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Home My WebLink About20071277 Ver 1_401 Application_20070707 1277 PAYlN ENT RECEIVED ®North Carolina Wildlife Resources Commission Richard B. Hamilton, Executive Director Is July, 2007 Mr. Steve Chapin Asheville Regulatory Field Office U. S. Army Corps of Engineers 151 Patton Avenue, Room 208 Asheville, NC 28801-5006 ~~b E...s ~~~'+F'1V E~~aF~ ' ~? ~~ ~ ~', ~~;L G ~ 1.OC( Ms. Cindy Karoly ±atwr~ ~~ v~a~r~~t QtJel~lll~ NCDENR, Division of Water Quality, 401 Unit '~1FTl;~r.ps r ;ap ~,Tn~";i",',4irR BP,AA:CN 1628 Mail Service Center Raleigh, NC 27699-1628 RE: NWP 27 Application for a stream restoration project on the McDowell County/ School Board properties, Goose Creek, McDowell County. Dear Mr. Chapin and Ms. Karoly, Please find enclosed a completed Pre-Construction Notification application and restoration narrative for a stream restoration project on Goose Creek in McDowell County. The properties adjacent to the creek are owned by McDowell County and McDowell County School Board. The construction narrative and plan drawings provide details of the project scope for your review. The project scope includes a description of existing conditions, reference reach data, channel design values, sediment transport characteristics, erosion control practices, and work sequence. The N.C. Wildlife Resources Commission is proposing to enhance and restore 1,000 linear feet of stream channel. The goal of this project is to restore channel function and in-stream habitat quality using natural channel design methods. A new floodplain will be constructed at the existing banldiill elevation and the riparian buffer planted with native herbaceous and woody plant material. This work will be protected with the establishment of a perpetual conservation easement on both sides of the channel over the project reach. The Commission has made an electronic funds transfer in the amount of $475.00 to the N.C. Division of Water Quality to cover the water quality certification fee (see attached Electronic Warrant Number 24658). This amount was determined based on proposed stream impacts being greater than 150 linear feet. Because the project reach is 1,000 linear feet, we submitted payment for the "Major Water Quality Certification." As part of the application package we have included authorization letters signed by the landowners that allow the Commission to act as their agent for obtaining necessary environmental permits. We have also included and a letter of concurrence from David McHenry; permit coordinator with the Commission. Please contact me if you have any questions regarding the PCN application, restoration narrative, or plan drawings. I can be reached at 828-452-6191 ext. 26 (office) or 828-506-8950 (cell). Mailing Address: Division of Inland Fisheries 1721 Mail Service Center Raleigh, NC 27699-1721 Telephone: (919) 707-0220 Fag: (919) 707-0028 ~~ . Enclosure(s) Respectfully Submitted, Scott Loftin, NCWRC, Watershed Enhancement Coordinator cc: Mr. Kevin Barnett, NC Division of Water Q~atity, Asheville 07-1277 ®North Carolina Wildlife Resources Commission Richard B. Hamilton, Executive Director MEMORANDUM TO: Accounts Payable Manager FROM: Shannon Deaton, Habitat Conservation Program Manager DATE: 29 June 2007 SUBJECT: Electronic funds transfer request for a Section 401 water quality certification permit for the Goose Creek ballfield site restoration project, McDowell County. An application fee of $475.00 is required by N.C. Division of Water Quality for a Section 401 water quality certification permit. This application fee is for the Goose Creek ballfield site stream restoration project in McDowell County. This mitigation project exceeds the 150 feet cumulative impact threshold; therefore, a fee of $475.00 is required (fee schedule attached). Please have funds in the amount of $475.00 electronically transferred to the N.C. Division of Water Quality (Federal Tax Identification No. 56-6000372). To allow Water Quality to identify this transfer, please enter "401 Cert." in the RCGL field and "WRC -Goose Creek" in the memo field of the transfer system. The mailing address for the N. C. Division of Water Quality is as follows: N.C. Division of Water Quality 401 Wetlands Certification Unit 1650 Mail Service Center Raleigh, NC 27699-1650 The application fee should be coded as follows: Cost Center - 214171001003 Account - 535890 Please forward the electronic warrant number to Scott Loftis (scott.loftis@ncwildlife.org) in the Division of Inland Fisheries, when the transfer has occurred so we may include it with the permit application as proof of payment. The Division of Water Quality requires this as a part of the application package. Thank you for your assistance. Wetlands & Stormwater :: 401 Certification Unit Fees and Payment Details: The 1998 North Carolina General Assembly adopted fees for the 401 Water Quality Certification Program effective January 1, 1999 (see attached) (Section 143-215.3D(e)]. Major Water Quality Certificatwn (defined as those with greater than or equal to one acre of wetland or water fill or equal to 150 feet of stream impact). These will have a fee of $475.00 Minor Water Quality Certifications (defined as less than one acre of wetland or less than 150 feet of stream impact). These will have a fee of $200.00 • Any applications received by DWQ after January 1, 1999 must be accompanied by a check for the required amount. • If payment is not included with a request for a Nationwide Permit, the application wilt be returned to the applicant as incomplete. • If the correct payment is not included with an Individual 404/401 or a CAMA Permit Application, a project file will be created, but the applicant will receive a letter informing them that the project will not be processed until the full payment is provided. • Checks should be made out to "N.C. Division of Water Quality" Additional Provisions: Changes to an existing 401 Water Quality Certification require a full new Certification by DWQ. Additionally, any 401 Certification that is requested to be renewed, as a result of the work not being completed prior to the expiration date, also results in a full issuance of a new Certification. A fee is required with each issuance. • Due to the requirement for fee payment for each request, applicants are advised to include as many project details and phases as possible in the initial application. • If a project requires a CAMA permit and its associated fee, a payment for the 401 Certification request is still required. • No refunds will be issued for denied, modified or withdrawn certification requests. If DWQ or the Corps of Engineers retires a project due to insufficient or inaccurate information, no refunds will be issued. • Payment must be made in full. • Nationwide Permits for minor wetland impacts or those without wetland or stream fill that do not require written approval of the 401 Water Quality Certification do not require payment of the fee. If an applicant still chooses to submit an application in order to have written approval to file with their project records, then the fee payment is required if wetland or stream fill is involved. • Receipts for fees will only be sent upon written request. Also please be aware that the Division considers stream impact to be length rather than area in all cases regardless of Individual versus Nationwide permit status or significant versus insignificant channel. This has been DWQ's policy since February 1997 but recently some confusion has developed with some applicants. Please call Cyndi Karoly at (919) 733-1786 if you have any questions about Certification fees or the stream length versus area. Page 1 of 1 Scott Loftis From: Scott Loftis [scott.loftis@ncwildlife.org] Sent: Tuesday, July 17, 2007 3:29 PM To: 'White, Dianne' Cc: 'Long, Mary-Ann D. ; 'Borawa, Jim' Subject: RE: Electronic warrant numbers Thank You! Scott Loftis NCWRC -Watershed Enhancement Coord. Old Fish Hatchery 20830 Great Smoky Mtn. Exp. Waynesville, NC 28786 (828) 452-6191 ext. 26 office (828) 506-8950 mobile (828) 452-7772 fax -----Original Message----- From: White, Dianne [mailto:dianne.white@ncwildlife.org] Sent: Tuesday, July 17, 2007 11:07 AM To: Loftis, Scott Cc: Long, Mary-Ann D. Subject: Electronic warrant numbers $150.00 to DENR Land Resources Electronic Warrant Number # 24657 dated 7/16/07 $475.00 to DENR Water Quality Electronic Warrant Number # 24658 dated 7/16/07 7/18/2007 .' 0 7- 1 277 ®North Carolina Wildlife Resources Commission Richard B. Hamilton, Executive Director Asheville Regulatory Field Office U. S. Army Corps of Engineers 151 Patton Avenue, Room 208 Asheville, NC 28801-5006 N.C. Department of Environment and Natural Resources Division of Water Quality 2090 US Highway 70 Swannanoa, NC 28778 N.C. Department of Environment and Natural Resources Division of Land Resources Asheville Regional Office 2090 U. S. Highway 70 Swannanoa, N.C. 28778 I, the responsible party for the property identified below, hereby authorize the North Carolina Wildlife Resources Commission to act as the agent in obtaining permits needed to conduct a stream restoration project on the identified property. Specifically, WRC may act as the agent in obtaining environmental permits from the U. S. Army Corps of Engineers, N. C. Division of Water Quality, and N. C. Division of Land Quality; which are needed to accomplish this project. Responsible Party: McDowell County Schools Address: PO Box 130 Marion. NC 28752 Phone Number: 828-652-4535 Property Location /PIN #: 1618005990231 Signature: Date: 7 8 a Mailing Address: Division of Inland Fisheries • 1721 Mail Service Center • Raleigh, NC 27699-1721 Telephone: (919) 707-0220 • Faa: (919) 707-0028 ® North Carolina Wildlife Resources Commission Richard B. I-iamihon, Executive Director U. S. Army Corps of Engineers Regulatory Branch 15 I Patton Avenue, Room 208 Asheville, NC 28801-5006 N.C. Department of Environment and Natural Resources Division of Water Quality 2090 US Highway 70 Swannanoa, NC 28178 N.C. Departmenrt of Environment and Natural Resources Division of Land Resources Asheville Regional Office 2090 U. S. I-Tighway 70 Swannanoa, N.C. 28778 I, the responsible party for the property identified below, hereby authorize the North Carolina Wildlife Resources Commission to act as the agent in obtaining permits needed to conduct a stream restoration project on the identified property. Specifically, WRC may act as the agent in obtaining environmental permits from the U. S. Army Corps of Engineers, N. C. Division of Water Quality, and N. C. Division of Land Quality; which are needed to accomplish this project. Responsible Party McDowell Coumy Address 60 East Court St. Marion. NC 28752 Phone Number 828-652-7121 Property Location /Pin # 161900402495 Signature °'` ~ % ~ ~ `- , L...~ ~ ` 2- ~ z" ~ ~ Date ~ .