HomeMy WebLinkAbout20160804 Ver 1_Draft EA_20160729US Army Carps
of Engineers,
Wilmington District
CESAW-ECP-PE
PUBLIC NOTICE ,& NOTICE OF AVAILABILITY
Draft Environmental Assessment (EA)
EaIlle Island Improvements
Bike Raise to Elevation 50 Feet
Brunswick and New Hanover Counties, NC
29 July 2016
PURPOSE OF PUBLIC NOTICE: This Notice is to inform you that the U.S. Array Corps of
Engineers (USA.CE), Wilmington District has prepared the Draft Environmental Assessment (EA),
Eagle Island Improvements, Dire Raise to Elevation 50 Feet NAVD88, dated July 2016, and it is
available for review. The purpose of this notice is also to solicit your comments and information
to better enable us to make a reasonable decision on factors affecting the public interest. That
decision will reflect the national concern for bath protection and utilization of important resources.
The benefits, which reasonably may be expected to accrue from the proposal, must be balanced
against its reasonably foreseeable detriments. All factors that may be relevant to the proposal will
be considered, including the cumulative effects thereof.
INFORMATION: The draft EA for the Eagle Island improvement project has been developed
to ensure adequate dredged material disposal capacity for the Wilmington Harbor Federal
Navigation Project for at least the next 16 years by recommending the construction of dike raises
to elevation 50 feet for Cells 1-3 on Eagle Island in the Cape Fear River. To ensure dike stability,
the 50 -foot dike raise will require a supportive outer toe berm. This toe berm is projected to impact
39 acres ofPhragmites-dominated coastal marsh.
The draft EA has been prepared in accordance with the requirements of ER 200-2-2 (33 CFR Part
230): Environmental Quality Procedures for Implementing the National Environmental Policy
Act (NEPA), of 1969, as amended, and 40 CFR Parts 1500 to 1508 the Council on Environmental
Quality (CEQ) Regulations for Implementing the NEPA.
AVAILABILITY OF THE DRAFT EA: The report can be accessed as follows:
1. Online, downloaded from the Wilmington District. Internet homepage at:
littp://www.sa v.usace.army.rail/MissionsrNavi-ation/Dreding/Wilmington-HarborlEa,(Yle-
Island/.
2. CD copies of the draft EA may be obtained by contacting:
U.S. Army Corps of Engineers, Wilmington District
ATTR: Ms. Emily Hughes (CESAW-ECP-PE)
69 Darlington Avenue
Wilmington, North Carolina 28403
Telephone: (910) 251-4635
E-mail: emily.b.lilies c ,usace.aiiii it
3. The draft EA is also available for review and inspection (not for distribution) at:
U.S. Army Corps of Engineers, Wilmington District
District Library
69 Darlington Avenue
Wilmington, North Carolina 2.8403
(Note: Please contact Ms. Hughes to make arrangements for reviewing the EA at the District
library. Her contact information is listed above.)
4. Copies of the draft EA have been mailed to federal, state, and local agencies, public interest
groups, and individuals.
SOLICITATION OF COMMENTS: The Wilmington District USACE is soliciting comments
from the public, federal, state, and local agencies and officials, and other interested parties to
consider and evaluate the impacts of the proposed activity. Comments received will be considered
in preparation of the final EA.
Written comments and requests for additional information should be submitted to Ms. Hughes at
the above address and/or telephone number.
COMMENT PEFJOD: Comments may be submitted no later than 30 days from the date of this
public notice, so they may be considered during the final evaluation and decision process.
Elden Gatwood
Chief, Planning and Environmental Branch
0
US Army Corps
of Engineers o
Wilmington District
DRAFT ENVIRONMENTAL ASSESSMENT
EAGLE ISLAND IMPROVEMENTS
DIKE RAISE TO ELEVATION 50 FEET
Eagle Island Confined Disposal Facility,
Upper Wilmington Harbor, Cape Fear River
Brunswick and New Hanover Counties
North Carolina
July 2016
DRAFT ENVIRONMENTAL ASSESSMENT
EAGLE ISLAND IMPROVEMENTS, DIKE RAISE TO 50 FEET
BRUNSWICK AND NEW HANOVER COUNTIES, NORTH CAROLINA
JULY 2016
Table of Contents
1.0 INTRODUCTION..................................................................................................................
1
1.1 Incorporation by Reference...............................................................................................
3
1.2 Wilmington Harbor Project Background............................................................................
4
2.0 PURPOSE AND NEED........................................................................................................
6
3.0 PROPOSED ACTION...........................................................................................................
7
4.0 ALTERNATIVES CONSIDERED BUT ELIMINATED...........................................................
8
4.1 Disposal in the Wilmington Ocean Dredged Material Disposal Site (ODMDS) .................
8
4.2 Development of Cells 4 & 5...............................................................................................
8
4.3 New Upland CDF..............................................................................................................
9
4.4 Raise Eagle Island Dikes to Elevation of 52 feet and 62 feet ............................................
9
5.0 AFFECTED ENVIRONMENT & IMPACTS OF PROPOSED PLAN & NO ACTION ...........
10
5.1 Geology and Sediments...................................................................................................
10
5.2 Water Resources............................................................................................................
14
5.3 Air Quality.......................................................................................................................
15
5.4 Marine and Estuarine Resources....................................................................................
16
5.5 Fisheries and Essential Fish Habitat(EFH)....................................................................
18
5.6 Terrestrial Resources......................................................................................................
20
5.7 Wetlands.........................................................................................................................22
5.8 Floodplains......................................................................................................................22
5.9 Endangered and Threatened Species............................................................................
23
5.10 Cultural Resources.......................................................................................................
26
5.11 Aesthetic and Recreational Resources.........................................................................
27
5.12 Socio -Economic Resources..........................................................................................
28
5.13 Hazardous, Toxic, and Radioactive Waste...................................................................
33
5.14 Noise.............................................................................................................................34
5.15 Environmental Impact Comparison of Alternatives........................................................
34
5.16 Mitigation.......................................................................................................................35
5.17 Cumulative Impacts.......................................................................................................
36
5.18 Public Laws and Executive Orders................................................................................ 38
5.19 Conclusion..................................................................................................................... 41
6.0 COMPLIANCE WITH ENVIRONMENTAL REQUIREMENTS ............................................ 41
7.0 AGENCY AND PUBLIC INVOLVEMENT........................................................................... 42
7.1 Agency and Public Coordination..................................................................................... 42
7.2 North Carolina Coastal Management Program............................................................... 42
7.3 Clean Water Act (CWA).................................................................................................. 42
7.4 Coordination of this Document........................................................................................ 46
8.0 POINT OF CONTACT........................................................................................................ 46
9.0 REFERENCES................................................................................................................... 46
Figures
FIGURE 1. GEOGRAPHICAL LOCATION OF EAGLE ISLAND, WILMINGTON, NORTH
CAROLINA........................................................................................................................... 2
FIGURE 2. REACHES OF THE WILMINGTON HARBOR.......................................................... 5
FIGURE 3. EAGLE ISLAND CELLS 1 - 3.................................................................................... 6
FIGURE 4. TYPICAL CROSS SECTION OF PROPOSED DIKE RAISE AND TOE BERM ........ 8
FIGURE 5. FOOTPRINT OF THE 50' TOE BERM FOR CELL 1 .............................................. 12
FIGURE 6. FOOTPRINT OF THE 50' TOE BERMS FOR CELLS 2 & 3 ................................... 13
FIGURE 7. IDENTIFIED PNA (AREAS WITHIN RED LINES) IN THE PROJECT AREA.......... 17
FIGURE 8. WILMINGTON TIDAL GAUGE HISTORIC SEA LEVEL TREND ............................ 44
FIGURE 9. WILMINGTON TIDAL GAUGE LOCATION (BLUE PIN) ......................................... 45
FIGURE 10. RELATIVE SEA LEVEL RISE CURVES............................................................... 45
Tables
Table 1. Essential Fish Habitat species in the Wilmington Harbor ............................................ 19
Table 2. Categories of EFH and HAPC identified in FMP Amendments affecting the South
Atlantic................................................................................................................................ 20
Table 3. Endangered and Threatened Species Potentially Impacted by the Proposed Eagle
Island Improvement Project (Brunswick and New Hanover Counties) ............................... 23
Table 4. New Hanover and Brunswick Counties Statistical Area - Total Population Data ......... 28
Table5. Population by Race..................................................................................................... 29
Table 6. Civilian Labor Force by Occupation............................................................................. 30
Table 7. Number of households and the percentage of their respective incomes ..................... 31
Table 8. Comparison of Impacts to Resources.......................................................................... 34
Table 9. Compliance of the proposed action with executive orders ........................................... 38
Table 10. Relationship of the proposed action to Federal Laws and Policies ............................ 41
Appendices
Appendix A. Section 404 (b)(1) Analysis
Appendix B. List of Draft EA Recipients
1.0 INTRODUCTION
Wilmington Harbor, located on North Carolina's southeast coast, is one of the state's
two deep -water ports and a major contributor to its economy. The Wilmington Harbor
project connects deep water of the Atlantic Ocean with North Carolina State Ports
facilities at Wilmington, waterfront facilities in downtown Wilmington and several
businesses north of the City of Wilmington, by way of a 38 -mile -long channel along the
Cape Fear River. The U. S. Army Corps of Engineers (USACE), Wilmington District, is
responsible for maintaining the federally authorized Wilmington Harbor navigation
project. The primary disposal facility for dredged material from the Upper Harbor
reaches of the Wilmington Harbor is the Eagle Island Confined Disposal Facility (CDF),
which is located on the peninsula between the Cape Fear and Brunswick Rivers, south
of U.S. Highway 74/76 (Figure 1). Improvements to the Eagle Island CDF is required to
provide adequate dredged material disposal capacity for continued maintenance
dredging of the Wilmington Harbor navigation project. This Environmental Assessment
(EA) addresses the improvement of Cells 1, 2, and 3 of the Eagle Island CDF in relation
to other alternatives.
The National Environmental Policy Act of 1969, as amended (NEPA), requires
consideration of the environmental impacts for major federal actions. The purpose
of this EA is to ensure the environmental consequences of the proposed action are
considered and that environmental and project information are available to the
public. This EA has been prepared in accordance with the National Environmental
Policy Act (NEPA) of 1969, the Council on Environmental Quality (CEQ) regulations
(40 Code of Federal Regulations (CFR) parts 1500- 1508), and Engineering
Regulation (ER) 200-2-2.
1 1 Page
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21 Page
1.1 Incorporation by Reference
The USACE has produced a number of environmental and planning reports which
describe the Wilmington Harbor federal navigation project, its ongoing and proposed
improvements, the details of dredging and disposal operations required for its
construction and maintenance, and the environmental aspects of the project. A number
of these reports, which contain extensive background information, are listed below and
are incorporated by reference.
U.S. Army Corps of Engineers, Wilmington District. October 1989. Final Environmental
Impact Statement (FEIS). Long -Term Maintenance of Wilmington Harbor, North Carolina.
This document describes project history, physical and biological attributes of the harbor,
dredging and disposal methods and alternatives, capacities and estimated life
expectancies of disposal areas, and anticipated environmental impacts of harbor
maintenance.
U.S. Army Corps of Engineers, Wilmington District. June 1996. Final Feasibility Report
and Environmental Impact Statement on Improvement of Navigation, Cape Fear -
Northeast Cape Fear Rivers Comprehensive Study, Wilmington, North Carolina, Volumes
I, II, and III.
U. S. Army Corps of Engineers, Wilmington District. June 1996. Final Supplement I to the
Final Environmental Impact Statement for Wilmington Harbor Channel Widening, New
Hanover and Brunswick Counties, North Carolina.
U. S. Army Corps of Engineers, Wilmington District. 1996. Preliminary Assessment,
Dredged Material Management Plan (DMMP), Wilmington Harbor, NC.
U. S. Army Corps of Engineers, Wilmington District. 1997. Dredged Material Management
Plan, Phase I Study, Wilmington Harbor, NC.
U. S. Army Corps of Engineers, Wilmington District. February 2000. Environmental
Assessment, Preconstruction Modifications of Authorized Improvements, Wilmington
Harbor, NC.
U. S. Army Corps of Engineers, Wilmington District. August 2000. Finding of No
Significant Impact, Preconstruction Modifications of Authorized Improvements,
Wilmington Harbor, NC.
U. S. Army Corps of Engineers, Wilmington District. 2001. Phase II Dredged Material
Management Plan Study, Volumes I-V, Upper Portion of Wilmington Harbor, NC.
U.S Environmental Protection Agency and U.
District. November 2001. Final Environmenta
Dredged Material Disposal Site Designation.
31 Page
S. Army Corps of Engineers, Wilmington
I Impact Statement. New Wilminaton Ocean
U. S. Army Corps of Engineers, Wilmington District. June 2012. Environmental
Assessment, Continued Construction of Authorized Improvements, Wilmington Harbor 96
Act, Wilmington Harbor, NC.
U. S. Army Corps of Engineers, Wilmington District. August 2012. Finding of No
Significant Impact, Continued Construction of Authorized Improvements, Wilmington
Harbor 96 Act, Wilmington Harbor, NC.
1.2 Wilmington Harbor Project Background
The Wilmington Harbor Federal navigation project begins at the ocean bar to the
entrance of the Cape Fear River. It extends through the approximate center of the river,
and small islands border the channel for much of its length. These islands were created
by disposal of dredged material in open water prior to the early 1970s. The Wilmington
Harbor navigation channel is divided into "reaches" or segments of river, and dredging
methods and disposal options vary depending on the reach location and quality of
material to be dredged (Figure 2).
The following are the authorized dimensions and approximate dredging intervals of the
Wilmington Harbor reaches that utilize Eagle Island for the disposal of dredged material:
• Lower Brunswick Channel through the Anchorage Basin channel to the Cape
Fear River Memorial Bridge (-24.5 miles), including the 1200 foot wide turning
basin that consists of an authorized depth of -42 feet mlw with an allowable
overdepth of 2 feet to -44 feet. This portion is dredged every one to two years;
• From the Cape Fear Memorial Bridge up to 750 feet above the Hilton Railroad
Bridge on the Northeast Cape Fear River (-3.6 miles) consists of an authorized
width of 250 feet and a depth of -38 feet (-39 feet required in areas containing
rock) with allowable overdepth of 2 feet to -40 feet, to include the 800 -foot wide
turning basin. The turning basin is located at the northern end of downtown
Wilmington. This portion is dredged every 3 to 4 years;
• From 750 feet above the Hilton Railroad Bridge for approximately 1.3 miles to the
project's northern terminus to include the most northern 800 foot wide turning
basin consists of an authorized depth of -34 feet with an allowable overdepth of 2
feet to -36 feet. This portion is has not been dredged since 1994.
