Minimize disturbance to floodplains, wetlands, and wooded areas.

Create, maintain, repair or extend riparian buffers.

Avoid erosive flow conditions in natural flow pathways.

Minimize thermal impacts to waters of this commonwealth.

Disconnect impervious surfaces [i.e., disconnected impervious areas (DIAs)] by directing runoff to pervious areas wherever possible. See Appendix F for detail on DIAs.[2]

Provide corrective measures as deemed appropriate by the Board of Supervisors to alleviate any off-site drainage problem affected by the regulated activity. The costs for such measures will be borne entirely by the developer.

A minimum soil depth of 24 inches between the bottom of the infiltration BMPs and the top of bedrock or seasonally high water table.

An infiltration rate sufficient to accept the additional stormwater load and dewater completely as determined by field tests. A minimum of 0.2 inch per hour should be utilized, and for acceptable rates a safety factor of 50% should be applied for design purposes (e.g., for soil which measured 0.4 inch per hour, the BMP design should use 0.2 inch per hour to ensure safe infiltration rates after construction).

All open-air infiltration facilities shall be designed to completely infiltrate runoff volume within three days (72 hours) from the start of the design storm. Subsurface systems shall be designed to infiltrate the stored volume in 48 hours or less with a minimum infiltration rate and percolation rate of greater than 0.2 inch per hour.

Analyze hydrologic soil groups as well as natural and man-made features within the site to determine general areas of suitability for infiltration practices. In areas where development on fill material is under consideration, conduct geotechnical investigations of subgrade stability; infiltration may not be ruled out without conducting these tests.

Provide field tests such as double-ring infiltrometer or hydraulic conductivity tests (at the level of the proposed infiltration surface) to determine the appropriate hydraulic conductivity rate. Percolation tests are not recommended for design purposes. The Township Engineer shall observe all field testing of soils.

Design the infiltration structure based on field-determined capacity at the level of the proposed infiltration surface and based on the safety factor of 50%.

If on-lot infiltration structures are proposed, it must be demonstrated to the municipality that the soils are conducive to infiltrate on the lots identified.

An impermeable liner will be required in detention basins where the possibility of groundwater contamination exists. A detailed hydrogeologic investigation may be required by the municipality.

Wooded sites shall use a ground cover of "woods in good condition."

The undeveloped portion of the site, including agriculture, bare earth, and fallow ground, shall be considered as "meadow in good condition," unless the natural ground cover generates a lower curve number (CN) or Rational "C" value (i.e., woods) as listed in Table B-4 or B-7 in Appendix B of this chapter.[1]

Open watercourses are encouraged where they exist naturally and where, in the opinion of the Township Engineer, they will not interfere with public convenience or safety but in fact will provide comparable or superior drainage. Where necessary, stream corridor improvements, including rock stabilization and gabions, shall be performed. Naturalized or "bioengineering" methods of stabilization are preferred.

Design of storm drainage facilities shall be prepared in accordance with accepted engineering practices, subject to approval by the Township Engineer.

Any necessary corrective measures deemed appropriate by the Board of Supervisors to alleviate any off-site drainage problem affected by the subdivision or land development must be undertaken by the developer. The costs for such measures will be borne entirely by the developer.

The developer may be required to participate in off-site storm drainage improvements in the watershed within which the proposed development is located. The specific off-site drainage improvements required shall be those specified by the Township Board of Supervisors.

Easements shall be a minimum of 20 feet in width and shall be provided in undedicated land to accommodate required storm sewer facilities and drainage swales. Such easements shall be offered for dedication to Warwick Township and shall be provided where storm sewers, drainage swales, culverts, or other structures traverse, enter or discharge onto private property. On private property, the owner shall maintain ground cover and landscaping within the easement. The Township shall not maintain and/or repair any improvements within that easement unless stormwater runoff from public roads or public lands crosses through the easement. If stormwater runoff from public roads or public lands crosses through the easement, the Township shall, upon satisfactory installation of improvements as specified in a land development agreement with Warwick Township, maintain and repair only the structural improvements within the easement, if any, such as piping, inlets, stormwater manholes, headwalls/endwalls, and energy-dissipation structures or facilities. Warwick Township will not be responsible for any other repair/maintenance, vermin control, removal of obstructions from drainage swales, removal of accumulated sediment or vegetation from drainage swales, removal of litter or garbage, repair of erosion, and restoration of vegetation/ground cover.