~ ~ Mailing Address: Division of Inland Fisheries • 1721 Mail Service Center • Raleigh, NC 27699-1721 Telephone: (919) 707-0220 • Faa: (919} 707-0028 ®North Carolina Wildlife Resources Commission Richard B. Hamilton, Executive Director July 2, 2007 Mr. Steve Chapin U.S. Army Corps of Engineers, Regulatory Branch 151 Patton Avenue, Room 208 Asheville, North Cazolina 28801-5006 Mr. Ian McMillan NCDENR, Division of Water Quality, 401 Unit 1628 Mail Service Center Raleigh, North Cazolina 27699-1628 SUBJECT: Nationwide 27 Permit Application McDowell County Schools and McDowell County Glenwood ballfield restoration site -Goose Creek McDowell County Dear Mr. Chapin and Mr. McMillan: Mr. Scott LofZis of the North Cazolina Wildlife Resources Commission (Commission) requested on behalf of McDowell County Schools and McDowell County a letter of concurrence from the Commission fora 404 Permit from the U.S. Army Corps of Engineers. Comments from the Commission are provided under provisions of the Clean Water Act of 1977 (33 U.S.C. 466 et seq.) and the Fish and Wildlife Coordination Act (48 Scat. 401, as amended; 16 U.S.C. 661-667d). The project involves enhancing and restoring about 1,000 feet of Goose Creek near Glenwood using natural channel design techniques. Riparian vegetation and a 2.1 acre conservation easement will be established along the project reach. Goose Creek (classified C) is in the Muddy Creek watershed. Muddy Creek which is on the 303d list for sediment degradation, drains to the Catawba River tailrace below Lake James. This area is being managed as atrophy brown trout fishery under the Commission's Designated Public Mountain Trout Water Program. Goose Creek does not support trout and the Catawba River is a considerable distance downstream of the project site. The project should not harm trout and adherence to Final Regional Condition 1.2 is not necessary. The Commission supports the project because it should reduce a source of sediment and improve aquatic habitat over time. The Commission can concur with a permit for the project if the following recommended conditions are attached and used to help conserve fish and wildlife resources: Mailing Address: Division of Inland Fisheries 1721 Mail Service Center • Raleigh, NC 27699-1721 Telephone: (919) 707-0220 Fax: (919} 707-0028 Glenwood Ballf~eld Page 2 July 2, 2007 McDowell County I . Only clean, large, angular rock, root wads, logs, or other natural stream design materials and techniques aze used for bank stabilization. Materials are nat placed in the stream channels in a manner that overly constricts stream flow or that impedes aquatic life movements during low flow conditions. 2. Rock, sand, or other materials are not excavated from the stream channel except where necessary to construct structures or to reestablish a natural channel according to reference information. These materials aze unstable in flowing-water situations and are unsuitable for bank stabilization 3. Only existing and actively eroding areas are stabilized. Grading and backfilling is minimized and tree and shrub cover retained where possible to ensure long term availability of stream bank cover for aquatic life and wildlife. Backfill materials are obtained from upland sites. 4. Sediment and erosion control measures are used and maintained until ali disturbed soils are permanently stabilized. All bare soil is seeded as soon as possible after ground disturbance and erosion control matting is used with seeding on disturbed stream banks. Matting is secured with staples, stakes, or, wherever possible, live stakes of native trees. Tall fescue is not used along streams. 5. In-water excavation is conducted in dry work areas whenever practical. Sandbags or other diversion strictures are used where needed to minimize any excavation in flowing water. 6. All heavy equipment operated near streams is inspected and maintained regulazly to prevent contamination by fuels, lubricants, or hydraulic fluids. 7. Hydroseed mixtures and wash-waters do not reach streams. 8. Disturbance of riparian vegetation is kept to a minimum. Where disturbance for temporary access is necessary, trees and shrubs aze cut and the stumps and roots left to resprout. Disturbed stream banks and the widest possible zone outward from the restored stream channel are planted with native trees and shrubs (e.g., silky dogwood, rhododendron, dog hobble, red maple, silky willow, tag alder, black willow, sycamore). This will help provide long-term bank stability and stream shading. Note, silky dogwood, silky willow and black willow can be planted as live stakes collected during the dormant season. Cuttings should be randomly planted on four (4) foot centers from the waters edge to the top of the bank. Trees should be planted on ten (10) to twelve (12) foot ce~rters. Stream banks in these areas aze also seeded with a native seed mix with a temporary nursery crop of wheat, millet or other t~• 9. If pasture along the stream is to be used for grazing, a fence is constructed on the field side of the stabilization zones to prevent livestock from entering the replanted azea and the stream. Thank you for the opportunity to review and comment on this project. Pending availability of field staff, the Commission may inspect the work site during or after construction. If there are any questions regarding these comments, please contact me at (828) 452-2546 extension 24. Si/n~cerely, l/• ~ . Dave McHenry Mountain Region Coordinator Habitat Conservation Program cc: Mr. Scott Loftis, NC Wildlife Resources Commission Mr. Kevin Barnett, NC Division of Water Quality, Asheville o ~- ~ 277 Office Use Only: Foam Version March OS USACE Action ID No. DWQ No. (If any particular item is not applicable to this project, please enter "Not Applicable" or "N/A".) I. Processing Check all of the approval(s) requested for this project: ® Section 404 Permit ^ Riparian or Watershed Buffer Rules ^ Section 10 Permit ^ Isolated Wetland Permit from DWQ ® 401 Water Quality Certification ^ Express 401 Water Quality Certification 2. Nationwide, Regional or General Permit Number(s) Requested: Nationwide Permit # 27 3. If this notification is solely a courtesy copy because written approval for the 401 Certification is not required, check here: ^ 4. If payment into the North Carolina Ecosystem Enhancement Program (NCEEP) is proposed for mitigation of impacts, attach the acceptance letter from NCEEP, complete section VIII, and check here: ^ 5. If your project is located in any of North Carolina's twenty coastal counties (listed on page 4), and the project is within a North Carolina Division of Coastal Management Area of Environmental Concern (see the top of page 2 for further details), check ~ ,~ ~ ~ ~ ~° ~, II. Applicant Information ~~ ~ ;~ ~ Z U ~ l -~~ Owner/Applicant Information ,~,t ~~~ _ ~rtir~rv~ ~~;,~~,-~ ~: Name: McDowell Countv Schools McDowell Coui~""'~~ ~~~~`~'=r~"~' ~"~~~ ~~ ~~~?~~~ Mailing Address: Dr. Ira Trollinger Mr. Chuck Abernathy PO Bog 130 60 East Court St. Marion, NC 28752 Marion, NC 28752 Telephone Number: 828-652-4535 828-652-7121 Fax Number: 828-659-2238 828-659-3484 E-mail Address: N/A N/A 2. Agent/Consultant Information (A signed and dated copy of the Agent Authorization letter must be attached if the Agent has signatory authority for the owner/applicant.) Name: Scott Loftis. Watershed Enhancement Coordinator Company Affiliation: N C Wildlife Resources Commission Mailing Address: 20830 Great Smoky Mountain Expressway Waynesville, NC 28786 Telephone Number: 828-452-6191 egt.26 Fax Number: 828-452-7772 E-mail Address: scott.loftisna.ncwildlife.or$ Page 5 of 13 III. Project Information Attach a vicinity map clearly showing the location of the property with respect to local landmarks such as towns, rivers, and roads. Also provide a detailed site plan showing property boundaries and development plans in relation to surrounding properties. Both the vicinity map and site plan must include a scale and north arrow. The specific footprints of all buildings, impervious surfaces, or other facilities must be included. If possible, the maps and plans should include the appropriate USGS Topographic Quad Map and NRCS Soil Survey with the property boundaries outlined. Plan drawings, or other maps may be included at the applicant's discretion, so long as the property is clearly defined. For administrative and distribution purposes, the USACE requires information to be submitted on sheets no larger than 11 by 17-inch format; however, DWQ may accept paperwork of any size. DWQ prefers full-size construction drawings rather than a sequential sheet version of the full-size plans. If full-size plans are reduced to a small scale such that the final version is illegible, the applicant will be informed that the project has been placed on hold until decipherable maps are provided. 1. Name of project: Glenwood ballfield restoration site 2. T.I.P. Project Number or State Project Number (NCDOT Only}: 3. Property Identification Number (Tax PIl~: 1618005990231 (School Board), 161900402495 (McDowell County 4. Location County: McDowell Nearest Town: Glenwood Subdivision name (include phase/lot number): Directions to site (include road numbers/names, landmarks, etc.): From I-40 take exit 85. Follow NC 221 south for 0.4 miles. Take a left onto SR 1786 (Old NC 221). Follow SR 1786 for 1.8 miles. SR 1786 bride crosses Goose Creek at the upstream end of nroiect site (iust south of Glenwood Elementary School). The uroiect site is adiacent to the Glenwood community ballfields. 5. Site coordinates (For linear projects, such as a road or utility line, attach a sheet that separately lists the coordinates for each crossing of a distinct waterbody.) Decimal Degrees (6 digits minimum): 035° 36' 34.12" °N 081° 58' 52.20" °W 6. Property size (acres): Conservation easement = 2.1 ac. totalproiect area = 2.45 ac. 7. Name of nearest receiving body of water: North Muddy Creek 8. River Basin: Catawba River basin (Note -this must be one of North Carolina's seventeen designated major river basins. The River Basin map is available at http://h2o.enr.state.nc.us/admin/maps/.) Page 6 of 13 9. Describe the existing conditions on the site and general land use in the vicinity of the project at the time of this application: The riparian zone on the left bank consists of mowed fescue and is used for narking and three recreational ballfields. The right bank is wooded, with one small section that is maintained. In the oast. the channel was straightened and is now entrenched along most of the reach; with areas of active erosion are apparent. Land use on the left bank consists of recreational ballfields and structures for housing maintenance equipment. The right bank is wooded with a small. seldom used, picnic area. 10. Describe the overall project in detail, including the type of equipment to be used: Remove non native vegetation and excavate a floodplain at the existing bankfull elevation on the left and right channel banks. Install tog vane and root wad structures at each meander bend for hydraulic control and aquatic habitat enhancement. Increase channel sinuosity between sta. 3+00 and 5+00 by meandering the channel towards the right bank. 11. Explain the purpose of the proposed work: To enhance and restore channel and riparian function to 1,000 linear feet of Goose Creek Hydraulic function of the channel will be improved through the development of an active floodplain that stream flows at or above the bankfull elevation can access. Riparian function will be improved through the planting of native herbaceous and woody plant material and by protecting the corridor with a Qermanent easement. IV. Prior Project History If jurisdictional determinations and/or permits have been requested and/or obtained for this project (including all prior phases of the same subdivision) in the past, please explain. Include the USACE Action ID Number, DWQ Project Number, application date, and date permits and certifications were issued or withdrawn. Provide photocopies of previously issued permits, certifications or other useful information. Describe previously approved wetland, stream and buffer impacts, along with associated mitigation (where applicable). If this is a NCDOT project, list and describe permits issued for prior segments of the same T.I.P. project, along with construction schedules. None of the above V. Future Project Plans Are any future permit requests anticipated for this project? If so, describe the anticipated work, and provide justification for the exclusion of this work from the current application. None aware of Page 7 of 13 VI. Proposed Impacts to Waters of the United States/Waters of the State It is the applicant's (or agent's) responsibility to determine, delineate and map all impacts to wetlands, open water, and stream channels associated with the project. Each impact must be listed separately in the tables below {e.g., culvert installation should be listed separately from riprap dissipater pads). Be sure to indicate if an impact is temporary. All proposed impacts, permanent and temporary, must be listed, and must be labeled and clearly identifiable on an accompanying site plan. All wetlands and waters, and all streams (intermittent and perennial) should be shown on a delineation map, whether or not impacts are proposed to these systems. Wetland and stream evaluation and delineation forms should be included as appropriate. Photographs may be included at the applicant's discretion. If this proposed impact is strictly for wetland or stream mitigation, list and describe the impact in Section VIII below. If additional space is needed for listing or description, please attach a separate sheet. 