Eagle Island is divided into 5 cells, of which 3 cells are in active use. Measured from the
top of dike inward, from South to North, Cell 1 consists of approximately 230 acres, Cell
2 is approximately 260 acres, and Cell 3 is approximately 265 acres. Each cell contains
spillway structures that allow for the discharge of effluent (water from dredged material)
into either the Brunswick River or the Cape Fear River (see Figure 3). For each
dredging event, typically only one cell is used. This allows for a revolving schedule of
dewatering, ditching, drying, maintenance, and dike -raising of the other two cells.
41 Page
In a typical dredging project, material is dredged by a hydraulic cutter suction dredge
and pumped into a disposal area cell. The calculated capacity of the receiving cell
includes a minimum of two feet of freeboard (the vertical distance between the
maximum elevation of the effluent inside the cell and the top of the dike). This
freeboard allows safe inspection of the dike, prevents overtopping and minimizes the
chance of a dike breach. The effluent is contained within the cell while suspended
sediment settles. The "clear" effluent flows out of the cell via one or more spillways or
by pumping. Turbidity, or cloudiness, of the receiving water is analyzed in compliance
with NC Department of Water Resources water quality standards. The rate of effluent is
manually controlled at the spillway riser or by the rate of pumping of dredged material
out of the cell.
Wilmington Harbor Q
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Figure 2. Reaches of the Wilmington Harbor
51 Page
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Figure 2. Reaches of the Wilmington Harbor
51 Page
Figure 3. Eagle Island Cells 1 - 3
2.0 PURPOSE AND NEED
Since the early 1900's, the Upper Harbor reaches of Wilmington Harbor have been
dredged using a hydraulic cutter suction dredge with disposal of the dredged material in
designated disposal areas located adjacent to the channel. The Eagle Island CDF,
which has been the primary disposal site for this dredged material, is rapidly filling up.
Phase I of the Eagle Island Dike Improvement Project is currently underway. Phase I
includes the increase of the dike heights at each of the 3 cells. The existing dikes on
Cell 1 have been raised to elevation 40 feet (NAVD 88), and Cells 2 and 3 are being
raised to 42 feet (NAVD 88). Cell 1 is complete and Cells 2 and 3 will be under
construction through the summer of 2018. These dike raises will not increase the
footprint of the Eagle Island CDF, rather, they will be done with dike step-ins and raises
to the interior of the existing dikes. Although these improvements will increase disposal
capacity, the increased capacity will only last approximately 5-6 years (allowing for at
most another 6 dredging and disposal cycles). Therefore, the need remains for
6 1 gage
additional dredged material disposal capacity for the Upper Harbor reaches, beyond the
dike raises currently underway.
The purpose of this project is to ensure that adequate disposal capacity is available for
continued maintenance of the Upper Harbor reaches of the Wilmington Harbor
navigation project, and that dredged material disposal meets the federal standard.
Pursuant to 33 C.F.R. § 335.7, the federal standard mandates that the dredged material
disposal alternative(s) identified by USACE represent the least costly alternative(s),
consistent with sound engineering practices and meeting the environmental standards
established by the 404(b)(1) evaluation process or ocean dumping criteria.
3.0 PROPOSED ACTION
The Eagle Island CDF is located on a 1,473 -acre tract owned by the Department of the
Army. The original property boundary for the site was defined by a series of rivers and
creeks, some of which still exist and serve as property boundaries for the site. Eagle
Island dikes were initially constructed in the late 1970's and now encompass
approximately 755 acres of diked uplands, which was originally composed of uplands
and tidal marsh as well as several tidal creeks. Over successive years of dredged
material disposal, the marsh and creeks were filled and the CDF was created. Outside
of the existing CDF dikes, the majority of acreage within the 1,473 -acre tract is
considered jurisdictional wetlands. Historically, the site was divided into two cells, a
north and a south cell. However, as part of the 2000 improvement to the CDF, the north
cell was subdivided into two cells of approximately equal size. As a result, material
dredged from the Upper Harbor reaches is disposed of, on a rotating basis, in Eagle
Island Cells 1, 2, and 3.
The most feasible alternative for providing future disposal capacity is to increase the
capacity of Cells 1-3 at Eagle Island by raising the dikes to elevation 50 feet NAVD 88.
To ensure dike stability, this additional raise will require the construction of a "toe berm"
around portions of the outer footprint of each cell (see Figure 4). The toe berm will
serve as a buttressing -type support for the dike, allowing additional dike raises in
increments of 3 to 5 feet, eventually reaching a maximum elevation of 50 feet NAVD 88.
The toe berms and dike raises will be constructed utilizing existing material in the cells.
Doing so will also increase the capacity of each cell providing additional storage space
for future disposal.
Although the USACE would prefer to construct the toe berm for all three cells at the
same time, this may not be possible based upon funding limitations. Therefore,
construction of the toe berm would be accomplished in a phased approach that may
occur over a period of up to 5-6 years beginning in 2018, as funding becomes available.
The proposed dike raise to elevation 50 feet NAVD 88 would provide disposal capacity
for an additional 10-12 years (until year 2032).
Construction of the dike raises and toe berms will impact approximately 39 acres of
coastal marsh. Mitigation proposed to offset these impacts is discussed in Section 5.16.
The proposed improvements to Eagle Island CDF fulfills the purpose and need
71 1 a g e
described above, as it ensures that adequate disposal capacity is available for
continued maintenance of the Upper Harbor reaches of the Wilmington Harbor
navigation project, and that the dredged material disposal meets the federal standard.
EAGLE ISLAND - CELL 3 - EL 50 NAVD 88
Height
I l' P1 CAL CROSS SECTION
200
160
Proposed Dike Raise
120 Second Step -In
First Step -In
Original Dike
80
Toe Berm Disposal Material Inside Cell
0
-40
S
L
420
Figure 4. Typical Cross Section of Proposed Dike Raise and Toe Berm
4.0 ALTERNATIVES CONSIDERED BUT ELIMINATED
4.1 Disposal in the Wilmington Ocean Dredged Material Disposal Site (ODMDS)
Once capacity at Eagle Island CDF is exhausted, the only other currently available
disposal method is to perform bucket and barge dredging and dispose of the material in
the ODMDS. The assumed dredge for this is a 21 CY clamshell dredge and the barges
are assumed to be 3,000 CY dump scows. Environmental restrictions prohibit overflow
from the barges, which limits the amount of dredged material that can be placed in each
scow. A 90% capacity and 50% fill ratio are assumed as average. This would also
result in an additional 1.2 million cubic yards of material going to the ODMDS every
year. Disposal of dredged material from the Upper Harbor reaches into the ODMDS
would cost significantly more than dike improvements and disposal in Eagle Island CDF.
4.2 Development of Cells 4 & 5
This alternative would involve the development of two new cells (Cells 4 and 5) located
just to the north of Cell 3. Cells 4 and 5 would act as a direct dredged material disposal
site or as storage area for dry material from Cells 1-3. The former would require
construction of perimeter dikes and spillway structures to facilitate the disposal of
excess water from the dredged material slurry. Dike construction would likely require a
minimum of 3 years and would need to start within the next 4 years to be available for
8 1 gage
use before Cells 1, 2 and 3 are full. Dikes at Cells 4 and 5 would have to be constructed
to an approximate elevation of 40 feet NAVD 88 to provide a 15 -year project life, and to
elevation 60 feet NAVD 88 to provide capacity for up to 20 years.
Cells 4 and 5 could also be developed as a dry storage area. This would be
accomplished by drying material in Cells 1-3 and dry hauling to Cells 4 and 5 to restore
some capacity in Cells 1-3. Material would be placed in small layers across the site,
eliminating the need for dikes and spillways. Erosion control would be provided as
required.
Use of Cells 4 and 5 for disposal or storage will require upfront mitigation costs. It is
estimated that the majority of the footprint of the proposed cells (approximately 160
acres) contains coastal wetlands that are of relatively high function and value. The
current cost to mitigate for one acre is $175,147 according to the NC Division of
Mitigation Services (DMS) In -Lieu Fee (ILF) Program, resulting in a mitigation cost of
roughly $28 million. This cost is significantly higher than implementing the proposed
Eagle Island dike raise to 50 feet, and for this reason, construction of Cells 4 and 5 was
eliminated from further consideration.
4.3 New Upland CDF
Another measure considered was the construction of a new upland disposal site. To be
viable, a new site would have to be at least 1,000 acres and similar in proximity to the
harbor as the Eagle Island disposal site. Aerial photography of the area was used to
identify any potential future sites 1,000 acres in size within a radius of 2 miles of the
Harbor. Analysis revealed that there are no undeveloped uplands of the size available
to construct a new disposal site. Undeveloped wetlands would require mitigation fees as
stated above, that would render the project impracticable.
Due to a lack of undeveloped uplands in the harbor vicinity, construction of a new
disposal site is not viable. Moreover, if directly pumping into the disposal area is not
possible due to the distance, material may have to be double -handled and trucked to
the disposal area. Due to the close proximity of Eagle Island, an upland alternative
further inland would be more costly to construct and utilize than disposal in Eagle Island
CDF or the ODMDS. For these reasons, construction of a new upland disposal site was
eliminated from further consideration.
4.4 Raise Eagle Island Dikes to Elevation of 52 feet and 62 feet
Raising the Eagle Island dikes to the elevation of either 52 feet or 62 feet was also
analyzed. These were the original heights considered for the project. There are
significant stability and settlement issues with raising the Cell 1, 2 and 3 dikes above
elevation 50 feet NAVD 88. Raising the dikes to these heights may result in stability
issues or a breach of the dikes, which would result in potential water quality issues or
impediments to navigation in the river. Geotechnical evaluations indicate that neither of
these heights are economically feasible; therefore, this plan was eliminated from further
consideration.
91 Page
5.0 AFFECTED ENVIRONMENT & IMPACTS OF PROPOSED PLAN & NO ACTION
The focus of this EA is the improvements to Eagle Island Cells 1 — 3 to increase their
capacity for future disposal. Therefore, the affected environment consists of resources
in the vicinity of Eagle Island and the impacts associated with implementation of the
proposed action as compared to No Action. Impacts associated with continuing
dredging and disposal operations will not be addressed, as they have been addressed
in previous NEPA documents.
The No Action alternative would be the continuance of currently utilized disposal
practices at Eagle Island CDF and completion of the current dike raises at Cells 2 and 3
to elevation 42 feet NAVD 88. The Cell 1 dike cannot be raised above 40 feet without
the construction of toe berms. Dike raises at Cells 2 and 3 to 42 feet NAVD 88 are being
done with step-ins to the interior of the dike. Since toe berms are not required for this
raise, the overall footprint would not change. These improvements will add
approximately 1 year of capacity for a total of six years of volume life at Eagle Island
CDF. Beyond that time, Eagle Island will no longer have the capacity to accept dredged
material. Therefore, dredging projects that previously disposed of dredged material at
Eagle Island CDF will require transport to another approved disposal location.
Currently, the only disposal area suitable for this fine-grained dredged material is the
ODMDS. The ODMDS is located in the Atlantic Ocean, offshore of the mouth of the
Cape Fear River, approximately 38 miles from the upper reaches of the Wilmington
Harbor navigation project.
5.1 Geology and Sediments.
Dredged material deposited in Eagle Island CDF is entirely from maintenance dredging
work in the Upper Harbor reaches of the Wilmington Harbor project. Sediments in the
Wilmington Harbor project area have been routinely tested and evaluated and grain -
sizes have been, and continue to be, periodically determined throughout the life of the
project. Sediments previously deposited in Cells 1-3 of Eagle Island will be used to
construct the proposed improvement project.
The physical and chemical character of Wilmington Harbor shoaled material was most
recently evaluated in 2013. Multiple composite samples, representing specific dredging
units throughout the Wilmington Harbor project, underwent physical and chemical
testing. For sediment originating in the project's upper reaches (near the NC State
Ports facilities and the Anchorage Basin), about 85% of material was organic silt and
clay with sand comprising about 15%, by weight. Arsenic, Anthracene, and Fluorene
were the primary contaminants of concern for this material, and were detected above
both the threshold effect level (TEL) and effects range -low (ERL) in at least one of the
two composited samples. However, all NC State Ports facilities and Anchorage Basin
material is permitted for disposal in both Eagle Island CDF and the Wilmington Harbor
ODMDS.
Dike Raises to 50 Feet. The proposed dike raise would increase the footprint of Cells 1-
3 by approximately 80 acres (see Figures 5 & 6). This will be due to the construction of a
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necessary support berm at the toe of the existing dike. The toe berm will be at heights
ranging from a top elevation of approximately 20-27 feet, surround portions of all 3 cells,
and will be constructed from existing material from the inside of the cells. Depending on
the condition of the existing dikes, the top surface width of the toe berm would vary from
25 to 120 feet. Sections of dike around Cell 1 appear to be the most unstable, requiring
the most added width for support.
The proposed dike raise should have no impact on the project area's geology or
sediments. Once toe berms are in place and dike raises are achieved, disposal practices
from the Wilmington Harbor project will continue as normal and dredged material
composition is not expected to change.
No Action. Continuing dredged material disposal with no dike raise will have no impact
on the project area's geology or sediments as the footprint of the cells and dikes on Eagle
Island would not change.
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5.2 Water Resources.
5.2.1 Water Quality. The Cape Fear River naturally carries a large amount of
sediment from inland to the Atlantic Ocean and drains broad areas of coastal plains.
The relatively slow moving water allows higher concentrations of tannins, essentially
making the river a blackwater system. These, combined with the relatively heavy
marine industrial traffic and urban development along both sides of the River and its
tributaries, can affect the River's water quality, including clarity. During times of poorer
water quality due to high suspended sediment loads, pollution, runoff, submerged
aquatic vegetation and associated fauna, marshes, and nektonic communities (fish,
shellfish, and marine reptiles and mammals) may be adversely impacted.
The EPA has developed a system to identify drainage areas by assigning a Hydrologic
Unit Code (HUC) to watersheds. The Cape Fear River's HUC is 03030005. The NC
Division of Water Resources designates classifications for surface water bodies in the
State. These classifications define the best uses to be protected within each water
body. Cape Fear River from Snows Point to Federal Point to Atlantic Ocean = SA;HQW
and Brunswick River = SC.
The classification definitions are:
• Class SA = Tidal salt waters that are used for commercial shellfishing or
marketing purposes. All SA waters are also HQW by supplemental classification.
• Class SC = All tidal salt waters protected for secondary recreation such as
fishing, boating, and other activities involving minimal skin contact; fish and
noncommercial shellfish consumption; aquatic life propagation and survival; and wildlife.
• High Quality Waters (HQW) = Supplemental classification intended to protect
waters which are rated excellent based on biological and physical/chemical
characteristics through Division monitoring or special studies, primary and other
functional nursery areas designated by the Marine Fisheries Commission.
5.2.2 Hydrology. Tides in the project area are semidiurnal and the mean tidal range
(difference between mean high water and mean low water) at Downtown Wilmington is
approximately 4.3 feet. The mean tidal range in the Atlantic Ocean near its confluence
with the Cape Fear River is between 5 and 6 feet.
