[1997 Code § 224-154]
The standards of the City of Absecon City as established within the various zoning districts of the City (Articles IV to XVII) and as listed in this Article are to be considered minimum. Prior to the granting of final approvals for subdivision or site plan, the developer shall have installed improvements required by the Planning Board or have posted a performance guaranty sufficient to cover the costs of said improvements. Improvements may include those recommended by State and County agencies which have participated in the review. Construction standards and required improvements are intended to protect the general health, safety and welfare. In certain instances, all of the improvements listed in this Article may not be appropriate, in which case the Planning Board may issue a waiver. Standards established within this chapter and those hereafter adopted by the City shall govern design, construction and installation of improvements within the City of Absecon City. Failure by a subdivider, developer, constructor or agent to conform to these specifications shall be just cause for suspension of work without right to claim damages from the City, its officers or agents for such stoppage.
[1997 Code § 224-155]
In the event that the City has not adopted standards for a specific
type of improvement, generally accepted engineering standards as set
forth in accepted engineering and construction manuals and modified
as necessary by the City Engineer shall be used.
[1997 Code § 224-156]
A.
Prior to construction, all stakes and grades shall be set by a licensed
land surveyor and a set of the notes resulting shall be filed with
the City Engineer. Before work commences, the City Engineer shall
be notified, and under no circumstances shall underground work be
covered until inspected by the appropriate official.
B.
If, during construction, the subdivider/developer fails to meet specified
requirements or to correct unacceptable work, he shall be notified
of such failure by certified mail, return receipt requested, with
instructions for correcting the situation. If corrections have not
been made within 10 days, the City shall serve the subdivider/developer
with notice of failure to comply, with a copy to the Planning Board,
and work may be suspended.
[1997 Code § 224-157]
A.
Prior to and during construction, no topsoil shall be removed from
the site or utilized as fill without approval of the Construction
Official or City Engineer. Soil displaced by construction shall be
redistributed so as to provide a six-inch base throughout the development,
which shall be stabilized by seeding and planting.
B.
Developed areas shall be cleared of all stumps, litter, rubbish,
brush, dead and dying trees, roots, debris and scrap building materials
prior to receipt of a certificate of occupancy. None of these materials
shall be buried within the City of Absecon City.
C.
All fill shall be clean and free of decaying materials.
D.
No changes shall be made in elevations or contours on the site other
than those shown and approved on the preliminary plat.
E.
During construction, the site shall be left daily in sanitary and
safe condition. The Construction Official may require installation
or construction of temporary improvements on the site to prevent personal
injury, property damage, health hazards, erosion and flooding. Such
improvements may include grading, retaining walls, pipes, culverts
and other site-specific improvements to limit negative impacts.
F.
Where existing materials and soil conditions are not satisfactory
for utility and street construction, the unsatisfactory material shall
be excavated and replaced with approved fill.
[1997 Code § 224-158]
A.
Roadways. The subdivider/developer shall observe the following requirements
and standards:
(1)
The Planning Board will take into consideration the officially
adopted Master Plan or an Official Map in review and approval of subdivision
plats.
(2)
Local streets shall be so designed as to discourage through
traffic.
(3)
Subdivisions abutting arterial roads shall provide a marginal
service road with an approved buffer strip as a means of separation
of through and local traffic.
(5)
The right-of-way width for internal roads and alleys in multifamily
and commercial developments shall be determined on an individual basis.
(6)
No residential service street may be connected directly to any
artery other than a collector street.
(7)
Streets having a right-of-way of 50 feet shall not be less than
30 feet wide between curblines, and streets having a right-of-way
of 60 feet shall not be less than 40 feet wide between curblines.
(8)
Subdivisions that adjoin or include existing streets that do
not conform to widths as shown on the Master Plan or Official Map
or the street width requirements contained in this section shall dedicate
additional width along either one or both sides of said road. If the
subdivision is along one side only, 1/2 of the required extra width
shall be dedicated. This requirement shall apply to minor subdivisions,
unless waived by the Board.
