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Aquatic Ecosystem Restoration in Massachusetts
Tim Purinton, Director, Mass Division of Ecological Restoration
Department of Fish and Game
Mary Griffin, Commissioner
• Physical Restoration – Freshwater and Salt Water
• Flow Restoration – RIFLS, Dam Management, Comprehensive Water
Planning
• Technical Assistance (Riverways Program) – Adopt-A-Stream, Wild & Scenic Rivers, Water
Quality, etc.
The mission of the Division of Ecological Restoration is to restore and protect the Commonwealth’s rivers, wetlands and watersheds for the benefit of people and the environment.
Division of Ecological Restoration (DER)
Aquatic Habitat Restoration
…activities that assist in the recovery of the natural processes of a aquatic ecosystem that have been
• degraded, • altered or • destroyed.
Such activities will:
• restore natural processes, • remove ecosystem stressors, • increase resilience of the ecosystem, & • create no lasting harm.
“Ecological restoration is an intentional activity that initiates or
accelerates the recovery of an ecosystem with respect to its health, integrity and sustainability.”
• One-third of wetlands lost to filling and alteration
• Thousands of acres of coastal marshes are impacted by road and rail crossings that block flow of ocean tides or impede fish and wildlife passage
• A growing number of rivers and streams are impacted by low flow (and surcharge)
• Urban sprawl and development pose a continued and growing threat to river and wetland health
• Over 3,000 dams fragment and degrade our rivers and an estimated 30,000 culverts exist in the Commonwealth
• Climate change
Problems
Restoration Solutions
• Replacing culverts to restore full tidal passage and natural hydrology
• Fill removal and stream daylighting
• Removal of dams, dikes, and other barriers
• Reduce and remove stormwater pollutants
• Water conservation measures (including reducing irrigation and creating riparian buffers)
• Invasive species control
Barriers and Fragmentation
• 43 are flood control dams
• 44 licensed hydropower dams
• 164 water supply dams (not all in use)
Dam Removal
Culvert Replacement
Tidal Exchange
Habitat Complexity
Floodplain Restoration
Flow Restoration
Massachusetts Restoration Examples
• North Hoosic River – Clarksburg (dam removal in a cold water stream in Western Mass) Partners: MassDER, Trout Unlimited, Town of Clarksburg, NRCS, USFWS, American Rivers, Sweet
Water Trust, Hoosic River Watershed Association, Eastern Brook Trout Joint Venture, Cascade School Supplies
• Bronson Brook – Worthington (culvert modification and replacement, woody debris installation) Partners: Town of Worthington, DFW, NRCS, USFWS, American Rivers, NOAA, Westfield Wild and
Scenic Committee, The Nature Conservancy, Connecticut River Watershed Association
• Eel River - Plymouth (removal of series of water control structures, a dam, stream naturalization and Atlantic white
cedar swamp) Partners: MassDER, Town of Plymouth, USFWS, NRCS, American Rivers, TNC, MassDEP, CWRP-
Horsley Witten Group
Briggsville Dam Removal- Clarksburg
North Hoosic River
16’
tall
Briggsville Dam Removal Funding
• Design: $171,000
• Implementation: $385,000
• Oversight & monitoring: $52,000
• Partner in-kind ~ $5,000
• Total: $613,000
www.entmoney.com
Bronson Brook -Worthington
Bronson Brook -Worthington
Bronson Brook -Worthington
Eel River Headwaters Restoration - Plymouth
Eel River
Eel River
• Wetland acres restored: 40 acres – seven bog cells • Culvert replacements: 2 road crossings • Barriers removed: 6 including the Sawmill Dam • Miles of stream restored: 2 miles (from headwaters spring to Sawmill Dam) • Total project area, bogs and dam inclusive: Approximately 60 acres • Number of Atlantic white cedar trees planted: 17,000 • Number of other trees, shrubs, and herbs planted: 7,000 • Scale of earthwork: Approximately 30,000 cubic yards • Pieces of large wood used to construct in-stream habitat: Approximately 1000 • Construction Cost: $ 1.9 million • Funders: Multiple: Local, State, Federal and Private • Years to Design, Permit, Fundraise and Complete: 4 • Job Creation/ Maintenance: 2-4 Engineers, Consultants, and Surveyors (part-time), 5-8 Construction Contractors (part-time)
Eel River
Eel River
Eel River Headwater Restoration
Before After
Climate Change
Confronting climate change in the U.S. Northeast • Massachusetts,
Union of Concerned Scientists
Changes in average summer heat index, a measure of how hot it actually feels, given temperature and humidity
Aquatic Ecosystem Impacts &
Vulnerabilities • Changes in water depths, flow dynamics
• Alteration of banks and floodplains
• Increase water temp – change in wetland & animal species
• Drying of peat soils resulting in release of stored carbon
• Proliferation of invasives
Climate Change Adaptation
• Restoration is a core, no-regrets strategy to assist with adaptation
• Restoration builds resiliency
• Healthy wetlands sequester carbon
• Barrier removal creates access to refugia, reduces water temperatures
Key Elements of Holistic Restoration
• Focus on ecological processes • Movement of water, sediment, organic matter,
nutrients/chemicals, light/heat, and biota
• Not ‘form’ or single/target species focus
• Work on the appropriate scale • Watershed focus
• Consider regional controls, and reach-level processes, conditions, and stressors
• Temporal considerations
• Coordination and synergy • Focus existing efforts
• Coordination, not just co-location
“Mother Nature & Father Time” (Bill Mitsch)
• Establish basic conditions for recovery
• Resist over engineering and excessive manipulation
• Communicate that restoration is a trajectory rather than instantaneous success
• Monitor, evaluate and mange adaptively
Economic Argument • Restoration leverages funding and attracts millions of competitive
federal dollars annually into the Massachusetts economy.
• Implementation projects produce an average employment demand of 12.5 jobs and $1,750,000 in total economic output from each $1 million spent, contributing to a growing “restoration economy” in Massachusetts.
• Ecological restoration projects help support a number of economic sectors, including design & engineering, construction, wholesale construction materials, nursery products, & non‐profit science.
• Because of this diversity of contributing sectors and the non‐export nature of the projects, the “ripple effects” from a dollar spent on ecological restoration travel widely through the Massachusetts economy.
• Restoration projects generate total economic outputs equal to or greater than other types of capital projects such as road and bridge construction and repair, replacement of water infrastructure, etc.
Regulation Reform
Non-Ecological Restoration Projects
Ecological Restoration Projects