The River's salinity is approximately 35 parts per thousand (ppt) at its confluence with
the Atlantic Ocean. Salinity decreases upstream and near Downtown Wilmington
fluctuates within the brackish (0.5 — 30 ppt) range; the salinity dependent upon inflow
from the upper Cape Fear, the Brunswick River, and the Northeast Cape Fear River.
Dike Raises to 50 Feet. Elevating the dikes around Cells 1-3 would require the
construction of an outer toe berm to support the structure. Estimated impacts of the toe
berm are approximately 39 acres of coastal marsh. Filling this low-lying area would
convert wetlands into uplands, displacing water and any potential habitat that exists.
Adverse impacts to water quality resulting from the toe berm construction would be short -
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lived and within levels required by the appropriate water quality certification (to be
requested and obtained by the Division of Water Resources). All efforts to reduce
sedimentation and turbidity and control erosion during construction will be required. The
preferred alternative would have no adverse effect on the project or surrounding area's
hydrology.
No Action. Under the No Action alternative, no impacts will occur to wetlands or waters
as the footprint of the existing CDF will not change.
5.3 Air Quality.
New Hanover and Brunswick Counties are currently listed as in "attainment" status for
all Criteria pollutants which have a National Ambient Air Quality Standard (NAAQS)
published with the exception of Sulfur Dioxide (SO2). Both Counties are currently listed
as "unclassifiable" for SO2 by the EPA like most of the rest of the country (with the
exception of some areas which have a SO2 monitor which clearly shows a violation -
these are listed as "nonattainment"). This pollutant recently (over 2 yrs. ago) received a
revised (lowered) NAAQS value. EPA has yet to publish clear regulatory guidance
directing states how to satisfactorily demonstrate attainment status for counties in the
nation, thus the newly made up attainment status term "unclassifiable". The project
area in New Hanover and Brunswick Counties is considered as having a status of
"attainment/unclassifiable". (Personal communication, Mr. Brad Newland, Regional
Supervisor, NC Department Environmental Quality, Division of Air Quality, Wilmington
Regional Office, November 18, 2014).
Dike Raises to 50 Feet. Temporary increases in exhaust emissions from construction
equipment are expected during construction of dike raises and toe berms. The State of
North Carolina has a State Implementation Plan ("SIP") approved or promulgated under
Section 110 of the Clean Air Act (CAA), as amended. However, a conformity
determination is not required because Brunswick and New Hanover Counties have
been designated by the State of North Carolina as attainment/unclassifiable areas, and
the direct and indirect emissions from the project fall below the prescribed de minimus
levels (58 Fed. Reg. 93.153(c)(1)). Therefore, no conformity determination would be
required. The preferred alternative is not anticipated to result in any adverse effects on
the air quality of Brunswick and New Hanover Counties' attainment areas. The project
would be in compliance with Section 176 (c) of the CAA, as amended.
No Action. The No Action alternative would not result in any adverse effect on the air
quality in this two -county attainment/unclassifiable area other than an increase in fuel
consumption and the resultant exhaust emissions due to round trip travel to/from the
ODMDS when disposal in Eagle Island CDF is no longer viable. Even with this type of
increase, the project would remain in compliance with Section 176 (c) of the CAA, as
amended.
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5.4 Marine and Estuarine Resources
5.4.1 Nekton Nekton collectively refers to aquatic organisms capable of controlling their
location through active movement rather than depending upon water currents or gravity
for passive movement. In the project area, there are estuarine and fresh water species
such as: largemouth bass (Micropterus salmoides), pickerel (Esox americanus), sunfish
(Lepomis spp), crappie (Pomoxis spp), bluegill (Lepomis macrochirus), and speckled trout
(Cynoscion nebulosus).
The Cape Fear River is a passageway for the larvae of many species of commercially
or ecologically important fish. Spawning grounds for many marine fishes are believed to
occur on the continental shelf with immigration to estuaries during the juvenile stage.
The shelter provided by the marshes and shallow water habitats within the project
area's estuarine waters serves as nursery habitat where young fish undergo rapid
growth before returning to the offshore environment.
The State of North Carolina defines Primary Nursery Areas (PNAs) as tidal saltwater,
which provide essential habitat for the early development of commercially important fish
and shellfish (15 NCAC 3B .1405). It is in these estuarine areas that many fish species
undergo initial post -larval development. PNAs are designated by the North Carolina
Marine Fisheries Commission. The Cape Fear River PNAs are defined as follows: "all
waters north of a line beginning on the west shore at a point 340 10.4410' N - 770
57.7400' W; running easterly through Beacon "59" to the east shore to a point 340
10.4050' N - 770 57.1310' W; with the exception of the maintained channel, and all waters
north of a line beginning on the west shore at a point 340 04.6040' N - 770 56.4780' W;
running easterly through Beacon "41" to the east shore to a point 340 04.7920' N -
77°55.4740' W; with the exception of 300 yards east and west of the main shipping
channel up to Beacon "59" (mouth of Brunswick River)". Map #27 from the NC Division of
Marine Fisheries' website, (http-//portal.ncdenr.org/web/mf/primary-nursery-areas),
depicts the PNAs within the project area (see Figure 6).
Secondary Nursery Areas (SNAs) are defined by rule 15 NCAC 3N .0102(c) as: "....
those areas in the estuarine system where later juvenile development takes place.
Populations are usually composed of developing sub—adults of similar size which have
migrated from an upstream primary nursery area to the secondary nursery area located
in the middle portion of the estuarine system." These areas are located adjacent to
PNAs, are generally deeper and contain mixed populations of large juveniles, sub -
adults, and adults.
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Figure 7. Identified PNA (areas within red lines) in the project area.
5.4.2 Benthos. Aquatic organisms that live in close association with the bottom, or
substrate, of a body of water, are collectively called the benthos. Common benthic
organisms in these sediments would likely include polychaetes, amphipods, decapods,
and mollusks. Given the susceptibility of the project area to currents, water movement,
water depths, and the amount of suspended sediment, large benthic communities and
large numbers of organisms are not expected.
Lawler, Matusky & Skelly Engineers (1975) conducted a benthic investigation at six
stations ranging from near the mouth of the Cape Fear River up to the mouth of Smith
Creek in the Northeast Cape Fear River. Polychaetes dominated the benthic fauna
below MOTSU. Of the 21 species collected, only five species occurred above Snows
Cut and only one species at Smith Creek. Species included (Scolecolepides virdis),
(Capitella capitata), (Branchioasylis americana), (Drilonereis longs) and (Nereis
succinea). Oligochaetes were the most abundant group in the entire river, comprising
35% of all collected fauna. They were most abundant from Campbell Island to the
Anchorage Basin. Amphipods (Gammarus spp.) occurred in all samples but were most
abundant near MOTSU, the Anchorage Basin and at Smith Creek. Other common
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species collected were Cumaceans and Isopods.Woodward-Clyde Consultants (1980)
surveyed the benthos in the vicinity of the Anchorage Basin. Nematodes, the spionid
polychaete (S viridis), and the isopod (Chiridotera almyra) were dominant in the
medium -fine sand. The silty clay substrate was dominated by the oligochaete
(Pelosco/es benedeni) and by an amphipod (Gammarus sp).
Shellfish beds are present in the Cape Fear Estuary; however, they are primarily south
of Snows Cut (Woodward -Clyde Consultants 1980) well south of the area of potential
effect for the proposed Eagle Island CDF improvements.
5.4.3 Intertidal Macrofauna. Intertidal portions along the fringes of Eagle Island are
inhabited by various species of polychaete worms and amphipods. These organisms
are important food sources for numerous bird species that may be present in the area.
5.4.4 Submerged Aquatic Vegetation (SAV). A category of Essential Fish Habitat
(below), SAV beds form a complex and important ecosystem. SAV are not prolific in the
Cape Fear River or adjacent waters and there are none in waters around Eagle Island.
Although SAV can quickly populate shallow bottom when conditions are conducive, the
currents, deeper depths, and amount of suspended sediments minimizing light
penetration in the water column will limit the likelihood that SAV will populate the
majority of the project area.
Dike Raises to 50 Feet. Nekton and benthos are not anticipated to be adversely
impacted by the proposed project as they are expected to move and avoid areas during
construction. Some mortality is inevitable, however numbers would be negligible in
relation to overall populations. Impacts associated with construction are expected to be
minimal, temporary, and short-lived. Because SAV is not present in the marsh around
Eagle Island, it would not be impacted.
The construction of toe berms would impact approximately 39 acres of emergent intertidal
marsh fringing Eagle Island. Construction of the toe berm would occur between October
1 and January 31 to avoid impacts to fisheries within the PNA areas. Although the
impacted marsh is vegetated primarily with Phragmites, there are some intertidal
macrofaunal organisms present. Those within the footprint of the toe berm would be
buried. This impact is unavoidable but is considered to be minimal to the area's overall
population of intertidal macrofauna.
No Action Alternative. The No Action alternative is not expected to adversely affect
any marine or estuarine resources.
5.5 Fisheries and Essential Fish Habitat (EFH).
The 1996 Congressional amendments to the Magnuson -Stevens Fishery Conservation
and Management Act (MSFCMA) (PL 94-265) set forth new requirements for the National
Marine Fisheries Service (NMFS), regional fishery management councils (FMC), and
other federal agencies to identify and protect important marine and anadromous fish
habitat (those that depend on both freshwater and saltwater). These amendments
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established procedures for the identification of EFH and a requirement for interagency
coordination to further the conservation of federally managed fisheries.
Wilmington Harbor supports several popular recreational and commercial aquatic
species. Some species common to the area include: White shrimp (Litopenaeus
setiferus), River herring/alewives (alosa pseudoharengus), American eel (Anguilla
rostrate), and migratory fish such as American shad (Alosa sapidissima), striped bass
(Morone saxatilis), and Atlantic and shortnose sturgeon.
Table 1 lists, by life stages, fish and crustacean species which may occur in the vicinity
of Wilmington Harbor, and for which Fishery Management Plans (FMPs) have been
developed by the South Atlantic Fishery Management Council (SAFMC), Mid -Atlantic
Fishery Management Council (MAFMC), and NMFS. These fish species and habitats
require special consideration to promote their viability and sustainability.
Table 1. Essential Fish Habitat species in the Wilmington Harbor
Common Name
INVERTEBRATES
Brown shrimp
White shrimp
Pinkshrimp
COASTAL DEMERSALS
Red drum
Bluefish
Summerflounder
COASTAL PELAGICS
Spanish mackerel
King mackerel
Cobia
SNAPPERS/GROUPERS
Black sea bass
Rock sea bass
Gag grouper
Red grouper
Black grouper
Lane snapper
Mutton
snapper Gray
Yellowjack
Blue runner
Creva Ile jack
Barjack
Atlantic spadefish
Sheepshead
Scientific Name
Life
Stag
Farfantepenaeusaztecus
LJA
Litopenaeussetiferus
LJA
Farfantepenaeus
LJA
Sciaenops ocellatus
Pomatomus saltatrix
Paralichthys dentatus
Scomberomorus
Scomberomorus cavalla
Rachycentron canadum
Centropristis striata
Centropristis philadelphica
Mycteroperca microlepis
Epinephelus morio
Mycteroperca bonaci
Lutjanus synagris
Lutjanus analis
Lutjanus
Carangoides bartholomaei
Caranx crysos
Caranx hippos
Caranx ruber
Chaetodipterus faber
Archosargus
probatocephalu
ELJA
JA
LJA
JA
JA
JA
Common Name
SHARKS
Smooth dogfish
SMALL COASTAL SHARKS
Atlantic sharpnose shark
Finetooth shark
Blacknose shark
Bonnethead shark
LARGE COASTAL SHARKS
Silky shark
Tiger shark
Blacktip shark
Spinner shark
Bull shark
Lemon shark
Nurse shark
Scalloped hammerhead
Great hammerhead
Smooth hammerhead
Scientific Name
Life
Stag
Mustelus canis
J
Rhizoprionodon
JA
Carcharhinus isodon
JA
Carcharhinus acronotus
JA
Sphyrna tiburo
JA
Carcharhinus falciformis
Galeocerdo cuvieri
Carcharhinus limbatus
Carcharhinus brevipinna
Carcharhinus leucas
Negaprion brevirostris
Ginglymostoma cirratum
Sphyrna lewini
Sphyrna mokarran
Sphyrna zygaena
Legend: E, Egg; L, Larval; J, Juvenile; A, Adult
Source: Habitat Protection Division, Pivers Island,
Table 2 lists categories of EFH and Habitat Areas of Particular Concern (HAPC) for
managed species that were identified in the FMP Amendments affecting the South
Atlantic area. HAPC's are subsets of EFH which are rare, particularly susceptible to
human -induced degradation, especially ecologically important, or located in an
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JA
JA
JA
JA
JA
JA
JA
JA
JA
JA
environmentally stressed area. No HAPCs are located in the vicinity of Wilmington
Harbor. The EFH categories in Wilmington Harbor are indicated by an * in Table 2.
Table 2. Categories of EFH and HAPC identified in FMP Amendments affecting the South Atlantic
Areas
Estuarine Emergent Wetlands*
Estuarine Scrub/Shrub Mangroves
Submerged Aquatic Vegetation
Oyster Reefs & Shell Banks*
Intertidal Flats*
Palustrine Emergent &
Forested W tlands
Aquatic Beds
Estuarine Water Column*
Seagrass
Creeks
Mud Bottom
Areas
Live/Hard Bottoms
Coral and Coral Reefs
Artificial/Man-made Reefs
Sargassum
Water Column*
GEOGRAPHICALLY DEFINED HAPC
Area -wide
Council -designated Artificial Reef
Hermatypic (reef -forming) Coral Habitat &
Hard Bottoms
Hoyt Hills
Sargassum Habitat
State -designated Areas of Importance for
Managed Snecies
Submerged Aquatic Vegetation (SAV)
North Carolina
Big Rock
Bogue Sound
Pamlico Sound at Hatteras/Ocracoke Islands
Capes Fear, Lookout, & Hatteras (sandy
New River
The Ten Fathom Ledge
The Point
Dike Raises to 50 Feet. The proposed improvements to Eagle Island CDF resulting in
filling approximately 39 acres of Phragmites-dominated intertidal marsh will impact the
estuarine emergent wetlands EFH. Given the disturbed nature of these wetlands,
mitigation provided by the USACE (described in Section 5.16) should offset any adverse
environmental impacts of the toe berm construction.
No Action. The No Action alternative would not result in impacts to EFH.
5.6 Terrestrial Resources.
Terrestrial resources found on Eagle Island CDF are the result of frequent and recurring
activities including maintenance and raising of dikes as well as the disposal of dredged
material.
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Dikes are vegetated primarily with various grass species and Phragmites and some
shrub thickets of wax myrtle (Myrica cerifera), silverling (Baccharis halimiflora), yaupon
(Ilex vomitoria), marsh elder (Iva frutescens), and Virginia red cedar (Juniperus
virginiana) are found on the outer portions of the marsh, away from the dikes.
