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20160191_Jurisdictional Determination_20141015
d�4UtFQ STATE OF NORTH CAROLINA DEPARTMENT OF TRANSPORTATION PAT L.MCCRORY ANTHONY J.TATA GOVERNOR SECRETARY July 17,2014 Washington Regulatory Field Office US Army Corps of Engineers 2407 West 51h Street Washington,North Carolina 27889-1000 A TN: Mr.Tom Steffens NCDOT Coordinator Dear Sir: SUBJECT: Jurisdictional Determination Request for Greenville Southwest Bypass in Pitt County, TIP R-2250,Action Id. 200510674(ref. 200310799& 199400192). Carolina Ecosystems, Inc. (CEI) has completed a jurisdictional stream and wetland delineation on the above referenced project for the North Carolina Department of Transportation (NCDOT) Natural .Environment Section (NES). The attached information is submitted for your review and determination of jurisdiction under the Clean Water Act. Please see the attached supporting documents: 1) Jurisdictional Determination.Request Form 2) Jurisdictional Determination("Rapanos")Forms 1-7 3) Stream and Wetland Summary Tables 4) Project Vicinity Map(Figure 1) 5) USGS Quadrangle Map(Figure 2) 6) NRCS Soil Survey Map(Figure 3) 7) Jurisdictional Features(Figure 4) 6) Stream and Wetland Data Forms Project Description&Methodology The study area for this project is a section of the proposed Greenville Southwest Bypass from NC 264 north of Stantonsburg Road to NC 11 north of Jacksontown Road. The 847 acre study area lies within the Neuse River Basin (USGS Hydrologic Units 03020202 and 03020203) and Tar Pamlico River Basin (USGS Hydrologic Unit 003020103). A previous jurisdictional wetland delineation was performed in 2006. The field work for the current delineation was performed from November 12, 2013 - January 8, 2014 in compliance with methodology set forth in the USAGE Wetland Delineation Manual (USACE 1987) and subsequent guidance. This included the use of the four statum Wetland Delineation Form for the Atlantic and Gulf Coastal Plain (Version 2.0). Streams were assessed for jurisdiction under the Clean Water Act using field indicators of ordinary high water mark and the NC Division of Water Quality Stream Identification Form Version 4.11. Previously delineated streams and wetlands were field verified for jurisdiction and accuracy. New wetland boundaries were delineated using survey flagging at regular locations along the wetland-upland MAILING ADDRESS: LOCATION: NC DEPARTMENT OF TRANSPORTATION TELEPHONE: 919-707-6000 CENTURY CENTER,BUILDING A PROJECT DEVELOPMENT AND ENVIRONMENTAL ANALYSIS FAX: 919250-4224 1000 BIRCH RIDGE DRIVE ALAO\A♦. brn..+nr l.-.err.+ O.i ring.\I l+'1-/nAn des 57A?Fa STATE OF NORTH CAROLINA DEPARTMENT OF TRANSPORTATION PAT L.MCCRORY ANTHONY J.TATA GowmoR SECRETARY July 17,2014 Washington Regulatory Field Office US Army Corps of Engineers 2407 West 5,h Street Washington,North Carolina 27889-1000 A`1'TN: Mr.Tom Steffens NCDOT Coordinator Dear Sir: SUBJECT: Jurisdictional Determination Request for Greenville Southwest Bypass in Pitt County, TIP R-2250,Action Id.200510674(ref.200310799& 199400192). Carolina Ecosystems, Inc. (CEI) has completed a jurisdictional stream and wetland delineation on the above referenced project for the North Carolina Department of Transportation (NCDOT) Natural Environment Section(NES). The attached information is submitted for your review and determination of jurisdiction under the Clean Water Act. Please see the attached supporting documents: 1) Jurisdictional.Determination Request Form 2) Jurisdictional Determination {"Rapanos")Forms 1-7 3) Stream and Wetland Summary Tables 4) Project Vicinity Map(Figure 1) 5) USGS Quadrangle Map(Figure 2) 6) NRCS Soil Survey Map(Figure 3) 7) Jurisdictional Features(Figure 4) 6) Stream and Wetland Data Forms Project Description&Methodology The study area for this project is a section of the proposed Greenville Southwest Bypass from NC 264 north of Stantonsburg Road to NC I 1 north of Jacksontown Road. `l'he 847 acre study area lies within the Neuse River Basin (USGS Hydrologic Units 03020202 and 03020203) and Tar Pamlico River Basin (USGS Hydrologic Unit 003020103). A previous jurisdictional wetland delineation was performed in 2006. The field work for the current delineation was performed from November 12, 2013 - January 8, 2014 in compliance with methodology set forth in the USACE Wetland Delineation Manual (USACE 1987) and subsequent guidance. This included the use of the four statum Wetland Delineation Form for the Atlantic and Gulf Coastal Plain(Version 2A). Streams were assessed for jurisdiction under the Clean Water Act using field indicators of ordinary high water mark and the NC Division of Water Quality Stream Identification Form Version 4.11. Previously delineated streams and wetlands were field verified for jurisdiction and accuracy. New wetland boundaries were delineated using survey flagging at regular locations along the wetland-upland MAILING ADDRESS: LOCATION, NC DEPARTMENT OF TRANSPORTATION TELEPHONE: 919-707-6000 CENTURY CENTER,BUILDING A PROJECT DEVELOPMENT AND ENVIRONMENTAL ANALYSIS FAX: 919.250-4224 1000 BIRCH RIDGE DRIVE FFAa AAa•e C.-n•..nn!^.-.• .-.+ �.i rnr Tll1".nw/1 boundary. All boundaries either form complete polygons,tie to surface water features such as streams or ponds, or tie to the edge of the study area.New wetland boundaries and streams were located using sub meter GPS technology to NCDOT standards. Stream mapping is primarily based on existing NCDOT survey data. Wetland Determination Forms and NCDWQ Wetland Rating Worksheets were completed for each type of wetland community encountered. NCDWQ Stream Identification Forms were completed for each intermittent and small perennial channel (when status was in doubt), and USACE Stream Quality Assessment Workshects were completed for each intermittent channel and degraded perennial channel. All streams shown on USGS maps and NRCS soil survey were assessed to determine their status for implementation of the Neuse and Tar-Pamlico River Buffer Rules, Delineation Results Figures 2 and 4(Sheets 1-14)present the results of the delineation,including streams,surface waters,and wetlands. Figure 2 is presented using the Greenville SW and Ayden, NC US Geologic Survey 1:24,000 quadrangle maps. Figure 4 is presented using 2010 statewide aerial photography. figure 3 (Sheets 1-5) present the study area using the Pitt County Soil Survey sheets 40,55,58, 62 and 67. Table 1 presents detailed information on each jurisdictional stream or tributary within the study area, including map sheet location, status (intermittent, perennial, or tributary), bank-full measurements, NCDWQ and USACE data form scores, buffer status, latitude/longitude, and JD form number. A total of approximately 5,746 linear feet of streams are present within the study area. Some jurisdictional features were designated as tributaries when they did not exhibit strong stream indicators but did seem to convey waters of the US. Table 2 presents detailed information one each wetland feature including reap sheet location,NC Wetland Assessment Method type, Hydrologic Class, Cowardin Classification, isolated status, size, representative wetland delineation form identification, NCDWQ wetland rating score, latitude/longitude, and JD form number. A total of 1.63 acres of wettand are present within the study area. We request your review of the attached documentation and mapping, and issuance of a Jurisdictional Determination for this project If you have any questions or require additional information, please contact me at (919) 707-6107 or gcashin @ncdot.gov. Sincerely, Oe Gordon Cashin, Environmental Program Consultant,NCDOT—NES Enclosures(1) Cc: Phil May,Carolina Ecosystems Inc. Jurisdictional Determination Request A. PARCEL INFORMATION Street Address: Mul Jurisdictional Determination Request D. PROPERTY OWNER CERTIFICATION I, the undersigned, a duly authorized owner of record of the property/properties identified herein, do authorize representatives of the Wilmington District,U.S. Army Corps of Engineers(Corps) to enter upon the property herein described for the purpose of conducting on-site investigations and issuing a determination associated with Waters of the U.S. subject to Federal jurisdiction under Section 404 of the Clean Water Act and/or Section 10 of the Rivers and Harbors Act of 1899. Property Owner(please print) Date Property Owner Signature E. JURISDICTIONAL DETERMINATION TYPE Select One: I am requesting that the Corps provide a preliminary JD for the property identified herein. This request does include a delineation. ❑ I am requesting that the Corps provide a preliminary JD for the property identified herein. This request does NOT include a delineation. I am requesting that the Corps investigate the property/project area for the presence or absence of WoUSS and provide an a a�roved JD for the property identified herein. This request does NOT include a request for a verified delineation, I am requesting that the Corps delineate the boundaries of all WoUS on a property/project area and provide an approved (this may or may not include a survey plat). F7I am requesting that the Corps evaluate and approve a delineation of WoUS (conducted by others)on a property/project area and provide an approved JD(may or may not include a survey plat). °For NCDOT requests following the current NCDOT/USACE protocols,skip to Part E. 5 Waters of the United States Version:December 2013 Page 4 jurisdictional Determination Request F. ALL REQUESTS QMap of Property or Project Area(attached). This Map must clearly depict the boundaries of the area of evaluation. ✓❑ Size of Property or Project Area 847 acres ❑ I verify that the property(or project)boundaries have recently been surveyed and marked by a licensed land surveyor OR are otherwise clearly marked or distinguishable. G. JD REQUESTS FROM CONSULTANTS OR AGENCIES (1) Preliminary JD Requests: ❑ Completed and signed Preliminary Jurisdictional Determination Form6. ❑ Project Coordinates: Latitude Longitude Maps (no larger than 1 Ix 17)with Project Boundary Overlay: ❑ Large and small scale maps that depict, at minimum:street& intersections,towns ❑ Aerial Photography of the project area ❑ USGS Topographic Map ❑ Soil Survey Map , ❑ Other Maps,as appropriate(e.g.National Wetland Inventory Map, Proposed Site Plan,previous delineation maps, LIDAR maps,FEMA floodplain maps) b See Appendix A of this Form.From Regulatory Guidance Letter No.08-02,dated June 26,2008 Version:December 2013 Page 5 Jurisdictional Determination Request Delineation Information (when applicable)7: Wetlands: Tributaries: Wetland Data Sheets$ USACE Assessment Farms F] Upland Data Sheets Other Assessment Forms (when appropriate) Landscape Photos, if taken Field Sketch overlain on legible Map that includes: All aquatic resources(for sites with multiple resources, label and identify) ■ Locations of wetland data points and/or tributary assessment reaches Locations of photo stations ■ Approximate acreage/linear footage of aquatic resources (2) Approved JDs including Verification of a Delineation: Project Coordinates: 35.5280 Latitude -77.4522 Longitude Maps(no larger than t I x 17)with Project Boundary Overlay: �✓ Large and small scale maps that depict,at minimum: streets, intersections, towns ✓� Aerial Photography of the project area USGS Topographic Map Soil Survey Map Other Maps,as appropriate(e.g.National Wetland inventory Map, Proposed Site Flan, previous delineation maps) '1987 Manual Regional Supplements and Data forms can be found at: http://www usace army.mil/MissionsJCivilWorks/RegulatoryProgramandPermits/rep ssupp aspx Wetland and Stream Assessment Methodologies can be found at: http://Portal.ncdenr.org/c/``d````ocument library pet file?uuid=76f3c58b-dab8-496€7-ba43-45b7fafC6f4c&grouped=38364 and, http://www.saw.usace,army mill Portals/59/docs/regulatory/l)ublicnotices/2013/NCSAM Draft User Manual 130318.pdf $Delineation information must include,at minimum,one wetland data sheet for each wetland/community type. Version:December 2013 Page 6 Jurisdictional Determination Request Delineation Information (when applicable): Wetlands: Tributaries: Wetland Data Sheets W1 USACE Assessment Forms ✓❑ Upland Data Sheets W1 Other Assessment Forms (when appropriate) ❑ Landscape Photos, if taken ❑ Field Sketch overlain on legible Map that includes: • All aquatic resources(for sites with multiple resources, label and identify) • Locations of wetland data points and/or tributary assessment reaches + Locations of photo stations + Approximate acreage/linear footage of aquatic resources Supporting Jurisdictional Information(for Approved JDs only) Approved Jurisdictional Determination Form(s)(also known as"Rapanos Forms)") ❑ Map(s) depicting the potential (or lack of potential)hydrologic connection(s), adjacency,etc.to navigable waters. s Delineation information must include,at minimum,one wetland data sheet for each wetland/community type. IA�I�M111�� _ Version:December 2013 Page 7 Jurisdictional Determination Request 1. REQUESTS FOR CORPS APPROVAL OF SURVEY PLAT Prior to final production of a Plat,the Wilmington District recommends that the Land Surveyor electronically submit a draft of a Survey Plat to the Corps project manager for review. Due to storage limitations of our administrative records,the Corps requires that all hard- copy submittals include at least one original flat(to scale)that is no lamer than l 1"'x17" (the use of match lines for larger tracts acceptable). Additional copies of a plat, including those larger than l I"x 17", may also be submitted for Corps signature as needed. The Corps also accepts electronic submittals of plats,such as those transmitted as a Portable Document Format(PDF) file. Upon verification,the Corps can electronically sign these plats and return them via e-mail to the requestor. (1) PLATS SUBMITTED FOR APPROVAL Must be sealed and signed by a licensed professional land surveyor Must be to scale(ail maps must include both a graphic scale and a verbal scale) Must be legible Must include a North Arrow,Scale(s),Title,Property Information Must include a legible WoUS Delineation Table of distances and bearings/metes and bounds/GPS coordinates of all surveyed delineation points F1Must clearly depict surveyed property or project boundaries �j Must clearly identify the known surveyed point(s)used as reference(e.g. property corner, USGS monument) When wetlands are depicted: • Must include acreage(or square footage)of wetland polygons • Must identify each wetland polygon using an alphanumeric system Version: December 2013 Page 8 Jurisdictional Determination Request When tributaries are depicted: • Must include either a surveyed,approximate centerline of tributary with approximate width of tributary OR surveyed Ordinary High Water Marks (OHWM)of tributary • Must identify each tributary using an alphanumeric system • Must include linear footage of tributaries and calculated area(using approximate widths or surveyed OHWM) • Must include name of tributary(based on the most recent USGS topographic map)or,when no USGS name exists,identify as"unnamed tributary" all depicted WoUS(wetland polygons and tributary lines) must intersect or tie-to surveyed project/property boundaries Must include the location of wetland data points and/or tributary assessment reaches Must include, label accordingly, and depict acreage of all waters not currently subject to the requirements of the CWA (e.g. "isolated wetlands","non- jurisdictional waters"). NOTE: An approved 3D must be conducted in order to make an official Corps determination that a particular waterbody or wetland is not jurisdictional. Must include and survey all existing conveyances(pipes,culverts, etc.)that transport WoUS Version:December 2013 Page 9 Jurisdictional Determination Request nw nwwwrwiwwwwwwi wwwr i iw (2) CERTIFICATION LANGUAGE When the entire actual Jurisdictional Boundary is depicted: include the following Corps Certification language: "This certifies that this copy of this plat accurately depicts the boundary of the jurisdiction of Section 404 of the Clean Water Act as determined by the undersigned on this date. Unless there is a change in the low or our published regulations,the determination of Section 404 jurisdiction may be relied upon for a period not to exceed five(5)years from this date. The undersigned completed this determination utilizing the appropriate Regional Supplement to the 1987 U.S.Army Corps of Engineers Wetlands Delineation Manual." Regulatory official: Title: Hate: USACE Action ID No.: When uplands.may.be present within a depicted Jurisdictional Boundar include the following Corps Certification language; "This certifies that this copy of this plat identifies all areas of waters of the United States regulated pursuant to Section 404 of the Clean Water Act as determined by the undersigned on this date. Unless there is change in the low or our published regulations, this determination of Section 404 jurisdiction may be relied upon for a period not to exceed five years from this dote. The undersigned completed this determination utilizing the appropriate Regional Supplement to the 1987 U.S.Army Corps of Engineers Wetlands Delineation Manual." Regulatory official: Title: Date: USACEAction 7D No.: Version:December 2013 Page 10 � N o O o N � tt°, N (n �o r- d ir) � � � d tD O r tit} LD N 00 M kn M r 00 W,� W (ON 00 kn vi vi in 4n Fn in W) W t? M ih "o N dr *- Q N N N 'O v 'd 41 M C > N C> W M kn cm 4s -- tD N N CA v5 0 0 O � .Q C1 � s'1Ct >w 3 in .-. N O kn t O Cs T H I I E- LtS � � d O u LO Vj Nc fu � N O O N N (1) ro E a C ii — N N N N N N N N 7 a \c kn �t '-Zf dt tiD n I O 0 0 0 o C> C3 (D G w 't \D I'0 \O \C \D tic \0 Mfr Im d Cf M \D. 00 n W) YS N N N N N N N N 00 a \fl n v} Wn ;4r n n to In to in to in to W< Ln M IL Z a LL w X X >C cn 4 a Q o o © ° ca ° o c $ v) cn cn v2 V) V) zn C4 coo o v) CA V) ul coo �A cn U cn .8 tt sc��cQ al 0 Cd cl v Q c O O O O O Q O Q O c z z z z z z z z z o r m CL d �. tau" m w 'cK w w w w w w w v a 0.4 0., v O v Rf L o Q1 w a w 41 � _ M M M M M M M M v E w 0 c ° o t0 f4 m x APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following die instructions provided in Section IV of the JD Forni Instructional Guidebook. SECTION I: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 1.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC- 1 I north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Greens Mill Run drainage of the Tar Pamlico River Basin. Waters included in this determination form is wetland WA. State:North Carolina County/parish/borough:Pitt City:Greenville Center coordinates of site(latllong in degree decimal format): Lat.See table' !![,Long.See table°W Universal Transverse Mercator: Name of nearest waterbody:Greens Mill Run Name of nearest Traditional Navigable Water(TNW)into which the aquatic resource flows:Tar River Name of watershed or Hydrologic Unit Code(HUC):03020103 Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites(e.g.,offsite mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): Office(Desk)Determination. Date: Field Determination. Date(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There "navigable waters of the U.S."within Rivers and Harbors Act(RHA)jurisdiction(as defined by 33 CFR part 329)in die review area.[Required) C] Waters subject to the ebb and flow of the tide. 0 Waters are presently used,or have been used in the past,or may be susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There&6"waters ofthe U.S."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area. [Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(check all that apply):i 0 TNWs,including territorial seas Wetlands adjacent to TNWs Q Relatively permanent waters2(RPWs)that flow directly or indirectly into TNWs Nan-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TN Ws Wetlands adjacent to non-RPWs that flow directly or indirectly into TN Ws Impoundments of jurisdictional waters [Q Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of waters of the U.S.in the review area: Non-wetland waters: linear feet: width(ft)and/or acres. Wetlands:0.33 acres. e. Limits(boundaries)of jurisdiction based on: 9$ ,DI ;tl`11# il Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(check if applicable):3 [ Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: 'Boxes checked below shall be supported by completing the appropriate sections in Section III below. z For purposes of this form,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous flow at least"seasonally" (e.g.,typically 3 months). 'Supporting documentation is presented in Section III.F. SECTION III: CWA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section III.D.I.only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections III.A.1 and 2 and Section III.D.L;otherwise,see Section 111.13 below. I. TNW Identify TNW: Summarize rationale supporting determination: 2. Wetland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent": B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TNW)AND ITS ADJACENT WETLANDS(IF ANY): This section summarizes information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under Rapanos have been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e,tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.If the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section III.D.2.If the aquatic resource is a wetland directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation.Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody4 is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section 111.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.13.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section IILC below. 1. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size: Drainage area: Average annual rainfall: inches Average annual snowfall: inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ❑Tributary flows through>': klAt tributaries before entering TNW. Project waters are I'&I"14sf river miles from TNW. Project waters are PickJ*t river miles from RPW. Project waters are P.WkLJ t aerial(straight)miles from TNW. Project waters are ',i,,,_j#aerial(straight)miles from RPW, Project waters cross or serve as state boundaries.Explain: Identify flow route to TNWs: Tributary stream order,if known: °Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. s Flow route can be described by identifying,e.g.,tributary a,which flows through the review area,to flow into tributary b,which then flows into TNW. (b) General Tributary characteristics(check all that apply): Tributary is: ❑Natural ❑Artificial(man-made). Explain: ❑Manipulated (man-altered). Explain: Tributary properties with respect to top of bank(estimate): Average width: feet Average depth: feet .................... Average side slopes:kieklE ist. c1 Primary tributary substrate composition(check all that apply): ❑Silts ❑Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g.,highly eroding,sloughing banks]. Explain: ;hi Presence of run/riffle/pool complexes. Explain: Tributary geometry:................... Tributary gradient(approximate average slope): % ra (c) Flow: Tributary provides for: ijig sjj( Estimate average number of flow events in review area/year: tIl,ugt Describe flow regime: Other information on duration and volume: Surface flow is:PG1 I is . Characteristics: Subsurface flow:fiek f . Explain findings: ❑Dye(or other)test performed: Tributary has(check all that apply): lat ❑Bed and banks ❑OHWM6(check all indicators that apply): ❑ clear,natural line impressed on the bank ❑ the presence of litter and debris ❑ changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ❑ the presence of wrack line ❑ vegetation matted down,bent,or absent ❑ sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ❑ sediment deposition ❑ multiple observed or predicted flow events 0! ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM.' Explain: fat If factors other than the OHWM were used to determine lateral extent of CWA jurisdiction(check all that apply): EJ High Tide Line indicated by: 0 Mean High Water Mark indicated by: ❑ oil or scum line along shore objects ❑survey to available datum; ❑ fine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteristics ❑vegetation lines/changes in vegetation types. gro ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,etc.), sun Explain: Identify specific pollutants,if known: nal `A natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices). Where there is a break in the OHWM that is unrelated to the waterbody's flow regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break. 'Ibid. Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area(check all that apply): Tributary waters: linear feet width(ft). Other non-wetland waters: acres. Identify type(s)of waters: Wetlands: acres. F. NON-JURISDICTIONAL WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): El If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. Review area included isolated waters with no substantial nexus to interstate(or foreign)commerce. ❑ Prior to the Jan 2001 Supreme Count decision in"SIS'4NCC,"the review area would have been regulated based solely on the "Migratory Bird Rule"(MBR). Waters do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain: Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis ofjudsdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): ❑. Non-wetland waters(i.e.,rivers,streams): linear feet width(ft). Lakes/ponds: acres. HOther non-wetland waters: acres.List type of aquatic resource: Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet, width(ft). Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(check all that apply-checked items shall be included in case file and,where checked and requested,appropriately reference sources below): Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ❑Office concurs with data sheets/delineation report. ❑Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters'study: U.S.Geological Survey Hydrologic Atlas: ❑USGS NHD data. ❑USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:1:24,000,Greenville SW Quadrangle. USDA Natural Resources Conservation Service Soil Survey.Citation:Pitt County Sheet 40. National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): Previous determination(s). File no.and date of response letter: Applicable/supporting case law: Applicable/supporting scientific literature: Other information(please specify): B. ADDITIONAL,COMMENTS TO SUPPORT JD:JD Form 1 of 7. APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Form Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 2.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC-I 1 north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Little Contentnea Creek drainage of the Neuse River Basin. Waters included in this determination form are stream SA;wetlands WB,WC,WD, WE,WF,WG,WH,and Wl. State:North Carolina County/parish/borough:Pitt City:Greenville Center coordinates of site(tat/long in degree decimal format): Lat.See table'1 ,Long.See table'S . Universal Transverse Mercator: Name of nearest waterbody:Little Contenwea Creek Name of nearest Traditional Navigable Water(TN W)into which the aquatic resource flows:Neuse River Name of watershed or Hydrologic Unit Code(HUC):03020203 Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites(e.g.,offsite mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): Office(Desk)Determination. Date: Field Determination. Date(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There Aiii no "navigable waters of the U.S"within Rivers and Harbors Act(RHA)jurisdiction(as defined by 33 CFR part 329)in the review area.[Required] 0 Waters subject to the ebb and flow of the tide. El Waters are presently used,or have been used in the past,or maybe susceptible for use to transport interstate or foreign commerce, Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There 8r0"waters ofthe US."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area.[Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(check all that apply):t E0 TNWs,including territorial seas Q. Wetlands adjacent to TNWs Relatively permanent waters2(RPWs)that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs [] Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Q Impoundments of jurisdictional waters Q Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of waters of the U.S.in the review area: Non-wetland waters: 1097 linear feet:6 width(11)and/or acres. Wetlands: 1.30 acres. c. Limits(boundaries)of jurisdiction based on X08,7 ltllnea> tp Baal, Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(check if applicable):' Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain:Wetlands WB,WC,WD,WE,WF,WC,and WH do not have a significant nexus to downstream waters. Boxes checked below shall be supported by completing the appropriate sections in Section III below. 'For purposes of this form,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous flow at least"seasonally" (e.g.,typically 3 months). Supporting documentation is presented in Section III.F. SECTION III: CWA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section III.D.1.only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections IH.A.1 and 2 and Section III.D.I.;otherwise,see Section 111.13 below. 1. TNW Identify TNW: Summarize rationale supporting determination: 2. Wetland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent': B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TNW)AND ITS ADJACENT WETLANDS(IF ANY): This section summarizes information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under Rapanoshave been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e.tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.If the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section HI.D.2.If the aquatic resource is a wetland directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation.Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody°is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section III.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.B.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section IILC below. 1. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size: 160#ices Drainage area: 125° G Average annual rainfall:45.81 inches Average annual snowfall:2.52 inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ®Tributary flows through d tributaries before entering TNW. Project waters are 3(i(t# f#io'r8)river miles from TNW. Project waters are l(iri« }river miles from RPW. Project waters are S aerial(straight)miles from TNW. Project waters are 1jtii ]ess)aerial(straight)miles from RPW. Project waters cross or serve as state boundaries.Explain: Identify flow route to TNW5:From 2 UTs to Little Contentnea Creek to Contentnea Creek to Neuse River. Tributary stream order,if known: °Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. s Flow route can be described by identifying,e.g.,tributary a,which flows through the review area,to flow into tributary b,which then flows into TNW. (b) General Tributary Characteristics(check all that apps Tributary is: ❑Natural ❑Artificial(man-made). Explain: ®Manipulated (man-altered). Explain:Channel has been Ditched. Tributary properties with respect to top of bank(estimate): Average width:6 feet Average depth:4.5 feet Average side slopes !Vi3�c41(, Primary tributary substrate composition(check all that apply): ®Silts ®Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g.,highly eroding,sloughing banks]. Explain: Stream banks are stable. Presence of run/riffle/pool complexes. Explain:No run/riffle/pool complexes. Tributary geometry:� Etiielystriglii Tributary gradient(approximate average slope): I % (c) Flow: Tributary provides for: 164 Estimate average number of flow events in review arealyear: I40 Describe flow regime:Wet season flow and after storm events. Other information on duration and volume: Surface flow is:0 tid1 Characteristics:Stream channel is ditched. Subsurface flow: t> qr. Explain findings: ❑Dye(or other)test performed: Tributary has(check all that apply): ®Bed and banks ®OHWM6(check all indicators that apply): ® clear,natural line impressed on the bank ❑ the presence of litter and debris ® changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ® the presence of wrack line ❑ vegetation matted down,bent,or absent ❑ sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ® sediment deposition ❑ multiple observed or predicted flow events ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM.' Explain: If factors other than the OHWM were used to determine lateral extent of CWA jurisdiction(check all that apply): High Tide Line indicated by: ❑ Mean High Water Mark indicated by: ❑ oil or seum line along shore objects ❑survey to available datum; ❑ fine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteristics ❑vegetation lines/changes in vegetation types. ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,etc.). Explain:Watercolor generally clear. Identify specific pollutants,if known: 6A natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices). Where there is a break in the OttWM that is unrelated to the waterbody's flow regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break. 'Ibid. (iv) Biological Characteristics. Channel supports(check all that apply): ® Riparian corridor. Characteristics(type,average width): 150 ft. ❑ Wetland fringe. Characteristics: ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ®Aquatic/wildlife diversity. Explain findings:Assorted macrobenthos such as isopods,amphipods,and bivalves. 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size:1.17 acres Wetland type. Explain:Pine Flat. Wetland quality. Explain:Low quality due to smaller size and timbering-see attached DWQ forms. Project wetlands cross or serve as state boundaries.Explain: (b) General Flow Relationship with Non-TNW: Flow is:Met, f h&.Explain:Adjacent wetland has a hydrologic connection to ditches which drain into Little Contentnea Creek. Surface flow is: `P! e Characteristics:Adjacent wetland has a hydrologic connection to ditches. Subsurface flow: i► . Explain findings: ❑Dye(or other)test performed: (c) Wetland Adiacenev Determination with Non-TNW: ❑Directly abutting ®Not directly abutting ® Discrete wetland hydrologic connection. Explain:Adjacent wetland drains to to ditches which eventually lead to Little Contentnea Creek. ❑ Ecological connection. Explain: ❑ Separated by bermlbarrier. Explain: (d) Proximity(Relationship)to TNW Project wetlands are Q(i} {( )river miles from TN W. Project waters are )E 2p',aerial(straight)miles from TNW. Flow is from: ?4Tttttj(#tfs ((b >riC• Estimate approximate location of wetland as within the 5 yWbT g.�t floodplain. (ii) Chemical Characteristics- Characterize wetland system(e.g.,water color is clear,brown,oil film on surface;water quality;general watershed characteristics;etc.). Explain:Relatively clear water.. Identify specific pollutants,if known:Sediment. (iii)Biological Characteristics. Wetland supports(check all that apply): ❑ Riparian buffer. Characteristics(type,average width): ® Vegetation type/percent cover. Explain:Mostly small trees,shrubs,and grasses 75%cover. ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ®Aquatic/wildlife diversity. Explain findings:Seasonal aquatic fauna. 3. Characteristics of all wetlands adjacent to the tributary(if any) All wetland(s)being considered in the cumulative analysis: Approximately( 1.17)acres in total are being considered in the cumulative analysis. For each wetland,specify the following: Directly abuts?(YtN) Size(in acres) Directly abuts?WN) Size(in acres) N 1.17 Summarize overall biological,chemical and physical functions being performed:Wetland WI provides minimal water storage,pollutant removal,wildlife habitat,and aquatic life habitat as shown on the attached DWQ rating form. C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical,physical,and biological integrity of a TNW. For each of the following situations,a significant nexus exists if the tributary,in combination with all of its adjacent wetlands,has more than a speculative or insubstantial effect on the chemical,physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include,but are not limited to the volume,duration,and frequency of the flow of water in the tributary and its proximity to a TNW,and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance(e.g.between a tributary and its adjacent wetland or between a tributary and the TNW).Similarly,the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW,as identified in the Rapanos Guidance and discussed in the Instructional Guidebook.Factors to consider include,for example: • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to carry pollutants or flood waters to TNWs,or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary,in combination with its adjacent wetlands(if any),provide habitat and lifecycle support functions for fish and other species,such as feeding,nesting,spawning,or rearing young for species that are present in the TNW? • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary,in combination with its adjacent wetlands(if any),have other relationships to the physical,chemical,or biological integrity of the TNW? Note:the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary itself,then go to Section IILD: 2. Significant nexus findings for non-RPW and its adjacent wetlands,where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary in combination withal]of its adjacent wetlands,then go to Section III.D: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW.Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section III.D:Adjacent wetland drains to ditches which discharge off site and eventually lead to Little Contentnea Creek. These resources are hydrologically connected to the stream and treat runoff to downstream waters. D. DETERMINATIONS OF JURISDICTIONAL FINDINGS.THE SUBJECT WATERSAWETLANDS ARE(CHECK ALL THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: El TNWs: linear feet width(fl),Or, acres. Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. Q Tributaries of TNWs where tributaries typically flow year-round are jurisdictional.Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow"seasonally"(e.g.,typically three months each year)are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally:See attached data form for SA. Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area(check all that apply); E] Tributary waters: linear feet width(ft). Other non-wetland waters: acres. Identify type(s)of waters: Wetlands: acres. F. NON-JURISDICTIONAL WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. [] Review area included isolated waters with no substantial nexus to interstate(or foreign)commerce. ❑ Prior to die Jan 2001 Supreme Court decision in`°SWifNCC,"the review area would have been regulated based solely on the "Migratory Bird Rule"(MBR). Waters do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain:WB,WC,WD, WE,WF,WG,and WH have no visible connection with downstream RPWs and are located in depressions within a large field that has been disturbed. Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis of jurisdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet width(ft). Lakes/ponds: acres. Other non-wetland waters: acres.List type of aquatic resource: Wetlands:0.13 acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet, width(ft). ❑, Lakes/ponds: acres. El Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(check all that apply-checked items shall be included in case file and,where checked and requested,appropriately reference sources below): }� Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applican t/consultant. ❑Office concurs with data sheets/delineation report. ❑Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters'study: U.S.Geological Survey Hydrologic Atlas: ❑ USGS NHD data. ❑ USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:I:24,000,Greenville SW Quadrangle. USDA Natural Resources Conservation Service Soil Survey.Citation:Pitt County Sheet 40 and 48. National wetlands inventory map(s). Cite namc: State/Local wetland inventory map(s): FEMA/F1RM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): Previous determination(s). File no.and date of response letter: Applicable/supporting case law: Applicable/supporting scientific literature: El Other inforniation(please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD:JD Fonn 2 of 7. APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Form Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 3.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC-I 1 north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Gum Swamp drainage of the Neuse River Basin. Waters included in this determination forth is stream SB(Gum Swamp) State:North Carolina County/parish/borough:Pitt City:Greenville Center coordinates of site(fat/long in degree decimal format): Lat. See table'1V,Long.See table'W. Universal Transverse Mercator: Name of nearest waterbody:Gum Swamp Name of nearest Traditional Navigable Water(TNW)into which die aquatic resource flows:Neuse River Name of watershed or Hydrologic Unit Code(HUC):03020202 0, Check if snap/diagram of review area and/or potential jurisdictional areas is/are available upon request. ED Check if other sites(e.g.,offsite mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form, D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): d Office(Desk)Determination. Date: Field Determination. Date(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There C "navigable waters a the U.S."within Rivers and Harbors Act RHA jurisdiction as defined 6 33 CFR art 329 m the # no % f ( )j ( Y p ) review area.[Required] Waters subject to the ebb and flow of the tide. LJ Waters are presently used,or have been used in the past,or may be susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There Ask"waters ofthe U.S."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area.[Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(check all that apply):' TN Ws,including territorial seas Wetlands adjacent to TNWs Relatively permanent waters (RPWs)that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Impoundments of jurisdictional waters Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of'waters of the U.S.in the review area: Nan-wetland waters:441 linear feet: 12 width(ft)and/or acres. Wetlands: acres. c. Limits(boundaries)of jurisdiction based on: s„tbatci,by ?� 1 Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(check if applicable):' Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: 'Boxes checked below shall be supported by completing the appropriate sections in Section III below. 'For purposes of this Conn,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous flow at least"seasonally” (e.g.,typically 3 months). 'Supporting documentation is presented in Section III.F. SECTION III: CWA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section III.D.1,only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections IH.A.1 and 2 and Section III.D.1.;otherwise,see Section 111.11 below. 1. TNW Identify TNW: Summarize rationale supporting determination: 2. Wetland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent": B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TNW)AND ITS ADJACENT WETLANDS(IF ANY): This section summarizes information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under Rapanos have been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e.tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.If the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section III.D.2.If the aquatic resource is a wetland directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation.Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody4 is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section III.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.B.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section IILC below. 1. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size:725lrS Drainage area: 130 Average annual rainfall:45.81 inches Average annual snowfall:2.52 inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ®Tributary flows through 2 tributaries before entering TNW. Project waters are ('{0 ti 6j)river miles from TNW. Project waters are 1-'{(}t!;(±'"river miles from RPW. Project waters are 3,t};`gr<;iijjorrS)aerial(straight)miles from TNW. Project waters are I?{ir:Jess)aerial(straight)miles front RPW. Project waters cross or serve as state boundaries.Explain: Identify flow route to TN W5:From Crum Swamp to Swift Creek to Neuse River. Tributary stream order,if known: 'Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. 5 Flow route can be described by identifying,e.g.,tributary a,which flows through the review area,to dory into tributary b,which then flows into TNW, (b) General Tributary Characteristics(check all that apply): Tributary is: ❑Natural ❑Artificial(man-made). Explain: ®Manipulated (man-altered). Explain:Channel has been Ditched. Tributary properties with respect to top of bank(estimate): Average width: 12 feet Average depth:0.25 feet Average side slopes:Vertical{1„1„or;le§. Primary tributary substrate composition(check all that apply): ®Silts ®Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g.,highly eroding,sloughing banks]. Explain: Stream banks are stable. Presence of run/riffle/pool complexes. Explain:No run/riff)e/pool complexes. Tributary geometry:Reiatluly,trigff Tributary gradient(approximate average slope): I% (c) Flow: Tributary provides for $¢40� Fflti Estimate average number of flow events in review area/year: l Describe flow regime:Wet season flow and after storm events. Other information on duration and volume: Surface flow is:,(-,, Characteristics:Stream channel is ditched. Subsurface flow: Explain findings: ❑Dye(or other)test perforated: Tributary has(check all that apply): ®Bed and banks ®OHWM”(check all indicators that apply): ® clear,natural line impressed on the bank ❑ the presence of litter and debris ® changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ❑ the presence of wrack line ❑ vegetation matted down,bent,or absent ® sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ® sediment deposition ❑ multiple observed or predicted flow events ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM.' Explain: If factors other than the OHWM were used to determine lateral extent of CWA jurisdiction(check all that apply): High Tide Line indicated by: ❑ Mean High Water Mark indicated by: ❑ oil or scum line along shore objects ❑survey to available datum; ❑ fine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteristics ❑vegetation lines/changes in vegetation types. ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,etc.). Explain:Watercolor generally clear. Identify specific pollutants,if known:Sediment,Agriculture nutrients. °A natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices). Where there is a break in the OHWM that is unrelated to the waterbody's flow regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break. 'Ibid, (iv) Biological Characteristics. Channel supports(check all that apply): ® Riparian corridor. Characteristics(type,average width): ISO ft. ❑ Wetland fringe. Characteristics: ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ®Aquatic/wildlife diversity. Explain findings:Bivalves. 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size: acres Wetland type. Explain: Wetland quality. Explain: Project wetlands cross or serve as state boundaries.Explain: {b} General Flow Relationship with Nan-TNW: Flow is: Explain: Surface flow is: iiC.klGis' Characteristics: Subsurface flow:I?lckEM. Explain findings: F1 Dye(or other)test performed: (c) Wetland Adjacency Determination with Non-TNW: ❑Directly abutting ❑Not directly abutting ❑ Discrete wetland hydrologic connection. Explain: ❑ Ecological connection. Explain: ❑ Separated by berm/barrier. Explain: (d) Proximity(Relationship)to TNW Project wetlands are k E river miles from TN W. Project waters aerial(straight)miles from TNW. Flow is from:1'tlz' is. Estimate approximate location of wetland as within the PeE(, gt floodplain. (ii) Chemical Characteristics: Characterize wetland system(e.g.,water color is clear,brown,oil film on surface;water quality;general watershed characteristics;etc.). Explain: Identify specific pollutants,if known: (iii)Biological Characteristics. Wetland supports(check all that apply): ❑ Riparian buffer. Characteristics(type,average width); ❑ Vegetation type/percent cover. Explain: ❑ Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ❑Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary(if any) All wetlands)being considered in the cumulative analysis:PIC)!I' Approximately{ }acres in total are being considered in the cumulative analysis. For each wetland,specify the following: Directly abuts?(Y/N) Size(in acres) Directly abuts?(Y/N) Size(in acres) ; Summarize overall biological,chemical and physical functions being performed:Wetland WA provides water storage, r pollutant removal,wildlife habitat,and aquatic life habitat.as shown on the attached DWQ rating fornis. r. c C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical,physical,and biological integrity of a TNW. For each of the following situations,a significant nexus exists if the tributary,in combination with all of its adjacent .� wetlands,has more than a speculative or insubstantial effect on the chemical,physical and/or biological integrity of a TNW, a Considerations when evaluating significant nexus include,but are not limited to the volume,duration,and frequency of the flow c of water in the tributary and its proximity to a TNW,and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance(e.g.between a tributary and its adjacent wetland or between a tributary and the TNW).Similarly,the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. c Draw connections between the features documented and the effects on the TNW,as identified in the Rapanos Guidance and discussed in the Instructional Guidebook.Factors to consider include,for example: • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to carry pollutants or flood waters to a TN Ws,or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary,in combination with its adjacent wetlands(if any),provide habitat and lifecycle support functions for fish and other species,such as feeding,nesting,spawning,or rearing young for species that are present in the TNW? n • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to transfer nutrients and organic carbon that N support downstream foodwebs? n • Does the tributary,in combination with its adjacent wetlands(if any),have other relationships to the physical,chemical,or biological integrity of the TNW? a Note:the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: r L Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain it findings of presence or absence of significant nexus below,based on the tributary itself,then go to Section IILD: 2. Significant nexus findings for non-RPW and its adjacent wetlands,where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section IILD: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW.Explain findings of n presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to h Section IILD:Adjacent wetland drains to ditches which discharge off site and eventually lead to Little Contentnea Creek. These rr resources are hydrologically connected to the stream and treat runoff to downstream waters. s D. DETERMINATIONS OF JURISDICTIONAL FINDINGS.THE SUBJECT WATERS/WETLANDS ARE(CHECK ALL 1 THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: Q TN Ws: linear feet width(ft),Or, acres. at 0 Wetlands adjacent to TNWs: acres. it 2. RPWs that flow directly or indirectly into'I'NWs. Tributaries of TNWs where tributaries typically flow year-round are jurisdictional.Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow"seasonally"(e.g.,typically three months each year)are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows N seasonally:See attached data fonn for SB. ar Identify water body and summarize rationale supporting determination: Provide estimates far jurisdictional waters in the review area(check all that apply): Tributary waters: linear feet width(ft). Other non-wetland waters: acres. Identify type(s)of waters: Wetlands: acres. F. NON-JURISDICTIONAL WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. El Review area included isolated waters with no substantial nexus to interstate(or foreign)commerce. ❑ Prior to the Jan 2001 Supreme Court decision in"SfYANCC,"the review area would have been regulated based solely on the "Migratory Bird Rule"(MBR). Waters do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain: Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis ofjurisdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet width(ft). Lakes/ponds: acres. Other non-wetland waters: acres.List type of aquatic resource: _ Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet, width(ft). Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(check all that apply-checked items shall be included in case rile and,where checked and requested,appropriately reference sources below): 0 Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ❑Office concurs with data sheets/delineation report. ❑Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: QCorps navigable waters'study: U.S.Geological Survey Hydrologic Atlas: ❑USGS NHD data. ❑USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:1:24,000,Greenville SW Quadrangle. USDA Natural Resources Conservation Service Soil Survey.Citation:Pitt County Sheet 48. National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: { 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): Previous determination(s). File no.and date of response letter: Applicable/supporting case law: El Applicable/supporting scientific literature: Other information(please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD:JD Form 3 of 7. APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following the instructions provided in Section 1V of the JD Form Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 4.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC-11 north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Little Contentnea Creek drainage of the Neuse River Basin. Waters included in this determination form is stream SF State:North Carolina County/parish/borough:Pitt City:Greenville Center coordinates of site(fat/long in degree decimal format): Lat.See table'I`'T,Long.See table°4r1'• Universal Transverse Mercator: Name of nearest waterbody:Little Contentnea Creek Name of nearest Traditional Navigable Water(TNW)into which the aquatic resource flows:Neuse River Name of watershed or Hydrologic Unit Code(HUC):03020203 Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites(e.g.,offsite mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): Q Office(Desk)Determination, Date: 0 Field Determination. Datc(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There A*' "navigable waters of the U.S."within Rivers and Harbors Act(RHA)jurisdiction(as defined by 33 CFR part 329)in the review area.[Required] Q Waters subject to the ebb and flow of the tide. [Q Waters are presently used,or have been used in the past,or maybe susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There 4r "waters of the U.S."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area.[Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(check all that apply):' TNWs,including territorial seas Q Wetlands adjacent to TNWs Relatively permanent waters2(RPWs)that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Impoundments of jurisdictional waters Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of waters of the U.S.in the review area: Non-wetland waters:915 linear feet:4 width(fl)and/or acres. Wetlands: acres. e e. Limits(boundaries)of jurisdiction based on EstAbllshed by OliW Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(check if applicable):' 0 Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: 'Boxes checked below shall be supported by completing the appropriate sections in Section HI below. 2 For purposes of this form,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous now at least"seasonally" (e.g.,typically 3 months). Supporting documentation is presented in Section IILF. SECTION III: CWA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section IILD.1.only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections III.A.1 and 2 and Section III.D.1.;otherwise,see Section 111.13 below. 1. TNW Identify TNW: Summarize rationale supporting determination: 2. Wetland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent": B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TN`W)AND ITS ADJACENT WETLANDS(IF ANY): This section summarizes information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under J?aparzoshave been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e.tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.If the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section III.D.2.If the aquatic resource is a wetIand directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation.Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody°is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section III.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.B.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section III.0 below, 1. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size:60 Drainage area:40 aecres Average annual rainfall:45.81 inclies Average annual snowfall:2.52 inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ®Tributary flows through tributaries before entering TNW. Project waters are "river miles from TN W. Project waters areartess)river miles from RPW. Project waters are 1IttS aerial(straight)miles from TNW. Project waters are iprTess)aerial(straight)miles front RPW. Project waters cross or serve as state boundaries.Explain: Identify flow route to TNW$:From 3 UTs to Little Contentnea Creek to Contentnea Creek to Neuse River. Tributary stream order,if known: 'Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. Flow route can be described by identifying,e.g.,tributary a,which flows through the review area,to flow into tributary b,which then flows into TNW. (b) General Tributary Characteristics(check all that apply): Tributary is: ❑Natural ❑Artificial(mart-made). Explain: ®Manipulated (man-altered). Explain:Channel has been Ditched. Tributary properties with respect to top of bank(estimate): Average width:4 feet Average depth:0.5 feet Average side slopes yerfkul(1tl, t,les}. Primary tributary substrate composition(check all that apply): ®Silts ®Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g.,highly eroding,sloughing banks]. Explain: Stream batiks are stable. Presence of run/rifflelpaol complexes. Explain:No run/riffle/pool complexes. Tributary geometry IL1 freely sfr tght Tributary gradient(approximate average slope): 1% (c) Flow: Tributary provides for:0044'f * Estimate average number of flow events in review arealyear: 146, Describe flow regime:Wet season flow and after storm events. Other information on duration and volume: Surface flow is:Ci"ii4i ei. Characteristics:Stream channel is ditched. Subsurface flow:;l 7j [pyyq, Explain findings: ❑Dye(or other)test performed: Tributary has(check all that apply): ❑Bed and banks ®OHWM6(check all indicators that apply): ® clear,natural line impressed on the bank ❑ the presence of litter and debris ® changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ❑ the presence of wrack line ❑ vegetation matted down,bent,or absent ® sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ® sediment deposition ❑ multiple observed or predicted flow events ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM.7 Explain: If factors other than the OHWM were used to determine lateral extent ofCWA jurisdiction(check all that apply): High Tide Line indicated by: p Mean High Water Mark indicated by: ❑ oil or scum line along shore objects ❑survey to available datum; ❑ tine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteristics ❑vegetation lines/changes in vegetation types. ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,eta). Explain:Watercolor generally clear. Identify specific pollutants,if known:Sediment,Agriculture nutrients. `A natural or man-made discontinuity in the 014WM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices). Where there is a break in the oHWM that is unrelated to the waterbody's flow regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break. 'Ibid. (iv) Biological Characteristics. Channel supports(check all that apply): ❑ Riparian corridor. Characteristics(type,average width): ❑ Wetland fringe. Characteristics: ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ® Aquatic/wildlife diversity. Explain findings:Tadpoles,bivalves,and aquatic snails. 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size: acres Wetland type. Explain: Wetland quality. Explain: Project wetlands cross or serve as state boundaries.Explain: (b) General Flow Relationship with Nan-TNW: Flow is: jlsist.Explain: Surface flow is: 't11 YsE Characteristics: Subsurface flow:)P± t= i >. Explain findings: ❑Dye(or other)test performed: (c) Wetland Adjacency Determination with Non-TNW: ❑Directly abutting ❑Not directly abutting ❑ Discrete wetland hydrologic connection. Explain: ❑ Ecological connection. Explain: ❑ Separated by berm/barrier. Explain: (d) Proximity(Relationship to TNW Project wetlands are M eli Iii(river miles from TNW. Project waters are 'IIt°Iis#aerial(straight)miles from TNW. Flow is from:kiwi, Estimate approximate location of wetland as within the 'iijw isf floodplain. (ii) Chemical Characteristics: Characterize wetland system(e.g.,water color is clear,brown,oil film on surface;water quality;general watershed characteristics;etc.). Explain: Identify specific pollutants,if known: (iii)Biological Characteristics. Wetland supports(check all that apply): ❑ Riparian buffer. Characteristics(type,average width): ❑ Vegetation type/percent cover. Explain: ❑ Habitat for: ❑Federally Listed species. Explain findings: ❑ Fish/spawn areas.Explain findings: ❑Other environnentally-sensitive species. Explain findings: ❑Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary(if any) All wetland(s)being considered in the cumulative analysis: Approximately( )acres in total are being considered in the cumulative analysis. For each wetland,specify the following: Directly abuts?(YIN) Size(in acres) Directly abuts?(YIN) Size fin acres) Summarize overall biological,chemical and physical functions being performed:Wetland WA provides water storage, pollutant removal,wildlife habitat,and aquatic life habitat.as shown on the attached DWQ rating forms. C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical,physical,and biological integrity of a TNW. For each of the following situations,a significant nexus exists if the tributary,in combination with all of its adjacent wetlands,has more than a speculative or insubstantial effect on the chemical,physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include,but are not limited to the volume,duration,and frequency of the flow of water in the tributary and its proximity to a TNW,and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance(e.g.between a tributary and its adjacent wetland or between a tributary and the TNW).Similarly,the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW,as identified in the Rapanos Guidance and discussed in the Instructional Guidebook.Factors to consider include,for example: • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to carry pollutants or flood waters to TNWs,or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary,in combination with its adjacent wetlands(if any),provide habitat and lifecycle support functions for fish and other species,such as feeding,nesting,spawning,or rearing young for species that are present in the TNW? • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary,in combination with its adjacent wetlands(if any),have other relationships to the physical,chemical,or biological integrity of the TNW? Note:the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary itself,then go to Section llLD: 2. Significant nexus findings for non-RPW and its adjacent wetlands,where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section IILD: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW.Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section I1LD:Adjacent wetland drains to ditches which discharge off site and eventually lead to Little Contentnea Creek. These resources are hydrologically connected to the stream and treat runoff to downstream waters. D. DETERMINATIONS OF JURISDICTIONAL FINDINGS.THE SUBJECT WATERS/WETLANDS ARE(CHECK ALL THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: 0 TNWs: linear feet width(ft),Or, acres. 0 Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. Tributaries of TNWs where tributaries typically flow year-round are jurisdictional.Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow"seasonally"(e.g.,typically three months each year)are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally:See attached data form for SF. Provide estimates for jurisdictional waters in the review area(check all that apply): 0 Tributary waters:915 linear feet 4 width(R). Other non-wetland waters: acres. Identify type(s)of waters: 3. Non-RPWs8 that flow directly or indirectly into TNWs. Q Waterbody that is not a TNW or an RPW,but flows directly or indirectly into a TNW,and it has a significant nexus with a TNW is jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional waters within the review area(check all that apply): Q Tributary waters: linear feet width(fl). 0 Other non-wetland waters: acres. Identify type(s)of waters: 4. Wetlands directly abutting an RPW that flow directly or indirectly into TNWs. 0 Wetlands directly abut RPW and thus are jurisdictional as adjacent wetlands. 0 Wetlands directly abutting an RPW where tributaries typically flow year-round. Provide data and rationale indicating that tributary is perennial in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: E] Wetlands directly abutting an RPW where tributaries typically flow"seasonally." Provide data indicating that tributary is seasonal in Section III.B and rationale in Section 11I.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: Provide acreage estimates for jurisdictional wetlands in the review area: acres. 5. Wetlands adjacent to but not directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands that do not directly abut an RPW,but when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisidictional.Data supporting this conclusion is provided at Section III.C. Provide acreage estimates for jurisdictional wetlands in the review area: acres. 6. Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs. Wetlands adjacent to such waters,and have when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates far jurisdictional wetlands in the review area: acres. 7. Impoundments of jurisdictional waters.!? As a general rule,the impoundment of a jurisdictional tributary remains jurisdictional. Demonstrate that impoundment was created from"waters of the U.S.,"or Demonstrate that water meets the criteria for one of the categories presented above(1-6),or Demonstrate that water is isolated with a nexus to commerce(see E below). E. ISOLATED[INTERSTATE OR INTRA-STATE]WATERS,INCLUDING ISOLATED WETLANDS,THE USE, DEGRADATION OR DESTRUCTION OF WHICH COULD AFFECT INTERSTATE COMMERCE,INCLUDING ANY SUCH WATERS(CHECK ALL THAT APPLY):10 which are or could be used by interstate or foreign travelers for recreational or other purposes. from which fish or shellfish are or could be taken and sold in interstate or foreign commerce. which are or could be used for industrial purposes by industries in interstate commerce. Interstate isolated waters. Explain:Wetlands. Other factors. Explain: 'See Footnote i13. 'To complete the analysis refer to the key in Section 111.13.6 of the Instructional Guidebook. 10 Prior to asserting or declining CWA jurisdiction based solely on this category,Corps Districts will elevate the action to Corps and EPA HQ for review consistent with the process described in the Corps/EPA Memorandum Regarding CWA Act Jurisdiction Following Rapanos. Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area(check all that apply): Tributary waters: linear feet width(fl). El Other non-wetland waters: acres. Identify type(s)of waters: Wetlands: acres. F. NON-JURISDICTIONAL WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. Review area included isolated waters with no substantial nexus to interstate(or foreign)commerce. ❑ Prior to the Jan 2001 Supreme Court decision in"SWANCC,"the review area would have been regulated based solely on the "Migratory Bird Rule"(MBR). [] Waters do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain: Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis of jurisdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet width(ft). Lakes/ponds: acres. Other non-wetland waters: acres.List type of aquatic resource: Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): [Q Non-wetland waters(i.e.,rivers,streams): linear feet, width(8). Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(check all that apply-checked items shall be included in case file and,where checked and requested,appropriately reference sources below): Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: } Data sheets prepared/submitted by or on behalf of the applicant/consultant. ❑Office concurs with data sheets/delineation report. ❑Office does not concur with data sheets/delineation report. El Data sheets prepared by the Corps: Corps navigable waters'study: ;E] U.S.Geological Survey Hydrologic Atlas: ❑ USGS NHD data. ❑ USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:1:24,000,Greenville SW Quadrangle. USDA Natural Resources Conservation Service Soil Survey.Citation:Pitt County Sheet 62. National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): Previous determination(s). File no.and date of response letter: [] Applicable/supporting case law: . Applicable/supporting scientific literature: Other information(please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD:JD Form 4 of 7. APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Fonn Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 5.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC- I I north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Swift Creek drainage of the Neuse River Basin. Waters included in this determination form is stream SH State:North Carolina County/parisit/borough:Pitt City:Greenville Center coordinates of site(]at/long in degree decimal format): Lat. See table'lj,Long.See table'W. Universal Transverse Mercator: Name of nearest waterbody:Swift Creek Name of nearest Traditional Navigable Water(TNW)into which the aquatic resource flows:Neuse River Name of watershed or Hydrologic Unit Code(HUC):03020202 Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites(e.g.,offsite mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): [] Office(Desk)Determination. Date: El Field Determination. Date(s): SECTION I1: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There , `5avigable waters of the US"witlmin Rivers and Harbors Act(RHA)jurisdiction{as defined by 33 CFR part 329)in the review area.[Required] Q Waters subject to the ebb and flow of the tide. C] Waters are presently used,or have been used in the past,or may be susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There Aire"waters of the U.S."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area. [Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(cheek all that apply): t [ TNWs,including territorial seas 0 Wetlands adjacent to TNWs Relatively permanent waters2(RPWs)that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs [3 Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Impoundments of jurisdictional waters Q Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of waters of the U.S.in the review area: Non-wetland waters:64 linear feet:3 width(ft)and/or acres. Wetlands: acres. c. Limits(boundaries)of jurisdiction based on kS` tgAllslted Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(check if applicable):3 Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: 'Boxes checked below shall he supported by completing the appropriate sections in Section 111 below. z For purposes of this form,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous Flow at least"seasonally" (e.g.,typically 3 months). 'Supponing documentation is presented in Section III.F. SECTION III: CWA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section III.D.I.only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections III.A.I and 2 and Section III.D.1.;otherwise,see Section HIM below. 1. TNW Identify TNW: Summarize rationale supporting determination: 2. Wetland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent": B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TNW)AND ITS ADJACENT WETLANDS(IF ANY): This section summarises information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under Rapanos have been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e.tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.If the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section III.D.2.If the aquatic resource is a wetland directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation,Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody4 is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section III.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.B.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section IH.0 below. 1. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size:75 akres Drainage area:30 #t 9 Average annual rainfall:45.81 inches Average annual snowfall:2.52 inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ®Tributary flows through tributaries before entering TNW. Project waters are 30(4finn0e' river miles from TNW. Project waters are L(r3'JO s river miles from RPW. Project waters are = (3 aerial(straight)miles from TNW. Project waters are (orles5)aerial(straight)miles from RPW, Project waters cross or serve as state boundaries.Explain: Identify flow route to TNW$:From 2 UTs to Swft Creek to Meuse River. Tributary stream order,if known: °Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. Flow route can be described by identifying,e.g.,tributary a,which flows through the review area,to flow into tributary b,which then Flows into TNW, (b) General Tributary Characteristics(,check all that apply): Tributary is: ❑Natural ❑Artificial(man-made), Explain: ®Manipulated (man-altered). Explain:Channel has been Ditched. Tributary properties with respect to top of bank(estimate): Average width:3 feet Average depth:0.25 feet Average side slopes:Yertcal{Il 0>c:1850. Primary tributary substrate composition(check all that apply): ®Silts ®Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g.,highly eroding,sloughing banks]. Explain:Stream banks are stable. Presence of run/riffle/pool complexes. Explain:No run/riffle/pool complexes. Tributary geometry:WWs"g[ Tributary gradient(approximate average slope): 1% (c) Flow: Tributary provides for: esi> alfla Estimate average number of flow events in review area/year: =; Describe flow regime:Wet season flow and after storm events. Other information on duration and volume: Surface flow is: utta Characteristics:Stream channel is ditched. Subsurface flow: ilti}yiri. Explain findings: ❑Dye(or other)test performed: Tributary has(check all that apply): ®Bed and banks ®OHWM6(check all indicators that apply): ® clear,natural line impressed on the bank ❑ the presence of litter and debris ❑ changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ❑ the presence of wrack line ❑ vegetation matted down,bent,or absent ® sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ® sediment deposition ❑ multiple observed or predicted flow events ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM.' Explain: If factors other than the OHWM were used to determine lateral extent of CWA jurisdiction(check all that apply): Q High Tide Line indicated by: ❑ Mean High Water Mark indicated by: ❑ oil or scum line along shore objects ❑survey to available datum; ❑ fine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteristics ❑vegetation lines/changes in vegetation types. ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,etc.). Explain:Watercolor generally clear. Identify specific pollutants,if known:Sediment,Agriculture nutrients. `A natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices). Where there is a break in the Off"that is unrelated to the waterbody's flow regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break, 'Ibid. (iv) Biological Characteristics. Channel supports(check all that apply): ❑ Riparian corridor. Characteristics(type,average width): ❑ Wetland fringe. Characteristics: ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings; ❑Other environmentally-sensitive species. Explain findings: ®Aquatic/wildlife diversity. Explain findings:Limited macrobenthos such as amphipods. 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size: acres Wetland type. Explain: Wetland quality. Explain: Project wetlands cross or serve as state boundaries.Explain: (b) General Flow Relationship with Non-TNW: Flow is: 1i.Explain: ...................... Surface flow is:J14,k�_i1,4_ Characteristics: Subsurface flow: ;c 'IM, Explain findings: ❑Dye(or other)test performed: (c) Wetland Adjacency Determination with Non-TNW: ❑Directly abutting ❑Not directly abutting ❑ Discrete wetland hydrologic connection. Explain: ❑ Ecological connection. Explain: ❑ Separated by berm/barrier. Explain; (d) Proximity(Relationship)to TNW Project wetlands are tck t 1st river miles from TNW. Project waters are P" klisif aerial(straight)miles from TNW. Flow is from:1'iilIa(Sf. Estimate approximate location ofwetland as within the jib i floodplain. (ii) Chemical Characteristics: Characterize wetland system(e.g.,water color is clear,brown,oil film on surface;water quality;general watershed characteristics;etc.). Explain: Identify specific pollutants,if known: (iii)Biological Characteristics. Wetland supports(check all that apply): ❑ Riparian buffer. Characteristics(type,average width): ❑ Vegetation type/percent cover. Explain: ❑ Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ❑Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary(if any) All wetland(s)being considered in the cumulative analysis PrglC`lst' Approximately( }acres in total are being considered in the cumulative analysis, For each wetland,specify the following: Directly abuts?(Y1N) Size tin acres) Directly abuts?AY Size(in acres) Summarize overall biological,chemical and physical functions being performed:Wetland WA provides water storage, pollutant removal,wildlife habitat,and aquatic life habitat.as shown on the attached DWQ rating forms. C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical,physical,and biological integrity of a TNW. For each of the following situations,a significant nexus exists if the tributary,in combination with all of its adjacent wetlands,has more than a speculative or insubstantial effect on the chemical,physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include,but are not limited to the volume,duration,and frequency of the flow of water in the tributary and its proximity to a TNW,and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance(e.g.between a tributary and its adjacent wetland or between a tributary and the TNW).Similarly,the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW,as identified in the Rapanos Guidance and discussed in the Instructional Guidebook.Factors to consider include,for example: • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to carry pollutants or flood waters to TNWs,or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary,in combination with its adjacent wetlands(if any),provide habitat and lifecycle support functions for fish and other species,such as feeding,nesting,spawning,or rearing young for species that are present in the TNW? • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary,in combination with its adjacent wetlands(if any),have other relationships to the physical,chemical,or biological integrity of the TNW? Note:the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary itself,then go to Section I II.D: 2. Significant nexus findings for non-RPW and its adjacent wetlands,where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section IILD: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW.Explain findings of presence or absence of significant nexus below,based on the tributary in combination with al I of its adjacent wetlands,then go to Section HIM:Adjacent wetland drains to ditches which discharge off site and eventually lead to Little Contentnea Creek. These resources are hydrologically connected to the stream and treat runoffto do►►ilstream waters. D. DETERMINATIONS OF JURISDICTIONAL FINDINGS.THE SUBJECT WATERStVVETLANDS ARE(CHECK ALL THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: Q TN Ws: linear feet width(fl),Or, acres. (Q Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. Tributaries of TN Ws where tributaries typically flow year-round are jurisdictional.Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow"seasonally"(e.g.,typically three months each year)are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally:See attached data form for SH. Provide estimates for jurisdictional waters in the review area(check all that apply): Z Tributary waters:64 linear feet 3 width(fl). El Other non-wetland waters: acres. Identify type(s)of waters: 3. Non-RPWss that flow directly or indirectly into TNWs. Waterbody that is not a TNW or an RPW,but flows directly or indirectly into a TNW,and it has a significant nexus with a TNW is jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional waters within the review area(check all that apply): 0 Tributary waters: linear feet width(ft). Q Other non-wetland waters: acres. Identify type(s)of waters: 4. Wetlands directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands directly abut RPW and thus are jurisdictional as adjacent wetlands. Wetlands directly abutting an RPW where tributaries typically flow year-round. Provide data and rationale indicating that tributary is perennial in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: Wetlands directly abutting an RPW where tributaries typically flow"seasonally." Provide data indicating that tributaq is seasonal in Section III.B and rationale in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: Provide acreage estimates for jurisdictional wetlands in the review area: acres. 5. Wetlands adjacent to but not directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands that do not directly abut an RPW,but when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisi diction a].Data supporting this conclusion is provided at Section III.C. Provide acreage estimates for jurisdictional wetlands in the review area: acres. 6. Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs. Wetlands adjacent to such waters,and have when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional wetlands in the review area: acres. 7. Impoundments of jurisdictional waters e As a general rule,the impoundment of a jurisdictional tributary remains jurisdictional. Demonstrate that impoundment was created from"waters of the U.S.,"or Demonstrate that water meets the criteria for one of the categories presented above(1-6),or Demonstrate that water is isolated with a nexus to commerce(see E below). E. ISOLATED JINTERSTATE OR INTRA-STATE1 WATERS,INCLUDING ISOLATED WETLANDS,THE USE, DEGRADATION OR DESTRUCTION OF WHICH COULD AFFECT INTERSTATE COMMERCE,INCLUDING ANY SUCH WATERS(CHECK ALL THAT APPLY):'0 which are or could be used by interstate or foreign travelers for recreational or other purposes. Q from which fish or shellfish are or could be taken and sold in interstate or foreign commerce. which are or could be used for industrial purposes by industries in interstate commerce. Interstate isolated waters. Explain:Wetlands. Other factors. Explain: 'See Footnote#3. 'To complete the analysis refer to the key in Section I11,D,6 of the Instructional Guidebook. 10 Prior to asserting or declining CWA jurisdiction based solely on this category,Corps Districts will elevate the action to Corps and EPA 11Q for review consistent with the process described in the Corps/EPA Memorandum Regarding CWA Act Jurisdiction Following Rapanos. Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area(check all that apply): Tributary waters: linear feet width(ft). El Other non-wetland waters: acres. Identify type(s)of waters: El Wetlands: acres. F. NON-JURISDICTIONAL WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. (❑ Review area included isolated waters with no substantial nexus to interstate(or foreign)conunerce. ❑ Prior to the Jan 2001 Supreme Court decision in"SWANCC,"the review area would have been regulated based solely on the "Migratory Bird Rule"(MBR). Waters do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain: Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis of jurisdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): Nan-wetland waters(i.e.,rivers,streams): linear feet width(ft). Lakes/ponds: acres. Other non-wetland waters: acres.List type of aquatic resource: Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet, width(ft). Lakes/ponds: acres. Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(check all that apply-checked items shall be included in case file and,where checked and requested,appropriately reference sources below): } Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ❑Office concurs with data sheets/delineation report. ❑Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters'study: U.S.Geological Survey Hydrologic Atlas: ❑ USGS NHD data. ❑ USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:1:24,000,Ayden Quadrangle. USDA Natural Resources Conservation Service Soil Survey.CitatiowPitt County Sheet 62. National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: 100-pear Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): Previous detennination(s). File no,and date of response letter: Applicable/supporting case law: Applicable/supporting scientific literature: Other information(please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD:JD Form 5 of 7. APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Form Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 6.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC- I 1 north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Little Contentnea Creek drainage of the Neuse River Basin. Waters included in this determination form is streams SC and SE State:Nonh Carolina County/parish/borough:Pitt City:Greenville Center coordinates of site(lat/long in degree decimal format): Lat. See table'N,Long.See table'W. Universal Transverse Mercator: Name of nearest waterbody:Little Contentnea Creek Name of nearest Traditional Navigable Water(TN W)into which the aquatic resource flows:Neuse River Name of watershed or Hydrologic Unit Code(HUC):03020203 f Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. Check if other sites(e.g.,off'site mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): Office(Desk)Determination. Date: Field Determination. Date(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There :Zitq "navigable waters of the U.S."within Rivers and Harbors Act(RHA)jurisdiction(as defined by 33 CFR part 329)in the review area.[Required] Q Waters subject to the ebb and flow of the tide. (Q Waters are presently used,or have been used in the past,or maybe susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There;Aire"waters of the US."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area.[Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(check all that apply):t ( TNWs,including territorial seas Q Wetlands adjacent to TNWs Relatively permanent waterS2(RPWs)that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Impoundments of jurisdictional waters (Q Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of waters of the U.S.in the review area: Non-wetland waters:3142 linear feet:4 width(fl)and/or acres. Wetlands: acres. c. Limits(boundaries)of jurisdiction based on sfsbl, hed;b ©-h1W1VI, Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(cheek if applicable):3 0 Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be notjurisdictional, Explain: Boxes checked below shall be supported by completing the appropriate sections in Section Ili below. 2 For purposes of this form,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous flow at least"seasonally" (e.g.,typically 3 months). 'Supporting documentation is presented in Section 1111. SECTION III: CIVA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section III.D.I.only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections HLAA and 2 and Section III.D.1.;otherwise,see Section III.B below. 1. TNW Identify TNW: Summarize rationale supporting determination: 2. Wetland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent": B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TNW)AND ITS ADJACENT WETLANDS(IF ANY): This section summarizes information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under Rapanos have been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e.tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.if the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section III.D.2.If the aquatic resource is a wetland directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation.Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody°is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section III.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.B.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section IILC below. 1. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size:50 Drainage area: 10 a "s Average annual rainfall:45.81 inches Average annual snowfall:2.52 inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ®Tributary flows through,$tributaries before entering TNW. Project waters are = ()river miles from TNW. Project waters are {o ems',river miles from RPW. Project waters are aerial(straight)miles from TNW. Project waters are 1°o ';)ess)aerial(straight)miles from RPW. Project waters cross or serve as state boundaries.Explain: Identify flow route to TNWs:From 3 UTs to Little Contentnea Creek to Contentnca Creek to Neuse River. Tributary stream order,if known: 'Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. 5 Flow route can be described by identifying,e.g.,tributary a,which flows through the review area,to flow into tributary b,which then flows into TNW. (b) General Tributary Characteristics(check all that apply): Tributary is: ❑Natural ❑Artificial(man-made). Explain: ®Manipulated (man-altered). Explain:Channel has been Ditched. Tributary properties with respect to top of bank(estimate): Average width:3 feet Average depth:0.5 feet Average side slopes: 1�erE�el,(1„1„bt=les . Primary tributary substrate composition(check all that apply): ®Silts ®Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g,,highly eroding,sloughing banks]. Explain:Stream banks are stable. Presence of run/riffle/pool complexes. Explain:No run/riffle/pool complexes. Tributary geometry: C te)y`t'0*%] Tributary gradient(approximate average slope): 1% (c) Flow: Tributary provides for:9eusonaC,41¢+v Estimate average number of flow events in review area/yean t”4 0, Describe flow regime:Wet season flow and after storm events. Other information on duration and volume: Surface flow is:Cvu :i a 1. Characteristics:Stream channel is ditched. Subsurface flow:1ffikii►ti Explain findings: ❑Dye(or other)test performed: Tributary has(check all that apply): ❑Bed and banks ®OHWM6(check all indicators that apply): ® clear,natural line impressed on the bank ❑ the presence of litter and debris ® changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ® the presence of wrack line ❑ vegetation matted down,bent,or absent ® sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ® sediment deposition ❑ multiple observed or predicted flow events ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM? Explain: If factors other than the OHWM were used to determine lateral extent of CWA jurisdiction(check all that apply): High Tide Line indicated by: ❑ Mean High Water Mark indicated by: ❑ oil or scum line along shore objects ❑survey to available datum; ❑ fine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteristics ❑vegetation lines/changes in vegetation types. ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,etc.). Explain:Water color generally clear. Identify specific pollutants,if known:Sediment,Agriculture nutrients. "A natural or man-made discontinuity in the OflWM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices). Where there is a break in the OHWM that is unrelated to the waterbody's flow regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break. 'lbid. (iv) Biological Characteristics. Channel supports(check all that apply): ❑ Riparian corridor. Characteristics(type,average width): ❑ Wetland fringe. Characteristics: ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ®Aquatic/wildlife diversity. Explain findings:Crayfish and amphipods. 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size: acres Wetland type. Explain: Wetland quality. Explain: Project wetlands cross or serve as state boundaries.Explain: (b) General Flow Relationship with Non-TNW: Flow is:PtTst.Explain: Surface flow is:l'icltLlit Characteristics: Subsurface flow:PJ,k lit. Explain findings: ❑Dye(or other)test performed: (c) Wetland Adjacency Determination with Non-TNW: ❑Directly abutting ❑Not directly abutting ❑ Discrete wetland hydrologic connection. Explain: ❑ Ecological connection. Explain: ❑ Separated by bemVbarrier. Explain: (d) Proximity(Relationship)to TN W Project wetlands are lE'ikt ( f river miles from TN W. Project waters are aerial(straight)miles from TN W. Flow is from; st. Estimate approximate location of wetland as within the Jek,- list floodplain. (ii) Chemical Characteristics: Characterize wetland system(e.g.,water color is clear,brown,oil film on surface;water quality;general watershed characteristics;etc.). Explain: Identify specific pollutants,if known: (iii)Biological Characteristics. Welland supports(check all that apply): ❑ Riparian buffer. Characteristics(type,average width): ❑ Vegetation type/percent cover. Explain: ❑ Habitat for: ❑Federally Listed species. Explain findings: ❑Fisli/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ❑Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary(if any) All wetland(s)being considered in the cumulative analysis:It'ti lKrisf Approximately( )acres in total are being considered in the cumulative analysis. For each wetland,specify the following: Directly abuts?(Y/N Size(in acres) Directly abuts?-(Y/N) Size(in acres) Summarize overall biological,chemical and physical functions being performed:Wetland WA provides water storage, pollutant removal,wildlife habitat,and aquatic life habitat.as shown on the attached DWQ rating forms. C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical,physical,and biological integrity of a TNW. For each of the following situations,a significant nexus exists if the tributary,in combination with all of its adjacent wetlands,has more than a speculative or insubstantial effect on the chemical,physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include,but are not limited to the volume,duration,and frequency of the flow of water in the tributary and its proximity to a TNW,and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance(e.g.between a tributary and its adjacent wetland or between a tributary and the TNW).Similarly,the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW,as identified in the Rapm►os Guidance and discussed in the Instructional Guidebook.Factors to consider include,for example: • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to carry pollutants or flood waters to TNWs,or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary,in combination with its adjacent wetlands(if any),provide habitat and lifecycle support functions for fish and other species,such as feeding,nesting,spawning,or rearing young for species that are present in the TNW? • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary,in combination with its adjacent wetlands(if any),have other relationships to the physical,chemical,or biological integrity of the TNW? Note:the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary itself,then go to Section III.D: 2. Significant nexus findings for non-RPW and its adjacent wetlands,where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section III.D: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW.Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section III.D:Adjacent wetland drains to ditches which discharge off site and eventually lead to Little Contentnea Creek. These resources are hydrologically connected to the stream and treat runoff to downstream waters. D. DETERMINATIONS OF JURISDICTIONAL FINDINGS.THE SUBJECT WATERSIWETLANDS ARE(CHECK ALL THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: 0 TNWs: linear feet width(ft),Or, acres. Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. (� Tributaries of TNWs where tributaries typically flow year-round are jurisdictional.Provide data and rationale indicating that tributary is perennial:See attached data fornt for SE. [ Tributaries of TNW where tributaries have continuous flow"seasonally"(e.g.,typically three months each year)are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally:See attached data font for SC. Provide estimates for jurisdictional waters in the review area(check all that apply): 10 Tributary waters:3142 linear feet 4 width(ft). Q Other non-wetland waters: acres. Identify typc(s)of waters: 3. Non-RPWss that flow directly or indirectly into TNWs. Q Waterbody that is not a TN W or an RPW,but flows directly or indirectly into a TN W,and it has a significant nexus with a TN W is jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional waters within the review area(check all that apply): [ Tributary waters: linear feet width(fl). Other non-wetland waters: acres. Identify type(s)of waters: 4. Wetlands directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands directly abut RPW and thus are jurisdictional as adjacent wetlands. Wetlands directly abutting an RPW where tributaries typically flow year-round. Provide data and rationale indicating that tributary is perennial in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: Wetlands directly abutting an RPW where tributaries typically flow"seasonally." Provide data indicating that tributary is seasonal in Section III.B and rationale in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: Provide acreage estimates for jurisdictional wetlands in the review area: acres. S. Wetlands adjacent to but not directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands that do not directly abut an RPW,but when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TN W are jurisidictional.Data supporting this conclusion is provided at Section III.C. Provide acreage estimates for jurisdictional wetlands in the review area: acres. b. Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs. Wetlands adjacent to such waters,and have when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional wetlands in the review area: acres. 7. Impoundments of jurisdictional waters.4 As a general role,the impoundment of a jurisdictional tributary remains jurisdictional. Demonstrate that impoundment was created from"waters of the U.S.,"or Demonstrate that water meets the criteria for one of the categories presented above(1-G),or Q Demonstrate that water is isolated with a nexus to commerce(see E below). E. ISOLATED [INTERSTATE OR INTRA-STATE]WATERS,INCLUDING ISOLATED WETLANDS,THE USE, DEGRADATION OR DESTRUCTION OF WHICH COULD AFFECT INTERSTATE COMMERCE,INCLUDING ANY SUCH WATERS(CHECK ALL THAT APPLY):1° which are or could be used by interstate or foreign travelers for recreational or other purposes, from which fish or shellfish are or could be taken and sold in interstate or foreign commerce, which are or could be used for industrial purposes by industries in interstate commerce. 0 Interstate isolated waters. Explain:Wetlands. Q Other factors. Explain: 'See Footnote#3. 'To complete the analysis refer to the key in Section III,D.6 of the Instructional Guidebook. 10 Prior to asserting or declining CWA jurisdiction based solely on this category,Corps Districts will elevate the action to Corps and EPA HQ for review consistent with the process described in the Corps/EPA Memorandum Regarding CWA Act Jurisdiction Following Rapanos. Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area(check all that apply): Tributary waters: linear feet width(ft). Other non-wetland waters: acres. Identify type(s)of waters: Wetlands: acres. F. NOR-JURISDICTIONAL!WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): 0 If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. Q Review area included isolated waters with no substantial nexus to interstate(or foreign)commerce. ❑ Prior to the Jan 2001 Supreme Court decision in"SIYANCC,"the review area would have been regulated based solely on the "Migratory Bird Rule"(MBR). [] Waters do not meet die"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain: { Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis ofjurisdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): 0 Non-wetland waters(i.e.,rivers,streams): linear feet width($). Lakes/ponds: acres. Other non-wetland waters: acres.List type of aquatic resource: Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): Non-wetland waters(i.e.,rivers,streams): Linear feet, width(ft). Lakes/ponds: acres. 