1. Provide a written description of the proposed impacts: Temgorary impacts will result during floodglain excavation, bank shaping and installation of in-stream structure construction. 2. Individually list wetland impacts. Types of impacts include, but are not limited to mechanized clearing, grading, fill, excavation, flooding, ditching/drainage, etc. For dams, separately list impacts due to both structure and flooding. Wetland Impact Type of Wetland Located within Distance to Area of Site Number Type of Impact (e.g., forested, marsh, 100-year Floodplam Nearest Stream Impact (acres) (indicate on map) herbaceous, bog, etc.) es/no) (linear feet) Total Wetland Impact (acres) N/A 3. List the total acreage (estimated) of all existing wetlands on the property: 0.0 4. Individually list all intermittent and perennial stream impacts. Be sure to identify temporary impacts. Stream impacts include, but are not limited to placement of fill or culverts, dam construction, flooding, relocation, stabilization activities (e.g., cement walls, rip-rap, crib walls, gabions, etc.), excavation, ditching/straightening, etc. If stream relocation is proposed, plans and profiles showing the linear footprint for both the original and relocated streams must be included. To calculate acreage, multiply length X width, then divide by 43,560. Stream Impact Number (indicate on ma) Stream Name Type of Impact Perennial or Intermittent? Average Stream Width Before Im ct Impact Length (linear feet) Area of Impact (acres) 1 Goose Creek enhancement P 10 ft 800 0.18 2 Goose Creek restoration P 10 ft 200 0.05 Total Stream Impact (by length and acreage) 1,000 0.23 Page 8 of 13 5. Individually list all open water impacts (including lakes, ponds, estuaries, sounds, Atlantic Ocean and any other water of the U.S.). Open water impacts include, but are not limited to fill, excavation, dredging, flooding, drainage, bulkheads, etc. Open Water Impact Site Number (indicate on ma) Name of Waterbody (~ applicable) Type of Impact Type of Waterbody (lake, pond, estuary, sound, bay, ocean, etc.) Area of Impact (acres) Total Open Water Impact (acres) N/A 6. List the cumulative impact to all Waters of the U.S. resulting from the project: Stream Im act acres): 0.23 Wetland Im act acres : 0.00 Open Water Impact (acres): 0.00 Total Im act to Waters of the U. S. (acres) 0.23 Total Stream Impact (linear feet): 1,000 7. Isolated Waters Do any isolated waters exist on the property? ^ Yes ®No Describe all impacts to isolated waters, and include the type of water (wetland or stream) and the size of the proposed impact (acres or linear feet). Please note that this section only applies to waters that have specifically been determined to be isolated by the USACE. 8. Pond Creation If construction of a pond is proposed, associated wetland and stream impacts should be included above in the wetland and stream impact sections. Also, the proposed pond should be described here and illustrated on any maps included with this application. Pond to be created in (check all that apply): ^ uplands ^ stream ^ wetlands Describe the method of construction (e.g., dam/embankment, excavation, installation of draw-down valve or spillway, etc.): Proposed use or purpose of pond (e.g., livestock watering, irrigation, aesthetic, trout pond, local stormwater requirement, etc.): Current land use in the vicinity of the pond: Size of watershed draining to pond: Expected pond surface area: VII. Impact Justification (Avoidance and Minimization) Specifically describe measures taken to avoid the proposed impacts. It may be useful to provide information related to site constraints such as topography, building ordinances, accessibility, and financial viability of the project. The applicant may attach drawings of alternative, lower-impact site layouts, and explain why these design options were not feasible. Also discuss how impacts were minimized once the desired site plan was developed. If applicable, discuss construction Page 9 of 13 techniques to be followed during construction to reduce impacts. See project narrative for full discussion on site conditions, construction techniques, and erosion and sedimentation control details. VIII. Mitigation DWQ - In accordance with 15A NCAC 2H .0500, mitigation may be required by the NC Division of Water Quality for projects involving greater than or equal to one acre of impacts to freshwater wetlands. or greater than or equal to 150 linear feet of total impacts to perennial streams. USACE - In accordance with the Final Notice of Issuance and Modification of Nationwide Permits, published in the Federal Register on January 15, 2002, mitigation will be required when necessary to ensure that adverse effects to the aquatic environment are minimal. Factors including size and type of proposed impact and function and relative value of the impacted aquatic resource will be considered in determining acceptability of appropriate and practicable mitigation as proposed. Examples of mitigation that may be appropriate and practicable include, but aze not limited to: reducing the size of the project; establishing and maintaining wetland and/or upland vegetated buffers to protect open waters such as streams; and replacing losses of aquatic resource functions and values by creating, restoring, enhancing, or preserving similar functions and values, preferable in the same watershed. If mitigation is required for this project, a copy of the mitigation plan must be attached in order for USACE or DWQ to consider the application complete for processing. Any application lacking a required mitigation plan or NCEEP concurrence shall be placed on hold as incomplete. An applicant may also choose to review the current guidelines for stream restoration in DWQ's Draft Technical Guide for Stream Work in North Carolina, available at http://h2o.enr.state.nc.us/ncwetlands/strm~ide.html. Provide a brief description of the proposed mitigation plan. The description should provide as much information as possible, including, but not limited to: site location (attach directions and/or map, if offsite), affected stream and river basin, type and amount (acreage/lineaz feet) of mitigation proposed (restoration, enhancement, creation, or preservation), a plan view, preservation mechanism (e.g., deed restrictions, conservation easement, etc.), and a description of the current site conditions and proposed method of construction. Please attach a sepazate sheet if more space is needed. No mitigation nroaosed 2. Mitigation may also be made by payment into the North Carolina Ecosystem Enhancement Program (NCEEP). Please note it is the applicant's responsibility to contact the NCEEP at (919) 715-0476 to determine availability, and written approval from the NCEEP indicating that they are will to accept payment for the mitigation must be attached to this form. For additional information regarding the application process for the NCEEP, check the NCEEP Page 10 of 13 website at http://h2o.enr.state.nc.us/wrp/index.htm. If use of the NCEEP is proposed, please check the appropriate box on page five and provide the following information: Amount of stream mitigation requested (lineaz feet): Amount of buffer mitigation requested (square feet): Amount of Riparian wetland mitigation requested (acres):- Amount ofNon-riparian wetland mitigation requested (acres Amount of Coastal wetland mitigation requested (acres): IX. Environmental Documentation (required by DWQ) 1. Does the project involve an expenditure of public (federaUstate/local) funds or the use of public (federaUstate} .land? Yes ® No ^ 2. If yes, does the project require preparation of an environmental document pursuant to the requirements of the National or North Cazolina Environmental Policy Act (NEPA/SEPA)? Note: If you are not sure whether a NEPA/SEPA document is required, call the SEPA coordinator at (919) 733-5083 to review current thresholds for environmental documentation. Yes ^ No 3. If yes, has the document review been finalized by the State Clearinghouse? If so, please attach a copy of the NEPA or SEPA final approval letter. Yes ^ No ^ X. Proposed Impacts on Riparian and Watershed Buffers (required by DWQ) It is the applicant's (or agent's) responsibility to determine, delineate and map all impacts to required state and local buffers associated with the project. The applicant must also provide justification for these impacts in Section VII above. All proposed impacts must be listed herein, and must be clearly identifiable on the accompanying site plan. All buffers must be shown on a map, whether or not impacts are proposed to the buffers. Correspondence from the DWQ Regional Office may be included as appropriate. Photographs may also be included at the applicant's discretion. 1. Will the project impact protected riparian buffers identified within 15A NCAC 2B .0233 (Meuse), 15A NCAC 2B .0259 (Tar-Pamlico), 15A NCAC 02B .0243 (Catawba) 15A NCAC ZB .0250 (Randleman Rules and Water Supply Buffer Requirements), or other (please identify )? Yes ^ No 2. If "yes", identify the square feet and acreage of impact to each zone of the riparian buffers. If buffer mitigation is required calculate the required amount of mitigation by applying the buffer multi Tiers. * Impact Required Zone ,-____-- r--,~ Multiplier *,~:ti.,,,ti~~ 3 (2 for Catawba) 1.5 Total Page 11 of 13 * Zone 1 extends out 30 feet perpendicular from the top of the near bank of channel; Zone 2 extends an additional 20 feet from the edge of Zone 1. 