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Home My WebLink About20000916 Ver 1_Complete File_20000717 Op091 LTyy .?? STATE OF NORTH CAROLINA DEPARTMENT OF TRANSPORTATION JAMES B. HUNT JR. P.O. BOX 25201, RALEIGH, N.C. 27611-5201 DAVID MCCOY GOVERNOR ACTING SECRETARY June 30, 2000 U.S. Army Corps of Engineers Regulatory Field Office , P.O. Box 1890 Wilmington, North Carolina 28402-1890 J j"to""Ir ] 7 ATTENTION: Mr. Eric Alsmeyer ? ??'? r`^"' NCDOT Coordinator WAT tr ?.? SUBJECT: Chatham County, Bridge No. 170 on SR 1010 over Bear Creek; Federal Aid No. BRZ-1010(5); State Project No. 8.2521501; TIP No. B-3133. Dear Sir: Attached for your information is a copy of the project-planning document prepared by the North Carolina Department of Transportation (DOT) and signed by the Federal Highway Administration (FHWA) on January 1998. The project involves replacing Bridge No. 170 over Bear Creek on SR 1010, Chatham County. The new structure will be a bridge approximately 46 meters (151 feet) long and 9.1 meters (30 feet) wide at approximately the same location and roadway elevation as the existing bridge. The travelway on the bridge will include two 3.6 meter (12 foot) lanes with 1 meter (3 foot) shoulders. Approach work will consist of resurfacing and widening the roadway to two 3.6 meter (8 foot) shoulders, and installing guardrail where appropriate. The total project length will be approximately 122 meters (400 feet). Traffic will be detoured along surrounding roads during construction. The project is being processed by the FHWA as a "Categorical Exclusion" (CE) in accordance with 23 CFR 771.115(b). Therefore, we do not anticipate requesting an individual permit but propose to proceed under a Nationwide Permit in accordance with 33 CFR 330 Appendix A (B-23) issued 13 December 1996, by the Corps of Engineers (COE). The provisions of Section 330.4 and Appendix A (C) of these regulations will be followed in the construction of the project. It is not anticipated that a 401 General Water Quality Certification for an approved CE will apply to this project. The NCDOT will follow general conditions on permits, Section 404 Nationwide 6 and Section 404 Nationwide 23. A copy of the CE document has been provided to the North Carolina Department of Environment, Health and Natural Resources, Division of Water Quality (DWQ), for their review. Bridge No. 170 is located on SR 1010 over the Bear Creek in Chatham County. It has three spans totaling 151 feet in length. The deck and bridge railings for the superstructure are composed of concrete. The interior bents are also composed of concrete. The bridge rail will be removed without dropping it into Waters of the U.S. There is potential for components of the deck and interior bents to be dropped into Waters of the U.S. during construction. The resulting temporary fill associated with the concrete deck and interior bents is approximately 35 cubic yards. This bridge demolition has been classified as a Case 1 Bridge Demolition (see BMP-BD&R attachment). The Case 1 designation was a result of designated critical habitat present for the federally endangered Cape Fear Shiner (Notropis mekistocholas). A biological conclusion of NOT LIKELY TO ADVERSELY EFFECT was rendered for the Cape Fear Shiner based on the following commitments: 1. High Quality Waters- Soil and Erosion Control Measures will be installed prior to clearing and grubbing and properly maintained throughout project construction. 2. Bents in the river channel will be cut off at the riverbed. If possible, new bents will not be located in the river channel. 3. Removal of the bridge deck will be done from the top down. As stated in the CE document for this bridge replacement, the DOT commits to the implementation of Design Standards for Sensitive Watershed Sedimentation Control Guidelines in addition to standard Best Management Practices. If you have any questions or need any additional information, please contact Mr. Jeffrey Burleson at (919) 733-7844, Extension 315. Sincerely, Aa C - A William D. Gilmore, PE, Manager Project Development and Environmental Analysis Branch 2 Attachments cc: Mr. David Franklin, USACE, Wilmington !' Mr. John Dorney, NCDENR, DWQ Mr. Calvin Leggett, P.E., Program Development Branch Mr. John Alford, P.E. Roadway Design Unit Mrs. Debbie Barbour, P.E., Design Services Mr. Dave Henderson, P.E., Hydraulics Unit Mr. Tim Roundtree, P.E., Structure Design Unit Mr. W. F. Rosser, P.E., Division 8 Engineer Mr. Dave Cox, NCWRC Mr. Marella.Bunsick, USFWS FINAL 9-20-99 North Carolina Department of Transportation Best Management Practices For Bridge Demolition and Removal The following Best Management Practices for Bridge Demolition and Removal (BMP-BDR) was developed in coordination with the Army Corps of Engineers (COE), the Wildlife Resource Commission, the National Marine Fisheries Service, and others with the goal of establishing a consistent, environmentally sound approach to the demolition and removal of bridges on North Carolina's public road systems. These Practices shall be an addendum to (not a replacement for) NCDOT's Best Management Practices for the Protection of Surface Waters. The primary objective of these guidelines shall be to protect the water quality and aquatic life of the affected environment in the vicinity of a project. The Department shall use these BMP-BDR consistently on all projects involving bridge removal over a water body. All projects shall fall into one of the following three categories. Case 1- "In water" work is restricted to an absolute minimum, due to the presence of Outstanding Resource Waters (ORW) or Threatened and/or Endangered Species (T&E Species). All work potentially effecting the resource will be carefully coordinated with the agency having jurisdiction. Case 2 - allows no work at all in the water during moratorium periods associated with fish migration, spawning, and larval recruitment into nursery areas. Case 3 - there are no special restrictions beyond those outlined in Best Management Practices for Protection of Surface Waters and the supplements added by this document on Bridge Demolition. All three Cases are subject to BMP-BDR's. It is not the intention of these guidelines to prevent the creativity of the contractor in the removal of the bridge. If the contractor or Resident Engineer devises a means of removal that retains the spirit of these guidelines but does not adhere to the letter, such a means will be considered by the NCDOT Resident Engineer, the NCDOT Natural Systems Specialist, and the federal and/or state agency representative(s). With that caveat in mind, the following guidelines will be applied as appropriate during the construction and demolition stages of a project: • The contractor shall be required to submit a plan for bridge demolition and debris removal to the Resident Engineer, and must receive written approval from the Resident Engineer prior to any demolition work beginning. • If there is a special resource, Case 1 (for example a Threatened or Endangered Species), pointed out in the document, special provisions will apply to both the construction of the new structure and demolition and removal of the old structure. Such special provisions may supersede the guidelines herein. Page 1 of 3 r1% FINAL 9-20-99 Bridge Shall Be Removed Without Dropping Components Into The Water If a bridge is to be removed in a fashion such that there is a practical alternative to dropping bridge components into the water, that alternative shall be followed. In the case of a concrete deck, the bridge deck shall be removed by sawing completely through the concrete thickness. Removal may be in sections out between the beams or a cut full length of span between the beams. No part of the structure will be allowed to fall into the water. The concrete shall be removed from the site intact and placed/retained in an upland disposal area. • If it is determined that components of the bridge must be dropped into the water, all efforts will be made to minimize the overall impact to the surface waters. If the bridge is composed of several spans, the demolition shall occur one span at a time. Components from a given span which have been dropped into the water must be removed from the water before demolition can proceed to the next span. • If it is determined that components of the bridge must be dropped into the water, any and all asphalt wearing surface shall be removed and not dropped into the water. If a CAMA permit is required, dropping any component of a bridge into the water will not be acceptable unless it is proven that there is no feasible alternative. Such an activity would require coordination with and approval of CAMA. • Every bridge to be removed which is constructed completely of timber shall be removed without dropping components of the bridge into the water. If an unusual circumstance arises where the contractor believes that a bridge component must be dropped into the water, the contractor must alert the Resident Engineer. The Resident Engineer shall coordinate with the Army Corps of Engineers and the Natural Systems Specialist who obtained the permit to discuss the necessary course of action. This is anticipated to be a rare occurrence. If the substructure of a bridge includes timber or steel piles, they shall be removed by cutting them off level with surface of the streambed. In no circumstance are the piles to remain above the surface of the streambed. This shall be accomplished in a fashion which minimizes the increase of sediment into the surface waters. As an exception, piles that are in conflict with the proposed piers may be completely removed by pulling. Timber or steel piles will be removed in a fashion that does not allow the pile to fall into the water. In tidal areas it may be necessary to remove the piers completely or to some depth below the substrate because of sand/current movement over time. Such a need will be established in the Greensheet(s) Project Commitments. Non Shattering Methods • Every bridge demolition shall be accomplished by non-shattering methods. Shattering means any method which would scatter debris. A wrecking ball is no longer an acceptable tool for bridge removal. Explosives, a "hoe-ram", or other comparable tools may be used in such a fashion that fractures but does not shatter and Page 2 of 3 FINAL ?. 