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20071711 Ver 1_Application_20071009
~~~o .3~~,~ ~i y~ .Q aw.+®~ STATE OF NORTH CAROLINA DEPARTMENT OF TRANSPORTATION ~\ J•J Q1 1~ Q. V MICHAEL F. EASLEY 3 GOVERNOR U. S. Army Corps of Engineers Regulatory Field Office 6508 Falls of the Neuse Road, Suite 120 Raleigh, NC 27615 ATTN: Mr. Andy Williams NCDOT Coordinator Dear Sir: pENFt - WAtER QUALITY yV~t/VJgb ~ I9TE~(tNRNATFR BRANCH ~ Sub~ect: A 1>ICation for Section 404 Nationwide 13 and 23 Permits for the re lacement of V~ J PP ~ p ,~ Bridge No. 11 over Big Alamance Creek on SR 3394 (Company Mill Road), Guilford County. Federal Aid Project Number BRZ-3394 (1), WBS No. 33484.1.1, State Project ~~ No. 8.2497901, Division 7, T.I.P No. B-4131. V The North Carolina Department of Transportation (NCDOT) proposes to replace the 97 foot Bridge No. 11 over Big Alamance Creek with a new single span bridge approximately 110 feet in length. The new structure will be a single span steel girder bridge. The project will replace the current bridge with a new bridge on its existing location, while using an onsite detour to maintain traffic during construction. The new bridge will span the stream and no bents will be placed in the stream. Please see the enclosed copies of the pre-construction notification (PCN), permit drawings, half size plan sheets, and Rapanos forms. A Categorical Exclusion (CE) document was completed for this project in June 2006. They were both distributed shortly thereafter. Additional copies are available upon request. IMPACTS TO WATERS OF THE UNITED STATES The project is located in the Cape Fear River Basin (subbasin 03-06-03). This area is part of Hydrologic Cataloging Unit 03030002. Big Alamance Creek is a perennial stream and will be bridged by the proposed project. UT1 is an intermittent stream located in the southeast portion of the project area. Big Alamance Creek has been assigned a Best Usage Classification of WS-IV NSW and a North Carolina Department of Water Quality (NCDWQ) Stream Index # 16-19-(1). MAILING ADDRESS: NC DEPARTMENT OF TRANSPORTATION PROJECT DEVELOPMENT AND ENVIRONMENTAL ANALYSIS NATURAL ENVIRONMENT UNIT 1598 MAIL SERVICE CENTER RALEIGH NC 27699-1598 TELEPHONE: 919-715-1334 Of 919-715-1335 FAX: 919-715-5501 WEBSITE: WWW NCDOT.ORG LYN DO TIPPETT SECRETARY October 2, 2007 0 71711 ecr o s zooz LOCATION: 2728 CAPITAL BLVD. SUITE 240 RALEIGH NC 27604 In a letter dated March 24, 2004, the NCDWQ incorrectly states that the bridge will cross Little Alamance Creek (W-IV NSW CA). The proposed project will bridge Big Alamance Creek (WS-IV NSW). No designated Outstanding Resource Waters (ORW), High Quality Waters (HQW), Water Supply I (WS-I) or Water Supply (WS-II) occur within 1.0 mile of the project area. Big Alamance Creek is not listed as a 303(d) stream according to the Fina12006 303(d) list for the Cape Fear River Basin nor does it drain into any 303(d) waters within 1-mile of the project. One wetland, W2, located in the northeast quadrant, will be impacted by the project. W2 is considered to be non-riverine wetland and is classified as a palustrine, seasonally flooded, wetland supporting shrub-scrub vegetation (PSS 1 C, Cowardin classification). A site visit was held for verification of the jurisdictional delineations on May 1, 2007 with John Thomas US Army Corp of Engineers (USAGE) and Sue Homewood (NCDWQ). Due to the time frame of the field visit an official jurisdictional determination notice was not issued. Therefore, included in with the application is the Rapanos forms needed to complete the jurisdictional process. Additional supporting information (wetland data forms) has already been submitted the USAGE. Permanent Impacts There will be 26 feet of surface water impacts in Big Alamance Creek associated with riprap bank stabilization for two stormwater ditches (Sitel). There will be a total of 0.09 acres of non-riverine wetland impacts (Site 2). These consist of 0.02 acres of impact resulting from fill, 0.02 acres of impact resulting from excavation to replace a ditch, and 0.05 acres of impact resulting from mechanized clearing in the non-riverine wetland. Utilit~lmpacts There are no utility impacts associated with this project. Bride Demolition The existing bridge was constructed in 1957 and is 97 feet in length. It is a single span bridge. The superstructure consists of a timber deck on I-beams. The substructure consists of one concrete abutment, two concrete interior bents, and on rubble masonry abutment. All components of the bridge will be removed without dropping any of their components into Waters of the United States. Best Management Practices for Bridge Demolition and Removal will be implemented during demolition and construction. MITIGATION OPTIONS Avoidance and Minimization and Compensatory Mitigation The NCDOT is committed to incorporating all reasonable and practicable design features to avoid and minimize jurisdictional impacts, and to provide full compensatory mitigation of all remaining, unavoidable jurisdictional impacts. Avoidance measures were taken during the B-4131 Permit Application Page 2 of 4 planning and NEPA compliance stages; minimization measures were incorporated as part of the project design. According to the Clean Water Act (CWA) §404(b)(1) guidelines, NCDOT must avoid, minimize, and mitigate, in sequential order, impacts to waters of the US. The following is a list of the project's jurisdictional stream avoidance/minimization activities proposed or completed by NCDOT: Avoidance/Minimization • Stringent erosion control methods and use of Best Management Practices (BMPs) will be implemented. • Best Management Practices for Protection of Surface Waters and for Demolition and Removal will be implemented. • No bents will be placed in the channel. • A longer bridge will be constructed, which will allow for better floodplain access. Compensatory Miti atg ion: NCDOT has avoided and minimized impacts to jurisdictional resources to the greatest extent possible as described above. The project will have non-riverine wetland impacts and stream impacts from bank stabilization. However, NCDOT does not propose compensatory mitigation for the 0.09 acres of non-riverine wetland impacts and 26 feet of stream impacts because impacts are minimal and the stream impacts will not remove aquatic use. FEDERALLY PROTECTED SPECIES Plants and animals with federal classifications of Endangered (E), Threatened (T), Proposed Endangered (PE), and Proposed Threatened (PT) are protected under provisions of Section 7 and Section 9 of the Endangered Species Act of 1973, as amended. The USFWS lists the bald eagle (Haliaeetus leucocephalus) for Guilford County. The bald eagle has been. delisted as of August 2007 and is not subject to Section 7 consultation and a biological conclusion is not required. However, the bald eagle remains protected by the Bald and Golden Eagle Protection Act. No nesting or foraging habitat for bald eagles is present. In a letter dated March 19, 2004, the North Carolina Wildlife Resources Commission (NCWRC) requested a moratorium on in-stream work from April I to June 30 due to a significant fishery for sunfish at the bridge location. However, the letter incorrectly states that the bridge will cross Little Alamance Creek. The proposed project will bridge Big Alamance Creek. However, based on the lack of statutory regulations requiring this moratorium, NCDOT does not believe that this moratorium is warranted. SCHEDULE The project calls for a letting of February, 19, 2008 (review date of January 1, 2008) with a date of availability of April 1, 2008. It is expected that the contractor will choose to start construction in February. B-4131 Permit Application Page 3 of 4 REGULATORY APPROVALS Section 404 Permit: Application is hereby made for the Department of Army Section 404 for the issuance of a Nationwide Permits 13 and 23 for the above-described activities. Section 401 Permit: We also hereby request 401 General Water Quality Certifications (WQCs) 3632 and 3626. The NCDOT will adhere to all general conditions of the WQCs. Therefore, written concurrence from the NCDWQ is not required. In accordance with 15A NCAC 2H 0.0501(a) and 15A NCAC 2B 0.200 we are providing two copies of this application to the North Carolina Department of Environment and Natural Resources, Division of Water Quality, as notification. A copy of this permit application will be posted on the NCDOT Website at: http://www.ncdot.org/doh/preconstruct/pe/. If you have any questions or need additional information, please call Deanna Riffey at (919) 715-1409. Sincerely . /~ • Gregory J. Thorpe, Ph.D. Environmental Management Director, PDEA w/attachment Mr. John Hennessy, NCDWQ (2 Copies) Mr. Travis Wilson, NCWRC Mr. Gary Jordan, USFWS Dr. David Chang, P.E., Hydraulics Mr. Mark Staley, Roadside Environmental Mr. Greg Perfetti, P.E., Structure Design Mr. Victor Barbour, Project Services Unit Mr. J. M. Mills, P.E., Division 7 Engineer Mr. Jerry Parker, Division 7 Environmental Officer w/o attachment Mr. Jay Bennett, P.E., Roadway Design Mr. Majed Alghandour, P. E., Programming and TIP Mr. Art McMillan, P.E., Highway Design Mr. Scott McLendon, USACE, Wilmington Mr. Stephen Kirby, PDEA B-4131 Permit Application Page 4 of 4 Office Use Only: Form Version March 05 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 1. 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: NW 23 & 13 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 here: ^ II. Applicant Information 1. Owner/Applicant Information Name: Gregory J. Thorpe, Ph.D., Environmental Management Director Mailing Address: 1598 Mail Service Center Raleigh, NC 27699-1548 Telephone Number: (919) 733-3141 Fax Number: (919) 733-9794 E-mail Address: 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: N/A Company Affiliation: Mailing Address: Telephone Number: E-mail Address: Fax Number: Page 1 of 8 T 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 maybe 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: Replacement of Bridge No. 11 over the Big Alamance Creek on SR 3394 2. T.I.P. Project Number or State Project Number (NCDOT Only): B-4131 3. Property Identification Number (Tax PIN): N/A 4. Location County: Guilford Nearest Town: Climax Subdivision name (include phase/lot number): Directions to site (include road numbers/names, landmarks, etc.): see map in permit drawings 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): 35.9548 °N 79.7009 °W 6. Property size (acres) N/A 7. Name of nearest receiving body of water: Big Alamance Creek 8. River Basin: Cape Fear (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/.) 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 land use in the surrounding area consists primarily of residential development with some forested areas. Page 2 of 8 10. Describe the overall project in detail, including the type of equipment to be used: Bridge No. 11 will be replaced on the existing location. Traffic will be maintain during construction by an onsite detour. Heavy duty excavation equipment will be used such as trucks dozers cranes and other various equipment necessary for roadway construction. 11. Explain the purpose of the proposed work: To replace a deteriorating bridge 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. N/A 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. N/A 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: see cover letter Page 3 of 8 t 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 Site Number (indicate on map) Type of Impact Type of Wetland (e.g., forested, marsh, herbaceous, bog, etc.) Located within 100-year Floodplain ( es/no) Distance to Nearest Stream (linear feet) Area of Impact (acres) Site 2 Permanent Non-riverine shrub-scrub No 200 0.09 Total Wetland Impact (acres) 0.09 3. List the total acreage (estimated) of all existing wetlands on the property: 0.09 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 he included_ Tc calculate acrea~e_ multiply leneth 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 act Impact Length (linear feet) Area of Impact (acres Site 1 Big Alamance Crk Permanent Fill P 40 26 0.01 Total Stream Impact (by length and acreage) 26 0.01 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. dred~in~. flooding. drainage. bulkheads. etc. Open Water Impact Site Number (indicate on ma) Name of Waterbody (if applicable) Type of Impact Type of Waterbody (lake, pond, estuary, sound, bay, ocean, etc.) Area of Impact (acres) Total Open Water Impact (acres) Page 4 of 8 6. List the cumulative impact to all Waters of the U.S. resulting from the project: Stream Impact (acres): 0.01 Wetland Impact (acres): 0.09 Open Water Impact (acres): Total Impact to Waters of the U.S. (acres) 0.10 Total Stream Impact (linear feet): 0 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 techniques to be followed during construction to reduce impacts. Please refer to the attached cover letter 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. Page 5 of 8 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 are 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/strmgide.html. 1. 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/linear 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 separate sheet if more space is needed. NCDOT does not propose compensator.Ymitigation. 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 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 (linear feet): NA Amount of buffer mitigation requested (square feet): NA Amount of Riparian wetland mitigation requested (acres): NA Amount ofNon-riparian wetland mitigation requested (acres): 0 Amount of Coastal wetland mitigation requested (acres): NA Page 6 of 8 IX. Environmental Documentation (required by DWQ) 1. Does the project involve an expenditure of public (federal/state/local) funds or the use of public (federal/state) land? Yes ® No ^ 2. If yes, does the project require preparation of an environmental document pursuant to the requirements of the National or North Carolina Environmental Policy Act (NEPA/SEPA)? Note: If you are not sure whether aNEPA/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 (Neuse), 15A NCAC 2B .0259 (Tar-Pamlico), 15A NCAC 02B .0243 (Catawba) 15A NCAC 2B .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 multipliers. Zone* Impact Multiplier Required (square feed Mitieation 1 3 (2 for Catawba) 2 1.5 Total * 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 Page 7 of $ 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. N/A XII. 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. N/A XIII. Violations (required by DWQ) Is this site in violation of DWQ Wetland Rules (15A NCAC 2H .0500) or any Buffer Rules? Yes ^ No Is this an after-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:/Ih2o.enr.state.nc.us/ncwctlands. If no, please provide a short narrative description: 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). oN~ I~•Z-o ~ ~ A~licant/Agent's Signature ~ ( ~ ~ Date (Agent's signature is valid only if an authorization letter from the applicant is provided.) Page 8 of S * - c v 3 E E a sa o ,"~~ ~~ ~~~~~~~~ ~~~ ~~ Un;on R:t~fl -as f. ~~~® ~l DIVISION OF HIGHWAYS GUILFORD COUNTY PROJECT: 33484.1.1 (8-4131) BRIDGE 11 OVER BIG ALAMANCE CREEg ON SR 3394 SHEET ~ OF ~ 3 I~~][$7[°l~[ ~~I[$~IL~I~A ~~~~ ~~~ --~~~ ~~r_ dal __ .-'i xa _ `~,~ ~~ J =~,-- 89 __\ _,- j TabemaGe Church Rb ~ ' ~~ ~ 4~ 421 ~~ ~~ '~, ~ - ,--3411 ~~ m ,_ ~ _ m ~ END ROJECT ~'~ 1=' \ y=- ~ (,. --~ _ ~ -~ BEGIN~~ROJECT~ ~;~ o f"~ i -, i ~_ ', ~ ~~ ~~ n _~ ~ ~ _~ ~~ i/ 3394 ~a ~~ ~` ~~3618 -~ ~~ --;~ ~~ 1 .\ \'~ .,\ ,\ `~ ~ ~ ~ ~l .~ ~~ 1 -ti- ___~ I 1 ~\ i '~ I r -- ~~ ~~ `I .. /~ i - ` ~~ 'i ,\ ~ 1 3549 i 'i i ~~ L__--_ ~~ S©,uth st ~,,~ Greens o3~~c °' irport ~~~~ GLI ~- 0 ~d. o~ ~m~ E E 0 D oao oa ---~JLB WETLAND BOUNDARY WETLAND L L~LLLLLLLI DENOTES FILL IN WETLAND DENOTES PERMANENT SURFACE WATER IMPACTS DENOTES PERMANENT SURFACE WATER IMPACTS (POND) KZ11L111JDENOTES TEMPORARY ~~~,!;/~!%~j FILL IN WETLAND ~~LGIDENOTES EXCAVATION IN WETLAND DENOTES TEMPORARY SURFACE WATER IMPACTS • * DENOTES MECHANIZED +~` *~` •' * CLEARING ~ FLOW DIRECTION ~- TOP OF BANK --- WE EDGE OF WATER __-_ ~ _-- PROP. LIMIT OF CUT -----F --- PROP. LIMIT OF FILL ~- PROP. RIGHT OF WAY ---•NG ---- NATURAL GROUND ___ PL __ PROPERTY LINE PROPOSED BRIDGE PROPOSED BOX CULVERT. PROPOSED PIPE CULVERT 12"-48" (DASHED LINES DENOTE PIPES EXISTNG STRUCTURES) 54' PIPES & ABOVE SINGLE TREE .. WOODS LINE DRAINAGE INLET ROOTWAD RIP RAP O ADJACENT PROPERTY OWNER OR PARCEL NUMBER IF AVAILABLE PREFORMED SCOUR HOLE LEVEL SPREADER (L S) = TDE- TEMP. DRAINAGE EASEMENT ~ DITCH / PDE - PERMANENT DRAINAGE GRASS SWALE EASEMENT --EAB--~ EXIST. ENDANGERED ANIMAL BOUNDARY --EPB-- EXIST. ENDANGERED PLANT BOUNDARY n WATER SURFACE X X X X X LIVE STAKES X X X O BOULDER --- COIR FIBER ROLLS SHEET ~~~®~ DIVISION OF HIGHWAYS GUILFORD COUNTY PROJECT:33~8~.1.1 (B-~131) BRIDGE 11 OVER BIG ALAMANCE CREEg ON SR 339 OF 1~ ~9®19®07 sa ~U1~1~A~I~~ ®]F At~]FEC~IE~ IE~I$®]E~]ERTY ®WN]ERS TRACT N0. PROPERTY OWNER ADDRESS SITE N0. O CLALIDE COOK 6330 COMPANY MILL ROAD CLIMAX, NC 27233 I O7 ETTA REYNOLDS 6327 COMPANY MILL ROAD CLIMAX, NC 27233 2 O JOHN WOODARD 6322 COMPANY MILL ROAD CLIMAX. NC 27233 2 N`l.~®~ DIVISION OF HIGHWAYS GUILFORD COUNTY PROJECT:33~48~.1.1 (B-131) BRIDGE 11 OVER G I I BIG ALAMANCE CREEg L, ON SR 339 SHEET ~"~ OF I ~ ~ /' 20 / 07 WETLAND PERMIT IMPACT SUMMARY WETLAND IMPACTS SURFACE WATER IMPACTS Site No. Station (From/To) Structure Size /Type Permanent Fillln Wetlands (ac) Temp. Fillln Wetlands (ac) Excavation in Wetlands (ac) Mechanized Clearing in Wetlands (ac) Hand Clearing in Wetlands (ac) Permanent SW impacts (ac) Temp. SW impacts (ac) Existing Channel Impacts Permanent (ft) Existing Channel Impacts Temp. (ft) Natural Stream Design (ft) 1 -L- 15+20 TO 15+50 LT Embankment Ri Ra 0.01 26 2 -L- 17+3o TO 19+95 RT Roadway Fill/Ditch 0.02 0.02 0.05 TOTA LS: 0.02 0.00 0.02 0.05 0.00 0.01 0.00 26 0 0 Anticipate no impacts due to construction of proposed bridge or removal of existing. ~U va ~N om M V I •~ W O H U O U GRAPHIC SCALES 50 25 0 50 100 PLANS 50 25 0 50 100 PROFILE (HORIZONTAL) to s o la zo PROFILE (VERTICAL) ~ nr T nAex of Sheets - - ~ r7 vtra e ~ lf? ~/A m A Y //~ 1rD olfa lC]f ~ A 1fD (/~11< 1f 1®T ,A DESIGN DATA ADT 2007 = 3100 ADT 2027 = 5200 DHV = 12 °fo D = 65 °k T = 4 °/a ' "• V = 50 MPH ' TTST 1% DUAL 3°/a PROJECT LENGTH . ,~.,w „, „p ~ „V„ ~. a KO & ASSOCIATES, P.C. LENGTH ROADWAY TIP PROJECT 8-4131 = 0.119 MI. , Consulting Engineers loll s~easnea~e nmdm,~ ~s ~r~esiass LENGTH STRUCTURE ITP PROJECT 8-413/ = 0.011 ML was snu~aRn sPRCrFrranoxs TOTAL LENGTH OF TIP PROJECT B-4131 = 0.2~ ML RIGHT OF WAY DATE: BRIAN A. WILES P.E. SEPTEMBER 15, 2006 PRO/RG7 RNGAl68R LETTING DATE: MICHAEL A. YOUNG, P.E. FEBRUARY 19, 2008 PROfRC7 IRiS(GX RNG~Q'ER HYDRAULICS ENGINEER PE ROADWAY DESIGN ENGINEER aan swicr aouc~a xa m xar use roa wxsiaurnox v DIVISION OF HIGHWAYS STATE OF NORTH CAROLINA a aaa p C~ •, A ~ i .. 4 ° ra~M~a PE NCDOT CONTACT: CATHY ROUSER, P.E. ROADWAY DESIGN -ENGINEERING COORDINATION w ,, , ~ ~ \(~~\ \EIP II II I o .I p ~ ~•~} .I I N l II ---'----' " .1 I B fl '--------- 1 1 I '~~ I I I I ISFO 1'1 ill II ., II 11 II 1 I II II 11 I1 1I II 1 I I ETT~ REYNOLD ~~ ~ II II i 11 1 ~ ;;:. I 1 l 1 i I ~ .. .. .. .. I I ii'. f~ 1 1 T` I~j PSIM j j $TA 10+9 ~.11+50 LT INI EST 175 SY W00D5 I EIP ~ I I ~' A~y^~ T 0 --'--- ~_ rtuG y -x 1 EI `~~S618 ~011'ERr RO ~_. Lln~~ DETAIL B LATEAAL 'V' OITCA LATERAL 'V' DITCH INOt ro scowl INwt to $wlwl N Narura SNpe FII 4ouW D I'/Ff. 1. Min. D= t Ft. iroww O r/Ft. Slope Nrar Maw. d= 1 Ft. Mln. O= I Ft. Fa6rto D= 2 Ft. b= 2 Ft. TYDe of Liner= CL re'Alp-flap STA 10+50 TO STA II+50 0.T STA 15+67 70 STA 16+50 LT ESi. Cl 'A' 0.1PRAP = 33 TONS EST. HLTEA FABRIC = 97 SY DETAIL C DETAIL H LATERAL BASE DITCH LATEAAL 'V' DITCH INOr to scowl INwt to soawt r/Fr. Slep° _ RL I D Ground p lFt. Slaps Fatbr~lc Mln D= I Ft. d MIn. D= IFt. Max. d= I Ft. Max. 0= I Ft. •Whn B la < 40' B= 2 Ft. b= 2 Ff. b= 2 Ft. Type of Llner- CL.'B'AID'Rap Type of liner PSAM STA U+30 TO STA 15+20 L7 -0RP/E-~ STA 10+50 TO STA 10+95 RT En. Cl'B' RIPRAP - 12 TONS ESL.RUER FABRIC = 115 SY O NADGRID b 83 a RO & ASSOCIATES, PIC. DETAIL E , Consulting Engineers SPECfA~CDTUITCH lou sawn Ow,surle -im Nwlce,xc aeaw I Not f0 Scala) lNW ~~ Front Na d A•1 K;0( Slopown Cround p W DETAIL G Mln. D= I Ft, SPECfAL-CITY-DITCH INOi to SWw) FraM STA 16+50 TO STA IB+00 LT Ao( w( Oltcn w ~ sbpw GroVq ' RIP RA A~TF6ANKMENT d D Mln. D= I Ft. I Not ro Scasl MaN d= I Ff. Type of Llner= PSRY mra, GrOaw s• SFA 13+00 TO STA 1] +BS RT STA 13+IS TO STA U+00 LT Eat. Ei TanW LS' S7A IT+35 TO STA 19+00 AT Fat.2p SY F iypw of Llrlwr= CL T Rlp-Rap STA 15+20 LT STA 15+60 LT CLAUDE COOK ~ ~ i NOOpS ~ 1 ;+ 1 0 ,1 ' _ II N ' ' r 1, 1 : I ~ uTERU v DrtcH CLAUDE COOK '/ v/CL 'B'nPAAP r / r• ~g PIIa~ ~ SEE DETAIL D i + ' ` z EIP { 1 fl ESf DDE - 10 CY ' I o fx 6 1 r / o= 1 ; ~ / { ~ i ~ POND 1 I Za NE 678.9 1 ~ vi IP ~ 1/ UTERAI BASE DITCH 1 f dCl'B'RO'RAP Rr'CR 04M CIASS B AIP RAP T SEE DnAII C ~ RIPRAP @ ESi I TONS I EST ODE = 20 CY ~MBANK1AENi ESi 7 SY FF door 1 I ;SEE DnAIL " l1 SPK CUT DRCH ~ ' ' IJPSAAI ~ I SEE DETAIL G ~ m f i\ 11 SOrylgl 11 - ~ D SBG r` T F OS I ~~STA 15+28 '. 