0 Other non-wetland waters: acres. List type of aquatic resource: El Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(cheek all that apply-checked items shall be included in case file and,where checked and requested,appropriately reference sources below): }� Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ❑Office concurs with data sheets/delineation report. ❑Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters'study: U.S.Geological Survey Hydrologic Atlas: ❑ USGS NHD data. ❑USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:1:24,000,Ayden Quadrangle. USDA Natural Resources Conservation Service Soil Survey.Citation:Pitt County Sheet 67. 0 National wetlands inventory map(s). Cite name: Q State/Local wetland inventory map(s): FEMA/FIRM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): (] Previous determination(s). File no.and date of response letter: Applicable/supporting case law: Applicable/supporting scientific literature: Other information(please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD:JD Form 6 of 7. APPROVED JURISDICTIONAL DETERMINATION FORM U.S.Army Corps of Engineers This form should be completed by following the instructions provided in Section IV of the JD Forni Instructional Guidebook. SECTION 1: BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR APPROVED JURISDICTIONAL DETERMINATION(JD): B. DISTRICT OFFICE,FILE NAME,AND NUMBER: C. PROJECT LOCATION AND BACKGROUND INFORMATION:JD FORM 7.TIP R-2250 runs from NC-264 north of Stantonsburg Road to NC- I I north of Jacksontown Road.in Greenville,Pitt County NC. All waters within this review area are in the Swift Creek drainage of the Neuse River Basin. Waters included in this determination form is stream SD State:North Carolina County/parish/borough:Pitt City:Greenville Center coordinates of site(lat/long in degree decimal format): Lat.See table' ,Long.See table'W. Universal Transverse Mercator: Name of nearest waterbody:Swift Creek Name of nearest Traditional Navigable Water(TNW)into which the aquatic resource flows:Neuse River Name of watershed or Hydrologic Unit Code(HUC):03020202 9 Check if map/diagram of review area and/or potential jurisdictional areas is/are available upon request. ER Check if other sites(e.g.,offsite mitigation sites,disposal sites,etc...)are associated with this action and are recorded on a different JD form. D. REVIEW PERFORMED FOR SITE EVALUATION(CHECK ALL THAT APPLY): [� Office(Desk)Determination. Date: [Q Field Determination, Date(s): SECTION II: SUMMARY OF FINDINGS A. RHA SECTION 10 DETERMINATION OF JURISDICTION. There A!`G49 "navigable waters of the U.S."within Rivers and Harbors Act(RHA)jurisdiction(as defined by 33 CFR part 329)in the review area.[Required] Waters subject to the ebb and flow of the tide. Waters are presently used,or have been used in the past,or may be susceptible for use to transport interstate or foreign commerce. Explain: B. CWA SECTION 404 DETERMINATION OF JURISDICTION. There Are"waters of the U.S."within Clean Water Act(CWA)jurisdiction(as defined by 33 CFR part 328)in the review area.[Required] 1. Waters of the U.S. a. Indicate presence of waters of U.S.in review area(check all that apply): ' C) TNWs,including territorial seas Q Wetlands adjacent to TNWs Relatively permanent waters2(RPWs)that flow directly or indirectly into TNWs Non-RPWs that flow directly or indirectly into TNWs Wetlands directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to but not directly abutting RPWs that flow directly or indirectly into TNWs Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs Impoundments of jurisdictional waters Isolated(interstate or intrastate)waters,including isolated wetlands b. Identify(estimate)size of waters of the U.S.in the review area- Non-wetland waters:86 linear feet:2 width(ft)and/or acres. Wetlands: acres. e. Limits(boundaries)of jurisdiction based on >f±stali�ished'16 1] M Elevation of established OHWM(if known): 2. Non-regulated waters/wetlands(check if applicable):3 [] Potentially jurisdictional waters and/or wetlands were assessed within the review area and determined to be not jurisdictional. Explain: Boxes checked below shall be supported by completing the appropriate sections in Section III below. Z For purposes of this form,an RPW is defined as a tributary that is not a TNW and that typically flows year-round or has continuous flow at least"seasonally (e.g.,typically 3 months). 'Supportingdocumentatian is presented in Section III.F. SECTION III: CWA ANALYSIS A. TNWs AND WETLANDS ADJACENT TO TNWs The agencies will assert jurisdiction over TNWs and wetlands adjacent to TNWs. If the aquatic resource is a TNW,complete Section III.A.1 and Section III.D.I.only;if the aquatic resource is a wetland adjacent to a TNW,complete Sections III.A.1 and 2 and Section III.D.I.;otherwise,see Section HLB below. 1. TNW Identify TNW: Summarize rationale supporting determination: 2. Welland adjacent to TNW Summarize rationale supporting conclusion that wetland is"adjacent': B. CHARACTERISTICS OF TRIBUTARY(THAT IS NOT A TNW)AND ITS ADJACENT WETLANDS(IF ANY): This section summarizes information regarding characteristics of the tributary and its adjacent wetlands,if any,and it helps determine whether or not the standards for jurisdiction established under Raparros have been met. The agencies will assert jurisdiction over non-navigable tributaries of TNWs where the tributaries are"relatively permanent waters"(RPWs),i.e.tributaries that typically flow year-round or have continuous flow at least seasonally(e.g.,typically 3 months).A wetland that directly abuts an RPW is also jurisdictional.If the aquatic resource is not a TNW,but has year-round (perennial)flow,skip to Section III.D.2.If the aquatic resource is a wetland directly abutting a tributary with perennial flow, skip to Section III.D.4. A wetland that is adjacent to but that does not directly abut an RPW requires a significant nexus evaluation.Corps districts and EPA regions will include in the record any available information that documents the existence of a significant nexus between a relatively permanent tributary that is not perennial(and its adjacent wetlands if any)and a traditional navigable water,even though a significant nexus finding is not required as a matter of law. If the waterbody°is not an RPW,or a wetland directly abutting an RPW,a JD will require additional data to determine if the waterbody has a significant nexus with a TNW.If the tributary has adjacent wetlands,the significant nexus evaluation must consider the tributary in combination with all of its adjacent wetlands.This significant nexus evaluation that combines,for analytical purposes,the tributary and all of its adjacent wetlands is used whether the review area identified in the JD request is the tributary,or its adjacent wetlands,or both.If the JD covers a tributary with adjacent wetlands,complete Section III.B.1 for the tributary,Section III.B.2 for any onsite wetlands,and Section III.8.3 for all wetlands adjacent to that tributary,both onsite and offsite.The determination whether a significant nexus exists is determined in Section IILC below. I. Characteristics of non-TNWs that flow directly or indirectly into TNW (i) General Area Conditions: Watershed size:75es Drainage area: 10 4 Average annual rainfall:45.$1 inches Average annual snowfall:2.52 inches (ii) Physical Characteristics: (a) Relationship with TNW: ❑Tributary flows directly into TNW. ®Tributary flows through 1�tributaries before entering TNW. Project waters are 30{#r tiltbee)river miles from TNW. Project waters are Ilor= ssj river miles from RPW. Project waters are 25.40 aerial(straight)miles from TNW. Project waters are l(r )le_)aerial(straight)miles from RPW. Project waters cross or serve as state boundaries.Explain: Identify flow route to TNW$:front 2 UTs to Sw$Creek to Neuse River. Tributary stream order,if known: °Note that the Instructional Guidebook contains additional information regarding swales,ditches,washes,and erosional features generally and in the arid West. 5 Flow route can be described by identifying,e,g.,tributary a,which flows through the review area,to flow into tributary b,which then flows into TNW, (b) General Tributary Characteristics(check all that apply Tributary is: ❑Natural ❑Artificial(man-made). Explain: ®Manipulated (man-altered). Explain:Channel has been Ditched. Tributary properties with respect to top of bank(estimate): Average width:2 feet Average depth:0.1 feet Average side slopes ,V i4icil,ft,l_,ar„less}. Primary tributary substrate composition(check all that apply): ®Silts ®Sands ❑Concrete ❑Cobbles ❑Gravel ❑Muck ❑Bedrock ❑Vegetation. Type/%cover: ❑Other.Explain: Tributary condition/stability[e.g.,highly eroding,sloughing banks]. Explain:Stream banks are stable. Presence of run/riffle/pool com lexes. Explain:No run/rifftc/pool complexes. Tributary geometry:�g � 4e�al't�e;l�s;�►�ai��t Tributary gradient(approximate average slope): I% (c) Flow: Tributary provides for: ;espuitlftV Estimate average number of flow events in review area/year: L1 Describe flow regime:Wet season flow and after storm events. Other information on duration and volume: Surface flow is:CifE(ii . Characteristics:Stream channel is ditched. Subsurface flow: fpkaolS;i. Explain findings: ❑Dye(or other)test performed: Tributary has(check all that apply): ®Bed and banks ®OHWM6(check all indicators that apply): • clear,natural line impressed on the bank ❑ the presence of litter and debris • changes in the character of soil ❑ destruction of terrestrial vegetation ❑ shelving ® the presence of wrack line ❑ vegetation matted down,bent,or absent ® sediment sorting ❑ leaf litter disturbed or washed away ❑ scour ® sediment deposition ❑ multiple observed or predicted flow events ❑ water staining ❑ abrupt change in plant community ❑ other(list): ❑Discontinuous OHWM.' Explain: If factors other than the OHWM were used to determine lateral extent ofCWA jurisdiction(check all that apply): High Tide Line indicated by: ❑ Mean High Water Mark indicated by: ❑ oil or scum line along shore objects ❑survey to available datum; ❑ fine shell or debris deposits(foreshore) ❑physical markings; ❑ physical markings/characteri stics ❑vegetation lines/changes in vegetation types. ❑ tidal gauges ❑ other(list): (iii) Chemical Characteristics: Characterize tributary(e.g.,water color is clear,discolored,oily film;water quality;general watershed characteristics,etc.). Explain:Water color generally clear. Identify specific pollutants,if known:Sediment,Agriculture nutrients. "A natural or man-made discontinuity in the OHWM does not necessarily sever jurisdiction(e.g.,where the stream temporarily flows underground,or where the OHWM has been removed by development or agricultural practices), Where there is a break in the OR”that is unrelated to the waterbody's now regime(e.g.,flow over a rock outcrop or through a culvert),the agencies will look for indicators of flow above and below the break. 'lbid. (iv) Biological Characteristics. Channel supports(check all that apply): ❑ Riparian corridor. Characteristics(type,average width): ❑ Wetland fringe. Characteristics: ® Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ®Aquatic/wildlife diversity. Explain findings:Crayfish,and dragonfly larvae. 2. Characteristics of wetlands adjacent to non-TNW that flow directly or indirectly into TNW (i) Physical Characteristics: (a) General Wetland Characteristics: Properties: Wetland size: acres Wetland type. Explain: Wetland quality. Explain: Project wetlands cross or serve as state boundaries.Explain: (b) General Flow Relationship with Non-TNW: Flow is: `llts#.Explain: Surface flow is:P{ Ist Characteristics: Subsurface flow PtGatst. Explain findings: ❑Dye(or other)test performed: (c) Wetland Adjacency Determination with Nan-TNW: ❑Directly abutting ❑Not directly abutting ❑ Discrete wetland hydrologic connection. Explain: ❑ Ecological connection. Explain: ❑ Separated by berm/barrier. Explain: (d) Proximity(Relationship.)to TNW Project wetlands are kJI;iZjst river miles from TNW. Project waters are Pii4"t i aerial(straight)miles from TNW. Flow is from: ' Estimate approximate location of wetland as within the PlikLbt tloodplaiii. (ii) Chemical Characteristics: Characterize wetland system(e.g.,water color is clear,brown,oil film on surface;water quality;general watershed characteristics;etc.). Explain: Identify specific pollutants,if known: (iii)Biological Characteristics. Wetland supports(check all that apply): ❑ Riparian buffer. Characteristics(type,average width): ❑ Vegetation type/percent cover. Explain: ❑ Habitat for: ❑Federally Listed species. Explain findings: ❑Fish/spawn areas.Explain findings: ❑Other environmentally-sensitive species. Explain findings: ❑Aquatic/wildlife diversity. Explain findings: 3. Characteristics of all wetlands adjacent to the tributary(if any) All wetland(s)being considered in the cumulative analysis:)E'fc1 Approximately{ )acres in total are being considered in the cumulative analysis. For each wetland,specify the following: Directly abuts?{YIN) Size(in acres) Directly abuts?(YIN) Size(in acres) Summarize overall biological,chemical and physical functions being performed:Wetland WA provides water storage, pollutant removal,wildlife habitat,and aquatic life habitat.as shown on the attached DWQ rating forms. C. SIGNIFICANT NEXUS DETERMINATION A significant nexus analysis will assess the flow characteristics and functions of the tributary itself and the functions performed by any wetlands adjacent to the tributary to determine if they significantly affect the chemical,physical,and biological integrity of a TNW. For each of the following situations,a significant nexus exists if the tributary,in combination with all of its adjacent wetlands,has more than a speculative or insubstantial effect on the chemical,physical and/or biological integrity of a TNW. Considerations when evaluating significant nexus include,but are not limited to the volume,duration,and frequency of the Flow of water in the tributary and its proximity to a TNW,and the functions performed by the tributary and all its adjacent wetlands. It is not appropriate to determine significant nexus based solely on any specific threshold of distance(e.g.between a tributary and its adjacent wetland or behveen a tributary and the TNW).Similarly,the fact an adjacent wetland lies within or outside of a floodplain is not solely determinative of significant nexus. Draw connections between the features documented and the effects on the TNW,as identified in the Rapanos Guidance and discussed in the Instructional Guidebook.Factors to consider include,for example: • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to carry pollutants or flood waters to TNWs,or to reduce the amount of pollutants or flood waters reaching a TNW? • Does the tributary,in combination with its adjacent wetlands(if any),provide habitat and lifecycle support functions for fish and other species,such as feeding,nesting,spawning,or rearing young for species that are present in the TNW? • Does the tributary,in combination with its adjacent wetlands(if any),have the capacity to transfer nutrients and organic carbon that support downstream foodwebs? • Does the tributary,in combination with its adjacent wetlands(if any),have other relationships to the physical,chemical,or biological integrity of the TNW? Note:the above list of considerations is not inclusive and other functions observed or known to occur should be documented below: 1. Significant nexus findings for non-RPW that has no adjacent wetlands and flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary itself,then go to Section IILD: 2. Significant nexus findings for non-RPW and its adjacent wetlands,where the non-RPW flows directly or indirectly into TNWs. Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section III.D: 3. Significant nexus findings for wetlands adjacent to an RPW but that do not directly abut the RPW.Explain findings of presence or absence of significant nexus below,based on the tributary in combination with all of its adjacent wetlands,then go to Section IILD:Adjacent wetland drains to ditches which discharge off site and eventually lead to Little Contenlnea Creek. These resources are hydrologically connected to the stream and treat runoff to downstream waters. D. DETERMINATIONS OF JURISDICTIONAL FINDINGS.THE SUBJECT WATERSAVETLANDS ARE(CHECK ALL THAT APPLY): 1. TNWs and Adjacent Wetlands. Check all that apply and provide size estimates in review area: TN Ws: linear feet width(ft),Or, acres. 0 Wetlands adjacent to TNWs: acres. 2. RPWs that flow directly or indirectly into TNWs. Tributaries of TNWs where tributaries typically flow year-round are jurisdictional.Provide data and rationale indicating that tributary is perennial: Tributaries of TNW where tributaries have continuous flow"seasonally"(e.g.,typically three months each year)are jurisdictional. Data supporting this conclusion is provided at Section III.B. Provide rationale indicating that tributary flows seasonally:See attached data form for SD. Provide estimates for jurisdictional waters in the review area(check all that apply): 0 Tributary waters:86 linear feet 2 width(ft). [Q Other non-wetland waters: acres. Identify type(s)of waters: 3. Non-RPWss that flow directly or indirectly into TNWs. [[ Waterbody that is not a TNW or an RPW,but flows directly or indirectly into a TN W,and it has a significant nexus with a TN W is jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional waters within the review area(check all that apply): 0 Tributary waters: linear feet width(ft). Other non-wetland waters: acres. Identify type(s)of waters: 4. Wetlands directly abutting an RPW that flow directly or indirectly into TNWs. 0 Wetlands directly abut RPW and thus are jurisdictional as adjacent wetlands. 0 Wetlands directly abutting an RPW where tributaries typically flow year-round. Provide data and rationale indicating that tributary is perennial in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: 0 Wetlands directly abutting an RPW where tributaries typically flow"seasonally." Provide data indicating that tributary is seasonal in Section 111.13 and rationale in Section III.D.2,above.Provide rationale indicating that wetland is directly abutting an RPW: Provide acreage estimates for jurisdictional wetlands in the review area: acres. 5. Wetlands adjacent to but not directly abutting an RPW that flow directly or indirectly into TNWs. Wetlands that do not directly abut an RPW,but when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisidictional.Data supporting this conclusion is provided at Section III.C. Provide acreage estimates for jurisdictional wetlands in the review area: acres. G. Wetlands adjacent to non-RPWs that flow directly or indirectly into TNWs. 0 Wetlands adjacent to such waters,and have when considered in combination with the tributary to which they are adjacent and with similarly situated adjacent wetlands,have a significant nexus with a TNW are jurisdictional.Data supporting this conclusion is provided at Section III.C. Provide estimates for jurisdictional wetlands in the review area: acres. 7. Impoundments of jurisdictional waters.4 As a general rule,the impoundment of a jurisdictional tributary remains jurisdictional. 0 Demonstrate that impoundment was created from"waters of the U.S.,"or 0 Demonstrate that water meets the criteria for one of the categories presented above(1-6),or 0 Demonstrate that water is isolated with a nexus to commerce(see E below). E. ISOLATED [INTERSTATE OR INTRA-STATE]WATERS,INCLUDING ISOLATED WETLANDS,THE USE, DEGRADATION OR DESTRUCTION OF WHICH COULD AFFECT INTERSTATE COMMERCE,INCLUDING ANY SUCH WATERS(CHECK ALL THAT APPLY):10 0 which are or could be used by interstate or foreign travelers for recreational or other purposes. 0 from which fish or shellfish are or could be taken and sold in interstate or foreign commerce. 0 which are or could be used for industrial purposes by industries in interstate commerce. 0 Interstate isolated waters. Explain:Wetlands. n Other factors. Explain: 'See Footnote#3. 'To complete the analysis refer to the key in Section 11LD.6 of the Instructional Guidebook. 10 Prior to asserting or declining CWA jurisdiction based solely on this category,Corps Districts will elevate the action to Corps and EPA HQ for review consistent with the process described in the Corps/EPA Memorandum Regarding CWA Act Jurisdiction Following Rapanos. Identify water body and summarize rationale supporting determination: Provide estimates for jurisdictional waters in the review area(check all that apply): Tributary waters: linear feet width(It). El Other non-wetland waters: acres. Identify type(s)of waters: El Wetlands: acres. F. NON-JURISDICTIONAL WATERS,INCLUDING WETLANDS(CHECK ALL THAT APPLY): If potential wetlands were assessed within the review area,these areas did not meet the criteria in the 1987 Corps of Engineers Wetland Delineation Manual and/or appropriate Regional Supplements. El Review area included isolated waters with no substantial nexus to interstate(or foreign)commerce. ❑ Prior to the Jan 2001 Supreme Court decision in"SWANCC,"the review area would have been regulated based jQle-1-y on the "Migratory Bird Rule"(MBR). Waters do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction. Explain: Other:(explain,if not covered above): Provide acreage estimates for non jurisdictional waters in the review area,where the sole potential basis of jurisdiction is the MBR factors(i.e.,presence of migratory birds,presence of endangered species,use of water for irrigated agriculture),using best professional judgment(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet width(ft). Lakes/ponds: acres. Other non-wetland waters: acres.List type of aquatic resource: Wetlands: acres. Provide acreage estimates for non jurisdictional waters in the review area that do not meet the"Significant Nexus"standard,where such a finding is required for jurisdiction(check all that apply): Non-wetland waters(i.e.,rivers,streams): linear feet, width(ft). Lakes/ponds: acres. [ Other non-wetland waters: acres. List type of aquatic resource: Wetlands: acres. SECTION IV: DATA SOURCES. A. SUPPORTING DATA. Data reviewed for JD(check all that apply-checked items shall be included in case file and,where checked and requested,appropriately reference sources below): Maps,plans,plots or plat submitted by or on behalf of the applicant/consultant: Data sheets prepared/submitted by or on behalf of the applicant/consultant. ❑ Office concurs with data sheets/delineation report. ❑ Office does not concur with data sheets/delineation report. Data sheets prepared by the Corps: Corps navigable waters'study: U.S,Geological Survey Hydrologic Atlas: ❑USGS NHD data. ❑USGS 8 and 12 digit HUC maps. U.S.Geological Survey map(s).Cite scale&quad name:1:24,000,Ayden Quadrangle. USDA Natural Resources Conservation Service Soil Survey.Citation:Pitt County Sheet 67. National wetlands inventory map(s). Cite name: State/Local wetland inventory map(s): FEMA/FIRM maps: 100-year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) Photographs:®Aerial(Name&Date):2010 NAIP. or❑Other(Name&Date): ❑ Previous determination(s). File no.and date of response letter: Applicable/supporting case law: ❑ Applicable/supporting scientific literature: Other information(please specify): B. ADDITIONAL COMMENTS TO SUPPORT JD:JD Form 7 of 7. 00 ""ooll .0 LZ qi r , .- , ."^....,.^,^w 77^ CMG cn p� ... lollyVLd.�., i �� �fv ' .,�,� � z `��" c•,,.� ..._,_... /�'' .�-� `�f. ... � .... �,,,.�"� v��Ha !v1' �f f�r��4' V�y�,y;���� � �z W a �m IL ti folrl .. ea � �. Disc � a " Z/ pIMrauon .,w....,...., 7��.�"'� °y J. 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", ;,.. ,,r, ,,,,.I";,� ; �ij� 'N"i1 N49��i--< �f �° � �n T�(' � � „ k" ���;,"y..,,, h ✓ gg a ;,'k 'P' /f�r�F I"✓'��,.�r 1 f .9� rs r,&'� F�°,r,, r rrl 4t ,!4Y;r � �� �M; NT r r p ^I� r i t r nl � I i`. r ' ;r 1 � r ;k' f��',��r`��✓' �� i� � 1(� � R / , r r �r ry;r ° u I r f ± 1 r l y' i r I r e,r„ r ✓ 1111�� s r s r � 1 E.' r Ir'' III , f r r r � r � a� a li OI�,� V r r � ri rY it It It r r (6r I 'r wr � r�rn v� lr^/r�1 YrGYr I ° m, r r r`f Ir r r " N, NC DWQ Stream identification Form Version 4.11 Date: ProjewSite: Latitude: J Evaluator: County: # Longitude:,is o Total Points: Stream Det"nationy!"rcle one) Other Stream is at least intermittent Ephemera Qntermlitten Perennial e.g.Quad Name: iii 19 or Perennial if Z:30* ............ A. Geomorphology (Subtotal Absent Weak Moderate Strong I*'-Continuity of channel bed and bank 1 0 1 0) 3 2.Sinuosity of channel along thalweg 0 2 3 3. In-channel structure:ex.riffle-pool,step-pool, CO) 1 2 3 ripple-pool sequence 4.Particle size of stream substrate 10) 1 2 3 5.Active/relict floodplain 1 2 3 6.Depositional bars or benches 0 7rY777 2 3 7.Recent alluvial deposits t 1 2 3 8. Headcuts C-0) 1 2 3 9.Grade control 0.5 1 1.5 10. Natural valley 0.5 1 1.5 11. Second or greater order channel No='D Yes=3 artificial ditches are not rated;see discussions in manual B. Hydrology (Subtotal 12,Presence of Baseflow 0 1 3 13, Iron oxidizing bacteria 1 2 3 14, Leaf litter 1.6 0.5 0 16. Sediment on plants or debris 0 0M 1 1.5 16.Organic debris lines or piles 0 l 0. 1 11.6 17,Soil-based evidence of high water table? No=0 Yes=3 C. Biology (Subtotal 18. Fibrous toots in streambed 2 1 0 19.Rooted upland plants in streambed 3j 2 1 0 20.Macrobenthos(note diversity and abundance) 0 2 3 21,Aquatic Mollusks 0 1 r) 3 22. Fish 0.5 1 1.5 23,Crayfish 0.5 1 1.5 24.Amphibians O'S 1 1.5 25.Algae 0.5 1 1.5 26.Wetland plants in streambed FACW=0.75; OBL=1.5 ther *perennial streams may also be identified using other methods.See p.35 of manual. Notes: Sketch: cAl� --------------- --------- USACE AID# DWQ# Site N (indicate on attached map) M STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: .1 D -,ro ` �fl, 0 1.Applicant's name: 06L�51 -I�P0 2.Evaluator's name: 3.Date of evaluation: ULW3 4.Time of evaluation: 5.Name of stream: A 6.River basin: NeIA 7.Approximate drainage area: QC 8.Stream order: 9.Length ofreach evaluated: 1()()4 10.County: F�4 11.Site coordinates(if known): prefer in decimal degrees. 