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Fire Danger: NFDRS System Inputs and Outputs

  1. Observations and Forecasts
  2. Primary System Components & Indices
  3. Wildland Fire Assessment System (WFAS)
  4. Weather Information Management System (WIMS)
  5. Pocket Cards

Observations and Forecasts

Fire Weather Observations are collected and maintained according to standards established in the NWCG Standards for Fire Weather Stations, PMS 426-3.

Primary System Components and Indices

Ignition Component (IC)

The Ignition Component is a rating of the probability that a firebrand will cause a fire requiring suppression action. Expressed as a probability; it ranges on a scale of zero to 100. An IC of 100 means that every firebrand will cause an actionable fire if it contacts a receptive fuel. Likewise, an IC of zero would mean that no firebrand would cause an actionable fire under those conditions. Note the emphasis is on action.

Spread Component (SC)

The Spread Component is a rating of the forward rate of spread of a headfire. Deeming, et al (1977), states that, “the Spread Component is numerically equal to the theoretical ideal rate of spread expressed in feet per-minute. Highly variable from day to day, the Spread Component is expressed on an open-ended scale; thus, it has no upper limit."

Energy Release Component (ERC)

The Energy Release Component is a number related to the available energy, British Thermal Unit (BTU) per unit area square foot, within the flaming front at the head of a fire. Daily variations in ERC are due to changes in moisture content of the various fuels present, both live and dead. Since this number represents the potential heat release per unit area in the flaming zone, it can provide guidance to several important fire activities. It may also be considered a composite fuel moisture value as it reflects the contribution that all live and dead fuels offer to potential fire intensity. It should also be pointed out that the ERC is a cumulative or buildup type of index. As live fuels cure and dead fuels dry, the ERC values get higher thus providing a good reflection of drought conditions. The scale is open-ended or unlimited and, as with other National Fire Danger Rating System (NFDRS) components, is relative. Conditions producing an ERC value of 24 represent a potential heat release twice that of conditions resulting in an ERC value of 12.

As a reflection of its composite fuel moisture nature, the ERC becomes a relatively stable evaluation tool for planning decisions that might need to be made 24 to 72 hours ahead of an expected fire decision or action. Since wind does not influence the ERC calculation, the daily variation will be relatively small. The 1000 hour time lag fuel moisture (TLFM) is a primary entry into the ERC calculation through its effect on both living and dead fuel moisture inputs. There may be a tendency to use the 1000 hour TLFM as a separate index for drought considerations. A word of caution – any use of the 1000-hour TLFM as a separate index must be preceded by an analysis of historical fire weather data to identify critical levels of 1000 hour TLFM. A better tool for measurement of drought conditions is the ERC since it considers both dead and live fuel moistures.

Burning Index (BI)

The Burning Index is a number related to the contribution of fire behavior to the effort of containing a fire. The BI is derived from a combination of Spread and Energy Release Components. It is expressed as a numeric value closely related to the flame length in feet multiplied by ten. The scale is open ended which allows the range of numbers to adequately define fire problems, even in time of low to moderate fire danger. It’s important to remember that computed BI values represent the near upper limit to be expected on the rating area. In other words, if a fire occurs in the worst fuel, weather, and topography conditions of the rating area, then these numbers indicate its expected fireline intensities and flame length. Studies have indicated that difficulty of containment is not directly proportional to flame length alone but rather to fireline intensity; the rate of heat release per unit length of fireline (Byram 1959). The use of fireline intensity as a measure of difficulty shows that the containment job increases more than twice as fast as BI values increase. It is still safe to say that flame length is related to fireline intensity because BI is based on flame length.