The record plan and development approved agreement for the approved land development shall define easement ownership, maintenance responsibilities, and access. Specifically, the record plan shall contain a provision permitting access to such easement(s), at any reasonable time, for inspection and/or emergency repair/maintenance, by Warwick Township or its designee, of all facilities deemed critical to public welfare. In the event that the lot owner or homeowners' association fails to honor their maintenance responsibilities set forth herein, in any manner, Warwick Township shall have the right of entry upon and within the area of the easement to undertake any required corrective or maintenance effort. The total cost of such, including administrative, engineering, and legal costs for enforcement, may be imposed upon the responsible party as determined by Warwick Township. Failure to remedy all associated costs described above may be subject of the imposition of a lien by the Township against the owner(s) in question, in the same manner as the Township might otherwise be empowered by law to assess or impose a lien against a property for municipal improvements. The record plan size shall meet the requirements for recording at the office of the Recorder of Deeds of Bucks County.

Open channels should have a triangular or trapezoidal cross section in compliance with accepted engineering practices.

Existing stream channels should be maintained in their natural state. Only under unusual circumstances will it be permitted to line, straighten, or relocate an existing stream, with approval of the Department of Environmental Protection (DEP) and the Bucks County Conservation District.

Permissible channel velocities, slopes, and cover shall be in accordance with the Natural Resources Conservation Service Engineering Field Manual, Chapter 7, Grassed Waterways and Outlets.

Acceptable energy-dissipation devices shall be installed to bring discharge velocities down to limits specified in the DEP Erosion and Sediment Pollution Control Program Manual, latest edition.

Riprap and/or gabions may be required by the Township Engineer where erosion potential is great.

Swales and open channels shall be designed to convey the one-hundred-year storm event. Capacity shall be determined by Manning's Equation.

Curbed sections. The maximum encroachment of runoff on the roadway pavement shall not exceed 1/2 of the traveled lane during a one-hundred-year design storm of five minute's duration. Inlets shall be provided to control the encroachment of water on the traveled lane.

On-lot drainage swales shall be designed to provide positive conveyance of surface water from the individual lot. Each swale lot shall convey stormwater from the lot to a storm sewer system, street, open space area, or stormwater management easement without crossing or combining with stormwater from more than the adjacent lot.

Whenever swales are necessary, they shall be centered on a property line and at a location approved by the Township Engineer.

Vegetated swales proposed to satisfy water quality requirements shall be designed to be consistent with the following:

The maximum velocity of flow, as determined by Manning's Equation, shall not exceed the allowable velocities as shown in the following table for the specific type of material, unless otherwise approved by the Township Engineer and the Bucks County Conservation District or as otherwise updated in the Pennsylvania Department of Environmental Protection, Bureau of Soil and Water Conservation publication, Erosion and Sediment Control Program Manual, latest revision.

Design flow rate.

Consideration shall be given to future land use changes in the drainage area in selecting the "C" coefficient. For drainage areas containing several different types of ground cover, a weighted value of "C" shall be used. In no case shall a weighted value of "C" be less than 0.45 for an area to be changed from its natural state.

In determining the peak flow rate to individual storm sewer inlets (or other collection structures), the time-of-concentration method shall be used for inlet drainage areas in excess of 1.25 acres, unless otherwise specified by the Township Engineer, and a five-minute time of concentration shall be used for all other drainage areas, unless otherwise approved by the Township Engineer.

In determining the required design flow rate through a storm sewer piping system, a five-minute time of concentration shall be used if the five-minute time of concentration does not result in a maximum expected discharge that exceeds the capacity of a thirty-inch-diameter pipe (or equivalent flow area of 4.9 square feet).