3. If buffer mitigation is required, please discuss what type of mitigation is proposed (i.e., Donation of Property, Riparian Buffer Restoration /Enhancement, or Payment into the Riparian Buffer Restoration Fund). Please attach all appropriate information as identified within 15A NCAC 2B .0242 or .0244, or .0260. N/A XI. Stormwater (required by DWQ) Describe impervious acreage (existing and proposed) versus total acreage on the site. Discuss stormwater controls proposed in order to protect surface waters and wetlands downstream from the property. If percent impervious surface exceeds 20%, please provide calculations demonstrating total proposed impervious level. Slight decrease in impervious surface ~IIL Sewage Disposal (required by DWQ) Clearly detail the ultimate treatment methods and disposition (non-discharge or discharge) of wastewater generated from the proposed project, or available capacity of the subject facility. Port-a-John will be on-site during construction. XIIL Violations (required by DWQ) Is this site in violation of DWQ Wetland Rules (15A NCAC 2H .0500) or any Buffer Rules? Yes ^ No Isthis anafter-the-fact permit application? Yes ^ No XIV. Cumulative Impacts (required by DWQ) Will this project (based on past and reasonably anticipated future impacts) result in additional development, which could impact nearby downstream water quality? Yes ^ No If yes, please submit a qualitative or quantitative cumulative impact analysis in accordance with the most recent North Carolina Division of Water Quality policy posted on our website at http://h2o.enr.state.nc.us/ncwetlands. If no, please provide a short narrative description: This proiect will result in a 30 ft (from top-of--bank) conservation easement on the left and right stream banks for the length of the protect (1000 I.F). A total of 2.1 acres will be held by the McDowell Countv Soil & Water Conservation District in a conservation easement for perpetuity Page 12 of 13 XV. Other Circumstances (Optional): It is the applicant's responsibility to submit the application sufficiently in advance of desired construction dates to allow processing time for these permits. However, an applicant may choose to list constraints associated with construction or sequencing that may impose limits on work schedules (e.g., draw-down schedules for lakes, dates associated with Endangered and Threatened Species, accessibility problems, or other issues outside of the applicant's control). N/A I - ~IIC -URL ?/i Applicant/Agent's Si~'nature Dafe (Agent's signature is valid only if an authorization letterfrom the applicant is provided.) Page 13 of 13 STREAM AND RIPARIAN RESTORATION PLAN GLENWOOD BALLFIELD SITE GOOSE CREEK, McDOWELL COUNTY 07-1277 North Carolina Wildlife Resources Commission Division of Inland Fisheries Watershed Enhancement Group July 2007 Introduction In an effort to address water quality impairments within the Muddy Creek watershed, the North Carolina Wildlife Resources Commission (WRC) and the Muddy Creek Partnership (MCP) continue to seek projects to work with landowners through voluntary agreements to improve water quality. Funding for such projects has been provided through North Cazolina Clean Water Management Trust Fund grants and in-kind contributions. Grant monies are used to help meet the long-term MCP goal of improving the use rating to "Supporting" for all streams in the Muddy Creek watershed. Based on data from the North Carolina Division of Water Quality, the Muddy Creek watershed is one of the most impaired drainages in the Catawba River basin (NCDENR 1999). Goose Creek, located within the Muddy Creek watershed, was identified as a potential project site because of channel bank instability, channel incision, and lack of riparian vegetation. The project site is located immediately downstream of McDowell County Secondary Road (SR) 1786 and is adjacent to the Glenwood ballfield complex. Property within the project reach is owned by McDowell County (left bank, ballfields) and the McDowell County School Board (right bank, wooded) (Figure 1). The goal of this project is to enhance, restore, and protect channel and riparian function along 1,000 linear feet (lf) of Goose Creek. Specific objectives are to: 1) Establish a 30 ft wide conservation easement on both channel banks for the entire length of the project reach; 2) Lower channel banks to the existing bankfull elevation; 3) Create bankfull bench and inner berm features; 4) Construct a more sinuous channel on approximately 2001ineaz feet of the reach; 5) Shape and slope channel banks to desired dimensions on approximately 800 if of the reach; 6) Install in-stream structures to provide meander bend protection and enhance aquatic habitat complexity; 7) Re-establish native vegetation within the riparian zone; and 8) Establish walking trail access points for educational and interpretive opportunities. Completion of these objectives will result in improvements to channel function, wildlife habitats, and visitor aesthetics to this reach of Goose Creek. Modification of the existing channel morphology will promote bank stability and hydrologic function of the waterway. Improvements to the riparian zone, through establishment of a conservation easement and vegetation enhancement, will improve water quality by reducing solar penetration, bank erosion, and by filtering overland run-off. Additionally, the restored site will provide educational opportunities for azea schools and clubs to visit and discuss project benefits to aquatic resources, water quality, and the riparian area. The WRC is providing site assessment, channel restoration design, and construction oversight services to address channel morphology, riparian function, and eroding channel bank problems. This document details existing stream channel conditions and the proposed design approach to enhance and restore channel function, stability, and habitat quality along approximately 1,000 if of Goose Creek. This site, known as the Glenwood ballfield site, has a drainage area 4.2 mil and is located in the Catawba River basin, 14-digit Hydrologic Unit Code (HUC) 03050101040010 (Figure 2). 2 3 Methods Existing conditions at the Glenwood ballfield site were determined through field investigations conducted during October 2006. Dimensions of eight representative cross- sections and longitudinal profile data were collected using standard stream channel survey techniques (Harrelson et al. 1994; Doll et al. 2003). The geomorphology of the stream was classified using the Rosgen (1996) stream classification system. Site and reference conditions were analyzed, and the project design developed using RIVERMorph stream assessment and restoration software, Version 4.0.1 (RSARS 2006) and AutoCAD (2004) Version 2004.0.0. Aerial and topographical maps were used to determine stream drainage area. Mountain and piedmont regional curve data (bankfull cross-sectional area, width, mean depth and discharge vs. drainage area) were compared with existing site condition data and used in the development of the final restoration design (Harman et al. 1999, 2000; Doll et al. 2002). Bed material composirion and mobility was assessed by doing reach-wide and riffle cross section pebble counts (Rosgen 1996; NCSRI 2003). References to the left and right banks in this document are oriented when viewing the channel in the downstream direction. Linear feet is defined as a one dimensional measurement of distance or length and referred to with project stationing and overall project length. Existing Conditions Channel Morphology The existing reach is 1,000 lf, beginning 160 ft downstream of the McDowell County SR 1786 bridge and continuing downstream to the boundary of the McDowell County (left bank) and McDowell County School Board (right bank) properties (Figure 1). Land along the left bank of the creek is used for recreational ballfields, whereas land along the right bank is woodland. Land use changes within the watershed has resulted in the creation of impervious surfaces caused by residential housing construction, commercial development, and roads. During periods of high precipitation, runoff from impervious surfaces causes rapid changes in the creek's water elevation. To offset potential flooding in the Goose Creek drainage, a 15 acre flood control pond was constructed 0.7 miles upstream of the project site. This control structure provides for constant flow releases under normal rain events and is designed to retain a 10-year flood event. This design discharge of the contral structure is influencing bankfull elevation and the flood prone area at the project site. Hydrologic influence of the structure will be incorporated into the restoration design plans. Eight cross-sections were surveyed to evaluate existing channel dimensions (Figure 3; Appendix 1). Bankfiall was determined using field indicators that included a scour line along the bank, depositional features, and the existing floodplain. The bankfull values for cross sectional area, mean depth, width, and discharge were compared to the regional curve information (Harman et al. 1999; Doll et al. 2002). The cross-section at station 9+88 was used as the representative riffle for this reach. Channel dimensions for this cross sections were 24.6 ft (bankfull width), 1.7 ft (bankfull mean depth), 3.1 ft (bankfull maximum depth), and 41.7 ft (bankfull cross-sectional area). The measured cross-sectional area was slightly less than that predicted by the mountain regional curve. The entrenchment ratio was 2.3 and the width/depth 4 ratio was 14.6. Based on the values from the riffle at station 9+88 this reach can be classified as a C stream type. Based on measurements of the substrate (DSO = 3.0 mm) it is a C4. However, because the existing channel is incised, lacks a floodplain along much of the reach with most cross-sections having moderate entrenchment ratios (1.4 to 2.2) and low width/depth ratios (<12.0), portions of the reach can be categorized as B, C, and E stream types. The project reach is situated in a valley type VIII with wide, gentle slopes and awell- developed floodplain adjacent to river terraces (Figure 4). The project reach has a valley slope of 0.00420 ft/ft and is only slightly meandering; having a sinuosity of 1.1 (Table 1). Channel pattern and occurrence of the existing features (riffles, runs, pools, and glides) have been disrupted by past man-made alterations to the channel. The modifying influence of the straightening has created incision along most sections of the channel. To dissipate energy, the channel is dawn-cutting, further removing it from the floodplain. In the upper section, channel gradient is low and there is evidence that the existing channel has created a new meander pattern within the old straightened channel banks. Inner berms and benches are apparent along this reach. Some lateral movement of the channel and bank sloughing also are apparent in this section. Mid-way down the reach (sta. 3+00 to 6+00) the slope remains similar to the upper section, but inner berms and benches are absent. In this section, the channel has little to no access to the floodplain and the channel is pinched by the steep right bank and mounds of spoiled dirt on the left bank. This has created an entrenched channel condition and confines even high flows inside the channel banks. The lower section of the reach increases slightly in gradient (O.OOS00 ft/ft). The banks are vertical and instability is apparent in meander bends. In this section, vertical banks, lack of dense woody root masses, and absence of a floodplain result in channel incision and bank instability. The longitudinal profile was surveyed from a point beginning immediately downstream of the SR 1786 bridge crossing and continuing downstream a short distance across the lower property line; a distance of approximately 1,200 ft (Figure S). The location and length of riffles, runs, pools, and glides were measured along the profile. Elevations of the stream bed, water surface, bankfull indicators, and top of the low banks were surveyed. The existing average water surface slope was 0.00337 ft/ft and the average low bank height was 7.3 ft. Bed Material Pebble count data indicate that the DSO of the particles observed in the riffle was medium- sized gravel (9.S mm) as measured on the intermediate axis (Table 2 and Appendix 2). However, the DSO particle size observed in the reach-wide count was classified as very fine gravel (3.0 mm). This is due to the higher frequency of smaller particles found in the pool counts used for the reach-wide survey. Gravel-sized particles were the dominant substrate component in both the riffle sample (78%) and reach-wide sample (S1%). Riparian Buffer Land use along the creek consists primarily of recreational ballfields (left bank) and a forested zone (right bank). As a result, vegetation adjacent to the channel on the left bank is routinely mowed and consists primarily of tall fescue Festuca elation. The absence of deeply 5 rooted vegetation and routine mowing are contributing factors to left bank instability and soil erosion. Woody vegetation in the form of understory shrubs or tree overstory is sparse on the left bank. Understory vegetation includes the invasive exotic species of multiflora rose Rosa multijlora, honeysuckle Lonicera japonica, and a wide variety of herbaceous perennials. Overstory vegetation consists of a few large native trees including black cherry Prunus serotina, red maple Acer rubs, dogwood Corpus Florida, and black walnut Juglans nigra. Within the riparian area on the right bank many native shrubs and trees are present including: tag alder Alnus serrulata, silky dogwood Corpus amomum, black cherry, black locust Robinia pseudoacacia, black walnut, dogwood, yellow poplar Liriodendron tulipifera, red maple, river birch Betula nigra, and sycamore Platanus occidentalis. The dominant invasive exotic flora is Chinese privet Ligustrum spp. This area supports populations of wildlife including various songbirds, rabbits Sylvilagus sp, turkey Meleagris gallopavo, and other non-game terrestrial species. Restoration Plan Objectives The goal of this project is to restore and stabilize channel function to this reach of Goose Creek and improve in-stream and riparian habitats for aquatic and terrestrial species. Specific objectives are to: 1) Establish a 30 ft conservation easement on both channel banks for the entire length of the project; 2) Lower incised channel banks to the existing bankfull elevation; 3) Create bankfull bench and inner berm features; 4) Increase channel sinuosity on approximately 2001f of the reach; 5) Lower, shape, and slope channel banks to the desired dimensions on approximately 800 if of the reach; 6) Install in-stream structures to provide meander bend protection and enhance aquatic habitat complexity; 7) Re-establish native vegetation within the riparian zone; and 8) Establish walking trail access points for educational and interpretive opportunities. To attain the desired project outcome, primary attention will be given to lowering the existing channel banks and creating a wider floodplain at the existing bankfull elevation. By lowering the channel banks and thereby creating a wider floodplain, the entrenchment ratio will be increased (>2.2). These actions will allow flows at 1 to 1.5 times the maximum riffle depth to access the floodplain. Additionally, design dimensions will focus on establishing awidth/depth ratio nearer the lower value for a C stream type (12.0 to 14.0). Certain design values will border on E stream type values, given the existing widthldepth ratios, water surface slope, existing channel evolution, and reference conditions. Design values on the low end for a C stream type, borderline E type, should also promote channel bank stability during the period following construction (1-2 years) and until riparian vegetation becomes well established. It is anticipated the channel will evolve into an E type stream classification. Conservation Easement Two conservation easements were created to permanently protect the restored stream channel and riparian buffer (Figure 4). McDowell County and the McDowell County School Board donated the 0.1 and 2.0 acres that are covered by the conservation easements. The easement 6 width, on bath sides of the channel, averages 30 ft from the top of the bank (bankfull) to the easement boundary line. Overall, an easement corridor of approximately 85 ft, including the stream channel, was established. The easement width was reduced from 30 ft to 15 ft in certain predetermined locations because of several existing structures (e.g., ballfield fences, batting cage, and scoreboard). Decreasing the conservation easement width at these locations will allow for existing uses such as vehicle pazking and movement from one field to another with mowers, farm tractors, and other machinery needed to keep the ballfields in playing condition. Other existing structures within the easement will be removed. These include an old tool shed, footbridge, and small creek-side platform. The boundary for the easement corridor was surveyed and marked by R. L. Greene Surveying and Mapping, P.A. (NCPLS #1517). Field surveys, deed searches, and conservation easement survey plat development services were donated as in-kind contributions by R. L. Greene Surveying. Each turn in the easement boundary was mazked with rebaz iron pins capped with conservation easement monument mazkers (inscribed with "State of North Cazolina Conservation Easement"). Fiberglass or pressure treated 4 in. X 4 in. posts with easement boundary signs will be placed adjacent to each mazker. There are eight turns on the left bank and three on the right bank. To further delineate the easement boundary on the left bank it may be necessary to erect short sections of fencing extending 10 ft of either side of the easement marker. Because this site is in a park-like setting, the type of fencing used should blend in with the existing surroundings. The Clean Water Management Trust Fund conservation easement template was used for this project. It stipulates the rights and responsibilities of the landowners, as well as those of the McDowell County Soil and Water Conservation District. The contents of the easement have been agreed to and the document signed by the landowners. The conservation easement agreement will be recorded with the property deeds and the easement held in perpetuity by the McDowell County Soil and Water Conservation District. The easement document costs for prepazation and recordation were donated by the attorney for McDowell County. Overall, the project would not be possible without funding from the North Carolina Clean Water Management Trust Fund. Re, ference Reach Morphological data from a stable reference reach channel within the same valley type was desired (Rosgen 1998). The stream survey methods previously described were utilized at the reference sites to characterize the cross-sectional dimensions, channel pattern, longitudinal profile, and substrate characteristics (Rosgen 1996). Reference information was taken from Basin Creek (C4 stream type, Wilkes County, HUC 03040101060010), Hall Creek (E4 stream type, Burke County, HUC 03050101050050), and Meadow Fork (E4 stream type, Alleghany County, HUC 05050001020060). Dimensionless ratios derived from the reference reach data were used to develop the range of design values (bankfull width, mean depth, maximum depth, and cross sectional area) for the Glenwood ballfield restoration site (Table 1). 7 Channel Morphology Channel morphology will be modified to a stable form by implementing restoration and enhancement level I activities (USAGE 2003). Restoration (200 lf) will involve priority II activities with the objective of creating a stable channel and floodplain by excavating a new channel and floodplain at the elevation of the existing incised channel (NCSRI 2003). Channel sinuosity will be slightly increased in this section (sta. 3+00 to 5+00) by constructing a new meander bend. Channel banks will be lowered approximately 3.0 to 4.0 ft on both sides to attain floodplain connectivity and proper channel dimensions. Enhancement level I (800 lf) work will involve priority III activities that include widening the floodplain at the existing channel elevation by excavating a floodplain bench on one or both sides of the channel at the existing bankfull elevation (NCSRI 2003). This approach will involve lowering the existing stream banks approximately 3.0 to 4.0 ft and creating a bench so that bankfull or greater flows can access the floodplain. Proposed channel dimensions will be modified to typical cross sections along the project reach (Figure 6). Riffle design values have a mean depth of 1.8 ft, maximum depth of 3.0 ft, width of 23.0 ft, cross-sectional azea of 41.4 ft, and width/depth ratio of 12.8. Pools will have a mean depth of 1.9 ft, maximum depth of 4.8 ft, average width of 38.7 ft and cross-sectional azea of 51.7 ft. All depths are relative to the bankfull elevation. Design values for runs and glides were similazly calculated and will be implemented on this project (Table 1). Minimal work will be done to the existing channel pattern except where noted (sta. 3+00 to 5+00) and channel length will only slightly increase (--40 ft) from the pre-construction length (Figure 7). The proposed meander pattern will fit within the established easement area. The belt-width, or width over which the stream meanders, has a range of 40.7 ft to 88.82 ft (mean = 64.$ ft) and the constructed meanders can have radius of curvatures varying from 16.7 to 100.2 ft (mean = 58.5 ft), based an reference data. Meander wavelength will range from 129.0 ft to 241.5 ft (mean = 185.2 ft). Goose Creek's longitudinal profile will be adjusted in accordance with design values for depths and slopes (Table 1 and Figure 8). Profile adjustments will primarily target the location of meander bends (pools) and in-stream structures. In-stream structures will consist of J-hook log vanes to reduce outside meander bank stress and to improve aquatic habitat. J-hook log vanes will be installed with the J-hook portion of the structure at the point of curvature and a second downstream structure, if needed, will tie into the bank at the point of tangency. Placement of structures at these points in the meander bend will reduce neaz bank stress and result in the creation of a compound pool through the meander bend. Root-wad structures will be placed in conjunction with each J-hook log vane structure for additional bank protection and to increase aquatic habitat complexity. The invert depth of all structures will be 2.? ft (0.9 times the design riffle maximum depth). Large rock (~2 ft x 2 ft x 1 ft) will be used to provide additional stability to root-wads and to form the "hook" portion of the J-hook log vane structure. All structures will be constructed according to standazd guidelines (Appendix 3). Construction and placement of all J-hook log vane structures may vary from design specifications based on site specific conditions encountered at the time of construction. Sediment Transport The competency of the proposed channel to transport sediment, based on design parameters, was evaluated to guard against aggradation or degradation. Sediment transport was validated using RIVERMorph Sediment Transport Competency module (RSARS 2006). This module calculates the minimum depth required to maintain channel competency without aggradation or degradation. The channel competency depth is predicted using a critical dimensionless shear stress formula that is based on the largest particle observed in mobilized material, which is the largest particle from the bar sample (D;) and the D50 from the active riffle sample (Andrews and Erman 1986). Where i* is the critical dimensionless shear stress value and: i* = 0.0384(Di/D50) -o'ss~ This results in a critical dimensionless sheaz stress value of 0.0046 and a required minimum mean bankfull depth of 0.62 ft. The design bankfull mean depth of 1.8 ft exceeds the minimum required mean depth. This design depth should not promote aggradation. Riparian Zone One of the most important components of this plan is to restore the riparian zone and create a floodplain that is accessible when stream flows are at or above bankfull stage. During floodplain excavation, small trees and shrubs will be salvaged and heeled into a soil bank for later replanting. Where possible, existing sod mats composed of herbaceous plants will be salvaged and replanted along the stream banks. Lazger native trees growing at or neaz the bankfull stage elevation will not be removed, but incorporated into the riparian design. Larger trees that must be removed will be used to create J-hook log vane and root-wad structures. After channel banks have been lowered and sloped, they will be seeded with a temporary ground cover (30-601b/acre) and a perennial native seed mix (10 lb/acre) (Appendix A5.4). The riparian zone will be planted with 1,000 livestakes and 650 trees and shrubs of various native species (Table 3). All woody vegetation, including live stakes, bare-rooted trees, and container grown specimens will be planted during the dormant season (fal12007). Native understory shrub species such as elderberry Sambucus canadensis, ninebark Physocarpus opulifolius, silky dogwood Cornus amomum, silky willow Salix sericea, and tag alder Alnus serrulata will be planted on the stream banks between the normal water's edge and the bankfull elevation. Elderberry, ninebazk, silky dogwood, and silky willow specimens will be planted as live stakes. Live stakes will be installed 2-3 ft on-center on outside meander bends and every 5-6 ft on-center on low stress areas. Native trees and shrubs that provide shade, cover, and food for wildlife will be planted as haze-root or container grown specimens between bankfull elevation and the conservation easement boundary line. Shrubs will be spaced 5-10 ft apart and trees 10-20 ft apart. Species will be evenly dispersed along the restored reach. Soil amendments and conditioner, including desirable planting media, will be used during the installation of bare root and container grown stock. Soil amendments will be added according to soil test recommendations made by the North Carolina Department of Agriculture. 9 Survival of woody vegetation is desired at a minimum rate of 320 stems per acre at the end of the third growing season, as specified in the USACE stream mitigation guidelines manual (USACE 2003). Exotic invasive species of Japanese honeysuckle, Chinese privet, and multiflora rose will be removed during excavation and burned. Erosioa and Sedimeat Control Erosion and sedimentation control practices are an important and required element of this stream restoration plan (Appendix 4). Construction will be staged so that as undesirable vegetation is cleared and channel banks lowered and shaped; only the amount of ground that can be covered with seed, straw, and coir or jute matting during that work day will be disturbed. Staging daily activities will ensure that no more than one acre of disturbed ground is exposed during any one phase of construction. Total ground disturbance for the project is 2.45 acres. Additional erosion control measures will be accomplished through the use of erosion control materials and practices in accordance with the Erosion and Sediment Control Planning and Design Manual (NCSCC 2006). Temporary Gravel Construction Entrance Temporary construction entrance/exit locations, if necessary, will be covered for 50 ft with 1- 2 in. coarse aggregate gravel (Appendix 5.1). Non-woven filter fabric will be placed beneath stone to improve stability of the foundation. Ballast stone (3 in.) will be placed on soft areas of the construction access roads as needed. Sediment Fence Soil excavated during floodplain construction will be stockpiled on the left bank at the downstream most ballfield and protected from erosion by having a sediment fence installed between the spoil and down slope areas (Appendix 5.2). If needed, a right bank spoil area will be located in middle section of the reach. Spoil areas will be checked regularly and following rain events to insure the sediment fences are functioning properly. Upon project completion, spoil material will be graded into the existing landscape, seeded, and covered with straw mulch. The sediment fence will remain in place until the spoil area is completely vegetated. Temporary Stream Crossing A temporary stream crossing will be constructed to create a stable ford for equipment access back and forth across the stream (Appendix 5.3). Once the stream restoration project is completed the crossing will be removed. Timber mats also may be used at this location to get heavy equipment across the stream channel and avoid any contact with surface waters. Permanent and Temporary Seeding and Matting. Slopes from the waters edge up to the bankfull elevation will be planted with a seed mixture containing annual and perennial herbaceous species (vegetation specification area 1 }and covered with straw mulch (Appendix 5.4). Straw mulch will be applied at a rate of 1-2 tons per acre; 10 covering 75% of the disturbed ground. The area will then be covered with biodegradable erosion control matting anchored with wooden landscape wedges (Appendix 5.5). Disturbed ground above bankfull (floodplain area) will also be seeded with annual and perennial herbaceous species and covered with straw mulch. Coin fiber erosion control matting (700 g/m2) rated to withstand a shear stress of 4.5 lb/fl will be used to cover all cut slopes and fill azeas adjacent to the stream channel. Jute matting will be used to cover strips of baze ground that need less shear stress protection than that provided by the coir matting (Appendix 5.6). Impacted areas outside of the conservation easement will be permanently seeded with timothy grass Phleum pratense or tall fescue Festuca elation and mulched with straw (vegetation specification area 2) (Appendix 5.4). Construction Approach Construction will be approached from upstream to downstream so that as the undesirable vegetation is removed, the floodplain excavated, and channel banks shaped; the disturbed area will be seeded and covered with straw mulch and biodegradable matting the same day as the ground disturbance. Mechanized equipment will operate from the top of the stream bank whenever possible. Bank shaping will tie into the existing bankfull, inner berm, and top of bank elevations. Structures will be installed before continuing with downstream bank clearing, lowering, and shaping. Channel bed material will be excavated only when necessary to construct the stream channel to the design dimension, pattern, and profile specifications. It is anticipated that work can be completed within 30 days. Construction Sequence for the Glenwood Ballfield Stream Restoration Project 1. Stockpile erosion control materials on site. 2. Move equipment on site and walk through the entire project with the contractor. 3. Delineate, clear, and haul stone to prepare construction access roads on site. 4. Establish high ground spoil azeas on each side of the channel. Left bank spoil to be located at the lower end of the ballfield complex. Right bank spoil area to be located in wooded area in the middle of the project reach. 5. Install erosion control practices azound material staging and spoil azeas. 6. Haul rock to the site for building stream structures. 7. Remove non-native vegetation within the conservation easement area. Salvage and heel-in native trees and shrubs that can be re-planted. Salvage and stockpile larger trees for log vane and root-wad structures. 8. All woody waste material will be burned on-site in accordance with local regulations. 9. Excavate floodplain and shape channel banks to design elevations. Slope from the back of the bankfull benches to existing ground elevation not to exceed 1:1. 10. Cover disturbed ground with seed mixes, fertilizer, straw, coir or jute matting by the end of each work day. 11. Construct J-hook log vane and root-wad structures at locations shown on the design drawing when these stations aze reached in the clearing, excavation, and bank shaping process. 12. Complete any final floodplain and bank shaping, replant salvaged trees and shrubs, cover any remaining disturbed azeas with temporary and permanent seed mix, straw mulch and matting. 13. Finish grade spoil and construction staging areas and cover with seed and straw mulch. ,~ 11 14. Inspect and add any needed erosion control structures. 15. Remove all equipment and unused construction materials, including any trash or waste, from project site. 16. Install permanent split rail fencing at each easement mazker to signify left bank easement boundary. Fencing is not required on the right bank. 17. Erosion control structures will be checked weekly and after every significant rainfall event while the project proceeds to insure proper function. Regular inspections will continue and modifications made after project completion, until permanent vegetation is established. Any needed maintenance or repair will be made by the WRC immediately after the inspection and no later than 5 days after determination is made. Conclusion Modifications to the channel by lowering and sloping vertical banks and constructing a bankfull bench will allow this reach of stream to access its floodplain. Installation of J-hook log vanes and root-wads will provide stability in areas of near bank stress and increase in-stream aquatic habitat diversity. Water quality will be improved through enhancement to the riparian area and stabilization of eroding banks. Establishment of native vegetation within the conservation easement will benefit wildlife species. Aquatic fauna will benefit from reduced sediment loads, improved sediment transport and enhanced in-stream habitat. .r 12 References Andrews, E. D. and D. C. Erman. 1986. Persistence in the size distribution of surficial bed material during an extreme snowmelt flood. Water Resources Research. 22(2):191-197. AutoCAD. 2004. Version 2004.0.0. Copyright 2004, Autodesk, Inc., San Rafael, California. Doll, B. A., D. E. Wise, C. M. Buckner, S. D. Wilkerson, W. A. Harman, R. E. Smith, and J. Spooner. 2002. Hydraulic geometry relationships for urban streams throughout the piedmont of North Carolina. Journal of American Water Resources Association, 38(3):641- 651. Doll, B. A., G. L. Grabow, K. R. Hall, J. Jalley, W. A. Harman, G. D. Jennings, and D. E. Wise. 2003. Stream restoration: a natural channel design handbook. North Carolina Stream Restoration Institute and North Carolina Sea Grant. Raleigh. Harman, W. A., G. D. Jennings, J. M. Patterson, D. R. Clinton, L. O. Slate, A G. Jessup, J. R. Everhart, and R. E. Smith. 1999. Bankfull hydraulic geometry relationships for North Carolina streams. Pages 401-408 in D. S. Olsen and J. P. Potyondy, editors. American Water Resources Association, Wildland Hydrology Symposium Proceedings. American Water Resources Association, Middleburg, Virginia. Harman, W. A, D. E, Wise, M. A. Walker, R. Moms, M. A. Cantrell, M. Clemmons, G. D. Jennings, D. Clinton, and J. Patterson. 2000. Bankfull regional curves for North Carolina mountain streams. Pages 185-190 in D. L. Kane, editor. Proceedings of the American Water Resources Association Conference: Water Resources in Extreme Environments. American Water Resources Association, Middleburg, Virginia. Harrelson, C. C., J. P. Potyondy, and C. L. Rawlins. 1994. Stream channel reference sites: an illustrated guide to field technique. General Technical Report RM-245, U.S. Department of Agriculture, Forest Service, Fort Collins, Colorado. NCDENR (North Carolina Department of Environment and Natural Resources, Division of Water Quality). 1999. Catawba River basinwide water quality plan. Raleigh, North Carolina. NCSCC (North Carolina Sedimentation Control Commission). 