2.5 Effects of topography on fire behavior
Transcript of 2.5 Effects of topography on fire behavior
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2.5
Effects of topography
on fire behavior
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Review: What controls fire behavior?
1. Weather (short- to medium-term)
– Relative humidity, temperature, wind, atmospheric stability • Main natural source of ignition (lightning)
• Regulates fuel moisture, humidity
• Influences energy (heat) transfer
• Affects fuel pre-heating, flammability
• Mass transport of flaming objects (spotting, rapid fire extension)
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1. Combustible biomass to sustain the combustion chain reaction
2. Key properties: 1. Mass (fuel load)
2. Shape and size (surface/volume ratio, fuel time lag class)
3. Spatial configuration or arrangement (packing ratio)
4. Heat content (MJ/kg, energy in chemical bonds)
5. Moisture (% dry weight)
2. Fuels
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The fire behavior triangle
CLIMATE
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3. Topography
What is “topography”?
Gk. topos (place) + graphein (carve, write)
The configuration of a surface, including its relief and features (landform)
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What are the main topographic variables?
1. Aspect (0-360°, defined looking downslope)
2. Slope (%), defined as (rise/run * 100) – 60 m rise / 100 m lateral = (60/100) * 100 = 60%
slope
3. Slope position: – Various systems for describing this, e.g.:
• Ridge top, upper hillslope, midslope, lower hillslope, valley bottom
4. Landform (describes or characterizes shape): – Canyons, ridges, bowls, cirques, plateaus…
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How would topography influence fire behavior?*
“Let me count the ways” – W. Shakespeare
1. Influences incoming solar radiation (slope, aspect, elevation), strong effect on fuel moisture
2. Affects local wind patterns
3. Orographic lifting of air masses (leading to lightning, convective storms)
4. Slope affects fuel pre-heating, thus rate and direction of spread
5. Certain landforms attract lightning ignition
* Know these mechanisms!
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Effect of Aspect on Fuel Temperature and Moisture
Highest Fuel Moisture
Lowest Average Temperature
Lowest Rate of Spread
Later Curing of Fuels
Late Snow Melt
Earlier Heating
Earlier Cooling
Later Heating
Later Cooling
Lowest Fuel Moisture
Highest Average Temperature
Highest Rate of Spread
Earlier Curing of Fuels
Earlier Snow Melt
These orientations for the northern hemisphere, of
course!
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Aspect Affects Fuel Moisture
0.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
16.0
1 3 5 7 9 11 13 15 17 19 21 23
% M
ois
ture
Co
nte
nt
Time (hr)
North Slope
South Slope
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How slope affects rate of spread
(reaction intensity) x (energy flux) x (1 + slope coefficient + wind coefficient)
Rate of spread (m min-1) =
(fuelbed bulk density) x (heat of pre-ignition) x (proportion of fuel pre-heated)
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heat output
heat output
heat output
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Which direction is this fire spreading? How do you know?
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Transfer of firebrands by gravity.
1-14-S290-EP
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Missionary Ridge Fire, June 2002
Durango, Colorado
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Fires starting at
base of slope often
become the largest
fires.
55%
slope
30%
slope
0-5%
slope
What about slope position?
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Effects of slope position: where does the fire have room to move?
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National Park Service, Point Reyes National Seashore
Fire burning near ridge crest, Bishop pine forest, Pt Reyes National Seashore, CA
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Landform example: Fires in the bottom of narrow canyons are very dangerous.
2-19-S290-EP
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Bottom of a narrow canyon
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Some topographic features that can be important to fire spread:
• Narrow, steep canyons
– Act as “chimneys”, create strong updrafts of air
– Increase convective and radiative heat transfer, pre-heating of upslope fuels
– If very narrow, can radiate heat to opposite side
• Rock outcrops, ridges, lakes, rivers
– Create barriers to fuel spread (why?)
– Interrupt continuity of fuel (“fuel breaks”)
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2-22-S290-EP
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The shape of a spreading fire
• Note the generally elliptical shape of many fire patches
• The direction of fire spread often driven by two main factors:
– TOPOGRAPHY
–WIND
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What is an ellipse? • Defined by major
and minor axes (diameters)
• Let m = major axis and n = minor axis
• Then if m = n what do we have?
• As m >> n ellipse gets longer and thinner
m
m
n
n
n
m
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Left Flank
Right Flank
Head
Rear
Wind 5 MPH
1300 Hrs. 1400 Hrs. 1500 Hrs. 1600 Hrs. 8 Chains 4 Acres
8 Chains 16 Acres
8 Chains 36 Acres
Fire Spread and Area Growth
In 3 hours the fire will have burned 4 X (3 X 3) acres or 36 acres
X
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Fire spread pathways, Aspen Fire, Santa Catalina Mountains, 2003
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What factors would cause the ellipse to become elongated?
• Strong winds (“wind-driven fire”)
• Strong topographic effect (upslope spread)
• Maybe also a gradient in fuel types or condition (e.g. moving toward an area of low fuel moisture)
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Uphill fire runs can be seen in post-fire landscape scars
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Wedge Shape
2-29-S290-EP
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Barriers to Fire Spread
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2-31-S290-EP Unit 2 Topographic Influences on Wildland Fire Behavior
Is this a good barrier to fire spread?
2-31-S290-EP
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Taken together, the effects of fuels, weather, and topography give us the ability to predict – with some uncertainty – how a fire will behave and where it will move
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Wednesday: Unit 2 Quiz!