In determining the required design flow rate through a storm sewer piping system, if a five-minute time of concentration results in a pipe size exceeding a thirty-inch-diameter pipe (or equivalent flow area of 4.9 square feet), the calculated time of concentration shall be used in determining storm duration.

All pipes shall, at a minimum, provide required carrying capacity as determined by the United States Department of Commerce, Hydraulic Design Series No. 5, Hydraulic Design of Highway Culverts. Where pressure flow is anticipated in storm sewer pipes (non-open-channel flow), the designer shall be required to calculate the elevation of the hydraulic grade line through the storm sewer system.

All pipe and structures utilized for the storm sewer system shall conform to the design standards of Pennsylvania Department of Transportation (PennDOT) Publications 408 and 72M (Road Construction Standards), as amended. All inlet grates shall be "bicycle safe" structural steel.

Pipe requirements.

Storm sewer manholes shall be spaced as necessitated by the proposed piping alignment; however, in no case shall manhole spacing exceed 450 feet. Manholes shall be located at all abrupt changes of grade, at all locations where a transition in pipe sizing is required and at all points of convergence of two or more storm sewer mains, where inlets are not warranted.

Manhole castings and covers shall conform to the requirements of Pennsylvania Department of Transportation Publications 72M and 408, as amended. Manhole covers shall have the word "STORM" cast in two-inch-high letters on the top of the cover.

Storm sewer inlet spacing shall not exceed 250 feet, except between inlets connected by pipe with a diameter of 48 inches or greater, where spacing shall then not exceed 450 feet. Inlets shall be located at all abrupt changes of grade, at all locations where a transition in pipe sizing is required and at all points of convergence of two or more storm sewer mains.

At street intersections, inlets shall be placed in the tangent and not in the curved portion of the curbing. The gutter adjacent to and immediately upgrade from the inlet shall be so warped as to direct the water into the inlet. Inlets shall be required on the upslope side of all approaches to an intersection when the design flow rate is in excess of 1.0 cfs.

The crowns of all pipes tying into an inlet or manhole shall be set at equal elevations when pipe inverts are within 12 inches (vertical separation) of each other. A minimum of two inches shall be provided between the inlet pipe invert elevation and the invert elevation of the outlet pipe.

The capacity of inlets shall be based on a maximum surface flow to the inlet of three cfs. The maximum flow to inlets located in low points of paved areas (vertical curves) shall include the overland flow directed to the inlet, as well as the cumulative bypass surface runoff from the inlets upstream. The bypass runoff from each upstream inlet shall be calculated using inlet efficiently curves found in the Pennsylvania Department of Transportation Design Manual, Part 2, latest revision. An inlet at a low point of a paved area maybe designed to accept a maximum of five cubic feet per second (cfs). Type M inlets shall be designed to accept a maximum of six cfs, unless otherwise approved by the Township Engineer.

Inlet spacing in paved areas shall be arranged so that a minimum of 95% of the gutter flow tributary to the inlet will be captured. The designer shall be required to verify that bypass surface runoff from the one-hundred-year design storm will enter the storm sewer piping system at some point prior to discharge into a detention basin or other approved outlet point. Inlet capacity shall be based on inlet efficiency curves provided in the Pennsylvania Department of Transportation Design Manual, Part 2.

All inlets shall be stenciled by the developer to indicate that "No Dumping Allowed — This inlet flows to . . . Creek," or other approved wording by Warwick Township. Specifications for stenciling are to be provided by Warwick Township.

An endwall shall be provided at the end of all pipe runs. Headwalls shall be provided at the beginning of all pipe runs. Headwalls/endwalls with a height greater than three feet may be required to have a safety fence or guiderail if determined by the Township Engineer. Rock aprons (riprap) or other approved velocity-dissipation devices shall be placed at all pipe outlets (endwalls) to reduce flow velocity and prevent erosion.

All headwalls and endwalls shall be stenciled by the developer to indicate that "No Dumping Allowed — This inlet flows to . . . Creek," or other approved wording by Warwick Township. Specifications for stenciling are to be provided by Warwick Township.

