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mainedot archived planning studies: Fairfield-Benton Replacement Bridge Evironmental Study

Fairfield-Benton Replacement Bridge Evironmental Study: Draft Environmental Assessment and Draft Programmatic Section 4(f) Statement

Replacement of West, Center and East Bridges Towns of Fairfield and Benton Somerset and Kennebec Counties, Maine PIN 6899.00, BR-6899(00)X

Prepared Pursuant to 23 CFR 771 and 23 USC 138 by the U.S. Department of Transportation Federal Highway Administration and Maine Department of Transportation

Paul L. Lariviere,
Division Administrator
Federal Highway Administrator

James Tukey
Bridge Design Division
Bureau of Project Development
Maine Department of Transportation
16 State House Station
Augusta, ME 04333-0016
(207) 287-8340

Comments on this Environmental Assessment are due by October 28, 1999 and should be sent to address above.

Table of Contents

  • Project History and Scope: Page 3
  • Purpose and Need: Page 3
  • Proposed Action: Page 4
  • Issues Relevant to this Proposal: Page 5
  • Decisions to be Made: Page 5
  • Alternative Analysis: Page 5
  • Affected Environment, Environmental Consequences and Mitigation (including Factors impacting decision making matrix): Page 7
  • Public Participation and Outreach: Page 11
  • Literature Cited: Page 11
  • Chronology of public participation and opportunities for Public Participation Public Comments Addressed Comment Letters received: Page 12
  • List of Preparers: Page 13
  • List of Attachments: Page 14
    • Programmatic Section 4(f) Evaluation project location map
    • Historic Bridge Survey
    • Section 106 Analysis:
      • West Bridge
      • Center Bridge
      • East Bridge

Project History and Scope

The towns of Fairfield and Benton are connected by three truss bridges that carry Routes 11/139/100 across the Kennebec River. The West Bridge is a steel pony truss that connects Fairfield proper with Mill Island. The Center Bridge is a steel through truss which continues from Mill Island to Bunker Island. The East Bridge is also a steel through truss that makes the final span across the Kennebec River, connecting Bunker Island with the town of Benton (see attached location map).

All three bridges were built in 1934, replacing one iron and two steel truss bridges at the same location. The current condition of the three trusses has deteriorated to such a point that rehabilitation is no longer a feasible option. Because of this, the Department has proposed to replace all three bridges on a parallel alignment directly upstream from the existing structures. The three existing bridges would remain in service, acting as a temporary detour, until the new structures were open to traffic. The existing structures would then be demolished.

Purpose and Need

The needs for this project are as follows:

  • Severe structural deficiencies in the substructure units of all three bridges
  • Structural deficiencies in the steel superstructure of the West and East Bridges
  • Narrow roadway width
  • Poor roadway alignment
  • Inadequate overhead clearance
  • Poor hydraulic capacity of all three bridges
  • Inadequate paint protection for all bridges

The purposes of this project areas follows:

  • Provide a structurally sound and safe crossing of the Kennebec River in the vicinity of Fairfield and Benton,
  • Address the structural deficiencies and functional obsolescence of the current bridges

Substructure deterioration:

  • The substructures of all three bridges have undergone severe deterioration. The West Bridge has significant concrete loss in the face of the abutment bridge seat between the bearings. The backwall of the abutment is no longer present and there are significant vertical cracks under the bearings. The West Bridge pier has a delaminated surface. The Center Bridge has a crumbling bridge seat and delaminating wingwall. The pier cap surface is severely deteriorated. The pier caps of the East Bridge have areas of exposed rebar between the bearings.

Superstructure deterioration:

  • West Bridge has suffered the greatest amount of superstructure deterioration. There is widespread steel section loss below the grade connection plates and leakage between the sidewalk and roadway interface. Because it has been some time since the bridges have been painted, the paint has failed. This has resulted in steel section loss because members in those areas are no longer protected by paint causing corrosion. The Center Bridge has mild collision damage of the steel members above the roadway. The East Bridge also has some minor collision damage in the steel members above the roadway and moderate steel section loss below grade in the connection plates.