(9)
No street shall have a minimum grade of less than 75%. All streets
shall have a crown of not less than six inches.
(10)
Streets shall be as nearly at right angles as is possible, and
in no case shall such streets be at an angle of less than 75°.
The block corners at intersections shall be rounded at the curbline
with a curve having a radius of not less than 15 feet.
(11)
Street jogs with center-line offsets of less than 100 feet shall
be prohibited.
(12)
A tangent at least 100 feet long shall be introduced between
reverse curves on arterial and collector streets.
(13)
When connecting street lines deflect from each other at any
one point by more than 10° but not more than 45°, they shall
be connected by a curve with a radius of not less than 100 feet for
minor streets and 300 feet for arterial and collector streets.
(14)
Dead-end streets (cul-de-sacs) shall not be longer than 600
feet. They shall be provided with an unobstructed turning radius of
at least 50 feet, the end of which shall be tangent, whenever possible,
to the right side of the street. If a dead-end street is of a temporary
nature, a similar turnaround shall be provided and provisions made
for future extension of the street and reversion of the excess right-of-way
to the adjoining properties.
B.
Surface drainage. Where drainage water from the streets shown on
the plat discharges on the property of either the owner or others,
proper easements shall be obtained by the applicant and shall be furnished
to the City covering the rights to discharge such drainage water.
C.
Blocks.
(1)
Block lengths and widths or acreage within bounding roads shall
be such as to accommodate the size of the lot required in the area
by the Zoning Ordinance and to provide for convenient access, circulation
control and safety of street traffic.
(2)
In blocks over 700 feet long, pedestrian crosswalks shall be
required in locations deemed necessary by the Planning Board. Such
walkway shall be 10 feet wide.
D.
Street surfacing and curbs and gutters. Road construction shall conform
to New Jersey Department of Transportation standard specifications.
(1)
Subgrade. Where fill is required, the underlying ground surface
shall be stripped of all brush and trees before filling is commenced.
The material used for fill shall be suitable therefor and shall be
free from any matter that may decay. The fill shall be formed in successive
layers and each layer compacted by operating the construction equipment
over it until it is firm and unyielding before the next layer is placed.
Before construction of the gravel base is commenced, the subgrade
shall be neatly dressed to the proper lines, grades and cross sections.
(2)
Pavement foundation.
(a)
The pavement foundation shall consist of six inches of compacted
gravel and four inches of bituminous stabilized base. The gravel base
course may require a prime coat of asphaltic oil, if so directed by
the City Engineer. Base course may be recycled asphalt or concrete.
(b)
The gravel base course shall consist of six inches of compacted
road gravel, Type 2, Class A or B, conforming to the requirements
of the New Jersey State Highway Department standard specifications.
The finished subbase shall be thoroughly compacted and bound together,
hard, smooth and even, free from defects and at the proper grade and
contour.
(c)
The bituminous stabilized base course shall comply with the
requirements of Section 3.2A (Mix No. 1) of the New Jersey State Highway
Department standard specifications, latest edition.
(3)
Bituminous concrete pavement. Streets shall be permanently paved
with two-inch-thick bituminous concrete pavement, Type FABC-1. The
pavement shall be constructed in accordance with the requirements
of the New Jersey State Highway Department standard specifications,
latest edition, for both materials and methods of construction.
(4)
Concrete curbs, gutters and sidewalks.
(a)
Materials for concrete shall conform to the requirements of
the New Jersey State Highway Department standard specifications. Concrete
shall be Class B. Metal forms shall be used for the construction of
concrete curbs and gutters. Curbs are to be six inches wide and 18
inches deep and are to be constructed true to the required lines,
grades and curvatures. Gutters are to be six inches thick and 24 inches
wide. Sidewalks are to be four inches thick and five feet wide.