Bridges and culverts shall be designed and constructed to meet current Pennsylvania Department of Transportation construction and loading standards (HS-25 loading standards). They shall be constructed to the full width of the right-of-way or to an adequate dimension to accommodate special grade conditions. Approval of the Pennsylvania Department of Environmental Protection is required for all improvements in and along all waters of the commonwealth. The applicant shall provide verification of Department of Environmental Protection approval for all such proposed bridges and culverts.

Approval of the Pennsylvania Department of Environmental Protection is required for all improvements in and along waters of the commonwealth. Where applicable, stormwater management facilities or programs shall comply with the requirements of Chapter 102 (Erosion Control), Chapter 105 (Dam Safety and Waterway Management), and Chapter 106 (Floodplain Management) of Pennsylvania Code, Title 25, Rules and Regulations of the Department of Environmental Protection.

All bridges, culverts and drainage channels shall be designed to convey a flow rate equal to a one-hundred-year, twenty-four-hour storm, as defined by the United States Department of Agriculture, Soil Conversation Services, Technical Release No. 55. All bridges and culverts shall be designed to pass the one-hundred-year design storm without increasing the extent and depth of the one-hundred-year floodplain.

The capacity of all culverts and drainage channels shall, as a minimum, provide the required carrying capacity. Capacity and stabilization shall be as determined by the United States Department of Transportation, Federal Highway Administration, Hydraulic Design Series No. 5, Hydraulic Charts for the Selection of Highway Culverts; United States Department of Transportation, Federal Highway Administration, Hydraulic Engineering Circular No. 15, Design of Roadside Channels with Flexible Linings, as amended; Federal Highway Administration, Hydraulic Engineering Circular No. 13, Hydraulic Design for Improved Inlets for Culverts; United States Department of Transportation, Design of Roadside Channels with Flexible Linings, as amended; and the United States Department of Transportation, Federal Highway Administration, Visual Urban (HY-22) Drainage Design Programs.

Drainage channels shall be designed to convey the design discharge at a stable, nonerosive velocity. Channel linings that are assumed in the design must be established before the channel is utilized for its stated objective. Diversions or alternate channel linings may be necessary to provide channel conditions in the field to match design assumptions. Where storm sewers discharge into existing drainage channels at an angle greater than 30° from parallel with the downstream channel flow, the far side bank shall be stabilized by the use of riprap or masonry and/or concrete walls. The stabilization shall be designed to prevent erosion and frost heave under and behind the stabilizing media.

Maximum channel velocities for vegetated and rock-lined channels shall be as set forth in the Pennsylvania Department of Environmental Protection, Bureau of Soil and Water Conversation publication, Erosion and Sediment Control Program Manual, latest revision.

Any vegetated drainage channel requiring mowing of the vegetation shall have a maximum grade of four horizontal to one vertical (4:1 or 25%) on those areas to be mowed.

Calculation methodology shall be utilized as noted in this chapter.

Detention areas shall be designed so that the total rate of runoff from the entire site, after complete development, will not exceed the specified percentage of total predeveloped runoff rate form the entire site. Individual points of concentrated runoff discharge from the site may be designed for up to a 100% release rate so long as the total runoff from the entire site, after development, is controlled to the applicable release rate.

Discharge piping from detention areas shall be designed to control the rate of runoff for a one-year through one-hundred-year-frequency design storm.

If permanent ponds (retention basin) are proposed, the developer shall demonstrate that such ponds are designed to protect the public's health and safety.

Ownership and maintenance of detention or retention basin easements. Prior to the grant of final approval of any subdivision or land development, the owner and developer of the property which is the subject of the subdivision or land development shall execute agreements, in a form satisfactory to the Township, which state that all stormwater management facilities, including detention or retention basins, will be properly maintained. If all or a portion of the facilities are on a property which will be conveyed to an individual, homeowners' association or any other eventual owner, the guaranties must be in such a form that they will carry through to the new owners. Warwick Township will not accept dedication maintenance responsibilities for any detention or retention basin or similar facility located on private grounds, unless otherwise approved by the Board of Supervisors.