Human Caused Fire Occurrence Index (MCOI)

This is a numeric rating of the potential occurrence of human-caused fires. This value is intended to reflect the number of human-caused fires one could expect on any given day. It is derived from a measure of daily human activity and its associated fire start potential, the human caused fire risk input, and the ignition component. The MCOI is scaled such that the number is equal to ten times the number of fires expected that day per million acres. An index value of 20 represents a potential of the human caused fires per million acres that day if the fuel bed was receptive for ignition. The original developers of the National Fire Danger Rating System recognized that where the total fires per million acres average twenty or fewer, the evaluations are questionable. This has been validated through application. The Human-caused Fire Occurrence Index requires considerable analysis to establish a local relationship between the level of human activity and fire starts. Since human activity is fairly constant throughout the season and human-caused fire occurrence in, for example, the Pacific Northwest, is relatively low in terms of fires per million acres per day, most analyses result in very low risk inputs that don’t change much from day to day. Few fire managers, if any, are using this index in making day-to-day decisions.

Fire Load Index (FLI)

Fire Load Index is a rating of the maximum effort required to contain all probable fires occurring within a rating area during the rating period. The FLI was designed to be the end product of the NFDRS – the basic preparedness or strength-of-force pre-suppression index for an administrative unit. It was to be used to set the readiness level for the unit. It focuses attention upon the total fire containment problem. Because the FLI is a composite of the various components and indexes of the NFDRS, including the local lightning and human caused fire risk inputs, the comparability of values varied significantly from one unit to another. To be useful, managers must establish the relationship between the FLI calculated for their unit and the true fire containment effort needed. The FLI is represented as a number on a scale of 1-100. It provides no specific information as to the nature of the potential fire problem as individual indexes and components do. Because the Fire Load Index is a composite of several pieces of the NFDRS, its utility is impacted by the inherent weaknesses of the individual components and indexes. Very few fire management decisions are made based on the Fire Load Index alone.

Keetch-Byram Drought Index (KBDI)

This index is not an output of the National Fire Danger Rating System itself but is often displayed by the processors used to calculate NFDRS outputs. KBDI is a stand-alone index that can be used to measure the effects of seasonal drought on fire potential. The actual numeric value of the index is an estimate of the amount of precipitation (in 100ths of inches) needed to bring the soil back to saturation (a value of zero is complete saturation of the soil). Since the index only deals with the top eight inches of the soil profile, the maximum KBDI value of 800 or 8.00 inches of precipitation would be needed to bring the soil back to saturation. The Keetch-Byram Drought Index’s relationship to fire danger is that as the index value increases, the vegetation is subjected to increased stress due to moisture deficiency. At higher values desiccation occurs and live plant material is added to the dead fuel loading on the site. Also, an increasing portion of the duff/litter layer becomes available fuel at higher index values. If you are using the 1978 fuel models, KBDI values can be used in conjunction with the National Fire Danger Rating System outputs to aid decision making. If you are using the modified NFDRS fuel models that were developed in 1988, KBDI values are a required input to calculate daily NFDRS outputs. Since most fire danger stations are not being operated when the soil is in a saturated condition, it is necessary to estimate what the KBDI value is when daily observations begin. The technical documentation describing the KBDI includes methodology to estimate the initiating value and is included in the attached reference list. Most processors include a default initiation value of 100.

Wildland Fire Assessment System (WFAS)

WFAS provides public access to standard Fire Potential/Danger depictions, Fire Weather information, Fuel Moisture/Drought products, and assorted Experimental Products produced by the Rocky Mountain Research Station’s Fire, Fuel and Smoke Science Program.

Operating with fire weather observations from WIMS (4.3.4), gridded forecasts from the National Weather Service (NWS) National Digital Forecast Database (NDFD), and gridded fire danger climatology dating to 1979.

Weather Information Management System (WIMS)

NAP Access Portal requires login and provides authorized access for management of Remote Automative Weather Stations (RAWS) station catalogs, observations, NFDRS calculations, and source data for other portals such as the Enterprise Geospatial Portal (EGP) and Wildland Fire Assessment System (WFAS).

WIMS Users Guide

Pocket Cards

Wildland Fire Application Information Portal (WFAIP) provides access to background, instructions, standards, and approved cards throughout the US.

