building resilience sea level rise adaptation through ... presentation 7.30.14.pdfcurrent and future...
TRANSCRIPT
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Building resilience: Sea level rise adaptation through research and collaborative planning
© aerialarchives.com
July 30, 2014 SPUR
Corte Madera Marsh Hayward Shoreline
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Local efforts designed to inform the region
Adapting to Rising TidesHayward Resilience Study"• Collaborative planning process"• Multi-sector vulnerability
assessment and adaptation responses"
"
Corte Madera Marsh Sea Level Rise Adaptation"
• Research on marsh wave attenuation benefits and vulnerability
• Development of phased adaptation strategy
"
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Current and future flooding scenarios
Permanent inundation 36” Sea level rise +
MHHW (most likely 2100)
Temporary flooding 12” Sea level rise + 5-yr extreme tide (most likely 2050)
Current flooding
0” Sea level rise + 50-yr extreme tide
(today!) 2012 King Tide, Miller Ave. Southern Marin; photograph courtesy of Roger Leventhal
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Rocks and walls or beaches and wetlands? Adaptation in between …
Photographs courtesy of Roger Leventhal and Peter Baye
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Hayward Regional Shoreline (photograph courtesy of Matt Brennan)
How much do mudflats and marshes reduce wave height and energy?
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Corte Madera Marsh Sea Level Rise Adaptation"
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Coastal & Marine Environments
Acknowledgements
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Corte Madera Findings
Photograph courtesy of John Callaway
Mudflat
Marsh
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Shallow water reduces flood risk the most
Largest waves offshore, decreasing towards marsh"" "Mudflats reduced wave heights on average by 66% and in shallow water, up to 80%
Mudflat
High tide
Wave height
Low tide
High tide
Mudflat
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Marsh width (ft)
2
1
Deeper water requires a wider marsh
Wav
e he
ight
(ft)
North Muzzi Marsh ~1,000 feet wide; Muzzi and Heerdt Marsh ~2,000 feet wide.
Shallower Water
Deeper Water
Even Deeper Water
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Photograph courtesy of John Callaway
High, wide mudflat and marsh provide most flood risk reduction
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Corte Madera Marsh projected to drown if we do nothing
2000 - 2100 1960 1853
Takekawa et al. 2012 Images courtesy of UC Berkeley Earth Sciences & Maps Library
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Marshes have natural capacity to adapt
Image courtesy of ESA PWA
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Suite of management measures
Image courtesy of ESA PWA
Measures that preserve marsh width: 1. Reduce nearshore wave energy with
oyster shell low-crested berms 2. Stabilize marsh edge with coarse beach to
dissipate wave energy
Measures that build marsh elevation: 3. Recharge mudflat and marsh by introducing fine
sediment directly into the water column or placing sediment on the mudflat
4. Improve sediment pathways by increasing channel networks
5. Enhance sediment trapping by slowing the flow of incoming tidal water (groins/polders)
Measures that create high ground: 6. Increase transition zone by creating
gently sloping uplands 7. Realign levees by moving them to a
new location further inland
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Marsh edge erosion
!
1. Mudflat has generally been eroding "
2. Marsh edge has retreated on average 485 feet (due to tidal/wave action, sediment supply, biological activity, etc.)
James Zoulas (unpublished)
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Measure to decrease marsh edge erosion Coarse beaches buffer wave erosion and preserve wide marsh
Photographs courtesy of Peter Baye
Outer Bair Island, Redwood City San Mateo County
Aramburu Island, Richardson Bay Marin County
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Vertical accretion
1. Marshes are accreting enough sediment to keep up with current sea level rise"
2. Sedimentation on the marsh has been decreasing over time (opposite of most marshes) ! sediment-limited system"
Photograph courtesy of John Callaway
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Measure to increase vertical accretion Mudflat and marsh recharge increase local sediment supply
China Camp (photographs courtesy of Peter Baye)
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Measure to increase vertical accretion Increasing channel density also increases sedimentation
Photographs courtesy of Peter Baye
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Two-phase sea level rise adaptation strategy
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Illustration courtesy of Peter Baye
Measure to allow upland transgression Create space to avoid coastal squeeze when sea level rise outpaces vertical accretion
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Conclusions
1. Wetlands can play a significant role in reducing coastal flooding and future investments in structural shoreline protection.
