Figure 13-9. Winds and temperature aloft forecast.
Figure 13-9. Winds and temperature aloft forecast.

Explanation of Figure 13-9:

The heading indicates that this FB was transmitted on the 15th of the month at 1640Z and is based on the 1200Z upper air data. The valid time is 1800Z on the same day and should be used for the period between 1400Z and 2100Z. The heading also indicates that the temperatures above FL240 are negative. Therefore, the minus sign will be omitted for all forecast temperatures above FL240.

A four-digit data group shows the wind direction in reference to true north and the wind speed in knots. The elevation at Amarillo, Texas (AMA) is 3,605 feet, so the lowest reportable altitude is 6,000 feet for the forecast winds. In this case, “2714” means the wind is forecast to be from 270° at a speed of 14 knots.

A six-digit group includes the forecast temperature aloft. The elevation at Denver (DEN) is 5,431 feet, so the lowest reportable altitude is 9,000 feet for the winds and temperature forecast. In this case, “2321-04” indicates the wind is forecast to be from 230° at a speed of 21 knots with a temperature of –4 °C.

Electronic Flight Displays (EFD) /Multi-Function Display (MFD) Weather 

Many aircraft manufacturers now include data link weather services with new electronic flight display (EFD) systems. EFDs give a pilot access to many of the data link weather services available.

Products available to a pilot on the display pictured in Figure 13-15 are listed as follows. The letters in parentheses indicate the soft key to press in order to access the data.

  • Graphical NEXRAD data (NEXRAD)
  • Graphical METAR data (METAR)
  • Textual METAR data
  • Textual terminal aerodrome forecasts (TAF)
  • City forecast data
  • Graphical wind data (WIND)
  • Graphical echo tops (ECHO T,,,OPS)
  • Graphical cloud tops (CLD TOPS)
  • Graphical lightning strikes (LTNG)
  • Graphical storm cell movement (CELL MOV)
  • NEXRAD radar coverage (information displayed with the NEXRAD data)
  • SIGMETs/AIRMETs (SIG/AIR)
  • Surface analysis to include city forecasts (SFC)
  • County warnings (COUNTY)
  • Freezing levels (FRZ LVL)
  • Hurricane track (CYCLONE)
  • Temporary flight restrictions (TFR)
Figure 13-15. Information page.
Figure 13-15. Information page.

Pilots must be familiar with any EFD or MFD used and the data link weather products available on the display.

Weather Products Age and Expiration

The information displayed using a data link weather link is near real time but should not be thought of as instantaneous, up-to-date information. Each type of weather display is stamped with the age information on the MFD. The time is referenced from Zulu when the information was assembled at the ground station. The age should not be assumed to be the time when the FIS received the information from the data link.

Two types of weather are displayed on the screen: “current” weather and forecast data. Current information is displayed by an age while the forecast data has a data stamp in the form of “__ / __ __ : __.” [Figure 13-16]

Figure 13-16. List of weather products and the expiration times of each.
Figure 13-16. List of weather products and the expiration times of each.




The Next Generation Weather Radar System (NEXRAD)

The NEXRAD system is comprised of a series of 159 Weather Surveillance Radar–1988 Doppler (WSR-88D) sites situated throughout the United States, as well as selected overseas sites. The NEXRAD system is a joint venture between the United States Department of Commerce (DOC), the United States DOD, as well as the United States Department of Transportation (DOT). The individual agencies that have control over the system are the NWS, Air Force Weather Agency (AFWA) and the FAA. [Figure 13-17]

Figure 13-17. NEXRAD radar display.
Figure 13-17. NEXRAD radar display.