1 111 i 1 C ~ 5 I ~' ~ .. SP ~ ~ rt0f i 1 11 1 D uLE Aa' 8 ~ E~Pi `r' 0 0 . - -.:.r..tir. ~ ~ _~ .... •~•, .~u NO 21'BSi - 0 ~ " ,~,pVE f T~ S 00 RUTi'~ '---__ _ .. w0005 .. .. .. __ wl _ - - i ~, - ______ ~ SLtl( ~ RA W0005 _ --- • _~________ 3 `----~_ _ ~" _- -- _ 1 .. D 1'/1PP Tz G~RTO oRu~_ I ----- / i o I Do - I I wboos _-~ 1 I I 1 IV I sN~ sPK cur DrtcH -- JAME CLADSON~ I ~~ ~~ I /~/w ~ , I DrtcH `rTSA"( ur vDrtcn b l 5 L A SEE DETAIL G ~~ I I~ n t 11 I cat E - 5 CY SEE DETNLH IT~1 E 4! wopp5 ESi DOE = 3 CY ' ~/ ~ w 1 ° N / ~' E ~ CUSS II r1P RAP yP CNP R to ., i i ~ / j . ° i ~ ~ UPfO ELEV. 618.0 A>PI ~ ~ I OdME pOWE RICHARD REYNOLDS RICHARD REYNOLDS ~ ~ (,I'rf . IsTR IrEAA: ' ~ ed 1 9 , ll / 1 1 1 i / ..4r` 1 . ~ EIP e 1~ 11 wtL 1 I k\ ~ 11 11 SPK DRCH 1 r/PS i ~i k\x 7 /+'' ~ 111 11 SEE 0 L G 11 I `x` \O / ' ~,. .. 1111 111 i i ~,~, /,~ ; '' 1 rl 11 11 1 EIP ~ wDaos O I woaos 1 1 ~ ETT ii k ~ .7 1 I 1; ~k~ RICHARD REYNOLDS ' 111 i l i ~~ I E A REY LOS I 1 1 ~- ll t ~ '1 j 11 a I1 i 1 ~ 1 1 ~ ~ ~ - j(// ', ~ 11 9 ~ 11~ ~ I 1/1 111 I 11 1 i i 1 it 1 I 11 11 I J 1 E 1 I T ~ 0 1, ~ ~ l .. I 1 ~ /: 11 ?. 1 I - ~1 ~ ~ ~ 11 11 ~~ I / 11 11 1 ;n woooE: '1 m •\, I 100 0 I 1 ~' ~^ 1 ll ~t~11V V' 1L~ V'W EIP I ~~a 50 100 % ~~7[°~ ~ ~ ~~~]~ ~ ~~ SCALE: I"= 100' HORIZ. ~ ~ ~ x "'L.n`.nvr s x ~} JOHN w000AR0 ~ I s x e I a° ~ , -~ I I I I I I -~ ~ I1 x CS l 1 IsaRD ' 1 I PAOIECTREFEAENCE N0. I SNEET N0. B-4131 - i 4 RAV SHEEP NO. 0.0ADWAY OgIGN HYDAAUUCS ENGINEE0. nAGINEER PRELIMIN RY PLANS p0 NM USF N CONNTRUCI'IOY INCOMPLE E PLANS 00 NOT VSE F00. /N ACOVISTCION \I\ !) W ~,% ~ ~/ I P % 1 "'- _ /0 ~ JDHN woooARo $FPTIC FIELD l ~G~° 9 {,~ ~, b i~'~ • ~ y ~ ]IC ~~ ~0 DU1E POwfA GO 1 I I O I REYNOLDS IIw; I JOHN WDODARO O 2 EIP NOT Ai I ~ v-mow CORNER ~~~]E ~ (LEGEND • -WLB- WETLAND DENOTES PERMRNENT SURFACE WATER IMPACTS ® DENOTES FILL IN WETLAND ® DENOTES EXCAVATION IN WETLAND °±W~P~ DENOTES MECHANIZED CLEARING EDWARD SMITH GLI 1V'l.~®~ D[VLSION OF HIGHWAYS GUILFORD COUNTY PROJECT:33~8N.1.1 (E-4131) BRIDGE 11 OVER BIG ALAMANCE CREEK ON SR 339b SHEET OF d/19/07 `__ W r ~'.} 11 u i ~ /~/ /~/ 0 C• p / r //G~A1 j~/ T~~/ ~~14 ~ ~ RO~Sj/~/ l Y GG~yNN~i SA 3y% ~ 4(~Y ~ /7~. / 4Y ~~ U+ ' ~wsnq, c'l ~~wLB ~~ ~ ~ ~ . ~<e ~ ~ i KO & ASSOCIATES, P.C. "`8°`y131"~V °`4'" DETAIL E Consulting Engineers a SPEL`rA[l`DT-DITCH , wu eauln ogsune xe wneltxcnero ~ snEEr No. I NOt to Scobl Owl enure ROADWAY DESIGN HYDRAULICS Front DItCI ( ENGMEER ENGINEER Sbpe Na a ~ k~ [N° o Dune ry D ~ DETAIL G - - Mln. D= I Ft. SPECfAL DITCN COT I Not M Steel STA 16+SO i0 STA IB+00 LT DETAIL F Front Gfound q\°t •( 51'ope ° E,\ E$T. CL'R'RIPRAP = 32 TONS RIP RA>~C3ANNMENT d D ~\ EST. FILTER FABD[ - 93 SY I Mot to sadel Mln. D= I Ft. Cj~l DETAIL C Mar d= I Ft. 1 ~ DETAIL H Trpe of Liner- PSILM Sheet LATER~Y BAS~ITCH LATERAL 'w DITCH o'cr a -~^~ nA 13+pp TO STA 13+85 Rr 1Nat to Sctlel in a STA 13+15 TO STA 1l+00 LT 9ea• ~•B T•^• ~ STA 17+35 TO STA 19+00 0.T ''\\ p r/Fr. sap. Eat. RD n n: ~r\~ \\ p ' r/ t. EIP I iatrlo TYR• o} Liner- a T Rlp-Rop o9`Y Minx. d=ll Ft. c MIn. D=IFt. ~,~°f .9'~;\ -- \ .Rhn B b (6.0' B= 2 Ft. Max. d= IFt. STA 15+30 LT - \ ~' \ b= 2 Ft b= 2 Ft. STA 15+6o LT \ `1/ ~--~ Type of Liner= CL'B'Rlp-Rop iYpe of Liner= PSRM ~ P ~ _-_ _ --- ---\ gl !"J/ ~ $TA 11+3p TO STA 15+2p l7 -0RIVE- 5TA 10+50 TO STA 10+95 RT X ~ ti.+r i _ V I I EST. CL'R' RIPRA! . !1 IONS - r,' X ,n r't '.` _i _ __Q`ie~, ____ i i EST. RlTE0. FABRIC = 115 SY -' 4/y _ %0 ~ • ____" - -_, 1 ~'Q ,~' ~ ! ~ ~ ~; r ~ ~ ' i , _ ~ - e - ~ I >n NC GRID I ' ( ; I °' ~ x; ' -- __ -- --- ~, - ~~ -_ I_________ f 16 i i ~ ' ~~ h ~''rR' JOHN M ARD: ~ ~, ; ~~ ~c' _ --'---' .. ., ~ ~ j UdE CdOK i _ I I IsFp~' -__- - E'~ '- I i 'I , rr a~~, w - '~ ~r ~ ROOq~S ~ {!~ 1 ' '1 I P ' ~ r --____ ~ I l r l i ~ .fir {hl rX 0 I -- I I' .. I I ' N I r~~ ~L^~i " ' i', ))) < UTEAM 1" DfECH d CLAUDE COOK ~ a ' I OIl ~ i i i II ~ m WCl 'B' RIP0.M y" it i i m ~ '^ ' ~ ~ % I ETT REYEIOLO i I i ; ! ~ ' a m rtry ~!r _ I d - ` ,` ` , ' I I I I ~ 61P i m r~ III IF,Y 11 SEE OEUIL D ;~• ~ i' ~ ' ' ~ ' i i n i 4 A./ EST oDE = to CY [ -- r IsBRp ' -, `^ A I b~. ~ 'A' I ~ o 'fir ~ x m L) r' ~ }9~'' I ' i I , ll I ; ; p p= , I I' ~~ r l ,J/ i I I II 1 '~ i Su POAp '( rr xi / r -~ E r 1 ' ' O I m NE fiN8.9 1 I 1 ~ __ L` ~___ __ - I r~l:` _-'- ~'il ,'~` N i i'w 'I N r m ` 1 ' ,,i " ~~S ,/ 1,' I'. -- "~` ~ 1m0. ~ _ -____'_ __ ~ I : _________ I 'I r UTEr ~brel~GE~~DfEEH ~ 9 _ t r I `~ .'i - r0 . ~N~y j- ~~~ r -_~-- "~- '--' 1 '1 i W(~ cur Nr 1' flOL~ ' - '' I / pl 1 1 ~ ~~ ~ M ~A yl N _____ _________ - l i ~ SEE p AL,C ' !'~' K o ,C(A5~- P I it JOHN DARD~ I I r __;"a ~;1~ I _-rsu,~- ---- I ~ ' ; ~r E 5 Jo Fr rnAl{@ ~ esC~ ar~ °Ir ~ ~ ~. ~', I~}~•;p ~ ~~irc;, ~~ ~` ~~~'."e, r r ~, _ II `'" _ --' rl3' STA lo+ ~3+sa L B .. 1( ~ er srdt c Dn ~H EE Dt7ML F ~DDOS r , ; EPirc F LB ~ ~' ~ I ~rE_ L m~ ~'~~;~ . y .-~ "-- ,' - /~ -- ., i 7r . I T i _ 9~'i ~~:yez' EST 1 n I ti."'ky, r/PSRM~ O m ~'.' I ~r ~. I T r ~ i n r ; m w --'.- -' MINI __ SOWS-- ''a- I _ oH, _ StiiuBl R'cR-i N ~ 471 m ' ~' sEE D,n'uL c ,', ~~ -' ~ s'l ~' I _- rl -_.--J ~. it ~~ r _- -EIP ,-' -' _- _____~ ., I, I _ _ __ --- '__ , ------- -- p ~ ~ ~o / A tsB i~a'; I I / I ~ I ~~, `` I ` ~ r 1 1 ~r--; .~~ ~ Bst - -- - -- a A } ~ ~ ' ' _a xu~ -x "_ -- _ 'i Ela; .,` . ~ ~~- §~"~.-'_, ~, EItCH _ , o ; 1-i , /J'-/~~ , !~ f%!r e LD,~r~M~i ; ~} 1 s• i ~ • _ TT~SR dNB xDYEgrr RO __i 'I __ GR _ - SFAPR~ B' `\~__66N-_ EIP ___ ' Sf/ - - ,' rs ~~ _'_SA1 __ _ ~ u 4. 'S8' <tB"'C4 __ ~ CO _ u \ ry _-_ _ ~ I n m ~ ~ COMPANY M RD Yr ~' + _ _ _---- m TE _~ i .. ••VO __ ___ _ , _ ______ - ~'~ ~` "-- m -_ ;.REM ~ i ~_ r s^ _ - 3 1 7Y DSt: ____ __ ~ ~ I alt -__ -_ _ i~ ` 1T. s -',~ ~'.\-' `~ ~' ,' -- __ --'6YE-__ ~_ _ _ ~. ___ __ __ --______ ~ _ __ - ~ l d ` ~ r~ 0 wuP me a EdWAAb ITW .6rr3" G~ R TO D t'~2 -iY•-____- .. - _~_ .- ___ ___ _ i~ SCRUB ~/ r _ ---rwbDS I - I `? ~ ,f , d0- _ __ __ _ r+~,""• • WN' ~ ~ ~~ I n sir--- ~ { "__'- _- ,. ~ .. .. - _ - - . •c~• ~• cRU 7 CLAOSON= ----- 'i~_' SHRUB ~.. SPEC-CUi D - ______ _ __ is • ~• ~ ~yf•'~~ ~ ~1 ,1 ,_668-'-~ C i __ dTCH ,NrSRM UT:M'Dn - __ _ - - ~(S.s ~ I ' • b Erb--- - r-a B 'SEE LG-dPSRM ,, 'ry'~i ~; m , ~E ~ ~ ~% ,~, `~, ~g ~g "'-,~'. -_ - ___ , I I , 4Y '_ • 5 FSi DOE ~' 3 CT 6 "~ ~ ~' ' %~ BA' a r fTYP.1 I E , r,-j 1 _ __ ~p ~ I I I I ___ I ~ _ -_ i __ i i r ~ 6 . .-' ~ _~` ~: E - ~ E 5 II RIP A~P ~ =1 CMP . ' ER ~ DVtiAE PDxfA CD 't~,' r , „ ARD REYNOLO$ -"- - ,-RICFIAAD RH`NOLOS-, / i EtEI'. 6le.o RYPI~ m II N otIF.E ~ _ ~~ r - ___ ~ - `~ II ~ 1, M MTL, L A q y I 'err rw ,k1~k; ~ EIP ~~ I ~ ~,SPIL ~ ~~DRCN s dr y~'~ m py.~- ~ •,R\~'~ .`9A ' x\ {~ I ~ 4FE `~i4 m I JdHN LFOODARd ; y'~ - ill. `~ ~'~~`~. `,~~ `r.} f; ~ ul~ ;d~ ~'r ~'. Y.r dr r '-- ` r ~I - ~,9 \, .~ s-?59 __ HAR4;A~YNOLDS S ff ' T '-'- Via, ; woops_a, 11y',~' '(:T1' OLD$ .. r r rA '~,~',-959_ __ _ A EYE ' DS _. ` ~P r, R tY . ~. rl __ 1 i I~ _ rc '` E r ~ rA m ~~ y yz-•'--_, __ _ _ -- rs'_ a II --'r ..'.. ~" r~ ~ ` m ~ it rn '~`` ~ rr Jrl, __ - , mlm'rl I° r~ "my~ __ __ !I, II ~' ' 0(iN OAT AI }"~.r- , ~ I _ + - -~ - I I ER ° - - --~~ ~,`ir~m - '~ - ~ ~~ ~~~~ r~,;' - t ° ~I ~0`~]{ f ,!, ;~ LEGEND *`yI -r~ ~~ / ~ f A.9' RODOS ~ ~ ~ ___ I` '. Y d •I ~~®°J(° If 1'.€5B ~'-- ll N ~ ';~ r -- -WLB- WEiLANO DIVISION OF HIGHWAYS `,~/,/,' DENOTES PERMANENT '1~ ~~";' I ®SURFACE WATER IMPACTS IOO O I ~ GUILFORD COUNTY I ® DENOTES FILL IN ~` ~ ~~,v7 ~~~~y ~ WETLAND PROJECT:33484.1.1 (B-413ll 50 Ioo ~',,,' `~~~~ ~ ~ ~~~~ ~ EIP ®DENOTES EXCRVAT[ON BRIDGE Il OVER IN WETLAND BIG ALAMANCE CREE% ~~ I' I ON SR 3394 ~~ SCALE: III= OO( HORZ. / ~ DENOTES MECHANIZED ~% \ " CLEARING =e SHEET OF 4/19/07 DETAIL 8 LATERAL 'V' DITCH I NOt }o Scab) crww p r~Fr. p°p0 Nin. O= I Fi. b= 2 Ft. STA 10+SO i0 STA I1+50 0.T PRELIMIN RY PLANS p0 NOT USE Po CONSTRUCTION INCOMPLE E PLANS DO NOT USE fOR /A wLVULSiTI°N ~ M m _ EI~~ 1 ~"~~ a 5 ~ ~' ~ _ - ~ •1 _ ~ 1 --- I ~~ 1 I RFO 111 I II II II II II II I II II I II II I II 11, 11 11 I ' I I' 11 I I ' ~li, ~~ ---~:;__-_ woods . I,..' "`~~,,.` wDDDs JAMIE GLAD a ,; R m a a ~; ~, I ~ v 1~~ l ~ ''I 100 0 I 50 100 SCALE: I"= 100' HORIZ. / ! / DETAIL A TEravbRaRY~ITCN lxot to Sedel Ffonx N urd ~ ~t~ $IOP croulw x D W Nln. D= I Fi. STATION TO STATION SIDE 70+50 - 14+00 RT 17+35 -1R+50 RT EIP aK._- Cousultin~ w sauce Nc sum D~oc~(~ PRELIMIN RY PLANS W NO'T U5R M CONSTRUCTION' INCOMPLE E PLANS W NOT USE FOR /A ACQUISITION Perms D ' ~ ~ PROJECT DEFERENCE N0. SHEET N0. ' , ' a-4~sr z-e ;f9 ncnsos R1V SHEET NO. ROADWAY DESIGN HYDAAUUCS ENGINEER ENGINEER ~^'~:~~ -n 0 p ~ O JOHN WOODARD 9 // ~ // ~~ 6 /~ /./~~ ~~ aj / ~. ;woods b `~nncx ' GLI • 1 ~c~®~° DIVISION OF HIGHWAYS THE WETLAND IMPACTS TO THIS AREA ARE NDT SHOWN ON DETOUR SHEET. GUILFORD COUNTY THEY ARE SHDWN ON SHEET 4 FOR PROJECT:3398A.1.1 (B-4131) PERMANENT ROAD. BRIDGE 11 OVER LEGEND BIG ALAMANCE CREEg ON SR 339 -WLB- WETLAND SHEET OF 4/19/07 ~T\\ \ \EIP II II I II II 1 _~ DETAIL A TEMFDAAAYUITCH trm7 to sodel Front Naturd ~ ~ iOY SbP LYOwd y D Mln. D= I Ft. STATION TO STATION SIDE 10+50 -1l+00 RT 17+35 - 18+50 RT a 4~ & ASSOCIATES, P,C, P0.01ELT DEFERENCE N0. 8-4131 Consulting Engineers WW SHEEP N0. ue Baum BlL SUaE wE BBI>ara NC nBOB 19141~bBY ROADWAY DESIGN ENGINEE0. 1>~r~uK SHEET N0. 2-B ENGINEER PRELIMIN RY PLANS 00 NOi 4'SE PO CON9TAVCTION INCOMPLE E PLANS W NOT U9E FOR /Y AWUISRION E-~ Perms ur Nti ~ ~ 1 ~ - .` \E\` \\EIP I ~' '~\9// 9 II I ~''X ~y ~, -'Q ye9-' I i e.. 0 ~~I I __- •_" i i P ;J ___--_____ I~ s _Y~ ~1~ ~ NC GRID I ~ ^~ ' ~ ,, ______ I i g i i ~' ~:/ i ~ ~ ~~ - _________ - Icy ~--°---- I I I JOHN M DARD% ; ~~ ,6- _ I'g- -_~_- ._ __,_ sue- `~ i r~,,1y1~p m it i ~ CL~UdE CbDK I /\J 5 ',r ~ X ~ B _____- - ISFO `YYI i P ! ~' 1 i I ' ~ - ` / N w00o9~ y d _ , 1 I ~ ~ ass m 1 it ~ n~ ~ - IIr ~ i I ri I I W ,y' n W i i ~~ , rn _ ~ ~ I ~ I i ~ ~ 111 ~ t tid CLAUDE COOK 1 ~ p~ r i l r ETT~ REYAOLD I '1 I i'I ! i ' a 1 1 r I' I H, ~~ ~ ~ ~ ~ ~ ' I I ,I 1 II ~ p EIP ' m ' ~ ____ __]n • I I 4l I IJ ~ I 1 r• < 11 ~ ISBRO ti ~I I .69. 'I ~A~ 1 1 O I j'i i r ~- i I 1 1 \1 m i DO // I I y~ - j1 m 1 1 ~ k IN POND '1 ``Y /I -~ I i/I i___ ~1' rl 1 I 11 II Z r wE 69 I ~ 1\_!' _ -1'•. ____- _ ' o m 8.9 I I -- -_ . - 1 7 ' .. 1~ 1\1 li ' ~ i r b In I : '~ 1 ~ yr~ 1'1~ I`` - C ~m~ _ _ _ _ 1F II U Ni IIP '`' CI I P I I .` ` ~ rl 1' ___'- TAI ~~~' ~:~ ~ 1 1 ~ \11 __- :IF ~ Q ..O~y1 //II'. IrF;: _-"__---- 11 '\ J~, B°• '-Y5 _. -- f ' m I EI `YYI ~~ `rW - ~/' d ~,~.- "~,-'',.' ~'-'' ,'~ I -- ~' . `K D ''~ ' I ~ r, JOHN OODARD~`, 1 ;(!~~ ['.~ 1 _ ~- ~< ~ I% 1 __ _- Y \\I ~ 1 W 4Y 1 ~I O .' .' ~ N A .069 -' .-' ,' -A •' VIII Y T i 5 I v. 1 b4 b66 __ 'I pi ' i Il r' , ' __ d0V8 i ~ EPTIC FI LD - ~ ; ~r9, '" ,'~ i / j~ , __ -" d f~~ ~BL,_ Ir 1 t~ ~ '2[9r I ~ •O N J 1 SCNUB q ~ , r ~' ~ ~ i4q 1' my ~ I I ____ _ Y0005____ ilk -~ gl~ly rr qy' __ __ _ - Ir ~ i S"~ '~ ~r%li,: w __ "SIP W _ - __ a ~ _: \\ ~ ``"^x` z __ 5T f __ - 1 B .___ ,--' 1 , w° ------ ~ - -- I~ eEI ,woooS /yf ~_'` -__ I a~ _ ~ p~ -'~~ ~`po /. -~--"--- ~c-_ ' .-` ____ I iFy^' ~7„ ~ / ' -" t.' ```~Yg_~,~'•~ I " a 1 \I 1 _II l _ ~'-~ -c I J~~ c°1°p~~ ~I ~3 _`~ _ ";~ ~ -e rt ~ ~r ___--~ -x_,. - I -~`:, EIP,I' ~` m I ~ ~ - a ; -1''" o . `EIP `-'-- "? ~ sR,53i~-- __ ~I aoB$ !~I I T t , "T,P r '~~~ __ _ ___ ____. "' ~ , /j, ,v _ _ Cf~1R I'6E,___ __,s_-"~ ~ i;' I ~~yy _T. v _ T~SR d6lY Y0.YEF1+R0 m -:~~( ~ `--e ~' DaCMB~ -_- ~_' .- - ,9:'" ^, GATE .___-" ___. %/ '/ __ i I '.D ~ Wf I --_' _ ~,!~~ i __ T ~ a i 9 CO v-- ,-i4___- B / 1 j Eb' c it ~ ~ =iB1-_ - y ~ . Y X59' c{g"C `~ r' ~+i ,' `• yT r i _ _ 1WB i _ ~ MP4NY r _.~J AY ~ F ~ ~1 ~r ' .. •,YO -- ~° __ MIL i __ -___' ``BV - ___ ___ _ - __ i "r ,_._~ _ I. ~-- r --___.~ s ..1 C 'RA - F ~~ .. - ___ Ci.~ I eli _. _. _.--._ -yLLi I y" ~ ~/~ _ ~ , I i '~ --SBB"=•ca`: " .. ~ _ J)}° ! .. ~' + ~' _ •d~ ~` ~ EdRARD TW , ~ .; --- ~ -0-; -- %~ - I " '.. ~_ + i r ) \`Y ~ ~- - , __ ~ r ____ _____ `I i __ ~ _ 7 GLADSON: ---- 'yu_' sNRUB _ - X66,,,' -' ~ . Z- Y. ; ~~ / `~' ,i ~ `~ t.B ~ ~ ~E9 ~~ ~ ~. ` ~[ d ~ I _-668•'"~ _ ~I .' , ' - ~ ' I _ 666____- Y_~ _ , " I ___________ __ _ 'TEMPORARY DR,CH ~ 6 ~ ~ e`'gi '- - ____ ____ I I,, ~ "~w s - SEEJ)ETAL A; o ~ ~~~- 9f , ~--~_ _`.r_-« F E m ' __ _ \I ; .662"-' --- -_ -'~ , E s E~ wD00c~~ _ . CMP ,'~ CO D~ POYFA °0 .Z~ , '. I ~ ~' ARO REYNOL~S~ ~ ,-RICHARD RE'fNOLDY" / _'i ,~ -- r /EIP ,~~. _ 1 1 s, '. wn, ~ I ~ ~ '~},,"_ c~ P I X ____ i `Y ~iFA1P0 ORCH .~9, °~ /' ,'66- 4f/r .. `. •_- ' 1 rr m 1<X '- ~ ~' I SEE OEf A , S /:' ~ ~' ~ ~ J(dW ~OODARd ' __ `,-,ll ` EIR, \\~,~ `S 6 '~~ / a ani 5~1 ~ ~~`\ m 4/ m i I_ '-- i i ~ R , ~YpDbs O grl - ; w°°BS ` \ li ' ~~ ~ ~ .. I',1. 1 ~`~ --~ 4 ~ II !!; ' 7° --- ~ ~ ' e I ~~ LOS ~'~ _•'•` X17._ ~ .`~~. .Y 4z9 __ CHpRQ iRkI'NOLDS Tso, `~~ i74 i., __ _ I`-`~~` E~I ~ - 1 1 , t ~ ~9E9_ _ __ _ _ f ~ I - YY9:,. n - ~ 111 ~m~W i~'^r 1' A _ ` 1 m __ ~}\ II ~I _ I dl ___ i~.~~i ~ r m~' _,~ 'lil it WR ER,~AI 9 /)g \ LJ ' / 1 1 - •-. `, f 777 I~/1 __ 1 _ IY I m GL~ _ ~`` , P r~l 11~ ; ~- - / ; ~ . -- ~'/ I' 1` _ ,III; ~ .._ ~ - _ __~ 1 `I'tia - 999_ ~••)~ ` r A'~ ^y{y' 11(; - 11 ~y~~ I111 -~ ~ ~ --_ ''' -6YYY-_ ~ NCB®°~ m ~`,~~,~~ DIVISION OF HIGHWAYS ~Y, ~ THE WETLAND IMPACTS TO THIS AREA GUILFORD COUNTY ~QQ Q ' 1 ARE NOT SHOWN ON DETDUR SHEET. ~ I I THEY ARE SHOWN ON SHEET 4 FOR PROJECT:33~8~.11 (B-~13ll ~ 1 EIP 11 PERMANENT ROAD. BRIDGE 11 OVER SQ QQ LEGEND BIG ALAMANCE CREEg ~` SCALE: III= ~QQB HQR~Z, I I / I ON SR 3394 ~_ ~ -WLB- WETLAND is SHEET OF 4/19007 KO "I01~ E~~'GE ~ SHEET NO. & AS50CIATES, P.C. XPL a B-413! Consulting Engineers ROADWAY DESIGN HYDAAWCS wu fouuR oR.furrs ~mr ROJDOE.NC516Gf IPDI 66,Ofi ENGINEER ENGINEER PRELIMIN RY PLANS W NOT Ubf CONSTRUCTION INCOMPL E PLANS DO NOT USE POR ~~ ACONSITION ~ Sheet li ~~ a a v x E a o o. 570- bb5 65.659.fp b60- ------_~ b55- 650- I WETLAND LIMITS c.P. = 6se,ee C.P. = 656.49 VWOV ~KB s:r_ -----,gl __- ~~--- ~P 657.95 E~_ 6ES.f7B '. -DET- '. 16+60.90 FILL IN WETLANDS ~~~!1E ~ WETLAND LIMITS ss. ssa4az 4:/ 2~~ 656.54 657.20 EXCAVATION IN WETLANDS i ~ 80 70 60 50 40 30 20 10 0 10 20 30 40 50 60 70 80 LEGEND ® DENOTES FILL IN WETLAND ® DENOTES EXCAVRTION IN WETLAND - 670 - bb5 - S60 - 655 - S50 N~1~®'~ DIVISION OF HIGHWAYS GUILFORD COUNTY PROJECT:33~84.1.1 (8-4131) BRIDGE 11 OVER BIG ALAMANCE CREE% ON SR 3394 HORIZONTAL SCALE: 1" = 20' VERTICAL SCALE:1" = 20' ;T OF 3026/07 I c ~ BAI. •1 EL = 652Tr RR SPIKE IN IN PoLE 21a Rr of -el- Sra Is+o~ Zia Rr of -L- STA n+s9 Coneuldng En~inoere 8-413 m ara~ m4tax rom waoa.acnri AAADWAY ~t61GN ~ mpy aNGINlEI Pe~m~ rev x` ~ S EE GI DE S, ]~11 ' ~ 2 J W ~ . ~ m W . z ~ ~ x - o x ~~ ~ ~ ~ ~ * ~ ~^ Q ~ ~ E v = = 3J5 4D' w ~ ~ o ~ ~ ~ ~ ~ W \ W W J ~ = 5 W ~ ~ BRIDGE HYDRAUUC DATA ~ o x ~ ~ ~' DESicN ascHARGE = z64o cFs W ~ ~ ~ ~ ~ DESIGN FREQUENCY = 25 YRS ~ DESIGN Hw ELEVAriOx - 6462 FT R x ~ ~ _ _ _ ~ ;~ W ~ ~ BASE DISCHA GE =4600 CFS BASE FREWENCY = 100 YRS , BASE HW ElEVAT10N 4 fT 6 w ~ ~ ~ ~ ~ 50. N _ ~ ~ OVERTOPPING DISCHARGE = 70U7 CfS OVERTOPPING FRECUENCY = 200+ YRS : ; ~ ~ ~ ~ ~ OVERTOPPING ELEVATION - 6532F7 = fT x e DATE OF SURVEY = 8-10-05 . e W ~ , WS.ELEVATION 4 FT ~ 636 T T F W h . A DA SURVEY E O . 10 11 12 13 14 15 16 17 18 19 20 21 22 R ~PL1~N,~SE~ S~IE~'f ~10.~4 N 5 P/PE HYDRAULIC DATA ~ K = 5 STa -DRIVE- 10+95 a ~ DRanaGE AREA = 15 AC ~ DESIGN FREWENCY ~ 5 YRS W P = ll ~ ~ DESIGN DISCHARGE 8 CFS W DESIGN FAV ELEVATION ~ 6475 FT V - W 100 rEat DISCHARGE - 26 CFS = 100 TEAR rn1' ELEVaTION = 6495 FT ^ g~ OVERTOPPING FREQUENCY 5 YRS OVERTOPPING DISCHARGE 8 CFS ~ ~ ,.~ ' OVERTOPPING ELEVATION = 6415 FT ( 2 ~ e 4'R P a ~~Y7 ln, ~If~ LV ~~® 1l a DIVISION OF HIGHWAYS T GUILFORD COUNTY LEGEND v PR07ECT:33I8I.L.1 (B-131) '-~ BRIDGE 110VER ~m ® DENOTES FILL ]N BIG ALAMANCE CREEK ~~ CQ wEiLAND ON SR 3391 D~ ~ 10 11 SHEET OF 3/ %/ 07 ane~r rio. uuts ie3a PRELIMIN RY PLANS -0 N07 U~ CON57$VC710N INCOMPLE W NOT V~ POR E PLANS /- ACOUISRION KO & ASSOCIATES P C P0.0JER REFEPENCE NO. SHEEP N0. , . . 8-4131 6 a Coosultin En ineers g 1011 9OIAN 6R.OVfOY 10't MIHf$NLZIf00 196)Lfl~Bfi6 ROADWAY DEAGN ENGINEE0. HYDRAULICS ENGINEER PRELIMIN no vor vse ro RY PLANS m~sreocnov rditll $hA9t Ot F R LA EE S EE 0. - i ` n ~ ro T MP RA Y RID E, 1~9 ' m N Ep u N d . g W tD ~ \ .dri ~ ~ W v ~ c`DD 1= 3f8 1b ,~ N m ~ ~ ~ ~- I''~ ~ ~ gti o ~~ ~S ~ W C = = 2 2 EQ ~ ~ ~ ~ p = 17 ~i y- :r1 ~m 4 2 W II ~ ~~ ~ ~ ~ g :'~ ~~.. \~ ~ W " ~ v _ a ~ ~ ~W - '~ / BRIDGE HYDRAULIC DATA \ + ~ o` ~' ~ o D - Om (+)5 ~ OESIGN DISCHARGE = 1100 CFS + ~ ~ ~` ~ _ %' % v DESIGN FREQUENCY = 5 YRS DESIGN MN ELEVATION = 6418 fl' W ~~ ~~ r ~ ~ o ~ ~ BASE DSCHARGE = N/A CFS BASE FREQUENCY = N/A YRS SASE HW ELEVATION = N/A fT ~ ~~\ -~ ~ ~ ~ W ~ o ~ OVERTOPPING DISCHARGE = N/A CFS 0/ERTOPPING FREQUENCY = N/A YRS ~ ~ o ~ ~ ~ ~ W * W m W 0/ERTOPPlNG ELEVATION = N/A fT ~ p ~ ~ ~/ W+ mC = FT DATE OF SURVEY = 8-10-05 W ~, WS.ELEVATK)N AT DATE OF SUR/EY °6358 ~ 10 11 12 13 14 15 16 17 18 19 20 21 22 F R P N, SE S E T 0. 2- P =1 70 + ~V = ' ?i ce W mW W P E =11 = 25 S ~ ^~.' Eo _ ~' K =2 W W `\ ~~ /ssF GLI ~ - - ~r z i I i ~~~®~ DIVISION OF HIGHWAYS GUILFORD COUNTY PROlECT:33484 1 1 (B-413ll . . BRIDGE 11 OVER BIG ALAMANCE CREEg ON SR 3391 10 11 SHEET OF 4/20/07 'n m m a~ ~~ °'6 ~z oie ~rc~ See 5r>/ei 1-tJ r or convennonol ~ymmis \ c'i ~ ~ ~ ~ ' -- ,. ~" '~ / `` ~ • ~ rw.m.mcn~a~d a ~\ -`~ - . r-~_, ~ ~~ ~ l / J•l EN I~OJECT j '~% ~' I .,l \ I 1 ~I •`_. ~•, i ~~ BEGINPfZOJECT ~ ~ J ~--- ~~ 4' ~5 3549 ---~ ~ ; r -- i ', 0 1 ,- ', __~~ - ~-. ', . / ~ rc 3394 ~ I Sost I a ~ e ~ 1 Greensboro /•`_ 3618 '~ irport 337 ,~ ~ VICINITY MAP Mp~y618 1~1 -tom-RD 11 1 BEGIN TIP PRO -L- STA. 10+10.00 B-4131 ** DESIGN EXCEPTION FOR VERTICAL ALIGNMENT AND VERTICAL STOPPING SIGHT DISTANCE REQUIRED. ll ~~ll/ ®~I AV ®u`i ll uu `1i 171®~~A~ 17~ rt~n ern naom ~oecRa rn ~~ R\`/y TAT ~j 1~r~q~~r Q~ .C. B-4131 1 ~~ a ~~~~~b.V ®ll llJL~~~~!]l~~ nnuuo rrwu~s wa~n~ 33484.1.1 BRZ~394(1) P.E. - 33484.2.1 BRZ~394Q) PA4 & U1 CONST GUILFORD COUII~TY LOCATION.• BRIDGE NO. II OVER BIG ALAMANCE CREEK ON SR 3394 (COMPANY MILL ROAD) TYPE OF WORK GRADING, DRAINAGE, PAVING STRUCTURE NC GRID NAD 83 4 a BEGIN BRIDGE END BRIDGE ~- STA. 14+0.00 _ ~ -L- ST~.15+90.00 _--~'t I V! ~I ; ,~ r1~ ',S !1 1 I j 1 ~ ! 111 I -1 II 11 i+ Ill 11 1 l I V ~ I ~ 11 I r 111 ~ J! 1 I ~ U 421 S 0 l f it 11 If ll I It j1 r! ! - ^~\ (/ rl I 1 I SRI 3394 (COMP 11 ' 7 ~ ~ !r j r ~ If r ~,~.~~~ II ANl ItOADJ ~-? ~ 1r11 rr1 LY'' ' -' ~ - ~' '~ L , - 11 ~ - - - --- _ tf' ~ ~.- ~I, ~-1 i ~I r r ' ~ ` /~ r , r !r I 1 1 '~ rl Ir ~ ~ ~ ~ ,1~ + I / ~1 1 '~ ~ 1 ~ TEMPORARY DETOUR 111 BEGIN BRIDG~ ,_ T ll~f !Ir f -DET- STA./1,0+85.00 ~ ~ ~ 1 1 11 rr 1111 r r 1 ` , ~ j 1 ~ END BRIDGE r 1 r I r ., ~' 1~% DET- S .15+75.00 \ \ 1,° 1 NCDOT CONTACT: CATHY HOUSER, P.E. ROADWAY DESIGN -ENGINEERING COORDINATION GRAPHIC SCALES 50 25 0 50 100 PLANS so zs o so lao PROFILE (HORIZONTAL) 10 5 0 10 20 PROFILE DESIGN DATA ADT 2007 = 3100 ADT 2027 = -5200 DHV = 12 D = 6 5 T = 4 % " " V = 50 MPH ' TTST 1% DUAL 3°k PROJECT LENGTH LENGTH ROADWAY TIP PROJECT B-4131 LENGTH STRUCTURE TIP PROJECT B-4131 TOTAL LENGTH OF TIP PROJECT &4131 rR r~ arrroe or, a KO & ASSOCIATES, P.C. = 0.179 MI. , Consulting Engineers r° r r saved a-sem az rmwra+ nc aens f9f91Ri19.~Bi - 0.021 MI. :ea4 srumARO srRC~resrroRs 0.200 M1. RIGHT OF WAY DATE: BRIAN A. WILES. P.E. SEPTEMBER 15, 2006 PR°/RCf RNGINRRR LETTING DATE: MICHAEL A. YOUNG, P.E. FEBRUARY 19.2008 PROJRCr ORS/GN RNGINRRR END TIP PROJECT B-4131 U STA. 20 + 65.00 HYDRAULICS ENGINEER ROADWAY DESIGN ENGINEER Pd PRELIMINARY PLANS 0o xoT vg roa coxnxvrnora DIVISION OF HIGHWAYS STATE OF NORTH CAROLINA M0~ M e r~~ PR Note.• Not to Scale ~S. U.E. = Subsurface Utility Engineering II9IIVd~~~DN ~]F H[I~ff-3[W.~~~ CONVENTIONAL PLAN SHEET BOUNDARIES AND PROPERTY.• St t Li a e ne County Line Township Line Cit U y ne Reservation Line - ~ - ~ - Pro ert Li p y ne Existing Iron Pin Pro ert C p y omer -K Property Monument Parcel/Sequence Number Existing Fence Line -x-x-x- Pro osed Woven Wi f p re ence e Pro osed Chain Li k F p n ence e Pro osed Barbed Wir F p e ence $ Existing Wetland Boundary ----~.---- Proposed Wetland Boundary ti Existing Endangered Animal Boundary ~- Exisiing Endangered Plant Boundary BUILDINGS AND OTHER CULTURE.