The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of...
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![Page 1: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/1.jpg)
The Natural Disturbance Regime: The Natural Disturbance Regime: Implications for Forest ManagementImplications for Forest Management
Glen W. Armstrong
University of Alberta
CIFFC Science Forum4 November 1999
![Page 2: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/2.jpg)
Presentation OutlinePresentation Outline
ContextTwo studies
– A characterization of the natural disturbance regime
– Planning for timber and wildlife under uncertainty
Concluding comments
![Page 3: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/3.jpg)
ContextContext
Sustainable forest management– Biodiversity
Coarse filter– Manage for a natural (natural-appearing)
forest structure: this may accommodate the majority of species
Extractive uses are important
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Context (cont’d) Context (cont’d)
Malcolm Hunter. 1993. Natural fire regimes as spatial models for managing boreal forests. – Frequency of harvest– Size and distribution of openings– Residual organic matter
![Page 5: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/5.jpg)
Characterization of the Natural Characterization of the Natural Disturbance Rate of Alberta’s Disturbance Rate of Alberta’s Boreal Mixedwood ForestBoreal Mixedwood Forest
Glen Armstrong
![Page 6: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/6.jpg)
Natural Disturbance RegimesNatural Disturbance Regimes
Murphy– Based on analysis of age class data– 2%/year– Independent of stand characteristics
Cumming– Based on analysis of fire history– ~0.5%/year– Dependent on softwood content
![Page 7: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/7.jpg)
Alternative Equilibrium Age Alternative Equilibrium Age Class DistributionsClass Distributions
0
0.005
0.01
0.015
0.02
0.025
0 100 200 300 400 500 600
Age (years)
Pro
port
iona
l Are
a
2.0%0.5%
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OutlineOutline
Statistical characterization of the natural disturbance rate
Monte Carlo simulations– Confidence intervals– Age classes
Conclusions and implications
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Study Area and ParametersStudy Area and Parameters
8.6 million ha Fire history data
1961-1995 Annual area of
lightning caused fires that started in the study area
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Annual Area BurnedAnnual Area Burned
0
100
200
300
400
500
1961
1963
1965
1967
1969
1971
1973
1975
1977
1979
1981
1983
1985
1987
1989
1991
1993
1995
Year
Are
a (`
000
ha)
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Annual Area Burned (log scale)Annual Area Burned (log scale)
0.001
0.01
0.1
1
10
100
100019
61
1963
1965
1967
1969
1971
1973
1975
1977
1979
1981
1983
1985
1987
1989
1991
1993
1995
Year
Are
a (`
000
ha)
![Page 12: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/12.jpg)
CDF for Burn RateCDF for Burn Rate
0
0.2
0.4
0.6
0.8
1
1.00E-07 1.00E-05 1.00E-03 1.00E-01
Burn Rate
F(r
ate)
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Monte Carlo SimulationsMonte Carlo Simulations
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Mean Rate Confidence LimitsMean Rate Confidence Limits
95% confidence limits for estimates mean disturbance rates
10 000 sets of draws for each sample period of interest
Calculate the mean for each setDetermine the 2.5 and 97.5
percentiles
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Confidence Interval ResultsConfidence Interval Results
Sample Period Lower limit Upper limit 50 years 0.18 % 3.4 % 230 years 0.44 % 2.1 %
The 2 % and 1/2 % rates are within both confidence intervals
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Age Class Distributions Age Class Distributions
Starting age class distribution1000 years of disturbance
– Random draw of annual burn rate– Area burned in each age class
proportional to area100 replications
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Four Age Class OutcomesFour Age Class Outcomes
00.20.40.60.8
0 40 80 120
160
200 0
0.20.40.60.8
0 40 80 120
160
200
00.20.40.60.8
0 40 80 120
160
200 0
0.20.40.60.8
0 40 80 120
160
200
![Page 18: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/18.jpg)
ConclusionsConclusions
The annual burn rate for the study area can be characterized by a simple two-parameter distribution
The burn rate is highly variable: the mean rate of disturbance cannot be determined precisely
There is no equilibrium age-class structure
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ImplicationsImplications
No “ecologically correct” disturbance rate or age class distribution exists for my study area
Determination of burn rates based on age class distributions is highly questionable
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Planning for Timber and Wildlife Planning for Timber and Wildlife Habitat Under UncertaintyHabitat Under Uncertainty
Glen Armstrong, Jim Beck,Vic Adamowicz, Fiona Schmiegelow, and Steve Cumming
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Modeling StrategyModeling Strategy
Describe the existing forest using state variables
Relate this description to habitat Use Monte Carlo simulation to project the
range of natural variability in habitat area Use simulation results to guide constraint
selection for optimization model Quantify trade-offs between timber and
habitat in the context of RNV
![Page 22: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/22.jpg)
Forest State DescriptorsForest State Descriptors
Cover type1) pine
2) white spruce
3) aspen
4) mixed
5) black spruce
Habitat stage1) establishment
2) max density
3) max crown closure
4) max basal area
5) mature
6) overmature
See...