NEXRAD data for up to a 2,000 mile range can be displayed. It is important to realize that the radar image is not real time and can be up to 5 minutes old. The NTSB has reported on 2 fatal accidents where in-cockpit NEXRAD mosaic imagery was available to pilots operating near quickly-developing and fast-moving convective weather. In one of these accidents, the images were from 6 to 8 minutes old. In some cases, NEXRAD data can age significantly by the time the mosaic image is created. In some extreme latency cases, the actual age of the oldest NEXRAD data in the mosaic can exceed the age indication in the cockpit by 15 to 20 minutes. Even small-time differences between the age indicator and actual conditions can be important for safety of flight, especially when considering fast-moving weather hazards, quickly developing weather scenarios, and/or fast-moving aircraft. At no time should the images be used as storm penetrating radar nor to navigate through a line of storms. The images display should only be used as a reference.

NEXRAD radar is mutually exclusive of Topographic (TOPO), TERRAIN and STORMSCOPE. When NEXRAD is turned on, TOPO, TERRAIN, and STORMSCOPE are turned off because the colors used to display intensities are very similar.

Lightning information is available to assist when NEXRAD is enabled. This presents a more comprehensive picture of the weather in the surrounding area.

In addition to utilizing the soft keys to activate the NEXRAD display, the pilot also has the option of setting the desired range. It is possible to zoom in on a specific area of the display in order to gain a more detailed picture of the radar display. [Figure 13-18]

Figure 13-18. NEXRAD radar display (500 mile range). The individual color gradients can be easily discerned and interpreted via the legend in the upper right corner of the screen. Additional information can be gained by pressing the LEGEND soft key, which displays the legend page.
Figure 13-18. NEXRAD radar display (500 mile range). The individual color gradients can be easily discerned and interpreted via the legend in the upper right corner of the screen. Additional information can be gained by pressing the LEGEND soft key, which displays the legend page.

What Can Pilots Do?

Remember that the in-cockpit NEXRAD display depicts where the weather WAS, not where it IS. The age indicator UPdoes not show the age of the actual weather conditions, but rather the age of the mosaic image. The actual weather conditions could be up to 15 to 20 minutes OLDER than the age indicated on the display. You should consider this potential delay when using in-cockpit NEXRAD capabilities, as the movement and/or intensification of weather could adversely affect safety of flight.

  • Understand that the common perception of a “5-minute latency” with radar data is not always correct.
  • Get your preflight weather briefing! Having in-cockpit weather capabilities does not circumvent the need for a complete weather briefing before takeoff.
  • Use all appropriate sources of weather information to make in-flight decisions.
  • Let your fellow pilots know about the limitations of in-cockpit NEXRAD.

NEXRAD Abnormalities

Although NEXRAD is a compilation of stations across the country, there can be abnormalities associated with the system. Some of the abnormalities are listed below.

  • Ground clutter
  • Strobes and spurious radar data
  • Sun strobes, when the radar antenna points directly at the sun
  • Interference from buildings or mountains that may cause shadows
  • Military aircraft that deploy metallic dust and may reflect the radar signature

NEXRAD Limitations

In addition to the abnormalities listed, the NEXRAD system does have some specific limitations.

Base Reflectivity

The NEXRAD base reflectivity does not provide adequate information from which to determine cloud layers or type of precipitation with respect to hail versus rain. Therefore, a pilot may mistake rain for hail.

In addition, the base reflectivity is sampled at the minimum antenna elevation angle. With this minimum angle, an individual site cannot depict high altitude storms directly over the station. This leaves an area of null coverage if an adjacent site does not also cover the affected area.

Resolution Display

The resolution of the displayed data poses additional concerns when the range is decreased. The minimum resolution for NEXRAD returns is 1.24 miles. This means that when the display range is zoomed in to approximately ten miles, the individual square return boxes are more prevalent. Each square indicates the strongest display return within that 1.24 mile square area.

AIRMET/SIGMET Display

AIRMET/SIGMET information is available for the displayed viewing range on the MFD. Some displays are capable of displaying weather information for a 2,000 mile range. AIRMETS/SIGMETS are displayed by dashed lines on the map. [Figure 13-19]

Figure 13-19. The AIRMET information box instructs the pilot to press the ENTER button soft key (ENT) to gain additional information on the selected area of weather. Once the ENTER soft key (ENT) is depressed, the specific textual information is displayed on the right side of the screen.
Figure 13-19. The AIRMET information box instructs the pilot to press the ENTER button soft key (ENT) to gain additional information on the selected area of weather. Once the ENTER soft key (ENT) is depressed, the specific textual information is displayed on the right side of the screen.