Narrow roadway width:

  • The width of the roadway is 6.7 m (22 ft.). The current Average Annual Daily Traffic (AADT) count is 14,400, and is expected to increase to 20,000 vehicles in twenty years. In order to safely accommodate this volume of traffic, AASHTO standards (engineering guidelines used in the development of transportation projects) require a width of at least 12 m (39.4 ft.).

Poor roadway alignment:

  • The substandard roadway geometry has contributed to poor visibility for traffic entering and leaving residences on the island and the parking lot behind Main Street in Fairfield. This is a result of the roadway curves between the bridges coupled with the above-grade truss structures impairing visibility.

Inadequate overhead clearance:

  • The maximum overhead clearance of 4.3 m (14.1 ft.) on the East Bridge has presented a problem for taller vehicles. Accident reports show several incidents of pulp trucks losing part of their load because of the low overhead clearance.

Poor hydraulic capacity:

  • The bottom of the steel portion of the bridge relative to the mean water level of the Kennebec River makes the bridges especially prone to flood damage. These structures provide only 0.13m (0.4 ft.) of headway between the bottom of the steel and the water surface elevation during a 50 year flood event, and they do not pass a 100 year event. During the flood of 1987 (a 500 year event), the bridges and approaches suffered substantial flood damage because of this poor hydraulic capacity.

Inadequate paint protection:

  • All three bridges are in need of painting. Without paint protection, the deterioration of steel will accelerate.

Proposed Action

Given the extent of structural deterioration and functional obsolescence of the three bridges, the Department is proposing to replace all three bridges on a parallel alignment upstream from the existing structures. The substructures of the new bridges will utilize the Kennebec River islands for piers with one additional pier in the water. The existing bridges would remain in service as a temporary detour and then be removed once the traffic was moved to the new bridges. In addition to removing the superstructures of the existing bridges, the associated piers would also be removed to the level of the river bottom. At least five of the existing six abutments would remain in place.

Issues relevant to this Proposal

The following resources may be impacted by this project: historic resources, hazardous materials, and aquatic habitat impacts associated with the new piers; community facilities and services and right-of-way takings with the new bridge and approaches. No impacts were identified for the following resources: soils and geology, groundwater, water resources/quality issues, vegetation, wildlife, wetlands, floodplains, coastal zone, navigation, federally- or state-listed threatened and endangered species, land use, prime and unique farmland,, neighborhood and community cohesion, environmental justice, business activity levels, employment, visual environment, archeological resources, public parks and recreational lands, air quality and noise levels.

Decisions to Be Made

The Federal Highway Administration (FHWA) must determine if the proposed action satisfies the purpose and need of the project, and that all feasible efforts were made to avoid, minimize and mitigate any impacts to environmental resources.

Alternative Analysis

Four alternatives were considered for this project, the No Build option plus one rehabilitation option and two build options. Each alternative is discussed below, with associated present worth life cycle costs of each.

Life cycle costs include the immediate costs associated with rehabilitation and construction as well as the long-term costs associated with ongoing maintenance. The costs are based on a 75-year cycle, which is the average life span for most bridges. If replacement can be delayed and the life span of a structure can be extended beyond 75 years, then the life cycle costs associated with that structure also decrease.

Alternative 1- No Build: This alternative would require that the existing bridges stay in place with some minor rehabilitative work. It is considered to be the No Build option because it is the minimum scope of work required to keep the bridges in service. While this alternative would prolong the lives of the bridges by making necessary repairs to the sub- and superstructures and painting the members, it would not address the narrow roadway width, poor roadway alignment, inadequate overhead clearance or the poor hydraulic capacity. Alternative 1 would impact properties protected by Section 106 of the National Historic Preservation Act. It was therefore dismissed from further consideration. The estimated life cycle cost for this alternative is $5.1 million.

Alternative 2- Rehabilitation with bypass: This alternative would incorporate the work of Alternative 1, plus require the construction of a new structure upstream of the existing bridges. This alternative was investigated to comply with Section 106 of the National Historic Preservation Act requirement of analyzing alternatives that would not impact historic properties. The rehabilitation alternative would not provide for the additional width, alignment and other deficiencies needed to provide for existing traffic volumes. The bypass alternative, on new location, would increase impact to natural and man-made resources, right-of-way and increase the costs associated with having to maintain the existing three bridges and a new bridge on new location. Proceeding with the analysis of an upstream bypass located significantly upstream would require future environmental analysis and preparation of a separate NEPA document when moneys became available. Because of the extent of additional impacts, this Alternative was dismissed from further consideration. The estimated life cycle cost for this alternative is a minimum of $15 million, although it could be significantly more depending on the location.