When basins are provided, they shall be designed to utilize the natural contours of the land whenever possible. When such design is not practical, the construction of the basin shall utilize slopes as flat as possible to blend the structure into the terrain. Detention basins shall be designed to facilitate regular maintenance, mowing and periodic desilting and reseeding. In residential developments, shallow, broad basins shall be provided for recreational use. The maximum depth of the one-hundred-year water surface in a detention basin shall be five feet.

Except with the one-year design storm, permanent detention basins shall be designed so that they dewater within approximately 72 hours after termination of the storm, unless the Township Engineer finds that downstream conditions may warrant other design criteria for stormwater release.

Detention basins shall not be located on more than one lot.

Basins shall not be located within floodplains.

Landscaping and grading of detention basins. All landscaping and grading of detention basins shall be in accordance with the provisions of this chapter. Naturalized basins are required. Planting and seeding designs shall be prepared by appropriate professionals and approved by the Township.

If a stormwater management basin will serve as a temporary sediment control device, the temporary sediment control measures shall be shown, including perforated riser pipes or standboxes, filter berms, cleanout stakes and other measures as may be required by Pennsylvania Department of Environmental Protection Chapter 102 regulations. Sedimentation basins shall be installed and functional prior to any earthmoving activities within their tributary drainage areas. A perforated riser, sized in accordance with Bucks County Conservation District requirements, shall be provided at each basin outlet structure for sediment control. Risers shall not be removed until such time as the entire area tributary to the basin has been permanently stabilized and until approved by the Bucks County Conservation District and/or the Township Engineer.

Stormwater management basins shall be in place before the creation of any additional impervious surfaces on the site. Runoff shall not be directed to an infiltration structure until all tributary drainage areas are stabilized.

Where permanent retention (pond) facilities are proposed, there shall be a safety ledge, three feet wide at the maximum water surface level. If the pond is to be stocked, the Pennsylvania Fish and Game Commission shall approve the stocking plan.

All basin berms shall have slopes of four horizontal to one vertical (4:1), or less. The top or toe of any slope shall be located a minimum of five feet from any property line.

Basin embankment. The fill material shall be taken from selected borrow areas. It shall be free of roots, woody vegetation, oversized stones, rocks or other objectionable material. Areas on which fill is to be placed shall be scarified prior to placement of fill. The fill material should contain sufficient moisture so that it can be formed by hand into a ball without crumbling. If water can be squeezed out of the ball, it is too wet for proper compaction. Fill material shall be placed with lifts not exceeding one foot and shall be continuous over the entire length of the fill. Fill material must be compacted to a minimum of 95% of modified proctor density as established by ASTM D-1557. Compaction testing by a certified soils engineer/geologist must be completed as directed by the Township Engineer to verify that adequate compaction has been achieved.

Emergency overflow facilities/spillway shall be provided with basins in order to convey basin inflow in excess of design flows, out of the basin, or in the event the outlet structure becomes blocked and is unable to convey flow. Emergency spillways discharging over embankments shall be lined. Lining for emergency spillways shall incorporate native colors and materials where possible. The lining shall extend to the toe of the embankment on the outside of the berm and shall extend to an elevation of three feet below the spillway crest on the inside of the berm. Vegetated spillways may be utilized for spillways constructed entirely on undisturbed ground if the designer can demonstrate that flow velocities through the spillway will not cause erosion of the spillway. A dense cover of vegetation shall be rapidly established in such spillways by sodding or seeding with geotextile anchor. Such a vegetated spillway must be stabilized before runoff is directed to the basin. All spillway velocities shall be based upon flows during an assumed clogged primary outlet condition. The minimum capacity of all emergency spillways shall be equivalent to the peak flow rate of the one-hundred-year, post-development design storm with the primary outlet structure blocked.

For all permanent detention basins, the permanent outlet control structure shall be a Type M inlet, grate and box, or similar structure as approved by the Township Engineer. The inlet grate elevation shall be at least six inches below the emergency spillway elevation.

The minimum top-of-basin berm width shall be 10 feet. A cutoff trench (keyway) of impervious material shall be provided under all embankments that require fill material. The cutoff trench shall be a minimum of eight feet wide, two feet deep below virgin ground and have side slopes of one horizontal to one vertical.