The legend box denotes the various colors used to depict the AIRMETs, such as icing, turbulence, IFR weather, mountain obscuration, and surface winds. [Figure 13-20] The great advantage of the graphically displayed AIRMET/SIGMET boundary box is the pilot can see the extent of the area that the advisory covers. The pilot does not need to manually plot the points to determine the full extent of the coverage area.

Figure 13-20. SIGMET/AIRMET legend display.
Figure 13-20. SIGMET/AIRMET legend display.

Graphical METARs

METARs can be displayed on the MFD. Each reporting station that has a METAR/TAF available is depicted by a flag from the center of the airport symbol. Each flag is color coded to depict the type of weather that is currently reported at that station. A legend is available to assist users in determining what each flag color represents. [Figure 13-21]

Figure 13-21. Graphical METAR legend display.
Figure 13-21. Graphical METAR legend display.

The graphical METAR display shows all available reporting stations within the set viewing range. By setting the range knob up to a 2,000 mile range, pilots can pan around the display map to check the current conditions of various airports along the route of flight.

By understanding what each colored flag indicates, a pilot can quickly determine where weather patterns display marginal weather, IFR, or areas of VFR. These flags make it easy to determine weather at a specific airport should the need arise to divert from the intended airport of landing.

Data Link Weather

Pilots now have the capability of receiving continuously updated weather across the entire country at any altitude. No longer are pilots restricted by radio range or geographic isolations, such as mountains or valleys.

In addition, pilots no longer have to request specific information from weather briefing personnel directly. When the weather becomes questionable, radio congestion often increases, delaying the timely exchange of valuable inflight weather updates for a pilot’s specific route of flight. Flight Service Station (FSS) personnel can communicate with only one pilot at a time, which leaves other pilots waiting and flying in uncertain weather conditions. Data link weather provides the pilot with a powerful resource for enhanced situational awareness at any time. Due to continuous data link broadcasts, pilots can obtain a weather briefing by looking at a display screen. Pilots have a choice between FAA-certified devices or portable receivers as a source of weather data.

Data Link Weather Products

Flight Information Service- Broadcast (FIS-B)

Flight Information Service–Broadcast (FIS-B) is a ground broadcast service provided through the Automatic Dependent Surveillance–Broadcast (ADS-B) Services network over the 978 MHz UAT data link. The FAA FIS-B system provides pilots and flight crews of properly-equipped aircraft with a flightdeck display of certain aviation weather and aeronautical information which are listed below.

  • Aviation Routine Weather Reports (METARs)
  • Special Aviation Reports (SPECIs)
  • Terminal Area Forecasts (TAFs) and their amendments
  • NEXRAD (regional and CONUS) precipitation maps
  • Notice to Airmen (NOTAM) Distant and Flight Data Center
  • Airmen’s Meteorological Conditions (AIRMET)
  • Significant Meteorological Conditions (SIGMET) and Convective SIGMET
  • Status of Special Use Airspace (SUA)
  • Temporary Flight Restrictions (TFRs)
  • Winds and Temperatures Aloft.
  • Pilot Reports (PIREPS)
  • TIS-B service status

The weather products provided by FIS-B are for information only. Therefore, these products do not meet the safety and regulatory requirements of official weather products. The weather products displayed on FIS-B should not be used as primary weather products (i.e., aviation weather to meet operational and safety requirements). Each aircraft system is different and some of the data that is rendered can be up to 20 or 30 minutes old and not current. Pilots should consult the individual equipment manuals for specific delay times.