(b)
At all intersections the sidewalk on each roadway corner shall
be designed to meet New Jersey barrier-free standards.
E.
Sanitary sewage.
(1)
Provisions shall be made to convey sanitary waste from each
lot through laterals and interceptors of sufficient size, material
and capacity to collectors and then to trunk sewers to public treatment
facilities. Such provisions shall be shown on a set of plans accompanying
the preliminary plat. The following information shall accompany the
detailed provisions:
(a)
An estimate from the subdivider/developer of the daily flow
from the proposed development based upon an average daily flow of
100 gallons per person per day for residential use and comparable
data for commercial uses.
(b)
An estimate of total per capital water use for the proposed
development based upon an average usage of 100 gallons per person
per day for residential use and comparable use data for commercial
uses.
(c)
Minimum grades for sewers for each size used and all sizes,
slopes and inverts elevations.
(2)
Sanitary sewer designs shall receive all required County and
State permits and approvals prior to construction.
(3)
Sewers will be designed to carry twice the estimated average
design flow when flowing half full and shall be designed for a twenty-five-year
period. Sewers shall be constructed of PVC pipe sloped to permit a
minimum mean velocity of not less than two feet per second when half
or more full, based upon the Manning or Kutters Formula. Minimum diameter
of sewer pipe shall be eight inches. It shall be laid in straight
alignment unless the Planning Board specifically waives this requirement
to better fit design.
(4)
In areas where groundwater elevation or soil conditions make
subbase instability likely, the sewer shall be designed for these
conditions.
(5)
Sewer lines and waterlines shall be separated 10 feet horizontally
and 18 inches vertically or as approved by regulatory agencies.
(6)
Manholes shall be located at the end of each sewer line, at
maximum distances of 400 feet and in intersections, and all changes
in slope, pipe size and direction shall be confined to manholes.
F.
Water supply.
(1)
Provisions shall be made and shown on a set of plans accompanying
the preliminary plat for adequate water supply to each lot. In addition
to locations and diameters of pipes, hydrants, blowoffs and valves,
the plan submitted shall include:
(a)
Capacity and size of mains. Design capacity of mains shall be
such as to provide a minimum pressure of 20 pounds per square inch
at peak demand plus fire flow. All pipes used in water mains shall
be ductile iron with a minimum diameter of six inches.
(b)
General design requirements. Wherever possible, distribution
mains shall be laid in the loop system to eliminate dead ends. Dead
ends, if unavoidable, shall have a fire hydrant, flushing hydrant
or blowoff for flushing purposes.
(c)
All distribution mains shall be provided with sufficient earth
or other suitable cover to prevent freezing. All water distribution
mains shall have a minimum of three feet of cover.
(d)
Adequate disinfection of all new distribution mains prior to
use shall be required.
(e)
Water mains and sewers shall be separated by a horizontal distance
of 10 feet. If such lateral separation is not possible, water and
sewer lines shall be in separate trenches, with the sewer at least
18 inches below the water main or with other such separation as approved
by the regulatory or permitting agencies.
(2)
At crossings of sewers and water mains, the sewer shall, in
general, be at least 18 inches below the bottom of the water main.
Where this is not possible, the sewer shall be constructed of cast-iron
pipe for a distance of at least 10 feet on either side of the crossing
or other suitable protection as approved by regulatory or permitting
agencies.
G.
Stormwater. Provisions shall be made and shown on a set of plans
accompanying the preliminary plat for collection and conveyance of
stormwater on and, as required, off site and for proper connection
with an approved system.