Alternative 3- Replacement on existing alignment: This alternative requires that all three bridges be replaced on the same alignment in ten years. It would address the structural deficiencies in the substructures and superstructures, the narrow roadway width, poor roadway alignment, inadequate overhead clearance, poor hydraulic capacity and inadequate paint protection, all in ten years. However, this option would present major constructability issues since a temporary bridge or one lane of traffic would have to be in place for significant periods of time during construction. The high volume of traffic in this area would make this a very difficult and costly undertaking. Because of this, this alternative was dismissed from further consideration. The estimated life cycle cost for this alternative is $6.4 million.

Alternative 4- Replacement adjacent to existing alignment (Preferred Alternative): This alternative requires that the replacement bridges be built on new alignment, slightly upstream of the existing structures. (An upstream alignment was chosen over a downstream one to avoid major impacts to the downtown area of Fairfield.) The intersection in downtown Fairfield would be moved northward, and would be improved. The existing structures would remain in place and provide a temporary detour while the replacement structures were being built. Once the new bridges could carry traffic, the existing structures would be removed. All of the superstructures would be removed, as well as the piers to the level of the river bed. Five of the six abutments would remain in place. This alternative satisfies all the needs for this project and results in less impacts to the environmental resources than Alternative 2.

The estimated life cycle cost for this alternative ranges from $5.5 million to $14.2 million depending on the time table for replacement. The least expensive alternative replaces the bridge in 15 years, while the most expensive ones replace the bridge now. Because of strong local advocacy to replace the bridges soon, the Department determined that the preferred solution would be to replace all three bridges within the next 5 years. The estimated life cycle cost for the Preferred Alternative is $14.2 million.

Affected Environment, Environmental Consequences and Mitigation

Factors impacting decision making.

Attribute

Alternative 1- No-Build

Alternative 2- Rehabilitation with bypass.

Alternative 3 - Replacement on existing alignment

Alternative 4-Replacement adjacent to existing alignment

Aquatic Habitat

No impact

Not quantifiable at this time

573 sq. meters, 6,168 sq. feet

573 sq. meters, 6,168 sq. ft.

Habitat Type

No impact

Riverine Unconsolidated Bottom

Riverine Unconsolidated Bottom

Riverine Unconsolidated Bottom

Community Facilities and Service Access

Decreased accessibility

Improved accessibility

Improved accessibility

Improved accessibility
Historic

{see Programmatic 4(f)}
West, Center, East Bridges Rehabilitation
West, Center, East Bridges Rehabilitation
Demolition of West, Center, & East Bridges
Demolition of West, Center, & East Bridges

Life Cycle Costs

$5.1 million

minimum of $15.6 million

$6.4 million

$14.2 million

Right-of-Way

a. Takings
b. Type
c. Cost

No impact NA

$0

Not quantifiable at this time

Linear
strip taking

$85,000

Four
bank, gas station, storefront,storage bld $675,000
 

 