III. Preflight Preparation

A. Weather Information

  1. Sources of weather
  2. Weather reports and forecasts
References


CLR - Clear  0/8  below 12000 AGL
FEW - Few   1-2/8
SCT  - Scatter 3-4/8
BKN - Broken  5-7/8
OVT - Overcast   8/8

METAR
SPECI KPGD   041853Z (AUTO/COR) 12009K 9SM -RA SCT006 BKN048 OVC110  21/19 A2981 RMK A02  PRESFR SLP095 P003 T02110192


SPECI special report of metar because of huge change of weather (not standard time)
Airport KPGD

Date/Time  041853Z is the Date is 04  and time is 18:53 Zulu Time

Auto - Taken by instrument unman
COR - Corrected

Wind  -  12009K 120 degrees at 9Knots   if you have VRB its variable  (less than 6 Knots)  12009G21KT winds 120 at 9 knots gusting at 21 knots

Visibility -  9SM   9 Statute Miles

Sky Covers 
SCT006  scattered at 600' AGL
BKN048  Broken at 4800' AGL
OVC110  Overcast at 11000' AGL
VV003 - Vertical Visibility 300 feet AGL
CB Cumulonimbus Present
TCU Towering Cumulus Present


Temperature/Due Point  21/19 

Altimeter A2981

Remark:
A01  - Automated station cannot distinguish between rain snow etc
A02  - Automated station can distinguish between rain snow etc
PRESFR  - Pressure falling rapidly
PRESRR  - Pressure Raising rapidly
SLP095  - Sea Level Pressure  1095 Milibars
P003  - Precipitation falling in hundreds of inches in the past hour
T02110192   - Temperature is 21.1   Dewpoint is 19.2  Celsius



TAF  Terminal Area Forecast
KPGD 041744Z 0418/0518 22006KT 6SM -RA 
VCTS SCT008CB BRK025 OVC060
TEMPO 0418/0420 3SM SHRA BRK0800
FM042100 24009KT P6SM VCSM SCT010
BKN025 OVC060
FM050000 27008KT P6SM SCT025 BKN060
FM050300 30010KT P6SM SCT025 BKN060
FM050600 32008KT P6SM FEW025 SCT060
FM051400 34012KT P6SM SCT060


Good for 5 statute miles around airport
Good for 24 -30 hours


Airport KPGD 
Date Time TAF issues 041744Z  date 04th time 17:44 zulu
Valid Period  0418/0518  Date 04th from 1800 hours to Date 05th 1800 hours (valid 24 hours)
Winds 22006KT 220 deg at 6 knots 
Visibility 6SM  6 statute miles  
conditions -RA slight rain 
In vicinity expect thunder showers  VCTS 
SCT008CB  - scattered clouds at 800 feet cumumbious clouds
BRK025  - broken clouds at 2500 feet
OVC060  - overcast at 6000 feet

TEMPO 0418/0420 - Temporarily (about 1/2 the time) on 04th at 1800 hours zulu  to the 04th at 2000 hours zulu 
3SM SHRA BRK008 - Visibility is 3 statute miles Rain showers broken clouds at 8000