Birds frequenting the Island include marsh hawks (Falco cyaneus), kestrels (Falco
sparverius), bald eagles (Haliaeetus leucocephalus), mourning doves (Zenaida
macroura), fish crows (Corvus ossifragus), starlings (Sturnus vulgaris), meadowlarks
(Sturnella magna), boat tailed grackles (Quiscalus major), and savannah sparrows
(Passerculus sandwichensis). Migratory birds include black -necked stilts (Himantopus
mexicanus), red -winged blackbirds (Agelaius phoeniceus), winter sparrows (Spizella
arbores), common grackles (Quiscalus quiscula), bobolink (Dolichonyx oryzivorus),
anhinga (Anhinga anhinga), painted buntings (Passerine ciris), and tree swallows
(Tachycineta bicolor). A number of species of ducks, wading birds, and other shore
birds can be found at various times in the flooded cells and during times of discharge of
dredged material.
Gray squirrels (Sciurus carolinensis), marsh rabbits (Sylvilagus palustris), white-tailed
deer (Odocoileus virginianus), raccoon (Procyon lotor), fox (Vulpes vulpes), nutria
(Myocaster coypus), opossum (Didelphis virginiana), coyotes (Canis latrans), and
bobcats (Lynx rufus) are present on or in the vicinity of Eagle Island.
Reptilian and amphibian species observed or likely present on Eagle Island include the
southern leopard frog (Lithobates sphenocephalus), green tree frog (Hyla cinerea),
black rat snake (Pantherophis obsoletus), eastern cottonmouth (Agkistrodon
piscivorus), copperhead snake (Agkistrodon contortrix), yellow -bellied slider turtle
(Trachemys scripts scripts), snapping turtle (Chelydra serpentine), and the American
alligator (Alligator mississippiensis).
Dike Raises to 50 Feet. During construction of the toe berms, temporary adverse
impacts will occur to land-based organisms that cannot move or burrow in the ground;
however, most will likely vacate the area and return when construction is complete.
Following completion of construction, the cells will be periodically filled with dredged
material in addition to routine maintenance (mowing, ditching, minor dike repair, travel -
way repair, etc). These types of impacts are routine on the Island and have been for
approximately the past 50 years. The majority of the terrestrial resources are
opportunistic and/or pioneering; therefore, impacts of the proposed project, which are
anticipated to be temporary, minimal, and short-lived, will allow for new individuals to
utilize the habitat following completion of construction or dredged material disposal
events.
No Action. The No Action alternative involves continued use of Eagle Island CDF until
no capacity for dredged material remains. Impacts to terrestrial resources will continue
as before (periodic filling, ditching, maintenance activities, etc) until the site can no
longer be used. Until then, these impacts are ongoing, and the majority of the terrestrial
resources in the area have either adapted or moved north of the cells where there is
less disturbance.
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5.7 Wetlands.
Eagle Island is fringed by marsh/wetlands suited to brackish water. Phragmites
australis predominates, while cattails (Typha latifolia, T angustifolia, and T domingensis)
are interspersed with Spartina alterniflora and patens, Typha latifolia, Scirpus spp,
Juncus roermerianus and various other species of reeds, rushes, and sedges. Areas
dominated by Phragmites are of lower quality and provide less habitat for native
species; however, they are still useful for flood protection, erosion control and improving
water quality.
Dike Raises to 50 Feet. In 2010 and again in 2015, the USACE conducted preliminary
wetland identification surveys around Eagle Island CDF and determined that there is
extensive coastal marsh fringing the Island. The proposed toe berm construction will fill
approximately 39 acres of intertidal marsh vegetated almost exclusively with
Phragmites. Construction of the dike raises and toe berms will require mitigation to
offset the loss of 39 acres of Phragmites-dominated intertidal marsh. Refer to section
5.16 for details.
No Action. The No Action alternative would continue utilizing existing methodologies of
Eagle Island disposal. Each maintenance dredging contract is conditioned to require
avoidance of impacts to all wetlands unless first coordinated with and authorized by
appropriate state and federal resource agencies. Therefore, no adverse impacts to
wetlands would occur unless prior project -specific coordination has been completed.
5.8 Floodplains.
A floodplain is an area of land adjacent to a body of water that is inundated during flood
events. The 100 -year flood is a flood event that has a 1 % probability of occurring in any
given year. The 100 -year flood plain is established by the Federal Emergency
Management Agency (FEMA) and is identified on Federal Insurance Rate Maps. Base
flood elevations for flood zones and velocity zones are also identified by FEMA, as are
designated floodways.
Adverse impacts to floodplains occur when an activity removes an area that flood
waters could otherwise occupy, thereby raising the elevation of flood waters and
possibly increasing flooding at another location.
Dike Raises to 50 Feet. The proposed project involves the construction of a toe berm
with a footprint of approximately 80 acres. Approximately 39 acres of this impact is
located in intertidal marsh around the base of Eagle Island CDF. While this impact is
unavoidable, it may adversely impact the floodplain by slightly increasing the chance or
severity of flooding at nearby locations. Looking at a cross-sectional image of the river
where it intersects with the widest portion of the toe berm (on the southwest side of Cell 1
adjacent to the Brunswick River), would give an approximate idea of volumes of material
displacing tidal marsh and the affect it would have on the river system in the event of a
flood. Given the size of the Cape Fear, Northeast Cape Fear, and Brunswick Rivers, and
the acreage of tidal wetlands in the project area, this impact is negligible.
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No Action. Under No Action, the Eagle Island dikes would not be expanded beyond 42
foot elevation; therefore, toe berms would not be required and no changes to the
floodplain would occur.
5.9 Endangered and Threatened Species.
The Endangered Species Act (ESA) of 1973, as amended (16 U.S.C. 1531-1543),
provides a program for the conservation of threatened and endangered (T&E) plants and
animals and the habitats in which they are found. In accordance with section 7 (a)(2) of
the ESA, the USACE is initiating consultation with the US Fish and Wildlife Service
(USFWS) and the National Marine Fisheries Service (NMFS) to ensure that effects of the
proposed project would not jeopardize the continued existence of listed species or result
in the destruction or adverse modification of designated critical habitat of such species.
Updated lists of endangered and threatened species for the project area were obtained
from NMFS (Southeast Regional Office, St. Petersburg, FL) and the USFWS (Field
Office, Raleigh, NC). These were combined to develop the composite list shown in Table
3, which includes T&E species that could be present in the area based upon their
historical occurrence or potential geographic range. However, the actual occurrence of a
species in the area depends upon the availability of suitable habitat, the season of the
year relative to a species' temperature tolerance, migratory habits, and other factors.
For the upper Wilmington Harbor portion of the Cape Fear River, the only species that
may occur in the project area are two endangered sturgeon species: shortnose
(Acipenser brevirostrum) and Atlantic (Acipenser oxyrinchus oxyrinchus). Whales,
manatee, and sea turtles species are not likely to occur in the project area or be affected
by the proposed project. Furthermore, the Eagle Island CDF does not provide habitat for
any of the listed bird species in the area: piping plovers and red knots prefer oceanfront
beaches; red cockaded woodpeckers are accustomed to long leaf forests; and the wood
stork favors cypress trees and mangrove swamps.
Table 3. Endangered and Threatened Species Potentially Impacted by the Proposed Eagle Island
Improvement Project (Brunswick and New Hanover Counties)
Species Common Names
MAMMALS
Blue whale
Finback whale
Humpback whale
Right whale
Sei whale
Sperm whale
W Indian manatee
Scientific Name
(Balaenoptera musculus)
(Balaenoptera physalus)
(Megaptera novaeangliae)
(Eubaleana glacialis)
(Balaenoptera borealis)
(Physeter macrocephalus)
(Trichechus manatus)
Piping plover (Charadrius melodus)
Red cockaded woodpecker (Picoides borealis)
Red knot (Calidris canutus rufa)
Wood stork (Mycteria Americana)
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Federal Status
Endangered
Endangered
Endangered
Endangered
Endangered
Endangered
Endangered
Threatened
Endangered
Threatened
Threatened
REPTILES
Green sea turtle
Hawksbill sea turtle
Kemp's ridley sea turtle
Leatherback sea turtle
Loggerhead sea turtle
FISHES
Atlantic sturgeon
Shortnose sturgeon
(Chelonia mydas)
Threatened'
(Eretmochelys imbricate)
Endangered
(Lepidochelys kempii)
Endangered
(Dermochelys coriacea)
Endangered
(Caretta caretta)
Threatened
(Acipenser oxyrinchus Endangered
oxyrinchus)
(Acipenser brevirostrum) Endangered
'Green turtles are listed as threatened, except for breeding populations in Florida and on the Pacific Coast of Mexico,
which are listed as endangered.
5.9.1 Status, Distribution, and Habitat
Shortnose Sturgeon
The shortnose sturgeon (Acipenser brevirostrum) inhabits large Atlantic coast rivers
from New Brunswick, Canada south to northeastern Florida. Adults in southern rivers
are estuarine anadromous, foraging at the freshwater -saltwater interface and moving
upstream to spawn in the early spring. Although the shortnose sturgeon is
anadromous, they spend most of their life in their natal river systems and rarely migrate
to marine environments. Spawning habitats include river channels with gravel,
gravel/boulder, rubble/boulder, and gravel/sand/log substrates. Spawning in southern
rivers begins in later winter or early spring and lasts from a few days to several weeks.
Juveniles occupy the freshwater -saltwater interface, moving back and forth with the low
salinity portion of the salt wedge during summer. Juveniles typically move upstream
during the spring and summer and downstream during the winter, with movements
occurring above the freshwater -saltwater interface. In southern rivers, both adults and
juveniles are known to congregate in cool, deep thermal refugia during the summer.
The shortnose sturgeon is a benthic omnivore, feeding on crustaceans, insect larvae,
worms, and mollusks. Juveniles randomly vacuum the bottom and consume mostly
insect larvae and small crustaceans. Adults are more selective feeders, feeding
primarily on small mollusks (NMFS 1998).
Atlantic Sturgeon
The Atlantic sturgeon (A. oxyrinchus oxyrinchus) was listed under the ESA on 6
February 2012 (77 FR 5914, 77 FR 5880). The spawning population in the Cape Fear
River system is thought to number less than 300 adults [Atlantic Sturgeon Status
Review Team (ASSRT) 2007]. Atlantic sturgeon spawn in freshwater but spend most of
their adult life in the marine environment. Spawning adults generally migrate upriver in
the spring/early summer (Smith and Clugston 1997). Spawning is believed to occur in
flowing water between the salt front and fall line of large rivers. Post -larval juveniles
move downstream into brackish waters and eventually move to estuarine waters where
they reside for a period of months or years (Moser and Ross 1995). Subadult and adult
Atlantic sturgeons emigrate from rivers into coastal waters where they may undertake
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long range migrations. Migratory subadult and adult sturgeon are typically found in
shallow (10 to 50 m) nearshore waters with gravel and sand substrates (Collins and
Smith 1997, Stein et al. 2004). Although extensive mixing occurs in coastal waters,
Atlantic sturgeons return to their natal river to spawn (ASSRT 2007).
5.9.2 Occurrence in the Action Area
Shortnose Sturgeon
The shortnose sturgeon was thought to be extirpated from NC waters until an individual
was captured in the Brunswick River in 1987 (Ross et al. 1988). Subsequent gill -net
studies (1989-1993) resulted in the capture of five shortnose sturgeon, thus confirming
the presence of a small population in the lower Cape Fear River (Moser and Ross
1995). The current distribution of the shortnose sturgeon in NC is thought to include
only the Cape Fear and Pee Dee Rivers, and no reproducing populations have been
documented in the state [Shortnose Sturgeon Status Review Team (SSSRT) 2010].
Atlantic Sturgeon
The Atlantic sturgeon occurs in the Cape Fear River system adjacent to the action area.
Based on incidental capture data from tagging cruises, shallow nearshore ocean waters
along the NC coast may represent a winter (January -February) aggregation site for
Atlantic sturgeon (Laney et al. 2007). Incidental captures typically occurred over sand
substrate in nearshore waters that were less than 59 feet deep.
5.9.3 Threats
Potential effects include direct impacts on benthic habitats and food resources,
hydrological modifications, turbidity and siltation, and hopper dredge entrainment.
5.9.4 Project Effects
Toe berm construction would not have a direct impact, but can potentially impact
Atlantic and shortnose sturgeons indirectly through sediment suspension and soft
bottom habitat modification. The shortnose sturgeon is typically found in the upper
portions of rivers above the freshwater -saltwater interface; based on its low probability
of occurrence in the action area, impacts on shortnose sturgeon would not be expected
under the proposed action.
Two incidental takes of Atlantic sturgeon occurred at Wilmington Harbor: including one
in the upper Cape Fear River near the State Port in 1998, and one in the lower river
near Horseshoe Shoals in 2010, both by hopper dredge entrainment. The potential for
impacts related to discharge of material in lowland marsh would be minimal. Based on
this, it is anticipated that the risks to Atlantic sturgeon during toe berm construction
would be very low.
5.9.5 Determination of Effect
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Dike Raises to 50 Feet. Based on its low probability of occurrence in the action area, it
is determined that the proposed action may affect, but is not likely to adversely affect,
the shortnose sturgeon.
Although there is no critical habitat designated for the Atlantic sturgeon, it has been
documented to occur in the Cape Fear and Northeast Cape Fear Rivers, indicating that
it is present within the action area. Considering the impacts associated with the
proposed project involve a discharge of fill material into tidal, brackish marsh, it is
determined that the proposed action may affect, but is not likely to adversely affect, the
Atlantic sturgeon.
The proposed toe berm construction would not affect any other federally listed species.
No Action. The No Action alternative would result in no adverse impacts to threatened or
endangered species.
5.10 Cultural Resources.
The Cape Fear River has a long and active history as one of the earliest and most
significant waterways in North Carolina. Spanish explorers sighted the river in the early
16th century and European settlement began in 1664 with the establishment of Charles
Town near the mouth of Town Creek. By 1733, the town of New Carthage, later renamed
Wilmington, had been laid out, and became the main cultural and maritime center. During
the years leading up to the Revolution, numerous confrontations took place between the
American patriots and British loyalists and troops, and Wilmington itself became occupied
by the British in October of 1781.
During the 19th century, up to 40 ships per month were visiting Wilmington's harbor, and
by the mid -19th century there were over 140 named landings located along the 115 miles
of river between Wilmington and Fayetteville. The importance of Wilmington to the
Confederacy is reflected in the fortifications used to protect the city and her approaches.
Fort Fisher, Fort Holmes, Zekes Island Battery, Camp Wyatt, Fort Hendrick, Fort
Campbell, Fort Johnston, Fort Caswell, Battery Buchanan, Fort Anderson, Shaw Battery,
Mound Battery, and Battery Lamb were located on the Cape Fear River at and below
Wilmington, or faced the ocean and river in Brunswick County, and all were important
elements in the coastal defenses. The defenses at Wilmington were not defeated until
late in the war when Fort Fisher finally fell in 1865; Wilmington was occupied by Union
troops soon afterward.