Cumming, S.G. et al. 1994. Potential conflicts between timber supply and habitat protection... For. Ecol. Manage. (68) 281-302.
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Selected Wildlife SpeciesSelected Wildlife Species
Pine martenMeadow voleBroad-winged hawkThree-toed woodpeckerBlack-throated green warbler
(BTGW)
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Pine Marten Habitat PreferencesPine Marten Habitat Preferences
Habitat stageCover type 1 2 3 4 5 6Pine 2 2 2 2White Spruce 2 3 4 6Mixed 2 3 4
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Starting Forest InventoryStarting Forest Inventory
0
50
100
150
200
250
300
350
Age
Are
a ('
000
ha)
SbPMxAwSw
A portion of the DMI FMA
888 000 ha of the net merchantable land base
Large spike at the 60 year age class
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Simulated Habitat ProjectionsSimulated Habitat Projections
Pine Marten Habitat (5+)
0
20
40
60
80
100
0 50 100
Years
Are
a
BTGW Habitat (5+)
0
40
80
120
160
0 50 100
Years
Are
a
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Optimization RunsOptimization Runs
Maximize net present value of timber harvest
s.t. non-declining yield constraintss.t. habitat constraint levels
– None (business as usual)– Habitat area for all species at different
percentiles
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Harvest With Percentile Harvest With Percentile ConstraintsConstraints
Pine marten
0
25
50
75
100
0 25 50 75
Year
Are
a
BTGW
0
50
100
150
200
0 25 50 75
Year
Are
a
![Page 29: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/29.jpg)
Trade-off AnalysisTrade-off Analysis
Habitat Constraint Level
None 2.5% 40%
NPV (106 $) 1 363 1 164 622
Swd AAC (103 m3) 829 707 143
Hwd AAC (103 m3) 1 239 1 045 129
![Page 30: The Natural Disturbance Regime: Implications for Forest Management Glen W. Armstrong University of Alberta CIFFC Science Forum 4 November 1999.](https://reader036.fdocuments.in/reader036/viewer/2022062305/56649cb05503460f94975765/html5/thumbnails/30.jpg)
What Have We Done?What Have We Done?
Developed a system that– Projects probability distributions of wildlife
habitat and/or forest structure through time– Incorporates natural disturbance– Allows for comparisons between managed
outcomes and the range of natural variability– Explicitly quantifies trade-offs between
financial values and wildlife habitat
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What Should We Do?What Should We Do?
Incorporate successionRefine the disturbance modelRefine the timber cost modelStochastic optimizationExplore the use of the system in a
public consultation context
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Final SummaryFinal Summary
Natural Disturbance Management is likely to have a large impact on timber supply
The “natural” rate of disturbance and age class structure do not exist
Optimization approaches that consider variablity may be useful tools
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AcknowledgementsAcknowledgements
Sustainable Forest Management Network
Alberta-Pacific Forest Industries Inc.Daishowa-Marubeni International
Ltd.
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Acknowledgements (cont’d)Acknowledgements (cont’d)
Vic Adamowicz, Jim Beck,Steve Cumming, Rick Pelletier, and Fiona Schmiegelow
Stan Boutin, Darrell Errico, Daryll Hebert, Ellen Macdonald, Peter Murphy, Bill Reed, and Brad Stelfox