A. Weather Information  SOURCES OF WEATHER

1. Sources of weather
    a. AWOS, ASOS/AWSS, and ATIS reports
      1) Automated weather observing system (AWOS)
        a) Secondary U.S. weather observing system (predecessor to and being replaced by ASOS/AWSS)
        b) Provides continous data on conditions near the runway touchdown zone
        c) Some AWOS are augmented by certified observers when visiblity < 7 SM
          "Observer weather" including obstruction-to-vision information is placed in remarks
        d) Density altitude reported when exceed field elevation by > 1000 feet
        e) Visibility
          i) Sensor near runway touchdown point
          ii) Runway visibility value (RVV) using 10-minute harmonic average
          iii) Sensor calibrated against FAA transmissometer standards
        f) Sky condition/ceiling
          i) Ceilometer next to visibility sensor
          ii) Integrates last 30 minutes of data
        g) AWOS site information published in AFD and on the applicable IAP
        h) AWOS broadcasts
          i) Computer-generated +/- observer voice weather information message broadcast via telephone and/or VHF radio
          ii) May be discrete VHF frequency or via voice portion of local NAVAID receivable to maximum of
          • 25 NM from site
          • 10,000 feet altitude
          iii) Updated each minute
        i) AWOS information on FAA website
      2) Automated surface observing system (ASOS)/Automated weather sensor system (AWSS)
        a) ASOS/AWSS is the primary surface weather observing system of the U.S.
        b) Program to install ASOS/AWSS throughout the U.S. is a joint effort of the the NWS, FAA and DOD
        c) AWSS is follow-on program that provides data identical to that of ASOS
        d) Continuous, minute-by-minute observations provide sufficient data to generate METARs and other weather information
        e) Transmission of data
          i) Discrete VHF radio frequencies receivable to maximum of 25 NM and 10,000 feet altitude, or via voice portion of local NAVAID
          ii) Some also via telephone
          iii) Example: KLPR ASOS data available on discrete 121.425 and by telephone number 440-323-7088
        f) "Objective" elements data essentially the same as that taken by human observer (pressure, ambient temperature, dew point temperature, wind, precipitation accumulation)
        g) "Subjective" elements data is remarkably similar to that taken by human observer even though that automated systems use a fixed-location, time-averaging technic (sky condition, visibility and present weather)
        h) ASOS/AWSS components
          i) Weather sensors
          ii) Data collection and processing units
          iii) Peripherals and displays
        i) ASOS/AWSS sensors
          i) Cloud height indicator(s)
          ii) Visibility sensor(s)
          iii) Precipitation identification sensor
          iv) Freezing rain sensor (select sites)
          v) Pressure sensors (2 or 3)
          vi) Ambient temperature/dew point temperature sensors
          vii) Anemometer (wind direction and speed sensor)
          viii) Rainfall accumulation sensor
        j) ASOS/AWSS data outlets
          i) For onsite airport usage
          ii) National communication networks
          iii) Computer-generated voice (FAA radio broadcasts to pilots and dial-in telephone line)
        k) AUTO modifier indicates automatic only report with no human intervention
        l) Two types of automated stations
          i) AO1 - no precipitatin descriminator
          ii) AO2 - precipitation descriminator present (differentiates liquid from freezing/frozen precipitation; e.g. rain from snow)
        m) ASOS/AWSS information on FAA website
        n) Map of automatic weather observing sites
      3) Automatic terminal information service (ATIS) reports
        a) ATIS is the continuous broadcast of recorded essential but routine noncontrol information in high activity terminal areas in order to improve control effectiveness
        b) Broadcast continuously over discrete VHF radio frequencies receivable to maximum of 60 NM and up to 25,000 feet AGL, or via voice portion of local NAVAID
        c) ATIS information includes
          i) Time
          ii) Ceiling (may be omitted if > 5,000 feet)
          iii) Visibility and obstructions to visibility (may be omitted in > 5 SM)
          iv) Temperature and dew point temperature (if available)
          v) Wind direction (MAGNETIC) and velocity
          vi) Altimeter
          vii) Pertinent remarks
          viii) IAPs and runway(s) in use
        d) Listen to ATIS
          i) Preflight, pre-takeoff planning
          ii) En route preliminary to approach planning
        e) Notify ATC on initial contact that ATIS received by repeating the ATIS alphabetical code letter