9-20-99 scatter bridge components into the water. A possible exception to this rule might be a concrete arch bridge in which case a method shall be found which minimizes impact to the extent practical and feasible. In the case of an exception, the method of demolition will be developed in consultation with the appropriate federal and state agencies. Use of Explosives • In the event that there is not a practical alternative to non-shattering, alternate methods of bridge demolition shall be discussed with and approved by the Army Corps of Engineers and other federal and state resource agencies having jurisdiction over the resource. • All parties involved recognize that explosives are sometimes required to remove components of a bridge. However, at the present, the proper means of applying those explosives is not agreed upon. The various agencies involved agree that over time, we will come to agreement on the use of explosives in a form that will be included in these BMP's for Bridge Demolition and will not require special consultation. For the present, if it is determined that explosives are required to remove any component of a bridge, that activity shall be coordinated with the Army Corps of Engineers in addition to the state or federal agency with jurisdiction over that particular water. This issue shall be revisited at the earliest time possible to determine appropriate measures to include in these BMP's which shall minimize or eliminate the consultations required in the future. General • Where there are sedimentation concerns the Greensheet Project Commitments may identify the need for turbidity curtains (or similar devices) in the demolition and construction phases of a project in the area of concern to limit the impacts. • If damage is done to the bank as a result of debris removal, the COE shall be consulted and the bank shall be re-stabilized to natural contours using indigenous vegetation prior to completion of activities in that period of construction. • If the new bridge does not go back on the original alignment, the banks shall be restored to original contours revegetated with indigenous species as appropriate. • Any machine operating in an area which could leak engine fluids into the water shall be inspected visually on a daily basis for leakage. If leakage is found, the fluid(s) shall be contained and removed immediately in accordance with applicable state regulations and guidelines, as well as the equipment repaired prior to further use. • When pumping to de-water a drilled shaft pier, the discharge shall be into an acceptable sediment containment bin to minimize siltation in the water. Page 3 of 3 0009'6 CATEGORICAL EXCLUSION ACTION CLASSIFICATION FORM TIP Project No. B-3133 State Project No. 8.2521501 Federal-Aid Project No. BRZ-1010(55) A. Project Description: The project consists of replacing Bridge No. 170 on SR 1010 over Bear Creek in Chatham County. The new structure will be a bridge approximately 46 meters (151 feet) long and 9.1 meters (30 feet) wide at approximately the same location and roadway elevation as the existing bridge. The travelway on the bridge will include two 3.6 meter (12 foot) lanes with 1 meter (3 foot) shoulders. Approach work will consist of resurfacing and widening the roadway to two 3.6 meter (12 foot) lanes with 2.4 meter (8 foot) shoulders, and installing guardrail where appropriate. The total project length will be approximately 122 meters (400 feet). Traffic will be detoured along surrounding roads during construction. B. P=ose and Need: Bridge No. 170 has a sufficiency rating of 15.7 out of 100. The structure is a two lane bridge with 6.1 meters (20 feet) of bridge roadway width. Modern design standards specify a width of 9.1 meters (30 feet). The bridge is posted for 16 tons for single vehicles and 19 tons for truck tractor semi trailers. "Do nothing" is not a practical alternate because it would require the eventual closing of the road as the existing bridge completely deteriorates. Rehabilitation of the existing bridge is neither practical nor economical. C: Proposed Improvements: The improvements which apply to the project are circled: Type II Improvements Modernization of a highway by resurfacing, restoration, rehabilitation, reconstruction, adding shoulders, or adding auxiliary lanes (e.g., parking weaving, turning, climbing). a. Restoring, Resurfacing, Rehabilitating, and Reconstructing pavement (3R and 4R improvements) b. Widening roadway and shoulders without adding through lanes c. Modernizing gore treatments d. Constructing lane improvements (merge, auxiliary, and turn lanes) e. Adding shoulder drains f. Replacing and rehabilitating culverts, inlets, and drainage pipes, including safety treatments g. Providing driveways pipes h. Performing minor bridge widening (less than one through lane) 2. Highway safety or traffic operations improvement projects including the installation of ramp metering control devices and lighting. a. Installing ramp metering device b. Installing lights c. Adding or upgrading guardrail d. Installing safety barriers including Jersey type barriers and pier protection e. Installing or replacing impact attenuators f. Upgrading medians including adding or upgrading median barriers g. Improving intersections including relocation and/ or realignment h. Making minor roadway realignment i. Channelizing traffic j. Performing clear zone safety improvements including removing hazards and flattening slopes k. Implementing traffic aid systems, signals, and motorist aid 1. Installing bridge safety hardware including bridge rail retrofit O Bridge rehabilitation, reconstruction, or replacement or the construction of grade separation replace existing at-grade railroad crossings. a. Rehabilitating, reconstructing, or replacing bridge approach slabs b. Rehabilitating or replacing bridge decks c. Rehabilitating bridges including painting (no red lead paint), scour repair, fender systems, and minor structural improvements O Replacing a bridge (structure and/ or fill) 4. Transportation corridor fringe parking facilities. 5. Construction of new truck weigh stations or rest areas. 6. Approvals for disposal of excess right-of-way or for joint or limited use of right-of-way, where the proposed use does not have significant adverse impacts. 7. Approvals for changes in access control. 2 8. Construction of new bus storage and maintenance facilities in areas used predominantly for industrial or transportation purposes where such construction is not inconsistent with existing zoning and located on or near a street with adequate capacity to handle anticipated bus and support vehicle traffic. 9. Rehabilitation or reconstruction of existing rail and bus buildings and ancillary facilities where only minor amounts of additional land are required and there is not a substantial increase in the number of users. 10. Construction of bus transfer facilities (an open area consisting of passenger shelters, boarding areas, kiosks and related street improvements ) when located in a commercial area or other high activity center in which there is adequate street capacity for projected bus traffic. 11. Construction of rail storage and maintenance facilities in areas used predominantly for industrial or transportation purposes where such construction is not inconsistent with existing zoning and where there is no significant noise impact on the surrounding community. 12. Acquisition of land for hardship or protective purposes, advance land acquisition loans under section 3 (b) of the UMT Act. Hardship and protective buying will be permitted only for a particular parcel or a limited number of parcels. These types of land acquisition will not limit the evaluation of alternatives, including shifts in alignment for planned construction projects, which may be required in the NEPA process. No project development on such land may proceed until the NEPA process has been completed. D. Special PWject Information Environmental Commitments: All standard procedures and measures will be implemented to avoid or minimize environmental impacts. In accordance with the provisions of Section 404 of the Clean Water Act (33 U.S.C. 1344), a permit will be required from the Corps of Engineers for the discharge of dredged or fill material into "Waters of the United States." North Carolina Division of Water Quality (DWQ) Section 401 Water Quality General Certification will be obtained prior to issue of the Army Corps of Engineers Nationwide Permit # 23. .. % A Biological Conclusion of Not Likely to Adversely Effect was rendered for the endangered species Cape Fear Shiner (Notropis mekistocholas). This conclusion was based on the following commitments: 1) High Quality Waters - Soil and Erosion Control Measures will be installed prior to clearing and grubbing and properly maintained throughout project construction. 2) Bents in the river channel will be cut off at the river bed. If possible, new bents will not be located in the river channel. 3) Removal of the bridge deck will be done from the top down. Estimated Costs: Construction $ 600,000 Right of Way $ 18,000 Total 9--618,000 Estimated Traffic: Current - 2100 VPD Year 2020 - 6000 VPD TTST - 3% DUAL - 7% Proposed Typical Roadway Section: Travelway - two 3.6 meter (12 foot) lanes Shoulders - 1 meter (3 feet) on the bridge 2.4 meters (8 feet) on the approaches Design Speed: 100 km/h (60 mph) Functional Classification: Rural Minor Collector Division Office Comments: The Division 8 Engineer concurs with the recommendation of replacing the bridge in place and detouring traffic along surrounding roads during construction. The estimated additional cost ($600,000) of maintaining traffic on-site is not justifiable. 4 E. Threshold Criteria If any Type II actions are involved in the project, the following evaluation must be completed. If the project consists only of Type I improvements, the following checklist does not need to be completed. . ECOLOGICAL YES NO (1) Will the project have a substantial impact on any unique on any unique or important natural resource? X (2) Does the project involve any habitat where federally listed endangered or threatened species may occur? X (3) Will the project affect anadromous fish? X (4) If the project involves wetlands, is the amount of permanent and/or temporary wetland taking less than x one-third (1/3) acre and have all practicable measures wetland to avoid and minimize takings been evaluated? (5) Will the project require use of U. S. Forest Service lands? X (6) Will the quality of adjacent water resources be adversely impacted by proposed construction activities? X (7) Does the project involve waters classified as Outstanding Water Resources (OWR) and/or High Quality Waters X (HQW)? - (8) Will the project require fill in waters of the United States in any of the designated mountain trout counties? X (9) Does the project involve any known underground storage tanks (UST's) or hazardous materials sites? X 5 PERMITS AND COORDINATION YES NO (10) If the project is located within a CAMA county, will the project significantly affect the coastal zone and/or any N/A "Area of Environmental Concern" (AEC)? (11) Does the project involve Coastal Barrier Resources Act resources? X (12) Will a U. S. Coast Guard permit be required? X (13) Will the project result in the modification of any existing regulatory floodway? j , X (14) Will the project require any stream relocations or channel changes? X SOCIAL AND ECONOMIC YES NO (15) Will the project induce substantial impacts to planned ,- growth or land use for the area? X (16) Will the project require the relocation of any family or business? X (17) Will the project have a disproportionately high and adverse human health and environmental effect on any minority or X low-income population? (18) If the project involves the acquisition of right of way, is the amount of right of way acquisition considered minor? X 4 • 6 (19) Will the project involve any changes in access control? X (20) Will the project substantially alter the usefulness and/ or land use of any adjacent property? X l (21) Will the project have an adverse effect on permanent local traffic patterns or community cohesiveness? X (22) Is the project included in an approved thoroughfare plan and/ or Transportation Improvement Program (and is, X therefore, in conformance with the Clean Air Act of 1990)? (23) Is the project anticipated to cause an increase in traffic volumes? X (24) Will traffic be maintained during construction using existing roads, staged construction, or on-site detours? X (25) If the project is a bridge replacement project, will the bridge be replaced at its existing location (along the existing facility) X j and will all construction proposed in association with the bridge replacement project be contained on the existing facility? (26) Is there substantial controversy on social, economic, or environmental grounds concerning the project? X (27) Is the project consistent with all Federal, State, and local laws, relating to the environmental aspects of the action. X (28) Will the project have an "effect" on properties eligible for or listed on the National Register of Historic Places? X (29) Will the project affect any archaeological remains which are important to history or pre-history? X 7 (30) Will the project require the use of Section 4(f) resources (public parks, recreation lands, wildlife and waterfowl x refuges, historic sites or historic bridges, as defined in Section 4(f) of the U. S. Department of Transportation Act of 1966)? (31) Will the project result in any conversion of assisted public recreation sites or facilities to non-recreation uses, as defined x by Section 6(f) of the Land and Water Conservation Act of 1965, as amended? (32) Will the project involve construction in, across, or adjacent to a river designated as a component of or proposed for x inclusion in the natural Wild and Scenic Rivers? F. Additional Documentation Required for Unfavorable Responses in Part E Question 2: A Biological Conclusion of Not Likely to Adversely Effect was rendered for the endangered species Cape Fear Shiner (Notropis mekistocholas). This conclusion was based on the following commitments: 1) High Quality Waters - Soil and Erosion Control Measures will be installed prior to clearing and grubbing and properly maintained throughout project construction. 