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Example of NWCG standard Fire Danger Pocket Card.

The Fire Danger Pocket Card provides a format for interpreting and communicating key index values provided by the National Fire Danger Rating System. The objective is to lead to greater awareness of fire danger and subsequently increased firefighter safety. The Pocket Card provides a description of seasonal changes in fire danger in a local area. It is useful to both local and out-of-area firefighters.

The Pocket Card has very important day-to-day pre-suppression uses. When the morning and afternoon weather is read each day, the actual and predicted indices are announced. Firefighters can reference their card and assess where today falls in the range of historical values for danger-rating. This important information should be discussed at morning crew meetings, tailgate safety meetings, incident briefings, etc.

Local fire management personnel can produce the cards using Fire Family Plus. Cards should be developed locally with local fire management involvement to meet local fire management needs.

NWCG Latest Announcements

The Incident Position Standards and Next Generation Position Task Book are now available for Medical Unit Leader (MEDL)

Date: October 16, 2024
Contact: Incident Medical Subcommittee

NWCG is excited to announce that the NWCG Incident Position Standards for Medical Unit Leader, PMS 350-39 and NWCG Position Task Book for Medical Unit Leader (MEDL), PMS 311-39 are now available.

The Performance Support Package, which for MEDL includes the Incident Position Standards and Next Generation Position Task Book, were developed through the Incident Performance and Training Modernization (IPTM) effort. The Performance Support Package will support trainees, those qualified in the position, and evaluators.

References:

NWCG Medical Unit Leader Position Page

NWCG Incident Position Standards for Medical Unit Leader, PMS 350-39

NWCG Position Task Book for Medical Unit Leader (MEDL), PMS 311-39

The Wildland Fire Learning Portal is Now Available

Date: October 9, 2024
Contact: Wildland Fire Learning Portal

The Wildland Fire Learning Portal (WFLP) is back online following a migration to a new learning management system (LMS) application. The WFLP team is actively addressing any issues that may arise as a result of the update, and appreciates your patience as the team works to enhance your experience. NWCG will share information from the WFLP as it is available.

Should you have any issues with accessing or using the WFLP, please use the link below to submit a ticket through the Help Center.

References:

Wildland Fire Learning Portal

Wildland Fire Learning Portal Help Center

NWCG Equipment Technology Committee Releases New Equipment Bulletins

Date: September 27, 2024
Contact: Equipment Technology Committee

The Equipment Technology Committee (ETC) has released three new Equipment Bulletins:

  • ETC-EB-24-003 Diesel exhaust fluid (DEF) in fuel containers.
  • ETC-EB-24-004 Two-compartment fuel and oil container (Dolmar) unavailable in the United States (US) and reminders for upkeeping current inventories.
  • ETC-EB-24-005 Personal Protective Equipment (PPE): Inspection, Care, and Maintenance.

These bulletins remind field going personnel of important issues related to equipment for wildland firefighting efforts.

References:

NWCG Alerts

ETC-EB-24-003 Diesel exhaust fluid (DEF) in fuel containers

ETC-EB-24-004 Two-compartment fuel and oil container (Dolmar) unavailable in the United States (US) and reminders for upkeeping current inventories

ETC-EB-24-005 Personal Protective Equipment (PPE): Inspection, Care, and Maintenance

The Experiential Learning Subcommittee is looking for your feedback on Staff Rides

Date: September 20, 2024
Contact: Ashleigh D'Antonio and George Risko, Leadership Committee

The Experiential Learning Subcommittee needs to hear from the field about where the greatest need lies regarding staff rides and their accessibility.

  • Do you have an event you would like to turn into a learning experience?
  • Do you have a staff ride built, but are struggling to implement the delivery?
  • Do you need help building capacity?
  • What other ideas do you have to support experiential leadership training?

Fill out this short survey below to help us help you.

References:

Staff Rides: Feedback

Staff Rides