After the Civil War, Wilmington's major water courses began to reflect the transition from
plantation and agrarian economies to the commercial agriculture and industrial
enterprises that would dominate throughout the 20th century. By 1905, channel
improvements made the Northeast Cape Fear River navigable for pole boats all the way
to Kornegays Bridge, 103 miles above the river's mouth, and ship building, fertilizer and
brick factories, shipping terminals, and other capital intensive industries began to replace
commercial fishing, hunting, forestry, and agriculture as the economically dominant
businesses.
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In the early days of World War II, the North Carolina Shipbuilding Company began
building Liberty ships in shipyards along the east bank of the Cape Fear River just south
of Eagle Island. By 1946 the company built 243 ships in all. By 1949, when the war was
over, the returned ships were stationed in the Brunswick River. A total of 648 ships were,
at varying times, moored in the reserve fleet, known as the "Mothball Fleet". Over the
years many were scrapped, sold to private concerns, sunk for artificial reefs, or
recommissioned. The last ship to be removed from the "graveyard" was the Liberty Ship
"USS Dwight W. Morrow", which was scrapped in February 1970 (Memorieshop, 2013).
Archaeologically, the importance of the area as a maritime center is shown by the large
number of shipwrecks and abandoned shipyards. Thirty-seven historic shipwrecks are
listed on the 1985 National Register of Historic Places Registration addendum for the
Wilmington Historic District prepared by the North Carolina Division of Archives and
History (NCDAH). In addition, over 130 shipwrecks are known from the lower Cape Fear
to the Northeast Cape Fear River vicinity, as well as historic remains of numerous
shipyards, Liberty Ships, marine railways, and dry docks.
Dike Raises to 50 Feet. No known adverse impacts to cultural or archaeological
resources would occur as a result of the toe berm construction. No previously identified
shipwrecks or other culturally significant remains are within the proposed project footprint.
It is always possible during the course of a project that vessel remains or other cultural
resources could be encountered. All USACE construction contracts would require that
contractors and others involved in the project be aware that the possibility exists that work
may encounter cultural materials. In the event that this occurs, work would be required to
move to another area and the USACE and the NCDCR Underwater Archaeology Unit
(telephone number 910-458-9042) would be contacted immediately to determine a course
of action.
No Action. The No Action alternative would have no change to the existing footprint of
the project and therefore result in no adverse impacts to cultural or archaeological
resources.
5.11 Aesthetic and Recreational Resources.
While the Cape Fear River is, overall, a scenic setting, Eagle Island CDF is a man-made
feature whose purpose is to receive dredged material. A substantial portion of Eagle
Island CDF is located across the River from the NC State Ports facility, so commercial
shipping, channel maintenance, marine construction, and other activities not commonly
associated with what many consider to be aesthetically pleasing vistas frequently occur.
Eagle Island CDF is considered an active construction site, so for safety and security
reasons, unauthorized persons are not allowed on the premises. Therefore, recreational
activities, aside from bird watching from afar, are not permitted.
Dike Raises to 50 Feet. Construction of the preferred alternative would result in an
increase of construction -related equipment and impacts. However, such activity is not
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uncommon to the area. Raising the dikes to 50 feet would block the viewshed of
approximately 15 homeowners on the Brunswick River looking east, since they would no
longer be able to see beyond Eagle Island to the NC State Ports facility, marine terminals
and other industrial sites. However, most of this view beyond Eagle Island is already
blocked by the existing dikes.
The proposed work would be located adjacent to areas frequented by boat traffic and
fishermen. Aesthetics and public use of the areas may occasionally be disrupted while
construction is occurring, which could take up to 5 - 10 years to complete. Based on past
experience with similar projects, such impacts are minimal and do not create hardships
for the public. Following completion of the dredging, aesthetics and recreational
opportunities would be only slightly changed from conditions existing prior to undertaking
the project.
No Action. The No Action alternative would result in no additional adverse impacts to
aesthetics or recreation than already exist.
5.12 Socio -Economic Resources.
Demographic Profiles
New Hanover and Brunswick Counties are located at the Southeastern portion of
the state of North Carolina. The counties include 192 and 847 square miles
respectively in land and water area. Table 4 provides population data for the United
States, North Carolina, New Hanover and Brunswick Counties over the last 20 years
for which data is available.
Table 4. New Hanover and Brunswick Counties Statistical Area - Total Population Data
Area
% Change'90 -'12
2012
2000
1990
United States
25.76%
313,914,040
282,162,400
249,622,800
North Carolina
46.34%
9,752,073
8,081,600
6,664,000
New Hanover
72.72%
209,234
160,842
121,140
Brunswick County
118.95%
112,257
73,756
51,271
*population estimates provided by U.S. Census
An estimated 321,000 residents lived in New Hanover and Brunswick Counties in
2012. This represents a population increase of 35 percent since 2000 and an
increase of 86 percent since 1990.
The residents of New Hanover and Brunswick Counties contain a mix of races
and ethnicities. Based on 2012 census figures, 79.1 percent of New Hanover
County residents are white, 15.0 percent are black, 5.3 percent are Hispanic,
1.2 percent Asian, and 0.6 percent identified as Native American. The census
of Brunswick County estimates that 85.4 percent of its residents are w h i t e ,
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1 1. 6 p e r c e n t a r e black, 5.1 percent are Hispanic, 0.6 percent Asian, and
0.8 percent identified as Native American.
In the state of North Carolina, 72.1 percent of the population is white, 22.0
percent of the population is black, 8.6 percent Hispanic, 2.3 percent are Asian,
and 1.5 percent are Native American. Table 6 displays racial demographics for
the Nation, State, New Hanover and Brunswick Counties.
Table 5. Population by Race
*population estimates provided by U.S. Census
Approximately 48 percent of the population for New Hanover County was sixteen
years and over, with 53.2 percent of the population in the labor force. The
unemployment rate for the County is 10.4 percent. A total of 37.2 percent of
Brunswick County's population is sixteen or over, with 45.5 percent of the
population in the labor force, and unemployment rate of 11.0 percent. The
unemployment rates for North Carolina and the United states were 10.6 and 9.3
percent respectively.
291 Page
New
Hanover
Brunswick
North
United
County
County
Carolina
States
Population, 2012
206,189
112,257
9,752,073
313,914,040
White persons,
79.1%
85.4%
72.10%
78.1%
percent
Black persons,
14.8%
11.6%
22.0%
13.1%
percent
Hispanic
5.3%
5.1%
8.6%
16.7%
Asian persons,
1.2%
0.6%
2.3%
5.0%
percent
Native (American
Indian, Alaska
Native, Hawaiian,
0.6%
0.8%
1.5%
1.2%
e tc)
Two or More Races
j 2.0%
j 1.5%
j 1.9%
j 2.3%
*population estimates provided by U.S. Census
Approximately 48 percent of the population for New Hanover County was sixteen
years and over, with 53.2 percent of the population in the labor force. The
unemployment rate for the County is 10.4 percent. A total of 37.2 percent of
Brunswick County's population is sixteen or over, with 45.5 percent of the
population in the labor force, and unemployment rate of 11.0 percent. The
unemployment rates for North Carolina and the United states were 10.6 and 9.3
percent respectively.
291 Page
Table 6. Civilian Labor Force by Occupation
In 2010, the median household income of Brunswick County was $45,806. This is
higher than the State's average of $43,326, but lower than the national average of
$50,046. The mean household income was $57,088. The median household
income of New Hanover County was $46,130 and the mean household income
was $63,093. Table 7 shows the number of households in the New Hanover and
Brunswick Counties, North Carolina, and the United States by the percentage of
their respective incomes.
301 Page
New
Hanover
Brunswick
North
United
County
County
Carolina
States
Civilian employed population
98,896
41,791
4,128,576
139,033,928
16 years and over
OCCUPATION
Agriculture Forestry, Fishing,
0.18%
0.66%
1.37%
1.90%
Hunting, Mining
Construction
6.89%
12.89%
6.85%
6.25%
Manufacturing
6.28%
6.94%
12.41%
10.39%
Wholesale Trade
3.10%
1.78%
3.03%
2.83%
Retail Trade
12.54%
16.60%
11.99%
11.65%
Transportation, Warehousing,
3.80%
5.02%
4.25%
4.92%
Information
3.15%
1.78%
1.69%
2.17%
Finance, Insurance, Real Estate,
5.43%
7.44%
6.35%
6.67%
Rental, Leasing
Professional, Scientific,
Management, Administrative,
10.84%
9.03%
9.51%
10.58%
Waste Management Services
Educational Services,
25.15%
18.25%
23.41%
23.24%
Healthcare, Social
Arts, Entertainment,
13.54%
10.94%
9.25%
9.25%
Recreation,
Accommodation, Food
Services
Public Administration
3.28%
4.41%
4.86%
5.17%
Other Services, Except
5.83%
4.26%
5.04%
4.97%
Public
In 2010, the median household income of Brunswick County was $45,806. This is
higher than the State's average of $43,326, but lower than the national average of
$50,046. The mean household income was $57,088. The median household
income of New Hanover County was $46,130 and the mean household income
was $63,093. Table 7 shows the number of households in the New Hanover and
Brunswick Counties, North Carolina, and the United States by the percentage of
their respective incomes.
301 Page
Table 7. Number of households and the percentage of their respective incomes
Source: http://www.usa.com/brunswick-county-nc.htm
http://www.usa.com/new-hanover-county-nc.htm
Economic Characteristics of Wilmington Harbor
Navigation
A thorough analysis of the existing fleet data for vessels calling at Wilmington Harbor in
2009 revealed six typical vessel types: (1) Containerships, (2) Bulk Carriers, (3) General
Cargo Vessels, (4) Petroleum Tankers (5) Chemical Tankers, and (6) Ro-Ro Vessels
(includes Vehicle Carriers).
Containerships made up nearly 35% of the deep -draft vessels calls at Wilmington
Harbor in 2009. The largest vessels that call at Wilmington Harbor at the present time
are containerships of 62,000 to 65,000 deadweight tons (DWT). They are between 950
and 965 feet long, 106 feet in beam, and have design drafts of between 42 and 44 feet.
Their actual sailing drafts were 38 feet or less when calling at Wilmington Harbor in
2009. Containerships maintain an under keel clearance of at least 10 percent of sailing
draft in the channel at all times. They can carry up 4,400 to 4,800 Twenty Foot
Equivalent Units (TEUs); however, they generally transfer less than 1,500 TEUs at the
port, which are split between imports and exports. These larger ships typically travel
between the Far East and East Coast of the US.
Additional Container subclasses that call in Wilmington include smaller vessels in the
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U nited
Total
New Hanover County
Brunswick County
North Carolina
States
Less than
$10,000
10.47%
7.64%
8.97%
7.64%
$10,000 to
$14,999
9.98%
17.45%
13.01%
11.46%
$15,000 to
$24,999
12.07%
10.86%
12.47%
11.17%
$25,000 to
$34,999
10.85%
8.82%
11.59%
10.41%
$35,000 to
$49,999
9.90%
11.76%
10.20%
9.27%
$50,000 to
$74,999
17.91%
19.15%
18.39%
18.28%
$75,000 to
$99,999
11.35%
11.36%
10.79%
11.81
$100,000 to
$149,999
11.15%
8.62%
9.05%
11.82%
$150,000 to
$199,999
3.12%
2.04%
2.88%
4.20%
$200,000 or
3.21%
2.30%
2.66%
3.94%
Source: http://www.usa.com/brunswick-county-nc.htm
http://www.usa.com/new-hanover-county-nc.htm
Economic Characteristics of Wilmington Harbor
Navigation
A thorough analysis of the existing fleet data for vessels calling at Wilmington Harbor in
2009 revealed six typical vessel types: (1) Containerships, (2) Bulk Carriers, (3) General
Cargo Vessels, (4) Petroleum Tankers (5) Chemical Tankers, and (6) Ro-Ro Vessels
(includes Vehicle Carriers).
Containerships made up nearly 35% of the deep -draft vessels calls at Wilmington
Harbor in 2009. The largest vessels that call at Wilmington Harbor at the present time
are containerships of 62,000 to 65,000 deadweight tons (DWT). They are between 950
and 965 feet long, 106 feet in beam, and have design drafts of between 42 and 44 feet.
Their actual sailing drafts were 38 feet or less when calling at Wilmington Harbor in
2009. Containerships maintain an under keel clearance of at least 10 percent of sailing
draft in the channel at all times. They can carry up 4,400 to 4,800 Twenty Foot
Equivalent Units (TEUs); however, they generally transfer less than 1,500 TEUs at the
port, which are split between imports and exports. These larger ships typically travel
between the Far East and East Coast of the US.
Additional Container subclasses that call in Wilmington include smaller vessels in the
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50,000 DWT class. These are generally about 850 feet long, have design drafts of
about 41-42 feet, and can carry up to about 4,000 TEU's. An even smaller sub -class of
container vessel typically service Europe and Central/South America. These vessels are
generally between 20,000 DWT and 22,000 DWT. They are typically 525 to 550 feet in
length, with beams ranging from 82 to 93 feet, and design drafts between 32 and 35
feet. They can carry up to approximately 1,300 TEUs.
The largest Bulk Carriers were rated at about 55,000 DWT with a length of 656 feet, a
beam of 106 feet, and a design draft of 38 feet. The largest General Cargo vessels
were rated at about 47,000 DWT with a length of 656, a beam of 102 feet and a design
draft of 40.4 feet.
The largest non -container vessels that call at the port are Oil Tankers. These vessels
are range in size from 70,000 DWT to 76,000 DWT, a length of 700 to 750 feet, with
beams of 106 to 131 feet, and design drafts ranging from 40 to 46 feet. The actual
sailing drafts of these vessels in Wilmington Harbor were 38 feet or less in 2009.
Hinterland
The Port of Wilmington's hinterland is primarily within the state of North Carolina. It
includes Raleigh, Durham, Greensboro, Fayetteville, and the Wilmington area. The
port is connected to the Raleigh-Durham area by Interstate I-40 and to Greensboro
by Interstate 1-73. The primary Port facilities are approximately 75 miles from
Interstate 1-95 and 200 miles from Interstate 1-85, which are the primary north / south
transportation corridors through North Carolina. These highways connect the Port of
Wilmington to Charlotte, Greensboro, and Raleigh/Durham. Improvements to
Interstate 1-74 have added vehicle capacity between the port and 1-85, which connects
to Charlotte, North Carolina.
Landside transportation to and from the Port of Wilmington is primarily by truck.
Trucks must pass through residential areas to reach the interstates. They must
traverse Burnett Boulevard (two-lane road) to reach 1-74, or Shipyard Boulevard and
College Road (four lane bi-directional roads) with a series of stop lights to reach I-
40. CSX provides daily rail service to the port through one line connecting to the
main line at Hamlet. The rail route is through the City of Wilmington and crosses
many of the city's major roads. Most crossings within the city are "at -grade."