2. A high, wide mudflat and marsh mudflat maximize wave attenuation.
3. Appropriate management measures are based on site-specific geomorphic conditions.
4. Additional research is needed to better understand the efficacy of many of these measures.
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The Adapting to Rising Tides
Program
San Francisco Bay Conservation and Development Commission
Hayward Resilience Study
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ART Program Zooms In on Hayward
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Source: Esri, DigitalGlobe, GeoEye, i-cubed, USDA, USGS, AEX, Getmapping, Aerogrid, IGN, IGP, and the GIS User Community
ART Project Inland Extent
Focus Area Boundary ¯0 0.75 1.50.375
Miles
Hayward Focus Area
Regionally Significant Assets
SR-92 Approach
Eden Landing Ecological Reserve
EBDA Pipeline
Hayward Shoreline Interpretive Center
Bay Trail
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Sea Level Rise and Storm Event Exposure
SR-92 Approach
Eden Landing Ecological Reserve
EBDA Pipeline
Bay Trail Hayward Shoreline Interpretive Center
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Sea Level Rise and Storm Event Exposure
0’ MLLW
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Sea Level Rise and Storm Event Exposure
8’ King Tide
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Flooding in Developed Area
SR-92 Approach
Eden Landing Ecological Reserve
EBDA Pipeline
Hayward Shoreline Interpretive Center
Bay Trail
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Planning Process
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Working Group
• City of Hayward • East Bay Regional Park District • Hayward Area Recreation and Park District • East Bay Dischargers Authority • Union Sanitary District • California Coastal Conservancy • Alameda County Flood Control Water Conservation District • CalTrans
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Resilience Goals
3. Protect the environmental value of the Hayward Shoreline area by preserving habitat, water quality, and endangered species
4. Build organizational and
community capacity so stakeholders can work collaboratively to address future conditions
1. Protect the health, safety, and welfare of those who live, work, and recreate in the Hayward Shoreline area
2. Prevent the disruption of key community services by protecting critical infrastructure
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Vulnerability Assessment
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1. Shoreline Protection is Too Low
• Shoreline protection is ad hoc levees and natural areas
• The natural areas are not predicted to keep up with rising Bay water levels due to low sediment supply and erosion
• The structural shorelines are all at about the same elevation and overtop between 36-48” over MHHW
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2. Widespread Consequences
Vulnerable Regional Assets: • SR-92 Approach • EBDA Pipeline • Hayward Water Pollution Control Facility • Russell City Energy Center
Photographs (from left to right): Hayward Effluent Pump Station; EBDA Joint Outfall diffuser section being lowered into water, 1978 (Grace 2009); Russell City Energy Center
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3. Governance Vulnerabilities
• Lack of organizational capacity to address long term issues
• Limited financial support for current maintenance and repairs as well as long term planning and improvements
• Current regulatory process does not account for unavoidable changes due to sea level rise
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4. Unique Recreation and Education At Risk
• Environmental education for 9,000 students/year
• 80,000 Bay Trail users/year
• Vulnerable natural areas, levees, and trails
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5. Landscape Solution Requires Coordination
• Short term, individual actions can build resilience
• When water levels reach 36-48” above MHHW the Hayward Focus Area will need a coordinated, multi-benefit, landscape-scale effort for future coastal flood protection.
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Business as usual
Key outcomes
• Costly flood damage and recovery • Increased flood insurance premiums • Tidal marshes lost • Bay Trail lost • Hayward Shoreline Interpretive Center lost • Centralized EBDA system maintained
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Traditional levee Levee aligned to
Depot Road
Levee to protect SR-92
Key outcomes
• Utility infrastructure protected • Industrial and commercial lands protected • Tidal marshes lost • Bay Trail on traditional levee • Hayward Shoreline Interpretive Center lost • Centralized EBDA system maintained
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Horizontal levee
Elevated SR-92
Long, sloping horizontal levee with habitat
supported by treated wastewater discharges
Key outcomes
• Utility infrastructure protected • Industrial and commercial lands protected • Tidal marshes migrate landward • Bay Trail on levee with adjacent habitat • Relocated Hayward Interpretive Center • Decentralized wastewater system
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Room for the Bay
Decentralized wastewater
system
Utilities and other land uses relocated to
higher ground
Key outcomes
• Relocated utility infrastructure and industrial/commercial lands
• Lost tax revenue and economic activity
• New habitat opportunities • Bay Trail relocate
to an inland location • Reprogrammed
environmental education • Decentralized wastewater
system • SR-92 protected or raised
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Next steps for Hayward
1. Evaluation of visions for feasibility and consequences 2. Agency and asset specific adaptation actions 3. Outreach to community members and decision-makers
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What have we learned? 1. Scale matters
Site characteristics and conditions matter and what is learned at the local scale can be applied regionally.
2. Thresholds instead of timing Rather than planning for 20 or 50 or 100 year increments, thresholds are a more meaningful planning tool and will vary around the region. For example, Hayward demonstrates that individual actions can be taken until the point that the shoreline is overwhelmed. Knowing the threshold will lead you to better near and long term actions.
3. Collaborative, comprehensive planning is our best bet Agencies and jurisdictions do not have the capacity or authority to address these issues alone. Working together brings a better understanding of the problems, the possible solutions and funding opportunities and strengthens relationships for addressing problems together.
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For more information visit: www.adaptingtorisingtides.org www.bcdc.ca.gov/planning/climate_change/WetlandAdapt.shtml Sarah Richmond [email protected] 415-352-3660 Maggie Wenger [email protected] 415-352-3647