2) Bents in the river channel will be cut off at the river bed. If possible, new bents will not be located in the river channel. 3) Removal of the bridge deck will be done from the top down. G. CE Approval TIP Project No. B-3133 State Project No. 8.2521501 Federal-Aid Project No. BRZ-1010(5) ` Project Description: The project consists of replacing Bridge No. 170 on SR 1010 over Bear Creek in Chatham County. The new structure will be a bridge approximately 46 meters (151 feet) long and 9.1 meters (30 feet) wide at approximately the same location and roadway elevation as the existing bridge. The travelway on the bridge will include two 3.6 meter (12 foot) lanes with 1 meter (3 foot) shoulders. Approach work will consist of resurfacing and widening the roadway to two 3.6 meter (12 foot) lanes with 2.4 meter (8 foot) shoulders, and installing guardrail where appropriate. The total project length will be approximately 122 meters (400 feet). Traffic will be detoured along surrounding roads during construction. (See the attached location map.) Categorical Exclusion Action Classification: TYPE II (A) X TYPE II (B) Approve 1-16-98 ?-V Date Assistant Manager Planning & Environmental Branch /-?s 98 O d 0? 7 &1 41L Z7/11 A - Date Project Planning Unit Head , 1-15-98 Date Date kbivision Admini trator ederal Highway Administration 9 / s 2164 (' Nat/a?5 7 ? ? 2 2 , , 2175 ~ ?' 2 2176 30 1. 2 2 215 •? 2178 / .8 2187 2177 21°9 2176 1010 ??_ ?••?_.??'1 2196ra 2155 1 tD 2181 22 •?? _ f? •7 2182 •2184 "?-.?," • r ' .,?, L. ? ,•\?a 2129 2.2 cr' •? ?1 l 2187 • a/ Mays a Chapel 21 \n 21 83 to CO ? 2186 I e?J • 2:85 % 7- ?- ? 2188 1010 kMtl0 1Ch. T ay 2197.7 ' ?? `, 1.2 2142 / ? IZ• 2153 ,Jrl`,c, ;7 1 ? Crutchfield z-rds earringt ? ? 11 t{?? 5 8 1C.? 751 , ?CIS !N-_Silk Hove 8115 ,p. Villa Alit enl • '? 1?- ' =ice !._ ;Wilsonville 7/ r ' Siter City At:oori?ol?q; calm -? , S -1:t \ s02 r. + '9 x.eanC"Newh IC A 1 A cM`'eoncai ,? •?^ V 21 Vernon Sprint :1 ?`?. r+" 49eiry Oaks , Ice I?Bonle ncure Zy+j ce ?? ? ?' // a 7,d Studied Detour Route Goldsto 90 9 Cum l (Bennett 11 0l\ Carbonton• `I 42 -?- e'..:„ . North Carolina Department Of Transportation 7P: Planning & Environmental Branch CHATHAM COUNTY REPLACE BRIDGE NO. 170 ON SR 1010 OVER BEAR CREEK B-3133 0 kilometers 1.6 kilometers 3.2 Figure 1 0 miles 1.0 miles 2.0 EN7 OF Ty?'Zm ? A N ? ° _ra _- n a9 RCH 3 '6 United States Department of the Interior FISH AND WILDLIFE SERVICE Raleigh Field Office Post Office Box 33726 Raleigh, North Carolina 27636-3726 January 14, 1998 H. Franklin Vick, P. E., Manager Planning and Environmental Branch North Carolina Department of Transportation PO Box 25201 Raleigh, NC 27611-5201 ATTN: Mr. Jeff Ingham "-(s P/ N ?O JAIv S 1998 r X h'`c'r%Wq yQF -0-NM SUBJ: Bridge Replacement No. 426; TIP No. B-3135, over Bear Creek; and Bridge No 170; TIP No. 3133, over Bear Creek in Chatham County r Dear Mr. Vick: The U.S. Fish and Wildlife Service (Service) has reviewed your December 16, 1997 and December 17, 1997 technical reports for the above-referenced projects over Bear Creek, Chatham County, North Carolina. Our comments are provided in accordance with Section 7 of the Endangered Species Act of 1973, as amended (16 U.S.C. 1531-1543). Based on North Carolina Department of Transportation's adherence to the project commitments which include High Quality Waters - Soil and Erosion Control Measures, to protect the Cape Fear Shiner, the Service believes that these two projects are not likely to adversely affect the Cape Fear Shiner, or any other federally-listed species, their formally designated critical habitat, or species currently proposed for federal listing under the Endangered Species Act, as amended. We believe that the requirements of Section 7 of the Act have been satisfied. We remind you that obligations under Section 7 consultation must be reconsidered if: (1) new information reveals impacts of this identified action that may affect listed species or critical habitat in a manner not previously considered; (2) this action is subsequently modified in a manner that was not considered in this review; (3) a new species is listed or critical habitat determined that may be affected by the identified action. Thank you for your continued cooperation with our agency. Sincerely, ohn M. H ner Field Supervisor FWS/R4:CMartino:cm:1-14-98:919/856-4520:WP51\NCDOT\B170-426.NE North Carolina Department of Cultural Resources James B. Hunt Jr., Governor Division of Archives and History Betty Ray McCain, Secretary Jeffrey J. Crow, Director February 20, 1997 Nicholas L. Graf Division Administrator Federal Highway Administration Department of Transportation 310 New Bern Avenue Raleigh, N.C. 27601-1442 Re: Bridge 170 on SR 1010 over Bear Creek, Chatham County, B-3133, Federal Aid Project BRZ-1010(5), State Project 8.2521501, ER 97- 8195 Dear Mr. Graf: On February 4, 1997, Debbie Bevin of our staff met with North Carolina Department of Transportation (NCDOT) staff for a meeting of the minds concerning the above project. We reported our available information on historic architectural and archaeological surveys and resources along with our recommendations. NCDOT provided project area photographs and aerial photographs at the meeting. Based upon our review of the photographs and the information discussed at the meeting, we offer our preliminary comments regarding this project. In terms of historic architectural resources, we are aware of no historic structures located within the area of potential effect. We recommend that no historic architectural survey be conducted for this project. If replacement of the bridge is to be at the existing location with an off-site detour on existing roads, then no archaeological investigation is recommended. If the other alternate which includes a temporary detour structure to the west of the existing bridge is selected, we recommend an archaeological survey of the area of potential effect prior to project implementation. Having provided this information, we look forward to receipt of either a Categorical Exclusion or Environmental Assessment which indicates how NCDOT addressed our comments. The above comments are made pursuant to Section 106 of the National Historic Preservation Act of 1966 and the Advisory Council on Historic Preservation's Regulations for Compliance with Section 106, codified at 36 CFR Part 800. r . 109 Fast Jones Street • Raleigh, North Carolina 27601-2807 ??3 r nank you for your cooperation and consideration. If you have questions concerning the above comment, please contact Renee Gledhill-Earley, environmental review coordinator, at 919/733-4763. Sincerely, avid Brook Deputy State Historic Preservation Officer DB:slw cc: H. F. Vick C. Bruton T. Padgett , Natural Resources Technical Report Proposed Replacement of Bridge No. 170 on 5R 1010 over Bear Creek, Chatham County Prepared for: North Carolina Department of Transportation Division of Highways Planning and Environmental Branch Environmental Unit Prepared by: KCI Associates of North Carolina, Inc. Raleigh, North Carolina November 3, 1997 TIP No. B-3133 State Project No. 8.2521501 F.A. Project No. BRZ-1010 (5) NATURAL RESOURCES TECHNICAL REPORT FOR PROPOSED REPLACEMENT OF BRIDGE NO. 170 ON SR1010 OVER BEAR CREEK, CHATHAM COUNTY TIP NO. 13-3133 STATE PROJECT NO. 8.2521501 F.A. PROJECT NO. 13RZ-1010(5) Prepared for: NORTH CAROLINA DEPARTMENT OF TRANSPORTATION DIVISION OF HIGHWAYS PLANNING AND ENVIRONMENTAL BRANCH ENVIRONMENTAL UNIT Prepared by: KCI Associates of North Carolina, Inc. Raleigh, North Carolina November, 1997 r TABLE OF CONTENTS Page 1.0 INTRODUCTION ...................................................................................... 1 1.1 PROJECT DESCRIPTION .......................................................................... 1 1.2 DEFINITION OF TERMINOLOGY ............................................................ 1 1.3 METHODOLOGY ....................................................................................... 2 1.4 QUALIFICATIONS OF PRINCIPAL INVESTIGATOR ............................ 3 2.0 PHYSICAL RESOURCES ........................................................................ 3 2.1 REGIONAL CHARACTERISTICS ............................................................. 3 2. 1.1 Soils .................................................................................................. 4 2.2 WATER RESOURCES ............................................................................... 4 2.2.1 Waters Impacted and Characteristics .............................................. 4 2.2.2 Water Quality ................................................................................... 4 2.2.3 Anticipated Impacts to Water Quality .............................................. 5 3.0 BIOTIC RESOURCES .............................................................................. 6 3.1 INTRODUCTION ........................................................................................ 6 3.2 TERRESTRIAL COMMUNITIES ............................................................... 6 3.3 AQUATIC COMMUNITIES ....................................................................... 8 3.4 SUMMARY OF ANTICIPATED IMPACTS ............................................... 9 4.0 JURISDICTIONAL TOPICS ................................................................... 10 4.1 WATERS OF THE UNITED STATES ........................................................ 10 4.1.1 Characteristics of Wetlands and Surface Waters ............................ 11 4.1.2 Permits ............................................................................................. 11 4.1.3 Water Permits .................................................................................. 13 4.2 RARE AND PROTECTED SPECIES ......................................................... 13 4.2.1 Federally-Protected Species ............................................................ 13 4.2.2 Federal Species of Concern and State Listed Species ..................... 17 5.0 REFERENCES, ........................... _0 ... 0 .... 0 ..... 00-0-0 ... 00 ................. 00 ... 00.0..0.. 