• Gas Pump Vent or llG Tank Cap 0 Sign 0 Well o Small Mine ~ Foundation Area Outline ~ Cemetery Building S h l c oo Ch h urc Dam HYDROLOGY.• Stream or Body of Water Hydro, Pool or Reservoir Jurisdictional Stream Buffer Zone 1 Buffer Zone 2 Flow Arrow Disappearing Stream Snrinn Swamp Marsh Proposed Lateral, Tail, Head Ditch False Sump r-----~ L-___J -u- - -.~~ - -wz z- m RAILROADS.• Standard Gauge csx rnµsmeraav RR Signal Milepost o ww~nsr Js Switch ~ mrar RR Abandoned ~ -.- -•- ~-- RR Dismantled RIGHT OF WAY.• Baseline Control Point Existing Right of Way Marker Q Existing Right of Way Line - Pro osed Ri ht f W li p g o ay ne ~- Proposed Right of Way Line with Iron Pin and Cap Marker Proposed Right of Way Line with Concrete or Granite Marker Existing Control of Access -_.~c~- Proposed Control ofAccess -~_ Existing Easement Line -__E-_ Proposed Temporary Construction Easement- ---E Proposed Temporary Drainage Easement- -Tae-- Proposed Permanent Drainage Easement - -Fae- Proposed Permanent Utility Easement _roE_ RDADS AND RELATED FEATURES.• Existing Edge of Pavement -- Existing Curb - Proposed Slope Stakes Cut ~ Proposed Slope Stakes Fill F Proposed Wheel Chair Ramp ~vc~r Curb Cut for Future Wheel Chair Ramp - cr Existing Metal Guardrail -~- - Pro osed G d il T p uar ra Existing Cable Guideroil " Proposed Cable Guideroil " Equality Symbol Pavement Removal I~EGETATlON.• Single Tree Q Single Shrub o Hedge ~•-..~ Woods Line ~^~. Orchard p Q p p Vlneyafd v~"eYa'd SYMBOLS EXISTING STRUCTURES.• MAJOR: Bridge, Tunnel or Box Culvert 0 Bridge Wing Wall, Head Wall and End Wall - ~ caxc ww MINOR: Head and End Wall w ew Pipe Culvert Footbridge ~----< Drainage Box: Catch Basin, DI or JB ^~ Paved Ditch Gutter ----- Storm Sewer Manhole 0 Storm Sewer 5 UTILITIES• POWER: Existing Power Pole Proposed Power Pole b Existing Joint Use Pole ~ Proposed Joint Use Pole 1 Power Manhole ~ Power line Tower Power Transformer 8 USG Power Cable Hand Hole H-Frame Pole ~--~ Recorded l4G Power Line Designated l4G Power Line (S.U.E.`) ----~---- TELEPHONE: Existing Telephone Pole + Proposed Telephone Pole ~• Telephone Manhole 8 Telephone Booth 0 Telephone Pedestal ~ Telephone Cell Tower ~ lLG Telephone Cable Hand Hole f~ Recorded lLG Telephone Cable ' Designated lVG Telephone Cable (S.U.E.`)- ----'---- Recorded U'G Telephone Conduit '° Designated llti Telephone Conduit (S.U.E."~ ----'°---- Recorded U~ Fiber Optics Cable "°- Designated lbG Fiber Optics Cable (S.U.E.`)- ----"°--- WATER: Water Manhole Water Meter o Water Valve Water Hydrant ~ Recorded lYG Water Line ' Designated lLG Water Line (S.U.E.`~ - ---'---- Above Ground Water Line uc w°,er N: TV Satellite Dish 0 TV Pedestal N Tower l6G TV Cable Hand Hole Recorded lbG TV Cable ^' Designated lYG TV Cable (S.U.E.`) ----^'---- Recorded USG Fiber Optic Cable r'°- Designated lLG fiber Optic Cable (S.U.E.`)- ----rvro--- GAS: Gas Valve 0 Gas Meter Recorded l4G Gas Line ° Designated USG Gas Une (S.U.E.`) ----°---- Above Ground Gas line uc c°. SANITARY SEWER: Sanitary Sewer Manhole Sanitary Sewer Cleanout +p l4G Sanitary Sewer Line R Above Ground Sanitary Sewer UG Smltary Saeer Recorded SS Forced Main Line n= Designated SS Forced Main Une (S.U.E.`) - ----~a---- MISCELLANEOUS: Utility Pale • Utility Pole with Base p Utility Located Object p Utility Traffic Signal Box Utility Unknown WG Line wiw- tLG Tank; Water, Gas, Oil a AEG Tank; Water, Gas, Oil l4G Test Hole (S.U.E.') ~ Abandoned According to Utility Records - AATUR End of Information E.0.1. PAVEMENT SCHEDULE Ct PROP. APPROX. 11+2° ASPHALT CONCRETE SUflfACE CDUASE TYPE S9.5B PROP. VAR. DEPTH ASPHALT CONCRETE BABE CDUASE, TYPE B25.OB, AT AN AVEAAGE HATE OF 114 " , , AT AN AVEAAGE RATE Of 168 LBS. PER SD Y0 EZ LBS. PEA S0. YD. PEA 1 DEPTH. TO BE " . . PLACED IN LAYEAS NOT LESS THAN 3 IN DEPTH OA OAEATER THAN SN2" IN DEPTH. PROP. APPROX. 3" ASPHALT CONCRETE SUflfACE CDUASE, TYPE S9.5B L"'2 , AT AN AVEAAGE PATE OF 188 LBS. PEA S0. Y0. IN EACH OF TWO J PROP, B" AGGREGATE BASE CDUASE. LAYEflS. PROP. VAR. DEPTH ASPHALT CONCRETE SURFACE CDUASE, TYPE 59.58 C3 , AT AN AVERAGE RATE OF 112 LBS. PEA $D. YD. PEA 1" DEPTH. TD T EARTH YATEAIAL BE PLACED IN LAYEAS NOT TO E%CEED 11¢" IN DEPTH. . D' POOP. APPRO%, 2Y7" ASPHALT CONCRETE INTERMEDIATE CDUASE, TYPE T19.OB, Ai AN AVEAAGE AATE OF 285 LBS. PEA SD. YD. U EXISTING PAVEMENT. PROP. VAR. DEPTH ASPHALT CONCRETE INTEAYEDIATE CDUASE, DZ TYPE I19, OB, AT AN AVERAGE AATE OF 114 185. PER SD. Y0. PEP 1" DEPTH, TO BE PLACED IN LAYEAS NOT LESS TNAN 21g" IN DEPTH DA W VARIABLE DEPTH ASPHALT PAYEYENT. GREATER THAN 4" IN DEPTH, E1 PROP. APPROX. 4" ASPHALT CONCRETE BASE CDUflSE, TYPE B25.OB, AT AN AYEAAOE RATE OF NOTE: PAVEMENT EDGE SLOPES AAE 1:1 UNLESS SHOWN OTHERWISE 458 LB9. PEA S0. YD, . TRANSITION FROM EXISTING TO T.S. N0.1 -L- STA. 10+10.00 TO 10+60.00 USE TYPICAL SECTION N0.1 sTA.lo+bo.oo ro 12+so.ao Detail Showing Method of Wedging ~ ~_ VARIES VARIES B' 30' EXIST. TO 12' 21' VARIES 0' TO 1.5' 2' Cl FDPS C2 -_--- ,MATCH EX. MATCH EX~ 0~1 6:1 912• T U ~ D1 ~:r GRADE TO THIS UNE YMw~ slaE TYPICAL SECTION N0. 1 -L- (SR 3394) 4 -L- lu' 6' 11' S' 12' 12' °S' 'ADD 3' NRTH GUARDRAIL VALUES 21' VARIES 1' TO 2' GRADE 1' TO 2' £ ~ ~ ~ 2' POINT 2. ORIGINAL YuorES 2,1 i ii P u : i~ FDP C2 W C2 FDPS GROUND 4 ~ Z x " 5rl ~ 0.02 /0.02 FThT 0.02 FLfT~ 0.02 0-0~ 5:1 ~..~ __.~.~ q:I ` T E i Dl 9 I2• U s' ~• Dl T El a USE TYPICAL SECTION N0.2 -l- STA. 12+50.00 TO 13+7s 00 GRADE TO THIS UNE -L- STA. 18+00.00 TO . 19+60.00 RIGHT SIDE GRADE To THIS uNE a m -L- STA. 16+00.00 TO 19+00.00 LEFT SIDE TYPICAL SECTION N0. 2 ' a -L- (SR 3394) A TRANSITION FROM T.S. N0.2 TO EXISTING ~~ -L- STA. 19+00.00 TO 19+s0.00 LEFT SIDE a -L- STA. 19+60.00 TO 20+65.00 RIGHT SIDE .a ~~ ~~ 6:i ORIGINAL SIOfE oRrGINu oalclNu owclNu C TES S OC E N0. SHE N0. PR01 ~ . a $~ & A , E. S IA 2 B ^~3~ , Consulting Engineers ROADWAY DESN:N EAVF/AENT DESIGN ~~°0~~`~~~~ ENGINEER ENGINEER I~1 ~~ PRELIMTN Y PLANS 0o Nar uar ro mmRnarnoN SURVEY PAVEMENT SCHEDULE C~ ATDAN AVERAGE RATE OFPHeBTLCBSNCPEpESSOUAYAOCE COURSE, TYPE S9, SB, Erz PROP. VAR. DEPTH ASPHALT CONCRETE BASE COURSE, TYPE 825.08, AT AN AVERAGE RATE OF 114 185. PER SD. YD, PER 1" DEPTH. TO BE PLACED IN LAYERB NOT LESS THAN S" IN DEPTH OR OAEATEA THAN 51+2" IN DEPTH. C2 PROP. APPROX. 3" ASPHALT CONCRETE SURFACE COURSE, TYPE 59.58, AT AN AVERAGE RATE OF 188 LBS. PER SD. YD. IN EACH OF TWO J PROP, B" AGGREGATE BASE COURSE. LAYERS. C3 PROP. VAR. DEPTH ASPHALT CONCRETE SURFACE COURSE, TYPE 59.58, AT AN AVERAGE RATE OF 112 LBS. PEA SD. Y0. PER 1" DEPTH. TO BE PLACED IN LAYERS NOT TO EXCEED 11"2" IN DEPTH. T EARTH MATERIAL. D) PROP, APPAO%. 21t" ASPHALT CONCRETE INTERMEDIATE COURSE, TYPE I19.08, AT AN AVERAGE RATE OF 2B5 LEIS. PER SD. YD, U E%ISTING PAVEMENT. PROP. VAR. DEPTH ASPHALT CONCRETE INTERMEDIATE COURSE, O? TYPE I19.OB, AT AN AVEAAOE RATE OF 114 LBS. PEP SD. YD. PEA i" DEPTH, TO BE PLACED IN LAYERS NOT LESS THAN 21"2" IN DEPTH DR W VARIABLE DEPTH ASPHALT PAVEMENT. GREATER THAN 4" IN DEPTH. E' PROP. APPRD%. 4" ASPHALT CONCRETE BASE COURSE, TYPE B25.OB, AT AN AVERAGE RATE OF 458 LBB. PER 30. YD. NOTE: PAVEMENT EDGE SLOPES AAE 1:1 UNLESS SHOWN OTHERWISE. _ 6' _ _ ~-~YAUUIE ~9 ORIGINAL _uoFEs USE TYPICAL SECTION N0.3 -L- STA. 13+75.00 TO 14+65.83 (APPROACH SIAB) -L- STA. 16+04.17 (APPROACH SLAB) i0 18+00.00 ~ -!r • ADD J' YrtnH GUARDRAIL 12' 8' 12' 12' '8' GRADE ¢ 2' POINT 2' E ~ FOPS C2 FOPS i~ x 0.02 10.02 FLFf 0.02 F6FT~ 0.02 0~, 6:1 T v lz• T El Ol GRADE TO THIS LINE -L- (SR 3394) 4 -0ET- oRECINu GROUND c m v d T -DET- STA. 11+56.69 TO 14+85.00 (BRIDGE) T -DET- STA. 15+75.00 (BRIDGE) TO 18+81.91 ~o vT 0 `o °v~ 1 1 fIW1L JC~.I IVI`1 I`RV. ,7 -DET- (TEMP. DETOUR) vnAwlE ROPE owcINAL ORIGINAL GROUND a KO & ASSOCIATES, P.C. Coneultina EElgioeere Ru lIXVA UR.IIRIR'Itl WDGt NG I1W _ Irol meoe, 4 -nuvE- T REFERENCE N0 . SHEEf N0. 8-413/ 2-A AY DESIGN EAVEAV:Nf DESIGN HNEEA ENGINEER tEL[M1N RY PLANS __ _. ___ __ __..._4UC110N ORIGINAL GROUND TYPICAL SECTION N0. 4 -DRIVE- USE TYPICAL SECTION N0.4 -0RIVE- STA. 10+14.00 i0 11+45.00 6:1 owclNu REVISIONS R/W /tevlalan /P///8Q06 Paroel 5 ainnyed and added M Parod 4l 28izoo~ ~' Rel'/e/an lvl/~ Parad B cVpnyed and added io Parod 7. .rood.+ey\pro~\B4131_Rdy_psh_det.dgn /3/H~ ihVlSlan l/3/~J poroels 2 ald 3 dmge0 and added fo Paraal 1. ~r r ~. C ~` $ S'69f ~~ ~ ~~f f/~1 ~ I~ ~ ~ ~ 3.9 .SS .61 N E A2 E E '~ ~ ~ / 3~~_~ J~^"1• fem.-. t~^~ ..~~ ~~, t U ~~ ~ ~ {{+~~ {{'!~~ ~^ / Yfi•LOC -_-~E _ ~ 'v'im V `i;' ~ I I z . l t~ I 1 1 1 1 1 ~ X ~q~ ~ ~ ~k ~~ ~ k. k ~~ 1 '~`'~ ~ -+ (`` ~j / ~ ~ _N.. ~ ~ I ~ f' O -- ~ N N ~~~, x S V _+ 2 y ~ L~ 1 1 1 1` 1 1 ~~~~~~~ ~~ 1 1 1 1\ 1 1 ~~~'~~Qa~~+Q~ !-C 1 1 I ~ ' ~ ~ ~~~~~q~ ~~ 7: },~y \ 88 (~l )~ ~.r~'~..rtiy~+. 6~~ ~` +~, aS #~ " ~ ~( a~~~0, .. ui , CJ p , ,,o~ I~~.\ ~ >~ 'mow ~ ~ ~ :~~~,~ ~ A J ~ ~m~ I ,~ ~ .~ xt \ 4 ~P"' ~ `C ~ ~ a ~1 o E. N ~ ~'' ,.~ 41 _.,h•6s~ ~ ~~. ~- / ! N ~2 ~ a~ '^ ^_~ m ~ m O m Z ~~ c _- N D 2 S~ E 9f '' ut ~ ~~ \jv .~ ~ S~ ~~ ~ ~ __~. O R. ~ ~~ o "-' A~ a -I • ~ ~~ O `~~ I aS~ ~. ~ ~~ ~~ ~a ~S A A ~ly E . _ff?l.f!~n.f!~l.s!ll..t m E ~ ~ ~ r V ~' .fc a ~ ~ ~< ~ ~,} ~ ° Z ~~ ==v V1 C 9 A 1 I j ~;3 ;;~_~ C5 ~ ~O i 3 , ,f=.91 N ... -' '}_~ ~ .. . 'ti.: yr ~... . }~r Zf'65_1 ~ -- ~ _m 3 .ff .YI.9L N N •SZ 9G,L9 S ~ ee^^ ~ ~ ~y ~~~~~ Yp~O I b N : m ~ ~ „• y~ SOlwY~3nn ~ A as z 9L• I =am ~~ rIO~rD Im ~I 1 C `iI' ;~,. t j ~ r.~3 ri ~ l ~ f,} ~l ~ ~, ~~~~ ~ / ~ Ra i n ~;~ ~,.~ ax~ ,~ i,f~s^v,.;~ l I ~~ l*' ~~ F ~ ~ G~ ~. / + 'i.~-~ / ~` ~ '°~ ~ ' ~.. w `4 r n r a C n M N I 1 o 4S m a y N N N r r n ~ .N ~n9 ~ w ~~6 + + ~~ , ~ ~ ~ O 11 ~~ y -Sf u 916 \....~ / SONS Z ~ ~, 1 ~ Q ' I t, y : ~ ~i1 tl ~'~' m I( 7 ~ I f l Ac ~~+wps r N 3 fZ rfr li .nu ~ _- 3 pl _. 3.9Y .Z !~ v ~ I~~ ~ 3_ S n n nr ~~~ _m~ ~ - h ~, _ t~ 1t* _ t4 1 ' ~ ~' " -- ``'--~ ``4 b I ""' rr~ i ti ~ a' ~J. ~•~l .l ~ ~ 4 iln ~ ~ 1,~ ~~,~m~ ~~ ~~E~ J„_ I t `~ $ oo .v ~ 0 :2479 ~ ` , m s ~ ` r,;;, 3 f6y~1~ c 89• .5~, N^ ~ ~ ~1 . ~ s .~~„ 1 ~ I ~ ~ ~ ~~ I '~ . rarS ~ ~ 1 ~ ~ `y _ ~ ~ ~ ~~~ ~ ~ # ~ \ ~,~~~ ~ J ~ ~ ~ ~\~-~kJ ~ ~ ~ II ~' ~ / I, ~ ~~- ~~ \~ ~'\ c~ \ \q ~\1. ,\ `~~ ~'J5\\ N (~ O ~Sti CC .~..__.._ 1~ `~ 9~~ r '~ S -e r' ~ ~ f5 ~ . .',~,_ 69'65, 9 H 4 ~ ri {} ~ ~.~1_ !".._...._.__. a m `~ \R m ~ M I ~ : ~ J ~ ~ t~s F3 D -.rA `~ :. r f z - ,~ 5 \ \ s 5 .+. fJ `\ ~i ~ ~ 1 ~, ~~, ~ ~ ~, ,b r1 ~~ __ ~ 1 \11 ~ i ~~- ~, ~`~.~ ~ 7 g ~ K ~~ : I o I~ n / ~ ~~ 0 R~ ~ p ~~6°6 , ~a 64 • / ~ ~ A ~ ~ n V O ~ ~ ~ M M Tn )• y \y H Z ~ ~~ ~ m o s~ ~ o T z ~C `fir" ~~ C ~~ Z€ ro ~ ~ ~~ Ib~Ib ~ ~ ~~~ `~ ~ ~., ~' ~~ f ; ~,~ I -,~~ r / 1 1 1 1 1 ~~ jj~~(' ~q~a Q ~ , / ~C~ ~ ` I '~t",., ,k .. ~~- ~m _ ~ ~ ~ ~.. ~-__] W k r ~~_ ~~ N ~~ _ ~. , r..vm ~ '99g ~ \f\_ l ~ ~. L+l~~~rOp 4, 1j11`11 ~g ~`~ ,. r~-t.~, ;c" a r v 9669 6 S ~v 65 1 1 1 1` 1 1 f.~;f" '""~ ~ ~ y yti J> ~~ _.. •`~y~_~ ~ ~.,.. a 8i~+1~~rOp 1 11 11 r .~ \ \ \~ti '~ 'f~ ~ ~ ~~~ m 'g~~~5 x a n ~ s IML~~ ~~~ ~` ~~ N ~~ Jm 1 ......ti ._.~ -...__ y, IL'dtl A3311~ 39NVwv Id r.~c,sz.zB s ~-~._~'" J ~/" -'Y.YV1'YS vY ~-... ~.1 ~~ ~~ °~m , : V ~1~` ~~ ~ 9 s? /r. Z~y. ~'Ta 1 '~~ ~ m~~~ ~ ~~- ~N~m m4rm; c ca~B ~ p _r H ~ a ~ T - N y Z i 4„ ~~ V ~ ~~ a Q ~m _ ~~ T f7.Bb mZ o y ~.~ ~ REVISIONS R/W Ravlalan /Q///P10i06 Parod 5 dpgped and adder to Paraal ~ R/W Rw/e/m /P~//~Oi6 Prod 8 ahorged and added fo Porod 7. _Rdy_psh_04.dgn R/W ReY/s/M 1/3/800! Paroe/e 8 and 3 N17n~ed a71d added l0 Po/od 1. 8 ~... ~ g ~ ~~ E -~ + 19'BB[ :, 11 _ O cry ~f ~~ ~~ f~' m .9 . S.BL N a u+ ~ II •~ ~~ I~ i ~E ~~ E~~ E ' ~ 11 ~~ ~ ~~ , ~,j 4 O ag ~ a~~ 4~ yea ~~ ~ ~~ r 11~~ a ~ rn o o ~ ~ o ~ ~ = o 0 m u rn p a {~ cr} 01 W ~r~~ ~ V~I L.._______J I I - ~ 1 N ~ ~ s , r /i I\ • ~ m - a, _ ~~ ~1~ a~ ~, ~~ ~' ~y , m '+ / I ~ o ~.~ ;~_ ~ ~`_ m -~- ~~ 2, a zt~ y s m ~ 3.if .Y1.91 N M SZ ,gf i N ~ m ~ ~ ..m y`s s O ,~ ~. ~' ~ f~ 1 ~ 1 ~ I. yy amn~ y 2 ~ 1 til -= a ~ ~~ ~ ~ Z ~~O tl ~ ~ ~ ~~ ~ I N N u ~ ~~ ~ N 44~~ .I * 4~ I ~ Q ~ v~ N N Q o N• \~ ,u,1 ~N'y ~rt~^ ~ -~:. _- ~ - T T ~' n~:r y ~~ y~ ~ ~ L: ! 1 F,,, .Ti 3¢ NMONMNIi .y ~~6 -~J ~ S ~ ~' SONJ ,fx L ~`® b + ~ ~~ ~ ~ ~ m~ ~o g~ o~ a ~aN~ i ~ io In y ~ P G iii J •~ ~ ~5 wp ~ 4~~ . I ~ ~ d >. • I V 1 J T *pp~ ~.~epWP ~ (~ S O ,YF N H t+ii Np~~ 2 ~O ~~n 1~ 1m11~m VV 1ApJi ** yy~~ < ~ !~^ u I~e~,{nav A ~ ~ con /~9~ ,~ ~' ~ L ~ CN .:.,~ ~i s r"+~f X7111) 'a "'no'r' ^'~" ~ 1 1 1 1 1 ~ x ;, R ~ ~ ~~ ~.~~~ ~~~~~~~ 1 ~ ~ ~ 0 s ., m is ~ ` ¢` ~-~n,~y,t` ~ ~ (~ Q H ni ~ ~ y ~~~~\~~~ ~ ~ H O 2 )i r. ..~ q ~ ` 3 ~~ ~~~ ~\ ~.~ ~~~ ~ ~ ~p ~ ~ ...~ ~ _ ~ 054 ~ ~• ~ ~ j y y s v 4 m .:i~i:r ~ ,~ JOB.97 ~ `^~^ _ -.;;r. ~`~ '^ S `"' ~~ ~ JI ~ ~ } 1 V ~~ .7 M 11 X IQ~Vf) 1 to g ~ ~~ ~~~ f...._.= ~> ,~ « a • . e~ ~~ N = ~ ~ ~; ~ ~ y.. y N 1B .~ ~~` `Y A ~ / N C ~ W rl vr~..r ~I M `` a . N 4j ANN ~~~iZ [f~ OOtn 1p{~ ~~ ,uA ~, ~ ~ 7 ~ ~ ~ ~ I I ~~ ~ ~~ I ism ~ ~ \1 ~ ~' ~ /~ 1 ~ i~ i ~• i ,I-- ~~ age ~a b* a ,_ _ T ~ y ~ ~ ' ~,~ \ fi~ ~, cggs ~. ,~ ~ ~ ~' .. ,f ' , ~ t 6 ~ ~ L , j ; 7 ~i ' E ~ ~~. ~ ~, •, ~ .~ ~b BJI,•1 EL ° EJZJr RR SPIKE IN {X ASSOCIA C KO TES P.. MtO1ECT REFEA®ICE N0. SMEET N0. N !N POLE , a B^4/31 ~ 2!O'Rr OF -BL- STA l5f0! ConRUlting En$ineerR , Ro~ow~r oESicN NroRwucs ~'(~ ~ ..~- SrA n~ m «>u-YR. HAIR 'p1 w~aL nc Hoot ENGMEER ENGNEEA PRELIMIN RY PLANS ~~• .. -, I OD Ntlf ONI Po CONSIAVCI70N F R P N .5,E - E T 0 4 E _. . ~ _ _ D . _ i . is _ -. !:_ '' ! ~ .: ,.: - _ - ': BRIDGE HYDRAULIC DATA _ ars~aRSE - es~o cFs ' - ~ ~ ~ ~ ~ .. k .o, Q E iqN - : _: eASE Q~NARf+£ ^ ~soo ~ ' .. . ~ - BASE fREOUENq X10 YRS .._ ': ; BASE hW ELEV,Q,gN - ~ ; _ aERrapPrNG as~rwsE - mon cFs _ - , ; ' _ ,. ... aERraPP-r~c fREQUENA - soot rRs ... ; : ' _ afMGPPING ELEVATKIW - 6ra32PT :: ;.. PT ` lp-Q5 - 8- ::: -: i DATE Of SURVEY .. W.SELEViQX1N __ : . ._ . AT RATE 01~ SURVEr - G7G! Ff 10 11 12 13 14 15 16 17 18 19 20 21 22 ;~. ._ .. __ _ . µ , .. _ . ... ' ~ ; PIPE HYDR AULIC DATA - , ' ' S - , ,~ .., ., tr ~'S _ . _ _ QRNE- X}185 TA A ,; ,; - , _ DRNNASE AREA - ~k , . _ _ I . - QES16N FREQUEhCr - 5 YRS ~ ,- ,, , . _ DESAiN C1SplAR6E - B CPS , , _, .. .. . . ..: DES GN hW ELEV - , ATXJW 615 PT ..:: .. ; . . _ , , . - _ ,ao rEAR DISC~lARGE - Es r~s . . _ _ ,no TEAR tiw EtEVArnw - s~5 PT , . ... ~ - : aERTOWPINS FREOUEMd' - 5 rRs _ _ .: . . . aERrDPPlNS a~rARSE - e cFs _~ . _ aERrawPrNS ELEVATXJW -s~5 ~ a _ ;. _ _ : w a __ _ _ r Q a - _ _. . . ,.. . ; . ;. . . m - - ; .. :: , . o a _ , . _T ~9 .- :. -. .. V ..... .. ~ ... .. ....~ .... .. .. ~. .. ~ ... .. ~0 %, 10 11 m ~ KO & ASSOCIATES, P.C. PROJECT PEFERBJCE N0. SHEEf N0. a 8-4/31 - - Consulting Engineers ` Ro,~nw~r oESwrl Ittouulua . - _ . ~ tlR ACBMl U1. IlTB'A1 WBCR. N.G 1,Mf onl ~,~ ENGINEER ENGINEER II PRELIMIN RY PLANS .. .. - ; oo Nm vss ro coxs,nucnoN F R LA E€ S EE 0. ~, , ,~ ~:. ~ ~ i' BRIDGE HYDRAUlJC DATA . ; aES~sN asarA~cE - rA70 CfS . , , .. ,' ' a ~ s ~ .... _ ` ~ . cE- xw - ore . ~ I ; /A CFS , , ~ f EMGY N/A YRS :. ; . . .. . . ... BASE M1' ELENATigN ~ N/A fT Qi~ERfQPPl G OVSICH AGE N/ F ,~ ti h A A C S . .. . . aVERTQPPING FREW ~ ,.. W ERTQPPIhG EIENATIOW ~ N/A Fr a ~ c ~ 9 r DATE Of SURVEY WSEIEVATA~Y . AT DOPE Af SURVEY ~ 6.35eFT _ , .. _ _ _ 10 it 12 13 14 15 16 17 ;9 18 20 21 22 ,, . _. , ,.. _. R p ~, SE S E T' 4. 2- ..: .. _ _;. _ .... _ ~, _. ~_ ~ .r ~. ,. '! . . . _. _ .. ,. ._ n _.. ~.. ... ,_ .. _ .,. .~ E _. _ . - m _ X _. a ~; m 0 ~T q .. .. .. ...... .. .,. .. : Nq ~ ~ .. . ... .. ... .... O 10 11 APPROVED JURISDICTIONAL DETERMINATION FORM U.S. Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Form Instructional Guidebook. SECTION I: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION (JD): B. DISTRICT OFFICE, FILE NAME, AND NUMBER:Wilmington, B-4131 (stream) C. PROJECT LOCATION AND BACKGROUND INFORMATION: State:NC County/parish/borough: Guilford City: Climax Center coordinates of site (lat/long in degree decimal format): Lat. 35.9548° N, Long. 79.7009° W. Universal Transverse Mercator: Name of nearest waterbody: Big Alamance Creek Name of nearest Traditional Navigable Water (TNW) Into which the aquatic resource flows: Big Alamance Creek Name of watershed or Hydrologic Unit Code (HUC): 03030002 ® Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites (e.g., offsite mitigation sites, disposal sites, etc...) are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION (CHECK ALL THAT APPLY): ^ Office (Desk) Determination. Date: ^ Field Determination. Date(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There Appear to be':no "navigable waters of the U.S." within Rivers and Harbors Act (RHA) jurisdiction (as defined by 33 CFR part 329) in the review area. [Required] Waters subject to the ebb and flow of the tide. Waters are presently used, or have been used in the past, or may be susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There Are "waters of the U.S." within Clean Water Act (CWA) jurisdiction (as defined by 33 CFR part 328) in the review area. [Required) 1. Waters of the U.S. a. Indicate presence of waters of U.S. in review area (check all that apply): ~ TNWs, including territorial seas ^ Wetlands adjacent to TNWs Relatively permanent watersz (RPWs) that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs ^ Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs ^ Impoundments of jurisdictional waters Isolated (interstate or intrastate) waters, including isolated wetlands b. Identify (estimate) size of waters of the U.S. in the review area: Non-wetland waters: 200 linear feet: 40 width (ft) and/or acres. Wetlands: acres. c. Limits (boundaries) of jurisdiction based on: 1987 Delineation Manual Elevation of established OHWM (if known): 2. Non-regulated waters/wetlands (check if applicable):3 Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: ~ Boxes checked below shall be supported by completing the appropriate sections in Section 111 below. Z For purposes of this form, an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous flow at least "seasonally" (e.g., typically 3 months). ' Supporting documentation is presented in Section III.F. (b) Genera] Tributary Characteristics (check all that apply): Tributary is: ^ Natural ^ Artificial (man-made). Explain: ^ Manipulated (man-altered). Explain: Tributary properties with respect to top of bank (estimate): Average width: feet Average depth: feet Average side slopes: Pick'List. Primary tributary substrate composition (check all that apply): ^ Silts ^ Sands ^ Concrete ^ Cobbles ^ Gravel ^ Muck ^ Bedrock ^ Vegetation. Type/% cover: ^ Other. Explain: Tributary condition/stability [e.g., highly eroding, sloughing banks]. Explain: Presence of run/riffle/pool complexes. Explain: Tributary geometry: Pick`--List Tributary gradient (approximate average slope): (c) Flow: Tributary provides for: Pick List Estimate average number of flow events in review area/year: Pick List Describe flow regime: Other information on duration and volume: Surface flow is: Pick List. Characteristics: Subsurface flow: Pick.List. Explain findings: ^ Dye (or other) test performed: Tributary has (check all that apply): ^ Bed and banks ^ OHWM6 (check all indicators that apply): ^ clear, natural line impressed on the bank ^ ^ changes in the character of soil ^ ^ shelving ^ ^ vegetation matted down, bent, or absent ^ ^ leaf litter disturbed or washed away ^ ^ sediment deposition ^ ^ water staining ^ ^ other (list): ^ Discontinuous OHWM.' Explain: If factors other than the OHWM were used to determ High Tide Line indicated by: ^ oil or scum line along shore objects ^ fine shell or debris deposits (foreshore) ^ physical markings/characteristics ^ tidal gauges ^ other (list): the presence of litter and debris destruction of terrestrial vegetation the presence of wrack line sediment sorting scour multiple observed or predicted flow events abrupt change in plant community ine lateral extent of CWA jurisdiction (check all that apply): Mean High Water Mark indicated by: ^ survey to available datum; ^ physical markings; ^ vegetation lines/changes in vegetation types. (iii) Chemical Characteristics: Characterize tributary (e.g., water color is clear, discolored, oily film; water quality; general watershed characteristics, etc.). Explain: Identify specific pollutants, if known: fiA natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction (e.g., where the stream temporarily flows underground, or where the OHWM has been removed by development or agricultural practices). Where there is a break in the OHWM that is unrelated to the waterbody's flow regime (e.g., flow over a rock outcrop or through a culvert), the agencies will look for indicators of flow above and below the break. 