The URL can be used to link to this page

Home My WebLink AboutSW4210701_Plansheet - Landscape/Planting Plan_2021122997 STARRUSH WHITETOP 95 SPOTTED TRUMPETWEED 4 1 i 1 95 SWAMP MILKWEED - M 95 SWAMP MILKWEED - M Qr PLANTS •- 200 SQ FT • : REQUIRED A TOTAL LVA Wet�lanN PlantsInstalled: Eutr1 oIN I' p INr . d ., .. III WETLAND PLANTS INC., EDENTON, NC 95 SWAMP MILKWEED 95 SPOTTED TRUMPETWEED 17 �\ \\\\\\ 0 \ � 1 GRAPHIC SCALE 20 D 10 20 40 ( IN FEET ) 1 inch = 20 ft. so 100 STARRUSH WHITETOP General Landscaping Guidance for All Stormwater BMPs SEDIMENT / EXTENDED DETENTION BASIN 1. Trees, shrubs, and woody vegetation are not allowed on any embankment impounding water. Construction Specifications 2. Plant trees and shrubs at least 15 feet away from the toe of slope of a dam and at least 25 feet 1. Clear, grub, and strip the area under the embankment of all vegetation away from a principal spillway structures. and root mat. Remove all surface soil containing high amounts of organic matter and stockpile or dispose of it properly. Haul all objectionable 3. Trees or shrubs known to have long taproots should not be within the vicinity of the earth dam or material to the designated disposal area. subsurface drainage facilities. 2. Ensure that fill material for the embankment is free of roots, woody vegetation, organic matter, and other objectionable material. Place the fill 4. Plant trees and shrubs at least 25 feet away from perforated pipes. in lifts not to exceed 9 inches, and machine compact it. Over fill the embankment 6 inches to allow for settlement. 5. Provide 15 foot clearance from a non -clogging, low flow orifice. 3. Shape the basin to the specified dimensions. Excavate a small 6. Herbaceous embankment plantings should be limited to 10 inches in height. peninsula about 1.5 feet above the basin bottom around the planned location of the skimmer to accommodate a concrete slab for the skimmer to settle on in order to keep grass and debris away from the skimmer. 7. Use erosion control mats and fabrics in channels to reduce the potential P The slab also allows the skimmer to settle to the bottom and drain the for erosion. entire basin. The additional 1.5 feet excavation will accumulate most of the sediment and will become the basin bottom. The slab usually holds a 8. Stabilize all emergency spillways with plant material that can withstand strong flows. Root material small amount of water that aids in keeping debris away from the skimmer should be fibrous and substantial but lacking a taproot. that could clog the screen and inlet. 9. Divert flows temporarily from seeded areas until stabilized. 4. Place the barrel (outlet pipe) on a firm, smooth foundation of impervious soil. Do not use pervious material such as sand, gravel, or 10. Check water tolerances of existingplant materials riot to inundation of area. p p crushed stone as backfill around the pipe. Place the fill material around the pipe spillway in 4-inch layers and compact it under and around the pipe to at least the same density as the adjacent embankment. Care 11. Stabilize aquatic and safety benches with emergent wetland plants and wet seed mixes. must be taken not to raise the pipe from the firm contact with its foundation when compacting under the pipe haunches. Install anti -seep 12. Do not block maintenance access to structures with trees or shrubs. collars as specified slightly down stream from dam centerline. Place a minimum depth of 2 feet of compacted backfill over the outlet pipe 13. To reduce thermal warming, shade inflow and outflow channels as well as southern exposures of before crossing it with construction equipment. In no case should the pipe ponds. conduit be installed by cutting a trench through the dam after the embankment is complete. Install the concrete anti -floatation slab base; 14. Avoid that intensive (i.e. turf securely attach the box riser to the base at the proper elevations and plantings will require routine or chemical applications area). locations as shown on the plans. 15. Have soil tested to determine if there is a need for amendments. 5. Assemble the skimmer following the manufacturer's instructions. 16. Native plant species should be specified over exotic or foreign species because they are well 6. Lay the assembled skimmer on the bottom of the basin with the adapted to local on -site soil and temperature conditions, are beneficial for wildlife, and require little or no flexible joint at the proper inlet location on the riser. Attach the flexible additional amendments. joint to the inlet pipe and position the skimmer over the excavated peninsula and slob in the basin. The skimmer should settle level across 17. Decrease the areas where managed grass (turf) is used. Use low maintenance ground cover to absorb the top of the pipe with the door on it, so that the debris guards work. Otherwise, debris that accumulates around the float will flow under the run-off. float and clog the screen, when the water level drops. Adjust the flexible joint connection if necessary, especially if the skimmer is pulled to the 18. Plant stream and water buffers and filter strips with trees, shrubs, ornamental grasses, and herbaceousside and the inlet pipe is not aligned with the riser. The float is balanced materials where possible, to stabilize banks and provide shade. so that the rear settles down as the last few inches of water drain from the basin. This positions the float and guards to contain floating debris on 19. Maintain and frame desirable views. Be careful not to block views at entrances, exits, or difficult road the outside of the float as the water level drops. Place a stake at the curves. Screen unattractive views into the site. Aesthetics and visual characteristics should be second in connection of the flexible joint so that the bockhoe operator will know the location when excavating accumulated sediment from under the skimmer importance only to pollutant removal and runoff control characteristics. and not damage it. After installing the skimmer, check to make sure the orifice has not fallen out while moving. Tie a polypropylene rope around 20. Use plants to prohibit pedestrian access to pools or steeper slopes. the tee between the vent and horizontal tube. Anchor the other end of the rope to a stake on the embankment or side of the basin. Tension the 21. The designer should carefully consider the long-term vegetation management strategy for the BMP, rope as necessary so that the skimmer will settle into the pit after the keeping in mind the maintenance legacy for the future owners. Make sure the facility maintenance basin drains. (Adapted from A Manual for Designing, Installing and agreement includes requirements to ensure vegetation cover in perpetuity. Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son). 22. Provide a planting surface that can withstand the compaction of vehicles using maintenance access 7 Earthen spillways - Install the spillway in undisturbed soil. The roads. achievement of planned elevations, grade, design width, and entrance and exit channel slopes are critical to the successful operation of the spillway. 23. If a BMP is likely to receive excessive amounts of deicing salt, salt tolerant plants should be used. The spillway may be lined with laminated plastic or permeable geotextile fabric. The fabric must be wide and long enough to cover the bottom and 24. Provide signage to help educate the public and to designate maintenance limits. sides and extend onto the top of the dam for anchoring in a trench. The edges may be secured with 12-inch staples or pins. The fabric must be 25. Chose plants to create a diversity of herbaceous, shrub and tree species. long enough to extend down the slope and exit onto stable ground. The width of the fabric must be one piece, not joined or spliced; otherwise 26. Preserve existing natural vegetation when possible. g g p water can get under the fabric. If the length of the fabric is insufficient for the entire length of the spillway, multiple sections, spanning the complete width, may be used. The upper section(s) should overlap the SOIL: lower section(s) so that water cannot flow under the fabric. Secure the upper edge and sides of the fabric in a trench with staples or pins. It is necessary to test the soil in which you are about to plant in order to determine the following: (Adopted from A Manual for Designing, Installing and Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son.). pH; whether acid, neutral, or alkaline major soil nutrients; Nitrogen, Phosphorus, Potassium 8. Inlets - Discharge water into the basin in a manner to prevent erosion. minerals; such as chelated iron, lime Use temporary slope drains or diversions with outlet protection to divert sediment laden water to the upper end of the pool area to improve basin Have soil samples analyzed by experienced and qualified individuals, such as those at the USDA trap efficiency. Agricultural Extension Office, who will explain in writing the results, what they mean, as well as what soil g. Erosion control - Construct the structure so that the disturbed area is amendments would be required. Certain soil conditions, such as marine clays, can present serious minimized. Divert surface water away from bare areas. Complete the constraints to the growth of plant materials and may require the guidance of qualified professionals. When embankment before the area is cleared. Stabilize the emergency spillway poor soils can not be amended, seed mixes and plant material must be selected to establish ground embankment and all other disturbed areas above the crest of the principal cover as quickly as possible. spillway immediately after construction. Areas that recently have been involved in construction can become compacted so that plant roots cannot penetrate the soil. Also seeds will lie on the surface of compacted soils and are often washed away or 10. Install porous baffles as specified in locations shown on plans. eaten by birds. For planting success, soils should be loosened to a depth of three to five inches. Hard soils may require disking to a deeper depth. The soil should be loosened regardless of the ground cover. 