19 TABLES Table 1 - Summary of Community Impacts ................................................. 10 Table 2 - List of Federally-Protected Species in Chatham County ............... 14 Table 3 - List of Species of Federal Concern and Special State Status ............................................................................................. 18 APPENDICES Appendix A - Figures Appendix B - Site Photographs Appendix C - Alternate Plans and Proposed Impacts Appendix D - Wetland Information and Site Maps 1.0 INTRODUCTION The following Natural Resources Technical Report outlines the findings of both the literature review and a field investigation of the natural resources identified within the project area for the proposed replacement of Bridge No. 170 on SR 1010 over Bear Creek, B-3133, in Chatham County. The findings of the report, including any anticipated impacts to the surrounding environment as a result of the proposed project, will be included as part of the environmental documentation required under the National Environmental Policy Act (NEPA) for federally funded transportation projects. In addition, general avoidance and/or mitigation recommendations are provided for each environmental resource described in this report. 1.1 PROJECT DESCRIPTION Initially built in 1950, Bridge No. 170, which spans over Bear Creek (B-3133), is being considered for replacement by the North Carolina Department of Transportation (NCDOT). The bridge is located on SR 1010, approximately 2.1 kilometers (1.3 miles) northeast of the intersection of SR 1010 and SR 2188. Currently, there are two proposed alternates for the project. Both alternates consider replacing the bridge on the existing location, however, each of the alternates propose different detour patterns during construction. The alternates are as follows: Alternate 1: Replace Bridge No. 170 on the existing location with a bridge approximately 46 meters (151 feet) in length. Traffic would be detoured along secondary roads during construction. Alternate 2: Replace Bridge No 170 on the existing location with a bridge approximately 46 meters (151 feet) in length. Traffic would maintained with a temporary on-site bridge and alignment during construction to the west of the existing bridge. The temporary structure would require a bridge 41 meters (135 feet) in length. 1.2 DEFINITION OF TERMINOLOGY For the purpose of this document, the following terms are used concerning the limits of natural resources investigations. "Project area" denotes the area bounded by the proposed right-of-way limits along the full length of each alternate alignment. "Project vicinity" is defined as an area extending 1.0 km (0.6 miles) on all sides of the project area, and "Project region" denotes an area equivalent in size to the area represented by a 7.5 minute series USGS Quadrangle map (163.3 sq. km or 61.8 sq. miles). 1.3 METHODOLOGY The evaluation of environmental resources throughout the project area included reviewing existing data and literature, as well as, conducting a field investigation. Data and literature sources were reviewed prior to conducting the field investigation. Project specific information that was reviewed included USGS Quadrangle maps (Siler City, NC; Pittsboro, NC), United States Fish and Wildlife Service (USFWS) National Wetland Inventory (NWI) maps (Siler City, NC; Pittsboro, NC), the unpublished National Resources Conservation Service soils map (Chatham County, NC), North Carolina Department of Transportation (NCDOT) aerial photography, the USFWS list of protected species, the North Carolina Natural Heritage Program (NCNHP) data base of rare species and habitats, and the North Carolina Department of Water Quality (DWQ) water resource information. The field investigation considered the area encompassing the limit of disturbance for each of the alternates. Within these limits, terrestrial and aquatic habitats were examined. Evidence of wildlife was noted and when possible, species were identified (excluding fishes). A review of adjacent landuses and landscapes was conducted to evaluate the relationship and the ecological connectivity between the project vicinity and the project area. The review considered an approximately 1.6 kilometer (1.0 miles) radius from the project area. Information concerning the occurrence of federal and state protected species, in the study area, was gathered from the USFWS list of protected and federal species of concern and from the North Carolina Natural Heritage Program (NCNHP) database of rare species and unique habitats. Terrestrial community classifications generally follow Schafale and Weakley (1990) where possible, and plant taxonomy follows Radford, et al. (1968). Animal taxonomy follows Collins (1981). Aerial photography was utilized to map vegetative communities. These communities were than verified during the field reconnaissance. Jurisdictional wetland delineations were performed in accordance with the delineation criteria outlined in the "Corps of Engineers Wetland Delineation Manual" (Environmental Laboratory, 1987) and in "Guidance and Rating the Values of Wetlands in North Carolina" (Division of Environmental Management, 1995). Wetlands were classified based on the classification scheme of Cowardin, et al. (1979). Wetland determinations included identifying the presence of hydrophytic vegetation, hydric soils and hydrology. On August 15, 1997, George Swearingen and Gary Mryncza conducted a field investigation of the project area. This work was, thereafter, verified on September 4, 1997 by the principal investigator, Joseph J. Pfeiffer, PWS. This investigation focused on flora, fauna and overall habitat structure. The flora, including dominant species per stratum, were identified and recorded. In addition, the relationships between strata were evaluated 2 for overall plant dynamics, value as wildlife habitat and a general level of biodiversity. A separate review of the vascular flora associated with floodplains was conducted along South Fork Little River as part of the wetland determination process. The investigation also considered the fauna observed throughout the project area. Techniques used to identify the presence of species included direct visual/audible observations and indirect observations such as the presence of tracks, cavities, nests, fecal material, carcasses, etc. Investigations for aquatic species included sampling from a number of micro habitats throughout portions of Bear Creek. Techniques included performing kick seining from riffles of different depths, substrate types and velocities. In addition, coarse particulate organic matter samples were evaluated from different locations along the stream. From these samples, general species diversity, including general trends in population richness and uniformity, was recorded. No formal methodology was followed for the collection and evaluation of aquatic species. 1.4 QUALIFICATIONS OF PRINCIPAL INVESTIGATOR Name(s): Joseph J. Pfeiffer, PWS (9927) Education: A.A. Wildlife/ Fisheries, Garrett Community College, 1986 B.S. Natural Science, Towson State University (1988) M.A. Environmental Planning, Towson State University (1996) Experience: Southeast Region Environmental Manager, a registered Professional Wetland Scientist possessing a diverse background in environmental assessment, wetlands, environmental planning, and wildlife inventories. 2.0 PHYSICAL RESOURCES A general description of the regional characteristics, including geology, topography, soils and primary landuses is provided in this section. In addition, this section contains detailed information concerning water resources, especially, water characteristics, potential impacts, and overall water quality. 2.1 REGIONAL CHARACTERISTICS Chatham County is located in central North Carolina. It is situated in the Piedmont physiographic province, which is characterized by rolling topography with rounded hills and long, low ridges. Elevations, within the county, range from 45 to 236 meters (150 to 774 feet) above mean sea level (MSL) following a trend of increasing elevation to the northwest part of the county. The project area rests in the Cape Fear River Basin, as does all of Chatham County. The Cape Fear Basin is the largest basin in the state covering over 23,000 square kilometers (9,000 square miles). It is formed at the confluence of the Haw and Deep Rivers on the border of Chatham and Lee Counties just below the Jordan Reservoir dam. From there the river flows across the coastal plain past Fayetteville and Wilmington, and is fed by 3 the Black and Northeast Cape Fear River watersheds (two major blackwater systems) and finally enters the Atlantic Ocean at Cape Fear. Current land use in the vicinity of the project includes forest cover, agriculture and low- density residential. Feed crops and tobacco tend to dominate the agriculture portion of the land uses. The elevations in the project area range from 107 to 110 meters (350 to 360 feet) above MSL. 2.1.1 Soils According to the Natural Resource Conservation Service of Chatham County, North Carolina, the soil association encompassing the project area is the Cid-Nason-Badin association. This unit is characterized by a gently to sloping topography, with moderately well to well drained soils that have a loamy surface layer and a loamy to clayey subsoil. These soils range in landscape position from floodplains to uplands. The specific soil series' that are likely to be impacted by this project include: Riverview _ silt loam (13A), Nason-Badin complex (130C, 130D) and Cid loam (525C). Riverview silt loam is classified as a secondary hydric soil and is considered to be well drained with inclusions of poorly drained soils. The depth to the seasonal high water table ranges from 0.91 to 1.52 meters (3.0 to 5.0 feet). 2.2 WATER RESOURCES 2.2.1 Waters Impacted and Characteristics Streams and tributaries, within the project region, are part of the Cape Fear River Basin. The Cape Fear River Basin is further subdivided by watersheds. Bear Creek (located in subbasin #03-06-12) is part of the Deep River Watershed. In addition to impacts at the project area, it is assumed that project operations may potentially impact Rocky River further downstream. Bear Creek (Index # 17-43-16) is classified as a class "C" stream from its source to Rocky River. Class "C" streams are those defined as best suited for propagation and survival of aquatic life, fishing, wildlife, secondary recreation, and agriculture. 2.2.2 Water Quality The Benthic Macroinvertebrate Ambient Network (BMAN) is part of an ongoing ambient water quality monitoring program which studies long term trends in water quality. The BMAN program assesses water quality by sampling for selected benthic macroinvertebrate organisms at fixed monitoring sites. Benthic macroinvertebrates are 4 sensitive to subtle changes in water quality, and therefore, can be used as indicators to evaluate the overall health of stream systems. The most recent sample taken within the project region was conducted in 1990 (July), immediately downstream of the project area, where SR 2155 crosses Bear Creek. That sample received a BMAN bioclassification of "Good-Fair." No point source dischargers were identified within the project area or immediate surrounding area. A review of point source dischargers, permitted through the National Pollution Discharge Elimination System Program (NPDES), was conducted. The nearest discharger identified was the Barry Parker Residence, Facility NPDES # NCG550360, located outside of the project vicinity, approximately 5.0 kilometers (3.1 miles) upstream of the bridge. 