'Ibid. (iv) Biological Characteristics. Channel supports (check all that apply): ^ Riparian corridor. Characteristics (type, average width): ^ Wetland fringe. Characteristics: ^ Habitat for: ^ Federally Listed species. Explain findings: ^ Fish/spawn areas. Explain findings: ^ Other environmentally-sensitive species. Explain findings: ^ Aquatic/wildlife diversity. Explain findings: 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size: acres Wetland type. Explain: Wetland quality. Explain: Project wetlands cross or serve as state boundaries. Explain: (b) General Flow Relationship with Non-TNW: Flow is: Pick List. Explain: Surface flow is: Pick Liat Characteristics: Subsurface flow: Pick List. Explain findings: ^ Dye (or other) test performed: (c) Wetland Adjacency Determination with Non-TNW: ^ Directly abutting ^ Not directly abutting ^ Discrete wetland hydrologic connection. Explain: USACE field verified Non TNW as a hydrologic connection between this wetland and another wetland abutting a TNW. ^ Ecological connection. Explain: ^ Separated by berm barrier. Explain: (d) Proximit~(Relationshipl to TNW Project wetlands are Pick List river miles from TNW. Project waters are Pick List aerial (straight) miles from TNW. Flow is from: Pick List. Estimate approximate location of wetland as within the Pick<Ist floodplain. (ii) Chemical Characteristics: Characterize wetland system (e.g., water color is clear, brown, oil film on surface; water quality; general watershed characteristics; etc.). Explain: Identify specific pollutants, if known: (iii) Biological Characteristics. Wetland supports (check all that apply): ^ Riparian buffer. Characteristics (type, average width): ^ Vegetation type/percent cover. Explain:shrub/ scrub wetland (90%). ^ Habitat for: ^ Federally Listed species. Explain findings: ^ Fish/spawn areas. Explain findings: ^ Other environmentally-sensitive species. Explain findings: ^ Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary (if any) All wetland(s) being considered in the cumulative analysis: Plck List Approximately ( )acres in total are being considered in the cumulative analysis. For each wetland, specify the following: DirectlKabuts? (Y/N~ Size (in acres) Directlyabuts? (YM) Size (in acres) Summarize overall biological, chemical and physical functions being performed: C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical, physical, and biological integrity of a TNW. For each of the following situations, a significant nexus exists if the tributary, in combination with all of its adjacent wetlands, has more than a speculative or insubstantial effect on the chemical, physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include, but are not limited to the volume, duration, and frequency of the flow of water in the tributary and its proximity to a TNW, and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance (e.g. between a tributary and its adjacent wetland or between a tributary and the TNW). Similarly, the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW, as identified in the Rapanos Guidance and discussed in the Instructional Guidebook. Factors to consider include, for example: • Does the tributary, in combination with its adjacent wetlands (if any), have the capacity to carry pollutants or flood waters to TNWs, or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary, in combination with its adjacent wetlands (if any), provide habitat and lifecycle support functions for fish and other species, such as feeding, nesting, spawning, or rearing young for species that are present in the TNW? • Does the tributary, in combination with its adjacent wetlands (if any), have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary, in combination with its adjacent wetlands (if any), have other relationships to the physical, chemical, or biological integrity of the TNW? Note: the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below, based on the tributary itself, then go to Section III.D: 2. Significant nexus findings for non-RPW and its adjacent wetlands, where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below, based on the tributary in combination with all of its adjacent wetlands, then go to Section IILD: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW. Explain findings of presence or absence of significant nexus below, based on the tributary in combination with all of its adjacent wetlands, then go to Section 11I.D: D. DETERMINATIONS OF JURISDICTIONAL FINDINGS. THE SUBJECT WATERS/WETLANDS ARE (CHECK ALL THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: TNWs: 2001inear feet 40 width (ft), Or, acres. Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. Tributaries of TNWs where tributaries typically flow year-round are jurisdictional. Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow "seasonally" (e.g., typically three months each year) are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally: Provide estimates for jurisdictional waters in the review area (check all that apply): ^ Tributary waters: linear feet width (ft). Other non-wetland waters: acres. Identify type(s) of waters: 3. Non-RPWss that flow directly or indirectly into TNWs. Waterbody that is not a TNW or an RPW, but flows directly or indirectly into a TNW, and it has a significant nexus with a TNW is jurisdictional. Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional waters within the review area (check all that apply): ^ Tributary waters: linear feet width (ft). ^ Other non-wetland waters: acres. Identify type(s) of waters: . 4. Wetlands directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands directly abut RPW and thus are jurisdictional as adjacent wetlands. Wetlands directly abutting an RPW where tributaries typically flow year-round. Provide data and rationale indicating that tributary is perennial in Section III.D.2, above. Provide rationale indicating that wetland is directly abutting an RPW: . ^ Wetlands directly abutting an RPW where tributaries typically flow "seasonally." Provide data indicating that tributary is seasonal in Section III.B and rationale in Section 111.D.2, above. Provide rationale indicating that wetland is directly abutting an RPW: Provide acreage estimates for jurisdictional wetlands in the review area: acres. 5. Wetlands adjacent to but not directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands that do not directly abut an RPW, but when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands, have a significant nexus with a TNW are jurisidictional. Data supporting this conclusion is provided at Section III.C. Provide acreage estimates for jurisdictional wetlands in the review area: acres. 6. Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs. Wetlands adjacent to such waters, and have when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands, have a significant nexus with a TNW are jurisdictional. Data supporting this conclusion is provided at Section IILC. Provide estimates for jurisdictional wetlands in the review area: 0.19 acres. 7. Impoundments of jurisdictional waters.9 As a general rule, the impoundment of a jurisdictional tributary remains jurisdictional. ^ Demonstrate that impoundment was created from "waters of the U.S.," or ^^ Demonstrate that water meets the criteria for one of the categories presented above (1-6), or Demonstrate that water is isolated with a nexus to commerce (see E below). E. ISOLATED [INTERSTATE OR INTRA-STATE] WATERS, INCLUDING ISOLATED WETLANDS, THE USE, DEGRADATION OR DESTRUCTION OF WHICH COULD AFFECT INTERSTATE COMMERCE, INCLUDING ANY SUCH WATERS (CHECK ALL THAT APPLY):10 which are or could be used by interstate or foreign travelers for recreational or other purposes. ^ from which fish or shellfish are or could be taken and sold in interstate or foreign commerce. ^ which are or could be used for industrial purposes by industries in interstate commerce. Interstate isolated waters. Explain: ^ Other factors. Explain: Identify water body and summarize rationale supporting determination: sSee Footnote # 3. v To complete the analysis refer to the key in Section IILD.6 of the Instructional Guidebook. 10 Prior to asserting or declining CWA jurisdiction based solely on this category, Corps Districts will elevate the action to Corps and EPA HQ for review consistent with the process described in the Corps/EPA Memorandum Regarding CWA Act Jurisdiction Following Rapanos. Provide estimates for jurisdictional waters in the review area (check all that apply): Tributary waters: linear feet width (fr). Other non-wetland waters: acres. Identify type(s) of waters: ^ Wetlands: acres. F. NON-JURISDICTIONAL WATERS, INCLUDING WETLANDS (CHECK ALL THAT APPLY): ^ If potential wetlands were assessed within the review area, these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. ^ Review area included isolated waters with no substantial nexus to interstate (or foreign) commerce. ^ Prior to the Jan 2001 Supreme Court decision in "SWANCC," the review area would have been regulated based solely on the "Migratory Bird Rule" (MBR). Waters do not meet the "Significant Nexus" standard, where such a finding is required for jurisdiction. Explain: ^ Other: (explain, if not covered above): Provide acreage estimates for non jurisdictional waters in the review area, where the sole potential basis of jurisdiction is the MBR factors (i.e., presence of migratory birds, presence of endangered species, use of water for irrigated agriculture), using best professional judgment (check all that apply): Non-wetland waters (i.e., rivers, streams): linear feet width (fr). Lakes/ponds: acres. ^ Other non-wetland waters: acres. List type of aquatic resource: ^ Wetlands: acres. Provide acreage estimates for non-jurisdictional waters in the review area that do not meet the "Significant Nexus" standard, where such a finding is required for jurisdiction (check all that apply): Non-wetland waters (i.e., rivers, streams): linear feet, width (ft). ^ Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD (check all that apply -checked items shall be included in case file and, where checked and requested, appropriately reference sources below): Maps, plans, plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ^ Office concurs with data sheets/delineation report. ^ Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters' study: ^ U.S. Geological Survey Hydrologic Atlas: ^ USGS NHD data. ^ USGS 8 and 12 digit HUC maps. U.S. Geological Survey map(s). Cite scale & quad name: USDA Natural Resources Conservation Service Soil Survey. Citation: National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) ^ Photographs: ^ Aerial (Name & Date): or ^ Other (Name & Date): Previous determination(s). File no. and date of response letter: Applicable/supporting case law: Applicable/supporting scientific literature: ^ Other information (please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD: 4 APPROVED JURISDICTIONAL DETERMINATION FORM U.S. Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Form Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION (JD): B. DISTRICT OFFICE, FILE NAME, AND NUMBER:Wilmington, B-4131- (Wetland 2) C. PROJECT LOCATION AND BACKGROUND INFORMATION: State:NC County/parish/borough: Guilford City: Climax Center coordinates of site (lat/long in degree decimal format): Lat. 35.9548° N, Long. 79.7009° W. Universal Transverse Mercator: Name of nearest waterbody: Big Alamance Creek Name of nearest Traditional Navigable Water (TN W) Into which the aquatic resource flows: Big Alamance Creek Name of watershed or Hydrologic Unit Code (HUC): 03030002 Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites (e.g., offsite mitigation sites, disposal sites, etc...) are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION (CHECK ALL THAT APPLY): Office (Desk) Determination. Date: Field Determination. Date(s): SECTION 11: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There Appear to be no "navigable waters of the U.S." within Rivers and Harbors Act (RHA) jurisdiction (as defined by 33 CFR part 329) in the review area. [Required] Waters subject to the ebb and flow of the tide. Waters are presently used, or have been used in the past, or may be susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There Are "waters of the U.S." within Clean Water Act (CWA) jurisdiction (as defined by 33 CFR part 328) in the review area. [Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S. in review area (check all that apply): ~ Q TNWs, including territorial seas Wetlands adjacent to TNWs Relatively permanent watersZ (RPWs) that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Impoundments of jurisdictional waters Isolated (interstate or intrastate) waters, including isolated wetlands b. Identify (estimate) size of waters of the U.S. in the review area: Non-wetland waters: linear feet: width (ft) and/or acres. Wetlands: 0.19 acres. c. Limits (boundaries) of jurisdiction based on: 19$7'Delineation Ma»ual Elevation of established OHWM (if known): 2. Non-regulated waters/wetlands (check if applicable):3 Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: ~ Boxes checked below shall be supported by completing the appropriate sections in Section Ill below. Z For purposes of this form, an RPW is defined as a tributary that is not a TN W and that typically flows year-round or has continuous flow at least "seasonally" (e.g., typically 3 months). ' Supporting documentation is presented in Section IILF. .. (b) General Tributary Characteristics (check all that anplv): Tributary is: ^ Natural ^ Artificial (man-made). Explain: ^ Manipulated (man-altered). Explain: Tributary properties with respect to top of bank (estimate): Average width: feet Average depth: feet Average side slopes: Pick-List. Primary tributary substrate composition (check all that apply): ^ Silts ^ Sands ^ Concrete ^ Cobbles ^ Gravel ^ Muck ^ Bedrock ^ Vegetation. Type/% cover: ^ Other. Explain: Tributary condition/stability [e.g., highly eroding, sloughing banks]. Explain: Presence of run/rit~le/pool complexes. Explain: Tributary geometry: Pick`List Tributary gradient (approximate average slope): (c) Flow: Tributary provides for: Pick Last Estimate average number of flow events in review area/year: Pick Lisf Describe flow regime: Other information on duration and volume: Surface flow is: Pick Liiiit. Characteristics: Subsurface flow: Pick List. Explain findings: ^ Dye (or other) test performed: Tributary has (check all that apply): ^ Bed and banks ^ OHWM6 (check all indicators that apply): ^ clear, natural line impressed on the bank ^ ^ changes in the character of soil ^ ^ shelving ^ ^ vegetation matted down, bent, or absent ^ ^ leaf litter disturbed or washed away ^ ^ sediment deposition ^ ^ water staining ^ ^ other (list): ^ Discontinuous OHWM.' Explain: If factors other than the OHWM were used to determ High Tide Line indicated by: ^ oil or scum line along shore objects ^ fine shell or debris deposits (foreshore) ^ physical markings/characteristics ^ tidal gauges ^ other (list): the presence of litter and debris destruction of terrestrial vegetation the presence of wrack line sediment sorting scour multiple observed or predicted flow events abrupt change in plant community ine lateral extent of CWA jurisdiction (check all that apply): Mean High Water Mark indicated by: ^ survey to available datum; ^ physical markings; ^ vegetation lines/changes in vegetation types. (iii) Chemical Characteristics: Characterize tributary (e.g., water color is clear, discolored, oily film; water quality; general watershed characteristics, etc.). Explain: Identify specific pollutants, if known: hA natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction (e.g., where the stream temporarily flows underground, or where the OHWM has been removed by development or agricultural practices). Where there is a break in the OHWM that is unrelated to the waterbody's flow regime (e.g., flow over a rock outcrop or through a culvert), the agencies will look for indicators of flow above and below the break. 'Ibid. (iv) Biological Characteristics. Channel supports (check all that apply): ^ Riparian corridor. Characteristics (type, average width): ^ Wetland fringe. Characteristics: ^ Habitat for: ^ Federally Listed species. Explain findings: ^ Fish/spawn areas. Explain findings: ^ Other environmentally-sensitive species. Explain findings: ^ Aquatic/wildlife diversity. Explain findings: 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size:0.19 acres Wetland type. Explain: Palustrine, seasonally flooded wetland supporting scrub-shrub vegetation.. Wetland quality. Explain: Medium. Project wetlands cross or serve as state boundaries. Explain: (b) General Flow Relationshin with Non-TNW: Flow is: Ephemeral flow. Explain: Surface flow is: Discrete and confined Characteristics: Subsurface flow: Unknown. Explain findings: ^ Dye (or other) test performed: (c) Wetland Adiacency Determination with Non-TNW• ^ Directly abutting ^ Not directly abutting ® Discrete wetland hydrologic connection. Explain: USACE field verified Non TNW as a hydrologic connection between this wetland and another wetland abutting a TNW. ^ Ecological connection. Explain: ^ Separated by berm barrier. Explain: (d) Proximity (Relationship) to TNW Project wetlands are 1 (or less) river miles from TNW. Project waters are 1 {or less) aerial (straight) miles from TNW. Flow is from: Wetland to navigable waters. Estimate approximate location of wetland as within the 100 - 500-year floodplain. (ii) Chemical Characteristics: Characterize wetland system (e.g., water color is clear, brown, oil film on surface; water quality; general watershed characteristics; etc.). Explain: Identify specific pollutants, if known: (iii) Biological Characteristics. Wetland supports (check all that apply): ^ Riparian buffer. Characteristics (type, average width): ® Vegetation type/percent cover. Explain:shnab/ scrub wetland (90%). ^ Habitat for: ^ Federally Listed species. Explain findings: ^ Fish/spawn areas. Explain findings: ^ Other environmentally-sensitive species. Explain findings: ^ Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary (if any) All wetland(s) being considered in the cumulative analysis: Pick List Approximately ( )acres in total are being considered in the cumulative analysis. For each wetland, specify the following: Directly abuts? (Y/N) Size (in acresl Directly abuts? (YM) Size (in acres) Summarize overall biological, chemical and physical functions being performed: C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical, physical, and biological integrity of a TNW. For each of the following situations, a significant nexus exists if the tributary, in combination with all of its adjacent wetlands, has more than a speculative or insubstantial effect on the chemical, physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include, but are not limited to the volume, duration, and frequency of the flow of water in the tributary and its proximity to a TNW, and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance (e.g. between a tributary and its adjacent wetland or between a tributary and the TNW). Similarly, the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW, as identified in the Rapanos Guidance and discussed in the Instructional Guidebook. Factors to consider include, for example: • Does the tributary, in combination with its adjacent wetlands (if any), have the capacity to carry pollutants or flood waters to TNWs, or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary, in combination with its adjacent wetlands (if any), provide habitat and lifecycle support functions for fish and other species, such as feeding, nesting, spawning, or rearing young for species that are present in the TNW? • Does the tributary, in combination with its adjacent wetlands (if any), have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary, in combination with its adjacent wetlands (if any), have other relationships to the physical, chemical, or biological integrity of the TNW? Note: the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below, based on the tributary itself, then go to Section III.D: 2. Significant nexus findings for non-RPW and its adjacent wetlands, where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below, based on the tributary in combination with all of its adjacent wetlands, then go to Section III.D: The wetland in question (W2) is connected to a second wetland (W3) via a hydrologic connection/channe). W3 lies in the floodplain of the TNW (Big Alamance Creek) and is abutting and therefore connected to the TNW. Afield visit with USACE was conducted on May 1, 2007 and found W2 & W3 to be jurisictional. 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW. Explain findings of presence or absence of significant nexus below, based on the tributary in combination with all of its adjacent wetlands, then go to Section IILD: D. DETERMINATIONS OF JURISDICTIONAL FINDINGS. THE SUBJECT WATERS/WETLANDS ARE (CHECK ALL THAT APPLY): I. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: TNWs: 200 linear feet 40 width (ft), Or, acres. Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. Tributaries of TNWs where tributaries typically flow year-round are jurisdictional. Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow "seasonally" (e.g., typically three months each year) are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally: Provide estimates for jurisdictional waters in the review area (check all that apply): ~] Tributary waters: linear feet width (ft). Other non-wetland waters: acres. Identify type(s) of waters: 3. Non-RPWss that flow directly or indirectly into TNWs. Waterbody that is not a TNW or an RPW, but flows directly or indirectly into a TNW, and it has a significant nexus with a TNW is jurisdictional. Data supporting this conclusion is provided at Section IILC. Provide estimates for jurisdictional waters within the review area (check all that apply): Tributary waters: 200 linear feet 40 width (ft). Other non-wetland waters: acres. Identify type(s) of waters: . 4. Wetlands directly abutting an RPW that flow directly or indirectly into TNWs. ^ Wetlands directly abut RPW and thus are jurisdictional as adjacent wetlands. Wetlands directly abutting an RPW where tributaries typically flow year-round. Provide data and rationale indicating that tributary is perennial in Section III.D.2, above. Provide rationale indicating that wetland is directly abutting an RPW: . Wetlands directly abutting an RPW where tributaries typically flow "seasonally." Provide data indicating that tributary is seasonal in Section III.B and rationale in Section III.D.2, above. Provide rationale indicating that wetland is directly abutting an RPW: . Provide acreage estimates for jurisdictional wetlands in the review area: acres. 5. Wetlands adjacent to but not directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands that do not directly abut an RPW, but when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands, have a significant nexus with a TNW are jurisidictional. Data supporting this conclusion is provided at Section IILC. Provide acreage estimates for jurisdictional wetlands in the review area: acres. 6. Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs. Wetlands adjacent to such waters, and have when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands, have a significant nexus with a TNW are jurisdictional. Data supporting this conclusion is provided at Section IILC. Provide estimates for jurisdictional wetlands in the review area: 0.19 acres. 7. Impoundments of jurisdictional waters.9 As a general rule, the impoundment of a jurisdictional tributary remains jurisdictional. ^^ Demonstrate that impoundment was created from "waters of the U.S.," or Demonstrate that water meets the criteria for one of the categories presented above (1-6), or ^ Demonstrate that water is isolated with a nexus to commerce (see E below). E. ISOLATED [INTERSTATE OR INTRA-STATE] WATERS, INCLUDING ISOLATED WETLANDS, THE USE, DEGRADATION OR DESTRUCTION OF WHICH COULD AFFECT INTERSTATE COMMERCE, INCLUDING ANY SUCH WATERS (CHECK ALL THAT APPLY)a° ^ which are or could be used by interstate or foreign travelers for recreational or other purposes. from which fish or shellfish are or could be taken and sold in interstate or foreign commerce. which are or could be used for industrial purposes by industries in interstate commerce. Interstate isolated waters. Explain: Other factors. Explain: RSee Footnote # 3. 9 To complete the analysis refer to the key in Section III. D.6 of the Instructional Guidebook. 10 Prior to asserting or declining CWA jurisdiction based solely on this category, Corps Districts will elevate the action to Corps and EPA HQ for review consistent with the process described in the Corps/EPA Memorandum Regarding CWA Act Jurisdiction Fo!/owing Rapanos. w Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area (check all that apply): [] Tributary waters: linear feet width (ft). Other non-wetland waters: acres. Identify type(s) of waters: Wetlands: acres. F. NON-JURISDICTIONAL WATERS, INCLUDING WETLANDS (CHECK ALL THAT APPLY): If potential wetlands were assessed within the review area, these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. ^ Review area included isolated waters with no substantial nexus to interstate (or foreign) commerce. ^ Prior to the Jan 2001 Supreme Court decision in "SWANCC," the review area would have been regulated based solely on the "Migratory Bird Rule" (MBR). Waters do not meet the "Signitcant Nexus" standard, where such a finding is required for jurisdiction. Explain: Other: (explain, if not covered above): Provide acreage estimates for non jurisdictional waters in the review area, where the sole potential basis of jurisdiction is the MBR factors (i.e., presence of migratory birds, presence of endangered species, use of water for imgated agriculture), using best professional judgment (check all that apply): Non-wetland waters (i.e., rivers, streams): linear feet width (ft). Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the "Significant Nexus" standard, where such a finding is required for jurisdiction (check all that apply): Non-wetland waters (i.e., rivers, streams): linear feet, width (ft). Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD (check all that apply -checked items shall be included in case file and, where checked and requested, appropriately reference sources below): Maps, pl2ns, plots or plat submitted by or on behalf of the applicanUconsultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ^ Office concurs with data sheets/delineation report. ^ Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters' study: U.S. Geological Survey Hydrologic Atlas: ^ USGS NHD data. ^ USGS 8 and 12 digit HUC maps. ^ U.S. Geological Survey map(s). Cite scale & quad name: USDA Natural Resources Conservation Service Soil Survey. Citation: National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs: ^ Aerial (Name & Date): or ^ Other (Name & Date): Previous determination(s). File no. and date of response letter: Applicable/supporting case law: Applicable/supporting scientific literature: Other information (please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD: i Guilford C'.ounty SR 3394 Bridge No. 11 over Big Alamance Creek Federal-Aid Project No. BRZ-3394(1) State Project No. 33484.1.1 T.I.P. \To. B-4131 CATEGORICAL EXCLUSION U.S. DEPARTMENT OF TRANSPORTATION FEDERAL HIGH~T~A1' ADMINISTRATION AND N.C. DEPARTMENT OF ".TRANSPORTATION APPRGVED: D ~~15~ V ~ n U OCT 0 ~ 2001 DENR -WATER LK1gLITY ~11AND,4At~0 ST()f;-y~v,{7~ BRANCH o~i~ii . ~ ~ DATE Gregory J. Thorpe, Ph.D. Environmental Management Director Project Development and Environmental Analysis Branch, NCDOT ~j~G~~ .. DATE ~~'~' John F. Sullivan III; P.E. Division Administrator. FHWA d Guilford County SR 3394 Bridge No. 11 over Big Alamance Creek Federal-Aid Project No. BRZ-3394(1) State Project No. 33484.1 T.I.P. No. B-4131 CATEGORICAL EXCLUSION June 2006 Documentation Prepared By Ko & Associates, P.C. ,~s~se<<+ea4 r`°~oQ~gK i~~` ~ `9ra ,...,,Q.• ~.~. o ~ Q¢ ~~. ~~ ~ $Ea~. L. J ard, P.E. ~ ~ ~~E1 Project Manager r; ~•:F/~"~+ '~%~F~•I~E••'~ Nl.W For North Carolina Department of Transportation A S. Wade Kirby, P. ., P.G. Project Development Engineer M K ~ f PROJECT COMMITMENTS Guilford County SR 3394 Bridge No. 11 over Big Alamance Creek Federal-Aid Project No. BRZ-3394(1) State Project No. 33484.1.1 T.I.P. No. B-4131 In addition to the standard Section 404 Nationwide Permit #23 Conditions, Regional Conditions, State Consistency Conditions, NCDOT's Guidelines for Best Management Practices for Protection of Surface Waters, Construction and Maintenance Activities, and for Bridge Demolition and Removal, and Section 401 Water Quality Certification Conditions, the following special conunitments have been agreed to by NCDOT: NONE Categorical Exclusion June 2006 Green Sheet Sheet 1 of 1 •T ~ Guilford County SR 3394 Bridge No. 11 over Big Alamance Creek Federal-Aid Project No. BRZ-3394(1) State Project No. 33484.1.1 T.I.P. No. B-4131 INTRODUCTION: The replacement of Bridge No. 11 is included in the North Carolina Department of Transportation 2006-2012 Transportation Improvement Program and in the Federal-Aid Bridge Replacement Program. The location is shown in Figure lA. No substantial environmental impacts are anticipated. The project is classified as a Federal "Categorical Exclusion". It should be noted the 2006-2012 Transportation Improvement Program describes TIP B-4131 as "Little Alamance Creek, replace Bridge No. 11." However, a U.S. Geological Survey map names the creek as "Big Alamance Creek"; therefore, this report will refer to the creek as Big Alamance Creek. Information for the project found in the Appendix refers to the creek as "Little Alamance Creek." I. PURPOSE AND NEED STATEMENT Bridge Maintenance Unit records indicate the bridge has a sufficiency rating of 43.2 out of a possible 100 for a new structure. The bridge is considered functionally obsolete and structurally deficient. The replacement of this inadequate structure will result in safer and more efficient traffic operations. II. EXISTING CONDITIONS SR 3394 (Company Mill Road) crosses over Big Alamance Creek in Guilford County approximately 0.54 mile south of its junction with US 421. Development in the surrounding area is primarily residential. The immediate area around the bridge primarily consists of woodlands. A rock dam is situated approximately 150 feet upstream from the bridge to the west. Two power towers are located northeast of the bridge. In the vicinity of the bridge, two residential dwellings and a farm are located on the north approach. Four houses are located on the south approach. SR 3394 is classified as a Rural Minor Collector in the Statewide Functional Classification System. SR 3394 has an existing pavement width of 20 feet with 4-foot grass shoulders in the area of the bridge. The roadway approaches are on a tangent section and. on downgrades toward the bridge. The vertical sag occurs at the bridge, but the bridge is flat. SR 3394 curves to the west approximately 300 feet north of the bridge. 1 The estimated annual daily traffic (ADT) for 200 on SR 3394 at Big Alamance Creek is 2,900 vehicles per day (vpd), and for the design year 2025, the estimated ADT is 5,000 vpd. The volumes include an estimated 1 percent truck-tractor semi-trailer (TTST) and 3 percent dual-tired (DT) vehicles. The posted speed limit is 45 mph in the vicinity of the bridge. The existing two-lane bridge was constructed in 1957 and has a timber deck on I-beams. Bridge No. 11, as shown in Figures 2A and 2B, has an overall length of 97 feet and a clear deck width of 19.2 feet. Bridge No. 11 has abed-to-crown distance of approximately 14 feet. The substructure consists of one concrete abutment, two concrete interior bents, and one rubble masonry abutment. The current posted weight limit is 13 tons for single unit vehicles and 18 tons for truck-tractor semi-trailer vehicles. One crash was reported in the vicinity of the bridge during a recent three year period. An underground telephone line emerges and crosses Big Alamance Creek overhead on the east side of the bridge. Overhead utility lines cross over Bridge No. 11 diagonally from the east side of SR 3394 south of the bridge to the west side of SR 3394 north of the bridge. In addition, and overhead high-voltage transmission line crosses SR 3394 approximately 220 feet north of Bridge No. 11. The City of Greensboro has an 18-inch sanitary sewer line located north of the bridge, and associated manholes are present. No utilities are attached to the bridge. The impact on the utilities is considered high. Nineteen school buses cross daily over the bridge. III. ALTERNATIVES A. Project Description NCDOT proposes to replace Bridge No. 11 with a new bridge approximately 125 feet long. The new bridge will have a clear roadway width of 40 feet. The final length and width of the new bridge will be determined during design; however, Figure 3A shows a proposed bridge typical section. New approaches to the bridge will provide 12-foot travel lanes in each direction with 8- foot shoulders (2-foot paved). The proposed typical sections and design criteria are shown in Figure 3A. Figure 3B is the proposed detour criteria. The posted speed limit is 45 mph and the corresponding design speed is 50 mph. B. Detailed Study Alternatives Two alternatives were evaluated for the replacement of Bridge No. 11 over Big Alamance Creek. See Figures 4 and 5 for depictions of each alternative. 2 .r ~ Alternative 1 replaces Bridge No. 11 at its existing location maintaining traffic with a temporary structure and detour on the east side. This alternative provides a 50 mph horizontal design speed and a 35 mph vertical design speed. Although the grade of the new bridge will be raised about 4 feet, a design exception will be required for the vertical alignment. The estimated cost of the detour is $750,000. Alternative 2 replaces Bridge No. 11 on the east side maintaining traffic on the existing structure as an on-site detour at a cost comparable to Alternative 1. This alternate provides a horizontal and vertical design speed of 50 mph and would raise the grade of the new structure about 12 feet. C. Alternatives Eliminated from Further Study The No-Build or "do-nothing" alternative was also considered but this alternative would eventually necessitate closure of the bridge. The NCDOT Bridge Maintenance Unit indicates that rehabilitation of Bridge No. 11 is not feasible due to its age and deteriorated condition; therefore, this is not a viable alternative. The bridge has been classified as structurally deficient. The site of the rock dam located on the west side of the bridge has been determined eligible for the National Register of Historic Places. It is not feasible to relocate the bridge or to provide a temporary structure for detour on this side without impacting the historic site. This option was not considered as an alternative. The use of an off-site detour of SR 3394 traffic while constructing a new bridge in the existing location was considered. The most direct detour route (see Figure 6A) would utilize SR 3394, SR 3381, SR 3549, and US 421, a distance of about 7.3 miles. In accordance with the NCDOT Guidelines for Evaluation of Off-site Detours for Bridge Replacement Projects (Apri12004), the average delay per motorist using the detour is estimated to range from 5-10 minutes for a construction period of 12 months, which falls under the Evaluation (E) range of the Guidelines. The Evaluation (E) range suggests an on-site detour is justifiable from a traffic operations standpoint but must be weighed with other project factors to determine if it is appropriate. The Division Engineer (October 10, 2002 memorandum) stated an off-site detour was not feasible due to the traffic count on SR 3394 (2900 ADT in 2005), and the location of a residential development just south of Bridge No. 11. The Division Engineer also noted the most logical detour would require traffic to cross 4-lanes of US 421. The EMS Department of Guilford County (phone conversation April 3, 2006) stated that SR 3394 is an important route used by EMS responders to this part of the County. Since there is no available detour route, road closure would require EMS responders to travel US 421 to NC 62, located approximately 3.8 miles south of the US 421/SR 3394 intersection and return to access the area south of Bridge No. 11. This 3 NT would result in considerable delays in EMS response time. The Guilford County TIMS Coordinator stated there are 19 school bus crossings of Bridge No. 11 per day. Road closure would add about 20 minutes to bus routes in the area, but the TIMS Coordinator also stated that the bridge replacement would not present an unworkable problem for the Guilford County Schools Transportation Department. Based on the above factors, road closure was not considered a viable alternative. D. Preferred Alternative Alternative 1, replacing the bridge at its existing location while maintaining traffic with an on- site temporary detour on the east side is the preferred alternative. This alternative has fewer impacts to wetlands and reduces impacts to residential driveways. The new structure will be approximately 125 feet long with a maximum clear roadway width of 40 feet. New approaches to the bridge will provide 12-foot travel lanes with 8-foot shoulders including 2-foot paved shoulders. Approximately 800 feet of new approaches will be required. The design speed of the replacement structure will be 50 mph; however, a design exception for the vertical alignment will be necessary. The design exception for the vertical curve with a design speed of 35 mph is required because maintaining a 50 mph design speed will result in a longer vertical curve and a higher vertical grade. A longer vertical curve and grade change will have a greater impact on adjacent property resulting in higher costs. The estimated cost for Alternative 1 is $2,192,100. The current estimated cost of the project, as shown in the NCDOT 2006-2012 Transportation Improvement Program, is $350,000 for right- of-way and $1,375,000 for construction. After further study, Alternative 2 is not being considered. This alternative would result in more environmental impacts than Alternative 1 and require significant relocation of existing residential driveways. The Division Office concurs with the recommended improvements. 4 ~T j IV. ESTIMATED COST The estimated costs of the alternatives studied, based on 2005 prices, are shown in the following table: Alternate 1 On-site Detour Alternate 2 New Location Structure Removal $ 28,800.00 $ 28,800.00 Structure $ 456,875.00 $ 548,250.00 Roadway Approaches $ 251,175.00 $ 555,325.00 Mobilization and Miscellaneous $ 186,150.00 $ 336,625.00 Engineering and Contingencies $ 177,000.00 $ 231,000.00 Temporary Detour $ 750,000.00 N/A SUBTOTAL $1,850,000.00 $1,700,000.00 Right-of-Way/Const. Ease./Util. $ 342,100.00 $ 360,700.00 TOTAL $2,192,100.00 $2,060,700.00 The above estimates are based on functional design plans; therefore, 45 percent is included for miscellaneous items and contractor mobilization, and 15 percent for engineering and contingencies. V. NATURAL RESOURCES A. Methodology Materials and literature supporting this investigation have been derived from a variety of sources including U.S. Geological Survey (USGS) topographic mapping (Climax, NC 7.5- minute quadrangle [1982]), U.S. Fish and Wildlife Service (USFWS) National Wetlands Inventory (NWI) mapping (Climax, NC 7.5-minute quadrangle [1982]), Natural Resources Conservation Service (MRCS; formerly the Soils Conservation Service) soils mapping (SCS 1977), N.C. Wildlife Resources Commission (NCWRC) proposed Significant Aquatic Endangered Species Habitats (NCWRC 1998), and recent aerial photography (Ko & Associates). Plant community descriptions are based on a classification system utilized by the N.C. Natural Heritage Program (NHP) (Schafale and Weakley 1990). When appropriate, community classifications were modified to better reflect field observations. Vascular plant names follow nomenclature found in Radford et al. (1968) with adjustments for updated nomenclature (Kartesz 1998). Jurisdictional areas were evaluated using the three-parameter approach following U.S. Army Corps of Engineers (USAGE) delineation guidelines (DOA 1987). Subsequent mapping of jurisdictional boundaries was accomplished utilizing Trimble XRS GPS technology. Jurisdictional areas were characterized according to a classification scheme established by 5 i ~' Cowardin et al. (1979) and/or the N.C. Division of Environmental Management (DEM) Field Guide to North Carolina Wetlands (1996). Aquatic and terrestrial wildlife habitat requirements and distributions were determined by supportive literature (Martof et al. 1980, Potter et al. 1980, Webster et al. 1985, Menhinick 1991, Palmer and Braswell 1995, and Rohde et al. 1994). Water quality information for area streams and tributaries was derived from available sources (DWQ 2002, DWQ 2004b). Quantitative sampling was not undertaken to support existing data. The most current USFWS listing of federally protected species with ranges extending into Guilford County (USFWS 2003) is considered in this report. In addition, NHP records documenting the presence of federally or state listed species were consulted on April 17, 2004, prior to field investigations. Furthermore, Significant Aquatic Endangered Species Habitats proposed by the NCWRC (1998) were consulted to determine the presence of Proposed Critical Habitats for aquatic species. The