11. After all the sediment -producing areas have been permanently This will improve seed contact with the soil, increase germination rates, and allow the roots to penetrate stabilized, remove the accumulated silt and dispose properly, bringing the the soil. For areas to be sodded, disking is necessary so that the roots can penetrate the soil. Providing basin to its original design volume. Check the operation of the skimmer and spillways and make sure all pipes and structures are clear. Dress good growing conditions can prevent poor vegetative cover. This saves money because vegetation will basin slopes and sow native grasses and flowers to make the basin as not need to be replanted. attractive as possible. Smooth the slopes to blend with the adjoining areas and stabilize properly and immediately. Whenever possible, topsoil should be spread to a depth of four to eight inches and lightly compacted to minimum thickness of four inches. This provides organic matter and important nutrients for the plant Maintenance material. The use of topsoil allows vegetation to become established faster and roots to penetrate p g p Inspect skimmer sediment basins weekly and after each significant deeper. This ensures quicker and more complete stabilization, making it less likely that the plants will (one-half inch or greater) rainfall event and repair immediately. Remove wash out during a heavy storm. If topsoil has been stockpiled in deep mounds for a long period of time, sediment and restore the basin to its original dimensions when sediment it is necessary to test accumulates to one-half the height of the first baffle. Pull the skimmer the soil for pH as well as microbial activity. If the microbial activity has been destroyed, it is necessary toto one side so that the sediment underneath it can be excavated. inoculate the soil after application. Excavate the sediment from the entire basin, not just around the skimmer or the first cell. Make sure vegetation growing in the bottom of the basin Remember that newly installed plant material requires water in order to recover from the shock of being does not hold down the skimmer. Repair the baffles if they are damaged. transplanted. Be sure that some source of water is provided, especially during dry periods. This will Re -anchor the baffles if water IS flowing underneath or around them. If reduce plant loss and provide the new plant materials with a chance to establish root growth. the skimmer is clogged with trash and there is water in the basin, usually jerking on the rope will make the skimmer bob up and down and dislodge the debris and restore flow. If this does not work, pull the skimmer over to the side of the basin and remove the debris. Also check the orifice inside the skimmer to see if it is clogged; if so remove the debris. If the skimmer arm or barrel pipe is clogged, the orifice can be removed and BMP PLANTING PLAN the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. 1. THE LANDSCAPE CONTRACTOR IS RESPONSIBLE FOR IMPLEMENTING WORK AS SPECIFIED ON THESE PLANS. 2. CONTRACTOR SHALL NOTIFY THIS OFFICE OF ANY DISCREPANCIES PRIOR TO BEGINNING OR CONTINUING WORK. 3. SIZE OF PLANT MATERIALS SHALL CONFORM WITH THE CURRENT EDITION OF "AMERICAN STANDARD FOR NURSERY STOCK" FOR NUMBER ONE GRADE NURSERY STOCK AS ADOPTED BY THE AMERICAN ASSOCIATION OF NURSERYMEN AND AMERICAN NATIONAL STANDARDS INSTITUTE. 4. ALL DISTURBED AREAS ARE TO BE SEEDED OR SODDED UNLESS OTHERWISE NOTED. 5• PLEASE CONTACT LANDSCAPE DESIGNER REGARDING SUBSTITUTIONS. 6. A MINIMUM OF 50 HERBACEOUS PLANTS PER 200 SF OF SHELF AREA SHALL BE PLANTED IN THE SHALLOW WATER ZONE AND IN THE SHALLOW LAND ZONE. WHERE SHRUBS ARE PROPOSED IN THE SHALLOW LAND ZONE, THEY SHALL BE IN 1 GALLON CONTAINERS AND SPACED 8 SHRUBS PER 200 SF (5' D.C.). 7• ALL PLANT MATERIALS SHALL BE A NATIVE SPECIES AND PURCHASED FROM A LOCAL SOURCE TO ENSURE SURVIVABILITY. 8. SEE SHEET 7 FOR SEEDING SPECIFICATIONS AND ADDITIONAL LANDSCAPING NOTES. POND PLANTING ZONES N.T.S. MAINTENANCE AND OPERATION MANUAL FOR PERMANENT EXTENDED DETENTION POND (MAINTENANCE AND OPERATION ARE THE RESPONSIBILITY OF THE OWNER) I. Monthly, or after every runoff producing rainfall event, whichever comes first: A. Inspect the trash rack; remove accumulated debris, repair/replace if it is not functioning. B. Inspect and clear the orifice of any obstructions. C. Inspect the pond side slopes and grassed inlet swales; remove trash, and repair eroded areas before the next rainfall event. II. Quarterly (Four times a year): A. Inspect the collection system (i.e. catch basins, piping, grassed swales) for proper functioning. Accumulated trash will be cleared from basin grates, basin bottoms, and piping will be checked for obstructions and cleared as required. B. Pond inlet pipes will be checked for undercutting. Riprap or other energy dissipation structures will be replaced, and broken pipes will be repaired. III. Semi-annually (twice a year): A. Accumulated sediment from the bottom of the outlet structure will be removed. B. The fore bay depth will be checked at various points. C. Grassed swales, including the vegetated filter if applicable, will be reseeded twice a year as necessary. IV. Annually (Once a year): A. The pond depth will be checked at various points. Sediment removal will occur when the depth is reduced to 75% of RMANENT POOL the original design depth or 3 ft., whichever is greater. Sediment must be removed to at least the original design JD SIDE SLOPE depth. V. General: A. Mowing of the side slopes will be accomplished according to the season. Maximum grass height will be 6 inches. B. All components of the detention pond system will be kept in good working order. Repair or replacement components will meet the original design specifications as per the approved stormwater plan. If previously approved components are determined to be ineffective, the component must be redesigned and/or replaced. Gupton's Royal Design Group CIVIL ENGINEERING - SITE PLANNING STORMWATER DESIGN LANDSCAPE DESIGN o LAND SURVEYING RDG PO BOX 1070 KING, NC 27021 OFFICE 336-985-6519 E-MAIL guptonpa@GuptonCo.com CORPORATE LICENSE NO: 0-0423 (D Z O J O N Z 12 O w 0 N �rn U � � N C) J O W 0 Zr'Q Q�OJ�N LLJ _�� Luz0 O_J O V Jpd 107m U) Ld Ld �Y w0(j I 'nY W Z 0 0 0 I_ O U) U) U) 'w D Z_ NJ Z_ � Y Z PROGRESS DRAWINGS GOVERNMENTAL PERMITS APPLIED FOR DO NOT USE FOR CONSTRUCTION PLAN SCALE: 1:20 REVISIONS: 07101120 BID SET 01115121 SET 08126121 UPDATE SURVEYED BY. OTHERS DRAWN BY. DHB DRAWN BY. MDE DRAWN BY. BSH DESIGNED BY. HBG APPROVED BY. HBG �sAo0�/, ;moo N' E - 360 B. SHEET TITLE: POND V PLANTING M OF 19 DATE: 04101119 PROJECT NO: 12804-19 115 SWAMP MILKWEED 139 STARRUSH WHITETOP I I I 11 11 115 SPOTTED TRUMPETWEED Plants 200SQ,FT 737.5 RIEQUIRPLANTS. Installed:�Wetland Plants Asclepids incomato Rhynchospoira ,, Swamp Milkweed • • H&H PLANTS, LLC, GARNER, NC / - - - - - - - - - - - - / -- \ \ - - - - - - - - - - - / IIIII l /l� LLl0/��/ll II II1111� 111 II 11 \\ ��\ 115 SPOTTED TRUMPETWEED I IIIII \ 0 plllll II I1 I I III b l l \ IIII II I� 1\ \ \\\ IIII I I I I \ \ IIII I I I I i \ Illlf�l I I I I u \ \ \ \ IIII I I I I I i \ IIII6 I I I I F \ IIIIP III I \ \\ IIII I I I I I \ \ 139 STARRUSH WHITETOP \ IIIII I I I \ \ IIIII I I I I I \ \ IIII I I I I I \ D \ \ IIII I I I I I \ I I \ Illa I I I \ I \ IIIIPLi \ \ \ IIII I I I I I \ \ \ IIIII I I I I \ I I \ IIII I I I I \ \ IIII III \ \ \ IIII I I I I I \ O I \ I I \ \ I pull C�\\` \ /l jll/l0 / 1 1 1 I /p d l l l / I � 1<7I \ I / \ I I I / I / � � 0 y I / / \ i \ L / / \ / / \ 1 \ \Z7 115 SWAMP MILKWEED ' / ' G \ \ J GRAPHIC SCALE 20 0 10 20 40 ( IN FEET ) 1 inch = 20 ft. 80 General Landscaping Guidance for All Stormwater BMPs SEDIMENT / EXTENDED DETENTION BASIN 1. Trees, shrubs, and woody vegetation are not allowed on any embankment impounding water. Construction Specifications 2. Plant trees and shrubs at least 15 feet away from the toe of slope of a dam and at least 25 feet 1. Clear, grub, and strip the area under the embankment of all vegetation away from a principal spillway structures. and root mat. Remove all surface soil containing high amounts of organic matter and stockpile or dispose of it properly. Haul all objectionable 3. Trees or shrubs known to have long taproots should not be within the vicinity of the earth dam or material to the designated disposal area. subsurface drainage facilities. 2. Ensure that fill material for the embankment is free of roots, woody vegetation, organic matter, and other objectionable material. Place the fill 4. Plant trees and shrubs at least 25 feet away from perforated pipes. in lifts not to exceed 9 inches, and machine compact it. Over fill the embankment 6 inches to allow for settlement. 5. Provide 15 foot clearance from a non -clogging, low flow orifice. 3. Shape the basin to the specified dimensions. Excavate a small 6. Herbaceous embankment plantings should be limited to 10 inches in height. peninsula about 1.5 feet above the basin bottom around the planned location of the skimmer to accommodate a concrete slab for the skimmer to settle on in order to keep grass and debris away from the skimmer. 7. Use erosion control mats and fabrics in channels to reduce the potential P The slab also allows the skimmer to settle to the bottom and drain the for erosion. entire basin. The additional 1.5 feet excavation will accumulate most of the sediment and will become the basin bottom. The slab usually holds a 8. Stabilize all emergency spillways with plant material that can withstand strong flows. Root material small amount of water that aids in keeping debris away from the skimmer should be fibrous and substantial but lacking a taproot. that could clog the screen and inlet. 9. Divert flows temporarily from seeded areas until stabilized. 4. Place the barrel (outlet pipe) on a firm, smooth foundation of impervious soil. Do not use pervious material such as sand, gravel, or 10. Check water tolerances of existingplant materials riot to inundation of area. p p crushed stone as backfill around the pipe. Place the fill material around the pipe spillway in 4-inch layers and compact it under and around the pipe to at least the same density as the adjacent embankment. Care 11. Stabilize aquatic and safety benches with emergent wetland plants and wet seed mixes. must be taken not to raise the pipe from the firm contact with its foundation when compacting under the pipe haunches. Install anti -seep 12. Do not block maintenance access to structures with trees or shrubs. collars as specified slightly down stream from dam centerline. Place a minimum depth of 2 feet of compacted backfill over the outlet pipe 13. To reduce thermal warming, shade inflow and outflow channels as well as southern exposures of before crossing it with construction equipment. In no case should the pipe ponds. conduit be installed by cutting a trench through the dam after the embankment is complete. Install the concrete anti -floatation slab base; 14. Avoid that intensive (i.e. turf securely attach the box riser to the base at the proper elevations and plantings will require routine or chemical applications area). locations as shown on the plans. 