[HISTORY: Adopted by the City Council of the City of Port
Republic 2-13-2008 by Ord. No. 01-2008. Amendments noted where applicable.]
A.
Purpose.
(1)
It is hereby determined that:
(a)
Land development projects and associated disturbance of vegetation
and soil and changes in land cover, including increases in impervious
cover, alter the hydrologic response of local watersheds and increase
stormwater runoff rates and volumes. If inadequately or improperly
managed, this stormwater runoff can deplete groundwater resources
and increase flooding, stream channel erosion, and sediment transport
and deposition.
(b)
This stormwater runoff contributes to increased quantities of
waterborne pollutants.
(c)
Increases of stormwater runoff, soil erosion and nonpoint source
pollutants have occurred in the past as a result of land development
and contribute to the degradation of the water resources of the City
of Port Republic and downstream municipalities.
(d)
Certain lands of the City of Port Republic lie within the Pinelands
Area, and therefore, development in this portion of the City of Port
Republic is subject to the requirements of the Pinelands Protection
Act (N.J.S.A. 13:18A-1 et seq.) and the implementing regulations and
minimum standards contained in the Pinelands Comprehensive Management
Plan (N.J.A.C. 7:50-1.1 et seq.) (CMP). The purpose and intent of
these regulations and standards is to promote orderly development
of the Pinelands so as to preserve and protect the significant and
unique natural, ecological, agricultural, archaeological, historical,
scenic, cultural and recreational resources of the Pinelands.
(e)
Pinelands Area resources are to be protected in accordance with
the Pinelands Comprehensive Management Plan at N.J.A.C. 7:50 et seq.,
New Jersey's Stormwater Management Rules at N.J.A.C. 7:8-1.1
et seq. and New Jersey's surface water quality antidegradation
policies contained in the New Jersey Surface Water Quality Standards
at N.J.A.C. 7:9B-1.1 et seq. Permitted uses shall maintain the ecological
character and quality of the Pinelands, including good water quality
and natural rates and volumes of flow.
(f)
Increased stormwater rates and volumes and the sediments and
pollutants associated with stormwater runoff from future development
projects within the Pinelands Area have the potential to adversely
affect the City of Port Republic's streams and water resources
and the streams and water resources of downstream municipalities.
(g)
Stormwater runoff, soil erosion and nonpoint source pollution
can be controlled and minimized through the regulation of stormwater
runoff from development sites.
(h)
It is in the public interest to regulate the discharge of stormwater runoff from major development projects, as defined in § 241-7 of this chapter, conducted within the Pinelands Area, as provided in this chapter, in order to control and minimize increases in stormwater runoff rates and volumes, to maintain groundwater recharge, and to control and minimize soil erosion, stream channel erosion and nonpoint source pollution associated with stormwater runoff.
(2)
Therefore, it is the purpose of this chapter to establish minimum stormwater management requirements and controls for major development, consistent with the statewide stormwater requirements at N.J.A.C. 7:8, the regulations and standards contained in the Pinelands CMP, and the provisions of the adopted Master Plan and Chapter 160, Land Use, of the Code of the City of Port Republic.
B.
Goals and techniques.
(1)
Through this chapter, the City of Port Republic has established the
following goals for stormwater control:
(a)
To reduce flood damage, including damage to life and property;
(b)
To minimize any increase in stormwater runoff from new development;
(c)
To reduce soil erosion from any development or construction
project;
(d)
To assure the adequacy of existing and proposed culverts and
bridges and other in-stream structures;
(e)
To maintain groundwater recharge;
(f)
To minimize any increase in nonpoint pollution;
(g)
To maintain the integrity of stream channels for their biological
functions, as well as for drainage;
(h)
To restore, protect, maintain and enhance the quality of the
streams and water resources of the City of Port Republic and the ecological
character and quality of the Pinelands Area;
(i)
To minimize pollutants in stormwater runoff from new and existing
development in order to restore, protect, enhance and maintain the
chemical, physical and biological integrity of the surface water and
groundwater of the City of Port Republic, to protect public health
and to enhance the domestic, municipal, recreational, industrial and
other uses of water; and
(j)
To protect public safety through the proper design and operation
of stormwater management basins.
(2)
In order to achieve the goals for stormwater control set forth in
this chapter, the City of Port Republic has identified the following
management techniques:
(a)
Implementation of multiple stormwater management best management
practices (BMPs) may be necessary to achieve the performance standards
for stormwater runoff quantity and rate, groundwater recharge, erosion
control, and stormwater runoff quality established through this chapter.
(b)
Compliance with the stormwater runoff quantity and rate, groundwater
recharge, erosion control, and stormwater runoff quality standards
established through N.J.A.C. 7:8-1.1 et seq. and this chapter shall
be accomplished to the maximum extent practicable through the use
of nonstructural BMPs, before relying on structural BMPs. Nonstructural
BMPs are also known as "low-impact development (LID) techniques."
(c)
Nonstructural BMPs shall include both environmentally sensitive
site design and source controls that prevent pollutants from being
placed on the site or from being exposed to stormwater.
(d)
Source control plans shall be developed based upon physical
site conditions and the origin, nature and the anticipated quantity
or amount of potential pollutants.
(e)
Structural BMPs, where necessary, shall be integrated with nonstructural
stormwater management strategies and proper maintenance plans.
(f)
When using structural BMPs, multiple stormwater management measures,
smaller in size and distributed spatially throughout the land development
site, shall be used wherever possible to achieve the performance standards
for water quality, quantity and groundwater recharge established through
this chapter before relying on a single, larger stormwater management
measure to achieve these performance standards.
C.
Applicability. This chapter shall apply to:
D.
Procedures. In addition to other development review procedures set forth in the Code of the City of Port Republic, major developments located within the Pinelands Area shall comply with the stormwater management requirements and specifications set forth in this chapter. New agricultural development that meets the definition of "major development" in § 241-7 of this chapter shall be submitted to the appropriate Soil Conservation District for review and approval in accordance with the requirements of N.J.A.C. 7:8-5.4(b).
E.
Compatibility with other permit and ordinance requirements.
(1)
Development approvals issued for subdivisions and site plans pursuant
to this chapter are to be considered an integral part of development
approvals under the subdivision and site plan review process and do
not relieve the applicant of the responsibility to secure required
permits or approvals for activities regulated by any other applicable
ordinance, code, rule, regulation, statute, act or other provision
of law.
(2)
In their interpretation and application, the provisions of this chapter
shall be held to be the minimum requirements for the promotion of
the public health, safety, and general welfare. This chapter is not
intended to interfere with, abrogate, or annul any other ordinances,
rule or regulation, statute, or other provision of law except that,
where any provision of this chapter imposes restrictions different
from those imposed by any other ordinance, rule or regulation, or
other provision of law, the more restrictive or stringent provisions
or higher standards shall control.
(3)
In the event that a regional stormwater management plan(s) is prepared
and formally adopted pursuant to N.J.A.C. 7:8-1.1 et seq. for any
drainage area(s) or watershed(s) of which the City of Port Republic
is a part, the stormwater provisions of such a plan(s) shall be adopted
by the City of Port Republic within one year of the adoption of a
regional stormwater management plan (RSWMP) as an amendment to an
areawide water quality management plan. Local ordinances proposed
to implement the RSWMP shall be submitted to the Commission for certification
within six months of the adoption of the RSWMP per N.J.A.C. 7:8 and
the Pinelands CMP (N.J.A.C. 7:50).
A.
Submission of site development stormwater plan.
(1)
Whenever an applicant seeks municipal approval of a site development that is subject to this chapter, the applicant shall submit all of the required components of the checklist for the site development stormwater plan at Subsection C below as part of the applicant's application for subdivision or site plan approval. These required components are in addition to any other information required under any provisions of Chapter 160, Land Use, of the Code of the City of Port Republic or by the Pinelands Commission pursuant to N.J.A.C. 7:50-1.1 et seq.
(2)
The applicant shall demonstrate that the site development project
meets the standards set forth in this chapter.
B.
Site development stormwater plan approval. The applicant's site
development stormwater plan shall be reviewed as a part of the subdivision
or site plan review process by the municipal board or official from
whom municipal approval is sought. That municipal board or official
shall consult the engineer retained by the Planning and/or Zoning
Board (as appropriate) to determine if all of the checklist requirements
have been satisfied and to determine if the project meets the standards
set forth in this chapter.
C.
Checklist requirements.
(1)
Any application for approval of a major development shall include
at least the following information. All required engineering plans
shall be submitted to the City of Port Republic and the Pinelands
Commission in CAD Format 15 or higher, registered and rectified to
NJ State Plane Feet NAD 83 or Shape Format NJ State Plan Feet NAD
83, and all other documents shall be submitted in both paper and commonly
used electronic file formats such as pdf, word processing, database
or spreadsheet files. Three copies of each item shall be submitted.
(a)
Topographic base map. The applicant shall submit a topographic base
map of the site which extends a minimum of 300 feet beyond the limits
of the proposed development, at a scale of one inch equals 200 feet
or greater, showing one-foot contour intervals. The map shall indicate
the following: existing surface water drainage, shorelines, steep
slopes, soils, highly erodible soils, perennial or intermittent streams
that drain into or upstream of any Category One or Pinelands waters,
wetlands and floodplains, along with their appropriate buffer strips,
marshlands and other wetlands, pervious or vegetative surfaces, existing
surface and subsurface human-made structures, roads, bearing and distances
of property lines, and significant natural and man-made features not
otherwise shown. The City of Port Republic or the Pinelands Commission
may require upstream tributary drainage system information as necessary.
(b)
Environmental site analysis. The applicant shall submit a written
description along with the drawings of the natural and human-made
features of the site and its environs. This description should include:
[1]
A discussion of environmentally critical areas, soil conditions,
slopes, wetlands, waterways and vegetation on the site. Particular
attention should be given to unique, unusual or environmentally sensitive
features and to those that provide particular opportunities for or
constraints on development; and
[2]
Detailed soil and other environmental conditions on the portion
of the site proposed for installation of any stormwater BMPs, including,
at a minimum, a soils report based on on-site soil tests; locations
and spot elevations in plan view of test pits and permeability tests;
permeability test data and calculations; and any other required soil
data (e.g., mounding analyses results) correlated with location and
elevation of each test site; cross section of proposed stormwater
BMP with side-by-side depiction of soil profile drawn to scale and
seasonal high water table elevation identified; and any other information
necessary to demonstrate the suitability of the specific proposed
structural and nonstructural stormwater management measures relative
to the environmental conditions on the portion(s) of the site proposed
for implementation of those measures.
(c)
Project description and site plan(s). The applicant shall submit
a map (or maps) at the scale of the topographical base map indicating
the location of existing and proposed buildings, roads, parking areas,
utilities, structural facilities for stormwater management and sediment
control, and other permanent structures. The map(s) shall also clearly
show areas where alterations will occur in the natural terrain and
cover, including lawns and other landscaping, and seasonal high groundwater
elevations. A written description of the site plan and justification
for proposed changes in natural conditions shall also be provided.
(d)
Land use planning and source control plan.
[1]
The applicant shall submit a detailed land use planning and source control plan which provides a description of how the site will be developed to meet the erosion control, groundwater recharge and stormwater runoff quantity and quality standards at § 241-4 through use of nonstructural or low-impact development techniques and source controls to the maximum extent practicable before relying on structural BMPs. The land use planning and source control plan shall include a detailed narrative and associated illustrative maps and/or plans that specifically address how each of the following nine nonstructural strategies identified in Subchapter 5 of the NJDEP Stormwater Management Rules (N.J.A.C. 7:8-5) and set forth below (Subsection C(1)(d)[1][a] through [i]) will be implemented to the maximum extent practicable to meet the standards at § 241-4 of this chapter on the site. If one or more of the nine nonstructural strategies will not be implemented on the site, the applicant shall provide a detailed rationale establishing a basis for the contention that use of the strategy is not practicable on the site.
[a]
Protect areas that provide water quality benefits or areas particularly
susceptible to erosion and sediment loss;
[b]
Minimize impervious surfaces and break up or disconnect the
flow of runoff over impervious surfaces;
[c]
Maximize the protection of natural drainage features and vegetation;
[d]
Minimize the decrease in the predevelopment time of concentration;
[e]
Minimize land disturbance, including clearing and grading;
[f]
Minimize soil compaction and all other soil disturbance;
[g]
Provide low-maintenance landscaping that provides for the retention
and planting of native plants and minimizes the use of lawns, fertilizers
and pesticides, in accordance with N.J.A.C. 7:50-6.24;
[h]
Provide vegetated open-channel conveyance systems discharging
into and through stable vegetated areas; and
[i]
Provide other source controls to prevent or minimize the use
or exposure of pollutants at the site in order to prevent or minimize
the release of those pollutants into stormwater runoff. These source
controls shall include, but are not limited to:
[i]
Site design features that help to prevent accumulation
of trash and debris in drainage systems;
[ii]
Site design features that help to prevent discharge
of trash and debris from drainage systems;
[iii]
Site design features that help to prevent and/or
contain spills or other harmful accumulations of pollutants at industrial
or commercial developments; and
[iv]
Applying fertilizer in accordance with the requirements
established under the Soil Erosion and Sediment Control Act, N.J.S.A.
