aquatic ecosystem vulnerability to fire and climate … · objectives–stakeholder workshops, tool...
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AQUATIC ECOSYSTEM VULNERABILITY TO FIRE AND CLIMATE CHANGE IN ALASKAN BOREAL FORESTS
Jeff Falke USGS, AKCFWRU, UAF
Scott Rupp, Peter BieniekInternational Arctic Research Center, UAF
Helene Genet, Stephen Klobucar, Deanna KlobucarInstitute of Arctic Biology, UAF
Elizabeth HinkleCollege of Fisheries and Ocean Sciences, UAF
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Project Funding and Collaborators
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Fire and Climate Change – Increasing Fire Likelihood
Moritz et al. (2012)
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Fire in Alaska – A Changing Landscape
Since 1980’s• Higher frequency• Longer duration• Longer season
Alaska Wildfire Perimeters 1940-Present
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Fire in Alaska – A Changing Landscape
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Consequences of Climate Change in Boreal Alaska
Vegetation Permafrost
Pastick et al. 2016
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• Decreased stream channel stability
• Greater and more variable discharge
• Altered wood dynamics
• Increased nutrient availability
• Higher sediment delivery
• Increased solar radiation
• Altered water temperature regimes
(Dunham et al. 2003; Bixby et al. 2015)
Fire and Aquatic Ecosystems – Conceptual Relationships
(Gresswell 1999)
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Fire and Aquatic Ecosystems – Effects on Fish
Elevation (m)
1000 1400 1800
Pro
babili
ty o
f e
xceedin
g 2
0⁰C
0.2
0.4
0.6
0.8
1.0
Dunham et al. 2007Rosenberger et al. 2011; 2015
Unburned
Burned
Burned & Reorganized
Terr
estr
ial I
nve
rteb
rate
s in
Die
t (%
)
Open Canopy (%)
Burned reaches
• Abundance (> Age 0)
• Size-at-age
• Lipid content
• Age at maturationRainbow trout
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Fire and Aquatic Ecosystems – Fish Population Vulnerability
Falke et al. 2015
Regional Fire Size
MeanMean + 25%
Habitat Size x Fire Life-stage Pre/Post-Fire
Flitcroft et al. 2016
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Fire and Aquatic Ecosystems – Fish Population Vulnerability
Flitcroft et al. 2016
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Boreal Fire and Aquatic Ecosystems – Project Overview
GOAL: Assess aquatic ecosystem vulnerability to fire and climate change and identify factors that drive vulnerability
Obj. 1: Characterize physical and biological mechanisms that drive aquatic habitat dynamics and productivity – fieldwork and modeling
Obj. 2: Assess aquatic ecosystem vulnerability via spatially-explicit predictions of fire effects on aquatic habitats under current and future vegetation, permafrost, and climate scenarios – model integration, vulnerability analysis
Obj. 3: Develop decision support tools to translate research results to assist management decision making and meet conservation objectives– stakeholder workshops, tool development
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Boreal Fire and Aquatic Ecosystems – Project Flowchart
(1) Sample Aquatic Ecosystems
(2) Integrate Environmental Models
(2) Analyze Vulnerability
(1) Conduct Food Web and Ind. Based Modeling
(3) Develop Fire Management Scenarios
(3) Develop Decision Support Tools
Bixby et al. 2015
Local scale Regional scale
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• Interior Alaska boreal forest
• Tributaries to Tanana & Yukon Rivers
• 3,700 km2 burned since 1984
• Important Chinook salmon producers and Arctic grayling fisheries
North Fork Chena River
Boreal Fire and Aquatic Ecosystems – Study Area and Design
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Boreal Fire and Aquatic Ecosystems – [1] Fish and Habitat
HabitatChannel and bank topographyCover and substrateVelocity (“2-D” models)
EcohydrologyStream flowWater temperatureWater chemistry/Nutrients
Fish Community structurePrey availability and dietGrowth ratesBody conditionMaturation status
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Boreal Fire and Aquatic Ecosystems – [1] Fish and Ecosystem Modeling
Aquatic Trophic Productivity
inSTREAM
Water temperatureNutrients
Channel hydraulicsRiparian structure
DepthVelocity
Water temperatureTurbidity
Primary, secondary,tertiary productivity
Fish growth ratesConsumption
Survival
Population biomass, growth, survival
Physical PhysicalBiological
Climate Climate
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Boreal Fire and Aquatic Ecosystems – Project Flowchart
(1) Sample Aquatic Ecosystems
(3) Integrate Environmental Models
(4) Analyze Vulnerability
(2) Conduct Food Web and Ind. Based Modeling
(5) Develop Fire Management Scenarios
(6) Develop Decision Support Tools
Bixby et al. 2015
Local scale Regional scale
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
WRF ERA Interim
Downscale
20km grid 0.75° grid
Weather Research and Forecasting Model(WRF; Skamarock et al. 2008)
