tree density and fire scarring in minnesota oak savanna
TRANSCRIPT
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Tree Density and Fire Scarring in Tree Density and Fire Scarring in Minnesota Oak SavannaMinnesota Oak Savanna
Implications for RestorationImplications for Restoration
James G. Mickley – Kalamazoo CollegeJames G. Mickley – Kalamazoo CollegeDr. Clarence Lehman – University of MinnesotaDr. Clarence Lehman – University of Minnesota
Cedar Creek Natural History AreaCedar Creek Natural History Area
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Oak SavannaOak Savanna
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Non-Contact ScarringNon-Contact Scarring
• Wind causes a temperature increase on the leeward side• Increases the fire’s residence time• Most commonly studied type of fire scarring
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Contact ScarringContact Scarring
• Caused by high localized fuel supply (eg. fallen logs)• Logs burn long after fire has moved on
– Residence time increases drastically– Can scar even large trees with thick bark
• Not well documented in literature
Picture Credits: Clarence Lehman
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Density Effect on ScarringDensity Effect on Scarring
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• Originally savanna and scrub (Pierce 1954).
• Burn program started in 1964
• Compartments with varied fire intervals
Cedar CreekCedar Creek
• Intervals varied from annually to 1 in 8 years and unburned controls
• No treatment other than prescribed burns
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• Originally farmland, grew back into savanna
• Restoration started in 1998
Olaf’s SavannaOlaf’s Savanna
• More actively managed– Bulldozed to remove aspen and sumac– Dead wood and dead trees removed
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• Initial Density counts from old aerial photos• Survey 8 plots (3/8th ha each) at Cedar Creek
– Full Factorial Design:• Initial Density (High, Low)• Fire Interval (High, Low, None)
• Survey ~2 ha at Olaf’s Savanna• Census trees and measure scar variables such as height, width,
direction etc.
MethodsMethods
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Plots
1 3 13 15 5 10 11 24
Den
sity
(ste
ms/
plot
)
0
25
50
75
100
125
150
175
200
High Fire IntervalLow Fire IntervalUnburned
Low Initial DensityHigh Initial Density
Current Plot DensitiesCurrent Plot Densities
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Plots
1 3 13 15 5 10 11 24 Olaf's
Per
cent
age
of S
tem
s S
carr
ed
0
10
20
30
40
50
60
70
80
90
100
High Fire IntervalLow Fire IntervalUnburned
Low Initial DensityHigh Initial Density
Percentage of Scarred StemsPercentage of Scarred Stems
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Distributions of Scar DirectionsDistributions of Scar Directions
• Outermost circle: 10 cm DBH• Innermost circle: 100 cm DBH
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• Assuming that the largest size class is primarily contact scars, then contact scars…– Are farther from the ground– Cover a larger fraction of the tree’s
circumference– Result in less healthy canopies, and could
possibly have more severe effects
Predictors of Scar TypePredictors of Scar Type
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Environmental Variables MatterEnvironmental Variables Matter
2xerf
TfToTfTc
Variables• w = flame front width• R = rate of spread• d = tree diameter• Tc = initial cambium temp• Tf = fire temperature• To = lethal cambium temp• x = bark thickness• α = thermal diffusivity const.• τ = residence time• erf() = Gaussian Error Function
Rd
Rw 2
Residence Time Predicting Scarring
Equations: Gutsell and Johnson, 1996
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• Scarring is prevalent in savanna at Cedar Creek• Initial density still plays a role.• Scars on smaller trees are directional (non-
contact scars)• Scars on larger trees are not directional (contact
scars) and incidence is affected by initial density• Both types of scars could potentially be
minimized by different restoration methods.
ConclusionsConclusions
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• Alternative management through structural manipulation
• Rate of spread measurements• Decrease in lifespan due to scarring• Closer look at contact scarring
– How do contact scars impact trees?– How drastic is the increase in residence time?– How close does a fuel source need to be?– Do higher fuel loads result in more scarring?
Future ResearchFuture Research
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• Dr Clarence Lehman• Cedar Creek Staff• Dr. Binney Girdler• Interns:
– Allyn Dodd– Heidi Bulfer– Drew Ballantyne– Spencer Agnew
• Thesis review team at Kalamazoo College
AcknowledgementsAcknowledgements