2. Weather reports and forecasts
    a. METAR, TAFFA and radar reports
      1) Aviation routine weather report (METAR)
        a) ICAO world standard aviation weather report with country-specific modifications
        b) METAR elements
          i) Type of report (METAR or SPECI)
          ii) ICAO 4-letter station identifier
          iii) Date and time
          iv) Modifier
          v) Wind direction (TRUE) and velocity
          vi) Prevailing visibility (SM)
          vii) Runway visual range (when reported) (FT)
          viii) Weather phenomena
          ix) Sky condition
          x) Temperature/dew point (°C)
          xi) Altimeter setting
          xii) Remarks
          xiii) Sensor status
      2) Aerodrome (terminal area) forecast (TAF)
        a) Concise statement of expected weather conditions within 5 SM of selected airports during a specifiec time period (usually 24 hours)
        b) Uses same codes as METARs
        c) Scheduled four times daily beginning at 0000, 0600, 1200 and 1800Z
        d) Format
          i) Type of report (TAF or TAF AMD)
          ii) ICAO 4-letter station identifier
          iii) Date and time forecast prepared
          iv) Valid period date and time
          v) Forecast weather
          • Wind (TRUE)
          • Visibility (SM)
          • Weather phenomena
          • Sky condition
          • Wind shear at or below 2,000 feet (optional)
        e) Probability of precipitation events indicated by PROB (PROB 30 = 30-39%)
        f) Forecast change indicators
          i) FM ("from") indicates rapid change in prevailing conditions usually over less that 1 hour
          ii) BECMG ("becoming") indicates more gradual change usually usually over up to 2 hours
          iii) TEMPO ("temporary") indicates conditions expected to occasionally occur and last less than 1 hour at a time over less than half the time period
        g) TAFs helpful in deciding if an alternate airport is required and approved under 14 CFR Part 91.169
      3) Aviation area forecast (FA)
        a) Forecast of visual meterological conditions (VMC), clouds and general weather over an area the size of several states
        b) Issued three times per day by the AWC in Kansas City, MO, for each of the six areas in the contiguous 48 states
        c) FA elements
          i) Communication and product header
          • Area covered
          • Valid time
          ii) Precautionary statements
          iii) Synopsis (18-hour period)
          iv) VFR clouds and section
          • 12-hour specific forecast +
          • 6-hour categorical outlook
          • OCNL = greater than 50% probability for less than half of period
          • WDLY SCT = less than 25% of area
          • SCT or AREAS = 25-50% of area
          • NMRS or WDSPRD = 55% or more of area
          • OTLK
            • WND = winds 20 kts or greater
            • IFR = ceiling < 1000 ft and/or visibility < 3 SM
            • MVFR = ceiling 1000-3000 ft and/or visibility 3-5 SM
            • VFR = ceiling > 3000 ft and visibility > 5 SM
        d) Hazardous weather conditions such as IMC, icing and turbulence are not in the FA, but in in-flight weather advisories (AIRMETs, SIGMETs and convective SIGMETs)
      4) Radar weather reports (SD)
        a) Indicate general areas of precipitation (rain, snow, thunderstorms) observed by radar
        b) Radar stations report each 35 minutes past the hour
        c) Report type, intensity and echo top of precipitation
        d) Automatically generated from WSR-88D weather radar data
        e) SD elements
          i) Radar station location and time (UTC)
          ii) Echo pattern
          • LN = line (at least 30 NM long with length at least 4 times width and covering at least 25% of area)
          • AREA
          • CELL
          iii) Coverage in tenths
          iv) Type and intensity of weather
          • Type
            • R rain
            • RW rain showers
            • S snow
            • SW snow showers
            • T thunderstorm
          • Intensity
            • - light
            • (none) moderate
            • + heavy
            • ++ very heavy
            • X intense
            • XX extreme
          v) Aximuth (TRUE) and range (NM) from radar station
          vi) Dimensions of echo pattern
          vii) Cell movement
          viii) Maximum top and location (MTSsatellite data also used to measure top)
          ix) AUTO: automated from WSR-88D weather radar data
          x) Digital section: used to prepare radar summary chart
          xi) Blank report
          • PPINE = radar normal, no echoes detected
          • PPINA = not available
          • PPION = inpoerative, out of service
        f) Include SDs in preflight planning
          i) Note location, intensity and direction of movement of precipitation
          ii) Airborne, update by contacting Flight Watch, viewing data-linked NEXRAD images, use of airborne radar and visual sighting