2006. Erosion and Sediment Control Planning and Design Manual. North Carolina Department of Natural Resources, Division of Land Resources, Land Quality Section. Raleigh. NCSRI (North Carolina Stream Restoration Institute). 2003. Stream restoration: a natural channel design handbook. North Carolina Stream Restoration Institute, North Carolina State University, Raleigh. Available: www.bae.ncsu.edu/pro~rams/extension/wq /g sri/. (July 2007). 13 Rosgen, D. L. 1996. Applied river morphology. Printed Media Companies, Minneapolis, Minnesota. Rosgen, D. L. 1998. T'he reference reach - a blueprint for natural channel design. American Society of Civil Engineers River Restoration Conference. American Society of Civil Engineers, Reston, Virginia. RSARS (RIVERMorph Stream Assessment and Restoration Software). 2006. Version 4.0.1 Professional edition. Copyright 2002-2006, RIVERMorph LLC, Louisville, Kentucky. Available: www.rivermorph.com. (July 2007) USACE (U.S. Army Corps of Engineers, U.S. Environmental Protection Agency, North Carolina. Wildlife Resources Commission, North Carolina Division of Water Quality). 2003. Stream mitigation guidelines. U.S. Army Corps of Engineers, Wilmington District, North Carolina. Available: www.saw.usace.army.mil/wetlands/Miti~ation/stream miti~ation.html. (July 2007). ,. 14 TALE 1.-Stream reference reach, existing, and proposed restoration design values for the Glenwood ballfield restoration site, Goose Creek, Catawba River Basin, McDowell County. (Basin Creek reference data unpublished; Meadow Fork Creek reference data unpublished). Reference reach Existing Proposed Data type Basin Creek Meadow Fork Goose Creek Goose Creek General characteristics Drainage area 7.2 3.1 4.2 4.2 State NC NC NC NC County Wilkes Alleghany McDowell McDowell Hydrologic unit code 03040101060010 05050001020060 03050101040010 03050101040010 Ecoregion Blue Ridge Mtn Southern Crystalline New River Plateau Eastern Blue Ridge Eastern Blue Ridge Ridges and Mtn Foothills Foothills Latitude 036° 23' 18.96" 036° 24' 06.65" 035° 47' 29.35" 035° 47' 29.35" Longitude 0$1° 09' 39.60" 081° 13' 08.43" 082° 51' 48.80" 082° 51' 48.80" Survey date November 2003 March 2006 October 2006 Apri12007 Classification data Valley type VIII VIII VIII VIII Valley slope 0.01453, 0.01 I 1 0.00420 0.00420 Number of channels 1 1 1 1 Width (Wbkf) 29.5 18.2 24.6 23.0 Mean depth (Dbkf) 2.2 2.1 1.7 1.8 Flood prone width (ft) 329 45 56.7 57.5 D50 (mm) 54.5 60.6 3.0 3.0 Water surface slope (ft/ft) 0.01378 0.00870 0.00337 0.00337 Sinuosity 1.1 1.3 1.1 1.2 Cross. sect. area (Ablcf) 64.9 37.6 41.7 41.4 Entrenchment ratio 1 L2 2.5 2.3 2.5 Width/depth ratio 13.4 8.8 14.6 12.8 Stream classification C4 E4 C4 C4 Dimension data Riffle area (ft2) 64.9 37.6 41.7 41.4 Max. riffle depth (ft) 3.2 3.2 3.1 3.0 Mean riffle depth (ft) 2.2 2.1 1.7 1.8 Min. req. mean depth 0.035 0.035 Riffle width (ft) 29.5 18.2 24.6 23.0 Pool area (ft2) 102.0 51.5 39.0 51.7 Max. pool depth (ft) 4.7 4.2 3.8 4.8 Mean pool depth (ft) 2.3 2.4 2.2 1.9 Pool width (ft) 47.5 21.3 17.8 38.7 Run area (fl) 86.5 33.1 31.5 51.0 Max. run depth (ft) 3.6 2.8 3.1 2.7 Mean run depth (ft) 2.0 2.4 1.9 1.9 Run width (ft) 43.4 14.7 16.6 24.2 Glide area (Sq ft) 105.5 36.4 33.7 53.1 Max. glide depth (ft) 3.9 3.4 2.9 2.7 Mean glide depth (ft) 2.7 2.1 1.8 1.8 Glide width (ft~ 40.7 17.0 19.2 27.3 „ ,~ 15 TABU 1.--Continued. Data type Reference reach Basin Creek Meadow Fork Existing Goose Creek Proposed Goose Creek Pattern data Meander wavelength (ft) 350.0 154.0 68.6 185.2 Radius of curvature (ft) 105.2 42 26.0 58.5 Belt width (ft) 105.0 65 47.6 64.8 Channel length (ft) 953.0 594 954 987 Profile Data Slope riffle (ft/ft) 0.02206 0.03050 0.01829 0.00849 Slope pool (ft/ft) 0.00254 0.00056 0.00245 0.00278 Slope run (ft/ft) 0.00803 0.01787 0.00536 0.00692 Slope glide (ftlft) 0.00750 0.00239 0.00242 0.00376 Pool to pool length (ft) 307.9 149.9 111.1 144.2 Pool length (ft) 32.9 78.5 17.9 58.3 Low bank Ht. (ft) 3.8 2.8 7.3 3.0 Bankfull slope (ft/ft) 0.01378 0.00870 0.00337 0.00337 TABLE 2.-Bed material values from riffle and reach wide pebble counts, Glenwood ballfield site, Goose Creek, Catawba River basin, McDowell County. Bed material values are presented by size class index and by size class (mm) for each feature. Ranges in size of bed material for each class also provided. Channel feature sampled Bed material Riffle Reach Size class index (mm) (mm) D 16 0.58 0.05 D35 7.12 0.21 D50 9.50 3.00 D$4 20.13 12.64 D95 28.48 20.95 D 100 45.00 32.00 Size class Percent Percent Silt/Clay (<0.062 mm) 13 22 Sand (0.062-2.0 mm) 9 27 Gravel (2.0-64.0 mm) 78 51 Cobble (64.0-256.0 mm) Boulder (256.0-2,048.0 mm) Bedrock (>2,048.0 mm) 16 TABLE 3.-Species composition of live stake, haze-root, and container-grown shrubs and trees proposed to be planted within the conservation easement at the Glenwood ballfield restoration site, Goose Creek, Catawba River Basin, McDowell County. Type Scientific name Common name Proposed No. Live stakes Corpus amomum Sillcy dogwood 500 Physocarpus opulifolius Ninebark 250 Salix sericea Silky willow 250 Total 1,000 Shrubs/small trees Alms serrulata Tag alder 24 Aronia arbutifolia Red chokebeny 24 Cephalanthus occidentalis Button bush 24 Corylus americana Hazel nut 24 17ex decidua Possum haw 24 Ilex verticillata Winterberry 24 Lindera benzoin Spicebush 24 Rhododendron arborescens Sweet azalea 24 Rhododendron catawbiense Rosebay rhododendron 24 Rhododendron calendulaceum Flame azalea 24 Sambucus canadensis Elderberry 24 Viburnum acerifolium Mapleleaf viburnum 24 Viburnum dentatum Arrowood viburnum 24 Medium trees Acer negundo Box elder 13 Acer rubrum Red maple 13 Amelanchier arborea Serviceberry 13 Asimina triloba Pawpaw 13 Betula nigra River birch 13 Celtis occidentalis Hackberry 13 Corpus Florida Dogwood 13 Diospyrus virginiana Persimmon 13 Halesia caroliniana Carolina silverbell 13 Hamamelis virginiana Witch hazel 13 Males hopa Southern crabapple 13 Oxydendrum arboreum Sourwood 13 Prunes americana Wild plum 13 Prunes serotina Black cherry 13 Salix nigra Black willow 13 Large trees Aesculus,flava Yellow buckeye 12 Carya ovata Shagbark hickory 12 Fagus grandifolia Beech 12 Fraxinus pennsylvanica Green ash 12 Juglans nigra Black walnut 12 Liriodendron tulipifera Yellow poplar 12 Nyssa sylvatica Black gum 12 Platanus occidentalis Sycamore 12 Quercus alba White oak 12 Quercus coccinea Scarlet oak 12 Quercus prinus Chestnut oak 12 Quercus rubra Northern red oak 12 Total 651 ~t ~ ~,~ ~.: ~' a~ a 0 a~ ~' c ~ ~ a .~ o U ~ ~. -~ ~ `~ 0 A u a~ v w C a a .~ U o ~ o ~o Gi, ~, z~ -' a~ a ~ ~ ~ ~ ^" ,~ o 'sue H ~ *' Vim.,. ~ ... ~ ~ ,, . ~ _ y • . ~ _ __ t~ V~ ~ /,.. ~ U ,. . ~ P ._ ~ " 0 ~' .. . < . .~ _ .. VI .. x _~ ~ ' - ~~ 3 o '"~, \ ~ .~' ~ ,~ • - [~ i :r. ~ f ti - ~~ ~ m r ~, a. _ - ~- A• ~_ , ~ . ~~ '.e ;' ~ `~c, ~ J ~ ~ S~ ~ - I r' Ly -_ r~'iJ Cam.' -.~ o 18 19 Sta. 0+50 -Riffle ~ Grpund Ppints • BantQull indicatprs • Ylater Surfa[p Ppmts Ybkf i#.2 ODkf ~ 2 ADkf 28.7 t t Q ,O _~ W G 5 t0 t5 20 ?5 30 35 40 45 50 55 60 65 7v Horizontal Distance (ftl FIGURE 3.-Existing channel dimensions of eight cross sections, Glenwood ballfield restoration site, Goose Creek, Catawba River basin, McDowell County. Purple vertical lines define the horizontal extent of the bankfull calculations when ground elevation points lower than bankfull are present. The solid horizontal line is the bankfull elevation. The dashed horizontal line is the flood prone area. D 5 90 t5 20 25 30 35 40 d5 50 55 60 65 70 Sta. 1+84 -Pool a G:ound Ppints • 9anMiUU tndre atnrs • WYater $urfaee Posnts Ybkf .28.2 DDkf 2 ADkf - ~8 ,. ,+ t t ,O tad W Sta. 2+90 -Run d Ground Po7nis • Banltull Indicators • Water Surtate Points Ybkf - 16.8 Obkf - 1.6 RDkf - 26.5 Sta. 4+04 - Glide o Grountl Points • 8an7Aull Indicators • Ylater Surtate Points Irbkf ~ 17.1 Obkf - 1.9 RDkf ~ 92.1 F~~ux~ 3.--Continued. 20 G 5 70 IS 70 :5 3t~ 35 4U d5 54 54 60 65 TO 0 5 to t5 20 25 30 35 a0 e5 5a 55 60 65 TO Horizontal Distance (ft) „ ,~ Sta. 5+74 -Run a around Posnis • 9anlcfulllnCscator5 ~ Water SuAace Points YbkF ~ 16.# Dbkf m 2.2 RDkf ~ 36.# O .~ y a~ (.L, t t 21 FIGt~ 3.---Continued. p 5 f0 t5 20 YS 3p 35 40 45 Sp fi5 69 fi5 7p Sta. 7+44 - Glide a Ground Points • 8ankiull indicators • vYater ~urtaee Points Ybkf ~ 21.2 Dbkf ~ 1.7 ADkf - 35.# p 5 ip i5 20 25 3p 35 4p a5 ip 55 60 65 7p Horizontal Distance (ft) ,, Sta. 7+65 -Pool c Ground Ppinis • 8antiiull in0uators • Water Surface Posnts YDkf ~ 15.3 Dbkf 2.5 NDkf 38.1 n O .,, N .--i W i t FIGURE 3.--Continued. 22 0 5 1U IS 70 75 30 35 4U 45 50 55 60 65 70 Sta. 9+88 -Riffle a Ground Potnts • Bankiull tnduators • vYater Surlace Posnts Nbkf 2i_6 DbkF 1.T kbkf •1.7 D 5 t0 i5 20 75 3U 35 10 45 5U 55 60 fi5 70 Horizontal Distance (ft) ^~ O ` ~ U . w ~* ~ `~ o ~~, ~ O O ~ ~ \ ~~ J Orn ~ M QII~ O ~ O J ~ c cy p~ O ... ;UH p ~o~ ~ ~c~ T p ~C C ~ ti M U O ::. Cd ~ ooZ ~ Lt d G1 _~ O+ ~ C y., ~ m U ~ EEo o p r3 mmu ~ ujNNQ J w ~ Z~NIh N 0 Q :~ O r~ 0 0 w ~` xi~ 1 ~ n m\ ` ~~ Xh ` X r S ~ ~ ~ ~ ~ \ ~ ~ \ ~ m `` N X N 'p `~ ~ c \ i~ D n iv ` `o ~W >~ O N~ ~` ~ p C ~ X of` y ~j p 'm ~~ ~~~, W I ~` 1 ` C O~~ ~ m :. v ~ a •~ c \ . a °om , ~- m O ~ \ Oi + ~ N v ~ J N ~ ` X± \ \, x1' \ g x ! \ ~ N \ W ` U 1 ~ ' x I , v~ + ~ xo ~"" w Cr? W 1 L1,. fn O ~I ~ °o c N ~ N olalo ~ ~ ai LL ~ O -i ~ ~ ~ ~ W m ~ O ~_ ~ a N ~ Q ~ U LL F- ~..~ .~ ~i~+ VJ _~ /~/~ W W L U N U~U 3 U .+.:r W O ,U,^) o VJ N x C ~ LL °_' ~ N O '~ U ~~ N N N ~ m W U O 1.1. O W~ ~_ ~ J } Z a ~~ w w ~ `~ (? a ~ Z Z Q ~~ _ ~o -~ Z ~ ac O w ~~ ~ ~ ~~ U = ~~ J ~ W a~ Q °~ Z ~ ~3 TZZ ~MH Pl0 24 cc • ~, - + , r ; ~~ ~, I ~ ~ 1 t ~' , i r - ~ i 1 ~ ' F ~` i > •4 • 'y t+ ~ , ~ y f -; ~ , ~ ~ r r f . ~ ~ .~ ~I 1 , f i ~ 9 r_ Q Q ~ (~) uoElena~~ 1 m 0 t~ ,i .. r i a~ ~ ... o ~ Q .~ ~ ~ ~b •~ ~ ~ ~ ~ a o . ~ ~~ ~ ~ ~ °o U ~ ~ ~ ~b U~ ® ~ ^~ m °o o a ~? ~, ~ ~ ~, s, O o a `D ~' O ~ ~' ~ o ~ ~ ~ ~ ~ N ~ ~ ~ y O ~ i.+ O O O t"] W '~ o ~ o Q ~ O ~ ~ . ~ ~ P, ~ Q, i -------•-•---•-•--------------- ~+ ~ o a, ~• ~ .~ O ^~ v, M g ~ ~ ,,,.~ [/1 ~ ~ O W 0.Y ~ N I j,y Q ~ ~ ~ m ~ W ~ ~ ?; ~ O w ~~ o ~' U 25 t Cr" ,O 4] .--i W Proposed Riffle Cross Section U Proposed RArte ~ Bankfutl Indicators t v~ater $urtace Points MbkF - 29 Dbkf - 1.6 Rbkf - ~1.~ t 0 5 td 15 20 i5 34 35 40 d5 50 55 60 fii TO Horizontal Distance (ft) Flog 6.--Proposed channel dimensions for typical cross sections, Glenwood ballfield restoration site, Goose Creek, Catawba River basin, McDowell County. The horizontal line is the bankfull elevation. The dashed horizontal line is flood prone area. 0 5 t0 15 20 25 30 35 Ip d5 50 Si 60 65 70 Poposed Cross Section With Inner Berm 4 Proposed R,me wt IB • BanMUll tnd~Gators • Water Surtace Points Nbkf - 23 Obk# - 1.6 AbkF - itl.• Proposed Pool Cross Section o Sketth IiZ6IZ007 • BanMulllndi[a10rs • Water SuKate Pom1s 1 E} A 2 16 AiA Nbkf - 26 Dbkf - 2.2 Abkf - 5~.~ ~''-r A O .'., W Horizontal Distance (ft) FIGURE 6.-Continued. 26 9 13 Z6 40 53 66 __ o `~,W °s*s ~` ~~ r ~~ o~ l ~\ \ i ~ ~ O '~ c1 ` ~! m ~ ~ `~ ~~ \ + ~ ~ \ '.1$ `~ -\ U 0 c :7 0 ~~ a c \~ ~ U ~w ~` .~ ~~ W ,~ i \ ~\ ~\ M J ~~ `~, \ W X~ ` ` ~t ,. ~ ~ -- _ ` g, , x r ` ~ ~ ~` U `~ ~ r>~l. I •~ `~°~~ -~ I wI '~Q. ~ ~ °m C{h7 ~ 'o W ch wN c=i~ O 00 N ~ N .:I 0 ~ 0 O 3 m ~s o ~~ 0 0 W Zoos ~ ~ ~ ~ O Q ~ U lL U ~-. ~ ~ ~ ~ a~ a `~...i ~ N ~ U Q o a~ O C O ~ U~ U _ 3 0 U O ~ U) o SF 4 W LL ~~ O ~ (~ a v m ~ ~ U w~ ~o~ w~ w~ O w< J ~ W a~ N J _ z~ 0 Q W ~~ ~ ~ ~~ U = ~g ~/~ w V J ~'" J _ ~ <~ W j ~~ ~W ~ Q °> N Z~ ~~ ,+ 28 v ~ ® ~ • 4 a r z li r .~ .' ,~ i ! ! f 1 F r r r t i ~ ~ '-'-'-'------------------j~---------' ;i ------ t Q tl (~}} uo~~~na13 m n 0 t~ a w u a t 0 0 0 0 00 r., a n 0 o ,,~ ~ ~ o i N 0 Q ~ R d O Q M o (/1 Q 4 0 •----"-""' p G O Q N LT 3 ~' o a, A~ ~ '~ .. U ~ •~ ~~ ~ .