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
Fire, Vegetation, and Permafrost Models(ALFRESCO; Rupp et al. 2002; DVM-DOS-TEM; Genet et al. 2013)
Watershed Processes (NetMap)Hydrology (VIC)
Stream Temperature (LST)
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
Digital Landscape Model(NetMap; Benda et al. 2007)
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
Digital Landscape Model(NetMap; Benda et al. 2007)
Middle Fork Chena River – Generalized Erosion Potential
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
Fire history 20002010 1990 1980 1970 19501960
Fire history data source: BLM
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
Stream Temperature Model(LST; see Falke et al. 2015 & Flitcroft et al. 2016 for fire applications)
InputsLand surface temperature (NASA Modis)Observed stream temperature (Sensor network)Synthetic stream network (NetMap)
OutputDaily stream temperature
Chena River basinChinook salmon growth
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Boreal Fire and Aquatic Ecosystems – [2] Model Integration
Hydrologic Model(VIC; Liang et al. 1994; Bennett 2014)
InputsPrecipitation
Air temperature
Wind speed
Land cover/vegetation
Frozen ground (permafrost)
Synthetic stream network
Soils
OutputDaily hydrographs
Flow regime metrics
Climate models
ALFRESCO
DVM-DOS-TEM
NetMap
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Boreal Fire and Aquatic Ecosystems – [2] Vulnerability Analysis
Low
High
Vulnerability
Low
High
Uncertainty
Falke et al. 2015 Psi(Gradient)
Low (0-0.33)Moderate (0.33-0.66)High(0.66-1.00)
41.844.214.0
0.404 ± 0.25
Gradient (%)
0 to 0.020.02 to 0.040.04 to 0.060.06 to 0.080.08 to 0.10.1 to 0.120.12 to 0.140.14 to 0.160.16 to 0.180.18 to 0.20.2 to 1.5
22.610.69.567.586.334.894.143.553.162.7924.9
0.259 ± 0.39
grad_int grad_slope
Psi(W95)
Low (0.00-0.33)Moderate (0.33-0.66)High (0.66-1.00)
19.415.964.7
0.648 ± 0.28
w95_slope w95_int
Psi(Temp)
Low (0.00-0.33)Moderate (0.33-0.66)High (0.66-1.00)
51.121.927.0
0.417 ± 0.3
temp_int temp_slope
Maximum Temperature
0 to 1010 to 1111 to 1212 to 1313 to 1414 to 1515 to 1616 to 1717 to 1818 to 2020 to 2222 to 24>= 24
1.292.024.217.199.4310.39.9810.110.117.211.25.111.85
16.7 ± 3.6
Max Temp Input
0 to 1010 to 1111 to 1212 to 1313 to 1414 to 1515 to 1616 to 1717 to 1818 to 2020 to 2222 to 24>= 24
.047
.0340.3010.113.912.36.719.9711.622.110.41.960.50
16.6 ± 2.9
SD
0 to 11 to 22 to 33 to 44 to 5>= 5
4.4279.015.90.64.037.002
1.63 ± 0.55
Reach Habitat Suitability
PoorModerateHigh
33.246.020.8
1.88 ± 0.72
Psi(Summer Flow)
Low (0.00-0.33)Moderate (0.33-0.66)High (0.66-1.00)
41.157.61.35
0.364 ± 0.2
Mean Summer Flow (cfs)
0 to 7070 to 140140 to 210210 to 280280 to 350350 to 420420 to 490490 to 560560 to 630630 to 1495.56
89.32.381.120.932.340.83.0031.561.54.003
65.9 ± 110
sflow_slope sflow_int sflow_slope_2
Winter High Flow Events (d)
0 to 1.21.2 to 2.42.4 to 3.63.6 to 4.84.8 to 66 to 7.27.2 to 8.48.4 to 9.69.6 to 10.810.8 to 15.45
32.823.310.88.598.755.234.062.052.561.79
3.12 ± 2.9
Bayesian Network ApproachTrack uncertaintyQuantitative + QualitativeAccount for new informationSpatially-explicitMultiple scenarios
Chinook salmonSpecies of concernIntegrate stressorsLife-stage specific
Vulnerability analysis(Falke et al. 2015; Flitcroft et al. 2016)
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Boreal Fire and Aquatic Ecosystems – Project Flowchart
(1) Sample Aquatic Ecosystems
(3) Integrate Environmental Models
(4) Analyze Vulnerability
(2) Conduct Food Web and Ind. Based Modeling
(5) Develop Fire Management Scenarios
(6) Develop Decision Support Tools
Bixby et al. 2015
Local scale Regional scale
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Boreal Fire and Aquatic Ecosystems – [3] Scenario Development
DoD Lands
SERDP RC-2109
Alaska Statewide Fire Management Options
Critical Protection - provide complete protection to identified sites and control the fire at the smallest acreage reasonably possible.
Full Protection - control the fire at the smallest acreage reasonably possible.
Modified Protection - reduce overall suppression costs without compromising protection of higher-valued adjacent resources.
Limited Protection - minimize suppression costs without compromising protection of higher-valued adjacent resources.
New Management
Current Management
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Boreal Fire and Aquatic Ecosystems – [3] Scenario Development
Moderately warm / wetter
Very warm / drier
Historical
Current FMPO
Alternative FMPO
Current FMPO
Alternative FMPO
SERDP RC-2109
Are
a b
urn
ed (
km2)
Are
a b
urn
ed (
acre
s)
Year
Fire Management Planning Option (FMPO)
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Boreal Fire and Aquatic Ecosystems – [3] Scenario Development
SERDP RC-2109
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Jeff Falke, U.S. Geological SurveyAlaska Cooperative Fish and Wildlife Research UnitInstitute of Arctic Biology &College of Fisheries and Ocean SciencesUniversity of Alaska Fairbanks [email protected](907) 474-6044