15. Have soil tested to determine if there is a need for amendments. 5. Assemble the skimmer following the manufacturer's instructions. 16. Native plant species should be specified over exotic or foreign species because they are well 6. Lay the assembled skimmer on the bottom of the basin with the adapted to local on -site soil and temperature conditions, are beneficial for wildlife, and require little or no flexible joint at the proper inlet location on the riser. Attach the flexible additional amendments. joint to the inlet pipe and position the skimmer over the excavated peninsula and slob in the basin. The skimmer should settle level across 17. Decrease the areas where managed grass (turf) is used. Use low maintenance ground cover to absorb the top of the pipe with the door on it, so that the debris guards work. Otherwise, debris that accumulates around the float will flow under the run-off. float and clog the screen, when the water level drops. Adjust the flexible joint connection if necessary, especially if the skimmer is pulled to the 18. Plant stream and water buffers and filter strips with trees, shrubs, ornamental grasses, and herbaceousside and the inlet pipe is not aligned with the riser. The float is balanced materials where possible, to stabilize banks and provide shade. so that the rear settles down as the last few inches of water drain from the basin. This positions the float and guards to contain floating debris on 19. Maintain and frame desirable views. Be careful not to block views at entrances, exits, or difficult road the outside of the float as the water level drops. Place a stake at the curves. Screen unattractive views into the site. Aesthetics and visual characteristics should be second in connection of the flexible joint so that the bockhoe operator will know the location when excavating accumulated sediment from under the skimmer importance only to pollutant removal and runoff control characteristics. and not damage it. After installing the skimmer, check to make sure the orifice has not fallen out while moving. Tie a polypropylene rope around 20. Use plants to prohibit pedestrian access to pools or steeper slopes. the tee between the vent and horizontal tube. Anchor the other end of the rope to a stake on the embankment or side of the basin. Tension the 21. The designer should carefully consider the long-term vegetation management strategy for the BMP, rope as necessary so that the skimmer will settle into the pit after the keeping in mind the maintenance legacy for the future owners. Make sure the facility maintenance basin drains. (Adapted from A Manual for Designing, Installing and agreement includes requirements to ensure vegetation cover in perpetuity. Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son). 22. Provide a planting surface that can withstand the compaction of vehicles using maintenance access 7 Earthen spillways - Install the spillway in undisturbed soil. The roads. achievement of planned elevations, grade, design width, and entrance and exit channel slopes are critical to the successful operation of the spillway. 23. If a BMP is likely to receive excessive amounts of deicing salt, salt tolerant plants should be used. The spillway may be lined with laminated plastic or permeable geotextile fabric. The fabric must be wide and long enough to cover the bottom and 24. Provide signage to help educate the public and to designate maintenance limits. sides and extend onto the top of the dam for anchoring in a trench. The edges may be secured with 12-inch staples or pins. The fabric must be 25. Chose plants to create a diversity of herbaceous, shrub and tree species. long enough to extend down the slope and exit onto stable ground. The width of the fabric must be one piece, not joined or spliced; otherwise 26. Preserve existing natural vegetation when possible. g g p water can get under the fabric. If the length of the fabric is insufficient for the entire length of the spillway, multiple sections, spanning the complete width, may be used. The upper section(s) should overlap the SOIL: lower section(s) so that water cannot flow under the fabric. Secure the upper edge and sides of the fabric in a trench with staples or pins. It is necessary to test the soil in which you are about to plant in order to determine the following: (Adopted from A Manual for Designing, Installing and Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son.). pH; whether acid, neutral, or alkaline major soil nutrients; Nitrogen, Phosphorus, Potassium 8. Inlets - Discharge water into the basin in a manner to prevent erosion. minerals; such as chelated iron, lime Use temporary slope drains or diversions with outlet protection to divert sediment laden water to the upper end of the pool area to improve basin Have soil samples analyzed by experienced and qualified individuals, such as those at the USDA trap efficiency. Agricultural Extension Office who will explain in writing the results what the mean as well as what soil 9 P 9 y 9. Erosion control -Construct the structure so that the disturbed area is amendments would be required. Certain soil conditions, such as marine clays, can present serious minimized. Divert surface water away from bare areas. Complete the constraints to the growth of plant materials and may require the guidance of qualified professionals. When embankment before the area is cleared. Stabilize the emergency spillway poor soils can not be amended, seed mixes and plant material must be selected to establish ground embankment and all other disturbed areas above the crest of the principal cover as quickly as possible. spillway immediately after construction. Areas that recently have been involved in construction can become compacted so that plant roots cannot penetrate the soil. Also seeds will lie on the surface of compacted soils and are often washed away or 10. Install porous baffles as specified in locations shown on plans. eaten by birds. For planting success, soils should be loosened to a depth of three to five inches. Hard soils may require disking to a deeper depth. The soil should be loosened regardless of the ground cover. After all the sediment -producing areas have been permanently This will improve seed contact with the soil, increase germination rates, and allow the roots to penetrate stabilized, remove the accumulated silt and dispose properly, bringing the s t the soil. For areas to be sodded, diskingis necessary so that the roots can penetrate the soil. Providing rY P 9 basin to its original desi n volume. Check the operation of the skimmer 9 P and spillways and make sure all pipes and structures are clear. Dress good growing conditions can prevent poor vegetative cover. This saves money because vegetation will basin slopes and sow native grasses and flowers to make the basin as not need to be replanted. attractive as possible. Smooth the slopes to blend with the adjoining areas and stabilize properly and immediately. Whenever possible, topsoil should be spread to a depth of four to eight inches and lightly compacted to minimum thickness of four inches. This provides organic matter and important nutrients for the plant Maintenance material. The use of topsoil allows vegetation to become established faster and roots to penetrate p g p Inspect skimmer sediment basins weekly and after each significant deeper. This ensures quicker and more complete stabilization, making it less likely that the plants will (one-half inch or greater) rainfall event and repair immediately. Remove wash out during a heavy storm. If topsoil has been stockpiled in deep mounds for a long period of time, sediment and restore the basin to its original dimensions when sediment it is necessary to test accumulates to one-half the height of the first baffle. Pull the skimmer the soil for pH as well as microbial activity. If the microbial activity has been destroyed, it is necessary toto one side so that the sediment underneath it can be excavated. inoculate the soil after application. Excavate the sediment from the entire basin, not just around the skimmer or the first cell. Make sure vegetation growing in the bottom of the basin Remember that newly installed plant material requires water in order to recover from the shock of being the the baffles if air does not hold down the skimmer. Repair Y are damaged. transplanted. Be sure that some source of water is provided, especially during dry periods. This will Re -anchor the baffles if water IS flowing underneath or around them. If reduce plant loss and provide the new plant materials with a chance to establish root growth. the skimmer is clogged with trash and there is water in the basin, usually jerking on the rope will make the skimmer bob up and down and dislodge the debris and restore flow. If this does not work, pull the skimmer over to the side of the basin and remove the debris. Also check the orifice inside the skimmer to see if it is clogged; if so remove the debris. If the skimmer arm or barrel pipe is clogged, the orifice can be removed and BMP PLANTING PLAN the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. 1. THE LANDSCAPE CONTRACTOR IS RESPONSIBLE FOR IMPLEMENTING WORK AS SPECIFIED ON THESE PLANS. 2. CONTRACTOR SHALL NOTIFY THIS OFFICE OF ANY DISCREPANCIES PRIOR TO BEGINNING OR CONTINUING WORK. 3. SIZE OF PLANT MATERIALS SHALL CONFORM WITH THE CURRENT EDITION OF "AMERICAN STANDARD FOR NURSERY STOCK" FOR NUMBER ONE GRADE NURSERY STOCK AS ADOPTED BY THE AMERICAN ASSOCIATION OF NURSERYMEN AND AMERICAN NATIONAL STANDARDS INSTITUTE. 4. ALL DISTURBED AREAS ARE TO BE SEEDED OR SODDED UNLESS OTHERWISE NOTED. 5• PLEASE CONTACT LANDSCAPE DESIGNER REGARDING SUBSTITUTIONS. 6. A MINIMUM OF 50 HERBACEOUS PLANTS PER 200 SF OF SHELF AREA SHALL BE PLANTED IN THE SHALLOW WATER ZONE AND IN THE SHALLOW LAND ZONE. WHERE SHRUBS ARE PROPOSED IN THE SHALLOW LAND ZONE, THEY SHALL BE IN 1 GALLON CONTAINERS AND SPACED 8 SHRUBS PER 200 SF (5' D.C.). 7• ALL PLANT MATERIALS SHALL BE A NATIVE SPECIES AND PURCHASED FROM A LOCAL SOURCE TO ENSURE SURVIVABILITY. 