Fosberg fire weather index

Description


The Fosberg Fire Weather Index (\(FFWI\)) is a fire danger index developed by Fosberg (1978). It is based upon equilibrium moisture content and wind speed, and requires hourly observations of temperature, relative air humidity and wind speed as input data (Fosberg, 1978, Goodrick 2002, Sharples 2009a).

It was designed for assessing the impacts of small-scale/short term weather variations on fire potential and is highly sensitive to changes in fine fuel moisture (Goodrick 2002, Crimmins 2005).

The \(FFWI\) has been found to be correlated with fire occurrence in the northeastern and southwestern United States (Haines et al. 1983, Roads et al. 1997, Sharples 2009a).

Formula


The \(FFWI\) formulation is divided into a fuel moisture component, corresponding to the equilibrium moisture content defined by Simard (1968), and a rate of spread component based on the Rothermel (1972) model (Goodrick 2002):

\[FFWI=\dfrac{\eta\cdot{\sqrt{1+U^2}}}{0.3002}\]

where \(U\) is the wind speed [mph] and \(\eta\) the moisture damping coefficient which is calculated as follows:

\[\eta=1-2\cdot\bigg(\dfrac{EMC}{30}\bigg)+1.5\cdot\bigg(\dfrac{EMC}{30}\bigg)^{2}-0.5\cdot\bigg(\dfrac{EMC}{30}\bigg)^3\]

where \(EMC\) is the equilibrium moisture content [mm].

NB1: the \(FFWI\) was originally supposed to be calculated on an hourly basis.

NB2: fuel bed properties (surface area to volume ratio and moisture of extinction) are assumed to be constant over space and time, with a surface area to volume ratio of 3000 feet-1, and moisture of extinction of 30 percent.

No particular values or conditions are required when starting the \(FFWI\) calculation.

Modifications


The fact that the \(FFWI\) does not take rainfall into account was considered as problematic, in particular for capturing spatial variations in fire potential in regions where spatial variability of rainfall is important (Goodrick 2002). Therefore, a rainfall component, in the form of a "fuel availability" factor (\(FAF\)) was added by Goodrick (2002) to the \(FFWI\) in order to take the impact of drought on fuels into account.

This fuel availability factor is a function of the \(KBDI\) (NB: in hundredths of inches) and is calculated as follows:

\[FAF=0.000002\cdot{KBDI^2}+0.72\]


The modified \(FFWI\) (\(mFFWI\)) is then obtained by multiplying the fuel availability factors with the \(FFWI\):

\[\mathit{mFFWI}=\mathit{FAF}\cdot{\mathit{FFWI}}\]

The \(mFFWI\) is supposed to be calculated on a hourly basis. Thus the meteorological data used for its calculation are the meteorological data at the time of the basic weather observation.

No particular values or conditions are required when starting the index calculation. However, as the \(mFFWI\) includes the \(KBDI\) in its formulation, the starting conditions of the \(KBDI\) have to be met, i.e. the soil layer has to be saturated with water, e.g. after a period of abundant rainfall, e.g. 6 or 8 [in] in a period of a week. The \(KBDI\) component takes the starting value of 0.

References


Original publication:
Fosberg (1978)

Other publications:
Simard (1968)
Rothermel (1972)
Haines et al. (1983)
Roads et al. (1997)
Goodrick (2002)
Crimmins (2005)
Sharples et al. (2009a)