1. Sources of weather
    c. Transcribed weather broadcast (TWEB)
      1) Weather and other aeronautical data recorded on tape and broadcast continuously over selected low-frequency NAVAIDs and/or VORs
        a) Generally route-oriented
        b) NWS forecasts
        c) Inflight advisories
        d) Winds aloft
        e) METAR/SPECI reports
        f) NOTAMs
        g) Special notices
      2) Some locations privide telephone access (TEL-TWEB) (check AFD for phone numbers)
      3) Use to aid preflight and inflight planning


A. Weather Information

2. Weather reports and forecasts
    b. Inflight weather advisories
      1) Hazardous inflight weather advisory service (HIWAS)
        a) Broadcast continuously over selected VORs
          i) AIRMETs
          ii) SIGMETs
          iii) Convective SIGMETs
          iv) AWWs
          v) CWAs
          vi) Urgent PIREPs
        b) Broadcast states "no hazardous weather advisories" when none exist
        c) Includes area within 150 NM
        d) HIWAS update or out-of-service announcements are made on all communication, NAVAID frequencies and EFAS
        e) Broadcast includes
          i) Area covered and time recorded
          ii) Summary of in-flight aviation advisories
          iii) Request for PIREPs
          iv) Recommendation to contact FSS or Flight Watch for more details
      2) En route flight advisory service (EFAS), Flight Watch
        a) Provided by selected FSSs
          i) 122.0 MHz from 5,000 to 17,500 MSL
          ii) Other discrete frequencies from FL 180 to 450
        b) For timely en route weather information tailored to specific flight type, route and altitude
        c) Focal point for receipt and dissemination of PIREPs
        d) Normally available 0600-2200 local time
        e) Contact Flight Watch by stating the name of ARTCC facility serving that area if known or just "Flight Watch" + aircraft ID + nearest VOR
      3) AIRMET (WA)
        a) Significant weather with intensities less than that required for a SIGMET
        b) Issued every 6 hours and whenever updates or corrections are needed
        c) AIRMET Sierra
          i) IFR conditions
          • Ceilings < 1,000 FT and/or
          • Visibility < 3 SM
          • Over at least 50% of area at one time
          ii) Extensive mountain obscuration
        d) AIRMET Tango
          i) Moderate turbulence
          ii) Sustained surface winds at least 30 kts
          iii) Nonconvective LLWS
        e) AIRMET Zulu
          i) Moderate icing
          ii) Freezing levels
      4) SIGMET (WS)
        a) Nonconvective weather potentially hazardous to all aircraft
        b) Issued in conterminous U.S. for
          i) Severe icing (not associated with thunderstorms)
          ii) Severe or extreme turbulence
          iii) Duststorm, sandstorm or volcanic ash lowering visibilities to < 3 SM
          iv) Volcanic eruption
        c) Valid for 4 hours (6 hours if associated with a hurricane)
        d) Designated alphabetically from N through Y
          i) First issuance labeled UWS (urgent weather SIGMET)
          ii) No two different SIGMETs can have the same letter identifier at the same time
      5) Convective SIGMET (WST)
        a) Issued in the 48 states for
          i) Severe thunderstorms due to
          • Surface winds at least 50 kts
          • Surface hail at least ¾ in diameter
          • Tornadoes
          ii) Embedded thunderstorms
          iii) Line(s) of thunderstorms
          iv) Thunderstorm precipitation heavy or greater affecting at least 40% of at least 3,000 sq miles
        b) Any convective SIGMET implies
          i) Severe or greater turbulence
          ii) Severe icing
          iii) LLWS
        c) Issued hourly at 55 minutes after the hour (H + 55) and whenever required
        d) Designated for the eastern (E), central (C) or western (W) U.S.
        e) Numbered suquentially (for each of the 3 areas) from 1 each day, starting at 0000Z
        f) Text consists of a foreast valid for up to 2 hours and sometimes an observation