12. Subdivision name(if any): Q [� -7 ,< Tt (�, Latit ude(ex.34.872312): la-- 1).-� Longitude(ex. -77S-536611): Method location determined(circle): @�w), Topo Shect Ortho(Aerial)Photo/GIS Odier GIS Other 13.Location of reach under evaluation(note nearby roads and landmarks and attach map identifying stream(s)location): 14.Proposed channel work(if any): 15.Recent weather conditions:- RrA,h, lc�!ajc, P"Cir 16.Site conditions at time of visit: 17.Identify any special waterway classifications known: —Section 10 Tidal Waters Essential Fisheries Habitat Trout Waters —Outstanding Resource Waters Nutrient Sensitive Waters Water Supply Watershed—(I-IV) 18.Is there a pond or lake located upstream of the evaluation point? YES 93 If yes,estimate the water surface arew 19.Does channel appear on USGS quad map? YES & 20.Does channel appear on USDA Soil Survey? NO 21.Estimated watershed land use: %Residential %Commercial %Industrial -�"/o Agricultural 9�0%Forested %Cleared i Logged %Other( 22.Bankfuli width: 6 23,Bank height(from bed to top of bank): 24.Channel slope down center of stream: -� Flat(0 to 211/o) ---�Gentle(2 to 4%) —1vtoderate(4 to 10%) _Steep(>10%) 25.Channel sinuosity:_Straight X Occasional bends _Frequent meander Very sinuous Braided channel instructions for completion of worksheet (located on page 2), Begin by determining the most appropriate ecoregion based on location,terrain,vegetation,stream classification,etc. Every characteristic must be scored using the same ecoregion. Assign points to each characteristic within the range shown for the ecoregion. Page 3 provides a brief description of how to review the characteristics identified in the worksbeet. Scores should reflect an overall assessment of the stream reach tinder evaluation. If a characteristic cannot be evaluated due to site or weather conditions, enter 0 in the scoring box and provide an explanation in tile comment section. Where there are obvious changes in the character of a stream under review(e.g., the stream flows from a pasture into a forest),the stream may be divided into smaller reaches that display more continuity,and a separate form used to evaluate each reach. The total score assigned to a stream reach must range between 0 and 100, with a score of 100 representing a stream of the highest quality. Total Score (from reverse) Comments., ),nature Date Evaluator's Sig This channel evaluationkforn�is intended to be used only as a guide to assist landowners and environmental professionals in gathering the data required by the United States Army Corps of Engineers to make a preliminary assessment of stream quality� The total score resulting from the completion of this form is subject to USACE approval and does not imply a particular mitigation ratio or requirement. Form subject to change-version 06/03. To Comment,please call 919-876-8441 x 26. 1 STREAM QUALITY ASSESSMENT WORKSHEET 3 a-, 13 c n CXat1Cltt « R P r . w ' a. s ?-c _ 3 £. / wA .. _ ' g �p A It a _ , _ w {1SG�aT yo- g" tY`� 1X517 1{it #fi Ee `s* s tle" ettlied` y. to 4 xr ,4 r jr 3i �g t&A .. 5,2! . mwi, T�' ' 11 .1 �i� r.. 64V Nis 1 r. veera'�i �tl eta MCC �< . n . �vzi�a.� t�c& ill 1210 AM,112la! �4k 7 kkll, I 71M K 3 MWA a59, Q p �xgs. t u dad a rr1'� £ �ro ¢ ' '° t } _(}¢H °�a'4sY,, ^..• I1 .Slrtk�.'�tp3.%t i�f 0,t £ _ ia"',..ib� UAW— ...:1: N. i'sY:TC - c"��" .� ?cri w.• { .S�y -9+3&4C L°�'.i` AL '71 bstyS7dS'aQ /S Fn 2"Ei � ,,77 Uet :[[�� a?A 1.:�"i�1�n` $?✓.., £sa � .b.'fs r [�;. ;9�-, €q, *These characteristics are not assessed in coastal streams. 2 NC DWQ Stream Identification Form Version 4.11 Date: Project/Site: a Latitude: ,,;i Evaluator: I County: .s Longitude: -_-1-I t Total Points: I Stream Determllom( bile one) tither Stream is at least intermittent `2 ..,r} Ephemer t-ttitermittent erennisi e.g.Quad Name: if z 19 or perennial if z 30' 3, - A. Geomorphology Subtotal= } Absent Weak Moderate Strang 1"Continuity of channel bed and bank 0 f 3 2.Sinuosity of channel along thalweg 0 2 3 3.In-channel structure:ex.riffle-pool,step-pool, 1 2 3 ripple-pool sequence 4.Particle size of stream substrate 0 1 2 3 5_Active/relict floodplain 0 73 2 3 6.Depositional bars or benches `" 1 2 3 7.Recent alluvial deposits 1 2 3 8. Headcuts 1 2 3 9.Grade control 0 0.5 1 1.5 10.Natural valley 0 0 1 1.5 11. Second or greater order channel o= Yes=3 artiflcial ditches are not rated;see discussions in manual E�2 i010 (Subtotal ence of Baseflow 0 MO 3 oxidizing bacteria 0 3 f litter 1.5 0 15.Sediment on plants or debris 0 -1. .'16.0 ganic debris lines or piles 0 X1.5 17.Soil-based evidence of high water table? NYes=3 C.Biolo Subtotal 18.Fibrous roots in streambed 3 1 0 19. Rooted upland plants in streambed 2 1 0 20.Macrobenthos(note diversity and abundance) X73 1 2 3 21,Aquatic Mollusks 0 1 3 22.Fish 0.5 1 1.5 23.Crayfish 0.5 1 1.5 24,Amphibians 0.5 1 1.5 t 1.5 25,Algae 0 0. 26.Wetland plants in streambed FACW=0.75; BL r i. Other 0 M *perennial streams ma also be identified using other methods.See p.35 of manual. Notes: . Sketch: —---------- USAGE AID# DWQ# Site#— (indicate on attached map) STREAM QUALITY ASSESSMENT WORKSHEET M iI Provide the following information for the stream reach under assessment: f �Z50 1.Applicant's name: --) 2.Evaluator's name: t Av 3. Date of evaluation: A /11 4.Time of evaluation: 5.Name of stream:- 6.River basin-, PJ? ,,k f 7.Approximate drainage area: t / 8.Stream order: 9.Length of reach evaluated: 10.County: 11.Site coordinates(if known): prefer in decimal degrees. 12.Subdivision name(if any): Latitude(ex.34.872312): Longitude(ex.-77.55661 1):— -7 Method location determined(circle): GPS Topo Sheet Ortho(Aerial)Photo/GIS Other GIS, Other 13. Location of reach under evaluation(note nearby roads and landmarks and attach map identifying stream(s)location): V r ,,., "f- '�)1 , - e,J "F �o,k-z�j 14.Proposed channel work(if any): 15.Recent weather conditions: As"'i L11� inn� 16.Site conditions at time of visit; bO4 17. Identify any special waterway classifications known: —Section 10 Tidal Waters Essential Fisheries Habitat Trout Waters Outstanding Resource Waters —Nutrient Sensitive Waters Water Supply Watershed_(I-IV) 18.Is there a pond or take located upstream of the evaluation point? YES(1?0— If yes,estimate the water surface area: 19.Does channel appear on USGS quad map? (5 NO 20.Does channel appear on USDA Soil Survey? NO 21.Estimated watershed land use: _LD-1.Residential %Commercial %Industrial �10%Agricultural _Q0%Forested %Cleared/Logged %Other 22.Bankfull width:. 2 23.Bank height(from bed to top of bank): 24.Channel slope down center of stream: Flat(0 to 2%) 2Gentle(2 to 4%) _Moderate(4 to 10%) —Steep(>10%) 25.Channel sinuosity: .5Z/-Straight —Occasional bends _Frequent meander —Very sinuous Braided channel Instructions for completion of worksheet (located on page 2): Begin by determining the most appropriate ecoregion based on location,terrain,vegetation, stream classification, etc. Every characteristic must be scored using the same ecoregion. Assign points to each characteristic within the range shown for the ecoregion. Page 3 provides a brief description of how to review the characteristics identified in the worksheet. Scores should reflect an overall assessment of the stream reach under evaluation. If a characteristic cannot be evaluated due to site or weather conditions, enter 0 in the scoring box and provide an explanation in the comment section. Where there are obvious changes in the character of a stream under review(e.g.,the stream flows from a pasture into a forest),the stream may be divided into smaller reaches that display more continuity,and a separate form used to evaluate each reach. The total score assigned to a stream reach must range between 0 and 100,with a score of 100 representing a stream of the highest quality. Total Score (from reverse)• Cotguients: _ n 11,11A, ,d Evaluator's Signature Date Z/IV 1':' n form is in e�ded t or This channel evaluation form is '�d e t "b sed only as a guide to assist landowners and environmental professionals in rite gathering the data required by the nited aces Army Corps of Engineers to make a preliminary assessment of stream quality. The total score resulting from the completion of this form is subject to USACE approval and does not imply a particular mitigation ratio or requirement. Form subject to change-version 06/03. To Comment,please call 919-876-8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET .2 P pp£^.T /n�QQyy�� p{1jrr�� jjJJ.Y.W-1 p y NAGS", fx x' #� 2 � �n .f�' � Y�� f Y :. - �'-° qr •a r, .,,,L .T �y _ %8>�k- E g g� .:.2 5(_l5 P -t -t p� n"m". '"'` ,-M A ;itE! d4>x e ..ma`v�$' 't MR 0 U ,:.V s i 2 ft � � }}7 M~<- ♦th $ LLY i IV 00 P =ms< Is 0 - 1, n kr' _m ":, '",a 2`1 t °a R .g -:•-7 y x.q y kl °^ w„J a' r Q f 1 R r�; a si a� eq �[ it C� Yy yy,�� x � � � � r� o � t *These characteristics are not assessed in coastal streams. 2 NC DWQ Stream Identification Form Version 4.11 Date: , Projectisit�e: latitude: + 1 t Evaluator: Mai County: r Longitude. -71, Total Points: I Stream Determination(circle one) Other Stream is at least intermittent Ephemeral Intermittent Perennial e.g.Quad Name: if z 19 or perennial if 2,30" A.Geomor halo Subtotal= ) Absent Weak Moderate strong 18 Continuity of channel bed and bank 0 2 3 2.Sinuosity of channel along thatweg 0 1 2 3 3. In-channel structure:ex.riffle-pool,step-pool, 1 2 3 ripple-pool sequence. (11 4. Particle size of stream substrate 0 1 3 5_Activetrelict floodplain 1 2 3 6.Depositional bars or benches 0 2 3 7.Recent alluvial deposits 0 2 3 8. Headcuts 1 2 3 9.Grade control 0.5 1 1.5 10.Natural valley 0 0. 1 1.5 11. Second or greater order channel No W 0 Yes=3 artificial ditches are not rated,see discussions In manual B. Hydrology Subtotal= 12.Presence of Baseflow 0 1 3 13.iron oxidizing bacteria COD 1 2 3 14.Leaf litter <XW 1 0.5 0 15. Sediment on plants or debris 0 1 1.5 16.Organic debris lines or piles 0 0. 1 1.5 17.Sollkbased evidence of high water table? No=0 Yes- C. Biology (Subtotal= 18.Fibrous roots in streambed 3 1 0 19. Rooted upland plants in streambed 2 1 0 20. Macrobenthos(note diversity and abundance) 0 1 2 3 21.Aquatic Mollusks 0, 1 2 3 22.Fish 0.5 1 1.5 23.Crayfish 0 4 t 1.5 24.Amphibians 0.5 25.Algae r 0.5 1 1.5 26.Wetland plants in streambed FACW=0.75; {7131-1.5 0her- "perennlal streams may also be Identified using other methods.See p.35 of manual. Notes. j Sketch. USACE AID# DWQ 9 Site# (indicate on attached map) ��N STREAM �� ==^ P ��go�Auj�l1o�iu�imKanmu(km&,r�bo$mmmnouuuunucrx��umxnmeo�, `=�� � P1 1 1.Applicant's 2.Evaluator's ''� 3.Date o[uvu(oahon 4.Time of evaluation: 5.Name of stream: 6.River 7. Approximate J 8.Stream order: � v.Length o/reach evaluated: 10.County. ll.Site coordinates(iykou*o). prefer io decimal degrees. l%.Subdivision name(if noy)' Latitude(ex.34.872312): Longitude(ex.-rx»m6/U Method location determined(circle): }l Location of reach under evaluati,ori'(note nearby roads and landmarks and attach map identifying stream(s)location):— 14.Proposed channel work(if uny)' 15.Recent weather uuodkiom 16.Site conditions ut time o[visit: 17.Identify any special waterway classifications known: Section 10 Tidal Waters _Essential Fisheries Habitat _ Trout Waters —Outstanding Resource Waters Nutrient Sensitive Waters —Water Supply Watershed_ (AY) 18.b there x pond ur lake located upstream of the evaluation point? YES UNO)1y��`��hnamthovm*ermudbcmu�o: _______ ^ _ 1�Du�c�����D0����� YES �� 2�������m �USDA Soil 8wm�? �t� N0 1l,Estimated watershed land use: LD_%Residential %Commomlal %]ndoatrix| L,�L96Agricultural V� 11/o Forested _%C{wared/LoQgod ___%0thmr %%.Buukfoliw1dd`: ^ 23. Bank height(ftoin bed*o top ofhauk): %4.Channel slope down center o/stream: V P)at(Vm%Yq —Gentle(2m49 ) Moderate(4to >O%) —Steep(~\O%) z5.Channel sinuosity: _' Straight hmUhoud _Frequent meander Very sinuous Braided channel Instructions for completion wf worksheet(located wu page 2K: Begin by determining the most appropriate cuormgion based uu location,terrain,vegetation,stream clasdfioxikm,etc. Every characteristic must be scored using the same oonregimn. Assign points to each characteristic nhbiu the range ohunu Co, the cuoregioo. Page 3 provides x brief description of how to review the characteristics identified io the worksheet. Scores should reflect mo overall assessment oy the stream reach under evaluation, !fu chmmm*6mbo cannot be evaluated due to site or weather conditions, enter O in the scoring box and provide-an explanation in the comment section, Where there are obvious changes in the character of a stream under review(e.g.,the stream flows from a pasture into a forest).the stream may be divided into smaller reaches that display more continuity,and a separate form used m evaluate each reach. The total score assigned mx stream reach must range between Oand l0O` with u score ofl0Orepresenting a stream ofthe highest quality. Total Score (from reverse): Comments, Evaluator's Signature Date This channel evaluation form s'inteaded t e used only as a�uide to assist landowners and environmentai professionals in gathering the data required the Un* States Army Corps of Engineers to make a preliminary assessment of stream quality. The total score resulting from the completion of this form is subject to USACE approval and does not imply a particular mitigation ratio or requirement. Form subiect to change—version 06/03. To Comment,please call 919-876-8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET setts �8J Q r e1S,.�ett '- -s'. ;^ z t v f l` Ns- r N" 1.1s, ffi a Z ¢ �sly, q r� P I MO n ti Y te-. 1 el' 1—W la Mwil I no �` `� a ; ek, ��.;� i$� 1 .{}. t� t1i otl1� per .. ;J .s Al rr s [if lkm ms F. 4" (� , tt� _ � 1.. R � iK t,z A. VAl (� ?S #Sa I] $}r IM , ` 'Fa is,shy iea3c1c1 � _ M1 xn,< �� b7#IF,I. 1 a e en Q t1V$ a � € g na 1 . ts n�,js qu w ?' U 'Y .� x �c A„ p *These characteristics are not assessed in coastal streams. 2 NC DWQ Stream Identification Forma Version 4.11 Date: Project/SiW M ( Latitude: s Evaluator: M County: R, Longitude: 3 Total Points: t Stream Dete tion(circle one) Other Stream is at least intermittent if_>19 or perennial if?30' Ephemeral Intermi a Perennial e.g.Quad Name: A. Geomorphology {Subtotal : } Absent Weak Moderate Strong 1a Continuity of channel bed and bank 0 1 3 2. Sinuosity of channel along thalweg 0 2 3 3, In-channel structure:ex. riffle-pool, step-pool, 1 2 3 -ripple-pool sequence `.-✓ 4.Particle size of stream substrate 0 2 3 5.Active/relict floodplain 0 2 3 6. Depositional bars or benches 1 2 3 7. Recent alluvial deposits r 2 3 8. Headcuts 2 3 9.Grade control 0.5 1 1.5 10. Natural valley 0.5 1 1.5 11. Second or greater order channel Flo='Q Yes=3 artificiai ditches are not rated;see discussions in manual B. Hydrology Subtotal 1. ) 12. Presence of Baseflow 0 1 c 2 3 13. Iron oxidizing bacteria 1 2 3 14. leaf litter 1.5 1 0.5 0 15.Sediment on plants or debris 0 0.5 1. Organic debris Imes or piles 0 0. 1 1.5 17.Soil-based evidence of high water table? No-0 es- C. Biolo Subtotal 18.Fibrous roots in streambed 3 2 1 0 19. Rooted upland plants in streambed 2 1 0 20.Macrobenthos(note diversity and abundance) 0 2 3 1 2 3 21.Aquatic Mollusks 2 0.5 1 1.5 2.Fish 23.Crayfish 0 0.5 1.5 0.5 1 1.5 24,Amphibians 0 0.5 "� 1.5 25.Algae 26.Wetland plants in streambed FACW=0.751 qBt =1. Other=0 'perennial streams may also be identified using other methods..See P.35 of manual. Notes: Sketch: -.................................................. USACE AID4 DWQ 4 Site# (indicate on attached map) ----------------- M STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: 1.Applicant's name: �J C,lk,>.10 2.Evaluator's name: m&, 3. Date of evaluation: 1 y 4.Time of evaluation: 0 5.Name of stream: 6.River basin: 11),'" 1144, 7.Approximate drainage area: 0 8. Stream order: 9. Length of reach evaluated: ZQeq.1e 10.County: 11.Site coordinates(if known): prerer in decimal degrees. 12.Subdivision name(if any): Latitude(ex.34.872312): '�,",-A — J Longitude(ex.-77.556611): -7-1-LA Method location determined(circle): GIBS TopoShect Ortho(Aerial)PhotofGIS Other GIS Other 13,Location of reach under evaluation(note nearby roads and landmarks and attach map identifying stream(s)location); 14,Proposed channel work(if any): 15.Recent weather conditions:_ . K 16.Site conditions at time of visit:- 17.Identify any special waterway classifications known: Section 10 Tidal Waters Essential Fisheries Habitat Trout Waters —Outstanding Resource Waters Nutrient Sensitive Waters _Water Supply Watershed—(I-IV) 18.Is there a pond or take located upstream of the evaluation point? YES (NW If yes,estimate the water surface area: 19. Does channel appear on USGS quad map? YES(N-Q) 20.Does channel appear on USDA Soil Survey? NO 21.Estimated watershed land use: %Residential %Commercial Industrial Agricultural %Forested %Cleared/Logged %Other( 22.Bankfull width: 3 0 23.Bank height(from bed to top of bank-): 24.Channel slope down center of stream: —,Zslat(0 to 2%) _----Gentle(2 to 4%) ___Moderate(4 to 10%) —Steep(>10%) 25.Channel sinuosity: _�Zstraight , Occasional bends —Frequent meander Very sinuous Braided channel Instructions for completion of worksheet(located on page 2): Begin by determining the most appropriate ecoregion based on location, terrain, vegetation, stream classification,etc. Every characteristic must be scored using the same ecoregion. Assign points to each characteristic within the range shown for the ecoregion. Page 3 provides a brief description of how to review the characteristics identified in the worksheet. Scores should reflect an overall assessment of the stream reach tinder evaluation. If a characteristic cannot be evaluated due to site or weather conditions, enter 0 in the scoring box and provide an explanation in the comment section. Where there are obvious changes in the character of a stream under review(e.g.,the stream flows from a pasture into a forest),the stream may be divided into smaller reaches that display more continuity,and a separate form used to evaluate each reach. The total score assigned to a stream reach must range between 0 and 100, with a score of 100 representing a stream of the highest quality. Total Score (from reverse): L, Comments: 4 `5 Date Evaluator's Signature This channel evaluation form is intended to brJ-used only as a guide to assist landowners and environmental professionals in gathering the data required by thAnited tares Army Corps of Engineers to make a preliminary assessment of stream quality. The total score resulting from the completion of this form is subject to USACE approval and does not imply a particular mitigation ratio or requirement. Form subject to change-version 06/03. To Comment,please call 919-876-8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET �n 're�gln�ofI 41 4* 'fik C sbYv, .7 f� And & X My 2 .,. _ k '�t d nsikk", ISO s � a: t Q yy�, tt r '§ 9 K: a' aby z e 40 P�� v ifs 0 4 4�� 9 ., �y Aye /y l:Y t" ° .. .».. + fir.., S �y� {� 4kX^'".!!•'��',YF. $ ...:.:�,� k T, y� y� z ";?.� RSI lT x, k '.^*c..» . - 5 1• 1 Sa b, �' NCfY 'FF.hs, RPl �'d� q �� � 6 l44 n11�xA .t?a ,fie U t1 ;J �� ✓${� iv "IT-A, 'p R waeelu� 5. f'. .V°�77� � 6i+4�! �� w*✓"'�' r3 .3 Y3�`��� IJ �..,<�,a���� ��`.d '{,,, q• � v`J�Y� ,✓r�ytdy�^yrv�"`� '��$�1 � �,a�, �"��' t?l `--��s'��S: i _..°��� � ��'2 � n� � .;-•;"' ru`'w".`�� d ..a,«...� 4 � _� � � M t � - � `!{1R�lilIIF •. #d ,� k 4 ✓�� t /IC IM' � -�3f � r° U +,� 1Z, '8 �k W- 1 J,y s' a±l.�Y k+ .. Y _. V y� F X -�0p` R .,..P„ Q. V � V3 � }Yr. � ` �.#.^.- ) a Y2.; � '$."' •3`.. - °r: 77 6 �y _ v .��y(( y♦sue „. �j,.: ,z- � 7 �s (i��reffi+. �Q..{., -._�. }?�S �� �1t2 � 1 k�i � :�. �Su',% �,.x$°`�..�",s 6 _'•�.,•.�a,�.`xa: t+'sS�i .�n+:r E k n l!5'd4tK 4 .,k..^..s t �..,4 ,""vRR�, e,° z, ' 4 n g b�` 4 a't"sr � < aaa Aw, �. These characteristics are not assessed in coastal streams. 2 NC DWQ Stream Identification Form Version 4.11 Date: p e, Project/Site: M Latitude: cl Evaluator: County: , Longitude: Total Points: Stream Determination tcir emote Other Stream is at least intermittent if a 19 or perennial if a 30* Ephemeral Intermittent Perennial e.g.Quad Name: A. Geomorphology (Subtotal= 7 Absent Weak Moderate Strong 1a Continuity of channel bed and bank i 0 2.Sinuosity of channel along thalweg ip 0 2 3 3.In-channel structure:ex.riffle-pool,step-pool, 1 0 2 3 ripple-pool sequence 4.Particle size of stream substrate 0 l 1 C 2D 3 5.Active/relict floodplain 1 2 3 6.Depositional bars or benches 0 2 3 7.Recent alluvial deposits 0 2 3 8. Headcuts 1 2 3 9.Grade control 0.5 1 1.5 10.Natural valley 0 0.5 _ 1.5 11.Second or greater order channel No=0 ' s- artificial ditches are not rated;see discussions in manual B. Hydrology Subtotal= 12.Presence of Saseflow 0 1 m:y 3 13.Iron oxidizing bacteria 1 2 3 14.Leaf litter 1. 1 0.5 0 15.Sediment on plants or debris 0 0.5 1.5 16.Organic debris lines or piles 0 Cot-) 1 1.5 17.Soil-based evidence of high water table? 1 No=0 es= C. Biology Subtotal= 18.Fibrous roots in streambed 2 1 0 19.Rooted upland plants in streambed 2 1 0 20.macrobenthos(note diversity and abundance) 0 c " 2 3 21.Aquatic mollusks 0 2 3 22.Fish 0 1 1.5 23.Crayfish 0.5 1 1.5 'IQ 24.Amphibians 0.5 1 1.5 25.Algae 0 1 1,5 26.Wetland plants in streambed FACW=0.75; OBL= 1. rOtfier=0 'perennial streams ma4 also be identifieO using other methods,See P.35 #manual. Notes: t ter, Sketch: I i ............ USAGE AID# DWQ A site (indicate on attached map) ----------------- STREAM QUALITY ASSESSMENT WORKSHEET M Provide the following information for the stream reach under assessment:of : �4am 1.Applicant's name: m.ubp:--( 2.Evaluator's name 3.Date of evaluation: i d 11 i7 2 4.Time of evaluation: V >z, 5.Name of stream: 6.River basin: e', ! 7.Approximate drainage area: g, 8.Stream order: 9.Length of reach evaluated: 10.County: 11.Site coordinates(if known): prefer in decimal degrees. 12.Subdivision name(if any): Latitude(ex.34.872312): J Longitude(ex.-77356611):— Method location determined(circle): GPS Topo Sheet Ortho(Aerial)Photo/GIS Other GIS Other 13.Location of reach under evaluation(note nearby roads and landmarks and attach map identifying stream(s)location): 14.Proposed channel work(if any): IS.Recent weather conditions: R r", t✓-, 16.Site conditions at time of visit:- 17.Identify any special waterway classifications known: Section 10 Tidal Waters Essential Fisheries Habitat Trout Waters Outstanding Resource Waters Nutrient Sensitive Waters _Water Supply Watershed—(I-IV) -�lf yes,estimate the water surface area: 18.Is there a pond or lake located upstream of the evaluation point? YES(1�6 19.Does channel appear on USGS quad map?� YE5/NO 20.Does channel appear on USDA Soil Survey? `"SIBS NO NO 21.Estimated watershed land use: Z-9%Residential %Commercial %Industrial 'PO%Agricultural %Forested %Cleared I Logged %Other 3. Bank height(from bed to top of 22.Bankfull width: 2 bank): 24.Channel slope down center of stream: ,„Flat(0 to 2%) ___Gentle(2 to 4%) Moderate(4 to 10%) —Steep(>10%) 25,Channel sinuosity: Straight Occasional bends I _Frequent meander Very—Ve sinuous Braided channel -Z- Instructions for completion of worksheet (located on page 2): Begin by determining the most appropriate ecoregion based on location,terrain,vegetation,stream classification,etc. Every characteristic must be scored using the same ecoregion. Assign points to each characteristic within the range shown for the ecoregion. Page 3 provides a brief description of how to review the characteristics identified in the worksheet. Scores should reflect an overall assessment of the stream reach under evaluation. if a characteristic cannot be evaluated due to site or weather conditions, enter 0 in the scoring box and provide an explanation in the comment section. Where there are obvious changes in the character of a stream under review (e.g.,the stream flows from a pasture into a forest),the stream may be divided into smaller reaches that display more continuity,and a separate form used to evaluate each reach. The total score assigned to a stream reach must range between 0 and 100, with a score of 100 representing a stream of the highest quality. Total Spore (from reverse)- Z!, Comments.- 0- nature Dates'Evaluator's Signat X I'Ll ii This channel evaluation form is' sO ed t��only as a guide to assist landowners and environmental professionals in inteo be"uf# gathering the data required by the\,United Stat& Army Corps of Engineers to make a preliminary assessment of stream quality. The total score resulting from the completion of this form is subject to USAGE approval and does not imply a particular mitigation ratio or requirement. Form subject to change-version 06/03. To Comment,please call 919-876-8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET ik enc of#lur3 eri ols� t g ` g ��12 ib� 3llh Y{ j iV ni 4 € t w n -,wi _ s' _e'•�`elg 'i} Ci .e t ORA s.w A I. s t "y _ §1s1Y41 f»4ry. fS y� %A_ "S.Y .« ... 1 W ":f»�'1'�" _.,• ag � 1� . ..', "a. E- gE P�'d :x A d rb�£ . � A4 r a. `.. ,, Own iZ a p e," t� �a���(jpj �����at" � � W'' .. ��'. ».r '�^• fi, �� 'M L �F'g $'E�"'^§2a✓A y: a tIrY f' tTttt2� r? edexi F *These characteristics are not assessed in coastal streams. 