Port Facilities
Wilmington Harbor has a variety of marine facilities located on both the left and right
banks of the Cape Fear River between river miles 26 and 31. The marine facilities
listed below, beginning with the terminal located furthest upstream, include: Kinder
Morgan, Colonial Oil, Amerada Hess, Vopak, North Carolina State Port Authority
berths one through nine, Apex Oil, the Invista Terminal, Carolina Marine Terminal,
South Wilmington Terminal, National Gypsum Terminal, and Sunny Point, also known
as the Military Ocean Terminal and Archers Daniels Midland.
Economic Impact of Proposed Action
321 Page
Eagle Island is the least cost disposal option for dredged material from the upper reaches
of the Wilmington Harbor project. It is important that the NC State Ports have feasible
disposal options in order to keep costs of maintaining the harbor down, which helps keep
the costs of goods in the Wilmington area affordable to the public. The Anchorage Basin
reach of the project requires maintenance every year, and costs roughly $1.2 million per
dredge cycle (with disposal in Eagle Island). The National ranking of State Ports
determines the priority of funding from the Federal Government. An increase in costs of
dredging (transporting material to the ODMDS in lieu of Eagle Island) would likely impact
the Port of Wilmington's relative ranking, thus having the potential to impact annual
funding.
Dike Raises to 50 Feet. Increasing the dredged material capacity of Cells 1-3 will
provide a feasible disposal site for Wilmington Harbor maintenance contracts for the next
16 years. It is important to continue using Eagle Island as a disposal facility as long as
possible, as its access and proximity make it the least cost option.
No Action. Without raising dike elevations beyond 42 feet, once Cells 1-3 reach capacity
there will be no other feasible alternative than to dispose of dredged material in the
ODMDS. The costs associated with transporting material approximately 70 miles round
trip would inevitably increase the costs to maintain the upper reach of the Wilmington
Harbor. If USACE contracts for maintenance become too costly to be awarded, dredging
will happen less frequently, which would affect the draft of ships that can access the Port.
Ultimately, this could raise the cost of goods and have a widespread effect on the regional
economy.
5.13 Hazardous, Toxic, and Radioactive Waste.
The United States Environmental Protection Agency's (EPA) Envirofacts website was
queried to identify the presence of EPA -regulated facilities within three miles of the
proposed project area. The Envirofacts website contains information collected from
regulatory programs and other data relating to environmental activities with the potential
to affect air, water, and land resources in surrounding areas. One site was reported
within a three mile radius, and was identified as the WWTP immediately adjacent to the
proposed project area (U.S. Environmental Protection Agency 2015).
Multiple on-site inspections of the project area and surroundings have been performed
by USACE, Wilmington District staff. Based on the site visit on March 18, 2015 and an
investigation of historic aerial photographs, no evidence of improperly -managed
hazardous and/or toxic materials or indicators of those materials were present in the
proposed project area. USACE construction specifications require contractors to clean
and remove all contaminants.
Dike Raises to 50 Feet. The recommended plan would not impact hazardous and toxic
materials in the proposed project area, nor would it produce hazardous and toxic
materials.
No Action. The No Action alternative may not directly result in any impacts to or
produce any hazardous and toxic materials.
331 Page
5.14 Noise.
In the proposed project area vicinity, noise levels are typically dependent on activity
occurring at the State Ports or on Eagle Island itself. The cells are in a constant state of
maintenance, as they are ditched and drained on a rotating basis and material is used
to raise the dikes. Large excavators, backhoes, dump trucks, utility trucks, and pumps
are commonly found working on Eagle Island. Noise levels are elevated during
construction activities, as expected within commercial/industrial areas.
According to Section 6-28 of the City of Wilmington Noise Ordinance Code: a sound or
noise shall be deemed a noise disturbance if, when measured as prescribed herein, it
exceeds the levels set forth below:
Commercial/industrial area: 75 decibels (daytime level) between the hours of 7:00 a.m.
and 10:00 p.m., or 70 decibels (nighttime level) between the hours of 10:00 p.m. and
7:00 a.m. On Friday and Saturday, the daytime level shall remain in effect until 12:00
midnight.
Similarly, in accordance with Section 23-33 of the New Hanover County code of
ordinances, it would be unlawful for sounds to exceed 75 decibels during the day and
70 decibels at night in non -residentially zoned districts.
Dike Raises to 50 Feet. Construction activity associated with the recommended plan is
expected to comply with Section 6-28 and Section 22-33, NC code of ordinances.
No Action. The No Action alternative would comply with all published noise ordinances
as well.
5.15 Environmental Impact Comparison of Alternatives.
The table below provides a brief summary and comparison of impacts to the physical
and natural environment for the alternatives considered.
Table 8. Comparison of Impacts to Resources
341 Page
Alternatives
Resource
Proposed Action
No Action
(Dike Raises to 50 Ft)
Geology and
Disposal practices will continue as normal
No Impacts/status quo.
Sediments
and dredged material composition is not
expected to change. No adverse impacts.
Water
Impacts would be temporary due to minor
No Impacts/status quo.
Resources
increases in turbidity during construction; no
adverse impacts expected.
Air Quality
Temporary impacts during construction due
Potential increase in fuel
to increases in emissions from heavy
consumption emissions due to
equipment. No adverse impacts expected.
round trip travel to/from the
ODMDS. No adverse impacts
expected.
Aquatic
No adverse impacts expected as life forms
No impacts/status quo.
Resources
are anticipated to move and avoid areas
341 Page
5.16 Mitigation.
The USACE has conducted several coordination meetings with state and federal
resource agencies regarding appropriate mitigation to offset the impacts of the
proposed fill. The 39 acres of impact are to Phragmites-dominated coastal marsh.
Phragmites are a non-native aggressive wetland plant that outcompetes native spartina
alterniflora and patens typha and juncus. As a monoculture, they provide little habitat
and food source for native species. Because of the lessened adverse environmental
impact of filling Phragmites-dominated marsh, the USACE has determined that a set
ratio (acre for acre or portion of an acre) of wetland mitigation is not necessary to offset
the impacts of the proposed project.
The USACE has coordinated with NC Division of Mitigation Services (DMS) to
determine the availability of compensatory mitigation through the "In -Lieu -Fee
Program". Through this process, the USACE would purchase credits from the DMS to
offset the loss of wetland function and value of the 39 acres of impacts. After speaking
351 Page
during construction (though some mortality
is inevitable).
Essential Fish
Permanent impacts to estuarine emergent
No impacts/status quo.
Habitat
wetlands EFH due to filling of 39 acres of
Phrag marsh. No adverse impacts
expected.
Terrestrial
Temporary adverse impacts will occur to
No impacts/status quo.
Resources
organisms during construction however
most will vacate the area. Potential benefits
to terrestrial resources in the long-term.
Wetlands
Permanent impacts to 39 acres of Phrag
No impacts/status quo.
marsh. Mitigation proposed to purchase
3.04 credits of coastal marsh habitat.
Floodplains
Placement of 39 acres of fill within coastal
No impacts/status quo.
wetlands of CFR floodplain. No adverse
impacts to floodplains expected.
E & T Species in
Potential indirect impacts through sediment
No impacts to Atlantic or
Project Area
suspension and soft bottom habitat
shortnose sturgeon expected.
modification. No adverse impacts to Atlantic
or shortnose sturgeon expected.
Cultural
No known cultural resources present; no
No impacts/status quo.
Resources
adverse impacts expected.
Aesthetic and
Temporary impacts expected during
No impacts/status quo.
Recreational
construction, however no adverse impacts
Resources
expected.
Socio-economic
Status quo (maintain access of ships to
Negative impacts to local
Resources
Wilmington Harbor Port).
economy.
Hazardous
No impacts.
No impacts.
Waste
Noise
Minor increases in noise during
No impacts/status quo.
construction. Impacts temporary and not
adverse.
5.16 Mitigation.
The USACE has conducted several coordination meetings with state and federal
resource agencies regarding appropriate mitigation to offset the impacts of the
proposed fill. The 39 acres of impact are to Phragmites-dominated coastal marsh.
Phragmites are a non-native aggressive wetland plant that outcompetes native spartina
alterniflora and patens typha and juncus. As a monoculture, they provide little habitat
and food source for native species. Because of the lessened adverse environmental
impact of filling Phragmites-dominated marsh, the USACE has determined that a set
ratio (acre for acre or portion of an acre) of wetland mitigation is not necessary to offset
the impacts of the proposed project.
The USACE has coordinated with NC Division of Mitigation Services (DMS) to
determine the availability of compensatory mitigation through the "In -Lieu -Fee
Program". Through this process, the USACE would purchase credits from the DMS to
offset the loss of wetland function and value of the 39 acres of impacts. After speaking
351 Page
with a DMS representative, it was determined that 3.04 acres of coastal marsh "credits"
are available for purchase. However, this is associated with a coastal marsh restoration
site in Jacksonville, Onslow County known as Wilson Bay (Sturgeon City) Phase I,
which has been established since 2007 when it was released from monitoring. The
USACE has determined that the 3.04 acres of high quality restoration area would
mitigate for the loss of Phragmites wetlands adjacent to Eagle Island, even though it is
located in a different HUC (White Oak, 03030001).
The 2006 final monitoring report identified the primary goals achieved from the Wilson
Bay restoration project:
1. Reduction of nutrient and stormwater inputs to adjacent estuarine waters.
2. Stabilization of the shoreline through restoration of native vegetation.
3. Improved aesthetics to that of a natural estuarine marsh.
4. Enhancement of wildlife habitat.
The area of brackish marsh restoration included plantings of Spartina cynosuroides in
the lower elevations and Spartina patens in the higher elevations. These habitats
support nekton, benthos, and macrofauna that would otherwise replace the loss of
species in the 39 acres of degraded habitat. In addition, they provide a food source for
fish, birds, and other animals residing in or traveling through the area.
5.17 Cumulative Impacts.
The Federal Executive Branch's Council on Environmental Quality defines cumulative
impact as "the impact on the environment [that] results from the incremental impact of
an action when added to other past, present, and reasonably foreseeable future actions
regardless of what agency (federal or non-federal) or person undertakes such other
actions" (40 CFR 1508.7, National Environmental Policy Act of 1969, as amended).
Cumulative impacts of implementing the no action alternative, over time, would have the
potential to cause significant adverse impacts to the local economy. Additionally, not
increasing the capacity of Eagle Island CDF would possibly increase levels of water and
air pollution due to the increased barge traffic to unload material to the ODMDS.
Eagle Island, originally composed of natural uplands, coastal marsh, and tidal creeks,
was used as a disposal area even before the USACE began disposing of dredged
material from the river in the early 1900s. On average, approximately 1.3 million cubic
yards of material are dredged from the Anchorage Basin portion of the river and
deposited in Eagle Island CDF annually. The deepening of the river in 2002-2003
resulted in an additional 1.75 million, and again in 2012-2013 with approximately
800,000 CYs that was placed in Cell 2.
The NC State Ports Authority (NCSPA) also utilizes Eagle Island CDF for the material
dredged from their berths (1-9) and the new turning basin extension. These areas are
critical to ships turning and docking at the ports and require maintenance annually. The
new Panamax ships that outsize the existing cargo vessels that frequent the Wilmington
Harbor will soon be calling, and additional deepening and widening of the Anchorage
361 Page
Basin expansion will be required to accommodate them as well. This additional material
will also need an approved disposal location.
A good percentage of the banks of the Cape Fear and Brunswick Rivers are
undeveloped and contain low-lying coastal marsh and wetlands. This pervious natural
floodplain is essential for allowing flood waters to flow over and slowly drain as sea
levels recede after a storm. The filling and heightening of the toe berms and dikes on
Eagle Island CDF will take away approximately 39 acres from this natural floodplain, but
that is nominal in comparison to what remains.
It is reasonably foreseeable that dredging of the past projects and on-going
maintenance of the Federal project would be expected to continue. The use of the area
for commercial and recreational navigation is expected to continue and increase as the
mariner population in the area continues to grow. New marinas currently under
construction include the 200 -slip Port City Marina on the upper Wilmington Harbor
portion of the Cape Fear River, and the 64 -slip Hawkeswater Marina on the Brunswick
River.
Also increasing is the size and number of ships calling to port in the Wilmington Harbor.
In response to the widening of the Panama Canal, the Port of Wilmington requested and
received permits to widen the turning basin at the Vopak terminal just north of the Ports.
Dredging an additional width of 200 feet to a depth of -42 +2 feet will occur during June
2016, and material will be disposed of in Cell 1 of Eagle Island. The NCSPA was
required to provide compensatory mitigation for this action since the dredging will occur
within Primary Nursery Area. Mitigation includes the preservation of 13.4 acres of
coastal marsh property owned by NCSPA on the Brunswick River, located directly
across from the cross -dike between Cells 2 and 3.
The preferred alternative, in conjunction with any past, present, or reasonably
foreseeable future projects, is not expected to have any significant adverse cumulative
impacts to the environment. Future dredging actions in the project area and the above-
mentioned reasonably foreseeable future projects would be subject to regulatory
requirements and federal actions would be evaluated in accordance with NEPA. The
proposed action is expected to have minimal impact on overall functionality and quality
of coastal riparian vegetation and available wildlife habitat in the proposed project area.
The components of the proposed action are expected to cause only very minor effects.
The proposed action will:
• not significantly impact water quality,
• not significantly impact marine or estuarine life,
• not significantly impact cultural resources, and
• not cause significant adverse impacts for any other aspects of the environment.
Cumulative impacts of the proposed action appear negligible. Furthermore, increased
capacity of Eagle Island CDF will have a long term positive impact on the local
economy.
371 Page
5.18 Public Laws and Executive Orders.
Table 9 lists the compliance status of all executive orders considered for the proposed
Eagle Island CDF improvement project. Further descriptions of proposed project
compliance with executive orders are below.
Table 9. Compliance of the proposed action with executive orders.
Executive Orders
Number
Compliance
Status
Protection and Enhancement of Environmental Quality
11514
Full"
Protection and Enhancement of the Cultural Environment
11593
Full"
Floodplain Management
11988
Full*
Protection of Wetlands
11990
Full*
Federal Compliance with Pollution Control Standards
12088
Full"
Federal Actions to Address Environmental Justice in Minority Populations and Low -Income
Populations
12898
Full"
Protection Of Children from Environmental Health Risks and Safety Risks
13045
Full"
Invasive Species
13112
Full"
Protection of Migratory Birds
13186
Full"
- Compliance Status shall be considered 'Full Compliance' following completion of the NEPA process.
5.18.1 Protection and Enhancement of Environmental Quality
The Federal Government shall provide leadership in protecting and enhancing the
quality of the Nation's environment to sustain and enrich human life. Federal agencies
shall initiate measures needed to direct their policies, plans, and programs to meet
national environmental goals.