8. SEE SHEET 7 FOR SEEDING SPECIFICATIONS AND ADDITIONAL LANDSCAPING NOTES. POND PLANTING ZONES N.T.S. MAINTENANCE AND OPERATION MANUAL FOR PERMANENT EXTENDED DETENTION POND (MAINTENANCE AND OPERATION ARE THE RESPONSIBILITY OF THE OWNER) I. Monthly, or after every runoff producing rainfall event, whichever comes first: A. Inspect the trash rack; remove accumulated debris, repair/replace if it is not functioning. B. Inspect and clear the orifice of any obstructions. C. Inspect the pond side slopes and grassed inlet swales; remove trash, and repair eroded areas before the next rainfall event. II. Quarterly (Four times a year): A. Inspect the collection system (i.e. catch basins, piping, grassed swales) for proper functioning. Accumulated trash will be cleared from basin grates, basin bottoms, and piping will be checked for obstructions and cleared as required. B. Pond inlet pipes will be checked for undercutting. Riprap or other energy dissipation structures will be replaced, and broken pipes will be repaired. III. Semi-annually (twice a year): A. Accumulated sediment from the bottom of the outlet structure will be removed. B. The fore bay depth will be checked at various points. C. Grassed swales, including the vegetated filter if applicable, will be reseeded twice a year as necessary. IV. Annually (Once a year): A. The pond depth will be checked at various points. Sediment removal will occur when the depth is reduced to 75% of RMANENT POOL the original design depth or 3 ft., whichever is greater. Sediment must be removed to at least the original design JD SIDE SLOPE depth. V. General: A. Mowing of the side slopes will be accomplished according to the season. Maximum grass height will be 6 inches. B. All components of the detention pond system will be kept in good working order. Repair or replacement components will meet the original design specifications as per the approved stormwater plan. If previously approved components are determined to be ineffective, the component must be redesigned and/or replaced. Gupton's Royal Design Group CIVIL ENGINEERING - SITE PLANNING STORMWATER DESIGN LANDSCAPE DESIGN o LAND SURVEYING IP PO BOX 1070 KING, NC 27021 OFFICE 336-985-6519 E-MAIL guptonpa@GuptonCo.com CORPORATE LICENSE NO: 0-0423 (D Z U J O Z r, O w N 0 0 ��rn U �LN U�J Q�0O W O Zr-Q J0N _n� O�z0 O_J V J p� I O22 w 0 0 I nY W � Zno 0 0 0 I_ O U) U) U) cD z Y PROGRESS DRAWINGS GOVERNMENTAL PERMITS APPLIED FOR DO NOT USE FOR CONSTRUCTION PLAN SCALE: 1:20 REVISIONS: 07101120 BID SET 01115121 SET 08126121 UPDATE SURVEYED BY. OTHERS DRAWN BY. DHB DRAWN BY. MDE DRAWN BY. BSH DESIGNED BY. HBG APPROVED BY. HBG go��i E _ _ 360 SHEET TITLE: POND #2 PLANTING = OF 19 DATE: 04101119 PROJECT NO: 12804-19 M 0� 11n M rMl uAMrrAlrrM IS STARRUSH WHITETOP 88 SWAMP MILKWEED GRAPHIC SCALE 20 0 10 20 40 ( IN FEET ) 1 inch = 20 ft. 80 General Landscaping Guidance for All Stormwater BMPs SEDIMENT / EXTENDED DETENTION BASIN 1. Trees, shrubs, and woody vegetation are not allowed on any embankment impounding water. Construction Specifications 2. Plant trees and shrubs at least 15 feet away from the toe of slope of a dam and at least 25 feet 1. Clear, grub, and strip the area under the embankment of all vegetation away from a principal spillway structures. and root mat. Remove all surface soil containing high amounts of organic matter and stockpile or dispose of it properly. Haul all objectionable 3. Trees or shrubs known to have long taproots should not be within the vicinity of the earth dam or material to the designated disposal area. subsurface drainage facilities. 2. Ensure that fill material for the embankment is free of roots, woody vegetation, organic matter, and other objectionable material. Place the fill 4. Plant trees and shrubs at least 25 feet away from perforated pipes. in lifts not to exceed 9 inches, and machine compact it. Over fill the embankment 6 inches to allow for settlement. 5. Provide 15 foot clearance from a non -clogging, low flow orifice. 3. Shape the basin to the specified dimensions. Excavate a small 6. Herbaceous embankment plantings should be limited to 10 inches in height. peninsula about 1.5 feet above the basin bottom around the planned location of the skimmer to accommodate a concrete slab for the skimmer to settle on in order to keep grass and debris away from the skimmer. 7. Use erosion control mats and fabrics in channels to reduce the potential The slab also allows the skimmer to settle to the bottom and drain the for erosion. entire basin. The additional 1.5 feet excavation will accumulate most of the sediment and will become the basin bottom. The slab usually holds a 8. Stabilize all emergency spillways with plant material that can withstand strong flows. Root material small amount of water that aids in keeping debris away from the skimmer should be fibrous and substantial but lacking a taproot. that could clog the screen and inlet. 9. Divert flows temporarily from seeded areas until stabilized. 4. Place the barrel (outlet pipe) on a firm, smooth foundation of impervious soil. Do not use pervious material such as sand, gravel, or 10. Check water tolerances of existingplant materials riot to inundation of area. p p crushed stone as backfill around the pipe. Place the fill material around the pipe spillway in 4-inch layers and compact it under and around the pipe to at least the same density as the adjacent embankment. Care 11. Stabilize aquatic and safety benches with emergent wetland plants and wet seed mixes. must be taken not to raise the pipe from the firm contact with its foundation when compacting under the pipe haunches. Install anti -seep 12. Do not block maintenance access to structures with trees or shrubs. collars as specified slightly down stream from dam centerline. Place a minimum depth of 2 feet of compacted backfill over the outlet pipe 13. To reduce thermal warming, shade inflow and outflow channels as well as southern exposures of before crossing it with construction equipment. In no case should the pipe ponds. conduit be installed by cutting a trench through the dam after the embankment is complete. Install the concrete anti -floatation slab base; 14. Avoid that intensive (i.e. turf securely attach the box riser to the base at the proper elevations and plantings will require routine or chemical applications area). locations as shown on the plans. 15. Have soil tested to determine if there is a need for amendments. 5. Assemble the skimmer following the manufacturer's instructions. 16. Native plant species should be specified over exotic or foreign species because they are well 6. Lay the assembled skimmer on the bottom of the basin with the adapted to local on -site soil and temperature conditions, are beneficial for wildlife, and require little or no flexible joint at the proper inlet location on the riser. Attach the flexible additional amendments. joint to the inlet pipe and position the skimmer over the excavated peninsula and slob in the basin. The skimmer should settle level across 17. Decrease the areas where managed grass (turf) is used. Use low maintenance ground cover to absorb the top of the pipe with the door on it, so that the debris guards work. Otherwise, debris that accumulates around the float will flow under the run-off. float and clog the screen, when the water level drops. Adjust the flexible joint connection if necessary, especially if the skimmer is pulled to the 18. Plant stream and water buffers and filter strips with trees, shrubs, ornamental grasses, and herbaceousside and the inlet pipe is not aligned with the riser. The float is balanced materials where possible, to stabilize banks and provide shade. so that the rear settles down as the last few inches of water drain from the basin. This positions the float and guards to contain floating debris on 19. Maintain and frame desirable views. Be careful not to block views at entrances, exits, or difficult road the outside of the float as the water level drops. Place a stake at the curves. Screen unattractive views into the site. Aesthetics and visual characteristics should be second in connection of the flexible joint so that the bockhoe operator will know the location when excavating accumulated sediment from under the skimmer importance only to pollutant removal and runoff control characteristics. and not damage it. After installing the skimmer, check to make sure the orifice has not fallen out while moving. Tie a polypropylene rope around 20. Use plants to prohibit pedestrian access to pools or steeper slopes. the tee between the vent and horizontal tube. Anchor the other end of the rope to a stake on the embankment or side of the basin. Tension the 21. The designer should carefully consider the long-term vegetation management strategy for the BMP, rope as necessary so that the skimmer will settle into the pit after the keeping in mind the maintenance legacy for the future owners. Make sure the facility maintenance basin drains. (Adapted from A Manual for Designing, Installing and agreement includes requirements to ensure vegetation cover in perpetuity. Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son). 22. Provide a planting surface that can withstand the compaction of vehicles using maintenance access 7 Earthen spillways - Install the spillway in undisturbed soil. The roads. achievement of planned elevations, grade, design width, and entrance and exit channel slopes are critical to the successful operation of the spillway. 