2 NC DWQ Stream Identification Form Version 4.1 t Date: r t b fit.,i,.7 Project/Site: ;�"f> Latitude. �j T;r�i c Evaluator: County: is 4 Longitude: - Total Points: Stream Determination(circle one) Other Stream is at least intermittent Ephemeral Intermittent perennial e.g. Quad Name; if L 19 or erennial if a 30* ' A. Geomorphology {Subtotal= 1 Absent Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 2 3 2.Sinuosity of channel along thalweg 2 3 3. In-channel structure:ex. riffle-pool,step-pool, } 2 3 -ripple-pool sequence 1 4. Particle size of stream substrate 0 2 3 5.Active/relict floodplain W 1 2 3 6.Depositional bars or benches 0 X9'7 2 3 7. Recent alluvial deposits f) 1 2 3 8. Headcuts �.0 1 2 3 9. Grade control 0: 0.5 1 1.5 10. Natural valley 0 0.5 1 1.5 11. Second or greater order channel No-0„? Yes=3 artificial ditches are not rated;see discussions in manual B. Hydrology Subtotal - Cf1 ) 12.Presence of Baseflow 0 1 1- 3 13. Iron oxidizing bacteria 0 1 2 3 14. Leaf litter 1.5 1 0.5 sc'�' 15. Sediment on plants or debris 0 5, 1 1.5 16.Organic debris lines or piles 0 .5 1 1.5 17.Soil-based evidence of high water table? No=0 C. Biology Subtotal= 18. Fibrous roots in streambed 3} 2 1 0 19.Rooted upland plants in streambed 2 1 0 20.Macrobenthos(note diversity and abundance) 1 2 3 21.Aquatic Mollusks 0 ) 2 3 22.Fish 0.5 1 1.5 23.Crayfish (�(#` 0.5 1 1.5 24.Amphibians 0 0P 1 1,5 25,Algae 0.5 1 1.5 26.Wetland plants in streambed FACW *perennial streams may also a identified using other methods.See p.35 of manual. Notes: Sketch: fo USACE AID# DWQ## Site# (indicate on attached map) L_....... ___.__ M STREAM QUALITY ASSESSMENT WORKSHEET :. Provide the following information for the stream reach under assessment: 1.Applicant's name: 1# - "`) 2.Evaluator's name: 3.Date of evaluation: / W`) _ 4.Time of evaluation: i c', 5.Name of stream: 6.River basin: 1W,- 7.Approximate drainage area: `��iR�r.�� 8.Stream order: 9.Length of reach evaluated: ctF: r 10.County: 11. Site coordinates(if known): prefer in decimal degrees. 12.Subdivision name(if any): Latitude(ex.34.872312): p ✓ # Longitude(ex.—77.556611): t' Method location determined(circle): QP`� Topo Sheet Ortho(Aerial)Photo/GIS Other GIS Other 13.Location of reach under evaluation(note nearby roads and landmarks and attach map identifying stream(s)location): r , oi`t 14.Proposed channel work(if any): 15.Recent weather conditions: 16.Site conditions at time of visit: " 17.Identify any special waterway classifications known: _Section 10 _Tidal Waters _Essential Fisheries Habitat Trout Waters _Outstanding Resource Waters _ Nutrient Sensitive Waters Water Supply Watershed (I-IV) rte,. 18. is there a pond or lake located upstream of the evaluation point? YES NQ)If yes,estimate the water surface area: 19.Does channel appear on USGS quad map? YES 20.Does channel appear on USDA Soil Survey? YES NO 21.Estimated watershed land use: _%Residential _%Commercial _%Industrial �_%Agricultural 11) %Forested �%Cleared/Logged —%Other( } 22.Bankfull width: 23.Bank height(from bed to top of bank): 24.Channel slope down center of stream: Flat(0 to 2%) ,.Gentle(2 to 4%) __ Moderate(4 to 10%) —Steep(>I 0%) 25.Channel sinuosity: _, Straight _Occasional bends Frequent meander Very sinuous _Braided channel Instructions for completion of worksheet (located on page 2): Begin by determining the most appropriate ecoregion based on location,terrain,vegetation,stream classification,etc. Every characteristic must be scored using the same ecoregion. Assign points to each characteristic within the range shown for the ecoregion. Page 3 provides a brief description of how to review the characteristics identified in the worksheet. Scores should reflect an overall assessment of the stream reach under evaluation. If a characteristic cannot be evaluated due to site or weather conditions, enter 0 in the scoring box and provide an explanation in the comment section. Where there are obvious changes in the character of a stream under review(e.g.,the stream flows from a pasture into a forest),the stream may be divided into smaller reaches that display more continuity,and a separate form used to evaluate each reach. The total score assigned to a stream reach must range between 0 and 100, with a score of 100 representing a stream of the highest quality. Total Score (front reverse): Comments: Evaluator's Signature° ° �y hate /'t:' This channel evaluation form is intended to be used only as a guide to assist landowners and environmental professionals in gathering the data required by the United States Army Corps of Engineers to make a preliminary assessment of stream quality. The total score resulting from the completion of this form is subject to USACE approval and does not imply a particular mitigation ratio or requirement. Form subject to change–version 06/03. To Comment,please call 919-876-8441 x 26. 1 UP � , ffl n r .".`. � ;' Y ;i, 4 F fir'' t7 �a; ! �i b a y ti^ _ rT s ,�, , �,5 o i�.�. g to r�� 'Jett , +,RS: L-�zM a- .� ��._,.sggg���� �.�m„tctxa: 3 �r..r r E.. :,:��r,. ..lim Wf, ME E M4111 r ,p kt, z tea: aaaj:a {is a. f MA env OR Or � ��' # e za r e: . a fitat 'a 't �, gi-�'w in g Mz ',e+a„t :,'F t 1-� kf -S. F Y r-� .m ..Y. ab g f Y'4 -' $'la .l �a CMn`,.3$ & .�Y ;.a zT d � 9 t .`;-&i qt ;,'4'd g F` 3 $ ef$ £:x 4 }: spa ..;:fir S lr � Moll IM M°� �� .��s-. ;Y s'i�+a s.�.`, ''a.,„{tzq� .,ia �' 1k''-a`3 ls` �a➢gyp,% a ,ra.�s °'el't� .f, r� ! p'”' s `k. �.'-°ab' t a i pwig �'� "pi r .s A '... P r a 53 d t o aa°�a 4 r a CIS q >f, xqa s g1y t iMQ, A2 77 43 Tri asa�6eY.5t,tr!�� P.. Y f r.cfiaS e�y viYAJ'^tW.m'S � ON Alt s ti}` @ �i"g {ga t !S M v3, x 15N. � r� �� �ads�g 3 �z i Ali *�tf'S 1A� f a'!Y T f NEW, v�a ate fJ ,a a a a e a€�'— ar�"ia s��a�a'-sY�.�:�"� ti4�2 �`6 �t3t9 {qq 'R { spa ON,t2€!MON, g tits_a,t�'t'�Ev ! e' a p ' ?Af.<a . on § .. °�, q" �� � *� ��. s�� a aat �z'� g€ � L — §Q t F, '? -^(F' t7, llmg T.g �zsaas» v a S;xf Ft "�& 4 # a a£ }s It. °'�J'r S# @ g dk r` }IV� � 4 i t ,s i� t f 6! a VW ^a S '„ a. Y'm ' NC DWQ Stream Identification Form Version 4.11 Date; t°; #J Project/Site: Latitude; 5 y Evaluator: County: t + Longitude; k Total Points: Stream Determination(circle one) Other Stream is at/east intermittent if?19 or erenniat ita 30` ✓ Ephemeral Intermittent Perennial e.g.Quad Name: a A. Geomorphology (Subtotal= ) Absent Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 i 2 3 2.Sinuosity of channel along thalweg 1 2 3 3. In-channel structure:ex.riffle-pool,step-pool, ' 1 2 3 ripple-pool sequence 4. Particle size of stream substrate 0 1 2 3 5.Active/relict floodplain 4 2 3 6. Depositional bars or benches 0 2 3 7. Recent alluvial deposits 1 2 3 8. Headcuts i b 1 2 3 9.Grade control 0.5 1 1.5 10.Natural valley 4.5 11.Second or greater order channel I No=0 Yes=3 artificial ditches are not rated;see discussions in manual 0 B. Hydrology Subtotal 12. Presence of Baseflow 0, 1 `2 3 13. Iron oxidizing bacteria ; 0 JF 1 2_ ' 3 14. Leaf litter 1.5 1 0.5 0 15. Sediment on plants or debris {Q 5N!7 1 1.5 16. Organic debris lines or piles 0 0.5 1 1.5 17. Soil-based evidence of high water table? .F No= Yes 3 C. Biology (Subtotal= 0 ) 18. Fibrous roots in streambed 3 2' 1 0 19. Rooted upland plants in streambed 2 1 0 20. Macrobenthos(note diversity and abundance) 0 777 2 3 21.Aquatic Mollusks 1 2 3 22. Fish 0.5 1 1.5 23. Crayfish 0.5 1 1.5 24.Amphibians - 0.5 1 1.5 25.Algae 0 0.5 26.Wetland plants in streambed FACW=0.75; OBL 1.5� Other w 07; 'perennial streams may also be identified using other methods.See p.35 of manual. Notes: ,, Sketch: USACE AID# DWQ# Site P (indicate on attached map) Lail STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment., 1.Applicant's name: 2.Evaluator's name: 3.Date of evaluation: 4.Time of evaluation: 5.Name of stream: i,T- 6.River basin- 7.Approximate drainage area: 3 i 8.Stream order: 9.Length of reach evaluated: 10.County: 11.Site coordinates(if known): prefer in decimal degrees. 12.Subdivision name(if any): Latitude(ex.34.872312): Longitude(ex,—77.556611):— Method location determined(circle): GM Topo Sheet Ortho(Aerial)Photo/GIS Other GIS Oilier 13.Location of reach under evaluation(note nearby roads and landmarks and attach map identifying streain(s)location):— 14.Proposed channel work(ifany): 15.Recent weather conditions: 16.Site conditions at time of visit-.—,-, )I I 17.Identify any special waterway classifications known: Section 10 Tidal Waters Essential Fisheries Habitat Trout Waters —Outstanding Resource Waters —Nutrient Sensitive Waters Water Supply Watershed_(I-1 V) 18.Is there a pond or take located upstream ofthe evaluation point? YES(N& Ifyes,estimate the water surface area: 19.Does channel appear on USGS quad map? YES�N9,! 20.Does channel appear on USDA Soil SurveY9(YES NO 21.Estimated watershed land use: Residential %Commercial %Industrial %Agricultural %Forested Cleared/Logged —%Other 22.Bankfull width: 23.Bank height(from bed to top of bank): 24.Channel slope down center of stream: Flat(0 to 2%) ---Gentle(2 to 4%) _Moderate(4 to 10%) Steep(>10%) 25.Channel sinuosity: –i–Straight ___Occasional bends _Frequent meander Very sinuous Braided channel Instructions for completion of worksheet (located on page 2): Begin by determining the most appropriate ecoregion based on location,terrain,vegetation,stream classification,etc. Every characteristic must be scored using the same ecore-lon. Assign points to each characteristic within the range shown for the ecoregion. Page 3 provides a brief description of how to review the characteristics identified in the worksheet. Scores should reflect an overall assessment of the stream reach under evaluation. If a characteristic cannot be evaluated due to site or weather conditions,enter 0 in the scoring box and provide an explanation in the comment section. Where there are obvious changes in the character of a stream under review(e.g.,the stream flows from a pasture into a forest),the stream may be divided into smaller reaches that display more continuity,and a separate form used to evaluate each reach. The total score assigned to a stream reach must range between 0 and 100, with a score of 100 representing a stream of the highest quality. Total Score (from reverse): Comments: Evaluator's Signature L�, Date ...... This channel evaluation jormIs intended to be used only as a guide to assist landowners and environmental professionals in gathering the data required by the United States Army Corps of Engineers to make a preliminary assessment of stream quality. The total score resulting from the completion of this form is subject to USACE approval and does not imply a particular mitigation ratio or requirement. Form subject to change–version 06103. To Comment,please call 919-876-8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET 47, 11 El� t persistent pools '49 stream z 0 5,, 5 o saturation mad ain" Evidence'of past hucnutt m e 011, ,tno MWM!on' nikk -5 47 2 {ext6hsive r A te ation,-4 �O 4 3 law 0, 0"", rzo buffer contigbts',wide bb ffA moinikin Evidence of niutrrent;or citeinical dise Arg41;- U 4 4 n so,,arges rhax ft (extensrive digtharp' 0-,-, o 4 It 77777 0' 3 0 4 4 J,a#c =max iii is - " 0- r tko di harge 0;'�sprinjz i��S�eemlvotwws" Pirdeitce.(if adj a. ent tondpiain' no Yo ve max Diii 0 2 ob pWif` bd Access p! 0-' 2� 0 4 T I ed �0' L_.�4ef" entNtIC 1 0111,6, max,pojjit.� 42 PresPresence of adjacent tian 0 '(n6we6 lgge,a, Ja`cen andi ----7-7 9'. extensive chififi6liiatioh« O;nkiii-4 neander,11,1- 77- -4 4' -max, ruts 0 'kO Lb q su u te "P - `- - ly", fl` i hoiio�ou xse no incislou'pr 12 Evidence of wi e Kdec-pty ks ii inax iii Z Presence of lailuies"A majo ba Ak f3 Al se ee erasion 0 stable A6 max -77 0 M ,7 I ft ll, all, 14" n. ...... 0 0 nib A,! jnomsi e,roots= lse rox th -pt-- -------- ---- 71mpad by'i e#oekiOr#W4ti,f fq ' fi 4 0 15 substantial;'6ti, aef,= 0; Presence of rftle-poiillrippe'pool coinp[exes 3- '6, 0 (n0' riffi lw es/tipples,Orpools' ��O-n ' 11-d6lklo 'in 'Points ::T� -16bita y 17 4 (litt 6� "e I";'o'r-no habitat=.0 fre nett"varier' abitats. max ants �� 41112600 Coyerage- b d' 0, no sba d'tngw gtatjont ltint6c�� max Darts} —4 = structure.,-.. . embedded 'Q oose ud.a....T presence of stream.izlvertebrts(see page 4) ' 0 r 4 0- no ev p61nfs numerous.Presence of amp[ii?ians . 0- 21 6-4 0 rnax"Al 164vidence* -4 -4, i 12 -4 0 mnion. ; o me s di-mi ax"(no pyl efice—O'n c"" 'n-b kus 0 23 '0 5, jo 5`� 0, Inuf I I , _,, abundant evidence 6A en oints) ,(no.evidence Wa -`-d- P"I Mv,M pow These I 11 I characteristics are not assessed in coastal streams. 2 WETLAND DETERMINATION DATA FORM—Atlantic and Gulf Coastal Plain Region V Project/Sile: City/County: Sampling Date; 3 ApplicantlOwner: State: TV Sampling Point: Av jA Investigator(s): Section,Township,Range: Landform(hilislope,terrace,etc.): Local reliaf'(,concaV—a convex,none): Slope Subregion(LRR or MLRA): I Let: Long: -7-7,44o�- Datum: Soil Map Unit Name- N,65 T"I ZZ NWI classification. Are climatic/hydrologic conditions on the site typical for this time of year? Yes No_ (If no,explain in Remarks.) Are Vegetation Soil significantly disturbed? Are"Normal Circumstances"present? Yes No or Hydrology signifir Are Vegetation Soil or Hydrology naturally problematic? (If needed,explain any answers in Remarks.) SUMMARY OF FINDINGS— Attach site map showing sampling point locations,transects,Important features,etc. Hydrophytic Vegetation Present? Yes No Is the Sampled Area I Hydric Soil Present? Yes No wtthin a Wetland? Yes No Wetland Hydrology Present? Yes No— Remarks: 4V HYDROLOGY Wetland Hydrology Indicators, Secondary Indicators(minimum of two required) Primary Indicators(minimum of one is reguired•chegk all that 8PRIV) n Surface Soil Cracks(86) Surface Water(Al) Aquatic Fauna(B13) ❑ Sparsely Vegetated Concave Surface(B8) LJt High Water Table(A2) Marl Deposit,(B15)(LRR U) 0 Drainage Patterns(810) tJ Saturation(A3) Hydrogen Sulfide Odor(CI) Q Moss Trim Lines(816) Water Marks(BI) Oxidized Rhi,,spheres along Living Roots(C3) Dry-Season Water Table(C2) Sediment Deposits(82) Presence of Reduced Iron(C4) Crayfish Burrows(C8) Drift Deposits(B3) Recent Iron Reduction in Tilled Solis(C6) Saturation Visible on Aerial Imagery(C9) Algal Mat or Crust(B4) LJ Thin Muck Surface(C7) Geomorphic Position(D2) Iron Deposits(B5) ❑ Other(Explain in Remarks) ❑ Shallow Aquitard(D3) Inundation Visible on Aerial Imagery(87) El FAC-Neutral Test(D5) D Water-Stained Leaves(139) Sphagnum mass(08)(LRR T,U) Field Observations, Surface Water Present? Yes— No Depth(inches): Water Table Present? Yes_ No J., Depth(inches): Saturation Present? Yes— No r` Depth(inches): Weiland Hydrology Present? Yes No (includes capillary fringe) Describe Recorded Data(stream gauge,monitoring well,aerial photos,previous inspections),it available: Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 VEGETATION(Four Strata)--Use scientific names of plants. Sampling Point: Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot size: ,; ) %Cover Species? S_ tatus 1, � Number of Dominant Species LAC _ That Are OBL,FACW,or FAC: (A) 2.3 Total Number of Dominant Species Across All Strata: (B) 4. Percent of Dominant Species 5. That Are OBL,FACW,or FAC: 6. 7 Prevalence Index worksheet: Total%Cover of Multiply bv: Total Cover CBL species x 1= 50%of total cover: 20%of total cover: FACW species x2= Sa lina/Shrub Stratum (Plot size:_,> ) FAC species x 3= ��:- �` FACU species x4= 2. — UPL species X5= 3. 15. .A,i tv,+_ yt Column Totals: (A) (8) 4. W Prevalence Index =B/A= 5. Hydrophytic vegetation indicators: 6. Il 1 -Rapid Test for Hydrophytic Vegetation 7. 2-Dominance Testis>50% 8. 3-Prevalence Index is s3.0' T3 =Total Cover Q Problematic Hydrophytic Vegetation'(Explain) 50%of total cover: 20°h of total cover: { Herb Stratum (Plot size: ) 'Indicators of hydric soil and wetland hydrology must ,. be present,unless disturbed or problematic. 2. „' a,,-r, !;. _ �irr Definitions of Four Vegetation Strata: 3. Tree—Woody plants,excluding vines,3 in.(7.6 cm)or 4 more in diameter at breast height(DBH),regardless of 5. height. g, Sapling/Shrub—Woody plants,excluding vines,less 7 than 3 in.DBH and greater than 3.28 ft(1 m)tall. 8. Herb—All herbaceous(non-woody)plants,regardless g of size,and woody plants less than 3.28 It tall. 10. Woody vine—All woody vines greater than 128 ft in 11. height. 12. =Total Cover 50%of total cover: `T 20%of total cover: r / Woody Vine Stratum (Plod size: f_ ) 2. 3. 4. 5. Hydrophytic — ~=Total Cover Vegetation r^ t Present? Yes No 50%of total cover. ' 20%of total cover: Remarks: (if observed,list morphological adaptations below). US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2,0 ! E SOIL Sampling Point: Profile description: (Describe to the depth needed to document the indicator or confirm the absence of indicators,) Depth Matrix --Redox Features (inches) color(moist) % Color moist % Type Loc' Texture Remarks a 'Type: C=Concentration,D=De letion,RM=Reduced Matrix,MS=Masked Sand Grains. 2Location: PL=Pore Linin ,M=Matrix. Hydric Soil Indicators: (Applicable to all LRRs,unless otherwise noted.) Indicators for Problematic Hydric Soils., 0 Histosol(A1) ❑ Polyvalue Below Surface(S8)(LRR S,T,U) ❑1 cm Muck(A9)(LRR O) Histic Epipedon(A2) Thin Dark Surface(S9)(LRR S,T,U) 2 cm Muck(A10)(LRR S) Black Histic(A3) Loamy Mucky Mineral(F1)(LRR O) Reduced Vertic(F18)(outside MLRA 150") 0 Hydrogen Sulfide(A4) Q Loamy Gleyed Matrix(F2) Piedmont Floodplain Soils(F19)(LRR P,S,T) Stratified Layers(A5) Depleted Matrix(F3) Anomalous Bright Loamy Soils(F20) Organic Bodies(A6)(LRR P,T,U) Redox Dark Surface(176) (MLRA 1538) H5 cm Mucky Mineral(A7)(LRR P,T,U) Il Depleted Dark Surface(F7) ❑ Red Parent Material(TF2) Muck Presence(A8)(LRR U) n Redox Depressions(F8) Very Shallow Dark Surface(TF12) Q 1 cm Muck(A9)(LRR P,T) t Marl(F10)(LRR U) Other(Explain in Remarks) n Depleted Below Dark Surface(Al 1) Jt Depleted Ochric(F11)(MLRA 151) n Thick Dark Surface(Al2) iron-Manganese Masses(F12)(LRR O,P,T) 'indicators of hydrophytic vegetation and Coast Prairie Redox(A16)(MLRA 150A) Umbric Surface(F13)(LRR P,T,U) wetland hydrology must be present, Sandy Mucky Mineral(Si)(LRR O,S) Delta Ochric(F17)(MLRA 151) unless disturbed or problematic. Q Sandy Gleyed Matrix(S4) Reduced Vertic(F18)(MLRA 150A,1508) II Sandy Redox(S5) ❑ Piedmont Floodplain Soils(F19)(MLRA WA) II Stripped Matrix(S6) n Anomalous Bright Loamy Soils(F20)(MLRA 149A,163C,163D) II Dark Surface(S7)(LRR P,S,T,U) Restrictive Layer(if observed): Type: Depth(inches): Hydric Soil Present? Yes_ No Remarks: { W A/J /! �-A tr Pr�1S I �{' r'j (tl { +=' ( ( [d+` jr r 1"o • ` or I I �Gt k ��f`°s��:� US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 / WETLAND DETERMINATION DATA FORM—Atlantic and Gulf Coastal Plain Region ✓}�'" .1^' 1 I/Pgt3 Project(Site: �-L City/County: i t - i,f Sampling Date: ApplicantlOwner. State: !V t Sampling Point: Vii F; f Investigator(s): # R;t r °'r,n n Section,Township,Range: Landform illslo terrace,etc.): Local relief(concave,conve none}: Slope(%): Subregion(LRR or MLRA): Lat:� ,_ Long: ° �,t "# G Datum: AIA D S Soil Map Unit Name: NWl classification: Are climatic/hydrologic conditions on the site typical for this time of year? Yes V No (if no,explain in Remarks.) Are Ve etation ,Soil ,or H drol y o p �' ' g y ogy significant) disturbed. ,� Are"Normal Circumstances" resent? Yes No Are Vegetation ,Soil ,or Hydrology naturally problematic?f',/'j (If needed,explain any answers in Remarks.) SUMMARY OF FINDINGS-- Attach site map showing sampling point locations,transects,important features,etc. Hydrophytic Vegetation Present? Yes�_ No is the Sampled Area Hydric Soil Present? Yes No t.. P Welland Hydrology Present? Yes No yz. within a Wetland? Yes No Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators(minimum of two reauiredl Primary Indicators(minimum of one is reouired�check all that apply) II Surface Soil Cracks(BS) ❑ Surface Water(Al) ❑ Aquatic Fauna(B13) ❑ Sparsely Vegetated Concave Surface(B8) 1�1 High Water Table(A2) 1❑ Marl Deposits(B15)(LRR U) 0 Drainage Patterns(B10) El Saturation(A3) f1�1r Hydrogen Sulfide Odor(Cl) II Moss Trim Lines(816) L1 Water Marks(B1) tJ Oxidized Rhizospheres along Living Roots(C3) Dry-Season Water Table(C2) Sediment Deposits(B2) II Presence of Reduced Iron(C4) 0 Crayfish Burrows(C8) _ Drift Deposits(83) Q❑- Recent Iron Reduction in Tilled Soils(C8) II Saturation Visible on Aerial Imagery(C9) a# Algal Mat or Crust(84) t_I Thin Muck Surface(C7) ❑ Geomorphic Position(132) t..t Iron Deposits(85) Other(Explain In Remarks) ❑ Shallow Aquitard(D3) Il Inundation Visible on Aerial Imagery(137) FAC-Neutral Test(D5) a Water-Stained Leaves(89) Sphagnum moss(D8)(LRR T,U) Field Observations: Surface Water Present? Yes No Depth(inches): Water Table Present? Yes No ? Depth(inches): % Saturation Present? Yes No Depth(inches): Wetland Hydrology Present? Yes No includes capillary,fringe) Describe Recorded Data(stream gauge,monitoring well,aerial photos,previous inspections),if available: Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 VEGETATION(Four Strata)—Use scientific names of plants. Sampling Point: Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot size: 1 } °!°Cover S ties? Status Number of Dominant Species 1 " , That Are OBL,FACW,or FAG: (A) 2. „fl FC 3 Total Number of Dominant Species Across Alt Strata: (B) 4. . Percent of Dominant Species That Are OBL,FACW,or FAC: }1'0 (AIB) 6, 7 Prevalence Index worksheet: 8. _ Total%Cover of: Multi ! by: 70 =Total Cover OBL species x 1 = 50%of total cover: ,7� 20%of total cover: _ FACW species x2= SanlinolShrub Stratum (Plat size:= ) r� FAG species x 3{, . FACU species r x 4= ` 7V,77' IN4 2. E,,�,> -Fu�`, ��, � UPL species x 5= 3. ':• : y;r t Column Totals: (A) (t3) 4. Prevalence Index =BIA= 5. Hydrophytic Vegetation Indicators: 6. ❑ 1-Rapid Test for Hydrophytic Vegetation 7. 2-Dominance Test is>50% 8. 3-Prevalence Index is s3.0' =Total Cover Q Problematic Hydrophytic Vegetation'(Explain) 50%of total cover: "'° 20%of total cover: f Herb S ratum (Plot size: _ ) �, 'Indicators of hydric soil and wetland hydrology must 1. , s a tji Gr` be present,unless disturbed or problematic. 2. Definitions of hour Vegetation Strata: 3. Tree—Woody plants,excluding vines,3 in.(7.6 cm)or 4. more in diameter at breast height(DBH),regardless of S. height, 6. SaplinglShrub—Woody plants,excluding vines,less 7 than 3 in.DBH and greater than 3.28 ft(1 m)tall. 8. Herb—All herbaceous(non-woody)plants,regardless g of size,and woody plants less than 3.28 ft tall. 10. Woody vine--All woody vines greater than 3.28 ft in 11 height. 12. J =Total Cover 50%of iota!cover: 20%of total cover. t Woody ii Stratum (Plot size: ) 2. 3. 4. 5. _ — Hydrophytic r =Total Cover Vegetation 50%of total cover: ``£' 20%of total cover: Present? Yes No Remarks: (if observed,list morphological adaptations below). US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 $OIL Sampling Point: Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix Redox Features (inp_hes) CgIL>r(moist) % COtnr-(moist) % woe—j— L061 Texture Remarks Ij I _.'Type: C=Conoentration,D=Depletion,RM=Reduced Matrix,MS-Masked Sand Grains. 'Location: PL=Pore Lining,M-Matrix. Hydric Soil Indicators: (Applicable to all LRRe,unless otherwise noted.) indicators for Problematic Hydric Soils'': 0 Histosol(At) 0 Polyvalue Below Surface(S8)(LRR S,T,U) 0 1 cm Muck(Ag)(LRR 0) E] Histic Epipedon(A2) Thin Dark Surface(89)(LRR S,T,U) 2 cm Muck(A10)(LRR S) 0 Black Histic(A3) Loamy Mucky Mineral(FI)(LRR 0) Reduced Vertic(F18)(outside MLRA I 60A,B) Hydrogen Sulfide(A4) Loamy Gleyed Matrix(F2) D Piedmont Floodplain Soils(F19)(LRR P,S,T) Stratified Layers(A5) Depleted Matrix(F3) Anomalous Bright Loamy Soils(F20) Organic Bodies(A6)(LRR P.T,U) Redox Dark Surface(176) (MLRA 163B) 6 am Mucky Mineral(A7)(LRR P,T,U) Depleted Dark Surface(F7) ❑Red Parent Material(TF2) Muck Presence(A8)(LRR U) Redox Depressions(F8) ID Very Shallow Dark Surface(TF 12) 1 ern Muck(Agi)(LRR P,T) Marl(F10)(LRR U) ZI Other(Explain in Remarks) Depleted Below Dark Surface(All 1) u Depleted Ochric(F11)(MLRA 151) 0 Thick Dark Surface(Al2) 0 Iran-manganese Masses(F12)(LRR 0,P,T) 3indicators of hydrophytic vegetation and HCoast Prairie Redox(A16)(MLRA 1150A) T1 Umbric Surface(F13)(LRR P,T,U) wetland hydrology must be present, Sandy Mucky Mineral(81)(LRR 0,S) 13 Delta Ochric(F17)(MLRA 151) unless disturbed or problematic. 0 Sandy Gleyed Matrix(S4) 0 Reduced Vertic(FIB)(MLRA 1150A,1 60B) Sandy Redox(S5) Piedmont Floodplain Soils(F19)(MLRA 149A) Stripped Matrix(S6) Anomalous Bright Loamy Soils(F20)(MLRA 149A,1530,1630) Dark Surface(S7)(LRR P,S,T,U) Restrictive Layer(if observed)* Type: Depth(inches): Hydric$oil Present? Yes No' Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 WETLAND RATING WORKSHEET Fourth Version Project Name Nearest Road ur - County ' Wetland area 3 acres Wetland width JQJ _feet Name of evaluator_ Lrl�%r rt,` t' 111 Date Wetland location Adjacent land use on pond or lake within l2 mile upstream, upslope,or radios) —on perennial stream forestedlnatural vegetations % _on intennittent stream agriculture, urban/suburban % within interstream divide _impervious surface % other: Soil series: Dominant ve eta#ion predominantly organic- humus,muck,or (1) ,, .- �Rf peat ti X predominantly mineral -non-sandy (2) G,�°. —predominantly sandy (3) "mh b - - -- Hydraulic factors Flooding and wetness steep topography _semipermanently to permanently flooded or ditched or channelized inundated total wetland width> 100 feet seasonally flooded or inundated intermittently flooded or temporary surface water no evidence of flooding or surface water Wetland type(select one)* _Bottomland hardwood forest Pine savanna _Headwater forest Freshwater marsh _Swamp forest Bog/fen Wet flat _ Ephemeral wetland _Pocosin T Carolina bay Bog forest Other: The rating system cannot be applied to salt or brackish marshes or stream channels ----------------------.