4:24-39 et seq., and implementing rules, when establishing vegetation
after land disturbance.
[2]
For sites where stormwater will be generated from high pollutant loading areas or where stormwater will be exposed to source material, as defined in § 241-7 of this chapter, the applicant shall also demonstrate in the land use planning and source control plan that the requirements of § 241-4 have been met.
[3]
The use of nonstructural strategies to meet the performance standards in § 241-4 of this chapter is not required for development sites creating less than one acre of disturbance. However, each application for major development and any other application where the City of Port Republic otherwise requires a landscaping plan shall contain a landscaping or revegetation plan in accordance with the CMP standards at N.J.A.C. 7:50-6.24(c). In addition, the applicant shall demonstrate that, at a minimum, existing trees and vegetation on the development site will be preserved and protected according to the minimum standards established by the provisions of Chapter 160, Land Use, the City of Port Republic Zoning Ordinance or by conditions of zoning or variance approval.
(e)
Stormwater management facilities map. The applicant shall submit
a map, at the same scale as the topographic base map, depicting the
following information:
[1]
The total area to be disturbed, paved and/or built upon, proposed
surface contours, land area to be occupied by the stormwater management
facilities and the type of vegetation thereon, and details of the
proposed plan to manage and dispose of stormwater; and
[2]
Details of all stormwater management facility designs, during
and after construction, including discharge provisions, discharge
capacity for each outlet at different levels of detention (if applicable)
and emergency spillway provisions with maximum discharge capacity
of each spillway.
(f)
Calculations (groundwater recharge and stormwater runoff rate, volume and quality). The applicant shall submit comprehensive hydrologic and hydraulic design calculations for the predevelopment and post-development conditions for the design storms specified in § 241-3. The standards for groundwater recharge and stormwater runoff rate, volume and quality required by § 241-4 shall be met using the methods, calculations and assumptions provided in § 241-3.
(g)
Inspection, maintenance and repair plan. The applicant shall submit a detailed plan describing how the proposed stormwater management measure(s) shall meet the maintenance and repair requirements of § 241-6 of this chapter. Said plan shall include, at a minimum, the following elements:
[1]
The frequency with which inspections will be made;
[2]
The specific maintenance tasks and requirements for each proposed
structural and nonstructural BMP;
[3]
The name, address and telephone number for the entity responsible
for implementation of the maintenance plan;
[4]
The reporting requirements; and
[5]
Copies of the inspection and maintenance reporting sheets.
(2)
Exception from submission requirements. An exception may be granted from submission of any of these required components (except Subsection C(1)(g) above, Inspection, maintenance and repair plan) if its absence will not materially affect the review process. However, items required pursuant to the application requirements in the Pinelands CMP [N.J.A.C. 7:50-4.2(b)] shall be submitted to the New Jersey Pinelands Commission unless the Executive Director waives or modifies the application requirements.
A.
Method of calculating stormwater runoff rate and volume.
(1)
In complying with the stormwater runoff quantity and rate standards in § 241-4B, the design engineer shall calculate the stormwater runoff rate and volume using the USDA Natural Resources Conservation Service (NRCS) Runoff Equation, Runoff Curve Numbers, and Dimensionless Unit Hydrograph, as described in the NRCS National Engineering Handbook Part 630, Hydrology, and Technical Release 55, Urban Hydrology for Small Watersheds, incorporated herein by reference, as amended and supplemented. Alternative methods of calculation may be utilized, provided such alternative methods are at least as protective as the NRCS methodology when considered on a regional stormwater management basis.
(2)
In calculating stormwater runoff using the NRCS methodology, the
design engineer shall separately calculate and then combine the runoff
volumes from pervious and directly connected impervious surfaces within
each drainage area within the parcel.
(3)
Calculation of stormwater runoff from unconnected impervious surfaces
shall be based, as applicable, upon the two-step method described
in the current New Jersey Stormwater Best Management Practices Manual
or the NRCS methodology.
(4)
In calculating stormwater runoff using the NRCS methodology, the
design engineer shall use appropriate twenty-four-hour rainfall depths
as developed for the project site by the National Oceanic and Atmospheric
Administration, available online at http://hdsc.nws.noaa.gov/hdsc/pfds/index.html.
(5)
When calculating stormwater runoff for predeveloped site conditions,
the design engineer shall use the following criteria:
(a)
When selecting or calculating runoff curve numbers (CNs) for
predeveloped project site conditions, the project site's land
cover shall be assumed to be woods in good condition. However, another
land cover may be used to calculate runoff coefficients if:
[1]
Such land cover has existed at the site or portion thereof without
interruption for at least five years immediately prior to the time
of application; and
[2]
The design engineer can document the character and extent of
such land cover through the use of photographs, affidavits, and/or
other acceptable land use records.
(b)
If more than one land cover has existed on the site during the
five years immediately prior to the time of application, the land
cover with the lowest runoff potential shall be used for the computations.
(c)
All predeveloped land covers shall be assumed to be in good
hydrologic condition and, if cultivated, shall be assumed to have
conservation treatment.
(d)
In calculating predeveloped site stormwater runoff, the design
engineer shall include the effects of all land features and structures,
such as ponds, wetlands, depressions, hedgerows, and culverts that
affect predeveloped site stormwater runoff rates and/or volumes.
(e)
Where tailwater will affect the hydraulic performance of a stormwater
management measure, the design engineer shall include such effects
in the measure's design.
B.
Method of calculating stormwater runoff quality.
(1)
In complying with the stormwater runoff quality standards in § 241-4F(1), the design engineer shall calculate the stormwater runoff rate and volume using the USDA Natural Resources Conservation Service (NRCS) Runoff Equation, Runoff Curve Numbers, and Dimensionless Unit Hydrograph, as described in the NRCS National Engineering Handbook, Part 630, Hydrology, and Technical Release 55, Urban Hydrology for Small Watersheds, as amended and supplemented.
(2)
The design engineer shall also use the NJDEP water quality design
storm, which is 1.25 inches of rainfall falling in a nonlinear pattern
in two hours. Details of the water quality design storm are shown
in Table 1.
(3)
Calculation of runoff volumes, peak rates, and hydrographs for the
water quality design storm may take into account the implementation
of nonstructural and structural stormwater management measures.
Table 1: Water Quality Design Storm Distribution4
| ||
---|---|---|
Time
(minutes)
|
Cumulative Rainfall
(inches)
| |
0
|
0.0000
| |
5
|
0.0083
| |
10
|
0.0166
| |
15
|
0.0250
| |
20
|
0.0500
| |
25
|
0.0750
| |
30
|
0.1000
| |
35
|
0.1330
| |
40
|
0.1660
| |
45
|
0.2000
| |
50
|
0.2583
| |
55
|
0.3583
| |
60
|
0.6250
| |
65
|
0.8917
| |
70
|
0.9917
| |
75
|
1.0500
| |
80
|
1.0840
| |
85
|
1.1170
| |
90
|
1.1500
| |
95
|
1.1750
| |
100
|
1.2000
| |
105
|
1.2250
| |
110
|
1.2334
| |
115
|
1.2417
| |
120
|
1.2500
|
NOTE:
| ||
---|---|---|
4
|
Source: N.J.A.C. 7:8-5.5(a).
|
(4)
Total suspended solids (TSS) reduction calculations.
(a)
If more than one stormwater BMP in series is necessary to achieve
the required eighty-percent TSS reduction for a site, the applicant
shall utilize the following formula to calculate TSS reduction:
R = A + B - (A x B)/100
|
Where:
| ||||
---|---|---|---|---|
R
|
=
|
Total TSS percent load removal from application of both BMPs
| ||
A
|
=
|
The TSS percent removal rate applicable to the first BMP
| ||
B
|
=
|
The TSS percent removal rate applicable to the second BMP
|
(b)
If there is more than one on-site drainage area, the eighty-percent
TSS removal rate shall apply to each drainage area, unless the runoff
from the subareas converge on site, in which case the removal rate
can be demonstrated through a calculation using a weighted average.
(5)
TSS removal rates for stormwater BMPs.
(a)
For purposes of TSS reduction calculations, Table 2 presents the presumed removal rates for certain BMPs designed in accordance with the New Jersey BMP Manual. The BMP Manual may be obtained from the address identified in § 241-10A or found on the NJDEP's website at www.njstormwater.org. TSS reduction shall be calculated based on the removal rates for the BMPs in Table 2.
Table 2: Pollutant Removal Rates for BMPs5
| |||
---|---|---|---|
Best Management Practice
|
TSS Percent Removal Rate
|
Total Phosphorus Percent Removal Rate
|
Total Nitrogen Percent Removal Rate
|
Bioretention systems
|
90%
|
60%
|
30%
|
Constructed stormwater wetland
|
90%
|
50%
|
30%
|
Extended detention basin
|
40% to 60% (final rate based upon detention time; see New Jersey BMP Manual Chapter 9)
|
20%
|
20%
|
Infiltration basin
|
80%
|
60%
|
50%
|
Manufactured treatment device
|
Pollutant removal rates as certified by NJDEP; see § 241-3
|
Pollutant removal rates as certified by NJDEP; see § 241-3
|
Pollutant removal rates as certified by NJDEP; see § 241-3
|
Pervious paving systems
|
80% (porous paving)
|
60%
|
50%
|
80% (permeable pavers with storage bed)
| |||
0%; volume reduction only (permeable pavers without storage
bed)
|
0%; volume reduction only (permeable pavers without storage
bed)
|
0%; volume reduction only (permeable pavers without storage
bed)
| |
Sand filter
|
80%
|
50%
|
35%
|
Vegetative filter strip (For filter strips with multiple vegetated
covers, the final TSS removal rate should be based upon a weighted
average of the adopted rates shown in Table 2, based upon the relative
flow lengths through each cover type.)
|
60% (turf grass)
|
30%
|
30%
|
70% (native grasses, meadow and planted woods)
| |||
80% (indigenous woods)
| |||
Wet pond/retention basin
|
50% to 90% (final rate based upon pool volume and detention
time; see NJ BMP Manual)
|
50%
|
30%
|
NOTE:
| |
---|---|
5
|
Source: N.J.A.C. 7:8-5.5(c) and the New Jersey BMP Manual Chapter
4.
|
(b)
Alternative stormwater management measures, removal rates and
methods of calculating removal rates may be used if the design engineer
provides documentation demonstrating the capability of these alternative
rates and methods to the City of Port Republic. Any alternative stormwater
management measure, removal rate or method of calculating the removal
rate shall be subject to approval by and a copy shall be provided
to the following:
(6)
Nutrient removal rates for stormwater BMPs. For purposes of post-development nutrient load reduction calculations, Table 2 presents the presumed removal rates for certain BMPs designed in accordance with the New Jersey BMP Manual. If alternative stormwater BMPs are proposed, the applicant shall demonstrate that the selected BMPs will achieve the nutrient removal standard required in § 241-4F.
C.
Methods of calculating groundwater recharge.
(1)
In complying with the groundwater recharge requirements in § 241-4C(1)(a), the design engineer may calculate groundwater recharge in accordance with the New Jersey Groundwater Recharge Spreadsheet (NJGRS) computer program incorporated herein by reference, as amended and supplemented. Information regarding the methodology is available in § 241-9A or from the New Jersey BMP Manual.
(2)
Alternative groundwater recharge calculation methods to meet these
requirements may be used upon approval by the Municipal Engineer.
(3)
In complying with the groundwater recharge requirements in § 241-4C(1)(b), the design engineer shall:
(a)
Calculate stormwater runoff volumes in accordance with the USDA
Natural Resources Conservation Service (NRCS) methodology, including
the NRCS Runoff Equation and Runoff Curve Numbers, as described in
the NRCS National Engineering Handbook Part 630, Hydrology, and Technical
Release 55, Urban Hydrology for Small Watersheds, as amended and supplemented;
and
(b)
Use appropriate two-year, twenty-four-hour rainfall depths as
developed for the project site by the National Oceanic and Atmospheric
Administration, available online at http://hdsc.nws.noaa.gov/hdsc/pfds/index.html.