  1. Aquatic Habitat. Previous studies had confirmed the presence of state-listed, endangered mussel species (Leptodea ochracea and Lampsilis cariosa) in areas of the Kennebec River, slightly downstream of this project area. Because of this, the Department conducted its own field study in this area to determine whether or not the two species were found in this vicinity. No specimens from either species were found. In addition, the same study revealed that the majority of the riverbed was comprised of scoured bedrock with very small, isolated pockets of unconsolidated sediments. Because of this, no significant impacts to aquatic habitat are anticipated. For further information, see biological report.
  2. Air Quality Analysis. An air quality analysis was conducted for the No Build Alternative and Alternative 4 - Replacement adjacent to existing alignment (the preferred alternative). The study concluded that there would be no exceedences in either the 1 hour or 8 hour NAAQS averages for CO levels for the proposed build alternative. See the Air Quality Report for additional information.
  3. Noise Analysis. A noise study was conducted for No Build Alternative and Alternative 4 -Replacement adjacent to existing alignment (Preferred Alternative). Three residential receptors (R3, R8, R13) are currently exceeding the maximum noise level for this type of property and are expected to continue to exceed this noise level under the No Build alternative. Only one residential receptor (R13) is expected to be in exceedence of this maximum noise level under the Preferred Alternative. Despite this predicted exceedence, the Department has determined that it would not be feasible or prudent to mitigate for this increase since it would be less than a 3 dBA increase over current levels. No commercial properties were in exceedence of the maximum noise level. See Noise Analysis for additional information.
  4. Community Facilities and Services. The narrow width of the bridges and the poor roadway alignment has impeded access to community facilities and services. The No Build alternative would not improve access, and in fact, access to the facilities would likely become worse as traffic volumes increase and the structures further deteriorate and require maintenance. The other three alternatives would improve access to community facilities and services.
  5. Neighborhood and Community Cohesion and Business Activity Levels. The No Build alternative would likely impede development since businesses would be reluctant to locate in an area with traffic congestion and poor vehicular access. Improving the vehicular access (as is proposed with the build alternatives) would likely make the area more attractive for development and could encourage secondary development. While development may prove beneficial to the economic base of a community, it can also bring with it other less desirable outcomes which can be viewed as detrimental by the community. Examples of potential development include: conversion of green spaces to more commercial/industrial uses, bisecting residential neighbors and communities because of induced traffic and changing the overall characteristic of a given community by change in land use. Whether or not the economic incentives of development will outweigh the potential negative impacts is a decision that must be made by each affected group/community. However, it is possible in this case to construct an alternative that will both preserve the integrity of the existing neighborhoods, while at the same time accommodate the existing and induced traffic related to development. Alternative 4 has been discussed with the Town of Fairfield, resulting in a commitment to add green space within the project limits to enhance the downtown neighborhood. The number of parking spaces for business access will be preserved, and safety of vehicles using these spaces will be improved. These enhancements would not be included in the other two build options, because of required reconfiguration of the downtown intersection. There will likely be some temporary disruption to neighborhoods and local businesses during the construction of the build alternatives. The Department will work closely with neighborhoods and local business owners to minimize any potential disruptions. There will be on-going disruptions with business activity levels and neighborhoods under the No Build alternative as traffic volumes and congestion continue to increase and structures further deteriorate requiring additional maintenance.
  6. Historic Properties. On Nov. 17, 1997 the state historic preservation officer determined that the West, Center, and East bridges were eligible for nomination to the National Register Historic Places. It was determined that the appropriate mitigation, for the demolition of the bridges, was a Level II recordation as defined in the Secretary of the Interior's Standards and Guidelines for Architectural and Engineering Documentation. The recordation of the bridges has been accomplished as is specified.

    Alternative 1 and Alternative 2 would require the rehabilitation of West, Center, and East Bridges. The rehabilitation would require repairs to the substructures and superstructures and painting of the members for all three bridges. Alternative 1 and 2 were dispensed from further consideration as they would not address the narrow roadway, poor roadway alignment, inadequate overhead clearance or the poor hydraulic capacity.

    Alternative 3 and Alternative 4 would require the demolition of the three National Register eligible bridges. To mitigate the impacts to the historic properties a Level II recordation as described above has been prepared for the three bridges.

    See the attached Section 4(f) Evaluation for further information concerning the historic bridges.
  7. Uncontrolled Petroleum and Hazardous Waste. There are several areas with confirmed soil and\or groundwater contamination within the project . This soil and groundwater contamination will have a minor impact on the construction of the Preferred Alternative (Alternative 4). The same level of impact is expected for Alternative 3, Replacement on Existing Alignment. There is no impact by uncontrolled petroleum and hazardous waste for Alternative 1, No Build. Alternative 2, Rehabilitation with Bypass, was not investigate for uncontrolled petroleum hazardous-waste. Any soil or groundwater contamination encountered during construction will be handled in a manner consistent with State and Federal law, including the Memorandum of Understanding between the Maine Department of Transportation and the Maine Department of Environmental Protection. Measures will be taken during the final design process to minimize the projects impact on contaminant migration.
  8. Land Use. Land uses could change in response to the construction of one of the build alternatives as a result of secondary development. Whether or not these changes would be viewed as positive or negative depends on the goals of each community involved (see "Neighborhood and Community Cohesion and Business Activity Levels" for further discussion).
  9. Environmental Justice. Environmental Justice has been defined by the U.S. EPA’s Office of Environmental Justice (EPA 1997) as "... The fair and meaningful involvement of all people regardless of race, color, national origin, or income with respect to the development, implementation, and enforcement of environmental laws, regulations, and policies. Fair treatment means that no group of people, including racial, ethnic, or socioeconomic group should bear a disproportionate share of the negative environmental consequences resulting from industrial, municipal, and commercial operations or the execution of federal, state, local, and tribal programs and policies."