2.2.3 Anticipated Impacts to Water Quality Each of the alternates have the potential to impact water quality. However, with erosion and sediment control measures set in place, impacts can be reduced to a negligible level. Minimal disturbance to existing vegetation, especially forest cover, will reduce water quality impacts as well. From an ecological perspective, Alternate 1 is the preferred alternate, primarily due to the limited amount of clearing and grubbing that will be _ required. Clearing, grubbing, and filling activities in the floodplain and adjacent upland forest cover will increase the potential for erosion and subsequent degradation of water quality. In addition, potential impacts may occur from the removal of stable vegetation along the streambank. Mature trees and shrubs with well established root systems are effective protection for streambanks against erosional forces. Loss of this type of vegetation creates the potential for both short and long term erosion. Alternate 1 proposes to replace the bridge on the existing location, and therefore, would require only minimal clearing on either side of the bridge. Alternate 2 requires impacts to the streambanks, floodplain and forest cover. This option proposes creating a temporary bridge [approximately 41 meters (135 feet) in length], to the west of the existing bridge, to detour traffic during project construction. Alternate 2 has the potential to clear approximately 30 linear meters (100 linear feet) of streambank and floodplain vegetation along Bear Creek. With each alternate, total long term impacts to water resources and aquatic communities resulting from the proposed project are expected to be negligible, given that proper erosion and sediment control measures are taken. In addition, the size of the project and typical construction methods required pose minimal large scale or long term impacts. Erosion and sedimentation will be most pronounced during the actual construction of the project when vegetation removal and the addition of fill material on the site, will cause the soil to be exposed. After completion, prompt revegetation and restoration of the disturbed area to its original condition will reduce the potential for erosion and water quality degradation. However, sedimentation guidelines should still be implemented and strictly enforced throughout the construction period to reduce the potential for excessive 5 soil erosion and the degradation of downstream water quality. In order to minimize potential impacts, NCDOT's Best Management Practices for the Protection of Surface Waters should be strictly enforced during the construction phase of the project. This would include: 1) Installation of temporary silt fences, dikes, and earth berms to control runoff during construction. 2) Placement of temporary ground cover or re-seeding of disturbed sites to reduce runoff and decrease sediment loadings. 3) Reduction of clearing along streams Non-point source runoff from agriculture is likely to be the primary source of water quality degradation in the project vicinity. Water quality, in North Carolina, is significantly influenced by nutrient loading. Long term impacts on streams, as a result of road construction, are not expected. 3.0 BIOTIC RESOURCES 3.1 INTRODUCTION This section describes the biological components and communities identified as part of the field investigation. Communities are divided into either terrestrial or aquatic systems. The flora and fauna identified for each community is provided, as well as, the fauna likely to be present based on vegetation and habitat. 3.2 TERRESTRIAL COMMUNITIES The field investigation resulted in the identification of seven terrestrial communities. These include three riparian forests, two upland forests, a utility buffer and a roadside shoulder. The riparian forests meet the definitions of a Piedmont/Low Mountain Alluvial Forest, a Piedmont/Mountain Levee Forest and a Piedmont Bottomland Forest as described by Schafale and Weakley .(1990). The utility buffer consists primarily of primary successional species, in addition to some invasive inclusions and other species common to the adjacent forested areas. The roadside shoulder is a small, approximately six meters (20 feet), buffer between SR 1010 and the adjacent landuses (forest cover, agriculture fields, and rural low-density residential). A The Piedmont/Mountain Levee Forest community comprises an area of approximately 53 meters (175 feet) beyond the southwest streambank; 15 meters (50 feet) beyond the northwest bank; and 23 meters (75 feet) beyond the streambank in the area to the southeast of the bridge. In general, the dominant canopy species is sweet gum (Liquidambar sryraciflua). Dominant trees are, on average, between 30 and 45 6 centimeters (12-18 inches) in diameter at breast height (DBH) and are approximately 30 to 60 years of age. Ironwood (Carpinus caroliniana), red maple (Ater ratbrum) and flowering dogwood (Corpus florida) dominate the midstory, while microstegium (Microstegium vimineum), poison ivy (Toxicodendron radicans) and Virginia creeper (Parthenocissus quinquefolia) dominate the groundcover. The Piedmont/Low Mountain Alluvial Forest community comprises an area of approximately 106 meters (350 feet) beyond the northeast streambank (in relation to the bridge). In general, the dominant canopy species are tulip tree (Liriodendron tulipifera), American elm (Ulmus americana), American sycamore (Platanus occidentalis), river birch (Betula nigra) and green ash (Fraxinus pennsylvanica). Dominant trees are, on average, between 30 and 45 centimeters (12-18 inches) in diameter at breast height (DBH) and are approximately 30 to 60 years of age. Ironwood and red maple dominate the midstory, while poison ivy and trumpet creeper are woody vines present. Microstegium comprises the herbaceous layer and dominates the ground cover. The Piedmont/Mountain Bottomland Forest community is situated in the far southwest portion of the project area. It measures approximately 2,090 sq. meters (22,500 sq. feet) and is contiguous to the Levee Forest community which separates it from Bear Creek. The canopy is dominated by tulip tree, sweet gum, American elm, and green ash. Dominant trees are, on average, between 30 and 45 centimeters (12-18 inches) in diameter at breast height (DBH) and are approximately 30 to 60 years of age. The midstory is made up of ironwood, red maple, American holly (Ilex opaca), and flowering dogwood. Microstegium, poison ivy, trumpet creeper (Campsis radicans), Chinese privet (Ligustrum sinense) and Virginia creeper are the primary species present in the groundcover. The Dry-Mesic Oak-Hickory Forest is located in the far northwest portion of the project area and comprises an area of approximately 2,440 sq. meters (26,250 sq. feet). The dominant canopy species in this community include tulip tree, sweet gum, green ash, northern red oak (Quercus rubra), white oak (Quercus alba), black oak (Quercus velutina), American elm, pignut hickory (Carya glabra) and shagbark hickory (Carya ovata). The midstory consists of ironwood, red maple, and Eastern red cedar (Junipertis virginiana), while the ground cover is dominated primarily by microstegium. The Mesic Mixed Hardwood Forest community is situated in the far southeast portion of the project area and comprises an area of approximately 1,625 sq. meters (17,500 sq. feet). The canopy in this community consists primarily of tulip tree, red oak, red maple and sweet gum. Red maple, flowering dogwood, and American holly make up the midstory and microstegium dominates the ground cover. Fescue (Festuca spp.) and several primary successional species, including tulip tree and sweet gum, are the prevalent vegetation within the roadside shoulder community. 7 The majority of the observed wildlife, especially throughout the forested areas, are common edge dwelling avian species. Tufted titmouse (Partrs bicolor), chipping sparrow (Spizella passerina), song sparrow (Melospiza melodia) and northern cardinal (Cardinalis cardinalis) were identified in the project area. Other species observed include gray squirrel (Sciurus carolinensis) and red-shouldered hawk (Buteo lineatus). Indications of beaver (Castor canadensis) were also present in the project vicinity. The forest cover within the project area serves as part of the ecological connectivity along the Bear Creek riparian corridor. The presence of large parcels of forest throughout the project vicinity, as well as, along Bear Creek suggest that the corridor is likely to serve as important foraging and breeding habitat for a diversity of wildlife species. Wildlife known to associate with the amount and type of forest cover within the project area, vicinity, and region would include a diversity of songbirds, including migratory species, forest interior dwelling birds, raptors, amphibians and reptiles (frogs, snakes and turtles). This habitat would also be suitable for many mammals such as red fox (Vulpes vulpes), beaver (Castor canadensis), eastern rabbit (.Sylvilagus floridanus), shrews (Sorex spp., Blarina spp., and Cryptotis spp.), mice (Peromyscus spp.), voles (Clethrionomys spp. and Phenacomys spp.) and eastern chipmunks (Tamias striatus). Nesting and breeding opportunities are present within the project area, however, this area serves as more of an edge habitat, and therefore, would not be ideal for forest interior dwelling species. 3.3 AQUATIC COMMUNITIES Three aquatic communities which have the potential to be impacted were identified within the project area. The first aquatic community that may be impacted consists of a portion of Bear Creek which is a lower perennial stream. This section of Bear Creek is characterized as a slow moving stream with an average width of approximately 18.2 meters (60 feet). This section of stream consists of several riffle pool complexes of different size, depth, and velocity. Overall, streambanks appear to be stable with vegetation covering greater than 50 percent of their surface. The second aquatic community is an intermittent stream flowing into the southwest streambank of Bear Creek. This system has the potential to be impacted by the proposed project. The intermittent stream totals approximately 38 meters (125 linear feet). This intermittent stream originates downslope of the forested wetland located in the southwest portion of the project area. The intermittent channel ranges in depth from approximately 0.5 meters (1 foot) in the upper portion to approximately 1.4 meters (4.5 feet) where it empties into Bear Creek. The width of the intermittent stream averages approximately 1.5 meters (5.0 feet). The intermittent stream was dry at the time of inspection. The lack of flow could be directly related to the time of year of the investigation, as well as, the unusual drought conditions of August, 1997. The banks of the intermittent stream appeared to be relatively stable, with some evidence of erosion in a small area of the upper portion. 