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Western Washington University Western Washington University
Western CEDAR Western CEDAR
Salish Sea Ecosystem Conference 2018 Salish Sea Ecosystem Conference (Seattle, Wash.)
Apr 4th, 4:15 PM - 4:30 PM
Integrating watershed-scale and river-reach protection and Integrating watershed-scale and river-reach protection and
restoration planning to promote climate resilience in the South restoration planning to promote climate resilience in the South
Fork Nooksack River (SFNR) Fork Nooksack River (SFNR)
Oliver Grah Nooksack Indian Tribe, United States, [email protected]
Susan Dickerson-Lange Natural Systems Design, United States, [email protected]
Follow this and additional works at: https://cedar.wwu.edu/ssec
Part of the Fresh Water Studies Commons, Marine Biology Commons, Natural Resources and
Conservation Commons, and the Terrestrial and Aquatic Ecology Commons
Grah, Oliver and Dickerson-Lange, Susan, "Integrating watershed-scale and river-reach protection and restoration planning to promote climate resilience in the South Fork Nooksack River (SFNR)" (2018). Salish Sea Ecosystem Conference. 95. https://cedar.wwu.edu/ssec/2018ssec/allsessions/95
This Event is brought to you for free and open access by the Conferences and Events at Western CEDAR. It has been accepted for inclusion in Salish Sea Ecosystem Conference by an authorized administrator of Western CEDAR. For more information, please contact [email protected].
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Integrating Watershed-Scale and River-Reach Protection and Restoration Planning to Promote
Climate Resilience in the South Fork Nooksack River, WA
Oliver GrahWater Resources Program Manager
Nooksack Indian TribeDeming, WA
2018 Salish Sea Ecosystem ConferenceSeattle, WA
April 4-6, 2018
Susan Dickerson-LangeRestoration HydrologistNatural Systems Design
Seattle, WA
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Co-Investigators:• Susan Dickerson-Lange, Restoration Hydrologist, Natural Systems Design
• Steve Klein, Research Scientist, EPA-ORD
• Jezra Beaulieu, Water Resources Specialist, Nooksack Indian Tribe
• Robert Mitchell, Professor of Geology, Western Washington University
• Christina Bandaragoda, Senior Research Scientist, University of Washington
• Michael Maudlin, Restoration Geomorphologist, Nooksack Indian Tribe
• Treva Coe, Habitat Program Manager, Nooksack Indian Tribe
• Holly O’Neil, Crossroads Consulting, Public Outreach/Stakeholder Engagement
• Ian Smith, Restoration Planner, Living Systems
• Jason Hatch, Washington Water Trust
SFNR Climate Change Watershed Project
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Carrie
Colin
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Sources of Funding:• EPA – PPG, NEP• BIA• NWIFC• NPLCC and ATNI• WA Dept. Ecology - NEP
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Nooksack Indian Tribe
Salish Sea Bellingham
13 miles
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Why the SFNR?• Spring Chinook salmon ESA listing and other Pacific salmon• Temperature impaired• Excessive fine sediment• Cultural importance to the Nooksack Indian Tribe• WA Dept. Ecology/EPA Region 10 temperature TMDL• EPA Region 10 climate change pilot research project • Nooksack Tribe-lead watershed conservation planning effort
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Attributes of Overall Climate Project:
Baseline Monitoring:• Temperature
• Seasonal temperature sensors• Year-round temperature sensors
• Discharge, year-round and seasonal• Turbidity, suspended sediment• Water oxygen isotope• Glacier ablation/behavior• Water quality• Lapse rate• Salmon Habitat Restoration Effectiveness
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Attributes of Overall Climate Project:
Modeling:
• Glacier ablation• Hydrologic change• Sediment dynamics• Stream temperature
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Attributes of Overall Climate Change Project:
Holistically address:
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ESA RECOVERY
CWACOMPLIANCE
TREATY RESOURCES
CLIMATE CHANGE
LEGACY IMPACTS
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LEGACY IMPACTS
CWACOMPLIANCE
TREATY RESOURCES
CLIMATE CHANGE
ESA RECOVERY
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Climate Change Planning:
• Baseline conditions
• Cumulative impact of:• Legacy impacts• Climate change impacts
• Watershed processes
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North Fork
Middle Fork
South Fork
Nooksack River
Bellingham Bay
10,780• Vulnerability Assessment
• Species• Life Stage• Location• Timeframe
• Adaptation Planning• Fish
Climate Change Impacts
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EXAMPLE:
SOUTH FORK NOOKSACK RIVER
CLIMATE CHANGE PROJECT
14
Collaboration between: • EPA-ORD,
• EPA Region 10,
• Nooksack Indian Tribe,
• WA Dept of Ecology,
• Tetra Tech, Inc.