(4)
When calculating groundwater recharge or stormwater runoff for predeveloped
site conditions, the design engineer shall use the following criteria:
(a)
When selecting land covers or calculating runoff curve numbers
(CNs) for predeveloped project site conditions, the project site's
land cover shall be assumed to be woods. However, another land cover
may be used to calculate runoff coefficients if:
[1]
Such land cover has existed at the site or portion thereof without
interruption for at least five years immediately prior to the time
of application; and
[2]
The design engineer can document the character and extent of
such land cover through the use of photographs, affidavits, and/or
other acceptable land use records.
(b)
If more than one land cover, other than woods, has existed on
the site during the five years immediately prior to the time of application,
the land cover with the lowest runoff potential (including woods)
shall be used for the computations.
(c)
All predeveloped land covers shall be assumed to be in good
hydrologic condition and, if cultivated, shall be assumed to have
conservation treatment.
A.
Nonstructural stormwater management strategies.
(1)
To the maximum extent practicable, the performance standards in this section for major development shall be met by incorporating the nine nonstructural strategies identified in Subchapter 5 of the New Jersey Stormwater Management Rules (N.J.A.C. 7:8-5) and set forth in § 241-2C(1)(d)[1] into the design. The applicant shall identify within the land use planning and source control plan required by § 241-2C(1)(d) of this chapter how each of the nine nonstructural measures will be incorporated into the design of the project to the maximum extent practicable.
(2)
If the applicant contends that it is not practical for engineering, environmental or safety reasons to incorporate any of the nine nonstructural strategies into the design of a particular project, the applicant shall provide a detailed rationale establishing a basis for the contention that use of the strategy is not practical on the site. This rationale shall be submitted in accordance with the checklist requirements established by § 241-2 to the City of Port Republic. A determination by the City of Port Republic that this rationale is inadequate or without merit shall result in a denial of the application unless one of the following conditions are met:
(a)
The land use planning and source control plan is amended to
include a description of how all nine nonstructural measures will
be implemented on the development site, and the amended plan is approved
by the City of Port Republic;
(b)
The land use planning and source control plan is amended to provide an alternative nonstructural strategy or measure that is not included in the list of nine nonstructural measures, but still meets the performance standards in § 241-4, and the amended plan is approved by the City of Port Republic; or
(c)
The land use planning and source control plan is amended to
provide an adequate rationale for the contention that use of the particular
strategy is not practical on the site, and the amended plan is approved
by the City of Port Republic.
(3)
In addition to all other requirements of this section, each applicant shall demonstrate that, at a minimum, existing trees and vegetation on the development site will be preserved, protected and maintained according to the minimum standards established by provisions of Chapter 160, Land Use, the City of Port Republic Zoning Ordinance or by conditions of zoning or variance approval. Existing trees and vegetation shall be protected during construction activities in accordance with the "Standard for Tree Protection During Construction" provided in the New Jersey State Soil Conservation Committee Standards for Soil Erosion and Sediment Control in New Jersey, which is incorporated herein by reference, as amended and supplemented.
(4)
In addition to all other requirements of this section, each application
for major development, and any other application where the City of
Port Republic otherwise requires a landscaping plan, shall contain
a landscaping or revegetation plan in accordance with the Pinelands
CMP standards at N.J.A.C. 7:50-6.24(c).
(5)
Any land area used as a nonstructural stormwater management measure to meet the performance standards in this section shall be dedicated to a government entity; shall be subjected to a conservation easement filed with the appropriate County Clerk's office; or shall be subjected to an equivalent form of restriction approved by the City of Port Republic that ensures that that measure, or equivalent stormwater management measure, is maintained in perpetuity, as detailed in § 241-6 of this chapter.
(6)
Guidance for nonstructural stormwater management strategies is available in the New Jersey BMP Manual, which may be obtained from the address identified in § 241-10A or found on the NJDEP's website at www.njstormwater.org.
(7)
Exception for major development sites creating less than one acre
of disturbance. The use of nonstructural strategies to meet the performance
standards in this section is not required for major development creating
less than one acre of disturbance. However, the following requirements
shall be met:
(a)
Each application for major development and any other application
where the City of Port Republic otherwise requires a landscaping plan
shall contain a landscaping or revegetation plan prepared in accordance
with the Pinelands CMP standards [N.J.A.C. 7:50-6.24(c)];
(b)
Each applicant shall demonstrate that, at a minimum, existing trees and vegetation on the development site will be preserved and protected according to the minimum standards established by provisions of Chapter 160, Land Use, the City of Port Republic Zoning Ordinance or by conditions of zoning or variance approval; and
(c)
Existing trees and vegetation shall be protected during construction
activities in accordance with the "Standard for Tree Protection During
Construction" provided in the New Jersey State Soil Conservation Committee
Standards for Soil Erosion and Sediment Control in New Jersey, which
is incorporated herein by reference, as amended and supplemented.
B.
Stormwater runoff quantity and rate standards.
(1)
There shall be no direct discharge of stormwater runoff from any
point or nonpoint source to any wetland, wetlands transition area
or surface water body. In addition, stormwater runoff shall not be
directed in such a way as to increase the volume and/or rate of discharge
into any surface water body from that which existed prior to development
of the site.
(2)
To the maximum extent practical, there shall be no direct discharge
of stormwater runoff onto farm fields so as to protect farm crops
from damage due to flooding, erosion and long-term saturation of cultivated
crops and cropland.
(3)
For all major developments, the total runoff volume generated from
the net increase in impervious surfaces by a ten-year, twenty-four-hour
storm shall be retained and infiltrated on site.
(4)
In addition, the design engineer, using the assumptions and factors for stormwater runoff and groundwater recharge calculations contained in § 241-3, shall either:
(a)
Demonstrate through hydrologic and hydraulic analysis that the
post-developed stormwater runoff hydrographs from the project site
for the two-, ten-, and one-hundred-year storms do not exceed, at
any point in time, the site's predeveloped runoff hydrographs
for the same storms;
(b)
Demonstrate through hydrologic and hydraulic analysis that under
post-developed site conditions:
[1]
There is no increase in predeveloped stormwater runoff rates
from the project site for the two-, ten-, and one-hundred-year storms;
and
[2]
Any increased stormwater runoff volume or change in stormwater
runoff timing for the two-, ten-, and one-hundred-year storms will
not increase flood damage at or downstream of the project site. When
performing this analysis for predeveloped site conditions, all off-site
development levels shall reflect existing conditions. When performing
this analysis for post-developed site conditions, all off-site development
levels shall reflect full development in accordance with current zoning
and land use ordinances[1]; or
(c)
Demonstrate that the peak post-developed stormwater runoff rates
from the project site for the two-, ten-, and one-hundred-year storms
are 50%, 75% and 80%, respectively, of the site's peak predeveloped
stormwater runoff rates for the same storms. Peak outflow rates from
on-site stormwater measures for these storms shall be adjusted where
necessary to account for the discharge of increased stormwater runoff
rates and/or volumes from project site areas not controlled by the
on-site measures. These percentages do not have to be applied to those
portions of the project site that are not proposed for development
at the time of application, provided that such areas:
C.
Groundwater recharge standards.
(1)
For all major developments, with the exception of those described in § 241-4C(4) below, the design engineer, using the assumptions and factors for stormwater runoff and groundwater recharge calculations contained in § 241-3, shall either:
(a)
Demonstrate through hydrologic and hydraulic analysis that the
post-developed project site maintains 100% of the site's predeveloped
average annual groundwater recharge volume; or
(b)
Demonstrate through hydrologic and hydraulic analysis that any
increase in the project site's stormwater runoff volume for the
two-year, twenty-four-hour storm from predeveloped to post-developed
conditions is infiltrated on site.
(2)
The design engineer shall assess the hydraulic impact on the groundwater
table and design the project site and all site groundwater recharge
measures so as to avoid adverse hydraulic impacts. Adverse hydraulic
impacts include, but are not limited to, raising the groundwater table
so as to cause surface ponding; flooding of basements and other subsurface
structures and areas; preventing a stormwater infiltration basin from
completely draining via infiltration within 72 hours of a design storm
event; and interference with the proper operation of subsurface sewage
disposal systems and other surface and subsurface facilities in the
vicinity of the groundwater recharge measure.
D.
Erosion control standards. The minimum design and performance standards
for erosion control are those established under the Soil Erosion and
Sediment Control Act, N.J.S.A. 4:24-39 et seq., and its implementing
regulations, N.J.A.C. 2:90-1.1 through 2:90-1.4.
E.
Stormwater runoff quality standards.
(1)
There shall be no direct discharge of stormwater runoff from any
point or nonpoint source to any wetland, wetland transition area or
surface water body.
(2)
Stormwater management measures shall be designed to reduce the total
suspended solids (TSS) load in the stormwater runoff from the post-developed
site by 80%, expressed as an annual average.
(3)
Stormwater management measures shall also be designed to reduce the
nutrient load in the stormwater runoff from the post-developed site
by the maximum extent practicable. In achieving this reduction, the
design of the development site shall include nonstructural and structural
stormwater management measures that optimize nutrient removal while
still achieving the groundwater recharge, runoff quantity and rate,
and TSS removal standards in this section.
(4)
The standards for stormwater runoff quality required by this section shall be met using the methods, calculations, assumptions and pollutant removal rates provided in § 241-3.
(5)
Exceptions.
F.
Additional stormwater quality standards for high pollutant loading
areas and areas where stormwater runoff is exposed to source material.
(2)
For a major development in areas described in Subsection F(1)(a) or (b) above, in addition to the infiltration requirements specified in Subsection B(2) and the groundwater recharge requirements specified in Subsection C, the applicant shall demonstrate in the land use planning and source control plan required in § 241-2C(1)(d) that the following requirements have been met:
(b)
The stormwater runoff from the areas described in Subsection F(1)(a) and (b) above is segregated to the maximum extent practicable from the stormwater runoff generated from the remainder of the site such that co-mingling of the stormwater runoff from the areas described in Subsection F(1)(a) and (b) above and the remainder of the site will be minimized;
(d)
The stormwater runoff from or co-mingled with the areas described in Subsection F(1)(a) and (b) above for the water quality design storm, defined in § 241-3B, Table 1, shall be subject to pretreatment by one or more of the following stormwater BMPs, designed in accordance with the New Jersey BMP Manual to provide ninety-percent TSS removal:
[1]
Bioretention system;
[2]
Sand filter;
[3]
Wet ponds, which shall be hydraulically disconnected by a minimum
of two feet of vertical separation from the seasonal high water table
and shall be designed to achieve a minimum eighty-percent TSS removal
rate;
[4]
Constructed stormwater wetlands; and/or
[5]
Media filtration system manufactured treatment device with a
minimum eighty-percent TSS removal as verified by the New Jersey Corporation
for Advanced Technology and as certified by NJDEP.
(e)
If the potential for contamination of stormwater runoff by petroleum products exists on site, prior to being conveyed to the pretreatment BMP required in Subsection F(2)(d) above, the stormwater runoff from the areas described in Subsection F(1)(a) and (b) above shall be conveyed through an oil/grease separator or other equivalent manufactured filtering device to remove the petroleum hydrocarbons. The applicant shall provide the reviewing agency with sufficient data to demonstrate acceptable performance of the device.
G.
Threatened and endangered species and associated habitat standards.
Stormwater management measures shall address the impacts of the development
on habitat for threatened and endangered species, in accordance with
N.J.A.C. 7:8-5.2(c), N.J.A.C. 7:50-6.27, and 7:50-6.33 and 7:50-6.34.
H.
Exceptions and mitigation requirements.
(1)
Exceptions from strict compliance from the groundwater recharge,
stormwater runoff quantity, and stormwater runoff quality requirements
established by this chapter may be granted, at the discretion of the
City of Port Republic, and subject to approval by the Pinelands Commission,
provided that all of the following conditions are met:
(a)
The exception is consistent with that allowed by the City of Port
Republic.
(b)
The City of Port Republic has an adopted and effective municipal
stormwater management plan in accordance with N.J.A.C. 7:8-4.4, which
includes a mitigation plan in accordance with N.J.A.C. 7:8-4.2(c)11,
and is also certified by the Pinelands Commission. The mitigation
plan shall identify what measures are necessary to offset the deficit
created by granting the exception, and the municipality shall submit
a written report to the county review agency and the NJDEP describing
the exception and the required mitigation. Guidance for developing
municipal stormwater management plans, including mitigation plans,
is available from the NJDEP, Division of Watershed Management, and
the New Jersey BMP Manual.