8 The third aquatic community consists of a palustrine forested wetland associated with a bottomland hardwood forest. The wetland system is located in the southwest portion of the project area. The wetland measures approximately 3,251 sq. meters (35,000 sq. feet), and would be classified as a seasonally flooded, broad-leafed deciduous, palustrine forested wetland (PFOIA). Only a portion, approximately 930 sq. meters (10,000 sq. feet) will be impacted by the proposed project. Hydropyhtic vegetation present in the canopy includes tulip tree, sweet gum, and American elm. Red maple and flowering dogwood are the dominant species in the midstory. The herbaceous layer is dominated by microstegium, poison ivy, and Virginia creeper. Hydric soils were evident, including low chroma soils and reducing conditions. Hydrologic indicators included sediment deposition, buttressing, and stained leaves. Observation of aquatic fauna was limited to mollusks and benthic macroinvertebrates. An abundance of Asiatic clam shells (Corbicula manilensis) were dispersed along the river banks and shells of freshwater mussels (Uniondae) were evident as well. Based on a random, but qualitative sampling, along portions of Bear Creek within the project area, the diversity of benthic macroinvertebrates is moderate to high. Organisms found and identified include the following: damselfly larvae (Order Odonata), mayfly larvae (Order Emphemoptera), whirligig beetle (Order Coleoptera family Gyrinidae genus Dineutus), riffle beetle (Order Coleoptera family Elmidae), caddisfly larvae (Order Trichoptera) and hellgrammite (Order Megaloptera family Corydalidae genus Corydalus spp.). Of these organisms, caddisfly larvae dominated the sample. Based on a general assessment of habitat and water quality, it can concluded that a number of species of fish would typically inhabit Bear Creek. Some of the common fishes that occur in similar Piedmont streams are: golden shiner (Notemigonzrs crysoleucas), whitefin shiner (Cyprinella nivea), spottail shiner (Notropis alborus), rosyside dace (Clinostomus funduloides), silver redhorse (Moxostoma anisurum), Eastern silvery minnow (Hybognathus regius), tesselated darter (Etheostoma acuticeps), fantail darter (Etheostoma flabellare), creek chub (Semotilus atromaculatus), bluehead chub (Nocomis leptocephalus) and margined madtom (Noturus insignis). 3.4 SUMMARY OF ANTICIPATED IMPACTS Construction of the subject project may have several impacts on the biotic resources described. Any construction-related activities in or near these resources have the potential to impact biological functions. This section quantifies and qualifies impacts to the natural resources, in terms of area impacted and ecosystems affected. Project construction will result in clearing and degradation of portions of these communities. Table 1 summarizes potential quantitative losses to these communities. Impacts were determined by using the entire right-of-way width for each alternate. Impacts may be less, depending on the final sequence of operations. 9 Anticipated impacts to the biotic communities, in the project area, vary depending on the alternate selected. Alterations of the current environment will be temporary if the affected areas are revegetated and returned to their original state as quickly as possible. The aquatic community may be more sensitive to the effects associated with the construction process. Protection of water resources is critical to ensure that any impacts are minimal, short term and localized. Table 1. Summary of Community Impacts Community Alternate 1 Alternate 2 Piedmont/Low Mt. 325 sq. meters 650 sq. meters Alluvial Forest (3,500 sq.ft) (7,000 sq.ft) Piedmont/Mt. Levee 566 sq. meters 2,090 sq. meters Forest (6,090 sq.ft) (22,500 sq.ft) Dry-Mesic Oak- 418 sq. meters 4,180 sq. meters Hickory Forest (4,500 sq.ft) (45,000 sq.ft) Mesic Mixed no impacts 743 sq. meters Hardwood Forest (8,000 sq.ft) Piedmont/Mt. no impacts 952 sq. meters Bottomland Forest (10,250 sq.ft) Roadside Shoulder 743 sq. meters 1,672 sq. meters (8,000 sq.ft) (18,000 sq.ft) Utility Buffer 232 sq. meters 930 sq. meters (2,500 sq.ft) (10,000 sq.ft) Bear Creek 372 sq. meters 636 sq. meters (4,000 sq.ft) (6,850 sq.ft) Intermittent Stream no impacts 57 sq. meters (614 sq. ft) Palustrine Forested no impacts 930 sq. meters Wetland (10,000 sq.ft) Total Impacts 2656 sq. meters 12,840 sq. meters (28,590 sq.ft) (138,214 sq.ft) 4.0 JURISDICTIONAL TOPICS I/ ,/ This section provides descriptions, inventories and impact analysis pertinent to two important state and federally regulated natural resource issues -- Waters of the United States and rare and protected species. 4.1 WATERS OF THE UNITED STATES Surface waters and wetlands fall under the broad category of "Waters of the United States," as defined in Section 33 of the Code of Federal Register Part 328.3. Wetlands, 10 defined in 33 CFR 328.3, are those areas inundated or saturated by surface or groundwater at a frequency and duration sufficient to support, and under normal circumstances, do support a prevalence of vegetation typically adapted to life in saturated conditions. Any action that proposes to place fill into these areas falls under the jurisdiction of the U.S Army Corps of Engineers (COE) under Section 404 of the Clean Water Act (33 U.S.C. 1344). 4. 1.1 Characteristics of Wetlands and Surface Waters Criteria to delineate and/or determine whether wetlands are jurisdictional include evidence of hydric soils, hydrophytic vegetation and evidence of certain hydrologic characteristics during the growing season. During the August 15, 1997 investigation, each of the aforementioned components were identified at one location (Wetland System 1) within the project area. Having met all three criteria, this area, which is described in Section 3.3, meets the definition of a jurisdictional wetland. In addition to the Wetland System 1, Bear Creek and an intermittent stream (flowing into Bear Creek) were identified as jurisdictional surface waters. Wetland System 1 has the potential to be impacted as a result of the bridge replacement, however only a portion of the system would be impacted (by alternate 2) due to the proposed project. (Appendix D contains specific information and mapping of the identified wetlands.) A review of the NWI maps for the project area identified two wetland systems. Bear Creek is classified as a riverine, lower perennial stream, with an unconsolidated bottom (R2UBH). The hydrologic regime is considered permanently flooded. Despite being present on the NWI map, the other system, a temporarily flooded, broad-leaf deciduous palustrine forested wetland (situated to the east of the bridge), did not meet the wetland criteria during the field investigation. Wetland System 1, which was identified during the field investigation, is not shown on these NWI maps. 4.1.2 Permits Impacts to jurisdictional surface waters are anticipated. Jurisdictional surface waters are present in the form of Bear Creek, which will be crossed and likely impacted as a result of the proposed project. In accordance with provisions of Section 404 of the Clean Water Act (33 U.S.C. 1344), a permit will be required from the COE for the discharge of dredged of fill material into "Waters of the United States." A Nationwide 23 Permit will be required for the proposed project. A Section 404 Nationwide Permit 33 CFR 330.5 (a)(23) is likely to be applicable for all impacts to "Waters of the United States," from the proposed project. This permit authorizes activities undertaken, assisted, authorized, regulated, funded or financed in whole, or part, by another Federal agency or department where that agency or department has determined that, pursuant to the Council on Environmental Quality (CEQ) regulation for implementing the procedural provisions of the National Environmental Policy Act: 1) the activity, work, or discharge is categorically excluded from environmental documentation because it is included within a category of actions which neither individually nor cumulatively have a significant effect on the human environment, and, 2) the office of the Chief of Engineers has been furnished notice of the agency or department's application for the categorical exclusion and concurs with that determination. A North Carolina DWQ Section 401 Water Quality General Certification is required prior to the issuance of the Section 404 Nationwide 23 Permit. Section 401 Certification allows surface waters to be temporarily impacted for the duration of the construction or other land manipulations. The COE has adopted, through 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, specifically wetlands. Mitigation of wetland impacts has been defined by 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 COE, 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, 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 of median widths, ROW widths, fill slopes and/or shoulder widths. Other practical mechanisms to minimize impacts to Waters of the United States crossed by the proposed project include: strict enforcement of sedimentation control BMP's for the protection of surface waters during the entire life of the project; reduction of clearing and grubbing activity; reduction/elimination of direct discharge into streams; reduction of runoff velocity; re-establishment of vegetation on exposed areas, judicious pesticide and herbicide usage; minimization of "in-stream" activity; and litter/debris control. 12 4.1.3 Water Permits A North Carolina DWQ Section 401 Water Quality General Certification is also required. Section 401 of the Clean Water Act requires that the state issue or deny water certification for any federally permitted or licensed activity that may result in a discharge into "Waters of the United States." The issuance of a 401 permit from DWQ is a prerequisite to issuance of a CAMA or Section 404 Permit. This project will require a 401 Water Quality General Certification from the DWQ prior to the issuance of the Nationwide Permit. Section 401 of the Clean Water Act requires that the State issue or deny water certification for any federally permitted or licensed activity that may result in a discharge into "Waters of the United States." 4.2 RARE AND PROTECTED SPECIES Some populations of fauna and flora have been in, or are in, the process of decline either due to natural forces or their inability to coexist with human activities. Federal law (under the provisions of the Endangered Species Act of 1973, as amended) requires that any action likely to adversely affect a species classified as federally-protected, be subject to review by the Fish and Wildlife Service (FWS). Other species may receive additional protection under separate state laws. 4.2.1 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. As of May, 1997, the FWS lists the following federally-protected species for Chatham County (Table 2). A brief description of each species' characteristics and habitat follow. A review of the National Heritage Program database of uncommon and protected species revealed no recorded occurrence of federally-protected species in or near the project area. C] 13 F L Table 2. List of Federally-Protected Species in Chatham County Scientific Name Common Name Status Picoides borealis red-cockaded woodpecker Endangered (E) Haliaeetus leucocephalzrs bald eagle Threatened (T) Notropis mekistocholas Cape Fear shiner Endangered (E) Ptilimnium nodosum Harperella Endangered (E) Note: Endangered (E) is defined as a species that is threatened with extinction throughout all or a significant portion of its range. Threatened (T) is defined as a species likely to become endangered within the foreseeable future throughout all or a significant portion of its range. Species Description Picoides borealis (red-cockaded woodpecker) Endangered Animal Family: Picidae Date Listed: October 13, 1970 The adult red-cockaded woodpecker (RCW) has a plumage that is entirely black and white except for small red streaks on the sides of the nape in the male. The back of the RCW is black and white with horizontal stripes. The breast and underside of this woodpecker are white with streaked flanks. The RCW has a large white cheek patch surrounded by the black