    There is an elderly housing complex located on Mill Island, between West and Center Bridges. The Preferred Alternative will improve access to the complex and requires minimal strip type right-of-way takings. The Preferred Alternative, as all alternatives analyzed, will temporarily impact the complex during normal construction activities.
  10. Vegetation. Any disturbance to local vegetation associated with construction activities would be mitigated for through post-construction landscaping.
  11. Freshwater Wetlands. Alternative 1 requires no permits from the Maine Department of Environmental Protection (DEP) and Army Corps of Engineers (ACOE). Alternative 2 would require a Maine DEP full permit and a full ACOE permit. Alternative 3 require a DEP Permit by Rule and an ACOE General Permit due to the temporary detour that would be constructed. Exact impacts for the detour bridge are unknown at this time. Alternative 4 requires a DEP Permit by Rule and an ACOE General Permit. Impacts are 573 square meters (6,168 square feet) of Riverine Unconsolidated Bottom. Impacts are based on construction of 5 piers and the placement of rip rap around the abutments.
  12. Navigation. Federal Highway Administration has determined that navigation will not be adversely affected by this project and has therefore notified the United State Coast Guard (USCG) that it considers itself (and thereby, the Department) exempt from needing a USCG permit for that purpose. See memo from FHWA to USGC dated 8/13/98.
  13. Employment. There may be a temporary increase in employment opportunities associated with construction for all of the alternatives.
  14. Right Of Way. There will be no right-of-way impacts associated with the No Build Alternative. Rehabilitation with Bypass, Alternative 2, has not been fully analyzed as the exact corridor location has not been determined. The bypass portion of the plan would most likely require significant acquisition and relocation costs. This Alternative was eliminated from further consideration prior to the preparation of project cost estimates.

    The new structure, that would be developed for the Replacement on Existing Alignment, Alternative 3, will be wider than the existing structure. The widening will result in strip type acquisitions on both sides of the existing right away. The estimated right-of-way costs for this alternative is $85,000.00.

    Alternative 4, Replacement adjacent to existing alignment, would necessitate the acquisition of four buildings as well as several strip type acquisitions along the project corridor. The acquisitions include: a bank, gas station, and a storefront building in Fairfield and a storage facility in Benton. The acquisition of these buildings are required for the construction of the replacement bridges, slightly upstream in the existing. The estimated right-of-way cost of this alternative is $675,000.
  15. Surface Waters. There will be no significant impacts to surface waters for any of the proposed alternatives. The Department will require that the contractor develop an erosion and sedimentation plan (Special Provision 107) and follow the Department's Best Management Practices for erosion and sedimentation.

Public Participation and Outreach

  • Literature cited
    • 1995, August 18 - Memorandum, Maine Historic Preservation Commission to Maine Department Of Transportation, "State Historic Preservation Officer Expressed Official Interest in the Bridges As Potential Candidates for National Register of Historic Places".
    • 1997, November 17 - Memorandum, Maine Historic Preservation Commission to Maine Department Of Transportation, "State Historic Preservation Officer determined Bridges Eligible for Nomination to the National Register of Historic Places".
    • 1998, May 5 - Memorandum, Maine Historic Preservation Commission to Maine Department of Transportation, "Building Demolition, Fairfield-Benton".
    • 1998, August 13 - FHWA letter to First Coast Guard District, "Finding of U.S. Coast Guard Permit Exemption".
    • 1999 - "Habitat Assessment of the Kennebec River", Robert Van Riper, MDOT - OES.
    • 1999, May - "Noise Study, Fairfield, Maine and Benton, Maine, Routes 11,100, and 139", William S. Rollins.
    • 1999, May 20 - Memorandum, Maine Historic Preservation Commission to Maine Department of Transportation, "Section 106 finding of archeological significance".
    • 1999, June - " Air Quality Assessment of Proposed Design Changes to the Kennebec River Crossing of Routes 11,100, and 139 between Fairfield and Benton", Earth Tech, Inc.. 1999, June 18 - Memorandum, Dale Doughty to Lisa Dickson, "Summary of Hazardous and Uncontrolled Waste Issues".