~ ~ ^CS ~ ~ cK Q VI U .b a~ ~ ~ ~ .~ U ~~ °o ~ C7 m °r a~ ~~ p. ~"" O ~ O ~ N ~., a.. 'C ~_ C~ O ~ y O ~ ~ r~ V .~ O O 0 ~\ ~ ~ ~ ~ ~ ~ U ~O ~ ~ ~ ~ ~ !~. ~ ~ ~ "C V] i~+ ~~ ~ a ~ ~ 00 ~ O W ~+- O w ~ U ~ v APPENDIX 1.-Glenwood ballfield restoration site photos, Goose Creek, Catawba River basin, McDowell County, July 2005. Horizontal red line indicates location ofcross-sectional survey. 4 M. e N A1.1.-Cross-section 1, sta. 0+51, riffle, looking downstream A1.2.-Cross-section 2, sta. 1+84, pool, looking downstream. A 1.3.-Cross-section 3, sta. 2+90, run, looking downstream. A 1.4.-Cross-section 4, sta. 4+04, glide, looking upstream. APPENDIX 1-Continued. w 0 A1.5.-Cross-section 5, sta. 5+74, run, looking downstream. A1.6.-Cross-section 6, sta. 7+44, glide, looking downstream. A1.7.-Cross-section 7, sta. 7+65, pool, looking downstream. A1.8.-Cross-section 8, sta. 9+88, riffle, looking downstream. ~a 31 .~ ~ ~ aD o ct3 s, U o ~~ a~ ~ ~~ U r~i~ N O ~ C7 °' U ~ •~ ~i o •~ ~U O ~ ti ~ ~ ~ 'd .3 U a~ ~ '~ ~ ~ ~ ~ ~ s., ~p ~ N ,~" . v~ U N "C .~ 3 ~, ~, o .~ ~ ~ U un ~ ~.~ U ~ •+-~• a~~~~ a~~ I ~ ~ O X U .Y A ~ o w o ~ a~ Q ~ ~ Q. 0 0 0 0 0 0 0 0 0 N ~ --- - - -- ~ N a m O N ~ m ~ a - - - - - _ o -- o -- 0 0 0 0 0 0 0 0 0 0 o O o n o o n o ~~ o 0 0 0 0 0 0 0 0 0 0 0 0 0 O O tD 1~ c0 ~ ~ M N ~- ueyl ~au~~;ua~ad ange~nwn~ 8402 < 8402 - 4Z0 L 4Z0 L-Z L5 Z L5 - zsE Z9E - 95Z 95Z-OSL 08L-8Z4 8ZL-O6 O6 - 49 - 49 - 54 . . ~ 54-Z£ . ~ ~ ' C Z£ - 9 ZZ ~ ~ 9'ZZ-9L N N U ~ 9L-£'LL y v ~ ~ ^ E"LL-8 d 8-L'S L'S-4 4-Z z-L o' L - 05-0 05'0 - 5zo 5a'o - 5ZL-o 5Z L' 0 - Z90~0 Z90'0 > 0 0 0 0 0 0 ~ M N O O ~ ;uno~ a~aq~ed;o;uawa d ~ ~ ~ APP>rrmIX 3.-Drawings of typical in-stream structures that will be constructed at the Glenwood ballfield restoration site, Goose Creek, Catawba River basin, McDowell County A3.1.-Typical design for J-hook log vane structure showing plan and profile views. Plan View Buried in bank at bankfull elevation Profile view ~~ 32 33 APPENDIX 3.---Continued. A3.2.-Typical root-wad structure showing plan and cross section views. r-.uv v~~w CIIOSSSECTION VIEW v p ~O y pmv a C -~-~ U ~, N r~ T c~3 C3 J 9J ~-+ U U O 0 0 U ~.' O .~ '~ a> 'C 0 ~v O w ~i' 7 ~ U •~ C m m ~ m O t Vi "' Y O te U C 'a -.-, O V +' .a 2 v E~ m a m c V O W ~ ~ ~ co do. 'O 'C V ~ Q ~ ~ ~ .. C . C_ ' m p~ y7 ~ c m D ~ G1 m ~_ m p~ ° m 0 j O ~ p=p m O C ~ ~.+ y ~~ m ~ O ~m ~. cV c mc'a~o° N + ~,°~~q ~ o ° ~ ~ c O~L•m0 ° =_ f// .+ L U •; ~ ~m0= v=- 3 m ~ `x~ ~ ~ ..~-w ~= o Ev ~~y n ~ p , ;~U pQ -- ~ G ~; mom om , ao ~n3o ~c» ma cV M st ~ (p 0 ~~ o~ ~, ~ ~O ~ O m I ' \ \~ m d W OO w c~~ ~. _ - o '~'s xy , ~ 06, \ OD -- \ ~ ~~~Wyyy ~a U ~1P ~ ~ W ~*8 \ ~ ~ o ` mac' - ' ~\ l ~ O ~ r ~ ° ` ~~ ~ ` O m ~ ~ ~ \ ~! L \,., ~ ~\ ~ ~X9 ` -`~ ~ ~ ~ ~ ~ ~ ~ ~, ~ ~ ~~ ~.ls ~ ~o ~, ~~ ~\ \ r~ m 10 M = O aa~ ~~ ~ ~ o N O a ~ g, ~,mE m ~ °~ ~ ~ ~ ~ ~ ~. ~ 0 o+ c- y ' ~>m O V o v rn 0 ~~m ~ ~ U ~, C my °' c ~ ~avm \~ O ~ w O ~ m~ -'~ m mN m ~ ~ ~ W Y n' ~ +;+ N p~ .`+ ~ ~ ~ V ° ~ O J O~ m ~ m ~ ~ m~ c O O++ O we c° y m a o am o~ a o co>m° w a ~ a~ ^ a ® ~ X W y O O U C ` E V U m ~ W O :~ ;~ c a n c9 c to ~ to . to 0 Z ~ ~ ~ c ~ a'' +'' N W o~ o•~ ~~° E ~~ ac m am v° mO mm ~ o° o~' W o w --~ i a cn >a >a J ~- ~ 0 0 m . o Q ` m m c m L 7 C _ q t.. ..1 ~ 7 y ~G C 7 w 41 m m tll O O m L C V m C O` ~ a C i O V V O t C O c m~ m O' C °: n a ~ c~ °v a° a` n`_ w v m° a w I I I ~ ~ 1 I ~W S'xY ~ ~ ~ _ ~i ~ liA - `~ ~` ~ O ~ j ~ i \ $'~ ~ +, \ ccv~ ~ W 0 U i , ~ 'm ~X \ \ ~T. \ \ ~~ ` ~ ~ \~ ~'. mo g+. ~~^ ` . , ~ `` N i \ ~ \ t~ .s1 ~ it ~~ ` ~ '--" ~ o -- ~ ~ i" I ' rox'~ ~ i i ~ I , /' w O O ~ ,+ ~ C .., ~ a'-~0- W I ° m ~ .o ~ ~a I Z 0 U O to N 0 <o 0 w M r> LL ~ 0 ~I ~ °o c N N nl ~I~ ~ ~ °' tL J O -i ~ ~ 00 m;o~ Z ~~~~ Q ~ U ~C L U ~ ^'~ ~ V J ...~ C U W O \/ (~ ^W L U `a VJ C7 v -° ~, o 0 O LL V) o 5~ ~X G ~ LL ~ A O ~ IN ~ U ~~ ~~ N ~m U W ~ ~~ w~ oWWC a ~ L ~ W a °~n Qz ~~ 2 Z= ~~ -~ Z ~ ~° ~ W ~~ D ~ ~ _ ~_ _ ~ ~w ~~ ~W oQ mQ Z ~ N3 iZZ AMN P10 ~ ~ 1 35 APPENDIX 5.-Typical erosion control practices, methods and guidelines for the Glenwood ballfield restoration site, Goose Creek, Catawba River basin, McDowell County. A5.1. Temporary gravel construction entrance/exit detail drawing and specifications. 1. Clear the entrance and exit area of all vegetation, roots, and other objectionable material and properly grade it. 2. Entrance/exit should be located to provide utilization by all construction vehicles. 3. Entrance/exit must be maintained in a condition which will prevent tracking or direct flow of mud onto streets. Periodic top dressing with stone may be necessary. 4. Any material tracked onto the roadway must be cleaned up immediately. 6. Gravel entrance shall be located at all points of ingress and egress until construction is completed. Frequent checks of the device and timely maintenance must be provided. 7. Geotextile filter fabric to be placed beneath stone to improve stability of the foundation. ~~ ~' APPENDIX S.--Continued. 36 A5.2.-Sediment fence detail drawing and specifications. 8' mox. standard siren h fobr~c with wire fence 6' max. extra strength fabrc without wire fence Wire fence Cross-Section View Steel Filter Post Steel fabrvc Backfill trench IJaturol - post and compact ound Plastic or ~ thoroughly ~ - wire fies / d8-24" ~ ,C/ Wire fvnee .•nun•. ~ Ups~~ IJotural ground 8• _ ~ 24. mm .., 8' doom 6 4' forward along 24' the trench Filler ~ fabric 1. Drive six feet tall steel post 24 inches into the ground and space six feet apart. 2. Excavate an 8" deep by 4" wide trench uphill along the line of posts. 3. Attach extra strength fabric to the posts, on the upslope side, using wire or plastic zip ties with a minimum of 50 pound tensile strength. 4. Extend the fabric eight inches below grade and four inches out in the trench. 5. When joints are necessary, securely fasten the filter cloth only at support post with four feet minimum overlap to the next post. 6. Back fill the trench and compact the soil firmly to anchor the bottom of the silt fence so that runoff is forced to go through the fence and cannot go under it. 7. Use a synthetic filter fabric of at least 95% by weight of polyolefin or polyester, which is certified by the manufacturer or supplier as conforming to the requirements in ASTM D 6461. 8. Synthetic filter fabric should contain ultraviolet ray inhibitors and stabilizers to provide a minimum of 6 months of expected usable construction life at a temperature range of 0 to 120°F. ~~ ~~ 37 APPENDIX 5.-Continued. A5.3.-Temporary stream crossing detail drawing and specifications. ~ 5' max `Stream channel ~~ ..r ...~, bank height ,~ .. ~. r,,~•... ~~~ Sbpes 2.1 or flatter l~~J '.si ~ /'r rl~~ ~f~~ ~`~ ~ ' a Terr~rorary !~ N i • ~'~.~'+ ~ ~ `3~ ~ ~ f7iverSion 1 ~ .~ QA `~ r i ems'. ~ , a stone over fabric Road alignment straight for 30' min 7ern~rary Original Temporary ~~ streambank diversion ~ `` j 5' max 5:1 slope max Stabilization labric 1. Road approaches to ford should be straight for a minimum of 30 feet. 2. Slope road approach 2:1 or flatter. 3. Install diversions in road approach sections to divert surface runoff. 4. Install geotextile fabric in channel to stabilize foundation, and then apply three to six inches of well graded weather-resistant stone over fabric. ~~, 38 APPENDIX 5.-Continued. A5.4.-Type and application rate of native, permanent and temporary seed mixes and straw mulch proposed for erosion and sediment control. Location and type of seeding mix is indicated by the vegetation specification area number (1, 2). Type Scientific name Common name Veg. Spec. Percent lb/acre Area Native seed Elymus virginicus Virginia wild rye 10.0 Leersia oryzoides Rice cut grass 10.0 Scirpus cyperinus Wool grass 10.0 Carex lupulina Hop sedge 5.0 Chamaecrista fasciculata Partridge pea 5.0 Echinacea purpurea Purple cone flower 5.0 Juncus e,~fusus Soft rush 5.0 Panicum clandestinum Deer tongue 5.0 Scirpus atrovirens Green bulrush 5.0 Scirpus validus Softstem bulrush 5.0 Sparganium americanum Eastern lesser bur reed 5.0 Tripascum dactyloides Eastern gamagrass 5.0 Andropogon gerardii Big bluestem 2.5 Asclepias incarnata Swamp milkweed 2.5 Bidens cernua Nodding bur-marigold 2.5 Eupatorium ftstulosa Joe pye weed 2.5 Euthamia graminifolia Grass-leaved goldenrod 2.5 Mimulus ringens Square stem monkey flower 2.5 Panicum virgatum Switch grass 2.5 Rhus typhina Staghorn sumac 2.5 Rudbeckia hirta Black-eyed Susan 2.5 Scirpus polyphyllus Leafy bulrush 2.5 Total Permanent seed Festuca elatior Phleum pratense Temporary seed Avena sativa (warm season) Panicum ramosum Temporary seed Lolium multiflorum (cool season) Triticum aestivum 100.0 15.0 1 Tall fescue 100.0 35.0 2 Timothy grass 100.0 8.0 2 Oat 100.0 60.0 1,2 Brown top millet 100.0 30.0 Annual rye 100.0 60.0 Winter wheat 100.0 50.0 Straw mulch Apply at 1-2 tons/acre to achieve 75% ground coverage 1,2 ~ ~ ~ 39 ArPtJrrDix S.--Continued. A5.5.-Erosion control matting installation details and specifications. Comc~ed 1 ea~na 1. Apply temporary and permanent seed mixture, fertilizer, and lime to disturbed soils. 2. Apply straw mulch at a rate of one to two tons per acre. No more than 25% of the ground surface should be visible after application. 3. Cover seeded and straw mulched area with 700g/m2 coir matting to resist wind, runoff and shear stress of high water events. 4. To secure the matting, bury the upstream end (side) in a trench no less than six inches deep, cover with soil, and compact firmly. Secure by using 16"x 1 "x 1" hardwood stakes on 2 ft centers. 5. Matting at top of slopes to be anchored in trench, no less than six inches deep, and secured using 12" notched top wooden "Eco-stakes" every 4 ft across and down. 6. Position stream edge of the matting just above waters edge and secure by using 16"x 1 "x 1" hardwood stakes on 2 ft centers. 7. Roll center of mat in direction of water flow. Secure with 12" notched top wooden "Eco- stakes" every 4 ft across and down. 8. Adjoining blankets must be overlapped 6" (shingle style) with the upstream mat on top of the downstream mat and the upper mat on top of the lower mat. 9. The downstream end of the mat must be anchored in a soil trench and secured using 12" notched top wooden "Eco-stakes." APPENDIX S.--Continued. A5.6.-Biodegradable coir (top) and jute (bottom) matting specifications. SKB India ('o. - Erosion f'antrd Products - Coir "Netting GF-704 mat {10Uglsgm - 2U.5oz) 'I'bis medium weight matting is used For spocific areas that rtquire stronger - mamng and tighter weave to hdd 1:2 slopes, ar the battens of excessive watcrcoursc pipe outflows, swale bottoms, s<abilintian of slope tops and stream embankments. Durability depends on conditions, usually is biodegradable in 2+ years. Sirx Approx. ' b.5ft w x l64ft 1 ~ 124sc1 yd {2m x SOm a t00sgm) ISOtbs {6 I Ott w x 164ft 1 - 180sq yd (3m x SOm 150sym} 2251bs { I 13ft w x 164ft 1 - 240sa vd (4m x 50m - 200snm) 30016s t I Page 1 of 1 Wt.-100g/sgm - 20.Soz :'o open area' 48%(ca~culated) Test Method-AS'P:ti1D 3776 for wt. Recommended slope - ~i:2 Wet Tensile Strength • 14881bs/fl Kecammended flow - 12 Ofps Test Method ASTMD 4595 far Wet Tensile Strength Recommended Shear Stres.4 - 4. Stbs/sq ft "f' Factor - 0.002 Woven Jute erosion control matting Roll size Area Unit weight Open area Water velocity Shear stress "C" factor 40 Jute matting is woven from spun jute yarns. It is 100% biodegradable and last for 6- 9 months. It is available in Oft x 225ft roll (1.22 m x 68.6 m = 83.3 ft2) or 100 yd2/roll. Specifications 4ftx225ft(1.22mx68.6m) 100 yd2 (83.3 yd~) 14.7 oz/yd2 (490 g/m2) 60-65% 8 fps (1.8 m/s) 0.451b/fl 0.005