The minimum freeboard through the emergency spillway shall be one foot. "Freeboard" is defined as the difference between the design flow elevation through the spillway and the elevation of the top of the settled basin berm.

Anti-seep collars shall be installed around the pipe barrel and shall be centered within the normal saturation zone of the berm. The anti-seep collars shall be cast-in-place and extend a minimum of two feet beyond the outside of the principal pipe barrel. Precast collars may be permitted only when approved by the Township Engineer. A minimum of two collars shall be installed on each outlet pipe.

Energy-dissipating devices (rock lining/riprap) shall be provided at all basin outlets and shall be sized in accordance with the Pennsylvania Department of Environmental Protection Erosion and Sediment Control Program Manual, latest revision.

An access easement (minimum 20 feet in width) and stabilized drive to stormwater detention facilities shall be provided for maintenance and operation. Proximity of detention facilities to the public right-of-way shall be encouraged in order to minimize the length of accessways. Multiple accesses shall be encouraged for major facilities. Accessways to basins shall be a minimum of 12 feet in width and be no steeper in slope than 12 feet horizontal to one foot vertical. In addition, depressed curb shall be provided where the accessway enters a street/driveway. The stabilized driveway shall extend from the bottom of the interior basin berm embankment to the point of access to the basin. The access easement shall be owned and maintained by the individual lot owner(s) or a homeowners' association but shall be established to permit access by Warwick Township or its designee for emergency inspection and/or maintenance at any reasonable time.

The minimum distance between a proposed basin discharge point and a downstream property boundary shall be 50 feet.

Inlet structures and outlet structures shall be separated to the greatest extent possible in order to maximize the flow path through the basin.

A minimum of one foot of freeboard shall be provided between the one-hundred-year water surface elevation and the top of all inlet grates or manhole rims.

Inlets or storm manhole structures with steps shall be located at each corner of the underground detention basin to provide access for maintenance. If the pipe diameter is less than 24 inches, cleanout ports shall be provided at appropriate locations to permit flushing of the system as necessary.

The infiltration system shall be set back at least 15 feet from all structures with subgrade elements (i.e., basements) and outside all public rights-of-way.

Infiltration rates shall not be used in computing the storage volume of the infiltration system.

Surface inflows shall be designed to prevent direct discharge of sediment. Accordingly, pretreatment shall be provided prior to infiltration.

Underground detention basins shall be constructed of perforated high-density corrugated polyethylene pipe or approved equal. The required volume shall be provided utilizing only underground pipe capacity.

An emergency overflow weir shall be provided for the outlet structure in order to convey basin inflow in excess of design flows or in the event that the outlet structure becomes blocked and is unable to convey the design flow. The minimum capacity of the emergency overflow weir shall be equivalent to the one-hundred-year peak inflow rate for the post-development design storm. Site improvements and grading downstream of the underground detention basin shall be designed to convey the one-hundred-year peak inflow rate to a natural outfall, storm sewer system or other drainage facility without adversely affecting downstream properties.

The minimum distance between a proposed basin discharge point and a downstream property boundary shall be 50 feet.

Notification of the required infiltration testing shall be sent to the Township and Township Engineer, a minimum of 72 hours prior to the testing being done.

The minimum permanent pool basins can be maintained to allow sufficient depth throughout the year to reduce the growth of unwanted vegetation and mosquitoes.

The pond must be of sufficient size and depth to allow the appropriate aquatic community needed to maintain healthy pond ecology.

An outlet structure shall be designed to allow complete drainage of the pond for maintenance.

The design of a wet basin shall include the determination of the proposed site's ability to support a viable permanent pool. The design should take into account such factors as the required rate and quality of dry-weather inflow, the quality of stormwater inflow, seasonal and longer-term variations in the groundwater table, and effects of suspected pollutant loadings. The Pennsylvania Fish Commission and Natural Resources Conservation Service should be consulted during the design of facilities.

The minimum overland flow length through the buffer shall be 25 feet.

The maximum overland flow length contributing runoff to the boundary of the riparian buffer shall be 150 feet for pervious surfaces and 75 feet for impervious surfaces.