Chronology of Public Participation and Opportunities for Public Participation

Date

Type of Meeting

Participants

Issues Discussed

12/12/96

Preliminary Informational

MDOT & Public

introduce need for improvements & solicit preliminary input from public

6/8/98

Board Meeting of Skowhegan Savings Bank

Board Members, MDOT Project Mgr. & ROW representative

discuss project's impact on bank and potential need for acquisition

6/9/98

Interagency Meeting

ACOE, MDEP, FHWA, MHPC, U.S. FWS,LURC,NMFS, U.S. EPA, MDMR, & MDIFW

introduce project to agencies and ask for regulatory input - no significant concerns voiced at this meeting

4/17/97

7/15/97

6/11/98

12/3/98

1/20/99

Weekly Breakfast Meeting of Fairfield Business Owners and Town officials

Fairfield Business Owners and Town officials, MDOT Project Mgr. and other MDOT representatives

update on progress of project, discuss different approach alignments on the Fairfield side and associated impacts of each

3/31/99

Meeting with Fairfield Officials

Fairfield Town officials, MDOT (Project Manager, Highway Design)

Discuss Town's Plan for Community Development Block Grant, and how project would impact their plans

4/29/99

Meeting with Fairfield Business Owners and Town officials

Fairfield Business Owners, 3 MDOT Team Members (Project Manager, Highway Design, Traffic)

present traffic analysis model demonstrating effect of proposed parking changes on traffic flow in new intersection

 

 


List of Preparers

Name

Title

Documentation Responsibility

Lisa C. Dickson

Environmental Specialist III

Document preparation and review

Judith Lindsey-Foster

Environmental Specialist IV

Document preparation and review

Pamela Hetherly

Civil Engineer II; Project Manager

Document preparation and review

Greg Croce

MDOT Summer Intern

Document research Section 4(f) analysis

Dale F. Doughty

Hydrogeologist

Hazardous Materials Report

Earth Tech

Consultant

Air Quality Report

William S. Rollins

Civil Engineer III

Noise Study

Robert Van Riper

Planning & Research Assoc. II

Biological Report

Richard Bostwick

Environmental Specialist IV

Document review
 

 

Attachments

  • Programmatic Section 4(f) Evaluation
  • Project Location Map
  • Historic Bridge Survey, Section 106 Analysis:
    • West Bridge
    • Center Bridge
    • East Bridge

Programmatic 4(f) Evaluation
Consideration of Impact of Project BR-6899 (00)X, (PIN 6899.00)
on Historic Bridges over the Kennebec River between Fairfield and Benton, Maine.

Background

Section 138 of Title 23, United States Code (highways) declares that it is national policy that special effort be made to preserve the natural beauty of the countryside and public park and recreation plans, wildlife and waterfowl refuges and historic sites. The bridges over the Kennebec River between Fairfield and Benton, Maine have been determined to be eligible for listing in the National Register of Historic Places by the director, Maine State Historic Preservation Commission, referred to hereafter as the State Historic Preservation officer, SHPO.

The rule is commonly known as 4(f), from the originating paragraph in the Department of Transportation Act of 1966. 4(f) prohibits Federal transportation agencies from authorizing funds that require the use any of the protective entities listed above unless the specific Evaluation indicates (1) there is no feasible and prudent alternative to the impact on these assets, and (2) all possible planning to minimize harm to them has been undertaken and will be implemented. Issues of safety, mobility and limited alternatives led to the development of interagency agreements to use abbreviated 4(f) reporting and processing in the case of projects involving historic bridges that meet certain criteria. The Fairfield-Benton Bridge replacement project does make these criteria, as shown below.

 

Criteria

Yes

No
Will a bridge be rehabilitated or replaced with Federal Funds?