The preferred alternative will not violate any provisions relating to the protection and
enhancement of environmental quality, and will be in full compliance with Executive
Order 11514 following completion of the NEPA process.
5.18.2 Protection and Enhancement of the Cultural Environment
The Federal Government shall provide leadership in preserving, restoring, and
maintaining the historic and cultural environment of the Nation. Federal agencies will
administer the cultural properties under their control in a spirit of stewardship and
trusteeship for future generations. Federal agencies will initiate measures necessary to
direct their policies, plans, and programs in such a way that federally owned sites,
structures, and objects of historical, architectural or archaeological significance are
preserved, restored, and maintained for the inspiration and benefit of the people. In
consultation with the Advisory Council on Historic Preservation (16 U.S.C. 470i), federal
agencies will institute procedures to assure that federal plans and programs contribute
to the preservation and enhancement of non -federally owned sites, structures, and
objects of historical, architectural or archaeological significance.
The preferred alternative will not adversely affect cultural resources and will be in full
compliance with Executive Order 11593 following completion of the NEPA process.
5.18.3 Floodplain Management
381 Page
In order to avoid, to the extent possible, the long and short term adverse impacts
associated with the occupancy and modification of floodplains and to avoid direct or
indirect support of floodplain development wherever there is a practicable alternative,
federal agencies shall take action to reduce the risk of flood loss and minimize the
impact of floods on human safety, health and welfare, and to restore and preserve the
natural and beneficial values served by floodplains.
The preferred alternative would not adversely affect floodplains or alter their function,
and will be in full compliance with Executive Order 11988 following completion of the
NEPA process.
5.18.4 Protection of Wetlands
In order to avoid, to the extent possible, the long and short term adverse impacts
associated with the destruction or modification of wetlands and to avoid direct or indirect
support of new construction in wetlands, wherever there is a practicable alternative,
federal agencies will take action to minimize the destruction, loss or degradation of
wetlands, and to preserve and enhance the natural and beneficial values of wetlands in
carrying out the agency's responsibilities.
The preferred alternative will alter the function of 39 acres of low quality, Phragmites-
dominated coastal marsh. However, loss of function will be mitigated for through
purchase of -3 acres of restored coastal marsh in the upper portion of the New River,
and will be in full compliance with Executive Order 11990 following completion of the
NEPA process.
5.18.5 Pollution Control Standards
Federal agencies are responsible for ensuring that all necessary actions are taken for
the prevention, control, and abatement of environmental pollution with respect to federal
facilities and activities under the control of the agency.
The preferred alternative will not violate applicable pollution control standards and will
be in full compliance with Executive Order 12088 following completion of the NEPA
process.
5.18.6 Environmental Justice in Minority and Low -Income Populations
Environmental justice is defined as the fair treatment 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. EPA further defines fair treatment to mean that no group of people should bear
a disproportionate share of the negative environmental consequences of industrial,
governmental, or commercial operations or policies.
The preferred alternative will not have the potential for disproportionate health or
environmental effects on minorities or low-income populations or communities, and will
391 Page
be in full compliance with Executive Order 12898 following completion of the NEPA
process.
5.18.7 Protection of Children from Environmental Health Risks and Safety Risks
Federal agencies identify and assess environmental health and safety risks that may
disproportionately affect children as a result of the implementation of federal policies,
programs, activities, and standards.
The preferred alternative will not have the potential to disproportionately affect the
safety or health of children, and will be in full compliance with Executive Order 13045
following completion of the NEPA process.
5.18.8 Invasive Species
Introduction of invasive species has the potential to affect the economic, ecological, and
human health of areas in which these species become established. The federal
government, by presidential authority and the authority of other pertinent statutes, is
charged with controlling and preventing introduction of harmful invasive species.
Planting of any vegetation will not be a component of this project. For stabilization
purposes, the toe berms will be seeded to prevent sedimentation into the nearby
waters. Seed species type will depend on the time of year to be applied, and seed
mixture will not include noxious or invasive species. Therefore, the preferred alternative
will not have the potential to introduce or otherwise promote invasive species, and will
be in full compliance with Executive Order 13112 following completion of the NEPA
process.
5.18.9 Protection of Migratory Birds
The Executive Order directs federal agencies that take actions that either directly or
indirectly effect on migratory birds to develop a Memorandum of Understanding (MOU),
and to work with the U.S. Fish & Wildlife Service and other federal agencies to promote
the conservation of migratory bird populations.
The Migratory Bird Treaty Act is a United States federal law, first enacted in 1916 in
order to implement the convention for the protection of migratory birds. The statute
makes it illegal for anyone to take, possess, import, export, transport, sell, purchase,
barter, or offer for sale, purchase, or barter, any migratory bird, or the parts, nests, or
eggs of such a bird except under the terms of a valid permit issued pursuant to federal
regulations. The statute does not discriminate between live or dead birds and also
grants full protection to any bird parts including feathers, eggs, and nests.
Construction of the dike raise and toe berm will not result in any significant adverse
impacts to migratory bird species or their habitat. There may be some temporary
displacement during construction; however, there is no anticipated taking of birds. The
preferred alternative will not violate applicable migratory bird species, and will be in full
compliance with Executive Order 13186 following completion of the NEPA process.
401 Page
5.19 Conclusion.
Based on findings described in this report, it is in the federal interest to implement the
preferred alternative of raising the existing dikes to an elevation of 50 feet NAVD 88 and
constructing a supportive toe berm. The proposed action will meet the purpose and
need by providing long-term dredge material disposal for the upper Wilmington Harbor,
and the dredged material disposal meets the federal standard.
Table 8 details significant environmental factors and impacts taken into consideration.
Project construction will result in permanent impacts to 39 acres of coastal marsh,
temporary impacts to benthic habitat and terrestrial vegetation and short-term impacts
to water quality, air quality, and noise levels in the project area. Overall benefits of the
preferred alternative, however, include long-term regional socio-economic benefits by
providing a financially feasible dredge material disposal facility for the next 16 years.
6.0 COMPLIANCE WITH ENVIRONMENTAL REQUIREMENTS
Table 10 lists the compliance status of the major Federal Laws, policies, and Executive
Orders that were applicable or considered for the project. This project is considered in
"Full compliance" once all the requirements of the NEPA process are complete.
Table 10. Relationship of the proposed action to Federal Laws and Policies
Title of Public Law
US Code
Compliance
Status*
Abandoned Shipwreck Act of 1987
43 USC 2101
Full
Anadromous Fish Conservation Act of 1965, As Amended
16 USC 757 a et seq.
Full
Antiquities Act of 1906, As Amended
16 USC 431
Full
Archeological and Historic Preservation Act of 1974, As Amended
16 USC 469
Full
Archeological Resources Protection Act of 1979, As Amended
16 USC 470
Full
Clean Air Act of 1972, As Amended
42 USC 7401 et seq.
Full
Clean Water Act of 1972, As Amended
33 USC 1251 et seq.
Full
Coastal Zone Management Act of 1972, As Amended
16 USC 1451 et seq.
Full
Endangered Species Act of 1973
16 USC 1531
Full
Estuary Program Act of 1968
16 USC 1221 et seq.
Full
Equal Opportunity
42 USC 2000d
Full
Farmland Protection Policy Act
7 USC 4201 et seq.
Full
Fish and Wildlife Coordination Act of 1958, As Amended
16 USC 661
Full
Historic and Archeological Data Preservation
16 USC 469
Full
Historic Sites Act of 1935
16 USC 461
Full
Magnuson Fishery Conservation and Management Act — Essential Fish
Habitat
16 USC 1801
Full
National Environmental Policy Act of 1969, As Amended
42 USC 4321 et seq.
Full
National Historic Preservation Act of 1966, As Amended
16 USC 470
Full
National Historic Preservation Act Amendments of 1980
16 USC 469a
Full
Native American Religious Freedom Act of 1978
42 USC 1996
Full
* Full compliance once the NEPA process is complete.
411 Page
7.0 AGENCY AND PUBLIC INVOLVEMENT
7.1 Agency and Public Coordination
A scoping meeting and site visit were held on March 4, 2015 with the NC Division of
Coastal Management, the NC Division of Water Resources, the US Fish and Wildlife
Service, the National Marine Fisheries Service, NC Division of Marine Fisheries, and the
NC Wildlife Resources Commission. The purpose was to discuss the proposed project
and to assess the potential impact areas for mitigation.
A scoping letter was sent on April 17, 2015 to representatives of the agencies above as
well as the NC Division of Cultural Resources. This allowed for a 30 day comment
period on the project soliciting comments on the project and proposed mitigation. In
addition, a teleconference was held on April 20 with the NC Division of Mitigation
Services and the USACE.
No comments were received on the project design or mitigation proposal during the
scoping process.
7.2 North Carolina Coastal Management Program
The proposed project is in New Hanover and Brunswick Counties, which is part of the
designated coastal zone of the State of North Carolina. Since the proposed project
includes significant discharge of fill in coastal intertidal marsh, a consistency
concurrence is required from the North Carolina Coastal Management Program. A
consistency determination has been submitted to the N.C. Division of Coastal
Management along with a copy of this EA.
7.3 Clean Water Act (CWA)
7.3.1 Section 404. Due to the need to discharge dredged or fill material into Waters of
the U.S., a Section 404(b)(1) (P.L. 95-217) evaluation for the proposed project is
required and included in Appendix A.
7.3.2 Section 401. A Section 401 Water Quality Certificate under the CWA of 1977
(P.L. 95-217), as amended, is required for the proposed disposal of material to
construct the toe berms, and would be obtained from the N.C. Department of
Environmental Quality (DEQ), Division of Water Resources, before construction begins.
7.3.3 Sea Level Rise
In accordance with ER 1100-2-8162 dated 31 December 2013, potential relative sea
level change must be considered in every USACE coastal activity as far inland as the
extent of estimated tidal influence. The Eagle Island CDF in the Cape Fear River is at
sea level and water levels are subject to diurnal tidal fluctuations.
In an effort to conform to Engineering Technical Letter 1100-2-1, an analysis of the
project impacts relative to increased sea levels over the remaining project life of the
Eagle Island Improvements Dike Raise (2017-2100) was conducted. The analysis
42 1 Page
included development of relative sea level rise projection curves, identification of
potential impact areas and associated risks, and establishing adaptive measures to
adjust to future sea level rise. The recommended plan for this project only includes
localized changes to the dike elevation and toe berm with limited exposure to sea level
rise. Accordingly, a detailed evaluation of the potential effects, both positive and
negative, of sea level rise, on both the federal and non-federal project features (port
infrastructure, transportation, etc.) of the overall project is considered inappropriate.
Instead, only an abbreviated Tier 1 analysis was performed to help inform the study
approval. The recommended plan will not meaningfully alter existing coastal processes.
So, the evaluation was limited to effects on project maintenance.
Using the methods published in ETL 1100-2-1, the relative sea level rise curves were
developed for "low," "intermediate," and "high" rates of future sea -level change. The
"low" sea level change curve is simply an extrapolation of the observed sea -level trend
obtained at the Wilmington tide gauge station. The "intermediate" curve represents sea
level rise using the National Research Council (NRC) Curve I and the "high" curve
represents NRC Curve III.
The Wilmington tide gauge used in this analysis is a long term gauge with data
collection from 1935 through 2015. This long term gauge has collected greater than 80
years of data and is the closest gauge to the project location, as seen in Figure 7. As
shown in Figure 8, the gauge is located within close proximity of the project area and
should provide an ideal representation of historic sea level rise affecting the project.
Figure 9 shows the sea level rise curves developed in response to ETL 1100-2-1 using
the sea level change curve calculator (v 2015.46) developed by the USACE. The
curves cover a 100 year duration of the proposed improvements which are planned for
implementation in 2017. The curves shown in Figure 9 include the global eustatic sea
level rise plus increases due to isostatic changes. The trend established at the
Wilmington gauge shows sea level change on average is 0.00699 feet/year. Projecting
the observed sea level rise rate over the next 20, 50, and 100 years of the project life
shows an increase of 0.14, 0.35, and 0.70 feet, respectively when looking at the historic
curve extrapolation. The corresponding time period increases found using the NRC
Curve III projection are 0.66, 2.20, and 6.26.
In examining the applications and potential risks of sea level rise as it applies to the dike
improvements, the modifications proposed in this project are found to have limited
exposure to the effects of sea level rise and no associated risks. The project consists of
increasing dike elevation in two foot increments to a maximum height of 50 feet by year
2032. The areas of the project exposed to the effects of sea level rise are limited to
increased water levels outside of the diked disposal area along the toe berm of the dike.
431 Page
An increase in sea level would have limited negative impact over the life of the project.
The purpose of the dike raise is to increase upland disposal area for the dredging of the
upper Wilmington Harbor navigation channel. Increased sea level rise will not impact
the available disposal volume within the diked area. Water level increases would not
impact dredging quantities placed within the upland disposal area due to the fact that
the same depths as related to mean low water would be maintained. Even though
water level heights would increase over the life of the project, dredging depths would
remain constant below the new mean low water surface elevations. Sea level rise could
potentially impact the toe berm construction of the dike which is used to stabilize the
interior dike elevation increases. In the event of extreme water level increases, the toe
berm could be relatively easily modified by adding additional material on the top portion
of the proposed toe berm without any additional environmental clearances.
Figure 8. Wilmington Tidal Gauge Historic Sea Level Trend
441 Page
8658120 Wilmington, North Carolina
0.60
— Linear Mean Sea Level Trend Q
—Upper95%Confidence Interval
— Lower 95% Confidence Interval
:3.45
_Monthly mean sea level with the
0
average seasonal cycle removed
0.15
It
— — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — —
L
v 0.00�-,1�
i
-0.30
— — — — — — — — — — — — — — — — — — — — — — — — — — — — — — —
-0.45
— — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — — —
-0.60
1900 1910 1920 1910 1940 191.0 1960 1970 1980 1990 2000 2010 2020
Figure 8. Wilmington Tidal Gauge Historic Sea Level Trend
441 Page
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Figure 10. Relative Sea Level Rise Curves
451 Page
— USACE Low
— USACE Int
— USACE High
7.4 Coordination of this Document
The proposed action and the environmental impacts of the proposed action are
addressed in this EA. The EA will be made available to an extensive list of local, State
and federal regulatory agencies and the public for a 30 -day review and comment period.
A list of recipients has been included as Appendix B of this document. The EA will also
be placed on the Wilmington District Website at:
http://www.saw.usace.army.miI/Missions/Navigation/Dredging/Wilmington-
Harbor/Eagle-Island/.
8.0 POINT OF CONTACT
Any comments or questions regarding this EA should be directed to:
Ms. Emily Hughes, CESAW-PE, U.S. Army Engineer District, Wilmington, 69 Darlington
Avenue, Wilmington, North Carolina 28403-1343. Telephone (910) 251-4635, email
Emily.b.hughes(a�usace.army.mil
9.0 REFERENCES
Birkhead, W.A., B.J. Copeland, and R.G. Hodson. 1979. Ecological Monitoring in
the Lower Cape Fear Estuary, 1971-1976. Report 79-1 to the Carolina Power and
Light Company, Raleigh, N.C.