(1)
Collection system basis shall be in accordance with the rational
method of design, using the formula
Q=AIR,
| ||
Where:
| ||
"Q" is the required capacity in cubic feet per second for the
collection system at the point of design.
| ||
"A" is the tributary drainage area in acres and shall include
areas tributary from outside sources as well as from within the subdivision
itself.
| ||
"I" is the rainfall intensity in inches per hour and shall be
determined from Rainfall Intensity Duration Curves for New Jersey,
as prepared by the New Jersey Department of Transportation.
| ||
"R" is the coefficient of runoff applicable to the area based
upon soil conditions, average slope of the area and degree of ultimate
area development. In no case shall "R" equal less than .30.
|
Land Use Type
|
Runoff Coefficients
| |||
---|---|---|---|---|
Business
| ||||
Downtown area
|
0.70 to 0.95
| |||
Neighborhood area
|
0.50 to 0.70
| |||
Design commercial centers
|
0.35 to 0.50
| |||
Residential
| ||||
Single-family areas
|
0.30 to 0.50
| |||
Multifamily areas
|
0.60 to 0.75
| |||
Residential (suburban)
|
0.25 to 0.40
| |||
Planned industrial
|
0.50 to 0.80
| |||
Parks and cemeteries
|
0.10 to 0.25
| |||
Playgrounds
|
0.20 to 0.35
| |||
Unimproved areas
|
0.10 to 0.30
| |||
Surface type streets
| ||||
Asphalt
|
0.90 to 0.95
| |||
Concrete
|
0.90 to 0.95
| |||
Drives and walks
|
0.75 to 0.85
| |||
Roofs
| ||||
Lawns, sandy soil
| ||||
Flat, grade of 2%
|
0.05 to 0.10
| |||
Average, grade of 2% to 7%
|
0.10 to 0.15
| |||
Lawns, heavy soil
| ||||
Flat, grade of 2%
|
0.18 to 0.22
| |||
Average, grade of 2% to 7%
|
0.18 to 0.22
|
Using the above runoff coefficients, composite coefficients
shall be calculated for use in the form sewer design.
|
(2)
Flow design criteria shall be based upon a design storm that
will be equaled or exceeded on a frequency of once every 15 years.
System design will be based upon Manning Formula. "N" valves (coefficient
of friction) used shall be approved by the reviewing engineer. The
minimum velocity at flowing full condition shall be three feet per
second.
(3)
The system of collection shall include:
(a)
Curbs six inches wide and 18 inches deep constructed of Class
B concrete and true required lines, grades and curvatures.
(b)
Catch basins and manholes constructed in accordance with New
Jersey Standard Specifications for Road and Bridge Construction, latest
revision. Access manholes shall be required at three-hundred-foot
intervals. Sufficient catch basins will be installed at each intersection
to avoid gutter overflow and at low points in street grades. Bicycle-safe
grates shall be used in all catch basins.
(c)
Reinforced concrete pipe shall be utilized which shall be minimally
15 inches in diameter laid in straight alignment. All transitions
in slope, change of direction or pipe size shall be confined to manholes
or catch basins. Such pipes shall conform to AASHOM 170 for specified
diameter and strength class. Installation shall be inspected by the
appropriate City official and shall be in accordance with accepted
engineering practice.
(d)
Catch basins shall be spaced so that the runoff water in gutters
does not create flooding in streets for a fifteen-year-storm-frequency
design. Calculations shall be submitted verifying both the depth of
water in gutters and that proposed catch basins are of sufficient
capacity to remove design stormwater runoff.
(e)
In certain limited traffic areas, concrete valley gutters shall
be permitted at "T" intersections.
(f)
In no case shall provisions for storm drainage overload an existing facility, and in those instances where increased flow may create increased potential for erosion or flooding, the subdivider/developer may be required to improve the off-tract facility in accordance with Article XXIV, Section 224-179.
(g)
Where a subdivision is transversed by a watercourse, surface
water or groundwater drainage or drainage system, channel or stream
or a dedicated drainage right-of-way easement at least 10 feet in
width shall be granted to the City of Absecon City.
(h)
Construction of all drainage facilities shall conform to the
specifications contained herein. In the event that detailed specifications
are not included, standard specifications of the New Jersey Department
of Transportation, latest revision, shall govern.
H.
Stormwater management system.