2. Weather reports and forecasts
    c. Surface analysisweather depiction and radar summary charts
      1) Surface analysis chart
        a) Depicts weather data actually observed in the contiguous 48 states at the time stated on the chart
        b) Elements
          i) Pressure systems
          ii) Fronts
          iii) Isobars
          iv) Station models
          • Sky cover and cloud types
          • Wind
          • Temperature and dew point temperature
          • Sea level pressure and 3-hour change
          • Present weather
          • 6-hour precipitation amount
          c) Computer-generated, with frontal analysis by the Hydrometeorological Prediction Center (HPC)
          d) Transmitted every 3 hours
          e) Provides ready means of locating pressure systems and fronts present at chart time
          f) Surface analysis type charts available on the internet
      2) Weather depiction chart
        a) Computer-prepared, with frontal analysis by a forecaster, from METARs
        b) Depicts broad overview of weather conditions observed at chart valid time; e.g., areas of VFR, MVFR and IFR conditions
        c) Issued each day first at 0100Z, and transimitted every 3 hours thereafter
        d) Data plotted from the latest manual and automated (denoted by ]) station observations
          i) Total sky cover
          ii) Cloud height
          iii) Weather and obstructions to visibility
        e) Analysys
          i) IFR = ceiling < 1,000 FT and/or visibility < 3 SM
          ii) MVFR = ceiling 1,000 to 3,000 FT and/or visibility 3 to 5 SM
          iii) VFR = ceiling > 3,000 FT and visibility > 5 SM
        f) Good chart to study first
          i) Gives bird's-eye view of areas of VFR and IFR weather
          ii) Update with current METARs
        g) Weather depiction type charts online
      3) Radar summary chart
        a) Computer-generated graphical display of SDs
        b) Displays and describes areas of precipitation and severe weater watches
        c) Available hourly at H + 35 minutes (35 minutes past the hours)
        d) Elements
          i) Precipitation type
          ii) Intensity
          iii) Configuration and coverage
          v) Cell movement
          vi) Severe weather watch areas
        e) Use preflight to identify general areas and movement of precipitation and/or thunderstorms
        f) Update airborne (FSS Flight Watch)
        g) Radar summary type charts online

2. Weather reports and forecasts
    d. Significant weather prognostic charts
      1) U.S. low-level significant weather prognostic chart (SIG WX prog)
        a) Forecast of weather from surface to 24,000 ft MSL in a four-panel format
        b) Issued 4 times daily (0000, 0600, 1200 and 1800Z)
        c) Surface prog panels (the 2 lower)
          i) 12-hour (left side) and 24-hour surface forecasts
          ii) Provided by the HPC
          iii) Elements
          • Pressure systems
          • Fronts
          • Precipitation
        d) Signigicant weather panels (the 2 upper)
          i) 12-hour and 24-hour forecasts from the surface to 24,000 ft MSL
          ii) Produced by the AWC
          iii) Elements
          • IFR, MVFR
          • Turbulence
          • Freezing levels
        e) Good overview of selected flying weather conditions and their progression over the next 24 hours
        f) 36-hour and 48-hour surface progs issued daily twice (0000 and 1200Z)
        g) Low-level significant weather progs online
      2) High-level signigicant weather prog chart
        a) Provided for en-route portion of international flights
        b) Weather from FL 250 to FL 600
        c) Issued 4 times daily (0000, 0600, 1200, 1800Z)
        d) Elements
          i) Thunderstorms
          ii) Tropical cyclones
          iii) Turbulence
          iv) Convergence zones
          v) Surface fronts
          vi) Tropopause heights
          vii) Jet stream
          viii) Volcanic activity
          ix) Severe squall lines
          x) Sandstorms and duststorms
        e) Useful in determining progression of weather above FL 240
        f) AWC high-level progs online



https://www.youtube.com/watch?v=W7Q7WmcmYVk&index=10&list=PLnjaM9eVs4pt72qQ_kyeT7SZrFyIG6WMd


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