Golder, Walker and Curtis Smalling. 2011. Important Bird Areas of North Carolina.
Audubon North Carolina.
Kocik, John, Christine Lipsky, Tim Miller, Paul Rago and Gary Shepherd, An Atlantic
Sturgeon Population Index for ESA Management Analysis, National Oceanic and
Atmospheric Administration, Northeast Fisheries Science Center, April 2013.
Lawler, Matusky & Skelly Engineers. 1975. Aquatic Ecology Studies, Cape Fear
River Estuary, North Carolina, September 1972 to August 1973. Appendix A of
Environmental Impact Assessment of Alternatives for the Maintenance of
Wilmington Harbor North Carolina. Report for the U.S Army Corps of Engineers,
Wilmington District.
Memorieshop. (2013). Wilmington Reserve Fleet, Wilmington, NC. Retrieved 26 July,
2016, from http://navy.memorieshop.com/Reserve-Fleets/Wilmington/index.html
Reilly, F.J. Jr., and V.J. Bellis. 1978. A study of the ecological impact of beach
nourishment with dredged materials on the intertidal zone. Institute for Coastal and
Marine Resources, Technical Report No. 4, 107 pp.
Woodward -Clyde Consultants. 1980. Aquatic and Terrestrial Ecology. Prepared
for Brunswick Energy Company.
461 Page
McAdory, Robert T. August 2000. Cape Fear -Northeast Cape Fear River, North
Carolina, Numerical Model Study.US Army Corps of Engineer Research and
Development Center.
NMFS. September 2014 and April 2016. National Marine Fisheries Service,
(http-//sero.nmfs.noaa.gov/protected —
resources/section_7/threatened_endangered/Doc
u ments/north_carolina_03052014. pdf)
North Carolina Division of Marine Fisheries. 2014 and April 2016. Shellfish Sanitation
Maps - Southern Area. http-//portal.ncdenr.org/web/mf/maps-south-shellfish.
USFWS. September 2014 and March 2016. U.S. Fish and Wildlife Service,
(http-//www.fws.gov/raleigh/species/cntylist/new_hanover.htm1).
471 Page
APPENDIX A
EVALUATION OF SECTION 404(b)(1)
(PUBLIC LAW 95-217) GUIDELINES 40 CFR 230
An evaluation of the placement of dredge and/or fill material into waters of the United
States includes the standard form.
481 Page
EAGLE ISLAND DIKE RAISE TO 50FT
BRUNSWICK AND NEW HANOVER COUNTIES, NORTH
CAROLINA
Preliminary Evaluation of Section 404 (b) (1) Guidelines 40 CFR 230
This evaluation covers the placement of all fill material into waters and wetlands of the United
States required for the improvements to Cells 1 — 3 at Eagle Island Confined Disposal Facility
(CDF), Brunswick and New Hanover Counties, North Carolina. The proposed project includes
incremental dike raises to elevation 50 feet and requires the construction of a supportive toe
berm. The toe berm will require placement of material into approximately 39 acres of intertidal
marsh. Please note, prior to any construction, the required Section 401 Water Quality
Certificates from the NC Division of Water Resources will be obtained for the project and all 401
conditions/restrictions will be met.
Review of Compliance (230.10(a) -(d)) Preliminary 11 Final 21
A review of the NEPA Document
indicates that:
The discharge represents the least
environmentally damaging practicable
alternative and if in a special aquatic
site, the activity associated with the
discharge must have direct access or
proximity to, or be located in the aquatic
ecosystem to fulfill its basic purpose
(if no, see section 2 and NEPA document); YES ® NO❑ YES ❑ NO❑
The activity does not:
1) violate applicable State water quality
standards or effluent standards prohibited
under Section 307 of the CWA; 2) jeopardize
the existence of federally listed endangered
or threatened species or their habitat; and
3) violate requirements of any federally
designated marine sanctuary (if no, see section
2b and check responses from resource and
water quality certifying agencies); YES® NO❑* YES❑ NO❑
C. The activity will not cause or contribute
to significant degradation of waters of the
U.S. including adverse effects on human
health, life stages of organisms dependent
on the aquatic ecosystem, ecosystem diversity,
productivity and stability, and recreational,
aesthetic, and economic values (if no,
see section 2); YES® NO❑ YES❑ NO❑
d Appropriate and practicable steps have
been taken to minimize potential adverse
impacts of the discharge on the aquatic
ecosystem (if no, see section 5). YES® NO❑* YES❑ NO❑
Proceed to Section 2
*, 1, 2
481 Page
2. Technical Evaluation Factors (Subparts C -F)
a. Physical and Chemical Characteristics
of the Aquatic Ecosystem (Subpart C)
(1) Substrate impacts.
(2) Suspended particulates/turbidity impacts
(3) Water column impacts.
(4) Alteration of current patterns
and water circulation.
(5) Alteration of normal water
fluctuations/hyd roperiod.
(6) Alteration of salinity gradients.
b. Biological Characteristics of the
Aquatic Ecosystem (Subpart D)
(1) Effect on threatened/endangered
species and their habitat.
(2) Effect on the aquatic food web.
(3) Effect on other wildlife (mammals
birds, reptiles, and amphibians).
c Special Aquatic Sites (Subpart E)
(1) Sanctuaries and refuges.
(2) Wetlands.
(3) Mud flats.
(4) Vegetated shallows.
(5) Coral reefs.
(6) Riffle and pool complexes.
d. Human Use Characteristics (Subpart F)
(1) Effects on municipal and private water supplies.
(2) Recreational and commercial fisheries impacts
(3) Effects on water -related recreation.
(4) Aesthetic impacts.
(5) Effects on parks, national and historical monuments,
national seashores, wilderness areas,
research sites, and similar preserves.
Remarks: Where a check is placed under the
Significant category, preparer add explanation below.
Proceed to Section 3
491 Page
N/A Not Significant Significant
X
X
X
NA
X
X
NA
X
NA
NA
X
NA
X
NA
X
X
X
X
NA
X
NA
NA
NA
NA
NA
NA
X
X
X
3. Evaluation of Dredged or Fill Material (Subpart G) 3/
a. The following information has been
considered in evaluating the biological
availability of possible contaminants in
dredged or fill material. (Check only
those appropriate.)
(1) Physical characteristics
(2)Hydrography in relation to
known or anticipated
sources of contaminants
(3)Results from previous
testing of the material
or similar material in
the vicinity of the project
(4) Known, significant sources of
persistent pesticides from
land runoff or percolation
(5)Spill records for petroleum
products or designated
(Section 311 of CWA)
hazardous substances
(6)Other public records of
significant introduction of
contaminants from industries,
municipalities, or other sources
(7) Known existence of substantial
material deposits of
substances which could be
released in harmful quantities
to the aquatic environment by
man -induced discharge activities
(8) Other sources (specify). ❑
List appropriate references.
Reference: See Eagle Island Dike Raise to 50ft DRAFT EA
b. An evaluation of the appropriate information in 3a
above indicates that there is reason to believe the
proposed dredge or fill material is not a carrier of
contaminants, or that levels of contaminants are sub-
stantively similar at extraction and disposal sites and
not likely to result in degradation of the disposal site. YES ® NO❑*
Proceed to Section 4
*, 3
501 Page
4. Disposal Site Determinations (230.11(f)).
a. The following factors as appropriate,
have been considered in evaluating the
disposal site.
(1) Depth of water at disposal site.
(2)Current velocity, direction, and
variability at disposal site
(3) Degree of turbulence.
(4) Water column stratification
(5)Discharge vessel speed and direction
(6) Rate of discharge
(7) Dredged material characteristics
(constituents, amount and type
of material, settling velocities).
(8) Number of discharges per unit of
time.
(9)Other factors affecting rates and
patterns of mixing (specify)
List appropriate references.
Reference: See Eagle Island Dike Raise to 50ft DRAFT EA
b. An evaluation of the appropriate factors in
4a above indicates that the disposal site
and/or size of mixing zone are acceptable. YES ® NO ❑*
5. Actions to Minimize Adverse Effects (Subpart H).
All appropriate and practicable steps have been taken,
through application of recommendations of 230.70-230.77,
to ensure minimal adverse effects of the proposed
discharge.
YES ® NO ❑*
Reference: See Eagle Island Dike Raise to 50ft DRAFT EA
Return to section 1 for final stage of compliance review.
See also note 3/. Daae 3.
Proceed to Section 6
511 Page
6. Factual Determinations (230.11).
A review of appropriate information as identified in
items 2-5 above indicates that there is minimal
potential for short- or long-term environmental
effects of the proposed discharge as related to:
a. Physical substrate at the disposal site
(review sections 2a, 3, 4, and 5).
YES ®
NO ❑*
b. Water circulation, fluctuation, and salinity
(review sections 2a, 3, 4, and 5).
YES ®
NO ❑*
c. Suspended particulates/turbidity
(review sections 2a, 3, 4, and 5).
YES ®
NO ❑*
d Contaminant availability
(review sections 2a, 3, and 4).
YES ®
NO ❑*
e. Aquatic ecosystem structure and function
(review sections 2b and c, 3, and 5).
YES ®
NO ❑*
f. Disposal site
(review sections 2, 4, and 5).
YES ®
NO ❑*
g. Cumulative impact on the aquatic
ecosystem.
YES ®
NO ❑*
h. Secondary impacts on the aquatic
ecosystem.
YES ®
NO ❑*
7. Findinqs.
a.The proposed disposal site for discharge of
dredged or fill material complies with the
Section 404(b)(1) guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . .®
b.The proposed disposal site for discharge of
dredged or fill material complies with the
Section 404(b)(1) guidelines with the
inclusion of the following conditions: . . . . . . . . . . . . . . . . . . . . . . . El
c.The proposed disposal site for discharge of
dredged or fill material does not comply with
the Section 404(b)(1) guidelines for the
following reasons(s):
(1)There is a less damaging practicable alternative . . . . . . . . . . . . . . ❑
(2)The proposed discharge will result in significant
degradation of the aquatic ecosystem . . . . . . . . . . . . . . . . . . ❑
521 Page
I-]
(3) The proposed discharge does not include all
practicable and appropriate measures to minimize
potential harm to the aquatic ecosystem . . . . . . . . . . . . . . . . . . . ❑
Kevin P. Landers Sr.
Colonel, U.S. Army
District Engineer
Date:
*A negative, significant, or unknown response indicates that the permit application may not be in compliance with the
Section 404(b)(1) Guidelines.
1/ Negative responses to three or more of the compliance criteria at this stage indicate that the proposed projects
may not be evaluated using this "short form procedure." Care should be used in assessing pertinent portions of the
technical information of items 2 a -d, before completing the final review of compliance.
2/ Negative response to one of the compliance criteria at this stage indicates that the proposed project does not
comply with the guidelines. If the economics of navigation and anchorage of Section 404(b)(2) are to be evaluated in
the decision-making process, the "short form evaluation process is inappropriate."
3/ If the dredged or fill material cannot be excluded from individual testing, the "short -form" evaluation process is
inappropriate.
531 Page
APPENDIX B
LIST OF DRAFT EA RECIPIENTS
541 Page
Renee Gledhill -Earley
NCDCR
4617 Mail Service Center
Raleigh, NC 27699-4617
David Cox
NCWRC
1718 NC Hwy. 56 West
Creedmoor, NC 27522
Fritz Rohde
NMFS
101 Pivers Island Road
Beaufort, NC 28516
Pete Benjamin
USFWS
P.O. Box 33726
Raleigh, NC 27636-3726
Paul Cozza
NC State Ports Authority
PO Box 9002
Wilmington, NC 28402
Debbie Wilson
NC Division of Coastal Management
127 Cardinal Drive Ext.
Wilmington, NC 28405
551 Page
Karen Higgins
NCDEQ-DWR
401 & Buffer Permitting
1650 Mail Service Center
Raleigh, NC 27699-1617
Ken Riley
NMFS
101 Pivers Island Road
Beaufort, NC 28516
Kathy Matthews
USFWS
P.O. Box 33726
Raleigh, NC 27636-3726
Curtis Weaver
USGS- NC Office
3916 Sunset Ridge Road
Raleigh, NC 27607
Doug Huggett
Division of Coastal Management
400 Commerce Ave.
Morehead City, NC 28557
Debra Collins
NC Department of Transportation
1550 Mail Service Center
Raleigh, NC 27699
Chris O'Keefe
New Hanover County
230 Government Center Drive, Suite 100
Wilmington, NC 28403
David Hollis
Town of Leland
102 Town Hall Drive
Leland, NC 28451
Kemp Burdette
Cape Fear River Watch
617 Surry Street
Wilmington, NC 28401
Lyn Hardison
SEPA Review Coordinator
NC Dept of Env Qulaity
1601 Mail Service Center
Raleigh NC 27699-1601
Crystal Best
State Clearinghouse, NC Dept. of Admin.
1301 Mail Service Center
Raleigh, NC 27699-1301
Dan Holliman
USEPA Region 4
61 Forsyth St. SE
Atlanta, GA 30303-8960
561 Page
Sterling Cheatham
City of Wilmington
PO Box 1810
Wilmington, NC 28402
Lee Taylor
Town of Belville
497 Olde Waterford Way, Suite 205
Belville, NC 28451
Scott Aldridge
Cape Fear Pilots Association
111 W. Bay Street, PO Box 10070
Southport, NC 28461
Roy Crabtree
NOAA Fisheries, Southeast Regional Office
263 13th Avenue South
St. Petersburg, FL 33701
Daniel Govoni
Division of Coastal Management
400 Commerce Ave.
Morehead City, NC 28557
Walker Golder
National Audubon Society
7741 Market St., Unit D
Wilmington, NC 28411
Arthur Wendel
Center for Disease Control and Prevention
4770 Buford Hwy
Atlanta, GA 30341
US Coast Guard Marine Safety Office
721 Medical Center Dr., Ste 100
Wilmington, NC 28401
USDA Natural Resources Conservation Service
4407 Bland Rd., Ste 117
Raleigh, NC 27609
NC Collection- Joyner Library
East Carolina University
East 5th Street
Greenville, NC 27858-4353
Todd Miller
NC Coastal Federation
3609 NC 24.
Newport, NC 28570
571 Page
Gregory Richardson
NC Commission of Indian Affairs
1317 Mail Service Center
Raleigh, NC 27699-1317
Curtis Davis
US Dept. of Housing and Urban Developmer
1500 Pinecroft Rd, Ste. 401
Greensboro, NC 27407
Orrin Pilkey
Duke University
103 Old Chem, Box 90227
Durham, NC 27708-0228
Joyce Stanley
DOI
Env. Policy and Compliance
75 Spring St. SW, Ste 1144
Atlanta, GA 30303