(1)
Provision shall be made to control stormwater runoff, using
the following general guidelines:
(a)
Channeling runoff directly to water bodies should be discontinued.
Instead, runoff should be routed through swales and other drainage
systems designed to increase the time of concentration, decrease velocity,
increase infiltration and allow suspended material to settle.
(b)
Natural watercourses should not be dredged, cleared of vegetation,
deepened, widened, straightened, stabilized or otherwise altered without
a stream encroachment permit from the New Jersey Department of Environmental
Protection, Division of Water Resources, Bureau of Floodplain Management.
Water should be retained or detained before it enters any natural
watercourse in order to preserve the natural hydrodynamics of the
watercourse and to prevent siltation or other forms of pollution.
(c)
Retention and detention facilities shall be used to retain and
detain the increased accelerated runoff which the development generates.
Water should be released from detention facilities into a watercourse
or wetlands at a rate and in a manner approximating the natural flow
which occurred before development. Care must be taken, since the design
of detention/retention facilities without an associated analysis of
downstream impact can create increased stormwater runoff problems
even when a stormwater management system is in place.
(d)
The sides of detention and/or retention basins shall slope at
a gentle grade into the basin bottom as a safeguard against drowning
and personal injury and to ensure the structural integrity of the
facility.
(e)
The bottom of all proposed retention structures shall be at
least two feet above the seasonal high water table found in the soil
logs. In the event of impervious strata, provision shall be made for
percolation through this strata.
(f)
Runoff from parking areas should incorporate measures (i.e.,
grit and oil chamber or sediment traps) to prevent oil and sediment
from entering receiving waters and/or clogging the interstices, preventing
infiltration in subsurface recharge and/or retention facilities.
(g)
Artificial watercourses, such as swales, should be designed
considering soil type, so that the velocity of flow is low enough
to prevent erosion.
(h)
Intermittent watercourses, such as swales, should be vegetated.
(i)
The area of land disturbed by development should be as small
as practicable (footprint: only removing the vegetation necessary
to build the structure). Those areas which are not to be disturbed
should be protected by an adequate barrier from construction activity
using acceptable soil erosion and sedimentation control techniques.
Whenever possible, natural vegetation should be retained and protected.
(j)
Although the use of wetlands for storing and purifying water
is sometimes encouraged, care must be taken not to overload their
capacity, thereby harming wetlands and transitional vegetation. Wetlands
should be not damaged by the construction of detention ponds.
(k)
Wetlands and other water bodies should not be used as sediment
traps during development.
(l)
Vegetated buffer strips should be created or, where practicable,
retained in their natural state along the banks of all watercourses,
water bodies or wetlands. The width of the buffer should be sufficient
to prevent erosion, trap the sediment carried with overland runoff,
provide access to the water body and allow for periodic flooding without
damage to structures.
(m)
The use of drainage facilities and vegetated buffer zones as
open space, recreation and conservation areas should be encouraged.
(n)
Erosion and sedimentation facilities should receive regular
maintenance during construction to ensure that they continue to function
properly.
(o)
No grading, cutting or filling should be commenced until the
plan is approved by the Municipal and County Planning Boards and the
Soil Conservation District.
(p)
Land which has been cleared for development and upon which construction
has not commenced should be protected from erosion by appropriate
techniques designed to revegetate the area.
(q)
Adherence to the development time schedule contained in the
erosion and sediment control plan should be followed.
(r)
Sediment should be retained on the development site.
(s)
Volumes and rate of runoff are to remain at predevelopment levels
for the two-, ten- and fifty-year storm.
(t)
The developer shall formulate a maintenance plan for retention
and detention facilities. This plan shall include maintenance schedules,
type of maintenance required and a periodic inspection program. In
the case of homeowner or condominium associations or commercial development,
the plan shall include provisions for inspection at specified intervals
by the City Engineer. The cost of such inspections shall be borne
by the applicant or developer.