-------------------- - ---- —— - - -- - .._.............- Water storage 1 x 4.00 = Wetland A Bank/Shoreline stabilization x 4.00- [�� rating P Pollutant removal x 5.00 = Z Wildlife habitat x2.00= N Aquatic life value x 4.00 G Recreation/Education x 1.00= j *Add I point if in sensitive watershed and>10%nonpoint source disturbance within%2 mile upstream,upslope,or radius s WETLAND DETERMINATION DATA FORM--Atlantic and Gulf Coastal Plain Region Project/Site: Lf City/County: -V/ Sampling Date:IV r Applicant/Owner: State: Sampling Point:'���11 q�l lnvestigator(s):—&�,r t i' 4 Section,Township,Range: Landforrin(hillslope,terrace.etc.): Pl Local relief(concave,convex,410i3e): Slope{%}: — i Subregion(LRR or MLRA):, Lat: Long: Datum: NWI classification: Soil Map Unit Name: Are climatic I hydrologic conditions on the site typical for this time of year? Yes� No (if no,explain in Remarks.) Are Vegetation Soil—,or Hydrology disturbed? t)V _ Are"Normal Circumstances'present? Yes Na Are Vegetation—,Soil—,or Hydrology—naturally problematic? N6 (if needed,explain any answers in Remarks.) SUMMARY OF FINDINGS— Attach site map showing sampling point locations,transects, important features,etc. Hydrophytic Vegetation Present? Yes No Is the Sampled Area Hydric Soil Present? Yes No within a Weiland? Yes f No Weiland Hydrology Present? Yes No Remarks; HYDROLOGY Weiland Hydrology Indicators: Secondary Indicators(minimum of two required) Primary.Indicators(minimum of one is required*check all that apply) 1] Surface Soil Cracks(B6) SS.rface Water(Al) ❑ Aquatic Fauna(813) ❑ Sparsely Vegetated Concave Surface(88) High Water Table(A2) Marl Deposits(B15)(LRR U) Drainage Patterns(B10) Saturation(A3) tk l Hydrogen Sulfide Odor(Cl) Trim Lines(B16) Water Marks(BI) Oxidized Rhizospheres along Living Roots(C3) Dry-Season Water Table(C2) ❑ Sediment Deposits(82) Presence of Reduced Iron(C4) 8 Moss Crayfish Burrows(C8) II Drift Deposits(93) Recent iron Reduction in Tilled Soils(C15) n Saturation Visible on Aerial Imagery(C9) n Algal Mat or Crust(B4) Thin Muck Surface(C7) Geomorphic Position(132) ❑ Iron Deposits(85) Other(Explain in Remarks) II Shallow Aquitard(D3) Q Inundation Visible on Aerial Imagery(B7) FAC-Neutral Test(D5) ❑ Water-stained Leaves(B9) Sphagnum mass(D8)(LRR T,U) Field Observations: Surface Water Present? Yes No Depth(inches): Water Table Present? Yes No Depth(inches): C Saturation Present? Yes No Depth(inches): Wetland Hydrology Present? Yes No capillary fringe) Describe Recorded Data(stream gauge,monitoring well,aerial photos,previous inspections),if available: Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 VEGETATION(Four Strata)—Use scientific names of plants, sampling Point:\d.-, v,, i Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Pint size: %Cover 5 eci s Status Number of Dominant Species l 1 / That Are OSL,FACW,or FRG: (A) 2. Total Number of Dominant i-i 3. Species Across All Strata: (B) 4. 5 Percent of Dominant Species 11%{1 That Are OBL,FACW,or FAC: 4, (A!B) 6. 7 Prevalence Index worksheet: Total%Cover of: Multiply by: =Total Cover OBL species x 1 = 50!/p of total cover: 20%of total cover: FACW species x 2= Sapling/Shrub Stratum {Plot size: 1 ••,,.',ice-�f —--} FAC species X3= FACU species x4= [;r( UPL species x5= 3. Column Totals: (A) (B) 4. Prevalence Index =BIA= 5. Hydrophytic Vegetation Indicators: 6. 1 -Rapid Test for Hydrophytic Vegetation 7- 2-Dominance Test is>50% 8' 3-Prevalence Index is s10' =Total Cover �f , II Problematic Hydrophytic Vegetation (Explain) 50%of total cover: r s 20%of total cover: Herb Stratum (Plot size: 11-{`: i}A } � ,.,g r � Indicators of hydric soil and wetland hydrology must tY ��li1r , r lct. rt "fir f be present,unless disturbed or problematic. 2. n tr r s s °-j Definitions of Four Vegetation Strata: 3. Tree-Woody plants,excluding vines,3 in.(7.6 ern)or 4. more in diameter at breast height(08H),regardless of 5, height. 6. Sapling/Shrub-Woody plants,excluding vines,less 7. than 3 in.DBH and greater than 3.2811(1 m)fall. 8. Herb-All herbaceous(non-woody)plants,regardless g, of size,and woody plants less than 3.28 f#tall. 10, Woody vine-All woody vines greater than 3.28 it in 11. height. 12. =Total Cover 50%of total cover: } 20%of total cover: Woody Vine Stratum (Plot size: =.^, rr„ } 1. 2. / --- 3. 4. 5. Hydrophytic =Total Cover Vegetation 50%of total cover: 20%of total cover: present? Yes No Remarks: (if observed,list morphological adaptations below). US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region-Version 2.0 SOIL Sampling Point: °tjp Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix Redox Features (inches) of r oist % Color(moist),_ '/o Type Loc Texture Remarks �,� 'T e: C=Concentration,D=De letion,RM=Reduoed Matrix,MS=Masked Sand Grains. 'Location: PL=Pore Linin ,M=Matrix. Hydric Soil Indicators: (Applicable to all LRRs,unless otherwise noted.) Indicators for Problematic Hydric S01183: ❑ Histosol(A1) Il Polyvalue Below Surface(S8)(LRR S,T,U) ❑-1 1 cm Muck(A9)(LRR O) �] Histic Epipedon(A2) Thin Dark Surface(89)(LRR S,T,U) U 2 cm Muck(Ai 0)(ERR S) Il Black Histic(A3) Loamy Mucky Mineral(F1)(LRR O) ❑Reduced Vertic(F18)(outside MLRA 160A,B) Hydrogen Sulfide(A4) Loamy Gleyed Matrix(F2) ❑Piedmont Floodpiain Soils(F19)(LRR P,S,T) Stratified Layers(A5) Depleted Matrix(0) Anomalous Bright Loamy Soils(F20) Organic Bodies(A6)(LRR P,T,U) Redox Dark Surface(F6) (MLRA 163B) n 5 cm Mucky Mineral(A7)(LRR P,T,U) Depleted Dark Surface(F7) r❑�t Red Parent Material(TF2) D Muck Presence(A8)(LRR U) Redox Depressions(F8) a Very Shallow Dark Surface(TF12) n 1 cm Muck(A9)(LRR P,T) Il Mari(Fi0)(LRR U) Other(Explain in Remarks) D Depleted Below Dark Surface(At 1) n Depleted Ochric(1711)(MLRA 151) Thick Dark Surface(At 2) Q Iron-Manganese Masses(F12)(LRR Q,P,T) 31ndicators of hydrophytic vegetation and D Coast Prairie Redox(A16)(MLRA 150A) F1 Umbric Surface(F13)(LRR P,T,U) wetland hydrology must be present, ❑ Sandy Mucky Mineral(S1)(LRR 0,S) n Delta Ochric(F17)(MLRA 151) unless disturbed or problematic. 0 Sandy Gleyed Matrix(S4) n Reduced Vertic(F18)(MLRA 160A,15013) D Sandy Redox(S5) Piedmont Floodpiain Soils(F19)(MLRA 149A) II Stripped Matrix(S6) Anomalous Bright Loamy Soils(F20)(MLRA 149A,153C,153D) Q Dark Surface(S7)(LRR P,S,T,U) Restrictive Layer(if observed): Type: Depth(inches): Hydric Soli Present? Yes y_ No Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region-Version 2.0 \ub vvD �� WETLAND DETERMINATION DATA FORM-Atlantic and Gulf Coastal Plain Region ' Project/Site: t Cjty/County� Sampling Date:j Investigator(s)! j 7 i Section,Township,Range: Subregion(LRR or MLRA): Lat� 5 r_1 _----- Long: Datum: FIT, 7, Soil Map Unit Name: 1" NWI classification: Are climatic/hydrologic conditions on the site typical for this time of year? Yes� No_ (if no,explain in Remarks.) Are Vegetation Soil or Hydrology naturally ummemamm /Vu (if needed,explain any answers mn"ma*s.) SUMMARY OF FINDINGS- Attach site map showing sampling point locations,transacts, Important features,etc. Hydrophytic Vegetation Present? Yes.)�_ No Is the Sampled Area Hydric Soil Present? Yes No within a Wetland? Yes No Wetlafld Hydrology Present? Yes_ No HYDROLOGY Wetland Hydrology Indicators: Secon"Ey Indicalors(minimum of two reguired) Pr'ima!y Indicators(minimum of one is teauire&�hQck all that apply) n Surface Soil Cracks(136) El Surface Wale,(At) 1:1 Aquatic Fauna(813) Q Sparsely Vegetated Concave Surface(138) High Water Table(A2) Mad Deposit,(131-5)(LRR U) Drainage Patterns(B10) Saturation(A3) Hydrogen Sulfide Odor(Cl) Moss Trim Line.(1316) Water Marks(131) OAdled Rhi,ospheres along Living Roots(C3) Dry-Season Water Table(C2) Sediment Deposits(132) Presence of Reduced Iron(C4) Crayfish Burrows(C8) Drift Deposits(133) Recent Iron Reduction in Tilled Soils(C6) Saturation Visible on Aerial Imagery(C9) Algal Mat or Crust(84) Thin Muck Surface(C7) Geomorphic Position(D2) Iron Deposits(65) 0 Other(Explain in Remarks) n Shallow Aquitard(D3) Inundation Visible on Aerial Imagery(137) FAC-Neutral Test(D5) water-stained Leaves(89) Sphagnum moss(138)(LRR T,U) field observations- Depth(lnches)� Surface Water Present7 Yes- No Depth(inches): Water Table Present? Yes- No Saturation Present? Yes- No Depth(inches): Wetland Hydrology Present? Yes- No (Includes capillary f(inge) Describe Recorded Data(str.earn gauge,monitoring"well,aerial photos,previous inspections),if available: Remarm u8 Army Corps mEngineers Atlantic and Gulf coaum/Plain Region-Version u.o VEGETATION(Four Strata)—Use scientific names of plants. Sampling Point: VA Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot size: ?U ) %Cover Species? Status Number of Dominant Species 1. That Are OBI_,FACW,or FAC: (A) 2. Total Number of Dominant 3. Species Across All Strata: (B) 4, 1 5. Percent of Dominant Species ( �� That Are 08L,FACW,or FAC: (Af8) 6. r 7. Prevalence Index worksheet: Total%Cover of: Multiply by: =Total Cover 0131-species x 1 = 50%of total cover: 20%of total cover: FACW species x2= (( Saglin !Shrub Stratum (Plot size: ,� ) FAC species x3= 1 FACU species x4= 2. i V°, —�—— UPL species X5= ,j r Column Totals: 3. t (A) (8) t; 4. C-4 yL2 LACW Prevalence Index =BIA= Hydrophytic Vegetation Indicators: 8• Il 1-Rapid Test for Hydrophytic Vegetation 7. 2-Dominance Test is>50% 8. Il 3-Prevalence Index is 53.0' l =Total Cover � C,�,Problematic Hydrophytic Vegetation (Explain) 50%of total cover: I 20%of total cover: Herb Stratum (Plot size: ) 'indicators of hydric soil and wetland hydrology must 1_ be present,unless disturbed or problematic. 2. Definitions of Four Vegetation Strata: 3. — Tree—Woody plants,excluding vines,3 in.(7,6 cm)or 4. more in diameter at breast height(D31-1),regardless of 5 height. 8. SaplinglShrub—Woody plants,excluding vines,less than 3 in.081-1 and greater than 3.28 it(1 m)tall. 8. Herb—All herbaceous(non-woody)plants,regardless g of size,and woody plants less than 3.28 it tall, 10. Woody vino—All woody vines greater than 3.28 ft in 11. height. 12. =Total Cover 50%of total cover: 20%of total cover: Woody Vine Stratum (Plot sizep ) F 1. ' 2. a� 3. 4. 5. Hydrophytic =Total Cover Vegetation 50%of total cover: 20%of total cover: Present? Yes No Remarks: (If observed,list morphological adaptations below). US Army Carps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 SOIL Sampling Point: <<r=___ Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of Indicators.) Depth Matrix Re ox Features inches Color(moist) % Color Lmoist) % _Ty Loc Texture Remarks r) 1 'T e: C=Concentration,D=De letion,RM=Reduced Matrix,MS=Masked Sand Grains. 2Location: PL-Pore Lining,M=Matrix. Hydric Soil Indicators: (Applicable to all LRRs,unless otherwise noted.) Indicators for problematic Hydric Soils': 0 Histosol(Al) Polyvalue Below Surface(S8)(LRR S,T.U) ❑ 1 cm Muck(A9)(LRR 0) 0 Histic Epipedon(A2) Thin lurk Surface(S9)(LRR S,T.U) 2 cm Muck(A10)(LRR S) Q Black Histic(A3) Loamy Mucky Mineral(F1)(LRR O) Reduced Vert€e(1718)(outside MLRA 150A,B) n Hydrogen Sulfide(A4) 0 Loamy Gieyed Matrix(F2) ��--tt Piedmont Fioodplain Soils(F19)(LRR P,S,T) Stratified Layers(A5) f] Depleted Matrix(173) ]Anomalous Bright Loamy Soils(1720) Organic Bodies(A6)(LRR P,T,U) E] Redox Dark Surface(Fri) (MLRA 1638) 5 cm Mucky Mineral(A7)(LRR P,T,U) Depleted Dark Surface(F7) ❑ Red Parent Material(TF2) Muck Presence(A8)(LRR U) Redox Depressions(F8) ❑Very Shallow Dark Surface(TF12) �] 1 cm Muck(A9)(LRR P,T) [] Mart(F10)(LRR U) D Other(Expta€n in Remarks) Depleted Below Dark Surface(A11) ❑ Depleted 0chric(F11)(MLRA 151) Thick Dark Surface(At 2) D iron-Manganese Masses(1`12)(LRR 0,P,T) 31ndicators of hydrophytic vegetation and Coast Prairie Redox(A16)(MLRA 160A) Umbde Surface(F13)(LRR P,T,U) wetiand hydrology must be present, Sandy Mucky Mineral(S1)(LRR 0,S) Delta Ochric(F17)(MLRA 161) unless disturbed or problematic. n Sandy Gleyed Matrix(S4) n Reduced Vertic(F18)(MLRA 160.4 15OB) �} Sandy Redox(S5) Piedmont Fioodplain Soils(F19)(MLRA 149A) II Stripped Matrix(S6) Anomalous Bright Loamy Soils(F20)(MLRA 149A,153C,153D) ❑ Dark Surface(S7)(LRR P,S,T,U) Restrictive Layer(if observed): Type: Depth(inches): Hydric Soil Present? Yes No Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 F WETLAND RATING WORKSHEET Fourth Version Project Name Nearest Road County-- Wetland area —acres Wetland width Name of evaluator Date Wetland location Adjacent land use on pond or take (within Y2 mile upstream,upslope,or radius) on perennial stream forested/natural vegetation D, % on intermittent stream agriculture, urban/suburban �W0/1 within interstrearn divide impervious surface % other: Soil series: Dominant vegetation predominantly organic-humus,muck, or (1) peat 4 (2) " predominantly mineral-non-sandy i - predominantly sandy (3) 3 r, y Hydraulic factors Flooding and wetness steep topography sernipermanently to permanently flooded or ditched or channelized inundated total wetland width> 100 feet seasonally flooded or inundated intermittently flooded or temporary surface water no evidence of flooding or surface water Wetland type(select one)* Bottomland hardwood forest Pine savanna Headwater forest Freshwater marsh Swamp forest Bog/fen Wet flat Ephemeral wetland Pocosin Carolina bay Bog forest Other: The rating system cannot be applied to salt or brackish marshes or stream channels ------------- ----------------------- ------------------------------------------------------------------------- Water storage x 4.00= i A Bank/Shoreline stabilization Y x 4.00= watinnd g T Pollutant removal i x 5,00= Wildlife habitat x 2.00= N Aquatic life value x 4.00= IF FT 7_1 G Recreation/Education x 1.00 = I I I **Add I point if insensitive watershed and>10%nonpoint source disturbance within '/2 mile upstream,upslope,or radius ---------------- ---------------------------------------------------------- ------------ WETLAND DETERMINATION DATA FORM—Atlantic and Gulf Coastal Plain Region ProjectfSite: City/County: 1 z Sampling Date: Applicant/Owner: State, IX, Sampling Point: Investigator(s):_ i3i r Section,Township,Range: Landform(hilislope,terrace,etc.): Local relief(concave.convex,lie) Slope Subregion(LRR or MLRA): Lat: Long: Datum: Soil Map Unit Name:Frk;sr NWI classification: Are climatic I hydrologic conditions on the site typical for this time of year? Yes No_ (if no,explain in Remarks.) Are Vegetation Soil or Hydrology_significantly disturbed? t Are"Normal Circumstances"present? Yes*"L_ No Are Vegetation or Hydrology C? Soil _naturally problematic? (If needed,explain any answers in Remarks.) SUMMARY OF FINDINGS— Attach site map showing sampling point locations,transects, important features,etc. Hydrophytic Vegetation Present? Yes No Is the Sampled Area Hydric Soil Present? Yes No within a Welland? Yes No Wetland Hydrology Present? Yes No Remarks; 4ih f 'jrlfel I �4 HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators(minimum of two required) Primary indicators(minimum of one is requiredq check all that apply) ❑ Surface Soil Cracks(136) ❑ Surface Water(Al) ❑ Aquatic Fauna(813) ❑ Sparsely Vegetated Concave Surface(138) High Water Table(A2) Marl Deposits(B15)(LRR U) Drainage Patterns(1310) Saturation(A3) Hydrogen Sulfide Odor(Cl) Moss Trim Lines(BIB) Water Marks(BI) E9 Oxidized Rhi...pheres along Living Roots(C3) ❑ Dry-Season Water Table(C2) Sediment Deposits(132) Q Presence of Reduced Iron(C4) El Crayfish Burrows(CB) ❑ Drift Deposits(83) II Recent Iron Reduction in Tilled Soils(C6) Saturation Visible on Aerial Imagery(C9) n Algal Mat or Crust(134) 0 Thin Muck Surface(C7) ❑ Geomorphic Position(D2) Iron Deposits(135) 0 Other(Explain in Remarks) ❑ Shallow Aquitard(D3) Inundation Visible on Aerial Imagery(87) FAC-Neutral Test(D5) ❑ Water-Stained Leaves(139) Sphagnum moss(08)(LRR T,U) Field Observations: Surface Water Present? Yes No— Depth(inches): Water Table Present? Yes No_ Depth(inches): '4- Saturation Present? Yes j No Depth(inches): 1,, -4' Wetland Hydrology Present? Yes�`/- No (includes capillary fringe) Describe Recorded Data(stream gauge,monitoring well,aerial photos,previous inspections),if available: Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2,0 VEGETATION(Four Strata)—Use scientific names of plants. Sampling Pointy Evc l n r Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot size: } %Cover Species? Status Number of Dominant Species "J 1. That Are OBL,FACW,or FAC: (A) 2. Total Number of Dominant 3• Species Across All Strata: (B) 4 I Percent of Dominant Species t 5. �1 That Are OBL,FACW,or FAC: (A/B) s. 7 C Prevalence Index worksheet: Total%Cover of: Multiply by: =Total Cover OBL species x 1= 50%of total cover: 20%of total cover: FAGW species x2= FAC species x3= FACU species x4= — (� Sapling/Shrub Stratum Plot size: it?tt x'� 2. M1,* f:,i.� ���t.:,.,.� _._ t — C ,l UPL species x5= 3. Column Totals: (A) (B) 4. Prevalence Index =B/A= Hydrophytic Vegetation Indicators: ti. 1-Rapid Test for Hydrophytic Vegetation 7. 2-Dominance Test is>50% 8. 3-Prevalence Index is 53.0' =Total Cover II Problematic Hydrophytic Vegetation'(Explain) 0°te of total cover: `A 20%of total cover: } Herb Stratum (Plot size: } II i 'indicators of hydric soil and wetland hydrology must be present,unless disturbed or problematic. �n �C t (,f.a 2. Definitions of Four Vegetation Strata: �s- 3. Tree--Woody plants,excluding vines,3 in.(7.6 cm)or 4• more in diameter at breast height(DBH),regardless of 5 height. 6. SaptingiShrub—Woody plants,excluding vines,less 7, than 3 in.DBH and greater than 3.28 ft(1 m)tall. 8. Herb—All herbaceous(non-woody)plants,regardless g, of size,and woody plants less than 3.28 ft tall. 10. Woody vine—All woody vines greater than 3.28 A in 11. height. 12. t =Total Cover 50%of total cover: tJ 20%of total cover: .s Woody.Vine Stratum (Plot size: ) 1. 3. 4. t 5• Hydrophytic =Total Cover Vegetation 50°!°of total cover: 20°l0 of total cover: Present? yes No Remarks: (if observed,list morphological adaptations below). US Amory Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 WETLAND DETERMINATION DATA FORM-Atlantic and Gulf Coastal Plain Region ProjecIlSite: D city1county: ...... Sampling Dater Applicant/Owner: Itr I State! Sampling Point: Investigator(s): 1,64 t Section,Township,Range: Landform(hillslope,terrace,etc.): Local relief(concave,convex,110 Slope Subregion(LRR or MLRA): ------------------ Lal: Long: Datum: � � e Soil Map Unit Name: ` ' r "" NWI classification: Are climatic/hydrologic conditions on the site typical for this time of year? Yes No_ (If no,explain in Remarks.) Are Vegetation Soil or Hydrology_significantly disturbed? Are"Normal Circumstances'present? Yes No Are Vegetation Soil or Hydrology—naturally problematic? (it needed,explain any answers in Remarks.) SUMMARY OF FINDINGS- Attach site map showing sampling point locations,transects, important features,etc. Hydrophytic Vegetation Present? Yes It No IN — Is the Sampled Area Hydric Soil Present? Yes No within a Wetland? Yes No Wetland Hydrology Present? Yes No Remarks: J"" N-JA j HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators(minim m of two required) Primary Indicators(minimum of one is required:check all that ariply) ❑ surface Soil cracks(m) Surface Water(Al) 1:1 Aquatic Fauna(813) ❑ Sparsely Vegetated Concave Surface(B8) High Water Table(A2) Mart Deposits(1315)(LRR U) Q Drainage Patterns(BIO) Saturation(A3) tQ Hydrogen Sulfide Odor(cl) ❑ Moss Trim Lines(B16) Water Marks(131) Oxidized Rhizospheres along Living Roots(C3) Q Dry-Season Water Table(C2) Sediment Deposits(82) t 1 Presence of Reduced Iron(C4) Crayfish Burrows(C8) Drift Deposits(B3) II Recent Iron Reduction in Tilled Soils(C6) II Saturation Visible on Aerial Imagery(Cg) Algal Mat or Crust(134) ❑ Thin Muck Surface(C7) ❑ Geomorphic Position(132) Iron Deposits(B5) Other(Explain in Remarks) ❑ Shallow Aquitard(D3) Q Inundation Visible on Aerial Imagery(B7) II FAC-Neutral Test(DS) ❑ Water-Stained Leaves(89) II Sphagnum moss(D13)(LRR T,U) Field Observations; Surface Water Present? Yes No # Depth(inches): Water Table Present? Yes No Depth(inches): Saturation Present? Yes Na Depth(inches): Wetland Hydrology Present? Yes-�— No capillary fringe) Describe Recorded Data(stream gauge,monitoring well,aerial photos,previous inspections),if available: Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region-Version 2.0 VEGETATION(Four Strata)—Use scientific names of plants. Sampling Point: Absolute Dominant indicator Dominance Test worksheet: Tree Stratum (Plot size: } %Cover Species? Status Number of Dominant Species 3 That Are OBL,FACW,or FAG: f (A) t 2. 4 Total Number of Dominant 3. ' Species Across All Strata: (8) 4. Percent of Dominant Species r! 5._ � That Are OBL,FACW,or FAC: �.J �e° (A/B) L 7. Prevalence Index worksheet: ' 8 T tal%Cover of: Multiply b : =Total Cover OBL species x 1 = 50%of total cover: 20%of total cover: FACW species x2= Saplino/Shrub Stratum (Plat size: I } FAC species x 3= FACU species x4= rT UPL species X5= 2.3. Column Totals: (A) (B) 4• Prevalence index =8!A= S. Hydrophytic Vegetation Indicators: 5• ❑ 1 -Rapid Test for Hydrophytic Vegetation 7. 2-Dominance Test is>50% 8. ❑ 3-Prevalence Index is 53.0' =Total Cover ❑ problematic Hydrophytic Vegetation'(Explain) 50%of total cover: 20%of total cover: Herb Stratum (Plot size: ) 'Indicators of hydric soil and wetland hydrology must be present,unless disturbed or problematic. 2. r f ' Definitions of Four Vegetation Strata: 3. nP �r Tree—Woody plants,excluding vines,3 in.(7.6 cm)or 4• more in diameter at breast height(DBH),regardless of 5. height. 6. SaplinglShrub—Woody plants,excluding vines,less 7 than 3 in.D8H and greater than 3.28 ft(1 m)tall. 8. Herb—All herbaceous(non-woody)plants,regardless 8 of size,and woody plants less than 3.28 it tall. 10. Woody vine—All woody vines greater than 3.28 ft in 11. height. 12. �- / =Total Cover 500!q of total cover: '? 20%of total cover: Woody Vine Stratum (Plot size: 1. S 2. 3. - z 4. 5. Hydrophytic =Total Cover Vegetation ° 50%of total cover: 20°I°of total cover: Present? Yes No Remarks: (if observed,list morphological adaptations below). US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 SOIL Sampling Point: Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix Redox Features ^^(in}nches Color(moist) °f° Color(moist} °k TvoLoc Texture Remarks 'Type: C=Concentration,D=De letion,RM=Reduced Matrix,MS=Masked Sand Grains. Location: PL=Pore Lining,M=Matrix, Hydric Soil Indicators: (Applicable to all LRRs,unless otherwise noted.) Indicators for Problematic Hydric Soils': n Histosol(Al) [] Polyvalue Below Surface(S8)(LRR S,T,U) ❑1 cm Muck(A9)(LRR 0) Histic Epipedon(A2) Thin Dark Surface(S9)(LRR S,T,U) 2 cm Muck(A10)(LRR S) n Black Histic(A3) Loamy Mucky Mineral(F1)(LRR 0) Reduced Vertic(F18)(outside MLRA 160A,B) Hydrogen Sulfide(A4) Loamy Gleyed Matrix(F2) U Piedmont Floodplain Soils(F19)(LRR P,5,T) Stratified Layers(A5) Depleted Matrix(173) Anomalous Bright Loamy Soils(1720) Organic Bodies(A6)(LRR P,T,U) H Redox Dark Surface(F6) (MLRA 1636) 5 cm Mucky Mineral(A7)(LRR P.T,U) n Depleted Dark Surface(F7) ❑ Red Parent Material(TF2) Muck Presence(A$)(LRR U) n Redox Depressions(178) n Very Shallow Dark Surface(TF12) [� 1 cm Muck(A9)(LRR P,T) n Mari(F10)(LRR U) n Other(Explain In Remarks) n Depleted Below Dark Surface(A11) n Depleted Ochric(1711)(MLRA 161) n Thick Dark Surface(Al2) Q iron-Manganese Masses(F12)(LRR 0,P,T) 'Indicators of hydrophytic vegetation and n Coast Prairie Redox(A16)(MLRA i60A) Umbric Surface(F13)(LRR P,T,U) wetland hydrology must be present, n Sandy Mucky Mineral(S1)(LRR O,S) Delta Ochric(F17)(MLRA 151) unless disturbed or problematic. �] Sandy Gleyed Matrix(S4) D Reduced Vertic(F18)(MLRA 160A,160B) Sandy Redox(S5) Piedmont Floodplain Soils(F19)(MLRA 149A) Stripped Matrix(S6) Anomalous Bright Loamy Soils(F20)(MLRA 149A,163C,163D) n Dark Surface(S7)(LRR P,S,T,U) Restrictive Layer(if observed): Type: Depth(inches): Hydric Soil Present? Yes No Remarks: US Army Corps of Engineers Atlantic and Gulf Coastal Plain Region—Version 2.0 WETLAND RATING WORKSHEET Fourth Version me Project Na °e j °{ `> Nearest Road '(r�ci `` Wetland area acres Wetland width '072 feet County ,'s� - _ Name of evaluator Date $ / Wetland location Adjacent land use on pond or lake (w�thin 'f2 mile upstream,upslope,or radius) _on perennial stream forested/natural vegetation `+ on intermittent stream agriculture,urban/suburban ! ? % 4-within interstream divide _impervious surface % other: Soil series: Dominant vegetation predominantly organic-humus,muck,or {1} -r ;I F {, peat ' predominantly mineral -non-sandy {2} predominantly sandy {3} Hydraulic factors Flooding and wetness steep topography semipermanently to pennanently flooded or _ditched or channelized inundated total wetland width> 100 feet _seasonally flooded or inundated intermittently flooded or temporary surface water no evidence of flooding or surface water Wetland type(select one)* Bottomland hardwood forest Pine savanna _Headwater forest _Freshwater marsh Swamp forest _Bog/fen Wet flat Ephemeral wetland _Pocosin _Carolina bay Bog forest Other: f The rating system cannot be applied to salt or brackish marshes or stream channels ]� Water storage x 4.00= A Bank/Shoreline stabilization {? x 4.00= ,r Wetland rating T Pollutant removal 4 "x 5.00= I Wildlife habitat x 2.00= 1 ]V Aquatic life value l x 4.00= G Recreation/Education x 1.00= **Add 1 point if in sensitive watershed and>10%nonpoint source disturbance within Y,mile upstream,upslope,or radius