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Not just a technical project, but also a
story of:
15
:
• Converging and integrating project pathways
• Voluntary collaboration
• Co-production of actionable
climate change science
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Converging and Integrating Project
Pathways
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• In 2011, Nooksack Indian Tribe provided comment on SFNR temperature TMDL:• Climate change
• Upland watershed processes
• Among other comments
• Independently, EPA-ORD initiated a climate change pilot research project in 2012 to:• Demonstrate how climate change can be included in a
temperature TMDL
• Address climate change, ESA fish recovery, and CWA compliance in
one research demonstration pilot project
“EPA Region 10 Climate Change and TMDL Pilot Project”
“Circumstance meets opportunity” to yield the:
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Climate Change Risk AssessmentConsists of a Quantitative and Qualitative Assessment
Quantitative Assessment (Led by EPA-ORD and Tetra Tech, Inc.):
Qualitative Assessment (Led by the Nooksack Indian Tribe):
• Comprehensive analysis of restoration effectiveness in the SFNR with
continued climate change.
• Resulted in a prioritized list of climate change adaption strategies that
supports salmon restoration in the SFNR under climate change.
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• Protect CWA beneficial uses under continued climate change
• Support ESA recovery under climate change
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“Qualitative Assessment: Evaluating
the Impacts of Climate Change on
Endangered Species Act Recovery
Actions for the South Fork
Nooksack River, WA”
Finally released!
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ACTIONS TO PROMOTE RESILIENCE TO CLIMATE CHANGE:
Watershed function restoration and enhancement
NEP Grant
None of these actions can individually ameliorate all legacy impacts and climate impacts.
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• ACKNOWLEDGE AND ADDRESS THE ROLE OF UPPER WATERSHED PROCESSES
• DEVELOP A WATERSHED CONSERVATION PLAN
• DESIGN AND IMPLEMENT WATERSHED RESTORATION TOOLS THAT SUPPORT AND SUPPLEMENT TRADITIONAL INSTREAM TOOLS
• VOLUNTARY ACTIONS THROUGHOUT THE WATERSHED• Forestry• Transportation• Agriculture• Development
ACTIONS TO PROMOTE RESILIENCE TO CLIMATE CHANGE:
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Acts on the recommendations of:
Draft Temperature TMDL
EPA Region 10 Pilot Climate Change Project
WRIA 1 - Nooksack River Salmon Recovery Plan
WRIA 1 – Nooksack River Watershed Management Plan
SFNR Watershed Conservation Plan
Nooksack Indian Tribe NEP Grant Project
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Our Project:
Developed a reach-scale plan
Lower 14.3-mile reach of the SFNR
Evaluated 345 individual parcels on the floodplain for:
o Cover type
o Condition
o Quality
o Opportunity for protection
o Opportunity for restoration
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Our Project:
Contacted landowners with highest priority parcels to determine initial
willingness to participate in NEP Phase 2 funding
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Highest Priority Parcels
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Our Project:
Fourteen parcels with willing landowners were identified
Conceptual riparian protection and restoration profiles developed
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Eight parcels with four landowners were addressed in the Conceptual Scope of Work
that serves to qualify protection and restoration actions for NEP Phase 2 funding
We are pending formal comments from Ecology on our Conceptual SOW
Phase 2 funding imminent
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Final Phase 2Parcels
Sou
th Fo
rk No
oksack R
iver
Black Slough
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$1,351,600 ≠ $430,000
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The missing piece of the
overall restoration puzzle:
Restore and enhance
watershed hydrologic function
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Climate Change Impacts Streamflow
South Fork Nooksack River Historic and 2075s
Murphy, 2016; MS Thesis, WWU – Streamflow at Wickersham
Historical Projected (2075):
Larger winter peaks
Less Snow & Earlier Melt
Lower baseflow
Dai
ly S
tre
amfl
ow
(cm
s)
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Climate Change Impacts on Streamflow
South Fork Nooksack River Historic and 2075s
Murphy, 2016; MS Thesis, WWU – Streamflow at Wickersham
Dai
ly S
tre
amfl
ow
(cm
s)Shift in water storage functions affects water temperature:
Reduced baseflows
Timing of cold water inputs
Channel widening
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Watershed-Scale
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Snow
Soil Moisture
Surface WaterGroundwater
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Legacy Impacts on Water Storage Functions
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Dense, Even-age
ForestRe-generating
Clear cuts
Over-widened Stream
Wildfire
Development
Roads
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Restoration Strategies in SF Nooksack
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Photos: Kael Martin, Google Earth
Snow: Longer in Gaps Snow: Longer in Forest
Snow Storage Varies with Forest Cover
Photos: Google Earth. See Dickerson-Lange et al. 2017
Amount of Snow Storage
Duration of Snow Storage
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Snow Storage Duration and Stream Temperature
Snow data from Elbow Lake SNOTEL and Water temperature from USGS gages on the SFNR
Less snow storage ≈
Warmer stream temperatures
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Soil Moisture & Forest Stand Age
Perry and Jones (2016): Doug Fir Stands in HJ Andrews Exp. Forest, OR
Re-generating forests use more water ≈
Up to 50% less baseflow after 40 years
Years since harvest
% d
iffe
ren
ce in
bas
efl
ow
Re
-ge
ne
rati
ng
/ o
ld g
row
th
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Restoration Strategies in SF Nooksack
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THANK YOU!