cap, nape and throat. The RCW uses open old growth stands of southern pines, particularly longleaf pine (Pinus palustris), for foraging and nesting habitat. A forested stand must contain at least 50% pine, lack a thick understory, and must be contiguous with other stands to be appropriate habitat for the RCW. These birds nest exclusively in trees that are 60 years or older and that are contiguous with pine stands at least 30 years of age. The foraging range of the RCW is up to 200 hectares (500 acres). This acreage must be contiguous with suitable nesting sites. These woodpeckers nest exclusively in living pine trees and usually in trees infected with the fungus that causes red-heart disease. Cavities are located in colonies from 3.6 to 30.3 meters (12 to 100 feet) above the ground and average 9.1 to 15.7 (30 to 50 feet) high. They can be identified by a large encrustation of running sap that surrounds the tree. The RCW lays its eggs in April, May, and June; the eggs hatch approximately 38 days later. Biological Condition: NO EFFECT A review of the Natural Heritage Program database of uncommon and protected species revealed no recorded occurrence of the RCW in or near the project area. A search for the RCW and its preferred habitat was conducted on August 15, 1997, during the field 14 investigation. The methodology used to determine the presence of the protected species included direct audible observations and comparing known habitat conditions for the RCW to the existing habitats within the project area. The search did not result in the identification of either the RCW or its preferred habitat. Haliaeetus leucocephalus (bald eagle) Threatened Animal Family: Accipitidae Date Listed: March 11, 1967 The bald eagle is a large, dark brown bird having a characteristic white plumed head and tail, as well as, a heavy yellow bill. Immature birds lack this characteristic plumage but can be recognized by blotchy white plumage on the underside of the wings, bell ap_d tail. These large birds can achieve a size of 69 to 94 centimeters (27 to 37 inches) with a wingspan of 1.8 to 2.3 meters (6 to 7.5 feet). Bald eagles range across North America but restrict themselves to areas dominated by large bodies of water. Nesting sites are generally situated within 800 meters (0.5 miles) of the water with the stick nest, up to three meters across, constructed in the largest living tree in the area. The breeding season begins in December or January and results in two to three white eggs being laid. Diet is representative of their habitat, mainly consisting of fish, but small mammals and other birds are occasionally taken. Bald eagles readily scavenge and are known to steal fish from hunting osprey (Pandion haliaetus). Dramatic decreases in population accompanied increased use of powerful pesticides. These poisons accumulated in the food chain and led to widespread reproductive failure. The regulatory action banning the use of such pesticides has led to a slow increase in the populations of the bald eagle and the bird is once again inhabiting portions of its historic range. In some instances, man's alteration of the landscape has aided in the bald eagle's recovery. The creation of large reservoirs has increased potential habitat and food stocks. Biological Condition: NO EFFECT A review of the Natural Heritage Program database of uncommon and protected species revealed no recorded occurrence of the bald eagle in or near the project area. A search for the bald eagle and its habitat was conducted on August 15, 1997, during the field investigation. The methodology used to determine the presence of the protected species included direct audible observations and/or comparing known habitat conditions for the bald eagle to the existing habitats within the project area. The search did not result in the identification of either the protected species or its habitat. Notropis mekistocholas (Cape Fear shiner) Endangered Animal Family: Cyprinidae Date Listed: September 25, 1987 The Cape Fear shiner, described by Snelson (1971), is a small (rarely exceeding 5 centimeters/2 inches in length), moderately stocky minnow. The fish's body is flushed 15 with a pale silvery yellow, and a black band runs along its side. The fins are yellowish and somewhat pointed. The upper lip is black, and the lower lip bears a thin black bar along its margin. The lateral line is complete but dips slightly from its head to below the dorsal fin. The round eye is moderate in size and is located on the side of the head. It is distinguished from other Notropis by having an elongated alimentary tract with two convolutions crossing the intestinal bulb. The Cape Fear shiner is generally associated with gravel, cobble and boulder substrate, and it has been observed inhabiting slow pools, riffles, log jams and slow runs often F associated with water willow (Justicia americana) beds. In these habitats, the species is typically associated with schools of related species, but it is never the numerically dominant species. Juveniles are often found in slackwater, among large rock outcrops in mid-stream, and in flooded side channels and pools. Lands associated with this riverine habitat are primarily second and third growth mixed hardwood and softwood forests (oak- pine), some limited croplands (corn), pasture and rural residential. Rocky boulder riverine habitat is important for the species. It appears that loss of this habitat has reduced the species' range. The Cape Fear shiner schools with other Notropis species. The interactions with these species are likely to be important for the Cape Fear shiner. The Cape Fear shiner may always have existed in low numbers. However, its recent reduction in range and its small population size increases the species vulnerability to a catastrophic event. Dam construction in the Cape Fear system has probably had the most serious impact on the species by inundating the species' rocky riverine habitat and altering stream flows. A review of historic collection records, along with recent survey results, indicates that the Cape Fear shiner is presently restricted to only four populations. Of the four remaining populations, only the one located at the confluence of the Deep and Rocky River in Chatham and Lee Counties [inhabiting a total of about 10.5 kilometers (7.3 river miles)] appears strong. The second population in the Rocky River, above the hydroelectric facility, was the source of the type of specimens used to describe the species. Historic records reveal that collections of the 15 to 30 specimens could be expected in this stretch of the Rocky River SR 902 or SR 1010 bridge) during a sampling visit in the late 1960's and early 1970's. Recent samples (1985 and 1986) were taken from the Rocky River throughout this reach with only one specimen collected. The reason for the apparent decline in this population is unknown. Biological Conclusion: UNRESOLVED A review of the Natural Heritage Program database of uncommon and protected species revealed one recorded occurrence of the Cape Fear shiner in or near the project area. A search for the species was not conducted. 16 Ptilimnium nodosum (Harperella) Endangered Plant Family: Apiaceae Date Listed: September 28, 1988 Harperella is an annual herb in the carrot family, having fibrous roots and erect to spreading stems. Stems are green and often have a purplish color at the base; branching occurs above mid-stem. Leaves are hollow and quill-like with bases that are broadly clasped. Its small, white flowers occur in five to fifteen umbels and resemble those of Queen Anne's Lace (Daucus carota). This species is known to inhabit two distinct habitat types. The first being an intermittent pineland pond habitat and the second being a riverine habitat characterized by gravel shoals or on the margins of clear, swift flowing streams. Populations occurring in pond type habitats flower beginning in May, while those in riverine settings flower in late June to July and continue to bloom until the first frost. This species ranges in height from 0.15 to 1.0 meters (6 to 36 inches). Harperella is relatively prolific and localized populations can achieve high densities. Harperella requires saturated substrates and is tolerant of periodic, moderate flooding. This type of water regime may serve to reduce or eliminate competitors for these habitat types. Populations may be declining due to alterations of these water regimes. Impoundments, water withdraw and drainage/deepening of ponds all contribute to hydrologic disruptions. Additional factors such as siltation, pollution and shoreline development are known to adversely affect harperella populations. Historically, harperella ranged from Maryland, West Virginia, Kentucky, North Carolina, Alabama, and the coastal plains of South Carolina and Georgia. It is now restricted to a total of ten populations and has been eliminated from over half of its known range. There is one known population of harperella in Chatham County. Biological Condition: NO EFFECT A review of the Natural Heritage Program database of uncommon and protected species revealed no recorded occurrence of harperella in or near the project area. A search for harperella was conducted on August 15, 1997, during the field investigation. The methodology used to determine the presence of harperella included direct observations and comparing known habitat conditions for the species to the existing habitats within the project area. The search did not result in the identification of either the protected species or its habitat. 4.2.2 Federal Species of Concern and State Listed Species There are 6 species that are listed as Federal Species of Concern (SC). Federal Species of Concern are not afforded federal protection under the Endangered Species Act and are not subject to any of its provisions, including Section 7, until they are formally proposed or listed as Threatened or Endangered.. FSC species are defined as organisms which are 17 vulnerable to extinction although no sufficient data currently exists to warrant a listing of Endangered, Threatened, Proposed Endangered, or Proposed Threatened. Organisms which are listed as Endangered (E), Threatened (T), Special Concern (SC), Significantly Rare (SR) or Candidate (C) by the North Carolina Natural Heritage Program list of Rare Plant and Animal Species are afforded state protection under the State Endangered Species Act and the North Carolina Plant Protection and Conservation Act of 1979; • however, the level of protection given to state-protected species does not apply to NCDOT activities. Table 3 lists federal species of concern and their state status (if afforded state protection). This species list is provided for informational purposes as the status of these species may be upgraded in the future. Table 3. List of Species of Federal Concern and Special State Status Scientific Name Common Name Status Aimophilia aestivalis Bachman's sparrow SC Alasmidonta varicosa brook floater T Fusconaia masoni Atlantic pigtoe T Gomphus septinta Septima's clubtail SR Lampsilis cariosa yellow lampmussel T Isoetes virginica Virginia quillwort C A review of the database of the NC Natural Heritage Program rare species and unique habitats was conducted prior to field visits. The search revealed 1 occurrence of a unique habitat within the project vicinity. The Rocky Bar and Shore habitat lies approximately 365 meters (1200 feet) downstream of the project area. The relative closeness of this habitat to the proposed project creates the potential for it to be impacted during project operations. 