The average contributing overland slope shall not exceed 5%.

Runoff shall enter the riparian buffer as sheet flow. A level-spreading device shall be utilized where sheet can no longer be maintained.

The riparian buffer shall be specifically designated on the final subdivision and/or land development plan and shall be landscaped in accordance with the requirements of and as recommended by the Township Engineer. Plan notes should also indicate the portions of the riparian buffer being used to satisfy the requirements. Generally, the riparian buffer should be increased in effectiveness while maintaining a natural state as much as possible to maximize water quality benefits.

The material in which the excavation is made is sufficiently stable to sustain a slope of steeper than three horizontal to one vertical, and a written statement of a civil engineer, licensed by the Commonwealth of Pennsylvania and experienced in erosion control, to that effect is submitted to the Township Engineer and approved by him. The statement shall state that the site has been inspected and that the deviation from the slope specified hereinbefore will not result in injury to persons or damage to property.

A concrete or stone masonry wall, or modular block wall, constructed in accordance with approved standards is provided to support the face of the excavation.

Design drawings and supporting calculations, both prepared by an engineer registered to practice in Pennsylvania, shall be submitted to the Township for review prior to construction of retaining walls greater than 42 inches in height measured from the top of the footer or any wall supporting a surcharge.

The fill is located so that settlement, sliding or erosion will not result in property damage or be a hazard to adjoining property, streets, alleys or buildings.

A written statement from a civil engineer, licensed by the commonwealth and experienced in erosion control, certifying that he has inspected the site and that the proposed deviation from the slope specified above will not endanger any property or result in property damage, is submitted to and approved by the Township Engineer.

A concrete or stone masonry wall or modular block wall constructed in accordance with approved standards is provided to support the face of the fill.

Design drawings and supporting calculations, both prepared by an engineer registered to practice in Pennsylvania, shall be submitted to the Township for review prior to construction of retaining walls greater than 42 inches in height measured from the top of the footer or any wall supporting a surcharge.

Stripping of vegetation, regrading, or other development shall be done in a way that will minimize erosion.

Development plans shall preserve salient natural features, keep cut-fill operations to a minimum, and ensure conformity with topography so as to create the least erosion potential and adequately handle the volume and velocity of surface water runoff.

Whenever feasible, natural vegetation shall be retained, protected, and supplemented.

Disturbed areas shall be stabilized immediately or, at a minimum, at the end of the day. In addition, any dirt tracked onto roadways outside the subject property shall be cleaned prior to the end of the workday or as directed by the Township Engineer.

Temporary seeding and/or mulching shall be used to protect exposed critical areas during development.

The permanent (final) vegetation and mechanical erosion control and drainage shall be installed as soon as practical in the development.

Sediment in the runoff water shall be trapped until the disturbed area is stabilized by the use of debris basins, sediment basins, silt traps, or similar measures.

During grading operations, necessary measures for dust control must be exercised.

Installation and maintenance of all erosion control facilities shall be the responsibility of the applicant until all disturbed areas have been stabilized to the satisfaction of the Township and the Bucks County Conservation District.

In the event that the developer proceeds to clear and grade prior to recording plans without satisfying conditions of plan approval, the Warwick Township Board of Supervisors may revoke its approval of the preliminary plan.

Tire-cleaning areas shall be provided at each point of access to the development site.

No person, corporation or other entity shall block, impede the flow of, alter, construct any structure or deposit any material or thing or commit any act which will affect normal or flood flow in any communal stream or watercourse without having obtained prior approval from the Township or Pennsylvania Department of Environmental Protection (PADEP), whichever is applicable.

Whenever sedimentation is caused by stripping vegetation, regrading or other development, it shall be the responsibility of the applicant and/or person, corporation or other entity causing such sedimentation to remove it from all adjoining surfaces, drainage systems and watercourses and to repair any damage at his expense as quickly as possible.

Maintenance of all temporary erosion and sedimentation control facilities within any subdivision or land development is the responsibility of the developer until they are accepted by the Township or some other official agency, after which they become the responsibility of the accepting agency.