(2)
Stormwater management plan, details and design criteria:
(a)
The proposed finished grade elevations at the corners of any
structure or structures.
(b)
Existing topography and proposed grading at contour intervals
of two feet or less.
(c)
The lowest elevation within any proposed structure after its
completion.
(d)
The location, type and size of all existing and proposed storm
drainage facilities and other utilities servicing the premises in
question.
(e)
The location, size and nature of all existing and proposed drainage
rights-of-way or easements and the location, size and description
of any land to be dedicated to the City.
(f)
The layout and size of any existing and proposed public streets.
(g)
The location, type and size of all existing and proposed erosion
and siltation control measures, such as slope protection, soil stabilization,
sedimentation basins, sediment traps, headwalls and water retention
facilities.
(h)
All the pertinent rainfall data, stream flow data, gaugings,
etc., on which calculations were based.
(i)
Complete calculations and hydraulic profiles for normal, average
and storm of record.
(j)
In addition, the developer shall furnish information relating
to subsurface conditions, based on percolation tests and soil borings
or probes. Borings to determine depth to seasonal high water shall
be witnessed and be approved by the engineer.
(3)
No land area, except for single- or two-family residential construction
not part of a major subdivision, shall be developed such that:
(a)
The volume and/or rate of stormwater runoff occurring at the
area is increased over what occurred there under conditions existing
on or before the effective date of this chapter. The Planning Board
engineer shall determine storm frequencies to be used in the design
of stormwater management facilities.
(b)
The drainage of adjacent areas is adversely affected.
(c)
Soil erosion during and after development is increased over
what naturally occurs there.
(d)
Soil absorption and groundwater recharge capacity of the area
is decreased below the conditions existing on or before the effective
date of this chapter.
(e)
The natural drainage pattern of the area is significantly altered.
(4)
In order to duplicate as nearly as possible natural drainage
conditions, regulation and control of stormwater runoff and erosion
shall be through on-site stormwater retention and/or ground absorption
systems which include, but are not limited to, the following:
(a)
Detention areas, which may be depressions in parking areas,
excavated basins or basins created through use of curbs, or any other
form of grading which serves to temporarily impound and store water.
(b)
Rooftop storage through temporary impoundment and storage of
stormwater on flat or slightly pitched building rooftops by use of
drain outlets which restrict the stormwater runoff from the roof surface.
(c)
Dry wells or leaching basins which control stormwater runoff
through ground absorption and temporary storage.
(d)
Retention of natural vegetation to the greatest extent possible
which preserves the natural ground-absorption capacity of the site.
(e)
Any system of porous media, such as gravel trenches drained
by porous wall or perforated pipe, which temporarily stores and dissipates
stormwater through ground absorption.
(f)
Any combination of the above mentioned or other techniques,
as approved by the City Engineer, which serve to limit and control
stormwater runoff from a given site.
(5)
Stormwater retention facilities shall be designated so that
the peak rate and volume of surface runoff that occurred prior to
development is not exceeded after development. The engineer shall
submit calculations, based on the following table, verifying that
the above criteria is met for the two-, ten- and fifty-year storms.
Calculations shall be based on a twenty-four-hour storm event in accordance
with United States Soil Service Technical Release No. 55 or the Soil
Conservation Service National Engineering Handbook.
New Jersey Twenty-Four Hour Rainfall
County of Atlantic
(inches)
| |||||||
---|---|---|---|---|---|---|---|
1-year
|
2-year
|
5-year
|
10-year
|
25-year
|
50-year
|
100-year
| |
2.8
|
3.5
|
4.5
|
5.5
|
6.2
|
6.8
|
7.6
|
(6)
The weighted CN (curve number) shall be determined for each
site for both existing and proposed conditions, and the difference
shall be used to compute the volume of excess for the design of stormwater
retention facilities. The volume is equal to the depth of the rainfall
excess multiplied by the area of the site.