18 r G 5.0 REFERENCES Collins, Henry Hill. 1981. Harper and Row's Complete Field Guide to North American Wildlife, Eastern Edition. Harper and Row, Publishers. New York. Merritt, R. W. and Cummins, K.W. 1984. An Introduction to the Aquatic Insects of North America. Kendall/Hunt Publishing Co., Dubuque, IA. NCDEHNR-DEM. 1993. Classifications and Water Quality Standards Assigned to the Waters of the Cape Fear River Basin. Raleigh, NC. NCWRC. 1990. Endangered Wildlife of North Carolina. Wildlife Resources Commission, Raleigh, NC. NHP. 1997. Natural Heritage Program List of the Rare Plant Species of North Carolina. North Carolina Natural Heritage Program, Division of Parks and Recreation, DEHNR NRCS. Unpublished Soil Survey of Chatham County. United States Department of Agriculture, Natural Resources Conservation Service. Peterson, Roger Tory. 1980. Eastern Birds. Houghton Mifflin Co., Boston, MA. Radford, A.E., H.E. Ahles and G.R. Bell. 1968. Manual of the Vascular Flora of the Carolinas. Chapel Hill, The University of North Carolina Press. Schafale, M.P. and A.S. Weakley. 1990. Classification of the Natural Communities of North Carolina Third Approximation North Carolina Natural Heritage Program, Division of Parks and Recreation, NCDEHNR. U.S. Fish and Wildlife Service. 1979. Classifications of Wetlands and Deep Water Habitats of the United States. Washington D.C. U.S. Fish and Wildlife Service. 1992. Endangered and Threatened Species of the Southeastern United States (The Red Book), "Cape Fear Shiner."USFWS, Atlanta, GA. U.S. Fish and Wildlife Service. 1992; 1995. NWI Map (Siler City, NC; Pittsboro, NC). U.S. Geological Survey. 1968. Siler City, NC Quadrangle, 1988. Pittsboro, NC Quadrangle. 19 Figure. l e vicinity Map Bridge No 0 170 on SR 1010 over Bear Creek Chatham County, NC Opium er City 87 Pittsboro 1 Bridge No, 170 over Bear Creek oBoni 421 M ear Creek aywood \ 1 1 oGoldston 421 oGulf OCu611? O V , i 1 oColon 42 421 I 42 Glendon an ord 42 Broad 78 Tramway 421 1 Figure 2. Location Map Bridge No. 170 on SR 1010 over Bear Creek Chatham County, NC I= I A Photograph 2 - View of Bear Creek. downstream of Bridge No. 170. Photograph 4 - View of intermittent stream and palustrine forested wetland in the southwest portion of the study area. Photograph 3 - View of Bridge No. 170 looking north along SR 1010. Appendix C Alternate Plans and Proposed Impacts ¦¦ olog b '17 7L 17? v a a h n n n n n n h CO) cl? Cn t CA U) cn O O O O o O O O a a CL CD r. x CL ? O D Cl. r1 ?, O rD O O coo p- O (D r" hqhh,l i I F? 1/l H N Appendix D Wetland Information and Site Maps PROFESSIONAL ASSESSMENT OF WETLAND QUALITY Project: Date of Review: Wetland ID: Watershed: DWQ Sub-basin code Cowardin Classification: 8.2521501 September 4, 1997 WS1 Cape Fear River 03-06-12 PFOIA NARRATIVE DESCRIPTION: County: Evaluator: Wetland Area: Subwatershed: USGS Hydrologic Unit: Chatham Joe Pfeiffer 3251 sq. meters Bear Creek The subject wetland is a seasonally saturated forested wetland in the riparian area of Bear Creek. Its primary hydrologic source appears to be groundwater with some contribution from overland and flood flows. It is dominated by deciduous hardwoods and occupies an irregular area, defined by minor changes in topography. FUNCTION AND VALUE ASSESSMENT: Groundwater Recharge High Moderate Low X Groundwater Discharge High Moderate X Low Flood Flow Alteration High Moderate X Low _ Sediment Stabilization High Moderate X Low _ Sediment/Toxins Retention High Moderate X Low _ Nutrient Removal/Transformation High Moderate Low _ X Production Export High Moderate Low X Wildlife Species Diversity/Abundance High Moderate X Low Aquatic Species Diversity/Abundance High Moderate Low _ X Uniqueness/Heritage High Moderate Low X Recreation High Moderate Low X it COMMENTS: Due to its position on the landscape, the hydrologic influence of groundwater and flood flow create marginal wetland characteristics. This lack of defined hydrology limits the functional values of this wetland. CS V5w""11v sc A? Signature of Evaluator: oc° NNE / o 0 -o SWS . ? ??0o& 000927 f` ROUTINE WETLAND DETERMINATION (1987 COE Wetlands Delineation Manual) W {4Adl S dean Project/Site: SA.+ 51621501 T1-PJ1 --3133 Date: $- 15- q1 Applicant/Owner: NOpOT County: rHATNArU Investigator: TS MM JIT- State: pje Do Normal Circumstances exist on the site? 'e No Community ID: Is the site significantly disturbed (Atypical Situation)? Yes tN?_> Transect ID: Is the area a potential Problem Area? Yes ® Plot ID: (If needed, explain on reverse.) VEGETATION Dominant Plant Soeeies Stratum Indicator Dominant Plant Soccies Stratum Indicator t. ?,a'ou?darn?oy AjrazNIUD. I FA C,'+ 9. 2-AI LL- V LKkX 0L A 2 FAC 10. 3•]MtcXOSkQ?ItAMA yioiotuaW _ { AC'f 11. ?._ Cor?Lt?s 1 or cda 2 FA CU 12. 5• rAG 13. s. C FAc 14. 7. 14i S SOO• _+ 15. s._ pQr'-}WtnO (;i S?u.C ouitn tul,?i7lia. 4?8C. 1 s. Percent of Cominant Species that are OBL, FACW or FAC ( l i - - 50 ?o ?? exc ud ng FAC-). Remarks: Jura{ tl C de??tC 1 ?tD.'TIOhS ?- Treu $ ?- SQ9 ?tdLa1S' \ 3- Nerbs 4..-? y ?(r?s OCA HYDROLOGY Recorded Data (Describe In Remarks): Stream, Lake, or Tide Gauge _ Aerial Photodrapha v _ Other )L No Recorded Data Available _ Wadand Hydrology Indicators: Primary Indicator: _ Inundated _ Saturated in Upper 12 Inches -Water Marks _ Drift Linos _ Sediment Deposits Field Observations: Drainage Panama in Wedands Secondary Indicators (2 or more required): Depth of Surtaca Water: O (in.) _ Oxidized Root Channels in Upper 12 Inches Water-Stained Leaves Depth to Free Water in Pit: 7 t2-On.) _ A Local Soil Survey Data D ?Z _ FAC•Nautral Tcst epth to Saturated Soil: - (in.) _ Other (Explain in Remarks) Remarks: SOILS I Map Unit Name , ;. '; ? (Series and Phase): ?ll(f1PlAf "., ?XX IQS I [? Drainare Crass: QL Taxonomy (Subgroup): (??p?? ? ?1..( ()-LQm - - SI H I? Fcld Obsorvations - Conlirm Mapped Type) Yes No Profile Descriotion: , Depth inches) Horizon i_ Matrix Color {Munsell htoistl Mottla Colors (.„ luns ll M i ) Mottle Texture. Concretions, e o st At:undanceiConrrest structure, etc. 0 - I d 1b yE sI (, lu=z? to >? ? 2 to s ? _ oavK? 20? o 1 oa _ tww - At Hydric Soil Indicators: _ Histosol _ Histic Epipadon Sulfidic Odor _ Aquic Moisture Regime Reducing Ccnditions ,L( Gleyad or Low-Chroma Colors _ Concretions High Organic Content in Surface Layer in Sandy Soils _ Organic Streaking in Sandy Soils A_ Listed on Local Hydric Soils List _ Listed on National Hydric Soils List _ Other (Explain in Remarks) Remarks: VISI?aSI Ob'S4?r?T0.-?CIOv?3 IV1G`1CO.?'Cd «d?C.?vt? C r?c?ru,l itk-e-J- ox idizlwI) cotkdi+iOhS. WETLAND DETERMINATION Hydrophytic Vegetation Present? Ya No (Circle) Wedand Hydrology Present? as No Hydric Soils Present) V. No (Circle) Is this Sampling Point Within a Wedand? os No Remarks: Approved by WJ'TLA.IDi RATING WOPKSHEDT (4th VERSION), <t B Tlf * a52 ?so1 . Pro j e c t Name: B-3133 County: CHATHAM co. , NC 2 Nearest Road: SR. IOIp Date: A- 1S-47 Cvetland area (ac): L 1ou`. We tland sYidti ( I z 5100??. lame of Evaluator(s):11L MM tlan ^ Location: Adiacent Land Use on sound or estuary (within 1/2 mi upstream, pond or lake uoslope, or radius) _ on perennial st=eam forested/natural veg. %0 on intermittent stream agriculture/urban:z° d ??; within interstream dir-ide _ impervious Suriace 2 other. _? ?..._ : 1 Q, ace: l Special NG L 4: a l ... eGS Dominant vese- `:cn Soil Series G4umd (i) Liou i (Lm(D r S?vn?(`Aflt?a predominant !.v orC-_ni (?) Aexr ruhrum ( ,umus, muc!: or peat) (3) (.Drvlus Florida p_ eco,minanz 1,: mineral (non-sandy) MiC?QSf iam vinnine v? _ecorinanLlV Sa^.'. 1006;- ci:^ Wetness semipermanent l:. to ?vdra 1i >ac.a s Der,manen.z1 '. !coded c_ _(L I eSlnvaIer br?c i s h inundated St?°? tOpO?rap seasonal iv flooded 0- X _ G- c.,ec o_ c`ann_ l i zed _nL' :, a z e d total wetland width > 100 fleet. _L intermittanz1y _1ocded c. le,r,luoL a.7 sur. GL? •:;a le? t•??-1 an^ -D° (selec, one) no e•ricence ci -17 - X BO zcmlcnd .-a: d-, cod i o. es _ SU. ace ware J 1 forest Eog/-en Caro! i n a La; ;.e d*;,,aLer `Oresz :Occsin L-D fCreSt ?i ne Sa: a n n a h _7phlemeral Wetland _ -esh ater Mars.. 0zlner =The sysz_m can`ic; be applied to sail or Grac'.?is? marshes c s z 1 eal,m cl,anne 1 S DEM F-ATING WATER STORAGE _ x 4.00 - 12_ °:.`K/SHORELINE STABILIZATION x 4.00 = + POLLUTANT REMOV=L x 5.00 = GJ CrILJLIF= H .31TAT x 2.00 = to AQU=TIC LIFE VAL`JE 17 x "..00 = _ ((0 R _EC-i ION DLC.'.-i 10N x 1 . C0 = WETL a FD SCORE = (TOT :.L ) * ?•c= 1 70i C is in Se^,Sit??'° s'ed and >.O: nonoc:nC disturbance lii:il 1 ,'_ mi:. ^SC:a.ar. :DSlCC2, Cr raGiu5. i _Q O-Z 0 s O Y 44 ? O z d _ ? ? a A hUU i INE WET LAND DETERMINATION t (1987 COE Wetlands Delineation Manual) Project/Site: S{•4 $•2521501 -TQ ?A a - 3133 Date: ^ lS- 47 ApplicantlOwner: NCWT County: CNATNAst Investigator: 6T5 i; • (?titM State: Do Normal Circumstances exist an the site? No Community ID: Is the site significantly disturbed (Atypical Situation)? Yes ® Transec: ID: Is the area a potential Problem Area? Yes to Plot ID: (If needed, explain an reverse.) VEGETATION Dominant Plant Soeeies Stratum Indicator Domine m Plant Soeci_s Stratum Indicator 1 •__?Ll.1n i i)P(uc 1/IYQ 1 110 V1Q FACU" ` 9. V t?l C ?r7?. `t' t =•_Acc.r Ytlhrttwn ?_ FAG to CerGS (0.V10.AtmS s 1 Rat a. Y i,n ve ?e FAG 11.1 ( rcLts ??o ?r __ _I c FA 4. 2 FAC_ 1 12.?0.ftt?NOC?S?u,C ¢u?y?p? ? ? • , ?5D1 s. T i iCo,n 4 FAC 13. ? 6• l,Drt{ U,S florlda, 2 FAC(A 14. 7. _1-I?t? InQLMbQ?f S?YYaaG?lt<0. ( ?Ac+ 15. v 8. 11??YY11 tS QW1Pt?i f QAOL 16. Portent of Cominant Special that are 08L. FACW or FAC (excluding FAC•) a1 58 ro EA W (- ki . C- r Ct .A Romarkz: HYDROLOGY Recorded Data (Dascribe In Remarks): Stream. Ldka, or Tida Gauge _ Aerial Photographs _ Other No Recorded Data Available Wadand Hydrology Indica(ors: Primary Indicator: _ Inundated _ Saturated in Upper 12 Inches Water Marks _ Drift Lines _ Sediment Deposits Field Observations: _ Drainage Psaams in Wedands Secondary Indicators (2 or more required): Depth of Surface Water: Gn.) _ Oxidized Root Channels in Upper 12 Inchoa Wator•Stained Leaves Depth to Free Water in Pit: _ Local Soil Survey Data D _ FAC•Nautral Tcst epth to Saturated Soil: Other (Explain in Remarks) Remarks-. f L i f SOILS Mao Unit Name (Series and Phase): Taxonomy (Subgroup?: n (? NIA. So (") I l?\1 Iv0L?YI- Q h t es Drainare :ass: ? tp pJd ?., pp,,?/ cld Cbsarvations "w (Dyyu Ag F'-,d Canlirm Mapped T ? N 7 X : II ) Profile Oescriotion: ypc o v % w I Depth finches? Horizon Matrix Color fMunsell,tifoistl Mottle Colors Mama Texture. Concretions. (`.tunsell Moist? AtundanceiConrrest Structur t I 0_g 7.5 yR s e, e c. 100L R-IA 7• S YR?t, l II a w ? ?- 2?- ?• s Y? 5Ib 0. i l . Y > 77.5 yQ 51(v GIc?JeV IOO,M CC0.r Hydric Soil Indicators: _ Histosol _ Hisric E;ipodon _ Sulfidic Odor _ AGuic -Moisture Ragime _ Reducing Conditions _ Cloyed or Low-Chroma Colors Remarks: _ Concretions _ High Organic Content in Surtaca Layer in Sandy Soils _ Organic Streaking in Sandy Soils _ Listed on Local Hydric Soils List _ Listed on National Hydric Soils List _ Other (Explain in Remarks) WETLAND DETERMINATION Hydrophyric Vegetation Present? Wadand Hydrology Prasenc? Hydric Soils Present? Remarits: as No (Circle) Yos 19 Yea o Is this Sampling Point Within a Wadand? Approves (Circle) Y a s No kvv sks C4Gk W.U.S. - Chatham County Bear Creek Flagged Data Point S1 Upstream X Downstream Distance from Bridge 300 feet Width of Stream @ Data Point_ 75 feet S2 X 225 feet 75 feet S3 X 175 feet 75 feet S4 X _ 125 feet 60 feet S5 X _ 90 feet 70 feet S6 X 50 feet 65 feet S7 X 5 feet 75 feet S8 X 20 feet 55 feet S9 X 75 feet 65 feet S10 X 100 feet 45 feet S11 X 140 feet 35 feet S12 X 200 feet 55 feet