(c)
The applicant demonstrates that mitigation, in addition to the requirements of the mitigation plan discussed in Subsection H(1)(b) above, will be provided consistent with one of the following options:
[1]
Mitigation may be provided off site, but within the Pinelands
Area and within the same drainage area as the development site, and
shall meet or exceed the equivalent recharge, quality or quantity
performance standard which is lacking on the development site due
to the exception; or
[2]
In lieu of the required mitigation, a monetary in-lieu contribution
may be provided by the applicant to the City of Port Republic in accordance
with the following:
[a]
The amount of the in-lieu contribution shall be determined by
the City of Port Republic, but the maximum in-lieu contribution required
shall be equivalent to the cost of implementing and maintaining the
stormwater management measure(s) for which the exception is granted.
[b]
The in-lieu contribution shall be used to fund an off-site stormwater control mitigation project(s) located within the Pinelands Area, within the same drainage area as the development site, and shall meet or exceed the equivalent recharge, quality or quantity performance standards which is lacking on the development site. Such mitigation project shall be identified by the City of Port Republic in the City of Port Republic's adopted municipal stormwater management plan. The stormwater control project to which the monetary contribution will be applied shall be identified by the City of Port Republic at the time the exception is granted. The applicant shall amend the project description and site plan required in § 241-2C(1)(c) to incorporate a description of both the standards for which an on-site exception is being granted and of the selected off-site mitigation project.
[c]
The City of Port Republic shall expend the in-lieu contribution to implement the selected off-site mitigation project within five years from the date that payment is received. Should the City of Port Republic fail to expend the in-lieu contribution within the required time frame, the mitigation option provided in Subsection H(1)(c)[2] of this chapter shall be void, and the City of Port Republic shall be prohibited from collecting in-lieu contributions.
(2)
An exception from strict compliance granted in accordance with Subsection H(1) above shall not constitute a waiver of strict compliance from the requirements of the Pinelands Comprehensive Management Plan at N.J.A.C. 7:50. An applicant should contact the Pinelands Commission to determine whether a waiver of strict compliance is also required in accordance with N.J.A.C. 7:50, Subchapter 4, Part V.
A.
General design and construction standards.
(1)
Structural stormwater management measures shall be designed to meet
the standards established in this section. These standards have been
developed to protect public safety, conserve natural features, create
an aesthetically pleasing site and promote proper on-site stormwater
management.[1]
[1]
Editor's Note: Ordinance No. 01-2008, which adopted this chapter,
also provided as follows: "Though not required by N.J.A.C. 7:8, pursuant
to their authority, municipalities may have the option to require
existing basins that pose a public health or safety hazard to be retrofitted
to comply with the standards in this subsection."
(2)
The following structural stormwater management measures may be utilized
as part of a stormwater management system at a major land development
in the Pinelands, provided that the applicant demonstrates that they
are designed, constructed and maintained so as to meet the standards
and requirements established by this chapter. If alternative stormwater
management measures are proposed, the applicant shall demonstrate
that the selected measures will achieve the standards established
by this chapter.
(a)
Bioretention systems;
(b)
Constructed stormwater wetlands;
(c)
Extended detention basins;
(d)
Infiltration basins;
(e)
Vegetated filter strips;
(f)
Infiltration basins and trenches;
(g)
Wet ponds with suitable liners;
(h)
Pervious paving systems; and
(i)
Manufactured treatment devices, provided their pollutant removal
rates are verified by the New Jersey Corporation for Advanced Technology
and certified by the NJDEP.
(3)
Structural stormwater management measures shall be designed to take
into account the existing site conditions, including environmentally
critical areas, wetlands, flood-prone areas, slopes, depth to seasonal
high water table, soil type, permeability and texture, and drainage
area and drainage patterns.
(4)
Structural stormwater management measures shall be designed and constructed
to be strong, durable, and corrosion-resistant (measures that are
consistent with the relevant portions of the Residential Site Improvement
Standards at N.J.A.C. 5:21-7.3, 5:21-7.4, and 5:21-7.8 shall be deemed
to meet this requirement); to minimize and facilitate maintenance
and repairs; and to ensure proper functioning.
(5)
For all stormwater management measures at a development site, each
applicant shall submit a detailed inspection, maintenance and repair
plan consistent with the requirements of this section.
(6)
To the maximum extent practicable, the design engineer shall design
structural stormwater management measures on the development site
in a manner that:
(a)
Limits site disturbance, maximizes stormwater management efficiencies,
and maintains or improves aesthetic conditions;
(b)
Utilizes multiple stormwater management measures, smaller in
size and distributed spatially throughout the land development site,
instead of a single, larger structural stormwater management measure;
(c)
Incorporates pretreatment measures. Pretreatment can extend
the functional life and increase the pollutant removal capability
of a structural stormwater management measure. Pretreatment measures
may be designed in accordance with the New Jersey BMP Manual or other
sources approved by the Municipal Engineer.
(7)
Stormwater management basins shall be designed in a manner that complements
and mimics the existing natural landscape, including but not limited
to the following design strategies:
(a)
Use of natural, nonwetland wooded depressions for stormwater
runoff storage; and
(b)
Establishment of attractive landscaping in and around the basin
that mimics the existing vegetation and incorporates native Pinelands
plants, including, but not limited to, the species listed in N.J.A.C.
7:50-6.25 and 7:50-6.26.
(8)
Stormwater management basins shall be designed with gently sloping
sides. The maximum allowable basin side slope shall be three horizontal
to one vertical.
(9)
Guidance on the design and construction of structural stormwater
management measures may be found in the New Jersey BMP Manual. Other
guidance sources may also be used upon approval by the Municipal Engineer.
(10)
After all construction activities and required field testing
have been completed on the development site, as-built plans depicting
design and as-built elevations of all stormwater management measures
shall be prepared by a licensed land surveyor and submitted to the
Municipal Engineer. Based upon the Municipal Engineer's review
of the as-built plans, all corrections or remedial actions deemed
by the Municipal Engineer to be necessary due to the failure to comply
with the standards established by this chapter and/or any reasons
of public health or safety shall be completed by the applicant. In
lieu of review by the Municipal Engineer, the City of Port Republic
reserves the right to engage a professional engineer to review the
as-built plans. The applicant shall pay all costs associated with
such review.
B.
Design and construction standards for stormwater infiltration BMPs.
(1)
Stormwater infiltration BMPs, such as bioretention systems with infiltration,
dry wells, infiltration basins, pervious paving systems with storage
beds, and sand filters with infiltration, shall be designed, constructed
and maintained to completely drain the total runoff volume generated
by the basin's maximum design storm within 72 hours after a storm
event. Runoff storage for greater times can render the BMP ineffective
and may result in anaerobic conditions, odor and both water quality
and mosquito breeding problems.
(2)
Stormwater infiltration BMPs shall be designed, constructed and maintained
to provide a minimum separation of at least two feet between the elevation
of the lowest point of the bottom of the infiltration BMP and the
seasonal high water table.
(3)
A stormwater infiltration BMP shall be sited in suitable soils verified
by field testing to have permeability rates between one and 20 inches
per hour. If such site soils do not exist or if the design engineer
demonstrates that it is not practical for engineering, environmental
or safety reasons to site the stormwater infiltration BMP(s) in such
soils, then the stormwater infiltration BMP(s) may be sited in soils
verified by field testing to have permeability rates in excess of
20 inches per hour, provided that a bioretention system, designed,
installed and maintained in accordance with the New Jersey BMP Manual,
is installed to meet one of the following conditions:
(a)
The bioretention system is constructed as a separate measure
designed to provide pretreatment of stormwater and to convey the pretreated
stormwater into the infiltration BMP; or
(b)
The bioretention system is integrated into and made part of
the infiltration BMP and, as such, does not require an underdrain
system. If this option is selected, the infiltration BMP shall be
designed and constructed so that the maximum water depth in the bioretention
system portion of the BMP during treatment of the stormwater quality
design storm is 12 inches in accordance with the New Jersey BMP Manual.
(4)
The minimum design permeability rate for the soil within a BMP that relies on infiltration shall be 0.5 inch per hour. A factor of safety of two shall be applied to the soil's field-tested permeability rate to determine the soil's design permeability rate. For example, if the field-tested permeability rate of the soil is four inches per hour, its design permeability rate would be two inches per hour. The minimum design permeability rate for the soil within a stormwater infiltration basin shall also be sufficient to achieve the minimum seventy-two-hour drain time described in Subsection B(1) above. The maximum design permeability shall be 10 inches per hour.
(5)
A soil's field-tested permeability rate shall be determined
in accordance with the following:
(a)
The predevelopment field test permeability rate shall be determined according to the methodologies provided in § 241-9C(3) of this chapter;
(b)
The results of the required field permeability tests shall demonstrate
a minimum tested infiltration rate of one inch per hour;
(c)
After all construction activities have been completed on the site and the finished grade has been established in the infiltration BMP, post-development field permeability tests shall also be conducted according to the methodologies provided in § 241-9C(3) of this chapter;
(d)
If the results of the post-development field permeability tests fail to achieve the minimum required design permeability rates in Subsection B(5) above utilizing a factor of safety of two, the stormwater infiltration BMP shall be renovated and retested until such minimum required design permeability rates are achieved; and
(e)
The results of all field permeability tests shall be certified
by a professional engineer and transmitted to the Municipal Engineer.
(6)
To help ensure maintenance of the design permeability rate over time,
a six-inch layer of K5 soil shall be placed on the bottom of a stormwater
infiltration BMP. This soil layer shall meet the textural and permeability
specifications of a K5 soil as provided at N.J.A.C. 7:9A, Appendix
A, Figure 6, and be certified to meet these specifications by a professional
engineer licensed in the State of New Jersey. The depth to the seasonal
high water table shall be measured from the bottom of the K5 sand
layer.
(7)
The design engineer shall assess the hydraulic impact on the groundwater
table and design the project site and all stormwater infiltration
basins so as to avoid adverse hydraulic impacts. Adverse hydraulic
impacts include, but are not limited to, raising the groundwater table
so as to cause surface ponding; flooding of basements and other subsurface
structures and areas; preventing a stormwater infiltration basin from
completely draining via infiltration within 72 hours of a design storm
event; and interference with the proper operation of subsurface sewage
disposal systems and other surface and subsurface structures in the
vicinity of the stormwater infiltration basin.
(8)
The design engineer shall conduct a mounding analysis, as defined in § 241-7, of all stormwater infiltration BMPs. The mounding analysis shall be conducted in accordance with the requirements in § 241-9C(3)(l). Where the mounding analysis identifies adverse impacts, the stormwater infiltration BMP shall be redesigned or relocated, as appropriate.
(9)
Stormwater infiltration BMPs shall be constructed in accordance with
the following:
(a)
To avoid sedimentation that may result in clogging and reduce
the basin's permeability rate, stormwater infiltration basins
shall be constructed according to the following:
[1]
Unless the conditions in Subsection B(9)(a)[2] below are met, a stormwater infiltration basin shall not be placed into operation until its drainage area is completely stabilized. Instead, upstream runoff shall be diverted around the basin and into separate, temporary stormwater management facilities and sediment basins. Such temporary facilities and basins shall be installed and utilized for stormwater management and sediment control until stabilization is achieved in accordance with the Standards for Soil Erosion and Sediment Control in New Jersey, which is incorporated herein by reference, as amended and supplemented.
[2]
If the design engineer determines that, for engineering, environmental or safety reasons, temporary stormwater management facilities and sediment basins cannot be constructed on the site, the stormwater infiltration basin may be placed into operation prior to the complete stabilization of its drainage area, provided that the basin's bottom during this period is constructed at a depth at least two feet higher than its final design elevation. All other infiltration BMP construction requirements in this section shall be followed. When the drainage area is completely stabilized, all accumulated sediment shall be removed from the infiltration BMP, which shall then be excavated to its final design elevation in accordance with the construction requirements of this section and the performance standards in § 241-4.
(b)
To avoid compaction of subgrade soils of BMPs that rely on infiltration, no heavy equipment such as backhoes, dump trucks or bulldozers shall be permitted to operate within the footprint of the BMP. All excavation required to construct a stormwater infiltration BMP shall be performed by equipment placed outside the BMP. If this is not possible, the soils within the excavated area shall be renovated and tilled after construction is completed to reverse the effects of compaction. In addition, post-development soil permeability testing shall be performed in accordance with Subsection B(5) of this section.
(c)
Earthwork associated with stormwater infiltration BMP construction,
including excavation, grading, cutting or filling, shall not be performed
when soil moisture content is above the lower plastic limit.
C.
Safety standards for structural stormwater management measures.
(1)
If a structural stormwater management measure has an outlet structure,
escape provisions shall be incorporated in or on the structure. "Escape
provisions" means the permanent installation of ladders, steps, rungs,
or other features that provide readily accessible means of ingress
and egress from the outlet structure.
(2)
A trash rack is a device intended to intercept runoff-borne trash
and debris that might otherwise block the hydraulic openings in an
outlet structure of a structural stormwater management measure. Trash
racks shall be installed upstream of such outlet structure openings
as necessary to ensure proper functioning of the structural stormwater
management measure in accordance with the following:
(a)
The trash rack should be constructed primarily of bars aligned
in the direction of flow with one-inch spacing between the bars to
the elevation of the water quality design storm. For elevations higher
than the water quality design storm, the bars shall be spaced no greater
than 1/3 the width of the hydraulic opening it is protecting or six
inches, whichever is less. Transverse bars aligned perpendicular to
flow should be sized and spaced as necessary for rack stability and
strength.
(b)
The trash rack shall not adversely affect the hydraulic performance
of either the outlet structure opening it is protecting or the overall
outlet structure.
(c)
The trash rack shall have sufficient net open area under clean
conditions to limit the peak design storm velocity through it to a
maximum of 2.5 feet per second.
(d)
The trash rack shall be constructed and installed to be rigid,
durable, and corrosion-resistant and shall be designed to withstand
a perpendicular live loading of 300 pounds per square foot.
(3)
An "overflow grate" is a device intended to protect the opening in
the top of a stormwater management measure outlet structure. If an
outlet structure has an overflow grate, such grate shall meet the
following requirements:
(a)
The overflow grate shall be secured to the outlet structure
but removable for emergencies and maintenance;
(b)
The overflow grate spacing shall be no more than two inches
across the smallest dimension; and
(c)
The overflow grate shall be constructed and installed to be
rigid, durable, and corrosion-resistant and shall be designed to withstand
a perpendicular live loading of 300 pounds per square foot.
(4)
The maximum side slope for an earthen dam, embankment, or berm shall
not be steeper than three horizontal to one vertical.
(5)
Safety ledges.
(a)
Safety ledges shall be constructed on the slopes of all new structural stormwater management measures having a permanent pool of water deeper than 2 1/2 feet. Such safety ledges shall be comprised of two steps. Each step shall be four feet to six feet in width. One step shall be located approximately 2 1/2 feet below the permanent water surface, and the second step shall be located 1 1/2 feet above the permanent water surface. See Subsection C(5)(b) below for an illustration of safety ledges in a stormwater management basin.
B.
General inspection, maintenance and repair plan.
(1)
The design engineer shall prepare an inspection, maintenance and repair plan for the stormwater management measures, including both structural and nonstructural measures incorporated into the design of a major development. This plan shall be submitted as part of the checklist requirements established in § 241-2C. Inspection and maintenance guidelines for stormwater management measures are available in the New Jersey BMP Manual.
(2)
The inspection, maintenance and repair plan shall contain the following:
(a)
Accurate and comprehensive drawings of the site's stormwater
management measures;
(b)
Specific locations of each stormwater management measure, identified
by means of longitude and latitude, as well as block and lot number;
(c)
Specific preventative and corrective maintenance tasks and schedules
for such tasks for each stormwater BMP;
(d)
Cost estimates, including estimated cost of sediment, debris
or trash removal; and
(e)
The name, address and telephone number of the person or persons
responsible for regular inspections and preventative and corrective
maintenance (including repair and replacement). If the responsible
person or persons is a corporation, company, partnership, firm, association,
municipality or political subdivision of this state, the name and
telephone number of an appropriate contact person shall also be included.
(3)
The person responsible for inspection, maintenance and repair identified under Subsection B(2) above shall maintain a detailed log of all preventative and corrective maintenance performed for the site's stormwater management measures, including a record of all inspections and copies of all maintenance-related work orders in the inspection, maintenance and repair plan. Said records and inspection reports shall be retained for a minimum of five years.
(4)
If the inspection, maintenance and repair plan identifies a person
other than the developer (for example, a public agency or homeowners'
association) as having the responsibility for inspection and maintenance,
the plan shall include documentation of such person's agreement
to assume this responsibility, or of the developer's obligation
to dedicate a stormwater management measure to such person under an
applicable ordinance or regulation.
(5)
If the person responsible for inspection, maintenance and repair identified under Subsection B(3) above is not a public agency, the maintenance plan and any future revisions based on Subsection B(6) below shall be recorded upon the deed of record for each property on which the maintenance described in the maintenance plan shall be undertaken.
(6)
The person responsible for inspection, maintenance and repair identified under Subsection B(2) above shall evaluate the effectiveness of the inspection, maintenance and repair plan at least once per year and update the plan and the deed as needed.
(8)
The person responsible for inspection, maintenance and repair identified under Subsection B(2) above shall retain and make available, upon request by any public entity with administrative, health, environmental or safety authority over the site, the inspection, maintenance and repair plan and the documentation required by Subsection B(2) and (3) above.
C.
Responsibility for inspection, repair and maintenance shall not be
assigned or transferred to the owner or tenant of an individual property
in a residential development or project, unless such owner or tenant
owns or leases the entire residential development or project.
D.
Preventative and corrective maintenance shall be performed to maintain
the function of the stormwater management measure, including, but
not limited to, repairs or replacement to any associated appurtenance
of the measure; removal of sediment, debris, or trash; restoration
of eroded areas; snow and ice removal; fence repair or replacement;
restoration of vegetation; repair or replacement of linings; and restoration
of infiltration function.
E.
Stormwater management measure easements shall be provided by the
property owner as necessary for facility inspections and maintenance
and preservation of stormwater runoff conveyance, infiltration, and
detention areas and facilities. The purpose of the easement shall
be specified in the maintenance agreement.
F.
In the event that the stormwater management measure becomes a public
health nuisance or danger to public safety or public health, or if
it is in need of maintenance or repair, the City of Port Republic
shall so notify the responsible person in writing. Upon receipt of
that notice, the responsible person shall have 14 days to effect maintenance
and repair of the facility in a manner that is approved by the Municipal
Engineer or the Municipal Engineer's designee. The City of Port
Republic, at its discretion, may extend the time allowed for effecting
maintenance and repair for good cause. If the responsible person fails
or refuses to perform such maintenance and repair within the allowable
time, the City of Port Republic may immediately proceed to do so with
its own forces and equipment and/or through contractors. The costs
and expenses of such maintenance and repair by the City of Port Republic
shall be entered on the tax roll as a special charge against the property
and collected with any other taxes levied thereon for the year in
which the maintenance and repair was performed.
G.
Requirements for inspection, maintenance and repair of stormwater
BMPs that rely on infiltration.
(1)
If
a stormwater infiltration BMP is incorporated into the design of a
major development, the applicant shall include the following requirements
in its inspection, maintenance and repair plan:
(a)
Once per month (if needed): mow side slopes, remove litter and
debris, stabilize eroded banks, repair erosion at inflow structure(s);
(b)
After every storm exceeding one inch of rainfall: ensure that
infiltration BMPs drain completely within 72 hours after the storm
event. If stored water fails to infiltrate 72 hours after the end
of the storm, corrective measures shall be taken. Raking or tilling
by light equipment can assist in maintaining infiltration capacity
and break up clogged surfaces;
(c)
Four times per year (quarterly): inspect stormwater infiltration
BMPs for clogging and excessive debris and sediment accumulation within
the BMP, remove sediment (if needed) when completely dry;
(d)
Two times per year: inspect for signs of damage to structures,
repair eroded areas, check for signs of petroleum contamination and
remediate;
(e)
Once per year: inspect BMPs for unwanted tree growth and remove
if necessary, disc or otherwise aerate bottom of infiltration basin
to a minimum depth of six inches; and
(f)
After every storm exceeding one inch of rainfall: inspect and, if
necessary, remove and replace K5 sand layer and accumulated sediment
to restore original infiltration rate.
(2)
Additional guidance for the inspection, maintenance and repair of
stormwater infiltration BMPs can be found in the New Jersey BMP Manual.
H.
Financing of inspection, maintenance and repair of stormwater BMPs.
An adequate means of ensuring permanent financing of the inspection,
maintenance and repair of stormwater BMPs shall be implemented and
detailed in the inspection, maintenance and repair plan. Permanent
financing of the inspection, maintenance and repair of stormwater
BMPs shall be accomplished by:[1]
(1)
The assumption of the inspection and maintenance program by a municipality,
county, public utility or homeowner's association.
(2)
The required payment of fees to a municipal stormwater fund in an
amount equivalent to the cost of both ongoing maintenance activities
and necessary structural replacements. The fee schedule is attached.
(3)
Other suitable method approved by the municipality.
[1]
Editor's Note: Ordinance No. 01-2008, which adopted this chapter,
also provided as follows: "The municipality must choose which option,
or combination of options, to adopt. For example, the municipality
may require dedication of some basins to the municipality, while requiring
homeowner's associations to maintain other basins. However the
municipality chooses to approach inspection, maintenance and repair,
only those chosen options shall be listed in the adopted ordinance.
If option B is chosen, the municipality must attach a fee schedule
documenting how much developers must pay for each stormwater management
measure. The fee schedule may be updated as often as the municipality
desires."
Unless specifically defined below, words or phrases used in
this chapter shall be interpreted so as to give them the meaning they
have in common usage and to give this chapter its most reasonable
application. When used in this chapter, the following terms shall
have the meanings herein ascribed to them:
The propagation, rearing and subsequent harvesting of aquatic
organisms in controlled or selected environments and their subsequent
processing, packaging and marketing, including, but not limited to,
activities to intervene in the rearing process to increase production,
such as stocking, feeding, transplanting and providing for protection
from predators.
Either a written statement signed and sealed by a licensed
New Jersey professional engineer attesting that a BMP design or stormwater
management system conforms to or meets a particular set of standards
or to action taken by the Commission pursuant to N.J.A.C. 7:50-3,
Part II or Part IV. Depending upon the context in which the term is
used, the terms "certify" and "certified" shall be construed accordingly.
The Planning Board, Zoning Board of Adjustment[1] or other board, agency or official of the City of Port
Republic with authority to approve or disapprove subdivisions, site
plans, construction permits, building permits or other applications
for development approval. For the purposes of reviewing development
applications and ensuring compliance with the requirements of this
chapter, the City of Port Republic may designate the Municipal Engineer
or other qualified designee to act on behalf of the City of Port Republic.
The increase in soil bulk density caused by subjecting soil
to greater-than-normal loading. Compaction can also decrease soil
infiltration and permeability rates.
The construction, erection, reconstruction, alteration, conversion,
demolition, removal or equipping of buildings, structures or components
of a stormwater management system, including but not limited to collection
inlets, stormwater piping, swales and all other conveyance systems,
and stormwater BMPs.
An agency designated by the County Board of Chosen Freeholders
to review municipal stormwater management plans and implementing ordinance(s).
The county review agency may either be:
A person professionally qualified and duly licensed in New
Jersey to perform engineering services that may include, but not necessarily
be limited to, development of project requirements, creation and development
of project design and preparation of drawings and specifications.
The tested permeability rate with a factor of safety of two
applied to it (e.g., if the tested permeability rate of the soils
is four inches per hour, the design rate would be two inches per hour).
The change of or enlargement of any use or disturbance of any
land, the performance of any building or mining operation, the division
of land into two or more parcels, and the creation or termination
of rights of access or riparian rights, including, but not limited
to:
A change in type of use of a structure or land;
A reconstruction, alteration of the size, or material change
in the external appearance of a structure or land;
A material increase in the intensity of use of land, such as
an increase in the number of businesses, manufacturing establishments,
offices or dwelling units in a structure or on land;
Commencement of resource extraction or drilling or excavation
on a parcel of land;
Demolition of a structure or removal of trees;
Commencement of forestry activities;
Deposit of refuse, solid or liquid waste or fill on a parcel
of land;
In connection with the use of land, the making of any material
change in noise levels, thermal conditions, or emissions of waste
material; and
Alteration, either physically or chemically, of a shore, bank,
or floodplain, seacoast, river, stream, lake, pond, wetlands or artificial
body of water.
In the case of development on agricultural land, i.e., lands
used for an agricultural use or purpose as defined at N.J.A.C. 7:50-2.11,
"development" means any activity that requires a state permit; any
activity reviewed by the County Agricultural Boards (CAB) and the
State Agricultural Development Committee (SADC), and municipal review
of any activity not exempted by the Right to Farm Act, N.J.S.A. 4:1C-1
et seq.
Any division of land into five or more lots; any construction
or expansion of any housing development of five or more dwelling units;
any construction or expansion of any commercial or industrial use
or structure on a site of more than three acres; or any development,
grading, clearing or disturbance of an area in excess of 5,000 square
feet. "Disturbance," for the purpose of this chapter, is the placement
of impervious surface or exposure and/or movement of soil or bedrock
or clearing, cutting or removing of vegetation.
All development other than major development.
A geographic area within which stormwater, sediments, or
dissolved materials drain to a BMP, a stormwater management system,
a particular receiving water body or a particular point along a receiving
water body.
An area or feature which is of significant environmental
value, including but not limited to stream corridors; natural heritage
priority sites; habitat of endangered or threatened animal species;
threatened or endangered plants of the Pinelands pursuant to N.J.A.C.
7:50-6.27(a); large areas of contiguous open space or upland forest;
steep slopes; and wellhead protection and groundwater recharge areas.
"Threatened and endangered habitat" constitutes habitat that is critical
for the survival of a local population of threatened and endangered
species or habitat that is identified using the Department's
Landscape Project as approved by the Department's Endangered
and Nongame Species Program, whichever is more inclusive. Threatened
and endangered wildlife shall be protected in conformance with N.J.A.C.
7:50-6.33.
The approval by the approving authority of a variance or
other material departure from strict compliance with any section,
part, phrase or provision of this chapter. An exception may be granted
only under certain specific, narrowly defined conditions described
herein and does not constitute a waiver of strict compliance with
any section, part, phrase or provision of the Pinelands Comprehensive
Management Plan (N.J.A.C. 7:50-1.1 et seq.).
A facility constructed through filling and/or excavation
that provides temporary storage of stormwater runoff. It has an outlet
structure that detains and attenuates runoff inflows and promotes
the settlement of pollutants. An extended detention basin is normally
designed as a multistage facility that provides runoff storage and
attenuation for both stormwater quality and quantity management. The
term "stormwater detention basin" shall have the same meaning as "extended
detention basin."
The elevation of the surface of the ground after completion
of final grading, either via cutting, filling or a combination thereof.
Modification of a land slope by cutting and filling with
the native soil or redistribution of the native soil which is present
at the site.
Water below the land surface in a zone of saturation.
A test performed to demonstrate that the groundwater below
a stormwater infiltration basin will not mound up, encroach on the
unsaturated zone, break the surface of the ground at the infiltration
area or downslope, and create an overland flow situation.
Equipment, machinery, or vehicles that exert ground pressure
in excess of eight pounds per square inch.
An area in an industrial or commercial development site where
solvents and/or petroleum products are loaded/unloaded, stored, or
applied; where pesticides are loaded/unloaded or stored; where hazardous
materials are expected to be present in greater than reportable quantities,
as defined by the United States Environmental Protection Agency (EPA)
at 40 CFR 302.4; where recharge would be inconsistent with an NJDEP-approved
remedial action work plan or landfill closure plan; and/or where a
high risk exists for spills of toxic materials, such as gas stations
and vehicle maintenance facilities. The term "HPLA" shall have the
same meaning as "high pollutant loading area."
A surface that has been covered with a layer of material
so that it is highly resistant to infiltration by water.
The process by which precipitation enters the soil through
its surface.
A monetary fee collected by the City of Port Republic in
lieu of requiring strict on-site compliance with the groundwater recharge,
stormwater runoff quantity and/or stormwater runoff quality standards
established in this chapter.
To assemble, construct, put in place or connect components
of a stormwater management system.
Acts necessary to prevent, limit, remedy or compensate for
conditions that may result from those cases where an applicant has
demonstrated the inability or impracticality of strict compliance
with the stormwater management requirements set forth in N.J.A.C.
7:8, in an adopted regional stormwater management plan, or in a local
ordinance which is as protective as N.J.A.C. 7:8, and an exception
from strict compliance is granted by the City of Port Republic and
the Pinelands Commission.
Guidance developed by the New Jersey Department of Environmental
Protection, in coordination with the New Jersey Department of Agriculture,
the New Jersey Department of Community Affairs, the New Jersey Department
of Transportation, municipal engineers, county engineers, consulting
firms, contractors, and environmental organizations, to address the
standards in the New Jersey Stormwater Management Rules, N.J.A.C.
7:8. The BMP Manual provides examples of ways to meet the standards
contained in the rule. An applicant may demonstrate that other proposed
management practices will also achieve the standards established in
the rules. The manual, and notices regarding future versions of the
manual, are available from the Division of Watershed Management, NJDEP,
P.O. Box 418, Trenton, New Jersey 08625; and on the NJDEP's website,
www.njstormwater.org. The term "New Jersey BMP Manual" shall have
the same meaning as "New Jersey Stormwater Best Management Practices
Manual."
The New Jersey Department of Environmental Protection.
The New Jersey Pollutant Discharge Elimination System as
set forth in N.J.S.A. 58:10A-1 et seq. and in N.J.A.C. 7:14A.
A permit issued by the NJDEP pursuant to the authority of
the Water Pollution Control Act, N.J.S.A. 58:10A-1 et seq., and N.J.A.C.
7:14A for a discharge of pollutants.
Any human-made or human-induced activity, factor, or condition,
other than a point source, from which pollutants are or may be discharged;
any human-made or human-induced activity, factor, or condition, other
than a point source, that may temporarily or permanently change any
chemical, physical, biological, or radiological characteristic of
waters of the state from what was or is the natural, pristine condition
of such waters, or that may increase the degree of such change; or
any activity, factor, or condition, other than a point source, that
contributes or may contribute to water pollution.
The term "NPS" shall have the same meaning as "nonpoint source."
A stormwater management measure, strategy or combination
of strategies that reduces adverse stormwater runoff impacts through
sound site planning and design. Nonstructural BMPs include such practices
as minimizing site disturbance, preserving important site features,
reducing and disconnecting impervious cover, flattening slopes, utilizing
native vegetation, minimizing turf grass lawns, maintaining natural
drainage features and characteristics and controlling stormwater runoff
and pollutants closer to the source. The term "low-impact development
technique" shall have the same meaning as "nonstructural BMP."
A chemical element or compound, such as nitrogen or phosphorus,
which is essential to and promotes the development of organisms.
The rate at which water moves through a saturated unit area
of soil or rock material at hydraulic gradient of one, determined
as prescribed in N.J.A.C. 7:9A-6.2 (Tube Permeameter Test), N.J.A.C.
6.5 (Pit-Bailing Test) or N.J.A.C. 6.6 (Piezometer Test). Alternative
permeability test procedures may be accepted by the approving authority,
provided the test procedure attains saturation of surrounding soils,
accounts for hydraulic head effects on infiltration rates, provides
a permeability rate with units expressed in inches per hour and is
accompanied by a published source reference. Examples of suitable
sources include hydrogeology, geotechnical, or engineering text and
design manuals, proceedings of American Society for Testing and Materials
(ASTM) symposia, or peer-review journals. Neither a soil permeability
class rating test, as described in N.J.A.C. 7:9A-6.3, nor a percolation
test, as described in N.J.A.C. 7:9A-6.4, is an acceptable test for
establishing permeability values for the purpose of complying with
this chapter.
Having a permeability of one inch per hour or faster. The
terms "permeable soil," "permeable rock" and "permeable fill" shall
be construed accordingly.
Any individual, corporation, company, partnership, firm,
association, municipality or political subdivision of this state subject
to municipal jurisdiction pursuant to the Municipal Land Use Law,
N.J.S.A. 40:55D-1 et seq.
The New Jersey Pinelands Comprehensive Management Plan (N.J.A.C.
7:50-1.1 et seq).
The Commission created pursuant § 5 of the Pinelands
Protection Act, N.J.S.A. 13:18A-5.
Any discernible, confined, and discrete conveyance, including,
but not limited to, any pipe, ditch, channel, tunnel, conduit, well,
discrete fissure, container, rolling stock, concentrated animal feeding
operation, landfill leachate collection system, vessel, or other floating
craft, from which pollutants are or may be discharged. This term does
not include return flows from irrigated agriculture.
Any dredged spoil, solid waste, incinerator residue, filter
backwash, sewage, garbage, refuse, oil, grease, sewage sludge, munitions,
chemical wastes, biological materials, medical wastes, radioactive
substances [except those regulated under the Atomic Energy Act of
1954, as amended (42 U.S.C. § 2011 et seq.)], thermal waste,
wrecked or discarded equipment, rock, sand, suspended solids, cellar
dirt, industrial, municipal, agricultural, and construction waste
or runoff, or other residue discharged directly or indirectly to the
land, groundwaters or surface waters of the state or to a domestic
treatment works. "Pollutant" includes both hazardous and nonhazardous
pollutants.
A person licensed to practice professional engineering in
the State of New Jersey pursuant to N.J.S.A. 45:8-27 et seq.
The amount of water from precipitation that infiltrates into
the ground and is not evapotranspired.
One of two or more soil samples or tests taken at the same
location (within five feet of each other) and depth, within the same
soil horizon or substratum. In the case of fill material, "replicate
tests" are tests performed on subsamples of the same bulk sample packed
to the same bulk density.
A particle size category consisting of mineral particles which are between 0.05 and 2.0 millimeters in equivalent spherical diameter; also, a soil textural class having 85% or more of sand and a content of silt and clay such that the percentage of silt plus 1.5 times the percentage of clay does not exceed 15, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
The upper limit of the shallowest zone of saturation which
occurs in the soil, identified as prescribed in N.J.A.C. 7:9A-5.8.
Solid material, mineral or organic, that is in suspension,
is being transported, or has been moved from its site of origin by
air, water or gravity as a product of erosion.
The lot or lots upon which a major development is to occur
or has occurred.
All unconsolidated mineral and organic material of any origin
which is not a rock substratum, including sediments below the biologically
active and/or weathered zones.
Any material(s) or machinery, located at an industrial facility
that is directly or indirectly related to process, manufacturing or
other industrial activities, which could be a source of pollutants
in any industrial stormwater discharge to groundwater. Source materials
include, but are not limited to, raw materials; intermediate products;
final products; waste materials; by-products; industrial machinery
and fuels, and lubricants, solvents, and detergents that are related
to process, manufacturing, or other industrial activities that are
exposed to stormwater.
Water resulting from precipitation (including rain and snow)
that runs off the land's surface, is transmitted to the subsurface,
or is captured by separate storm sewers or other sewage or drainage
facilities or conveyed by snow removal equipment.
A basin or other facility constructed within permeable soils
that provides temporary storage of stormwater runoff. An infiltration
BMP does not normally have a structural outlet to discharge runoff
from the stormwater quality design storm. Instead, outflow from an
infiltration BMP is through the surrounding soil. The terms "infiltration
measure" and "infiltration practice" shall have the same meaning as
"stormwater infiltration basin."
Any structural or nonstructural strategy, practice, technology,
process, program, or other method intended to control or reduce stormwater
runoff and associated pollutants, or to induce or control the infiltration
or groundwater recharge of stormwater or to eliminate illicit or illegal
nonstormwater discharges into stormwater conveyances. This includes,
but is not limited to, structural and nonstructural stormwater best
management practices described in the New Jersey BMP Manual and designed
to meet the standards for stormwater control contained within this
chapter. The terms "stormwater best management practice" and "stormwater
BMP" shall have the same meaning as "stormwater management measure."
Water flow on the surface of the ground or in storm sewers,
resulting from precipitation.
Unsaturated soil, above the seasonally high water table,
which contains less than 50% by volume of coarse fragments and which
has a tested permeability rate of between one and 20 inches per hour.
Any waters of the state which are not groundwater.
A flood hazard area, which may be influenced by stormwater
runoff from inland areas, but which is primarily caused by the Atlantic
Ocean.
The time it takes for runoff to travel from the hydraulically
most distant point of the drainage area to the point of interest within
a watershed.
The insoluble solid matter suspended in water and stormwater
that is separable by laboratory filtration in accordance with the
procedure contained in the Standard Methods for the Examination of
Water and Wastewater prepared and published jointly by the American
Public Health Association, American Water Works Association and the
Water Pollution Control Federation. The term "TSS" shall have the
same meaning as "total suspended solids."
The ocean and its estuaries and all springs, streams and
bodies of surface water and groundwater, whether natural or artificial,
within the boundaries of New Jersey or subject to its jurisdiction.
The upper surface of a zone of saturation.
A bored, drilled or driven shaft, or a dug hole, which extends
below the seasonally high water table and which has a depth which
is greater than its largest surface dimension.
Those lands which are inundated or saturated by water at
a magnitude, duration and frequency sufficient to support the growth
of hydrophytes. Wetlands include lands with poorly drained or very
poorly drained soils as designated by the National Cooperative Soils
Survey of the Soil Conservation Service[2] of the United States Department of Agriculture. Wetlands
include coastal wetlands and inland wetlands, including submerged
lands. The New Jersey Pinelands Commission Manual for Identifying
and Delineating Pinelands Area Wetlands: A Pinelands Supplement to
the Federal Manual for Identifying and Delineating Jurisdictional
Wetlands, dated January 1991, as amended, may be utilized in delineating
the extent of wetlands based on the definitions of "wetlands" and
"wetlands soils" contained in this section, N.J.A.C. 7:50-2.11, 7:50-6.4
and 7:50-6.5. The term "wetland" shall have the same meaning as "wetlands."
A stormwater facility constructed through filling and/or
excavation that provides both permanent and temporary storage of stormwater
runoff. It has an outlet structure that creates a permanent pool and
detains and attenuates runoff inflows and promotes the settling of
pollutants. A stormwater retention basin can also be designed as a
multistage facility that also provides extended detention for enhanced
stormwater quality design storm treatment and runoff storage and attenuation
for stormwater quantity management. The term "stormwater retention
basin" shall have the same meaning as "wet pond."
[1]
Editor's Note: Ordinance No. 01-2006, adopted 3-14-2006, contained
the following provision: "Any reference in the Code of the City of
Port Republic to a Zoning Board of Adjustment or a Board of Adjustment
which is inconsistent with the provisions contained herein shall be
construed as a reference to the Planning Board."
[2]
Editor's Note: The Soil Conservation Service is now known
as the Natural Resources Conservation Service (NRCS).
Any person who erects, constructs, alters, repairs, converts,
maintains, or uses any building, structure or land in violation of
this chapter shall be subject to the following penalties:
A.
In the event that any privately owned stormwater basin creates a
public health or safety issue due to improper maintenance, the City
will perform all of the necessary cleaning and maintenance. The property
owner shall be responsible for the payment of these services in accordance
with the following schedule:
A.
Methods for calculating groundwater recharge:
(1)
The New Jersey Geological Survey Report GSR-32: A Method for Evaluating
Ground-Water Recharge Areas in New Jersey, available at http://www.njgeology.org/geodata/dgs99-2.htm.
(2)
The New Jersey Groundwater Recharge Spreadsheet (NJGRS), available
in the New Jersey BMP Manual, Chapter 6, at http://www.njstormwater.org/bmp_manual2.htm.
B.
NJDEP nonstructural strategies point system. The New Jersey Stormwater Management Rules at N.J.A.C. 7:8-5.2(a) and § 241-4A of this chapter require nonstructural stormwater management strategies to be incorporated into the site design of a major development. A total of nine strategies are to be used to the maximum extent practical to meet the groundwater recharge, stormwater quality and stormwater quantity requirements of the rules prior to utilizing structural stormwater management measures. The New Jersey Nonstructural Stormwater Management Strategies Point System (NSPS) provides a tool to assist planners, designers and regulators in determining that the strategies have been used to the maximum extent practical at a major development as required by the rules. Refer online to http://www.njstormwater.org for information on the NSPS.
C.
Soils.
(2)
A-HORIZON
ARTESIAN ZONE OF SATURATION
CHROMA
CLAY
CLAY LOAM
COARSE FRAGMENT
COUNTY SOIL SURVEY REPORT
DIRECT SUPERVISION
EQUIVALENT SPHERICAL DIAMETER OF A PARTICLE
EXCESSIVELY COARSE HORIZON
EXCESSIVELY COARSE SUBSTRATUM
EXTREMELY FIRM CONSISTENCE
FIRM CONSISTENCE
HARD CONSISTENCE
HUE
HYDRAULICALLY RESTRICTIVE HORIZON
HYDRAULICALLY RESTRICTIVE SUBSTRATUM
LOAMY SAND
LOWER PLASTIC LIMIT
MOTTLING
MUNSELL SYSTEM
O-HORIZON
PERCHED ZONE OF SATURATION
PIEZOMETER
PLATY STRUCTURE
REGIONAL ZONE OF SATURATION
SANDY CLAY
SANDY LOAM
SILT
SILT LOAM
SILTY CLAY
SILTY CLAY LOAM
SOIL AGGREGATE
SOIL COLOR
SOIL CONSISTENCE
SOIL HORIZON
SOIL LOG
SOIL MAPPING UNIT
SOIL PHASE
SOIL PROFILE
SOIL SERIES
SOIL STRUCTURAL CLASS
SOIL STRUCTURE
SOIL TEST PIT
SOIL TEXTURAL CLASS
SOIL TEXTURE
STATIC WATER LEVEL
SUBSTRATUM
UNSUITABLE SOIL
USDA SYSTEM OF CLASSIFICATION
VALUE
VERY FIRM CONSISTENCE
VERY HARD CONSISTENCE
ZONE OF SATURATION
Definitions. For the purposes of this Subsection C, the following terms shall have the meanings herein ascribed to them:
The uppermost mineral horizon in a normal soil profile. The
upper part of the A-horizon is characterized by maximum accumulation
of finely divided, dark-colored organic residues, known as "humus,"
which are intimately mixed with the mineral particles of the soil.
A zone of saturation which exists immediately below a hydraulically
restrictive horizon and which has an upper surface that is at a pressure
greater than atmospheric, either seasonally or throughout the year.
The relative purity or strength of a color, a quantity which
decreases with increasing grayness. Chroma is one of the three variables
of soil color as defined in the Munsell system of classification.
A particle size category consisting of mineral particles which are smaller than 0.002 millimeter in equivalent spherical diameter. Also, a soil textural class having more than 40% clay, less than 45% sand, and less than 40% silt, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A soil textural class having 27% to 40% clay and 20% to 45% sand, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A rock fragment contained within the soil which is greater
than two millimeters in equivalent spherical diameter or which is
retained on a two-millimeter sieve.
A report prepared by the United States Department of Agriculture,
Natural Resources Conservation Service, which includes maps showing
the distribution of soil mapping units throughout a particular county,
together with narrative descriptions of the soil series shown and
other information relating to the uses and properties of the various
soil series.
Control over and direction of work carried out by others
with full knowledge of and responsibility for such work.
The diameter of a sphere which has a volume equal to the
volume of the particle.
A horizon of limited thickness within the soil profile which
provides inadequate removal of pollutants from stormwater due to a
high coarse fragment content, excessively coarse texture and/or excessively
rapid permeability.
A substratum below the soil profile which extends beyond
the depth of soil profile pits and borings and which provides inadequate
removal of pollutants from stormwater due to a high coarse fragment
content, excessively coarse texture and/or excessively rapid permeability.
A type of soil material whose moist aggregated mass crushes
only under very strong pressure, cannot be crushed between the thumb
and forefinger and shall be broken apart bit by bit.
A type of soil material whose moist aggregated mass crushes
under moderate pressure between the thumb and forefinger, but resistance
is distinctly noticeable.
A type of soil material whose dry aggregated mass is moderately
resistant to pressure, can be broken in the hands without difficulty,
but is barely breakable between the thumb and forefinger.
The dominant spectral color; one of the three variables of
soil color defined within the Munsell system of classification.
A horizon within the soil profile which slows or prevents
the downward or lateral movement of water and which is underlain by
permeable soil horizons or substrata. Any soil horizon which has a
saturated permeability less than one inch per hour is hydraulically
restrictive.
A substratum below the soil profile which slows or prevents
the downward or lateral movement of water and which extends beyond
the depth of profile pits or borings or to a massive substratum. A
substratum which has a saturated permeability less than one inch per
hour is hydraulically restrictive.
A soil textural class, as shown in § 241-9C(1) (USDA Soil Textural Triangle), that has a maximum of 85% to 90% sand with a percentage of silt plus 1.5 times the percentage of clay not in excess of 15; or a minimum of 70% to 85% sand with a percentage of silt plus 1.5 times the percentage of clay not in excess of 30.
The moisture content corresponding to the transition between
the plastic and semisolid states of soil consistency. This corresponds
to the lowest soil moisture content at which the soil can be molded
in the fingers to form a rod or wire, 1/8 inch in thickness, without
crumbling.
A color pattern observed in soil consisting of blotches or
spots of contrasting color. The term "mottle" refers to an individual
blotch or spot. The terms "color variegation," "iron depletion" and
"iron concentration" are equivalent to the term "mottling." Mottling
due to redoximorphic reactions is an indication of seasonal or periodic
and recurrent saturation.
A system of classifying soil color consisting of an alphanumeric
designation for hue, value and chroma, such as "7.5 YR 6/2," together
with a descriptive color name, such as "strong brown."
A surface horizon, occurring above the A-horizon in some
soils, which is composed primarily of undecomposed or partially decomposed
plant remains which have not been incorporated into the mineral soil.
A zone of saturation which occurs immediately above a hydraulically
restrictive horizon and which is underlain by permeable horizons or
substrata which are not permanently or seasonally saturated.
A device consisting of a length of metal or plastic pipe,
open at the bottom or perforated within a specified interval, and
used for the determination of depth to water, permeability or hydraulic
head within a specific soil horizon or substratum.
Characterized by a soil aggregate which has one axis distinctly
shorter than the other two and are oriented with the short axis vertical.
A zone of saturation which extends vertically without interruption
below the depth of soil borings and profile pits.
A soil textural class having 35% or more of clay and 45% or more of sand, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A soil textural class, as shown in § 241-9C(1) (USDA Soil Textural Triangle), that has a maximum of 20% clay, and the percentage of silt plus twice the percentage of clay exceeds 30, and contains 52% or more sand; or less than 7% clay, less than 50% silt, and between 43% and 52% sand.
A particle size category consisting of mineral particles which are between 0.002 and 0.05 millimeter in equivalent spherical diameter. It also means a soil textural class having 80% or more of silt and 12% or less of clay, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A soil textural class having 50% or more of silt and 12% to 27% of clay; or 50% to 80% of silt and less than 12% of clay, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A soil textural class having 40% or more of clay and 40% or more of silt, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A soil textural class having 27% to 40% of clay and less than 20% of sand, as shown in § 241-9C(1) (USDA Soil Textural Triangle).
A naturally occurring unit of soil structure consisting of
particles of sand, silt, clay, organic matter, and coarse fragments
held together by the natural cohesion of the soil.
The soil color name and Munsell color designation determined
by comparison of the moist soil with color chips contained in a Munsell
soil color book.
The resistance of a soil aggregate or clod to being crushed
between the fingers or broken by the hands. Terms for describing soil
consistence are described in N.J.A.C. 7:9A-5.3(h).
A layer within a soil profile differing from layers of soil
above and below it in one or more of the soil morphological characteristics,
including color, texture, coarse fragment content, structure, consistence
and mottling.
A description of the soil profile which includes the depth,
thickness, color, texture, coarse fragment content, mottling, structure
and consistence of each soil horizon or substratum.
An area outlined on a map in a County Soil Survey Report
and marked with a letter symbol designating a soil phase, a complex
of two or more soil phases, or some other descriptive term where no
soil type has been identified.
A specific type of soil which is mapped by the Natural Resources
Conservation Service and which belongs to a soil series described
within the County Soil Survey Report.
A vertical cross section of undisturbed soil showing the
characteristic horizontal layers or horizons of the soil which have
formed as a result of the combined effects of parent material, topography,
climate, biological activity and time.
A grouping of soil types possessing a specific range of soil
profile characteristics which are described within the County Soil
Survey Report. Each soil series may consist of several soil phases
which may differ in slope, texture of the surface horizon or stoniness.
One of the shape classes of soil structure described in N.J.A.C.
7:9A-5.3(g).
The naturally occurring arrangement, within a soil horizon,
of sand, silt and clay particles, coarse fragments and organic matter,
which are held together in clusters or aggregates of similar shape
and size.
An excavation made for the purpose of exposing a soil profile
which is to be described.
One of the classes of soil texture defined within the USDA
system of classification (Soil Survey Manual, Agricultural Handbook
No. 18, USDA Soil Conservation Service, 1962).
The relative proportions of sand, silt and clay in that portion
of the soil which passes through a sieve with two-millimeter openings.
The depth below the ground surface or the elevation with
respect to some reference level of the water level observed within
a soil profile pit or boring, or within a piezometer, after this level
has stabilized or become relatively constant with the passage of time.
A layer of soil or rock material present below the soil profile
and extending beyond the depth of soil borings or profile pits.
All soil other than suitable soil.
The system of classifying soil texture used by the United States Department of Agriculture which defines 12 soil textural classes based upon the weight percentages of sand, silt and clay in that portion of the soil which passes through a sieve with two-millimeter openings. The soil textural classes are shown graphically on the USDA Soil Textural Triangle, as shown in § 241-9C(1).
The relative lightness or intensity of a color; one of the
three variables of soil color defined within the Munsell system of
classification.
Characterized by a moist soil which crushes under strong
pressure; barely crushable between the thumb and forefinger.
A dry soil which is resistant to pressure, can be broken
in the hands only with difficulty, and not breakable between the thumb
and forefinger.
A layer within or below the soil profile which is saturated
with groundwater either seasonally or throughout the year. This includes
both regional and perched zones.