X

  
Will the project require the use of historic bridge structures which are on or eligible for listing on the National Register of Historic Places?

X

  
Is the bridge a National Historic Landmark? (Programmatic N/A if Yes)  

X
Has the Federal Highway Administration (FHWA) Division Administrator determined that the facts of the project match those set forth in the sections of this documents labeled Alternatives and Mitigation?

X

  
Has an agreement been reached among the FHWA, the SHPO, and the U. S. Advisory Council on Historic Preservation through procedures pursuant to Section 106 of the National Historic Preservation Act?

X

  
 

 

Description of Impacts to Section 4(f) Property

Demolition of three truss bridges determined by SHPO to be eligible for inclusion in the National Register of Historic Places. For description of bridges see Attachments 1,2 & 3, and the project Environmental Assessment.

Alternatives Considered

  • Do Nothing
    • The Do Nothing alternative was examined in the EA as Alternative 1, No Build. It was rejected as impractical because it did not meet project Purpose and Need regarding structural integrity, safety and functional obsolescence. It's life-cycle costs are commensurate with replacement options.
  • Highway Improvement without Using Adjacent Section 4(f) Property
    • Alternative 2 in the EA evaluated the feasibility of rehabilitating the existing truss bridges and providing an upstream by-pass crossing at a future date when funding is available. This alternative had the highest life-cycle cost since it involved construction and maintenance of essentially a duplicate set of bridges. The upstream crossing would involve building not only the bridge structure but also a considerable length of highway approaches on new alignment. The additional economic, social and environmental cost of the right-of-way and wetland impacts rendered this alternative impractical.
  • Building an Improved Facility on a New Location
    • Two alternatives were proposed involving replacement of the bridges. The first, Alternative 3 in the EA, proposed replacement of the existing bridge on the same alignment to minimize disruption of the approaches. This alternative met the Purpose and Need of the project at a moderate life-cycle cost, but was found to be impractical because of the economic, and community impact costs of providing one-lane and temporary bridge detours during the life of the project.

      This alternative would have resulted in the demolition of the existing bridges. Alternative 4 also results in the eventual demolition of the existing bridges but provides for construction of a replacement bridge immediately upstream, adjacent to the existing structures. This alternative meets all aspects of project Purpose and Need. It maximizes use of the existing approaches with minimal disruption to build-up section of Fairfield at the western approach. Its life-cycle cost is equal to or less than the other alternatives.

      This is the proposed action. The existing bridges would serve as the detour route during construction. They will be removed following the opening of the new facility because of their resultant lack of utility and structurally deficient condition.
  • Minimization and Mitigation Plan
    • Relocation and an approved adaptive reuse of the bridge structures at an appropriate site is possible but unlikely, given the deteriorated condition of the bridges and the generally unproductive experience of highway departments nationwide at marketing bridges in this condition.

      It is likely the bridges will be demolished. The SHPO directed that Level II recordation as defined in the Secretary of the Interior's Standards and Guidelines for Architectural and Engineering Documentation be undertaken to mitigate the loss of these historic structures. This process produces an official record of the bridges, including photographs, narrative history, and original plans. The recordation of the bridges has been accomplished as specified.
  • Coordination with Maine Historic Preservation Commission
    • August 18, 1995 - SHPO's expressed official interest in the bridges as potential candidates for National Register of Historic Places.
    • November 17, 1997 - SHPO determined bridges eligible for nomination to the National Register.
    • May 5, 1998 - SHPO determined buildings to be demolished by project are not historical.
    • May 20, 1999 - SHPO found no properties and project impact area of archeological interest, following completion of archeological Phase I fieldwork.

Summary and Approval

This project meets all criteria included in the programmatic 4(f) Evaluation. All required alternatives have been evaluated and the findings indicate that it is not possible to achieve the Purpose and Need of the project without impacting the Section 4(f) protected properties. the project includes all possible planning to minimize harm. The official with jurisdiction over the bridges, the SHPO, has agreed with the assessment of impacts and concur with the proposed minimization and mitigation plan.

Date: September 22, 1999 Approved by:

Paul L. Lariviere
Division Administrator
Maine Division, FHWA

 

Attachments

Please Note: All the following documents are in the Adobe PDF Format

 
 

 

 

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