Fire Danger Rating System Global Fire Weather Database
Fire Danger Rating System

The Fire Danger Rating System (FDRS) is a forest/vegetation fire monitoring system that provides information to support fire management. FDRS products are used as a guide to predict fire behaviour, with the objective to help stakeholders make informed decisions on fire mitigation and smoke haze pollution.

FDRS uses measured meteorological variables such as temperature, relative humidity, rainfall and wind speed collected from meteorological stations in the Southeast Asia region.

The products are produced daily by the Malaysia Meteorological Department.

Class Ignition Potential Interpretation
Low Low probability of fire starts.
Medium Moderate probability of fire starts in areas of local dryness.
High Grass fuels becoming easily ignitable. Higher probability of fire starts.
Extreme Grass fuels highly flammable. Very high probability of fire starts.

  • The FFMC values shown on the map are numerical ratings of the moisture content of litter and other cured fine fuels. The FFMC values are used to indicate the flammability of fine fuels and the relative ease of ignition.
  • Class Ignition Potential Interpretation
    Low Top layers of organic soil are wet.
    Medium Top layers of organic soil are moist.
    High Top layers of organic soil becoming dry.
    Extreme Top layers of organic soil are dry.

  • The DMC values shown on the map are numerical ratings of the average moisture content of loosely compacted surface organic layers (duff). The DMC indicates the level of fuel consumption in surface organic layer and medium-sized woody material.
  • Class Ignition Potential Interpretation
    Low Typical wet-season conditions and severe haze periods are unlikely. More than 30 dry days until DC reaches threshold at which point severe haze is highly likely.
    Medium Normal mid dry-season conditions. Between 15 and 30 dry days until DC reaches threshold. Burning should be regulated and monitored as usual.
    High Normal dry season peak conditions. Between 5 and 15 dry days until DC reaches threshold. All burning in peatlands should be restricted. Weather forecast and seasonal rainfall assessments should be monitored closely for signs of an extended dry season.
    Extreme Approaching disaster-level drought conditions. Less than 5 dry days until DC reaches threshold, at which point severe haze is highly likely. Complete burning restriction should be enforced.

  • The DC values shown on the map refer to how much moisture content is contained within the deep layer of compact organic matter. The higher the DC values, the higher the potential for fire to smoulder in peat, which indicates greater difficulty in extinguishing the fires.
  • Class Ignition Potential Interpretation
    Low Fires will be self-extinguishing.
    Medium Fire can be easily suppressed with hand tools.
    High Most fire can be successfully controlled using power pumps and hose.
    Extreme Some fires will be difficult to control.

  • The ISI is a measure of the head fire indicator and rate of fire spread. The higher ISI index indicates higher difficulty of control in grassland. It is a combination of the effects of the wind speed and Fine Fuel Moisture Code.
  • Class Ignition Potential Interpretation
    Low Medium and heavy fuels are generally not combustible.
    Medium Very low amount of medium and heavy fuels available for combustion.
    High Low to moderate amount of medium and heavy fuels available for combustion.
    Extreme Moderate to high amount of medium and heavy fuels available for combustion.

  • The BUI values shown on the map indicate amount of fuel available for combustion. It combines Duff Moisture Code and Drought Code which represent medium and heavy dead fuels respectively.
  • Class Ignition Potential Interpretation
    Low Low fire intensity. Fire will spread slowly or be self-extinguishing. Grassland fires can be successfully controlled using hand tools.
    Medium Moderate fire intensity in grass. Hand tools will be effective along the fire's flanks, but water under pressure (pumps, hose) may be required to suppress the head fire in grasslands.
    High High fire intensity in grass. Direct attack at the fire's head will require water under pressure, and mechanized equipment may be required to build control lines. (e.g: bulldozer)
    Extreme Very high fire intensity in grass. Fire control will require construction of control lines by mechanized equipment and water under pressure. Indirect attack by back-burning between control lines and the fire may be required.

  • The FWI values refer to the fire intensity and general fire danger across the landscape, after taking into account of Initial Spread Index and Build Up Index. This index is related to the difficulty of fire control based on the head fire intensity and fire-fighting capability.
  • Images courtesy of the Malaysian Meteorological Department.