(3)
Methods for assessing soil suitability for infiltration stormwater
management BMPs. The results of a subsurface investigation shall serve
as the basis for the site selection and design of stormwater infiltration
BMPs. The subsurface investigation shall include, but not be limited
to, a series of soil test pits and soil permeability tests conducted
in accordance with the following:
(a)
All soil test pits and soil permeability results shall be performed
under the direct supervision of a professional engineer. All soil
logs and permeability test data shall be accompanied by a certification
by a professional engineer. The results and location (horizontal and
vertical) of all soil test pits and soil permeability tests, both
passing and failing, shall be reported to the City of Port Republic.
(b)
During all subsurface investigations and soil test procedures,
adequate safety measures shall be taken to prohibit unauthorized access
to the excavations at all times. It is the responsibility of persons
performing or witnessing subsurface investigations and soil permeability
tests to comply with all applicable federal, state and local laws
and regulations governing occupational safety.
(c)
A minimum of two soil test pits shall be excavated within the
footprint of any proposed infiltration BMP to determine the suitability
and distribution of soil types present at the site. Placement of the
test pits shall be within 20 feet of the basin perimeter, located
along the longest axis bisecting the BMP. For BMPs larger than 10,000
square feet in area, a minimum of one additional soil test pit shall
be conducted within each additional area of 10,000 square feet. The
additional test pit(s) shall be placed approximately equidistant to
other test pits, so as to provide adequate characterization of the
subsurface material. In all cases, where soil and/or groundwater properties
vary significantly, additional test pits shall be excavated in order
to accurately characterize the subsurface conditions below the proposed
infiltration BMP. Soil test pits shall extend to a minimum depth of
eight feet below the lowest elevation of the basin bottom or to a
depth that is at least two times the maximum potential water depth
in the proposed infiltration BMP, whichever is greater.
(d)
A soil test pit log shall be prepared for each soil test pit.
The test pit log shall, at a minimum, provide the elevation of the
existing ground surface, the depth and thickness (in inches) of each
soil horizon or substratum, the dominant matrix or background and
mottle colors using the Munsell system of classification for hue,
value and chroma, the appropriate textural class as shown on the USDA
textural triangle, the volume percentage of coarse fragments (larger
than two millimeters in diameter), the abundance, size, and contrast
of mottles, the soil structure, soil consistence, and soil moisture
condition, using standard USDA classification terminology for each
of these soil properties. Soil test pit logs shall identify the presence
of any soil horizon, substratum or other feature that exhibits an
in-place permeability rate less than one inch per hour.
(e)
Each soil test pit log shall report the depth to seasonally
high water level, either perched or regional, and the static water
level based upon the presence of soil mottles or other redoximorphic
features, and observed seepage or saturation. Where redoxomorphic
features, including soil mottles resulting from soil saturation, are
present, they shall be interpreted to represent the depth to the seasonal
high water table unless soil saturation or seepage is observed at
a higher level. When the determination of the seasonally high water
table shall be made in ground previously disturbed by excavation,
direct observation of the static water table during the months of
January through April shall be the only method permitted.
(f)
Any soil horizon or substratum which exists immediately below
a perched zone of saturation shall be deemed by rule to exhibit unacceptable
permeability (less than one inch per hour). The perched zone of saturation
may be observed directly, inferred based upon soil morphology, or
confirmed by performance of a hydraulic head test as defined at N.J.A.C.
7:9A-5.9.
(g)
Stormwater infiltration BMPs shall not be installed in soils
that exhibit artesian groundwater conditions. A permeability test
shall be conducted in all soils that immediately underlie a perched
zone of saturation. Any zone of saturation which is present below
a soil horizon which exhibits an in-place permeability of less than
0.2 inch per hour shall be considered an artesian zone of saturation
unless a minimum one-foot-thick zone of unsaturated soil, free of
mottling or other redoximorphic features and possessing a chroma of
four or higher, exists immediately below the unsuitable soil.
(h)
A minimum of one permeability test shall be performed at each
soil test pit location. The soil permeability rate shall be determined
using test methodology as prescribed in N.J.A.C. 7:9A-6.2 (Tube Permeameter
Test), 7:9A-6.5 (Pit-Bailing Test) or 7:9A-6.6 (Piezometer Test).
When the tube permeameter test is used, a minimum of two replicate
samples shall be taken and tested. Alternative permeability test procedures
may be accepted by the approving authority, provided the test procedure
attains saturation of surrounding soils, accounts for hydraulic head
effects on infiltration rates, provides a permeability rate with units
expressed in inches per hour and is accompanied by a published source
reference. Examples of suitable sources include hydrogeology, geotechnical
or engineering text and design manuals, proceedings of American Society
for Testing and Materials (ASTM) symposia, or peer-review journals.
Neither a soil permeability class rating test, as described in N.J.A.C.
7:9A-6.3, nor a percolation test, as described in N.J.A.C. 7:9A-6.4,
is an acceptable test for establishing permeability values for the
purpose of complying with this chapter.
(i)
Soil permeability tests shall be conducted on the most hydraulically
restrictive horizon or substratum to be left in place below the basin
as follows. Where no soil replacement is proposed, the permeability
tests shall be conducted on the most hydraulically restrictive horizon
or substratum within four feet of the lowest elevation of the basin
bottom or to a depth equal to two times the maximum potential water
depth within the basin, whichever is greater. Where soil replacement
is proposed, the permeability tests shall be conducted within the
soil immediately below the depth of proposed soil replacement or within
the most hydraulically restrictive horizon or substratum to a depth
equal to two times the maximum potential water depth within the basin,
whichever is greater. Permeability tests may be performed on the most
hydraulically restrictive soil horizons or substrata at depths greater
than those identified above based upon the discretion of the design
or testing engineer. The tested infiltration rate should then be divided
by two to establish the soil's design permeability rate. Such
division will provide a safety factor of 100% to the tested rate.
(j)
The minimum acceptable tested permeability rate of any soil
horizon or substratum shall be one inch per hour. Soil materials that
exhibit tested permeability rates slower than one inch per hour shall
be considered unsuitable for stormwater infiltration. The maximum
reportable tested permeability rate of any soil horizon or substratum
shall be no greater than 20 inches per hour, regardless of the rate
attained in the test procedure.
(k)
After all construction activities have been completed on the
development site and the finished grade has been established in the
infiltration BMP, a minimum of one permeability test shall be conducted
within the most hydraulically restrictive soil horizon or substratum
below the as-built BMP to ensure the performance of the infiltration
BMP is as designed. Hand tools and manual permeability test procedures
shall be used for the purpose of confirming BMP performance. In addition,
the infiltration BMP shall be flooded with water sufficient to demonstrate
the performance of the BMP. Test results shall be certified to the
Municipal Engineer.
(l)
A groundwater mounding analysis shall be provided for each stormwater
infiltration BMP. The groundwater mounding analysis shall calculate
the maximum height of the groundwater mound based upon the volume
of the maximum design storm. The professional engineer conducting
the analysis shall provide the Municipal Engineer with the methodology
and supporting documentation for the mounding analysis used and shall
certify to the City of Port Republic, based upon the analysis, that
the groundwater mound will not cause stormwater or groundwater to
break out to the land surface or cause adverse impact to adjacent
surface water bodies, wetlands or subsurface structures, including
but not limited to basements and septic systems. If there is more
than one infiltration BMP proposed, the model shall indicate if and
how the mounds will interact. The mounding analysis shall be calculated
using the most restrictive soil horizon that will remain in place
within the explored aquifer thickness, unless alternative analyses
are authorized by the Municipal Engineer. The mounding analysis shall
be accompanied by a cross section of the infiltration BMP and surrounding
topography, and the mound analysis shall extend out to the point(s)
at which the mound intersects with the preexisting maximum water table
elevation.
D.
Pretreatment measures for infiltration BMPs. By reducing incoming
velocities and capturing coarser sediments, pretreatment can extend
the functional life and increase the pollutant removal capability
of infiltration measures. Therefore, the installation of pretreatment
measures is recommended for all development sites. Pretreatment measures
may include, but are not limited to, the following:
E.
Collection and conveyance.
(1)
Bicycle-safe inlet grates. Site development plans that incorporate
site design features that help to prevent discharge of trash and debris
from drainage systems shall comply with the following standard to
control passage of solid and floatable materials through storm drain
inlets. For purposes of this subsection, "solid and floatable materials"
means sediment, debris, trash, and other floating, suspended, or settleable
solids.
(a)
Design engineers shall use either of the following grates whenever
they use a grate in pavement or another ground surface to collect
stormwater from that surface into a storm drain or surface water body
under that grate:
[1]
The New Jersey Department of Transportation (NJDOT) bicycle-safe
grate, which is described in Chapter 2.4 of the NJDOT Bicycle Compatible
Roadways and Bikeways Planning and Design Guidelines (April 1996);
or
[2]
A different grate, if each individual clear space in that grate
has an area of no more than seven square inches or is no greater than
0.5 inch across the smallest dimension. Examples of grates subject
to this standard include grates in grate inlets, the grate portion
(non-curb-opening portion) of combination inlets, grates on storm
sewer manholes, ditch grates, trench grates, and grates of spacer
bars in slotted drains. Examples of ground surfaces include surfaces
of roads (including bridges), driveways, parking areas, bikeways,
plazas, sidewalks, lawns, fields, open channels, and stormwater basin
floors.
(b)
Whenever design engineers use a curb-opening inlet, the clear
space in that curb opening (or each individual clear space, if the
curb opening has two or more clear spaces) shall have an area of no
more than seven square inches or be no greater than two inches across
the smallest dimension.
(c)
This standard does not apply:
[1]
Where the review agency determines that this standard would
cause inadequate hydraulic performance that could not practicably
be overcome by using additional or larger storm drain inlets that
meet these standards;
[2]
Where flows from the water quality design storm as specified in § 241-3 are conveyed through any device (e.g., end-of-pipe netting facility, manufactured treatment device, or a catch basin hood) that is designed, at a minimum, to prevent delivery of all solid and floatable materials that could not pass through one of the following:
[3]
Where flows are conveyed through a trash rack that has parallel bars with one-inch spacing between the bars, to the elevation of the water quality design storm as specified in § 241-3 of this chapter; or
[4]
Where the NJDEP determines, pursuant to the New Jersey Register
of Historic Places Rules at N.J.A.C. 7:4-7.2(c), that action to meet
this standard is an undertaking that constitutes an encroachment or
will damage or destroy the historic property listed on the New Jersey
Register.
(2)
Catch basins. "Catch basins" are storm drain inlets with or without
sumps. Catch basins may provide pretreatment for other stormwater
BMPs by capturing large sediments. The sediment and pollutant removal
efficiency of catch basins depends on the size of the sump and the
performance of routine maintenance to retain the available sediment
storage space in the sump. Where catch basins with sumps are proposed,
the minimum two feet of separation between the bottom of the sump
and the seasonally high water table shall be provided.
(3)
Open or perforated conveyance piping. Where adequate separation to
the seasonal high water table exists, stormwater from the development
site may be conveyed to a stormwater basin via a system of perforated
pipes. These pipes may be made of PVC or corrugated metal and are
available with perforations of varying size and spacing. Perforated
pipe specifications shall be certified by a professional engineer.
A professional engineer shall certify that perforated conveyance piping
will not act to intercept the seasonal high water table and convey
groundwater to the stormwater basin. All open or perforated stormwater
conveyance systems shall be installed with a minimum separation of
two feet from the seasonal high water table.
A.
NJDEP technical guidance sources:
(1)
New Jersey BMP Manual: available from the Division of Watershed Management,
New Jersey Department of Environmental Protection, P.O. Box 418, Trenton,
New Jersey 08625; or online at http://www.njstormwater.org.
(2)
NJDEP Stormwater Management Facilities Maintenance Manual: available
from the Division of Watershed Management, New Jersey Department of
Environmental Protection, P.O. Box 418, Trenton, New Jersey 08625;
or online at http://njedl.rutgers.edu/ftp/PDFs/1188.pdf.
B.
Additional guidance sources:
(1)
New Jersey Pinelands Commission, P.O. Box 7, 15 Springfield Road,
New Lisbon, New Jersey 08064; phone: (609) 894-7300; website: http://www.state.nj.us/pinelands.
(2)
State Soil Conservation Committee Standards for Soil Erosion and
Sediment Control in New Jersey: available from Cape-Atlantic Soil
Conversation District, 6260 Old Harding Highway, Mays Landing, New
Jersey 08330; phone: (609) 625-3144.
(3)
New Jersey Department of Transportation, P.O. Box 600, Trenton, New
Jersey 08625-0600; phone: (609) 530-3536; website: http://www.state.nj.us/transportation.