(7)
The outlet for any stormwater retention facility shall be designed
such that the discharge rate does not exceed the peak runoff rate
for conditions existing on or before the effective date of this chapter
such that there is no adverse effect on any other property.
(8)
In the case of detention facilities utilizing porous media for
ground absorption, such as dry well, porous media shall be large enough
to contain the total volume of rainfall excess within the voids. Ground
absorption systems shall be used only where the soil infiltration
rate is acceptable, as determined by percolation tests and soil borings
provided by the developer and witnessed by the reviewing engineer.
Seasonal high groundwater shall be determined by the mottling method
or other approved methods.
(9)
If a combination of different retention techniques is used,
combined volume of the systems shall be large enough to fully contain
the total volume of rainfall excess.
(10)
Stormwater retention facilities shall be maintained regularly
by the owner to ensure continual functioning of the systems at design
capacity and to prevent the health hazards associated with debris
buildup and stagnant water.
(11)
As-built plans (two sets) shall be submitted to the City after
construction. They shall reflect all or any revisions made in the
stormwater management plan during construction.
[1997 Code § 224-159]
Landscape plans for major subdivisions and commercial and residential
site plans shall utilize plant material from the following list:
Suggested Landscape Plants for the City of Absecon City
| |
---|---|
Scientific Name
|
Common Name
|
Deciduous shade trees
| |
Acer Pseudoplatanus
|
Sycamore Maple
|
Acer Rubram
|
Red Maple
|
Amelanchier Candensis
|
Shadblow Serviceberry
|
Betula Populifolia
|
Gray Birch
|
Celtis Australis
|
European Hackberry
|
Crataegus Oxyacantha
|
English Hawthorn
|
Crataegus Crus-galli
|
Cockspur Hawthorn
|
Crataegus Phaenopyrum
|
Washington Hawthorn
|
Elaeagnus Augustifolia
|
Russian Olive
|
Fraxinus Pennsylvania
|
Green Asb
|
Fraxinus Pennsylvania Lanseolata
|
Marshall's Seedless Green
|
Marshall's Seedless
|
Ash
|
Ginkgo Biloba
|
Ginkgo
|
Gleditsia Triacanthos "inermis"
|
Thornless Honeylocust
|
Liquidambar Styraciflua
|
Sweetgum
|
Magnolia Virginia
|
Sweetbay Magnolia
|
Nyssa Svlvatics
|
Black Tupelo
|
Ostrya Virginia
|
Hop Hornbeam
|
Platanus X Acerifolia
|
London Plane
|
Populus Alba
|
White Popular
|
Pyrus Calleryana "Bradford"
|
Bradford Callery Pear
|
Quercus Alba
|
White Oak
|
Quercus Bicolor
|
Swamp White Oak
|
Quercus Palustris
|
Pin Oak
|
Quercus Phellos
|
Willow Oak
|
Quercus Rubra
|
Red Oak
|
Sassafras Albidum Officinale
|
Sassafras
|
Saliz Species
|
Willow Species
|
Sophora Japonica
|
Japanese Pagoda Tree
|
Tilia Cordata
|
Littleleaf Linden
|
Zelkova Serrata
|
Japanese Zelkova
|
Evergreen trees
| |
Cedrus Atlantica
|
Atlas Cedar
|
Chamaecyparis Thiodes
|
White Cedar
|
Ilex Opaca
|
American Holly
|
Juniperus Virginia
|
Eastern Red Cedar
|
Picea Species
|
Spruces
|
Picea Pungens Glauca
|
Colorado Blue Spruce
|
Pinus Mugo
|
Swiss Mountain Pine
|
Pinus Nigra
|
Austrian Pine
|
Pinus Rigida
|
Pitch Pine
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Pinus Sylvestris
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Scotch Pine
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Pinus Thunbergii
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Japanese Black Pine
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Taxus Cuspidata
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Japanese Yew
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Thuja Occidentalis
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American Arborvitae
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Small trees
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Acer Ginnala
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Amur Maple
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Acer Palmatum
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Japanese Maple
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Amelanchier Canadensis
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Shadblow Serviceberry
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Betula Pendula