project area (Figure 7) was visually surveyed on foot for significant features. The project study area is approximately 300 feet in width (centered on the existing roadway) and approximately 1,900 feet in length, encompassing approximately 12.9 acres. Potential impacts of construction will be limited to cut-fill boundaries for each alternative. Special concerns evaluated in the field include 1) potential protected species habitat and 2) wetlands and water quality protection of Big Alamance Creek. B. Physiography and Soils The project study area is located within the Southern Outer Piedmont ecoregion of the Piedmont physiographic province of North Carolina. This ecoregion is characterized by irregular plains with low hills (ecoregion map). The project area is located within a moderately sloping floodplain valley. Elevations within the project study area range from a high of approximately 710 feet National Geodetic Vertical Datum (NGVD), in the southwestern corner of the project area, to a low of approximately 637 feet NGVD within the channel of Big Alamance Creek (Climax, NC 7.5-minute quadrangle [1982]). Land uses within and adjacent to the project area consist of residential lots, woodlands, roadside shoulders, and a pond. Based on soil mapping for Guilford County (SCS 1977), the project study area is underlain by three soil series including Chewacla sandy loam (Fluvaquentic Dystrochrepts), Enon fine sandy loam (Ultic Hapludalfs), and Wilkes fine sandy loam (Typic Hapludalfs). Within the project study area, Chewacla sandy loam occurs adjacent to the stream, while Enon fine sandy loam and Wilkes fine sandy loam are found on slopes. None of the above soil series are considered hydric by the NRCS (1996); however, depressions within the Chewacla series may contain inclusions of Wehadkee silt loam (Typic Fluvaquents), a hydric soil. 6 ~' The Chewacla series, with 0 to 2 percent slopes, consists of somewhat poorly drained, moderately permeable, nearly level soils found on floodplains. Depth to bedrock is greater than 60.0 inches and the seasonal high water table occurs at a depth of 0.5 to 1.5 feet. This soil is subject to frequent flooding. Based on NRCS mapping (SCS 1977), within the project study area, the Chewacla series occupies the floodplain adjacent to Big Alamance Creek and encompasses approximately 1.6 acres of the project study area. The Enon series, with 2 to 6 percent slopes, is a well drained, slowly permeable soil found on interstream divides and long, narrow side slopes. Depth to bedrock in the Enon soil is greater than 60.0 inches and the seasonal high water table occurs at a depth of 1 to 2 feet. Based on NRCS mapping (SCS 1977), the Enon series (2 to 6 percent slopes) occupies approximately 0.5 acre of the southwestern quadrant within the project study area. The Enon series, with 6 to 10 percent slopes, is a well drained, slowly permeable soil found on long, narrow side slopes on uplands. Depth to bedrock in the Enon soil is greater than 60.0 inches and the seasonal high water table occurs at a depth of 1 to 2 feet. Based on NRCS mapping (SCS 1977), the Enon series (6 to 10 percent slopes) occupies portions of the northwestern and northeastern quadrants, encompassing approximately 1.6 acres of the project study area. The Enon series, with 10 to 15 percent slopes, is a well drained, slowly penmeable soil found on long, narrow side slopes on uplands. Depth to bedrock in the Enon soil is greater than 60.0 inches and the seasonal high water table occurs at a depth of 1 to 2 feet. Based on NRCS mapping (SCS 1977), the Enon series (10 to 15 percent slopes) occupies portions of all four quadrants, encompassing approximately 6.5 acres of the project study area. The Wilkes series, with 15 to 45 percent slopes, is a well drained, moderately permeable soil typically found on side slopes adjacent to drainageways. Depth to bedrock is 40 to 80 inches and the seasonal high water table is at a depth greater than 6 feet. Based on NRCS mapping (SCS 1977), the Wilkes series occupies portions of the southwestern and southeastern quadrants, encompassing approximately 7 acres of the project study area. C. Water Resources 1. Waters Impacted The project study area is located within sub-basin 03-06-03 of the Cape Fear River Basin (DWQ 2000). This area is part of USGS Hydrologic Unit 03030002 (DWQ 2000) of the South Atlantic/Gulf Region. The structure targeted for replacement spans Big Alamance Creek and the 7 adjacent floodplain. The portion of Big Alamance Creek traversing the project study area has been assigned Stream Index Number 16-19-(1) by the N.C. Division of Water Quality (DWQ) (2004a). 2. Water Resources Characteristics The project study area contains three streams: Big Alamance Creek and two unnamed tributaries (UT1 and UT2) to Big Alamance Creek (Figure 7). Big Alamance Creek generally flows eastward through the center of the project study area. The first of the unnamed tributaries (UT1) is located in the southeastern quadrant formed by the intersection of Company Mill Road and Big Alamance Creek. UT1 flows from south to north reaching a confluence with Big Alamance Creek approximately 85 feet east of the existing bridge. The second unnamed tributary (UT2) is located in the northeastern quadrant formed by the intersection of Company Mill Road and Big Alamance Creek. UT2 flows from northwest to southeast before discharging into a forested wetland 120 feet northeast of the existing bridge. UT1 and UT2 have not been assigned a Stream Index Number by the DWQ. Unless otherwise noted, unnamed tributaries typically assume the same Best Usage Classification as their receiving waters. Big Alamance Creek flows from west to east, bisecting the project study area. Adam from a former mill occurs on Big Alamance Creek at the western edge of project study area. The dam impounds the reach of Big Alamance Creek immediately upstream of the project study area, creating a 2.6-acre pond. The pond discharges over the top of the dam into a 120-foot wide, 60 foot-long pool before defining to a more typical stream channel upon approaching the bridge. Big Alamance Creek is 30 feet wide upstream of the bridge and widens to 42 feet on the downstream side. Throughout the project study area, Big Alamance Creek has approximately 4- foot banks and a sand and gravel substrate. During field investigations, the water level appeared low and with a depth to 2 feet. Flow was moderate to slow and water clarity was moderate. No persistent emergent aquatic vegetation was observed within the stream, although, a filamentous alga was observed in the shallows. Opportunities for habitat within Big Alamance Creek include overhanging trees, undercut banks, fallen logs, and leaf packs. UT1 is afirst-order, intermittent stream with a sand substrate. UT1 originates from an 18-inch pipe underlying a driveway located 50 feet south of the existing bridge. This tributary likely formed as the result of the installation of the pipe, which concentrates runoff from areas upslope of the driveway. UTl flows northward for approximately 85 feet before discharging into Big Alamance Creek. The bed of UT1 is eroding downward to the elevation of the Big Alamance Creek. Consequently, the bank height ranges from 4 feet at the Big Alamance Creek confluence to 2 feet at the pipe where UT1 originates. During the field investigation, no flow was observed in UT1, but standing water was present. In the past, the UTl possibly only served as storm water conveyance; however, over time the stream bed may have eroded down to the water elevation of 8 Big Alamance Creek. This likely explains the presence of standing water in UT1. No persistent emergent aquatic vegetation was observed within the stream. Due to bed erosion, opportunities for habitat within UT1 are limited for much of the reach. UT2 is 2-foot wide, first-order, intermittent stream with 1-foot banks and sand and gravel substrate. UT2 originates on the southern side of a driveway located 150 feet north of the existing bridge. Flow from a seep wetland on the north side of the driveway (Figure 7, Wetland 2) is collected and passed under the driveway through an 18-inch pipe. UT2 conveys outflow from the pipe southward for 85 feet, eventually discharging into a forested wetland within the floodplain of Big Alamance Creek. During field investigations, the water level was low with little flow. Water clarity was good. No persistent emergent aquatic vegetation was observed within the stream. Opportunities for habitat within UT2 are limited to leaf packs and vegetation along the stream banks. A 0.35-acre portion of an approximate 0.88-acre pond (Figure 7, Pond 1) is located in the southeast quadrant of the project study area. The pond occurs in an upland area approximately 660 feet south of the existing bridge. Outflow from the Pond 1 exits through a pipe in the northeast of the pond, which is outside of the project study area. Pond 1 is not connected to any water bodies within the project study area. The DWQ has assembled a list of impaired waterbodies according to the Clean Water Act Section 303(d) and 40 CFR 130.7, hereafter referred to as the N.C. 2002 Section 303(d) list. The list is a comprehensive public accounting of all impaired waterbodies. An impaired waterbody is one that does not meet water quality standards including designated uses, numeric and narrative criteria, and anti-degradation requirements defined in 40 CFR 131. The standards violation may be due to an individual pollutant, multiple pollutants, pollution, or an unknown cause of impairment. The impairment could be from point sources, nonpoint sources, and/or atmospheric deposition. Some sources of impairment exist across state lines. North Carolina's methodology is strongly based on the aquatic life use support guidelines available in the Section 305(b) guidelines (EPA-841-B-97-002A and -002B). Those streams attaining only Partially Supporting (PS) or Not Supporting (NS) status are listed on the N.C. 2002 Section 303(d) list. Streams are further categorized into one of six parts within the N.C. 2002 Section 303(d) list, according to source of impairment and degree of rehabilitation required for the stream to adequately support aquatic life. Within Parts 1, 4, 5, and 6 of the list, North Carolina has developed a priority ranking scheme (low, medium, high) that reflects the relative value and benefits those waterbodies provide to the State. Big Alamance Creek is not listed on any section of the N.C. 2002 Section 303(d) list (DWQ 2002). Classifications are assigned to waters of the State of North Carolina based on the existing or contemplated best usage of various streams or segments of streams in the basin. A Best Usage 9 c "t Classification of WS-IV NSW has been assigned to this reach of Big Alamance Creek and its unnamed tributaries. Class WS-IV waters are used as sources of potable water. In general, WS- IV waters are in moderately to highly developed watersheds. There are no categorical restrictions on discharges in WS-IV waters. Additionally, WS-IV waters are suitable for all Class C uses, such as aquatic life propagation and protection, agriculture, and secondary recreation. Secondary recreation includes wading, boating, and other uses not involving human body contact with waters on an organized or frequent basis. Nutrient Sensitive Waters (NSW) are areas with water quality problems associated with excessive plant growth resulting from nutrient enrichment. No designated High Quality Waters (HQW), Outstanding Resource Waters (ORW), Water Supply I (WS-I), Water Supply II (WS-II) waters, or watershed Critical Areas (CA) occur within 1.0 mile of the project area (DWQ 2000). The DWQ has initiated awhole-basin approach to water quality management for the 17 river basins within the state. Water quality for the proposed project area is summarized in the Cape Fear River Basinwide Water Quality Plan (DWQ 2000). Big Alamance Creek is currently listed by DWQ as Supporting its designated uses. No benthic macroinvertebrate monitoring stations occur within 1.0 mile of the project study area (DWQ 2000). Sub-basin 03-06-03 of the Cape Fear River Basin supports six permitted, point source discharges with a total discharge of 12.1 million gallons-per-day; however, no permitted dischargers are located on or upstream of Big Alamance Creek at Bridge No. 11, or within the project study area. One of the permitted discharges is classified as a major discharger, discharging 12 million gallons-per-day. The five remaining permitted dischargers are minor (DWQ 2004b). Major non-point sources of pollution within the Cape Fear River Basin include runoff from construction activities, agriculture, timber harvesting, mining, hydrologic modification, failing septic systems, roads, parking lots, and roof tops. Sedimentation and nutrient inputs are major problems associated with non-point source discharges (DWQ 2000). 3. Anticipated Impacts to Water Resources Impacts to water resources in the project area may result from activities associated with project construction. Activities that would result in impacts are clearing and grubbing on streambanks, riparian canopy removal, in-stream construction, fertilizers and pesticides used in revegetation, and pavement/culvert installation. The following impacts to surface water resources could result from the construction activities mentioned above. • Increased sedimentation and siltation downstream of the crossing and increased erosion in the project area. 10 ., • Alteration of stream discharge due to silt loading and changes in surface and groundwater drainage patterns. • Changes in light incidence and water clarity due to increased sedimentation and vegetation removal. • Changes in and destabilization of water temperature due to vegetation removal. • Alteration of water levels and flows due to interruptions and/or additions to surface and ground water flow from construction. • Increased nutrient loading during construction via runoff from exposed areas. • Increased concentrations of toxic compounds in roadway runoff. • Increased potential for release of toxic compounds such as fuel and oil from construction equipment and other vehicles. The proposed bridge replacement will allow for continuation of pre-project stream flows in Big Alamance Creek, thereby protecting the integrity of this waterway. Long-term impacts resulting from construction are expected to be negligible. In order to minimize impacts to water resources, NCDOT Best Management Practices for the Protection of Surface Waters will be strictly enforced during the life of the project. Temporary construction impacts due to erosion and sedimentation will be minimized through implementation of a stringent erosion-control schedule and the use of Best Management Practices (BMPs). The contractor will follow contract specifications pertaining to erosion control measures as outlined in 23 CFR 650 Subpart B and Article 107-13 entitled Control of Erosion, Siltation, and Pollution (NCDOT, Specifications for Roads and Structures). These measures include the use of dikes, berms, silt basins, and other containment measures to control runoff; elimination of construction staging areas in floodplains and adjacent to waterways; re- seeding of herbaceous cover on disturbed sites; management of chemicals (herbicides, pesticides, de-icing compounds) with potential negative impacts on water quality; and avoidance of direct discharges into steams by catch basins and roadside vegetation. 4. Impacts Related to Bridge Demolition and Removal The existing two-lane bridge has a timber deck on I-beams supported by mass concrete and rubble masonry. The structure is expected to be removed without dropping components into Big Alamance Creek. 11 ~ ~t D. BIOTIC RESOURCES 1. Plant Communities Two distinct plant communities were identified within the project study area: disturbed/maintained land and Piedmont/Mountain Bottomland Forest. Plant communities were delineated to determine the approximate area and location of each (Figure 7). These communities are described below in order of their dominance within the project study area. Approximately 0.6 acre (4 percent) of the project study area is encompassed by open water systems and impervious surfaces. a). Disturbed/Maintained Land Approximately 10 acres (78 percent) of the project study area is encompassed by disturbed/maintained land, which occurs in all four quadrants. This community includes residential lots, roadside shoulders, and a power line corridor, all of which are maintained by mowing. Two wetland areas were found in this community. Grasses and herbs dominate the vegetation in this community. Representative species include fescue (Festuca sp.), English plantain (Plantago lanceolata), false strawberry (Duchesnea indica), violet (Viola sp.), buttercup (Ranunculus sp.), white clover (Ti~ifolium repens), red clover (Trifolium pratense), and blackberry (Rubus sp.). Trees and shrubs are present to a lesser extent in the residential lots and powerline corridor. In general, the observed trees and shrubs have a scattered distribution, occurring in small groups or as individuals. There are, however, two strips of mixed forest on either side of Company Mill Road, approximately 250 feet south of the existing bridge. Observed tree species include Virginia pine (Pinus virginiana), northern red oak (Quercus rubra), sycamore (Platanus occidentalis), tulip poplar (Liriodendron tulipifera), loblolly pine (Pinus taeda), shortleaf pine (Pinus echinata), eastern red cedar (Juniperus virginiana), and eastern hemlock (Tsuga canadensis). Observed shrub species include Virginia pine, crape myrtle (Lagerstroemia indica), Leyland cypress (Cupressocyparis leylandii), azalea (Rhododendron sp.), eastern red cedar, flowering dogwood (Corpus Florida), smooth sumac (Rhus glabra), lespedeza (Lespedeza virginica), and multiflora rose (Rosa multiflora). Two wet areas, one 400 feet and the other 500 feet north of the existing bridge, support hydrophytic vegetation atypical to the rest of this community (Figure 7). Both areas are dominated by grasses and herbs such as soft rush (Juncus effusus), a sedge (Carex sp.), bushy seedbox (Ludwigia alte~°nifolia), and dichanthelium (Dichanthelium scoparium). Shrubs observed in the wet areas include black willow (Salix nigra) and marsh elderberry (Sambucus canadensis). 12 .~ , b). Piedmont/Mountain Bottomland Forest Piedmont/Mountain Bottomland Forest encompasses approximately 2.3 acres (18 percent) of the floodplain adjacent to Big Alamance Creek in all four quadrants of the project study area. This community occurs in the floodplain and floodplain slopes of Big Alamance Creek. It consists of a mature, secondary growth forest with well developed forest strata. A sewer corridor runs parallel to the north bank of Big Alamance Creek. Vegetation within the sewer corridor is maintained at a relatively lower height than the rest of the community. Three wetland areas were found within this community. Canopy species observed in this community include red maple (Ater rubrum), sweetgum (Liquidambar styraciflua), sycamore, American elm (Ulmus americana), and river birch (Betula nigra). Sapling and shrub layers include canopy species as well as multiflora rose, ironwood (Carpinus caroliniana), flowering dogwood, and eastern redbud (Cercis canadensis). The limited number of observed tree and shrub species reflects a community with little diversity. The herbaceous layer is densest in the maintained sewer corridor, but does extend, albeit more sparsely, throughout rest of the community. The herbaceous layer consists of Japanese honeysuckle (Lonicera japonica), blackberry, goldenrod (Solidago sp.), jewelweed (Impatiens capensis), spring beauty (Claytonia virginica), violets (Viola spp.), poison ivy (Toxicodendron radicans), stellaria (Stellaria sp. ), muscadine grape (Vitis rotundifolia), bidens (Bidens sp.), and woodland oats (Chasmanthium sp.) The three wetlands in the Piedmont/Mountain Bottomland Forest are located approximately 120 feet northeast, 100 feet northwest, and 130 northwest of the existing bridge. Vegetation in the wetlands consists of unique species as well as species found throughout the rest. of the community. Trees, shrubs, and herbs occur in the three wetlands. Red maple is the single tree species present. The shrub layer contains green ash (Fraxinus pennsylvanica), silky dogwood (Cornus amomum), marsh elderberry, and black willow. The herbaceous layer consists of jewelweed, soft rush, blackberry, and Japanese honey suckle. 