23. If a BMP is likely to receive excessive amounts of deicing salt, salt tolerant plants should be used. The spillway may be lined with laminated plastic or permeable geotextile fabric. The fabric must be wide and long enough to cover the bottom and 24. Provide signage to help educate the public and to designate maintenance limits. sides and extend onto the top of the dam for anchoring in a trench. The edges may be secured with 12-inch staples or pins. The fabric must be 25. Chose plants to create a diversity of herbaceous, shrub and tree species. long enough to extend down the slope and exit onto stable ground. The width of the fabric must be one piece, not joined or spliced; otherwise 26. Preserve existing natural vegetation when possible. g g p water can get under the fabric. If the length of the fabric is insufficient for the entire length of the spillway, multiple sections, spanning the complete width, may be used. The upper section(s) should overlap the SOIL: lower section(s) so that water cannot flow under the fabric. Secure the upper edge and sides of the fabric in a trench with staples or pins. It is necessary to test the soil in which you are about to plant in order to determine the following: (Adopted from A Manual for Designing, Installing and Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son.). pH; whether acid, neutral, or alkaline major soil nutrients; Nitrogen, Phosphorus, Potassium 8. Inlets - Discharge water into the basin in a manner to prevent erosion. minerals; such as chelated iron, lime Use temporary slope drains or diversions with outlet protection to divert sediment laden water to the upper end of the pool area to improve basin Have soil samples analyzed by experienced and qualified individuals, such as those at the USDA trap efficiency. Agricultural Extension Office, who will explain in writing the results, what they mean, as well as what soil g. Erosion control - Construct the structure so that the disturbed area is amendments would be required. Certain soil conditions, such as marine clays, can present serious minimized. Divert surface water away from bare areas. Complete the constraints to the growth of plant materials and may require the guidance of qualified professionals. When embankment before the area is cleared. Stabilize the emergency spillway poor soils can not be amended, seed mixes and plant material must be selected to establish ground embankment and all other disturbed areas above the crest of the principal cover as quickly as possible. spillway immediately after construction. Areas that recently have been involved in construction can become compacted so that plant roots cannot penetrate the soil. Also seeds will lie on the surface of compacted soils and are often washed away or 10. Install porous baffles as specified in locations shown on plans. eaten by birds. For planting success, soils should be loosened to a depth of three to five inches. Hard soils may require disking to a deeper depth. The soil should be loosened regardless of the ground cover. 11. After all the sediment -producing areas have been permanently This will improve seed contact with the soil, increase germination rates, and allow the roots to penetrate stabilized, remove the accumulated silt and dispose properly, bringing the the soil. For areas to be sodded, disking is necessary so that the roots can penetrate the soil. Providing basin to its original design volume. Check the operation of the skimmer and spillways and make sure all pipes and structures are clear. Dress good growing conditions can prevent poor vegetative cover. This saves money because vegetation will basin slopes and sow native grasses and flowers to make the basin as not need to be replanted. attractive as possible. Smooth the slopes to blend with the adjoining areas and stabilize properly and immediately. Whenever possible, topsoil should be spread to a depth of four to eight inches and lightly compacted to minimum thickness of four inches. This provides organic matter and important nutrients for the plant Maintenance material. The use of topsoil allows vegetation to become established faster and roots to penetrate Inspect skimmer sediment basins weekly and after each significant deeper. This ensures quicker and more complete stabilization, making it less likely that the plants will (one-half inch or greater) rainfall event and repair immediately. Remove wash out during a heavy storm. If topsoil has been stockpiled in deep mounds for a long period of time, sediment and restore the basin to its original dimensions when sediment it is necessary to test accumulates to one-half the height of the first baffle. Pull the skimmer the soil for pH as well as microbial activity. If the microbial activity has been destroyed, it is necessary toto one side so that the sediment underneath it can be excavated. inoculate the soil after application. Excavate the sediment from the entire basin, not just around the skimmer or the first cell. Make sure vegetation growing in the bottom of the basin Remember that newly installed plant material requires water in order to recover from the shock of being does not hold down the skimmer. Repair the baffles if they are damaged. transplanted. Be sure that some source of water is provided, especially during dry periods. This will Re -anchor the baffles if water IS flowing underneath or around them. If reduce plant loss and provide the new plant materials with a chance to establish root growth. the skimmer is clogged with trash and there is water in the basin, usually jerking on the rope will make the skimmer bob up and down and dislodge the debris and restore flow. If this does not work, pull the skimmer over to the side of the basin and remove the debris. Also check the orifice inside the skimmer to see if it is clogged; if so remove the debris. If the skimmer arm or barrel pipe is clogged, the orifice can be removed and BMP PLANTING PLAN the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. 1. THE LANDSCAPE CONTRACTOR IS RESPONSIBLE FOR IMPLEMENTING WORK AS SPECIFIED ON THESE PLANS. 2. CONTRACTOR SHALL NOTIFY THIS OFFICE OF ANY DISCREPANCIES PRIOR TO BEGINNING OR CONTINUING WORK. 3. SIZE OF PLANT MATERIALS SHALL CONFORM WITH THE CURRENT EDITION OF "AMERICAN STANDARD FOR NURSERY STOCK" FOR NUMBER ONE GRADE NURSERY STOCK AS ADOPTED BY THE AMERICAN ASSOCIATION OF NURSERYMEN AND AMERICAN NATIONAL STANDARDS INSTITUTE. 4. ALL DISTURBED AREAS ARE TO BE SEEDED OR SODDED UNLESS OTHERWISE NOTED. 5• PLEASE CONTACT LANDSCAPE DESIGNER REGARDING SUBSTITUTIONS. 6. A MINIMUM OF 50 HERBACEOUS PLANTS PER 200 SF OF SHELF AREA SHALL BE PLANTED IN THE SHALLOW WATER ZONE AND IN THE SHALLOW LAND ZONE. WHERE SHRUBS ARE PROPOSED IN THE SHALLOW LAND ZONE, THEY SHALL BE IN 1 GALLON CONTAINERS AND SPACED 8 SHRUBS PER 200 SF (5' D.C.). 7• ALL PLANT MATERIALS SHALL BE A NATIVE SPECIES AND PURCHASED FROM A LOCAL SOURCE TO ENSURE SURVIVABILITY. 8. SEE SHEET 7 FOR SEEDING SPECIFICATIONS AND ADDITIONAL LANDSCAPING NOTES. POND PLANTING ZONES N.T.S. MAINTENANCE AND OPERATION MANUAL FOR PERMANENT EXTENDED DETENTION POND (MAINTENANCE AND OPERATION ARE THE RESPONSIBILITY OF THE OWNER) I. Monthly, or after every runoff producing rainfall event, whichever comes first: A. Inspect the trash rack; remove accumulated debris, repair/replace if it is not functioning. B. Inspect and clear the orifice of any obstructions. C. Inspect the pond side slopes and grassed inlet swales; remove trash, and repair eroded areas before the next rainfall event. II. Quarterly (Four times a year): A. Inspect the collection system (i.e. catch basins, piping, grassed swales) for proper functioning. Accumulated trash will be cleared from basin grates, basin bottoms, and piping will be checked for obstructions and cleared as required. B. Pond inlet pipes will be checked for undercutting. Riprap or other energy dissipation structures will be replaced, and broken pipes will be repaired. III. Semi-annually (twice a year): A. Accumulated sediment from the bottom of the outlet structure will be removed. B. The fore bay depth will be checked at various points. C. Grassed swales, including the vegetated filter if applicable, will be reseeded twice a year as necessary. IV. Annually (Once a year): A. The pond depth will be checked at various points. Sediment removal will occur when the depth is reduced to 75% of RMANENT POOL the original design depth or 3 ft., whichever is greater. Sediment must be removed to at least the original design JD SIDE SLOPE depth. V. General: A. Mowing of the side slopes will be accomplished according to the season. Maximum grass height will be 6 inches. B. All components of the detention pond system will be kept in good working order. Repair or replacement components will meet the original design specifications as per the approved stormwater plan. If previously approved components are determined to be ineffective, the component must be redesigned and/or replaced. i Gupton's Royal Design Group CIVIL ENGINEERING -SITE PLANNING STORMWATER DESIGN LANDSCAPE DESIGN o LAND SURVEYING IP PO BOX 1070 KING, NC 27021 OFFICE 336-985-6519 E-MAIL guptonpa@GuptonCo.com CORPORATE LICENSE NO: 0-0423 (D Z 0 J O Z N O w N 0 �rn 0 ��N U�J Q�0O W J0N _n� Ouzo O_J V JHE 107m U) FrO�Y Ld Ld0(j I 1`0Y Zo W �0�0n0 I_ O U) U) U) 'w D Z_ NJ Z_ � Y Z PROGRESS DRAWINGS GOVERNMENTAL PERMITS APPLIED FOR DO NOT USE FOR CONSTRUCTION PLAN SCALE: 1:20 REVISIONS: 07101120 BID SET 01115121 SET 08126121 UPDATE SURVEYED BY. OTHERS DRAWN BY. DHB DRAWN BY. MDE DRAWN BY. BSH DESIGNED BY. HBG APPROVED BY. HBG ' C A ' :l�L�o'ESS,jOQ�/, _ E - 360 y9�FNGlI N��OZ B SHEET TITLE: POND #3 PLANTING 8.30 OF 19 DATE: 04101119 PROJECT NO: 12804-1951 I% 99 SPOTTED TF POND 4# VEGETATIVE SHELF: 2340.85 SQ. FT. 50 Wetland Plants per 200 SQ FT: 585.21 REQUIRED PLANTS TOTAL TOTAL # SCIENTIFIC NAME I COMMON NAME IMINSIZEISOURCE Wetland Plants Installed: 588 D D 156 Swamp Milkweed 5" Plug H&H PLANTS, LLC, GARNER, NC 198 Spotted trumpetweed 5" Plug WETLAND PLANTS INC., EDENTON, NC 234 Starrush Whitetop 5" Plug WETLAND PLANTS INC., EDENTON, NC wv VTTr11V11 wuL_r%TVL_w a GRAPHIC SCALE 20 0 10 20 40 ( IN FEET ) 1 inch = 20 ft. General Landscaping Guidance for All Stormwater BMPs SEDIMENT / EXTENDED DETENTION BASIN 1. Trees, shrubs, and woody vegetation are not allowed on any embankment impounding water. Construction Specifications 2. Plant trees and shrubs at least 15 feet away from the toe of slope of a dam and at least 25 feet 1. Clear, grub, and strip the area under the embankment of all vegetation away from a principal spillway structures. and root mat. Remove all surface soil containing high amounts of organic matter and stockpile or dispose of it properly. Haul all objectionable 3. Trees or shrubs known to have long taproots should not be within the vicinity of the earth dam or material to the designated disposal area. subsurface drainage facilities. 2. Ensure that fill material for the embankment is free of roots, woody vegetation, organic matter, and other objectionable material. Place the fill 4. Plant trees and shrubs at least 25 feet away from perforated pipes. in lifts not to exceed 9 inches, and machine compact it. Over fill the embankment 6 inches to allow for settlement. 5. Provide 15 foot clearance from a non -clogging, low flow orifice. 3. Shape the basin to the specified dimensions. Excavate a small 6. Herbaceous embankment plantings should be limited to 10 inches in height. peninsula about 1.5 feet above the basin bottom around the planned location of the skimmer to accommodate a concrete slab for the skimmer 7. Use erosion control mats and fabrics in channels to reduce the potential P to settle on in order to keep grass and debris away from the skimmer. The slab also allows the skimmer to settle to the bottom and drain the for erosion. entire basin. The additional 1.5 feet excavation will accumulate most of the sediment and will become the basin bottom. The slab usually holds a 8. Stabilize all emergency spillways with plant material that can withstand strong flows. Root material small amount of water that aids in keeping debris away from the skimmer should be fibrous and substantial but lacking a taproot. that could clog the screen and inlet. 9. Divert flows temporarily from seeded areas until stabilized. 4. Place the barrel (outlet pipe) on a firm, smooth foundation of impervious soil. Do not use pervious material such as sand, gravel, or 10. Check water tolerances of existingplant materials prior to inundation of area. p p crushed stone as backfill around the pipe. Place the fill material around the pipe spillway in 4-inch layers and compact it under and around the pipe to at least the some density as the adjacent embankment. Care 11. Stabilize aquatic and safety benches with emergent wetland plants and wet seed mixes. must be taken not to raise the pipe from the firm contact with its foundation when compacting under the pipe haunches. Install anti -seep 12. Do not block maintenance access to structures with trees or shrubs. collars as specified slightly down stream from dam centerline. Place a minimum depth of 2 feet of compacted backfill over the outlet pipe 13. To reduce thermal warming, shade inflow and outflow channels as well as southern exposures of before crossing it with construction equipment. In no case should the pipe ponds. conduit be installed by cutting a trench through the dam after the embankment is complete. Install the concrete anti -floatation slab base; 14. Avoid plantings that will require routine or intensive chemical applications (i.e. turf area). securely attach the box riser to the base at the proper elevations and locations as shown on the plans. 15. Have soil tested to determine if there is a need for amendments. 5. Assemble the skimmer following the manufacturer's instructions. 16. Native plant species should be specified over exotic or foreign species because they are well 6. Lay the assembled skimmer on the bottom of the basin with the adapted to local on -site soil and temperature conditions, are beneficial for wildlife, and require little or no flexible joint at the proper inlet location on the riser. Attach the flexible additional amendments. joint to the inlet pipe and position the skimmer over the excavated peninsula and slab in the basin. The skimmer should settle level across 17. Decrease the areas where managed grass (turf) is used. Use low maintenance ground cover to absorb the top of the pipe with the door on it, so that the debris guards work. Otherwise, debris that accumulates around the float will flow under the run-off. float and clog the screen, when the water level drops. Adjust the flexible joint connection if necessary, especially if the skimmer is pulled to the 18. Plant stream and water buffers and filter strips with trees, shrubs, ornamental grasses, and herbaceousside and the inlet pipe is not aligned with the riser. The float is balanced materials where possible, to stabilize banks and provide shade. so that the rear settles down as the last few inches of water drain from the basin. This positions the float and guards to contain floating debris on 19. Maintain and frame desirable views. Be careful not to block views at entrances, exits, or difficult road the outside of the float as the water level drops. Place a stake at the curves. Screen unattractive views into the site. Aesthetics and visual characteristics should be second in connection of the flexible joint so that the backhoe operator will know the location when excavating accumulated sediment from under the skimmer importance only to pollutant removal and runoff control characteristics. and not damage it. After installing the skimmer, check to make sure the orifice has not fallen out while moving. Tie a polypropylene rope around 20. Use plants to prohibit pedestrian access to pools or steeper slopes. the tee between the vent and horizontal tube. Anchor the other end of the rope to a stake on the embankment or side of the basin. Tension the 21. The designer should carefully consider the long-term vegetation management strategy for the BMP, rope as necessary so that the skimmer will settle into the pit after the keeping in mind the maintenance legacy for the future owners. Make sure the facility maintenance basin drains. (Adapted from A Manual for Designing, Installing and agreement includes requirements to ensure vegetation cover in perpetuity. Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son). 22. Provide a planting surface that can withstand the compaction of vehicles using maintenance access 7. Earthen spillways - Install the spillway in undisturbed soil. The roads. achievement of planned elevations, grade, design width, and entrance and exit channel slopes are critical to the successful operation of the spillway. 23. If a BMP is likely to receive excessive amounts of deicing salt, salt tolerant plants should be used. The spillway may be lined with laminated plastic or permeable geotextile fabric. The fabric must be wide and long enough to cover the bottom and 24. Provide signage to help educate the public and to designate maintenance limits. sides and extend onto the top of the dam for anchoring in a trench. The edges may be secured with 12-inch staples or pins. The fabric must be 25. Chose plants to create a diversity of herbaceous, shrub and tree species. long enough to extend down the slope and exit onto stable ground. The width of the fabric must be one piece, not joined or spliced; otherwise 26. Preserve existing natural vegetation when possible. g g p water can get under the fabric. If the length of the fabric is insufficient for the entire length of the spillway, multiple sections, spanning the complete width, may be used. The upper section(s) should overlap the SOIL: lower section(s) so that water cannot flow under the fabric. Secure the upper edge and sides of the fabric in a trench with staples or pins. It is necessary to test the soil in which you are about to plant in order to determine the following: (Adopted from A Manual for Designing, Installing and Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son.). pH; whether acid, neutral, or alkaline major soil nutrients; Nitrogen, Phosphorus, Potassium 8. Inlets - Discharge water into the basin in a manner to prevent erosion. minerals; such as chelated iron, lime Use temporary slope drains or diversions with outlet protection to divert sediment laden water to the upper end of the pool area to improve basin Have soil samples analyzed by experienced and qualified individuals, such as those at the USDA trap efficiency. Agricultural Extension Office, who will explain in writing the results, what they mean, as well as what soil g. Erosion control - Construct the structure so that the disturbed area is amendments would be required. Certain soil conditions, such as marine clays, can present serious minimized. Divert surface water away from bare areas. Complete the constraints to the growth of plant materials and may require the guidance of qualified professionals. When embankment before the area is cleared. Stabilize the emergency spillway poor soils can not be amended, seed mixes and plant material must be selected to establish ground embankment and all other disturbed areas above the crest of the principal cover as quickly as possible. spillway immediately after construction. Areas that recently have been involved in construction can become compacted so that plant roots cannot penetrate the soil. Also seeds will lie on the surface of compacted soils and are often washed away or 10. Install porous baffles as specified in locations shown on plans. eaten by birds. For planting success, soils should be loosened to a depth of three to five inches. Hard soils may require disking to a deeper depth. The soil should be loosened regardless of the ground cover. 11 After all the sediment -producing areas have been permanently This will improve seed contact with the soil, increase germination rates, and allow the roots to penetrate stabilized, remove the accumulated silt and dispose properly, bringing the basin to its original design volume. Check the operation of the skimmer the soil. For areas to be sodded, disking is necessary so that the roots can penetrate the soil. Providing and spillways and make sure all pipes and structures are clear. Dress good growing conditions can prevent poor vegetative cover. This saves money because vegetation will basin slopes and sow native grasses and flowers to make the basin as not need to be replanted. attractive as possible. Smooth the slopes to blend with the adjoining areas and stabilize properly and immediately. Whenever possible, topsoil should be spread to a depth of four to eight inches and lightly compacted to minimum thickness of four inches. This provides organic matter and important nutrients for the plant Maintenance material. The use of topsoil allows vegetation to become established faster and roots to penetrate Inspect skimmer sediment basins weekly and after each significant deeper. This ensures quicker and more complete stabilization, making it less likely that the plants will (one-half inch or greater) rainfall event and repair immediately. Remove wash out during a heavy storm. If topsoil has been stockpiled in deep mounds for a long period of time, sediment and restore the basin to its original dimensions when sediment it is necessary to test accumulates to one-half the height of the first baffle. Pull the skimmer the soil for pH as well as microbial activity. If the microbial activity has been destroyed, it is necessary toto one side so that the sediment underneath it can be excavated. inoculate the soil after application. Excavate the sediment from the entire basin, not just around the skimmer or the first cell. Make sure vegetation growing in the bottom of the basin Remember that newly installed plant material requires water in order to recover from the shock of being does not hold down the skimmer. Repair the baffles if they are damaged. transplanted. Be sure that some source of water is provided, especially during dry periods. This will Re -anchor the baffles if water IS flowing underneath or around them. If reduce plant loss and provide the new plant materials with a chance to establish root growth. the skimmer is clogged with trash and there is water in the basin, usually jerking on the rope will make the skimmer bob up and down and dislodge the debris and restore flow. If this does not work, pull the skimmer over to the side of the basin and remove the debris. Also check the orifice inside the skimmer to see if it is clogged; if so remove the debris. If the skimmer arm or barrel pipe is clogged, the orifice can be removed and BMP PLANTING PLAN the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. 1. THE LANDSCAPE CONTRACTOR IS RESPONSIBLE FOR IMPLEMENTING WORK AS SPECIFIED ON THESE PLANS. 2. CONTRACTOR SHALL NOTIFY THIS OFFICE OF ANY DISCREPANCIES PRIOR TO BEGINNING OR CONTINUING WORK. 3. SIZE OF PLANT MATERIALS SHALL CONFORM WITH THE CURRENT EDITION OF "AMERICAN STANDARD FOR NURSERY STOCK" FOR NUMBER ONE GRADE NURSERY STOCK AS ADOPTED BY THE AMERICAN ASSOCIATION OF NURSERYMEN AND AMERICAN NATIONAL STANDARDS INSTITUTE. 4. ALL DISTURBED AREAS ARE TO BE SEEDED OR SODDED UNLESS OTHERWISE NOTED. 5• PLEASE CONTACT LANDSCAPE DESIGNER REGARDING SUBSTITUTIONS. 6• A MINIMUM OF 50 HERBACEOUS PLANTS PER 200 SF OF SHELF AREA SHALL BE PLANTED IN THE SHALLOW WATER ZONE AND IN THE SHALLOW LAND ZONE. WHERE SHRUBS ARE PROPOSED IN THE SHALLOW LAND ZONE, THEY SHALL BE IN 1 GALLON CONTAINERS AND SPACED 8 SHRUBS PER 200 SF (5' D.C.). 7• ALL PLANT MATERIALS SHALL BE A NATIVE SPECIES AND PURCHASED FROM A LOCAL SOURCE TO ENSURE SURW VABILI TY. 8. SEE SHEET 7 FOR SEEDING SPECIFICATIONS AND ADDITIONAL LANDSCAPING NOTES. 80 POND PLANTING ZONES N.T.S. MAINTENANCE AND OPERATION MANUAL FOR PERMANENT EXTENDED DETENTION POND (MAINTENANCE AND OPERATION ARE THE RESPONSIBILITY OF THE OWNER) I. Monthly, or after every runoff producing rainfall event, whichever comes first: A. Inspect the trash rack; remove accumulated debris, repair/replace if it is not functioning. B. Inspect and clear the orifice of any obstructions. C. Inspect the pond side slopes and grassed inlet swales; remove trash, and repair eroded areas before the next rainfall event. II. Quarterly (Four times a year): A. Inspect the collection system (i.e. catch basins, piping, grassed swales) for proper functioning. Accumulated trash will be cleared from basin grates, basin bottoms, and piping will be checked for obstructions and cleared as required. B. Pond inlet pipes will be checked for undercutting. Riprop or other energy dissipation structures will be replaced, and broken pipes will be repaired. III. Semi-annually (twice a year): A. Accumulated sediment from the bottom of the outlet structure will be removed. B. The fore bay depth will be checked at various points. C. Grassed swales, including the vegetated filter if applicable, will be reseeded twice a year as necessary. IV. Annually (Once a year): A. The pond depth will be checked at various points. Sediment removal will occur when the depth is reduced to 75% of RMANENT POOL the original design depth or 3 ft., whichever is greater. Sediment must be removed to at least the original design ID SIDE SLOPE depth. V. General: A. Mowing of the side slopes will be accomplished according to the season. Maximum grass height will be 6 inches. B. All components of the detention pond system will be kept in good working order. Repair or replacement components will meet the original design specifications as per the approved stormwater plan. If previously approved components are determined to be ineffective, the component must be redesigned and/or replaced. Gupton's Royal Design Group CIVIL ENGINEERING -SITE PLANNING STORMWATER DESIGN LANDSCAPE DESIGN o LAND SURVEYING V PO BOX 1070 KING, NC 27021 OFFICE 336-985-6519 E-MAIL guptonpa@GuptonCo.com CORPORATE LICENSE NO: C-0423 (D Z U 04 J O Z LLj 0�O w N o F- rn U I-p�j LL I O Z O J Q<QC2a� ng �givv N U w � X W Zoo_mQ�- V8 f I cn 22woozno W 3: 0 0 0 tON N (7)♦^ Z_ V' Z Y w Z PROGRESS DRAWINGS GOVERNMENTAL PERMITS APPLIED FOR DO NOT USE FOR CONSTRUCTION PLAN SCALE: 1:20 REVISIONS: 07101120 BID SET 01115121 SET 08/26/21 UPDATE SURVEYED BY. OTHERS DRAWN BY. DHB DRAWN BY. MDE DRAWN BY. BSH DESIGNED BY. HBG APPROVED BY. HBG CA 10 360 - y9,Q��0 I N SHEET TITLE: POND #4 PLANTING 8.40 OF 19 DATE: 04101119 PROJECT NO: 12804-19 / / +9�-38 i 12 150 SWAMP MILKWEED 190 STARRUSH WHITETOP \ r P i Q 11 FT- a a ,y ■ QW■ P � ► TS 0 r Wetland Plants installed: 980 �1. r ,. �N p e r►GARNER,, H&H MWe � Eutrochium maculatum Spotted t�rumpetweed ��WETLAND PLANTS INC., EDENTON, NC .."M �Rhynchosporacolorata StarrushWhitetopD PLANTS INC., EDENTON, 150 SPOTTED TRUMPETWEED \ \ \ \ 190 STARRUSH WHITETO�, III I I I I I / C \ SC \ M A44 150 SPOTTED TRUMPETWEED __ __ __ \ E GRAPHIC ( IN FEET ) 1 inch = 20 ft. General Landscaping Guidance for All Stormwater BMPs SEDIMENT / EXTENDED DETENTION BASIN 1. Trees, shrubs, and woody vegetation are not allowed on any embankment impounding water. Construction Specifications 2. Plant trees and shrubs at least 15 feet away from the toe of slope of a dam and at least 25 feet 1. Clear, grub, and strip the area under the embankment of all vegetation away from a principal spillway structures. and root mat. Remove all surface soil containing high amounts of organic matter and stockpile or dispose of it properly. Haul all objectionable 3. Trees or shrubs known to have long taproots should not be within the vicinity of the earth dam or material to the designated disposal area. subsurface drainage facilities. 2. Ensure that fill material for the embankment is free of roots, woody vegetation, organic matter, and other objectionable material. Place the fill 4. Plant trees and shrubs at least 25 feet away from perforated pipes. in lifts not to exceed 9 inches, and machine compact it. Over fill the embankment 6 inches to allow for settlement. 5. Provide 15 foot clearance from a non -clogging, low flow orifice. 3. Shape the basin to the specified dimensions. Excavate a small 6. Herbaceous embankment plantings should be limited to 10 inches in height. peninsula about 1.5 feet above the basin bottom around the planned location of the skimmer to accommodate a concrete slab for the skimmer to settle on in order to keep grass and debris away from the skimmer. 7. Use erosion control mats and fabrics in channels to reduce the potential P The slab also allows the skimmer to settle to the bottom and drain the for erosion. entire basin. The additional 1.5 feet excavation will accumulate most of the sediment and will become the basin bottom. The slab usually holds a 8. Stabilize all emergency spillways with plant material that can withstand strong flows. Root material small amount of water that aids in keeping debris away from the skimmer should be fibrous and substantial but lacking a taproot. that could clog the screen and inlet. 9. Divert flows temporarily from seeded areas until stabilized. 4. Place the barrel (outlet pipe) on a firm, smooth foundation of impervious soil. Do not use pervious material such as sand, gravel, or 10. Check water tolerances of existingplant materials riot to inundation of area. p p crushed stone as backfill around the pipe. Place the fill material around the pipe spillway in 4-inch layers and compact it under and around the pipe to at least the same density as the adjacent embankment. Care 11. Stabilize aquatic and safety benches with emergent wetland plants and wet seed mixes. must be taken not to raise the pipe from the firm contact with its foundation when compacting under the pipe haunches. Install anti -seep 12. Do not block maintenance access to structures with trees or shrubs. collars as specified slightly down stream from dam centerline. Place a minimum depth of 2 feet of compacted backfill over the outlet pipe 13. To reduce thermal warming, shade inflow and outflow channels as well as southern exposures of before crossing it with construction equipment. In no case should the pipe ponds. conduit be installed by cutting a trench through the dam after the embankment is complete. Install the concrete anti -floatation slab base; 14. Avoid that intensive (i.e. turf securely attach the box riser to the base at the proper elevations and plantings will require routine or chemical applications area). locations as shown on the plans. 15. Have soil tested to determine if there is a need for amendments. 5. Assemble the skimmer following the manufacturer's instructions. 16. Native plant species should be specified over exotic or foreign species because they are well 6. Lay the assembled skimmer on the bottom of the basin with the adapted to local on -site soil and temperature conditions, are beneficial for wildlife, and require little or no flexible joint at the proper inlet location on the riser. Attach the flexible additional amendments. joint to the inlet pipe and position the skimmer over the excavated peninsula and slob in the basin. The skimmer should settle level across 17. Decrease the areas where managed grass (turf) is used. Use low maintenance ground cover to absorb the top of the pipe with the door on it, so that the debris guards work. Otherwise, debris that accumulates around the float will flow under the run-off. float and clog the screen, when the water level drops. Adjust the flexible joint connection if necessary, especially if the skimmer is pulled to the 18. Plant stream and water buffers and filter strips with trees, shrubs, ornamental grasses, and herbaceousside and the inlet pipe is not aligned with the riser. The float is balanced materials where possible, to stabilize banks and provide shade. so that the rear settles down as the last few inches of water drain from the basin. This positions the float and guards to contain floating debris on 19. Maintain and frame desirable views. Be careful not to block views at entrances, exits, or difficult road the outside of the float as the water level drops. Place a stake at the curves. Screen unattractive views into the site. Aesthetics and visual characteristics should be second in connection of the flexible joint so that the bockhoe operator will know the location when excavating accumulated sediment from under the skimmer importance only to pollutant removal and runoff control characteristics. and not damage it. After installing the skimmer, check to make sure the orifice has not fallen out while moving. Tie a polypropylene rope around 20. Use plants to prohibit pedestrian access to pools or steeper slopes. the tee between the vent and horizontal tube. Anchor the other end of the rope to a stake on the embankment or side of the basin. Tension the 21. The designer should carefully consider the long-term vegetation management strategy for the BMP, rope as necessary so that the skimmer will settle into the pit after the keeping in mind the maintenance legacy for the future owners. Make sure the facility maintenance basin drains. (Adapted from A Manual for Designing, Installing and agreement includes requirements to ensure vegetation cover in perpetuity. Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son). 22. Provide a planting surface that can withstand the compaction of vehicles using maintenance access 7. Earthen spillways - Install the spillway in undisturbed soil. The roads. achievement of planned elevations, grade, design width, and entrance and exit channel slopes are critical to the successful operation of the spillway. 23. If a BMP is likely to receive excessive amounts of deicing salt, salt tolerant plants should be used. The spillway may be lined with laminated plastic or permeable geotextile fabric. The fabric must be wide and long enough to cover the bottom and 24. Provide signage to help educate the public and to designate maintenance limits. sides and extend onto the top of the dam for anchoring in a trench. The edges may be secured with 12-inch staples or pins. The fabric must be 25. Chose plants to create a diversity of herbaceous, shrub and tree species. long enough to extend down the slope and exit onto stable ground. The width of the fabric must be one piece, not joined or spliced; otherwise 26. Preserve existing natural vegetation when possible. g g p water can get under the fabric. If the length of the fabric is insufficient for the entire length of the spillway, multiple sections, spanning the complete width, may be used. The upper section(s) should overlap the SOIL: lower section(s) so that water cannot flow under the fabric. Secure the upper edge and sides of the fabric in a trench with staples or pins. It is necessary to test the soil in which you are about to plant in order to determine the following: (Adopted from A Manual for Designing, Installing and Maintaining Skimmer Sediment Basins." February, 1999. J. W. Faircloth & Son.). pH; whether acid, neutral, or alkaline major soil nutrients; Nitrogen, Phosphorus, Potassium 8. Inlets - Discharge water into the basin in a manner to prevent erosion. minerals; such as chelated iron, lime Use temporary slope drains or diversions with outlet protection to divert sediment laden water to the upper end of the pool area to improve basin Have soil samples analyzed by experienced and qualified individuals, such as those at the USDA trap efficiency. Agricultural Extension Office, who will explain in writing the results, what they mean, as well as what soil g. Erosion control - Construct the structure so that the disturbed area is amendments would be required. Certain soil conditions, such as marine clays, can present serious minimized. Divert surface water away from bare areas. Complete the constraints to the growth of plant materials and may require the guidance of qualified professionals. When embankment before the area is cleared. Stabilize the emergency spillway poor soils can not be amended, seed mixes and plant material must be selected to establish ground embankment and all other disturbed areas above the crest of the principal cover as quickly as possible. spillway immediately after construction. Areas that recently have been involved in construction can become compacted so that plant roots cannot penetrate the soil. Also seeds will lie on the surface of compacted soils and are often washed away or 10. Install porous baffles as specified in locations shown on plans. eaten by birds. For planting success, soils should be loosened to a depth of three to five inches. Hard soils may require disking to a deeper depth. The soil should be loosened regardless of the ground cover. After all the sediment -producing areas have been permanently This will improve seed contact with the soil, increase germination rates, and allow the roots to penetrate s t stabilized, remove the accumulated silt and dispose properly, bringing the the soil. For areas to be sodded, disking is necessary so that the roots can penetrate the soil. Providing basin to its original design volume. Check the operation of the skimmer and spillways and make sure all pipes and structures are clear. Dress good growing conditions can prevent poor vegetative cover. This saves money because vegetation will basin slopes and sow native grasses and flowers to make the basin as not need to be replanted. attractive as possible. Smooth the slopes to blend with the adjoining areas and stabilize properly and immediately. Whenever possible, topsoil should be spread to a depth of four to eight inches and lightly compacted to minimum thickness of four inches. This provides organic matter and important nutrients for the plant Maintenance material. The use of topsoil allows vegetation to become established faster and roots to penetrate Inspect skimmer sediment basins weekly and after each significant deeper. This ensures quicker and more complete stabilization, making it less likely that the plants will (one-half inch or greater) rainfall event and repair immediately. Remove wash out during a heavy storm. If topsoil has been stockpiled in deep mounds for a long period of time, sediment and restore the basin to its original dimensions when sediment it is necessary to test accumulates to one-half the height of the first baffle. Pull the skimmer the soil for pH as well as microbial activity. If the microbial activity has been destroyed, it is necessary toto one side so that the sediment underneath it can be excavated. inoculate the soil after application. Excavate the sediment from the entire basin, not just around the skimmer or the first cell. Make sure vegetation growing in the bottom of the basin Remember that newly installed plant material requires water in order to recover from the shock of being does not hold down the skimmer. Repair the baffles if they are damaged. transplanted. Be sure that some source of water is provided, especially during dry periods. This will Re -anchor the baffles if water IS flowing underneath or around them. If reduce plant loss and provide the new plant materials with a chance to establish root growth. the skimmer is clogged with trash and there is water in the basin, usually jerking on the rope will make the skimmer bob up and down and dislodge the debris and restore flow. If this does not work, pull the skimmer over to the side of the basin and remove the debris. Also check the orifice inside the skimmer to see if it is clogged; if so remove the debris. If the skimmer arm or barrel pipe is clogged, the orifice can be removed and BMP PLANTING PLAN the obstruction cleared with a plumber's snake or by flushing with water. Be sure and replace the orifice before repositioning the skimmer. Check the fabric lined spillway for damage and make any required repairs with fabric that spans the full width of the spillway. THE LANDSCAPE CONTRACTOR IS RESPONSIBLE FOR IMPLEMENTING WORK AS SPECIFIED ON THESE PLANS. CONTRACTOR SHALL NOTIFY THIS OFFICE OF ANY DISCREPANCIES PRIOR TO BEGINNING OR CONTINUING WORK. SIZE OF PLANT MATERIALS SHALL CONFORM WITH THE CURRENT EDITION OF "AMERICAN STANDARD FOR NURSERY STOCK" FOR NUMBER ONE GRADE NURSERY STOCK AS ADOPTED BY THE AMERICAN ASSOCIATION OF NURSERYMEN AND AMERICAN NATIONAL STANDARDS INSTITUTE. ALL DISTURBED AREAS ARE TO BE SEEDED OR SODDED UNLESS OTHERWISE NOTED. PLEASE CONTACT LANDSCAPE DESIGNER REGARDING SUBSTITUTIONS. A MINIMUM OF 50 HERBACEOUS PLANTS PER 200 SF OF SHELF AREA SHALL BE PLANTED IN THE SHALLOW WATER ZONE AND IN THE SHALLOW LAND ZONE. WHERE SHRUBS ARE PROPOSED IN THE SHALLOW LAND ZONE, THEY SHALL BE IN 1 GALLON CONTAINERS AND SPACED 8 SHRUBS PER 200 SF (5' D.C.). ALL PLANT MATERIALS SHALL BE A NATIVE SPECIES AND PURCHASED FROM A LOCAL SOURCE TO ENSURE SURVIVABILITY. �9X�9:1��lYil:�9��.If.�reLy�x9f�c�l rrc.1.�l.`L�.9.z�.1.Irrcl.7��1►9►LY�11�1►�1e1►�[.�rX.� POND PLANTING ZONES N.T.S. MAINTENANCE AND OPERATION MANUAL FOR PERMANENT EXTENDED DETENTION POND (MAINTENANCE AND OPERATION ARE THE RESPONSIBILITY OF THE OWNER) I. Monthly, or after every runoff producing rainfall event, whichever comes first: A. Inspect the trash rack; remove accumulated debris, repair/replace if it is not functioning. B. Inspect and clear the orifice of any obstructions. C. Inspect the pond side slopes and grassed inlet swales; remove trash, and repair eroded areas before the next rainfall event. II. Quarterly (Four times a year): A. Inspect the collection system (i.e. catch basins, piping, grassed swales) for proper functioning. Accumulated trash will be cleared from basin grates, basin bottoms, and piping will be checked for obstructions and cleared as required. B. Pond inlet pipes will be checked for undercutting. Riprap or other energy dissipation structures will be replaced, and broken pipes will be repaired. III. Semi-annually (twice a year): A. Accumulated sediment from the bottom of the outlet structure will be removed. B. The fore bay depth will be checked at various points. C. Grassed swales, including the vegetated filter if applicable, will be reseeded twice a year as necessary. IV. Annually (Once a year): A. The pond depth will be checked at various points. Sediment removal will occur when the depth is reduced to 75% of RMANENT POOL the original design depth or 3 ft., whichever is greater. Sediment must be removed to at least the original design JD SIDE SLOPE depth. V. General: A. Mowing of the side slopes will be accomplished according to the season. Maximum grass height will be 6 inches. B. All components of the detention pond system will be kept in good working order. Repair or replacement components will meet the original design specifications as per the approved stormwater plan. If previously approved components are determined to be ineffective, the component must be redesigned and/or replaced. Gupton's Royal Design Group CIVIL ENGINEERING - SITE PLANNING STORMWATER DESIGN LANDSCAPE DESIGN o LAND SURVEYING RDG PO BOX 1070 KING, NC 27021 OFFICE 336-985-6519 E-MAIL guptonpa@GuptonCo.com CORPORATE LICENSE NO: 0-0423 (D Z U J O Z N 12 � O w N o rn C)0 � � N c) W Q�O O _J U°� LU W �X W�@ VJ8d1 �Y LLd I n0 � LU �UO�O I_ O U) U) U) 'w D Z_ Y PROGRESS DRAWINGS GOVERNMENTAL PERMITS APPLIED FOR DO NOT USE FOR CONSTRUCTION PLAN SCALE: 1:20 REVISIONS: 07101120 BID SET 01/15/21 SET 08/26/21 UPDATE SURVEYED BY. OTHERS DRAWN BY. DHB DRAWN BY. MDE DRAWN BY. BSH DESIGNED BY. HBG APPROVED BY. HBG CA opt/, :Q = E _ 360 SHEET TITLE: POND #5 PLANTING M OF 19 DATE: 04101119 PROJECT NO: 12804-19 1