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European Birch
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Betula Populifolia
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Gray Birch
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Carpinus Caroliniana
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American Hornbeam
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Comus Florida
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Flowering Dogwood
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Comus Florida Rubra
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Pink Flowering Dogwood
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Comus Kousa
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Japanese Dogwood
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Comus Mas
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Comelian-cherry Dogwood
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Crateagus Crus-galli
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Cockspur Thom
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Crateagus Phaenopyrum
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Washington Hawthorn
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Elaeagnus Angustifolia
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Russian Olive
|
Magnolia Soulangiana
|
Saucer Magnolia
|
Magnolia Stellata
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Star Magnolia
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Magnolia Virginiana
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Sweetbay Magnolia
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Malus Floribunda
|
Japanese Flowering Crab Apple
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Malus X "Katherine"
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Katherine Crab Apple
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Malus X "Hopa"
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Hopa Crab Apple
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Malus Sargentii
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Sargent Crab Apple
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Malus X Zumi Calocarpa
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Zumi Crab Apple
|
Ostrya Virginiana
|
Hop Hornbeam
|
Phellodendron Amurense
|
Amur Cork Tree
|
Prunus Sargentii
|
Sargent Cherry
|
Prunus Serrulata "Kwanzan"
|
Kwanzan Cherry
|
Prunus Serotina
|
Wild Black Cherry
|
Prunus Subhirtella Pendula
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Weeping Cherry
|
Prunus Virginiana
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Chokecherry
|
Prunus Yedoensis
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Yosbino Cherry
|
Pyrus Calleryana "Bradford"
|
Bradford Callery Pear
|
Sophora Japonica
|
Japanese Pagoda Tree
|
Styrax Japonica
|
Japanese Snowbell
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Evergreen shrubs
| |
Berberis Species
|
Barberry
|
Ilex Species
|
Holly
|
Juniperus Species
|
Junipers
|
Kalmia Latifolia
|
Mountain Laurel
|
Leucothoe Species
|
Leucothoe
|
Mahonia Species
|
Mahonia
|
Myrica Pennsylvanica
|
Bayberry
|
Pieris Floribunda
|
Mountain Andromeda
|
Pieris Japonica
|
Rhondodendrons
|
Rhododendron Species
|
Yews
|
Taxus Cuspidata
|
Japanese Yew
|
Deciduous shrubs
| |
Abelia X Grandiflora
|
Glossy Abelia
|
Amelanchier Species
|
Serviceberries
|
Aronia Arbutiflia
|
Red Chookberry
|
Berberis Species
|
Barberry
|
Clethra Alnifolia
|
Summersweet
|
Cornus Stolinifera
|
Redosier Dogwood
|
Cotoneaster Species
|
Cotoneasters
|
Euonymus Bungeanus
|
Winterberry
|
Ilex Species
|
Ilexes
|
Ligustrum Species
|
Privet
|
Lonicera Species
|
Honeysuckles
|
Prunus Maritima
|
Beach Plum
|
Rhus Typhina
|
Staghorn Sumax
|
Rosa Species
|
Roses
|
Spirea Species
|
Spireas
|
Syringa Species
|
Lilacs
|
Vaccinium Species
|
Blueberries
|
Viburnum Species
|
Viburnums
|
Groundcover
| |
Arctostaphylos uva-ursi
|
Bearberry
|
Cotoneaster Horizontalis
|
Rock Cotoneaster
|
Cotoneaster Apiculata
|
Cranberry Cotoneaster
|
Hedera Helix
|
English Ivy
|
Hemerocallis Fulva
|
Common Daylily
|
Juniperus Species
|
Junipers
|
Juniperus Horizontalis
|
Creeping Juniper
|
Juniperus Horizontalis "Plumosa"
|
Andorra Juniper
|