2. Wildlife a). Disturbed/Maintained Land Avian diversity is expected to be moderate in disturbed/maintained areas, as shrubbery and canopy tree patches in residential areas afford roosting, nesting, and feeding habitat, as well as shelter from predators. In addition, most of these species are tolerant of habitat fragmentation and regular disturbance. Birds observed within disturbed/maintained land include turkey vulture (Cathartes aura), northern cardinal (Cardinalis cardinalis), common grackle (Quiscalus 13 ~ '7 quiscula), Carolina wren (Thryothorus ludovicianus), prairie warbler (Dendroica discolor), chimney swift (Chaetura pelagica), common yellowthroat (Geothlypis trichas), northern mockingbird (Mimus polyglottos), and eastern kingbird (Tyrannus tyrannus). Other bird species expected to be found within the disturbed/maintained portion of the project study area include American crow (Corvus brachyrhynchos), red-tailed hawk (Buteo jamaicensis), and American goldfinch (Carduelis tristis). The diversity of faunal species utilizing this plant community is low, as little foraging, nesting, or breeding habitat is present. Mammalian species are expected to be especially scarce, but may include such adaptable species as least shrew (Cryptotis parva), eastern mole (Scalopus aquaticus), meadow vole (Microtus pennsylvanicus), hispid cotton rat (Sigmodon llispidus), eastern cottontail (Sylvilagus floridanus), and whitetail deer (Odocoileus virginianus). No terrestrial mammals were observed during the site visit, although, a beaver (Castor canadensis) lodge was seen in the impounded area of Big Alamance Creek upstream of the existing bridge. An American toad (Bufo americana) was observed during the site visit. Other terrestrial reptiles and amphibians which may occur within maintained/disturbed land include eastern box turtle (Terrapene Carolina), six-lined racerunner (Cnemidomorphorus sexlineatus), eastern garter snake (Thamnophis sirtalis), black racer (Coluber constrictor), southeastern five-lined skink (Eumeces inexpectatus), and northern cricket frog (Acris c~°epitans). b). Piedmont/Mountain Bottomland Forest Avian diversity is expected to be high as a result of high foliage height diversity and the availability of diverse foraging and nesting resources. Birds observed within the Piedmont/Mountain Bottomland Forest include Carolina wren, eastern phoebe (Sayornis phoebe), blue-gray gnatcatcher (Polioptila caerulea), and Carolina chickadee (Poecile carolinensis), downy woodpecker (Picoides pubescens), red-eyed vireo (Vireo olivaceus), northern cardinal, common yellowthroat, red-bellied woodpecker (Melanerpes carolinus), and red-shouldered hawk (Buteo lineatus). The diversity of faunal species utilizing this plant community is expected to be high, as abundant foraging, nesting, or breeding habitat is present. In addition, semi-aquatic, as well as terrestrial mammals will utilize Piedmont/Mountain Bottomland Forest. A opossum (Didelphis virginiana) was observed during the site visit. Additional evidence of mammal activity includes raccoon (PT~ocyon lotor), whitetail deer, and muskrat (Ondatra zibethicus) tracks. Mammal species expected to occur within the forested portion of the project study area are gray squirrel (Sciurus carolinensis), white-footed mouse (Peromyscus leucopus), and red bat (Lasiurus borealis). 14 Diverse water sources provide habitat for multiple species of amphibians, which provide prey for aquatic and terrestrial reptiles. Two species of amphibian, southern cricket frog (Acris gryllus) and bullfrog (Rana catesbeiana) were observed during the site visit. Some terrestrial reptiles and amphibians which may occur within the forest include eastern box turtle, eastern fence lizard (Sceloporus undulatus), five-lined skink (Eumeces fasciatus), southern ringneck snake (Diadophis punctatus), copperhead (Agkistrodon conto~°tT°ix), gray treefrog (Hyla versicolor), spring peeper (Pseudacris crucifer°), American toad, and slimy salamander (Plethodon glutinosus). 3. Aquatic Communities Aquatic-oriented wildlife observed within the project study area include great blue heron (Ardea herodias), green heron (Butorides virescens), and unidentified tadpoles. All were observed in the Piedmont/Mountain Bottomland Forest: the herons on the impoundment of Big Alamance Creek and the tadpoles in pools of still water. Limited investigations resulted in no observations of aquatic reptiles. Aquatic or semi-aquatic reptiles and amphibians expected to occur within the project area vicinity include green frog (Rana clamitans), eastern musk turtle (Sternotherus odoratus), and two-lined salamander (Eurycea bislineata). No sampling was undertaken in Big Alamance Creek to determine fishery potential and no fish species were observed during the field survey. Fish species that may be present in this reach of Big Alamance Creek include smaller fish species such as margined madtom (Noturus insignis), rosysided dace (Clinostomus funduloides), and spottail shiner (Notropis hudsonius). Shells of two species of bivalve were observed in shallows of Big Alamance Creek: Asian clam (Corbicula fluminea) and an unidentified mussel. The North Carolina Wildlife Resources Commission (NCWRC) has developed a Significant Aquatic Endangered Species Habitat database to enhance planning and impact analysis in areas proposed by NCWRC as being critical due to the presence of Endangered or Threatened aquatic species. No Significant Aquatic Endangered Species Habitat occurs within the project area. The nearest Significant Aquatic Endangered Species Habitat within the Cape Fear River Basin occurs approximately 10 miles to the southeast (NCWRC 1998) on the North Prong Rocky River. 5. Anticipated Impacts to Biotic Communities Project alternatives include both permanent and temporary impacts. Permanent impacts are considered to be those impacts that occur within proposed cut-fill limits. Temporary impacts are considered to be those impacts occurring within the cut-fill footprint associated with the temporary detour of Alternate 1. Plant communities within the project study area were delineated to determine the approximate area and location of each (Figure 7). A summary of plant community areas and the potential impacts to each is presented in Table 1. 15 1 •f Table 1. Plant Communities Within Cut/Fill Areas of Respective Alternatives) Alternate 1 Alternate 2 Plant Communi Permanent Tem ora Total Permanent Disturbed/Maintained Land 1.02 0.36 1.38 2.78 Piedmont/Mountain Bottomland Forest 0.24 0.09 0.33 0.19 Total 1.26 0.45 1.71 2.97 ' Areas expressed in acres. Of the two alternatives, Alternate 1 has the least amount of expected impacts to plant communities within the project study area. Projected permanent impacts to natural plant communities resulting from bridge replacements are generally restricted to narrow strips adjacent to the existing bridge and roadway approach segments. In terms of area, little of the natural plant community is expected to be permanently impacted by the proposed project. Temporary impacts result in additional impact to natural communities, and although these impacts are considered to be short-term, re-growth of this community to pre-project stand age and ecological function will require several decades. No significant habitat fragmentation is expected as a result of project activities since potential improvements will be restricted to adjoining roadside margins. Construction noise and associated disturbances are anticipated to have short-term impacts on avifauna and migratory wildlife movement patterns. No Significant Aquatic Endangered Species Habitat exists within or near the project area. Impacts associated with turbidity and suspended sediments resulting from bridge replacement will be minimized through stringent erosion control measures. Potential downstream impacts to aquatic habitat are anticipated to be avoided by bridging the stream system to maintain regular flow and stream integrity. Short-term impacts associated with turbidity and suspended sediments may affect benthic populations. Temporary impacts to downstream habitat from increased sediment during construction will be minimized by the implementation of stringent erosion control measures. E. SPECIAL TOPICS 1. "Waters of the United States": Jurisdictional Issues Surface waters within the project study area are subject to jurisdictional consideration under Section 404 of the Clean Water Act as waters of the United States (33 CFR Section 328.3). The National Wetlands Inventory (NWI) system for classification of wetlands and deepwater habitats was used to determine the type of each wetland present (Cowardin et al. 1979). Section 404 jurisdictional areas are depicted by Figure 7. 16 Through the majority of the project study area, Big Alamance Creek exhibits characteristics of a. well-defined, third-order, perennial stream with moderate flow over a sand and gravel substrate; the exception being the upstream-most portion of Big Alamance Creek which is impounded by a former mill dam. Big Alamance Creek can be classified as riverine, lower perennial with an unconsolidated bottom composed primarily of sand and gravel (R2UB2); and flows east through the project study area for approximately 300 feet. UT1 can be classified as awell-defined, first- order, lower perennial stream with low flow over an unconsolidated bottom of sand (R2UB2); and flows southeast for approximately 90 feet to its terminus at Wetland 3 (Figure 7). UT2 can be classified as awell-defined, first-order, lower perennial stream with low flow over. an unconsolidated bottom composed of sand and gravel (R2UB2); and flows north for approximately 90 feet to its confluence with Big Alamance Creek. Pond 1 is an approximate 0.88-acre upland pond. The pond is not hydrologically connected to any other water bodies in the project study area. Pond 1 can be classified as a palustrine system with an unconsolidated bottom of mud, that is permanently flooded (PUB3H). Vegetated wetlands are defined by the presence of three primary criteria: hydric soils, hydrophytic vegetation, and evidence of hydrology at or near the surface for a portion (12.5 percent) of the growing season (DOA 1987). The project area contains five vegetated wetland areas (Figure 7). A grass and herb dominated, 0.23-acre wet depression occurs in the northeast quadrant of the project study area, approximately 500 feet from the existing bridge (Figure 7, Wetland 1). The depression appears to accumulate groundwater seepage from an adjacent hill. The wetland can be classified as a palustrine, seasonally flooded wetland supporting scrub-shrub vegetation (PSS1C). Soils exhibit hydric chromas, though layering and mottling are absent due to disturbances associated with power and sewer line installation. Hydrology indicators include saturation to surface and oxidized rhizospheres. In terms of mitigation for impacts, this system would be considered "non-riverine" by DWQ. A second grass and herb dominated wet depression occurs in the northeast quadrant of the project study area (Figure 7, Wetland 2). This depression is 0.19 acre in size and is located approximately 400 feet from the existing bridge. It appears to drain the adjacent field as well as accumulate groundwater seepage from an adjacent hill. From north to south, the wetland narrows from a broad depression to a 3-foot wide ditch paralleling Company Mill Road. At its southernmost point, the ditched portion of the wetland enters an 18-inch pipe underlying a driveway. The pipe connects this wetland to stream UT2. The wetland can be classified as a palustrine, seasonally flooded wetland supporting scrub-shrub vegetation (PSS 1 C). Soils exhibit hydric chromas, though layering and mottling are absent due to disturbances associated with 17 •~ power and sewer line installation. Hydrology indicators include saturation to surface and oxidized rhizospheres. In terms of mitigation for impacts, this system would be considered "non-riverine" by DWQ. A 0.03-acre, forested wetland occurs within a low portion of the Big Alamance Creek floodplain in the northeast quadrant of the project study area, approximately 120 feet northeast of the existing bridge. (Figure 7, Wetland 3). The wetland originates at the terminus of UT2. The wetland can be classified as a palustrine, seasonally flooded, forested wetland supporting broad- leaved deciduous vegetation (PFO1C). Soils exhibit hydric chromas and mottles. Hydrology indicators include inundation, flow lines, water-stained leaves, and oxidized rhizospheres. In terms of mitigation for impacts, this system would be considered "riverine" by DWQ. Two small, less than 0.01-acre, low, wet areas occur in the spillway of the former mill dam in the northwest quadrant of the project study area (Figure 7, Wetland 4 and Wetland 5). These wetlands can be classified as palustrine, seasonally flooded, forested wetlands supporting broad- leaved deciduous vegetation (PFO1C). Soils exhibit hydric chromas. Hydrology indicators are inundation and flow lines. In terms of mitigation for impacts, these systems would be considered "riverine" by DWQ. Alternate 1 calls for the replacement of Bridge No. 11 at its current location while maintaining traffic with a temporary structure on the east side the bridge. In contrast, Alternate 2 calls for the replacement of Bridge No. 11 at a location approximately 50 feet east of the existing bridge. Permanent impacts associated with Alternate 1 will occur to the disturbed/maintained wetland in the northeast quadrant (Figure 7, Wetland 2). The Alternate 1 temporary detour will result in additional, temporary impacts to the Wetland 2 (Figure 7). Permanent impacts associated with Alternate 2 will occur to the unnamed tributary in the southeast quadrant (Figure 7, UT1) and to the two disturbed/maintained wetlands in the northeast quadrant (Figure 7, Wetland 1 and Wetland 2). Information pertaining to jurisdictional area impacts within the project area is summarized in Table 2. 18 .~ Table 2. Projected Impacts to Jurisdictional Areasl (Areas are depicted in Figure 7) Jurisdictional DEM Wetland Alternate 1 Alternate 2 Area Ratin Permanent Tem ora Total Permanent Big Alamance - - - - - Creek UT1 - - - - 8 UT2 - - - - - Pond 1 - - - - - Total - - - 8 Wetland 1 20 - - - 0.02 Wetland 2 20 0.03 <0.01 0.04 0.10 Wetland 3 42 - - - - Wetland 4 42 - - - - Wetland 5 42 - - - - Total 0.03 <0.01 0.04 0.12 Stream impacts are expressed in linear feet. Wetland impacts are expressed in acres. The existing bridge is expected to be removed without dropping components into Big Alamance Creek. 2. Permits Impacts to jurisdictional areas are anticipated from the proposed project. As a result, construction activities will require permits and certifications from various regulatory agencies in charge of protecting the water quality of public water resources. This project may be processed as a Categorical Exclusion (CE) under Federal Highway Administration (FHWA) guidelines. The USACE has made available Nationwide Permit (NWP) 23 (67 FR 2020, 2082; January 15, 2002) for CEs due to minimal impacts to waters of the U.S. expected with bridge construction. DWQ has made available a General 401 Water Quality Certification for NWP 23 (GC 3403). If temporary structures are necessary for construction activities, access fills, or dewatering of the site, then a NWP 33 (67 FR 2020, 2087; January 15, 2002) permit and the associated General 401 Water Quality Certification (GC 3366) will be required. Impacts to vegetated wetlands may be authorized under NWP 3 (67 FR 2020, 2078) and the associated General 401 Water Quality Certification (GC 3376). In the event that NWPs 23, 33, and 3 will not suffice, impacts attributed to bridge replacement and associated approach improvements may qualify under General Bridge Permit (GP) 031 issued by the Wilmington USACE District. DWQ has made available a General 401 Water Quality Certification for GP 031 (GC 3404). Notification to the Wilmington USACE District office is required if this general permit is utilized. 19 ~ +~ 3. Mitigation The USACE has adopted through the Council on Environmental Quality (CEQ) a wetland mitigation policy which embraces the concept of "no net loss of wetlands'' and sequencing. The purpose of this policy is to restore and maintain the chemical, biological, and physical integrity of waters of the United States, and specifically wetlands. Mitigation of wetland impacts has been defined by the CEQ to include: avoiding impacts (to wetlands), minimizing impacts, rectifying impacts, reducing impacts over time and compensating for impacts (40 CFR 1508.20). Each of these three aspects (avoidance, minimization, and compensatory mitigation) must be considered sequentially. Avoidance mitigation examines all appropriate and practicable possibilities of averting impacts to waters of the United States. According to a 1990 Memorandum of Agreement (MOA) between the Environmental Protection Agency (EPA) and the USACE, in determining "appropriate and practicable" measures to offset unavoidable impacts, such measures should be appropriate to the scope and degree of those impacts and practicable in terms of cost, existing technology and logistics in light of overall project purposes. Minimization includes the examination of appropriate and practicable steps to reduce the adverse impacts to waters of the United States. Implementation of these steps will be required through project modifications and permit conditions. Minimization typically focuses on decreasing the footprint of the proposed project through the reduction to median widths, right-of--way widths, fill slopes, and/or road shoulder widths. All efforts will be made to decrease impacts to surface waters. Compensatory mitigation is not normally considered until anticipated impacts to waters of the United States have been avoided and minimized to the maximum extent possible. It is recognized that "no net loss of wetlands" functions and values may not be achieved in each and every permit action. In accordance with 15A NCAC 2H .0506(h), DWQ may require compensatory mitigation for projects with greater than or equal to 1.0 acre of impacts to jurisdictional wetlands or greater than or equal to 150 linear feet of total perennial stream impacts. Furthermore, in accordance with 67 FR 2020, 2092 (January 15, 2002); the USACE requires compensatory mitigation when necessary to ensure that adverse effects to the aquatic environment are minimal. The size and type of the proposed project impact and the function and value of the impacted aquatic resource are factors considered in determining acceptability of appropriate and practicable compensatory mitigation. Appropriate and practicable compensatory mitigation is required for unavoidable adverse impacts which remain after all appropriate and practicable minimization has been required. Compensatory actions often include restoration, 20 ., preservation and enhancement, and creation of waters of the United States. Such actions should be undertaken first in areas adjacent to or contiguous to the discharge site. Mitigation for Section 404 jurisdictional areas may not need to be proposed for this project due to the potentially limited nature of the project impacts. However, utilization of BMPs is recommended in an effort to minimize impacts. Temporary impacts to floodplains associated with construction activities could be mitigated by replanting disturbed areas with native riparian species and removal of temporary fill material upon project completion. A final determination regarding mitigation rests with the USACE and DWQ. F. Protected Species 1. Federally Protected Species Species with the federal classification of Endangered, Threatened, or officially Proposed for such listing are protected under the Endangered Species Act (ESA) of 1973, as amended (16 U.S.C. 1531 et seq.). The term "Endangered Species" is defined as "any species which is in danger of extinction throughout all or a significant portion of its range," and the term "Threatened Species" is defined as "any species which is likely to become an Endangered species within the foreseeable future throughout all or a significant portion of its range" (16 U.S.C. 1532). The bald eagle (Haliaeetus leucocephalus) is the single federally protected species listed for Guilford County (USFWS 2003). The bald eagle is listed as Threatened. Haliaeetus leucocephalus (Bald eagle) Threatened Family: Accipitridae Date Listed: March 11, 1967 The bald eagle is a large raptor with a wingspan greater than 6 feet. Adult bald eagles are dark brown with a white head and tail. Inunature eagles are brown with whitish mottling on the tail, belly, and wing linings. Bald eagles typically feed on fish but may also take birds and small mammals. In the Carolinas, nesting season extends from December through May (Potter et al. 1980). Bald eagles typically nest in tall, living trees in a conspicuous location near open water. Eagles forage over large bodies of water and utilize adjacent trees for perching (Hamel 1992). Disturbance activities within a primary zone extending 750 to 1500 feet from a nest tree are considered to result in unacceptable conditions for eagles (USFWS 1987). The USFWS recommends avoiding disturbance activities, including construction and tree-cutting within this primary zone. Within a secondary zone, extending from the primary zone boundary out to a 21 l •~ distance of 1.0 mile from a nest tree, construction and land-clearing activities should be restricted to the non-nesting period. The USFWS also recommends avoiding alteration of natural shorelines where bald eagles forage, and avoiding significant land-clearing activities within 1500 feet of known roosting sites. BIOLOGICAL CONCLUSION: NO EFFECT As of April 17, 2004, NHP had no documentation for bald eagle within 2.0 miles of the project study area, and no bald eagles were observed during the field visit. The impoundment of Big Alamance Creek located just upstream of the project study area, as well as the pond located in the southeast quadrant of the project study area provide the open water communities that bald eagles require for foraging; however, a survey of those impoundments determined that there are no suitable trees for nesting, roosting, or feeding within those areas. Both shores of the Big Alamance Creek impoundment support secondary growth forest which lack tall trees. In addition, the pond is surrounded by maintained land and small trees less than 20 years old. 2. Federal Species of Concern The USFWS list (USFWS 2003) also includes a category of species designated as "Federal species of concern" (FSC). A species with this designation is one that may or may not be listed in the future (formerly C2 candidate species or species under consideration for listing for which there is insufficient information to support listing). The FSC designation provides no federal protection under the ESA for the species listed. As of April 17, 2004, NHP had no documentation of this species within 2.0 miles of the project study area. One FSC species is listed for Guilford County, the Carolina darter (Etheostoma Collis lepidinion). Carolina darter habitat is slow creeks and small rivers with clear to slightly turbid water and mud, sand, and rock substrate (Rohde et al. 1994). The reach of Big Alamance Creek within the project study area does provide suitable habitat for Carolina darter. Alternate 1 is anticipated to impact slightly less natural habitat and one-third of the vegetated wetland area anticipated with Alternate 2. Neither alternative is expected to adversely impact federally protected species. VI. CULTURAL RESOURCES A. Compliance Guidelines This project is subject to compliance with Section 106 of the National Historic Preservation Act of 1966, as amended, implemented by the Advisory Council on Historic Preservation's 22 Regulations for Compliance with Section 106, codified at 36 CFR Part 800. Section 106 requires that for federally funded, licensed, or permitted projects having an effect on properties listed in or eligible for the National Register of Historic Places, the Advisory Council on Historic Preservation be given the opportunity to comment. B. Historic Architecture A field survey of the Area of Potential Effects (APE) was conducted on January 12, 2004. All structures within the APE were photographed, and later a NCDOT staff architectural historian reviewed these photos. There were 13 structures within the APE over 50 years of age, and 13 were determined to be ineligible for the National Register of Historic Places by the NCDOT staff architectural historian. The photographs were shown to the State Historic Preservation Office (HPO) in a meeting on September 13, 2004. At that meeting, HPO staff concurred that 12 of the structures were not eligible for the National Register; however, the property known as "Company Mill" would have to be evaluated by the NCDOT archaeology section. A form was signed that reflects these findings. In addition, a memorandum from the HPO, dated March 26, 2004, states that there are no historic structures within the APE for this project. Copies of all correspondence are included in the Appendix. C. Archaeology In May, 2005, an archaeological site evaluation for this project recommended the "Company Mill" property be eligible for inclusion in the National Register of Historic Places. The North Carolina Department of Cultural Resources -State Historic Preservation Office concurred that the property (31GF326**, Field-Company Mill Site) is eligible for the National Register in August, 2005. In September, 2005, the State Historic Preservation Office, the Office of Human Environment, and the North Carolina Office of State Archaeology determined this project would have no effect on the "Company Mill" property. See the Appendix for correspondence. VII. ENVIRONMENTAL EFFECTS The project is expected to have an overall positive impact by replacing a potentially unsafe bridge. The project is considered a Federal "Categorical Exclusion" due to its limited scope and environmental consequences. The bridge replacement will not have an adverse effect on the quality of the human or natural environment with the use of current NCDOT standards and specifications. 23 ., The project is not in conflict with any plan, existing land use, or zoning regulations. No significant change in land use is expected to result from replacement of the bridge. The studied route does not contain any bicycle accommodations, nor is it a designated bicycle route; therefore, no bicycle accommodations have been included as part of this project. No residential or business relocatees are anticipated as a result of the proposed project. No adverse impacts on families or communities are anticipated. No adverse effect on public facilities or services is anticipated. The project is not expected to adversely affect social, economic, or religious opportunities in the area. The proposed project is excluded from the Farmland Protection Policy Act (FPPA) since the project is located within the Metropolitan Planning Organization (MPO) planning area of Greensboro (7 CFR Part 658). There are no publicly owned parks, recreational facilities, or wildlife and waterfowl refuges of national, state, or local significance in the vicinity of the project. The project is located in Guilford County, which is within the Greensboro-Winston-Salem-High Point nonattainment area for ozone (03) as defined by the EPA. The 1990 Clean Air Act Amendments (CAA) designed these areas as moderate nonattainment areas for 03. However, due to improved monitoring data, these areas were redesignated as maintenance for 03 on November 8, 1993. Section 176(c) of the CAAA requires that transportation plans, programs, and projects conform to the intent of the state air quality implementation plan (SIP). The current SIP does not contain any transportation control measures for Guilford County. The Greensboro Metropolitan Planning Organization (MPO) 2030 Long Range Transportation Plan (LRTP), the High Point MPO 2030 LRTP, the Burlington Graham MPO 2030 LRTP, and the 2006-2012 Metropolitan Transportation Improvement Programs (MTIPs) conform to the intent of the SIP. The USDOT made a conformity determination of the Greensboro MPO LRTP on April 1, 2006, the High Point MPO LRTP on April 1, 2006, the Burlington MPO LRTP on April 1, 2006, and the Greensboro MPO MTIP on October 1, 2005, the High Point MPO MTIP on October 1, 2005, and the Burlington Graham MPO MTIP on October 1, 2005. The current conformity determinations are consistent with the final conformity rule found in 40 CFR Parts 51 and 93. There are no significant changes in the project's design concept or scope, as used in the conformity analyses. 24 ~, The project is located in Guilford County, which is within the Greensboro-Winston-Salem-High Point nonattainment area for fine particles PM 2.5 as defined by the EPA. This area was designed nonattainment for the PM 2.5 standard in accordance with the Clean Air Act Amendments (CAAA) on January 5, 2005, with an effective date of April 5, 2005. Section 176(c) of the CAAA requires that transportation plans, programs, and projects conform to the intent of the state air quality implementation plan (SIP). The current SIP does not contain any transportation control measures for Guilford County. The Greensboro Metropolitan Planning Organization (MPO) 2030 Long Range Transportation Plan (LRTP), the High Point MPO 2030 LRTP, the Burlington Graham MPO 2030 LRTP, and the 2006-2012 Metropolitan Transportation Improvement Programs (MTIPs) conform to the intent of the SIP. The USDOT made a conformity determination on the Greensboro MPO LRTP on April 5, 2006, the High Point MPO LRTP on Apri15, 2006, the Burlington MPO LRTP on April 5, 2005, the Greensboro MPO MTIP on April 5, 2006, the High Point MPO MTIP on April 5, 2006 and the Burlington Graham MPO MTIP on April 5, 2006. The current conformity determinations are consistent with the final conformity rule found in 40 CFR Parts 51 and 93. There are no significant changes in the project's design concept or scope, as used in the conformity analyses. Guilford County was designated as a moderate nonattainment for 03 under the eight-hour ozone standard on April 15, 2004. Effective on November 22, 2004, EPA reclassified Guilford County from a moderate nonattainment area to a marginal nonattainment area. Guilford County is under an Early Action Compact and the effective date of the nonattainment designation has been deferred until December 31, 2006. 40 CFR Parts 51 and 93 are not applicable until December 31, 2007 (one year after the nonattainment designation becomes effective). The results from apre-scoping geotechnical and geoenvironmental investigation performed by the NCDOT Geotechnical Engineering Unit showed that no underground storage tank sites or hazardous waste sites or apparent landfills were identified within the project limits. The geotechnical pre-scoping report is included in the appendix. On the basis of the above discussion, it is concluded that no significant adverse environmental effects will result from implementation of the project. VIII. PUBLIC INVOLVEMENT A "start of study" letter was distributed to local officials and agencies requesting information and concerns relative to the proposed study alternates. Their responses are included in the Appendix. Due to the isolated nature of this bridge replacement project, no formal public involvement program was initiated. 25 ..: IX. AGENCY COORDINATION Letters requesting comments and environmental input were sent to the following agencies: US Army Corps of Engineers -Wilmington District *US Fish and Wildlife Service State Clearinghouse *NC Department of Cultural Resources *NC Wildlife Resources Commission *NC Division of Water Quality Federal Highway Administration *Director, Guilford Community Development Department Manager, Guilford County Chairman, Guilford County Board of Commissioners *Superintendent, Guilford County Public School System Director, Guilford County Emergency Services Sheriff, Guilford County Greensboro Metropolitan Planning Organization Asterisks (*) indicate agencies from which written/oral comments were received. Scoping comments and corresponding responses are given below. Copies of the comments received are in the Appendix. 1. United States Department of Interior -Fish and Wildlife Service Comment: "There is only one federally protected species listed for Guilford County - the bald eagle...If suitable habitat occurs within the project vicinity for [this] species, survey should be conducted to determine presence or absence of the species". Response: A survey of the project area determined it lacks suitable habitat for the bald eagle. 2. North Carolina Wildlife Resources Commission Comment: "We recommend replacing this bridge with a bridge". Response: A new bridge will replace the existing bridge at its current location. Comment: "A significant fishery for sunfish exists at this site, therefore we request an in-water work moratorium for sunfish from April 1 to June 30". 26 Response: FHWA, NCDOT and NCWRC have determined a moratorium for sunfish will not be required. 3. North Carolina Division of Water Quality Comment: "[Big] Alamance Creek is listed as WS-IV NSW CA... Since the project is located within the Critical Area of a water supply watershed, hazardous spill catch basins may be required for this project based on traffic count, percent truck traffic or proximity to industries transporting hazardous materials. The project shall incorporate the requirements for WS-IV Waters within the critical area as specified in 15A NCAC 2B .0215". Response: According to the natural resources technical report and the NCDWQ website (accessed 1/31/05), the project area for TIP B-4131 is not within a critical area of a water supply watershed. Comment: "There are 30-foot vegetated buffer requirements in WS waters in addition to the requirements to minimize storm water runoff and maximize use of BMPs. Response: Public road projects may be allowed within the buffer where no practicable alternative exists, as long as built-upon area is minimized, runoff is directed away from surface waters, and the use of Best Management Practices (BMPs) is maximized. In order to minimize impacts to water resources, NCDOT BMP's for the Protection of Surface Waters will be strictly enforced during the entire life of the project. 4. North Carolina Department of Cultural Resources -State Historic Preservation Office Comment: "The proposed bridge replacement is likely to affect [an] archaeological site, so we recommend that the site be tested to evaluate its significance". Response: The site was evaluated and the Office of State Archaeology determined the project would not affect the archaeological site. See comments in the Appendix. 27 REFERENCES Amoroso, J.L. 2004. Natural Heritage Program List of the Rare Plant Species of North Carolina. North Carolina Natural Heritage Program, Division of Parks and Recreation, N.C. Department of Environment, Health and Natural Resources, Raleigh. Cowardin, L.M., V. Carter, F.C. Golet, and E.T. LaRoe. 1979. Classification of Wetlands and Deepwater Habitats of the United States. FWS/OBS -79/31. Fish and Wildlife Service, U.S. Department of the Interior, Washington, DC. 103 pp. Department of the Army (DOA). 1987. Corps of Engineers Wetlands Delineation Manual. Technical Report Y-87-1. U.S. Army Engineer Waterways Experiment Station, Vicksburg, MS. 100 pp. Division of Environmental Management (DEM). 1996. A Field Guide to North Carolina Wetlands. North Carolina Department of Environment, Health, and Natural Resources, Raleigh. Division of Water Quality (DWQ). 2000. Cape Fear River Water Quality Management Plan. North Carolina Department of Environment and Natural Resources, Raleigh. Division of Water Quality (DWQ). 2002. Water Quality Assessment and Impaired Waters List (online). Available: http://h2o.enr.state.nc.us/tmdl/General_303d.htm [April 26, 2004] North Carolina Department of Environment and Natural Resources, Raleigh. Division of Water Quality (DWQ). 2004a. North Carolina Waterbodies Listed by Subbasin (online). 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U.S. Department of the Interior, Fish and Wildlife Service. 8 pp. U.S. Fish and Wildlife Service (USFWS). 2002. National Wetlands Inventory (NWI) (online). Available: http://www.nwi.fws.gov [Apri129, 2004]. U.S. Fish and Wildlife Service. U.S. Fish and Wildlife Service (USFWS). 2003. Guilford County Endangered Species, Threatened Species, and Federal Species of Concern (online). Available: http://nc- es.fws.gov/es/cntylist/guilford.html [Apri129, 2004]. U.S. Fish and Wildlife Service. Webster, W.D., J.F. Parnell, and W.C. Biggs, Jr. 1985. Mammals of the Carolinas, Virginia, and Maryland. The University of North Carolina Press, Chapel Hill, NC. 255 pp. Wildlife Resources Commission (NCWRC). 1998. Significant Aquatic Endangered Species Habitats. North Carolina Department of Environment and Natural Resources, Raleigh. 30 Hamel, P.B. 1992. Land Manager's Guide to the Birds of the South. The Nature Conservancy, Southeastern Region, Chapel Hill, NC. 437 pp. Kartesz, J. 1998. A Synonymized Checklist of the Vascular Flora of the United States, Puerto Rico, and the Virgin Islands. Biota of North America Program. Martof, B.S., W.M. Palmer, J.R. Bailey, and J.R. Harrison III. 1980. Amphibians and Reptiles of the Carolinas and Virginia. The University of North Carolina Press, Chapel Hill, NC. 264 pp. Menhinick, E.F. 1991. The Freshwater Fishes of North Carolina. North Carolina Wildlife Resources Commission, Raleigh. 227 pp. Natural Heritage Program (NHP). 1999. List of Significant Natural Heritage Areas. North Carolina Division of Parks and Recreation, Department of Environment and Natural Resources. Raleigh, NC. Natural Resources Conservation Service (NRCS). 1996. U.S. Department of Agriculture. Hydric Soils, Guilford County, N.C. Technical Guide, Section II-A-2. Palmer, W.M. and A.L. Braswell. 1995. Reptiles of North Carolina. The University of North Carolina Press, Chapel Hill, NC. 412 pp. Potter, E.F., J.F. Parnell, and R.P. Teulings. 1980. 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L ~ i ~F'I~mC R U ftf ~ '._ ,~ , ~3ti,. -r r.-~ 9.rx c 3 ~'1 Pardla.i.an may, Can ~ 9p a t ' ~ ; ~ ~_ '~ n`~ " " ~p~` NORTH CAROLINA 1~PARTMSNT OR TRANSPORTATION PrieoE De.ebpasa6 aad Sa.ireue~Eal Aad~.u. Br.'oL '<, 4~ sp~e f 1P>p BRIDGE NO. Ii SR 3394 OVER BIG ALAMANCE CREEK GUILFORD COUNTY B-4131 VICINITY MAP 0 0~5 ~ GRAPHIC SCALE (MILES) FIGURE IA ., ~,, _. ._ ~.-- V ,, ~ ~. - ~`1. 334 -. -~, ~- ~'~. a t [ _~ r ti..' T - i _ J . , ~ -...~ 7 \r ~. -'~ .,, _ -,_..~ ~, _ ~ t _ ., -.: 1 (,~i ; :-.- ~ ' ~ - ..wit --" _._ ~ ~-----. . ~- -. ,/ ~_ l North Carolina Department of Transportation N~,TH Project Development and Environmental Analysis Branch g ~~~,, • T.LP. B-4131 Z ~~ ~y' Bridge No. 11 Over Big Alamance Creek. ~~">oF~a~~ On SR 3394 - Guilford County, N.C. Quad. Map: Climax Figure 1B .. LOOKING NORTH ACROSS BRIDGE n~„~.~~~,;,, NORTH CAROLINA DEPARTMENT OF i~' =', TRANSPORTATION I' ~, `" r' PROJECT DEVELOPMENT AND \y "~°°~-% ~ ENVIRONMENTAL ANALYSIS BRANCH ~ BRIDGE NO. 11 ON SR 3394 BIG ALAMANCE CREEK ~ GUILFORD COUNTI' B-4131 FIGURE 2A LOOKING SOUTH ACROSS BRIDGE o,wo„"4* NORTH CAROLINA DEPARTMENT OF °°~ TRANSPORTATION „~~ PROJECT DEVELOPMENT AND BRIDGE NO. 11 ON SR 3394 BIG ALAMANCE CREEK GUILFORD COUNTY B-4131 FIGURE 2B STRUCTURE PROFILE , LOOHING EAST & UPSTREAM STRUCTURE PROFILE , LOOHING WEST & DOWNSTREAM PROPOSED DESIGN CRITERIA REPLACE BRIDGE N0. II ON SR 3394 OVER BIG ALAMANCE CREEK GUILFORD COUNTY B-4131 FUNCTIONAL CLASSIFICATION: RURAL MINOR COLLECTOR POSTED SPEED: 45 MPH ESTIMATED ADT: 2005 ADT = 2,900 2025 ADT = 5,000 TTST = I% DUAL = 3% DHV = 12% DIR = 65% DESIGN SPEED: 50 MPH MAXIMUM RATE OF SUPERELEVATION: 0.06 ft/fit MAXIMUM DEGREE OF CURVE:6°50' MAXIMUM GRADE: 7% MINIMUM DESIRABLE K FACTORS: Ksag = 96 Kcrest = 84 SHOULDER WIDTH & TYPE : 2.0 ft FDPS 8.0 ft TOTAL (II.Oft WITH GUARDRAIL) LANE WIDTHS: 12.0 ft BRIDGE DECK WIDTH: 40.Oft CLEAR BRIDGE LENGTH: 125.0 ft -ALTERNATE I BRIDGE LENGTH: 150.0 ft -ALTERNATE 2 10' 6' 12' MIN. 8' 12' ~ i 2' VAR. SLO~PE~~ 1 18' DES. ~ 2 ~ ~ POINT .02 6;% FIGURE 3A ~ 8' 30, 2' l.._ r- VAR. SLOPE ~ I i' WITH GUARDRAIL APPROACH ROADWAY TYPICAL SECTION 40' BRIDGE TYPICAL SECTION 8' 12' ~ 12' 8' GRADE i POINT ~ .02 .~ r .az ~ .02 NOTE: . HORIZONTAL & VERTICAL DESIGN PREPARED BY: KO & ASSOC. DATE: 02-04-04 EXCEPTIONS MAY BE REQUIRED. APPROVED BY: DATE: N PROPOSED DETOUR CRITERIA FIGURE 3B REPLACE BRIDGE NO. II ON SR 3394 • OVER BIG ALAMANCE CREEK GUILFORD COUNTY B-4131 FUNCTIONAL CLASSIFICATION: RURAL MINOR COLLECTOR POSTED SPEED: 45 MPH (ASSUMED ) ESTIMATED ADT: 2005 ADT 2025 ADT TTST DUAL DHV DIR 2,900 5,000 I% 3% 12% 65% DESIGN SPEED: 35 MPH MAXIMUM RATE OF SUPERELEVATION: 0.08 ft/ft (USE .06 MAX. ON BRIDGE) MAXIMUM DEGREE OF CURVE: 16°20' (7°30' ON BRIDGE ) MAXIMUM GRADE: 12% MINIMUM DESIRABLE K FACTORS: Ksag = 49 Kcrest = 29 SHOULDER WIDTH & TYPE :4.0 fit TOTAL (7.Oft WITH GUARDRAIL) LANE WIDTHS: II.0 ft BRIDGE DECK WIDTH: 28.Oft CLEAR BRIDGE LENGTH: 145.0 ft q~ 4' II' _~_ II' I GRADE ~ ~ POINT .02 I~ .oz ~ 4' ~ 7' WITH GUARDRAIL DETOUR APPROACH ROADWAY TYPICAL SECTION 2'a' i 3' II' ~ II' 3' GRADE i POINT i .02 .02 DETOUR BRIDGE TYPICAL SECTION PREPARED BY: KO & ASSOC. DATE: 02-04-04 NOTE: KO & ASSOC. DATE: 02-24-04 HORIZONTAL & VERTICAL DESIGN REVISED BY: EXCEPTIONS MAY BE REQUIRED. APPROVED BY: DATE: