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20061203 Ver 4_Modifications_20120517
Strickland, Bev From: Mcmillan, Ian Sent: Thursday, May 17, 2012 9:19 AM To: Dennison, Laurie; Strickland, Bev Subject: Western Wake Partners Mod request info Attachments: Western Wake 404 Permit Modification Request -WCFM Realignment and Apex WS Policy- 20120420.pdf attached Ian J. McMillan, PWS, GISP NCDENR/Division of Water Quality - Wetlands and Stormw ater Branch 1650 Mail Service Center Raleigh, NC 27699 -1650 Office: (919) 807 -636.4 Fax: (919) 807 -6494 Email: ian.mcmillan dncdenr.gov E -mail correspondence to and from this address may be subject to the North Carolina Public Records Law and may be disclosed to third parties. s r�l "Sind Western r Regional #R; April 20, 2012 Mr. Henry Wicker US Army Corps of Engineers Wilmington Regulatory Field Office 69 Darlington Avenue Wilmington, North Carolina 28403 -1343 Subject: USACE Action ID: SAW - 2005 -20159 DWQ #2006 -1203 Supplemental Information, Request for Permit Modification, Western Wake Regional Wastewater Management Facilities, Wake County, NC Dear Mr. Wicker: The Western Wake Partners request modification of the permit issued for the subject project under the US Army Corps of Engineers (USACE) Action ID SAW- 2005 -20159 (Issued Permit). The modification is to accommodate realignment of one portion of the West Cary Force Main (WCFM) associated with the project (HUC 03030002) and to add infrastructure extensions related to implementing the Town of Apex Water & Sewer Extension Policy (HUC 03030004). The modifications are addressed individually below. Mitigation for the Issued Permit has been satisfied through payment into the North Carolina Ecosystem Enhancement Program (NCEEP). Payment included a total of 484 warm stream credits and 1.75 riparian wetland credits in HUC 03030002 and a total of 736 warm stream credits and 0.25 riparian wetland credits in HUC 03030004. • •• The proposed realignment was requested by a property owner along the West Cary Force Main easement. The realignment reduces impacts to jurisdictional waters of the United States as described in Tables 1 and 2 on page 2 and in the attached supporting documentation (Attachments Al and A3). The tables below and Attachments Al and A3 address only waters of the United States proposed to be impacted by the West Cary Force Main portion of the project. Mr. Henry Wicker US Army Corps of Engineers April 20, 2012 Page 2 of 7 Wetland P Permitted P Permitted P Proposed P Proposed C Change C Change Impact W Wetland T Temp. P Permanent T Temp. P Permanent T Temp. P Permanent Area T Type I Impacts I Impacts I Impacts I Impacts I Impacts I Impacts (ac) ( (ac) ( (ac) ( (ac) ( (ac) ( (ac) 1 F Forested 1 1 0.03 0 0.01 0 0 0 0 - -0.03 - -0.01 2 F Forested 0 0.08 0 0.03 0 0 0 0 . .0.08 - -0.03 3 F Forested 0 0.03 0 _.. _ 0 0 _.... . 0.03 - . 4 F Forested 0 0.46 0 0.15 0 0.44 0 0.14 0 0.03 - -0.01 - 1 1111-11111.1 ........... ... _ _........ .a_._. . ...... -. . .._ _ _ ...._.. .. __ . ...... 0 __. _ ...... . . .......... _ .._ _ _ _ .... ...e ..... _ . ..... ..w .... .. .... ... The total permitted impacts to wetlands for the Western Wake Regional Wastewater Management Facilities (WWRWMF) project in are 0.82 acre of permanent impact and 2.95 acres of temporary impact. The West Cary Force Main portion of the project (in HUC Code 0303002) has 0.26 acre of permitted permanent impacts and 0.76 acre of temporary impacts. As revised, the proposed wetland impacts for the West Cary Force Main portion of the project are 0.22 acre of permanent impact (decrease of 0.04 acres) and 0.66 acre of temporary impacts (decrease of 0.10 acre). Stream Stream Permitted Permitted Proposed Proposed Change Change Impact Temp. Permanent Temp. Permanent Temp, Permanent Area Type Impacts (ft) Impacts (ft) Impacts (ft) Impacts (ft) Impacts () Impacts () 1 Perennial 60 0 0. 0 -60 0 _ _ - ..._...�.n ... _. ..._.. _ ....... , . ... .......... ... .. , . n. .................. .. ...... ..... 2 Perennial 50 18 50 18 0 0 - -- ..._..._. .... ........:.. .. ....._ _.......... . --- - .. �._ . _- ........ _,.,e 1A Intermittent 0 0 32 0 +32 0 _._... .. _., ........ _ .... .................. _ ..... .... _ ....._. _ .. ... .. _._- - TOTAL 110 18 82 0 -28 0 The total permitted impacts to streams for the WWRWMF project are 378 ft of permanent impact and 1,816 ft of temporary impact. The West Cary Force Main portion of the project has 18 ft of permitted permanent impacts and 110 ft of temporary impacts (to perennial streams). As revised, proposed permanent impacts to perennial streams for the WCFM portion of the project are unchanged, and proposed temporary stream impacts to perennial streams are decreased by 28 ft. The Partners elected to pay a fee to the North Carolina Ecosystem Enhancement Program (NCEEP) to satisfy the compensatory mitigation requirements of the 404 and 401 permits for the subject project. The approach used to determine compensatory mitigation requirements for impacts originally permitted consisted of determining stream and wetland quality scores. Quality Scores were used in conjunction with Table 3 (for wetlands) and Table 4 (for streams) on page 3 to determine mitigation ratios. Mitigation ratios were applied to permanent impacts to determined compensatory mitigation requirements. The total permitted impacts to streams for the WWRWMF project are 378 ft of permanent impact and 1,816 ft of temporary impact. The West Cary Force Main portion of the project has 18 ft of permitted permanent impacts and 110 ft of temporary impacts (to perennial streams). As revised, proposed permanent impacts to perennial streams for the WCFM portion of the project are unchanged, and proposed temporary stream impacts to perennial streams are decreased by 28 ft. The Partners elected to pay a fee to the North Carolina Ecosystem Enhancement Program (NCEEP) to satisfy the compensatory mitigation requirements of the 404 and 401 permits for the subject project. The approach used to determine compensatory mitigation requirements for impacts originally permitted consisted of determining stream and wetland quality scores. Quality Scores were used in conjunction with Table 3 (for wetlands) and Table 4 (for streams) on page 3 to determine mitigation ratios. Mitigation ratios were applied to permanent impacts to determined compensatory mitigation requirements. Mr. Henry Wicker US Army Corps of Engineers April 20, 2012 Page 3of7 3:1 76 -100 2:1 51 -75 1:1 26 -50 1:1 0 -25 Attachment A2 provides wetland rating and stream quality assessment worksheets for the realigned portion of the WCFM and the resulting quality scores. Table 5 below summarizes the changes to required mitigation that result from the proposed realignment of a portion of the WCFM and includes the impact quantities, quality score, mitigation ratio, and compensatory mitigation requirements. For the WCFM portion of the Western Wake project, the compensatory mitigation requirement for wetlands is 0.06 credits less than permitted compensatory mitigation requirements. There is no change in compensatory mitigation requirements for streams. Permitted Proposed Permitted Proposed Impact Impact Permanent Permanent Quality Mitigation Compensatory Compensatory Area Type I Impacts Impacts Score Ratio Mitigation Mitigation Requirements Requirements 1 Wetland 0.009 ac 0 36 2:1 0.018 0 2 Wetland 0.026 ac 0 37 2:1 0.052 0 _ 3 Wetland a ... ,... 0.01Oac ..... .._...�_� 0 33 1:1 0.010 0 4 — ._. Wetland _. _ ...._._ 0.154 ac __.... ..J 0.143 ..._. _ .. __. _.. ......... _ ... .. 56 __........ ..� ..... ... . ......... 2:1 _... _ 1-1-11-1-11 . .. ....... . _...... - 0.308 0.286 5 Wetland 0.014 ac .— _ __ . _..... _ . 0.014 23 v _ .. .._....._. 1:1 0.014 0.014 6 Wetland 0.044 ac .... _._ _. 0.044 _.........__ _ 69 _.. .- 3:1 ___ _. _ _._ .. .... 0.132 0.132 1A Wetland _..._.._ ._ . _ .. 0 .... __. ....... _ . 0.005 44 ......_._... 2:1 ._ .. 0 — — 0.01 2A Wetland 0 0.003 49 2:1 0 0.006 3A Wetland 0 0.011 45 2:1 0 0.022 TOTAL WETLAND 0.26 ac 0.21 ac 0.53 0.47 m.. 1 Stream 0 ...... _ 0 _..... ... 77 ....... ... ._._. NA ... 0 — 0 2 Stream 18 ft 18 ft _....,... _ 54 2:1 36 — 36 _ 1A Stream 0 _... .................... __. _.... ........... . 0 39 NA ._.. _._......... .. 0 -- 0 TOTAL STREAM 18 ft . ...... ... ... 18 ft ............. . — _. ...... ...._.__ . _ ..- 36 _ . -- 36 For the WCFM portion of the Western Wake project, the compensatory mitigation requirement for wetlands is 0.06 credits less than permitted compensatory mitigation requirements. There is no change in compensatory mitigation requirements for streams. Mr. Henry Wicker US Army Corps of Engineers April 20, 2012 Page 4of7 Apex Site 14 Water & Sewer Extension Policy The Town of Apex's Site 14 Water & Sewer Extension Policy will construct water and wastewater infrastructure to serve eligible residents near the Western Wake Regional Water Reclamation Facility. Tables 6 and 7 below and the attached supporting documentation (Attachments B1 and B3) summarize the proposed wetland and stream impacts associated with the Water and Sewer Extension Policy only. Wetland Impact Area C D -E TOTAL Stream Stream On Impact Area Type Sil S2 Perennial YE S3 Ephemeral N, S4 Intermittent N, S5 __ ._. _.... Intermittent _... ... . N, S6 Ephemeral N, S7 Ephemeral N 0.04 EUM t16) 30 NA NA NA NA Attachment B2 provides wetland rating and stream quality assessment worksheets for the portion of Apex Water and Sewer Extension alignment. Table 8 on page 5 summarizes the required mitigation which results from the proposed Apex Water & Sewer Extension Policy portion of the project. Mr. Henry Wicker US Army Corps of Engineers April 20, 2012 Page 5of7 Compensatory Mitigation Requirements 0.02 ac For the Apex Water & Sewer Extension Policy portion of the Western Wake project, in HUC Code 0303004, the compensatory mitigation requirements for wetlands and streams are 0.09 credits and 40 credits, respectively. The WCFM modifications (HUC 03030002) results in no increase to stream impacts. The addition of the Apex Water & Sewer Extension Policy (HUC 03030004) results in an increase of 30 linear feet to stream impacts. The total increase to stream impacts will be 30 linear feet. Accounting for the expected mitigation ratios, the required mitigation for streams does not increase for HUC 03030002 but increases by 40 credits (HUC 03030004) totaling an increase of 40 credits. Under the Issued Permit, required compensatory mitigation for streams are 484 credits (HUC 03030002) and 736 credits (HUC 03030004) totaling 1,220 stream credits. Revised required compensatory mitigation for streams is 484 credits (HUC 03030002) and 776 credits (HUC 03030004) totaling 1,260 credits. Stream credits purchased from NCEEP totaling 484 (HUC 03030002) and 736 (HUC 03030004). An additional 40 stream credits will need to be purchased in HUC 03030004. Table 9 on page 6 outlines the changes and new requirements for stream impacts and compensatory mitigation in addition to stream credits already purchased from NCEER Mr. Henry Wicker US Army Corps of Engineers April 20, 2012 Page 6of7 The WCFM modifications (HUC 03030002) result in a 0.04 acre decrease to wetland impacts. The addition of the Apex Water & Sewer Extension Policy (HUC 03030004) results in a 0.04 acre increase to wetland impacts. There will not be an increase in wetland impacts. Accounting for the expected mitigation ratios, the required compensatory mitigation for wetlands will not increase for HUC 03030002 and will increase by 0.09 credits (HUC 03030004) totaling an increase of 0.09 credits. Under the Issued Permit, required compensatory mitigation for wetlands are 1.52 credits (HUC 03030002) and 0.12 credits (HUC 03030004), totaling 1.64 wetland credits. Revised required compensatory mitigation for wetlands is still 1.52 credits (HUC 03030002) and will be 0.21 credits (HUC 03030004) totaling 1.73 wetland credits. Since credits were purchased from NCEEP, wetland credits are rounded to the nearest 0.25 credit. Wetland credits purchased were 1.75 (HUC 03030002) and 0.25 (HUC 03030004). Since more wetland credits were purchased, due to rounding, than the total required wetland credits in both HUCs under the proposed modifications, it is proposed that additional wetland credits will not need to be purchased. Table 10 on page 7 outlines the changes and new requirements for wetland impacts and compensatory mitigation in addition to wetland credits already purchased from NCEEP. Total Stream Compensatory Additional Total Stream Compensatory Stream Mitigation ' Compensatory Impacts (If) Mitigation Credits Stream Credits Requirements Purchased deeded Current Issued Permit HUC 03030002, 484 484 0 HUC 03030004 125 736 736 0 TOTAL 378 1,220 1,220 0 WCFM and Apex Site 14 Water & Sewer Extension Policy HUC 03030002! 0 0 0 0 HUC 03030004' 30 40 0 40 TOTAL 30 40 0 40 Total Proposed Modifications HUC 03030002 253 ....._e_ ... 484 __...._. _....�. _... .._ 484 ... 0 — -- HUC 03030004 155 776 736 40 TOTAL 408 1,260 1,220 40 The WCFM modifications (HUC 03030002) result in a 0.04 acre decrease to wetland impacts. The addition of the Apex Water & Sewer Extension Policy (HUC 03030004) results in a 0.04 acre increase to wetland impacts. There will not be an increase in wetland impacts. Accounting for the expected mitigation ratios, the required compensatory mitigation for wetlands will not increase for HUC 03030002 and will increase by 0.09 credits (HUC 03030004) totaling an increase of 0.09 credits. Under the Issued Permit, required compensatory mitigation for wetlands are 1.52 credits (HUC 03030002) and 0.12 credits (HUC 03030004), totaling 1.64 wetland credits. Revised required compensatory mitigation for wetlands is still 1.52 credits (HUC 03030002) and will be 0.21 credits (HUC 03030004) totaling 1.73 wetland credits. Since credits were purchased from NCEEP, wetland credits are rounded to the nearest 0.25 credit. Wetland credits purchased were 1.75 (HUC 03030002) and 0.25 (HUC 03030004). Since more wetland credits were purchased, due to rounding, than the total required wetland credits in both HUCs under the proposed modifications, it is proposed that additional wetland credits will not need to be purchased. Table 10 on page 7 outlines the changes and new requirements for wetland impacts and compensatory mitigation in addition to wetland credits already purchased from NCEEP. Mr. Henry Wicker US Army Corps of Engineers April 20, 2012 Page 7 of 7 Total Wetland Compensatory Additional Total Wetland Compensatory Wetland Compensatory 0 impacts (ac) Mitigation .a i ; Credits Wetland Credits Requirements Purchased Needed Current Issued Permit HUG 03030002 i 0.73 1.52 HUG 03030004 0.09 0.12 TOTAL 0.82 1.64 WCFM and Apex Site 14 Water & Sewer Extension Policy HUG 03030002 -0.04 0 11-1111,1111, HUG 03030004 0.04 0.09 TOTAL 0.00 0.09 Total Proposed Modifications HUG 03030002 0.82 1.52 HUC 03030004 0 13 "0.."21 TOTAL 1 0.95 1.73 1.75 0.25 2.00 -0.13 -0.36 0 0 0 0.09 0 0.09 1 75 0.25 2.00 We trust the information above is sufficient to modify the permit issued USACE Action ID SAW- 2005 - 20159. Please feel free to contact our consultant, Mr. Ken Bruce of Brown and Caldwell, telephone 919 - 233 -9178 or email k r .s rrr, if you need further information or would like to discuss this request. We look forward to your response. Sincerely, TOWN OF CARY Stephe4Bown, E Dir ector of Public Works and Utilities Attachments (2) 1. Attachment A: West Cary Force Main Modifications (1) Preliminary Jurisdictional Determination Form — West Cary Force Main (2) Wetland Rating and Stream Quality Assessment Worksheets — West Cary Force Main (3) Stream and Wetland Impact Maps — West Cary Force Main 2. Attachment B: Apex Site 14 Water & Sewer Extension Policy (1) Preliminary Jurisdictional Determination Form — Apex Water & Sewer Extension Policy (2) Wetland Rating and Stream Quality Assessment Worksheets — Apex Water & Sewer Extension Policy Alternate Routes A and B (3) Stream and Wetland Impact Maps — Apex Water & Sewer Extension Policy (4) Addresses of Adjoining Property Owners — Apex Water & Sewer Extension Policy USACE Action ID: SAW- 2005 -20159 DWQ #2006 -1203 Supplemental Information, Request for Permit Modification Western Wake Regional Wastewater Management Facilities Attachment 1: Preliminary Jurisdictional Determination Form - West Cary Force Main ATTACHMENT PRELIMINARY JURISDICTIONAL DETERMINATION FORM BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR PRELIMINARY JURISDICTIONAL DETERMINATION (JD): B. NAME AND ADDRESS OF PERSON REQUESTING PRELIMINARY JD: Town of Cary, Contact Person: Jamie Revels C. DISTRICT OFFICE, FILE NAME, AND NUMBER: Wilmington District, AID# SAW- 2005 -20159 D. PROJECT LOCATION(S) AND BACKGROUND INFORMATION: This portion of the Western Wake project is known as the West Cary Force Main, and is located between Green Level Road West (SR 1605) and Wimberley Road (SR 1603). (USE THE ATTACHED TABLE TO DOCUMENT MULTIPLE WATERBODIES AT DIFFERENT SITES) State: NC County /parish /borough: Wake County Center coordinates of site (lat/long in degree decimal format): Lat. 35 °46'06.21" North, Long. 78 054'56.06" West. Universal Transverse Mercator: Name of nearest waterbody: White Oak Creek Identify (estimate) amount of waters in the review area: Non - wetland waters: 92 linear feet: 184 width (ft) and /or 0.004 acres. Cowardin Class: Riverine Stream Flow: Intermittent and perennial Wetlands: 0.657 acres. Cowardin Class: Forested Name of any water bodies on the site that have been identified as Section 10 waters: Tidal: Non - Tidal: E. REVIEW PERFORMED FOR SITE EVALUATION (CHECK ALL THAT APPLY): ❑ Office (Desk) Determination. Date: ® Field Determination. Date(s): 1. The Corps of Engineers believes that there may be jurisdictional waters of the United States on the subject site, and the permit applicant or other affected party who requested this preliminary JD is hereby advised of his or her option to request and obtain an approved jurisdictional determination (JD) for that site. Nevertheless, the permit applicant or other person who requested this preliminary JD has declined to exercise the option to obtain an approved JD in this instance and at this time. 2. In any circumstance where a permit applicant obtains an individual permit, or a Nationwide General Permit (NWP) or other general permit verification requiring "pre- construction notification" (PCN), or requests verification for a non - reporting NWP or other general permit, and the permit applicant has not requested an approved JD for the activity, the permit applicant is hereby made aware of the following: (1) the permit applicant has elected to seek a permit authorization based on a preliminary JD, which does not make an official determination of jurisdictional waters; (2) that the applicant has the option to request an approved JD before accepting the terms and conditions of the permit authorization, and that basing a permit authorization on an approved JD could possibly result in less compensatory mitigation being required or different special conditions; (3) that the applicant has the right to request an individual permit rather than accepting the terms and conditions of the NWP or other general permit authorization; (4) that the applicant can accept a permit authorization and thereby agree to comply with all the terms and conditions of that permit, including whatever mitigation requirements_ the Corps has determined to be necessary; (5) that undertaking any activity in reliance upon the subject permit authorization without requesting an approved JD constitutes the applicant's acceptance of the use of the preliminary JD, but that either form of JD will be processed as soon as is practicable; (6) accepting a permit authorization (e.g., signing a proffered individual permit) or undertaking any activity in reliance on any form of Corps permit authorization based on a preliminary JD constitutes agreement that all wetlands and other water bodies on the site affected in any way by that activity are jurisdictional waters of the United States, and precludes any challenge to such jurisdiction in any administrative or judicial compliance or enforcement action, or in any administrative appeal or in any Federal court; and (7) whether the applicant elects to use either an approved JD or a preliminary JD, that JD will be processed as soon as is practicable. Further, an approved JD, a proffered individual permit (and all terms and conditions contained therein), or individual permit denial can be administratively appealed pursuant to 33 C.F.R. Part 331, and that in any administrative appeal, jurisdictional issues can be raised (see 33 C.F.R. 331.5(a)(2)). If, during that administrative appeal, it becomes necessary to make an official determination whether CWA jurisdiction exists over a site, or to provide an official delineation of jurisdictional waters on the site, the Corps will provide an approved JD to accomplish that result, as soon as is practicable. This preliminary JD finds that there "may be "waters of the United States on the subject project site, and identifies all aquatic features on the site that could be affected by the proposed activity, based on the following information: SUPPORTING DATA. Data reviewed for preliminary JD (check all that apply - checked items should 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: Hazen and Sawyer, P.C.. ® 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. 03030004 ® U.S. Geological Surrey map(s). Cite scale & quad name: Green Level. ❑ USDA Natural Resources Conservation Service Soil Survey. Citation: ❑ National wetlands inventory map(s). Cite name: ❑ State /Local wetland inventory map(s): ❑ FEMA/FIRM maps: ❑ 100 -year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) ❑ Photographs: ❑ Aerial (Name & Date): or ❑ Other (Name & Date): ❑ Previous determination(s). File no. and date of response letter: ❑ Other information (please specify): IMPORTANT NOTE: The information recorded on this form has not necessarily been verified by the Corps and should not be relied upon for later jurisdictional determinations. Signature and date of Regulatory Project Manager (REQUIRED) Signature and date of person requesting preliminary JD (REQUIRED, unless obtaining the signature is impracticable) SAMPLE Estimated Site Cowardin amount of Class of number Latitude Longitude Class aquatic aquatic resource in resource review area Stream 35.7728 - 78.9079 Intermittent 32 feet non - section 1 A 10 — non - wetland Stream 35.76764 - 78.90962 Perennial 60 feet non - section 1 10 — non - wetland Wetland 35.76749 - 78.90941 PFO 0.023 acre non - section 1A 10 — wetland Wetland 35.76677 - 78.90845 PFO 0.014 acre non - section 2A 10 — wetland Wetland 35.75977 - 78.90805 PFO 0.038 acre non - section 3A I 1 10 — wetland Wetland 35.75946 - 78.90806 PFO 0.582 acre non - section 4 1 1 1 1 10 — wetland N!' TIWO CtrPam Mpntiffentinn Fnrm Vercinn 4.11 Date: M� 20 9- I� l (Cit l Project/Site: �il►�tt0a.k,Cr'wt -S1 rJ + Irce AVVI Latitude: 35• '4L9_ &q' Evaluator: �t KAY,6LV1C2. County: Longitude: 4$. 10 1 (,p' °1N Total Points: Stream is at least intermittent 3g Stream Determination (circle one Ephemeral Intermittent erennia Other e.g. Quad Name: if >_ 19 or perennial if 2 30' V 2. Sinuosity of channel along thalweg 0 A. Geomorphology (Subtotal =_131-15-) Absent Weak Moderate Strong 1' Continuity of channel bed and bank 0 1 0 3 2. Sinuosity of channel along thalweg 0 1 2 3 3. In- channel structure: ex. riffle -pool, step -pool, ripple-pool sequence 0 0.5 2 3 4. Particle size of stream substrate 0 CD1 2 3 5. Active /relict floodplain 0 1 2 3 6. Depositional bars or benches 0 1 © 3 7. Recent alluvial deposits 0 1 ® 3 8. Headcuts 1.5 1 1 2 3 9. Grade control 1 0.5 1 1.5 10. Natural valley 0 0.5 1 1. 11. Second or greater order channel No = 0 Yes C= 3 ° artificial ditches are not rated; see discussions in manual R I-tvriminnv /Ciihfnfal = 10 1 12. Presence of Baseflow 0 1 2 3 13. Iron oxidizing bacteria 0 1 2 3 14. Leaf litter 1.5 1 0.5 0 15. Sediment on plants or debris 0 0.5 21. Aquatic Mollusks 1.5 16. Organic debris lines or piles 0 0.5 1 1.5 17. Soil -based evidence of high water table? No = 0 Ye = 3 r` Pinlnnv /Q"Kfnfnl = \ t 1 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 1 3 21. Aquatic Mollusks 0 1 2 3 22. Fish 0 0.5 1 1.5 23. Crayfish 0 0.5 (12 1.5 24. Amphibians 0 0.5 1 1.5 25. Algae 0.5 1 1.5 26. Wetland plants in streambed DYE- FACW = 0.75; OBL = 1.5 Other = 0 •perennial streams may also be identified using other methods. See p. 35 of manual. Notes: Sketch: A. Geomor holo Subtotal = Absent Weak Moderate Strong 1a. Continuity of channel bed and bank 0 1 2 3 2. Sinuosity of channel along thalweg 0 1 2 3 3. In- channel structure: ex. riffle -pool, step -pool, ripple -pool sequence 4. Particle size of stream substrate 0 0 1 1 2 2 3 3 5. Active /relict floodplain 0 1 2° 3 6. Depositional bars or benches 0 1 2 3 7. Recent alluvial deposits 8. Headcuts 0 1 _ 1 2 2 3 3 9. Grade control 10. Natural valley =0- 0 0.5 0.5 1 1 1.5 1.5 11. Second or qreater order channel No 0 Yes = 3 artificial ditches are not rated; see discussio in manual 12. Presence of Baseflow 0! -- - 1 2 3 13. Iron oxidizing bacteria '0' 1 2 3 14. Leaf litter 1.5 1 X0.5 0 15. Sediment on plants or debris 0 0.5 1 1.5 16. Organic debris lines or piles 1 0 0 1 1 1.5 17. Soil -based evidence of high water table? No Yes 3 C. Biolo Subtotal = ' . F __) 18. Fibrous roots in streambed 3 - 2 -- - 1 - 0 19. Rooted upland plants in streambed 3 2 0 20. Macrobenthos (note diversity and abundance) 21. Aquatic Mollusks 0 0 1 1 2 2 3 3 22. Fish 0 0.5 1 1.5 23. Crayfish 0 0.5 1 1.5 24. Amphibians 0 .5 1 1.5 25. Algae 0.5 1 1.5 26. Wetland plants in streambed FACW = .75; OBL = 1.5 Other = 0 "perennial streams may also be identified using other methods. See p. 35 of manual. Notes: Sketch: WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Project/Site: W 01 ,M City/County: Sampling Date: ApplicantlOwner: WW p K-W � State: IJC- Sampling Point: w Z 3 Investigator(s): L-D 1 Z10b 1T4 K_ 1� —" I�� � Section, Township, Range: Landfonn (hillslope, terrace, etc.): �1� J*ft-in o�X litzS�►'�ocal relief (concave, convex, none): C OYl Cct\-r� Slope Subregion (LRR or M1Q LR,A): p� ,, l Lat: Long: Datum: W Soil Map Unit Name: 4A V S" � on—y" NWI classification: PFO G 1 � 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? (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 Wetland? Yes No Wetland Hydrology Present? Yes No Remarks: uv,� -P ood�,p�u'r1 0- l.O D� CXCC-6c oyk VJ-Wat ud Wq a & WZLP - l a" Co HYDROLOGY Wetland Hydrology Indicators: Primary Indicators (minimum of one is recuired: check all that apply) X Surface Water (Al) _ True Aquatic Plants (814) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Water Marks (131) _ Presence of Reduced Iron (C4) _ Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Drift Deposits (63) _ Thin Muck Surface (C7) _ Algal Mat or Crust (84) _ Other (Explain in Remarks) _ Iron Deposits (65) _ Inundation Visible on Aerial Imagery (137) _ Water- Stained Leaves (89) _ Aquatic Fauna (613) _ Surface Soil Cracks (86) _ Sparsely Vegetated Concave Surface (138) _ Drainage Patterns (610) _ Moss Trim Lines (1316) _ Dry- Season Water Table (C2) _ Crayfish Burrows (C8) _ Saturation Visible on Aerial Imagery (C9) Stunted or Stressed Plants (D1) Geomorphic Position (132) _ Shallow Aquitard (D3) Microtopographic Relief (D4) _ FAC- Neutral Test (D5) Surface Water Present? Yes X No Depth (inches): Water Table Present? Yes No Depth (inches): Saturation Present? Yes No Depth (inches): Wetland Hydrology Present? Yes x No includes capillary fringe) Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: (NUVIl� Remarks: h�� �b�d US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version VEGETATION (Four Strata) - Use scientific names of plants. Tree Stratum (Plot size: ) % Cover Species? Status 2. &ttkA0. n yli rt4�d'- Ltd -� 3. l � YLtA S efl V'UX.I� JV ,16 4. �` 5. 6. 7. B. " = Total Cover Sapling /Shrub Stratum (Plot size: ) 1. t - 3. I 4. 5. 6. 7. 8. 9. 10. ZD = Total Cover Herb Stratum (Plot size: 1. Sf'i!pSrdS /Oy XitS GvJ 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. Sampling Point: ?,-3 Lo Number of Dominant Species That Are OBL, FACW, or FAC: (A) Total Number of Dominant Q Species Across All Strata: y (B) Percent of Dominant Species That Are OBL, FACW, or FAC: �d (A/B) Prevalence Index worksheet: Total % Cover of, Multiply by: OBL species '-- x 1 = - FACW species I `( d x 2= 3 SU FAC species -zoo x 3= Co 0T0 FACU species -- x4= UPL species x 5 = Column Totals: Y1 o (A) �I $ D (B) Prevalence Index = B/A = 2 S� Hydrophytic Vegetation Indicators: _ 1 - Rapid Test for Hydrophytic Vegetation 2 - Dominance Test is >50% 7� 3 - Prevalence Index is 53.0' _ 4 - Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) _ Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling /shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb -All herbaceous (non- woody) plants, regardless of size, and woody plants less than 3.28 ft tall. 12. = Total Cover Woody vine - All woody vines greater than 3.28 ft in Woody Vine Stratum (Plot size: ) height. d D (Qey 2. i GZl0. iCL O(?c�t.I`CA &A 3. -i-� 4. 5. 6. or on a 6u,v� )Pe+-- CAS "p(+ 10 = Total Cover Hydrophytic Vegetation Present? Yes x No US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version SOIL Profile Description: (Describe to the depth needed to document the indicator or Sampling Point: U, -3 t y Depth Matrix Redox Features (inches) Color moist % Color moist % Tvoe Loc Texture Remarks 0-14 W `t'R 5 I 85 t0-? IZ 5/LP TL did Hydric Soil Indicators: _ Histosol (Al) _ Histic Epipedon (A2) _ Black Histic (A3) _ Hydrogen Sulfide (A4) _ Stratified Layers (A5) _ 2 cm Muck (A10) (LRR N) _ Depleted Below Dark Surface (A11) _ Thick Dark Surface (Al2) _ Sandy Mucky Mineral (S1) (LRR N, MLRA 147, 148) _ Sandy Gleyed Matrix (S4) _ Sandy Redox (S5) _ Stripped Matrix (S6) Type: Depth (inches): Sand Grains. ZLocation: PL =Pore Lining, M= Matrix. Indicators for Problematic Hydric Sol _ Dark Surface (S7) _ Polyvalue Below Surface (S8) (MLRA 147,148) _ Thin Dark Surface (S9) (MLRA 147,148) _ Loamy Gleyed Matrix (F2) Depleted Matrix (F3) _ Redox Dark Surface (176) _ Depleted Dark Surface (F7) _ Redox Depressions (F8) _ Iron- Manganese Masses (1712) (LRR N, MLRA 136) _ Umbric Surface (F13) (MLRA 136, 122) _ Piedmont Floodplain Soils (1719) (MLRA 148) R 0 re_&fy Cf1, v-e b1W _ 2 cm Muck (A10) (MLRA 147) _ Coast Prairie Redox (A16) (MLRA 147, 148) _ Piedmont Floodplain Soils (F19) (MLRA 136, 147) _ Red Parent Material (TF2) _ Very Shallow Dark Surface (TF12) _ Other (Explain in Remarks) 3Indicators of hydrophytic vegetation and wetland hydrology must be present, unless disturbed or problematic. Hydric Soil Present? Yes f No US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Project/Site: V J C1 FY Y 1p /� City/County: W(�IL Sampling Date: w Applicant/Owner: u tl-M ,1 State: �C Sampling Point: W2--3 Investigator(s): Lb tJoa[E ,KY-�1iY,�C .,n CSZ Section, Township, Range: Landform (hillslope, terrace, etc.): Local relief (concave, convex, none): C5K LI-E Slope ( %): 0'y Subregion (LRR or MLRA): Lat: Long: Datum: Soil Map Unit Name: w L -P.k � Lt l ba—yy- NWI classification: p'F_d J-C Are climatic / hydrologic conditions on the site typical for this time of year? Yes K No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes 4 No 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 X No X Is the Sampled Area Hydric Soil Present? Yes No within a Wetland? Yes No Wetland Hydrology Present? Yes No X Remarks: 4UL,Aj 5S HYDROLOGY 1-2-4 k; 'Lv- eUUah,cm � Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136) _ Surface Water (Al) _ True Aquatic Plants (614) _ Sparsely Vegetated Concave Surface (138) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (1310) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (816) _ Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) _ Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) _ Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) _ Iron Deposits (135) Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (133) _ Water- Stained Leaves (139) _ Microtopographic Relief (D4) _ Aquatic Fauna (1313) _ FAC- Neutral Test (D5) Field Observations: Surface Water Present? Yes No Depth (inches): Water Table Present? Yes No X Depth (inches): Saturation Present? Yes No K Depth (inches): Wetland Hydrology Present? Yes No l� includes capillary fringe) Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: �n In Y O ' 1 lN' v� V b— US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: 2l3 U US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot size: ) P % Cover Species? Status -r-- Number of Dominant Species q 1. 11w S 1" _L_ �j 0p0 That Are OBL, FACW, or FAC: U (A) 2' �C3 �S �Fl) -t"- 3. Liq u, GJ Sh4r& G _rte{ 6S f Total Number of Dominant Species Across All Strata: (B) 4. T .S V t� L Percent of Dominant Species coq 5. That Are OBL, FACW, or FAC: U 4 (A/B) 6. 7 Prevalence Index worksheet: Total % Cover of: Multiply by: OBL species - x 1 = .--. 8. �U =Total Cover Sapling /Shrub Stratum (Plot size: ) FACW species - x2= - 1. AC9,4- FAC species 2q0 x 3 = 2. 3D VA} C+ FACU species 30 x4= 120 UPL species '--- x5= "- Column Totals: 3 (A) �� (B) Prevalence Index = B/A = 3.09 3. TIYX, D 2l) 4. RN-410!& S�✓0`�'l�filo�_ 2!i C.t�l 5. 6. 7 Hydrophytic Vegetation Indicators: - 1 - Rapid Test for Hydrophytic Vegetation 8 J� 2 - Dominance Test is >50% 9. - 3 - Prevalence Index is 53.0' 10. - 4 - - Morphological Adaptations' (Provide supporting =Total Cover data in Remarks or on a separate sheet) Herb Stratum (Plot size: ) I. Poacea� l&O \1 - - Problematic Hydrophytic Vegetation' (Explain) 2. 'Indicators of hydric soil and wetland hydrology must 3• be present, unless disturbed or problematic. 4. Definitions of Four Vegetation Strata: 5. Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of 6 7. height. 8. Sapling /shrub - Woody plants, excluding vines, less 9• than 3 in. DBH and greater than 3.28 ft (1 m) tall. 10. Herb -A[ herbaceous (non - woody) plants, regardless of size, and woody plants less than 3.28 ft tall. 11. 12. Woody vine - All woody vines greater than 3.28 ft in 5 = Total Cover Woody Vine Stratum (Plot size: ) height `' /( -- -__ttt --- 2. f b IZ.I�r�OC.,I , `I`0. Loo �s ril G 3. Hydrophytic Vegetation 4. 5. 6. Present? Yes %� No J = Total Cover Remarks: (Include photo numbers here or on a separate sheet.) V10 dt i spt A 01- S l k�d,ra�Iti t�R►'� US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version SOIL Sampling Point: W 2- 3 U 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 % Tvoe Loc Texture Remarks 0- 13 IDYe s 9s jv1p s& �S C M o IW," -- Hydric Soil Indicators: Indicators for Problematic Hydric Soils': _ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147) _ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147,148) _ Coast Prairie Redox (A16) _ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148) _ Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (1719) _ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147) _ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (176) _ Red Parent Material (TF2) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12) _ Thick Dark Surface (Al2) _ Redox Depressions (F8) _ Other (Explain in Remarks) _ Sandy Mucky Mineral (S1) (LRR N, _ Iron - Manganese Masses (1712) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 'Indicators of hydrophytic vegetation and _ Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) unless disturbed or problematic. Type: Depth (inches): Hydric Soil Present? Yes No X t no In c- 5,6 'cars o ��nre� US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont � � q,� ^ Project/Site: WCG��/� � City/County: WaUcz Sampling Dale: Applicant/Owner: WVU -W(LF State: �JC Sampling Point: iiU 3^ Investigator(s): L U I� TC , KLbX&41LC-Q- Section, Township, Range: Landform (hillslope, terrace, etc.): r)C-%AX- Local relief (concave, convex, none): CO" CR.y-Q Slope ( %): -Z- Subregion (LRR or MLRA): Lat: Long: Datum: Soil Map Unit Name: Am ow3 +a ,Kz ta NWI classification: A Are climatic / hydrologic con itions 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? (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 X No Is the Sampled Area Hydric Soil Present? Yes No within a Wetland? Yes No Wetland Hydrology Present? Yes �_ No Remarks: vicRaAJ W rliw l Y> VNR.Qp Qa -,.-A b L,4, 0-Cf Q.xta- W4 HYDROLOGY Wetiand Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (86) Surface Water (Al) _ True Aquatic Plants (614) _ Sparsely Vegetated Concave Surface (138) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) — Drainage Patterns (1310) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) _ Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) _ Sediment Deposits (82) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) _ Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) Stunted or Stressed Plants (D1) _ Iron Deposits (135) _.Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (133) _ Water - Stained Leaves (139) ` Microtopographic Relief (134) _ Aquatic Fauna (813) _ FAC- Neutral Test (135) Surface Water Present? Yes J' No Depth (inches): 2 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: as c ITyt,�`vL(.� es d own �►�ed�' � we � ( 9 d e, US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version VEGETATION (Four Strata) - Use scientific names of plants. Tree Stratum (Plot size: ) 1. t'1 +"-S fa c dL- 2_3tAuAg, Absolute Dominant Indicator % Cover Species? Status 40 1A-c 30 3. A C e e 4. Multiply by: f 5. -" FACW species )) D 6. 2?U FAC species 255- 7. 'IC S FACU species '- 8. UPL species Sapling /Shrub Stratum (Plot size: 1.'1 ru t.S +AxA0.. 20 ) = Total Cover pfi- C- 2. Acar �.�.rwr,� ZD � _FOC ,�J 3. Ljr , ue6�4,vc.cbcti' ,5 11'I.c r d. 4. G.uii US CA,,Otin-� t D ID tct& FACt .� EA-< 5. 6. 7. 8. 9. 10. Herb Stratum (Plot size: ) 1. S aSrt CS 2. �u v� cu c e su 3. _ 30 L�. Q - LtD = Total Cover - ye5 WW vGf� rp cwir �- 4. 5. 6. 7. 8. 9. 10. 11. 12. Woody Vine Stratum (Plot size: 1. 3rVU' 1 &y- 2. Lan C4,-m 3. 45 ) 5o = Total Cover VCS S is 4. 5. 6. S = Total Cover photo numbers here or on a +r --ees Y", C"v Sampling Point: W 3-'f LX) Dominance Test worksheet: Number of Dominant Species That Are OBL, FACW, or FAC: LO (A) Total Number of Dominant Species Across All Strata: to (B) Percent of Dominant Species That Are OBL, FACW, or FAC: 1O (A/B) Prevalence Index worksheet: Total % Cover of: Multiply by: OBL species -' x 1 = -" FACW species )) D x 2 = 2?U FAC species 255- x 3 = 'IC S FACU species '- x 4 = UPL species x 5 = Column Totals: 3 (PS (A) 985 (e) Prevalence Index = B/A = Z • -:�O _ 1 - Rapid Test for Hydrophytic Vegetation 2 - Dominance Test is >50% )� 3 - Prevalence index is 53.0' _ 4 - Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) _ Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling /Shrub - Woody plants, excluding vines, less than 3 in. thBH and greater than 3.28 ft (1 m) tall. Herb -.All herbaceous (non- woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vine - All woody vines greater than 3.28 ft in height. Hydrophytic Vegetation Present? Yes No US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version SOIL Profile or confirm the absence Sampling Point: VV Depth Matrix Redox Features _ Hlstic Epipedon (A2) (inches) Color (moist) % Color (moist) % Tvoe Loc Texture Remarks 0-12 toy 41 I 9 O ID YR 514 5 RM TL rear,( l ou hj�L_ _ Stratified Layers (A5) Depleted Matrix (F3) (MLRA 136, 147) Hydric Soil Indicators: 2Location: PL =Pore Lining, M= Matrix. Indicators for Problematic Hydric _ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147) _ Hlstic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16) _ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147,148) (MLRA 147, 148) _ Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) Depleted Matrix (F3) (MLRA 136, 147) _ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12) _ Thick Dark Surface (Al2) _ Redox Depressions (178) _ Other (Explain in Remarks) _ Sandy Mucky Mineral (S1) (LRR N. _ Iron - Manganese Masses (1712) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbdc Surface (F13) (MLRA 136, 122) 'Indicators of hydrophytic vegetation and _ Sandy Redox (S5) _ Piedmont Floodplain Soils (1719) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes X No US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version 1i I (� WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Project/Site: W C1 r�,� i City/County: Ol. Sampling Date: Alp 9-r Applicant/Owner: W F State: �C-- Sampling Point: Investigator(s): L ,C7 cA Section, Township, Range: ' II /�� Landfonn (hillslope, terrace, etc.): Local relief (concave, convex, none): eW CALAC Slope ( %): - Z Subregion (LRR or MLRA): Lat: Long: Datum: Soil Map Unit Name: loa-4, t NWI classification: o GQ Are climatic / hydrologic conditgns on the site typical for this time of year? Yes K- No (If no, explain in Remarks.) \/ Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes Y, No 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 �( Hydric Soil Present? Yes No )L within a Wetland? Yes No ` Wetland Hydrology Present? Yes No Remarks: cei, c., a v-er a-r- (a bo ,J HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (86) _ Surface Water (A1) _ True Aquatic Plants (814) _ Sparsely Vegetated Concave Surface (88) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (810) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Unes (B16) _ Water Marks (81) _ Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) _ Sediment Deposits (82) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) _ Drift Deposits (B3) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (84) _ Other (Explain in Remarks) Stunted or Stressed Plants (D1) _ Iron Deposits (85) _Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (87) _ Shallow Aquitard (D3) _ Water - Stained Leaves (89) _ Microtopographic Relief (D4) _ Aquatic Fauna (813) _ FAC- Neutral Test (135) Field Observations: Surface Water Present? Yes No X 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: i0AS- Remarks: ,A ^ US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: W5A U 7. Absolute Dominant Indicator Dominance Test worksheet: 1 -Rapid Test for Hydrophytic Vegetation 8. Tree Stratum (Plot size: ) % Cover Species? Status Number of Dominant Species 9. V 01- C That Are OBL• FACW, or FAC: (A) 2. Ac'r '~ �'� �'` 25 = Total Cover 3. U61 ! �tYMti ct G s - - - -FA-r- QS ��' Number of Dominant Species Across All Strata: a (B) u be present, unless disturbed or problematic. 4. 4. Percent of Dominant Species p y % 5. 5. That Are OBL, FACW, or FAC: l • (A/B) 6. more in diameter at breast height (DBH), regardless of 7. Prevalence Index worksheet: height. 7. 8. Total % Cover of: Multiply bv: 8. Z a =Total Cover OBL species - xi = - than 3 in. DBH and greater than 3.28 ft (1 m) tall. Sapling /Shrub Stratum (Plot size: ) FACW species x 2 = Herb -All herbaceous (non - woody) plants, regardless 11. 1 {t KA S sm-C Lci 3y 1ll5 �"C- FAC species 2$ D x 3 = S Li O 2 UQ V It 5 -j`e- 44+64- FACU species $ O x 4= UPL species - x 5 = 320 -v 3. ��f✓� 60. CR Z�� i-/i G - helghL Woody Vine Stratum (Plot size: ) Column Totals: (eU (A) I le 1) (B) 4 2. 5. (40 ''t 4. Prevalence Index = B/A 5. 6. Vegetation Present? Yes No 6 7. 1 -Rapid Test for Hydrophytic Vegetation 8. 2 - Dominance Test is >50% 9. _ 3 - Prevalence Index is s3.0' 10. _ 4 - Morphological Adaptations' (Provide supporting = Total Cover data in Remarks or on a separate sheet) Herb Stratum (Plot size: ) � � I. fC10 9D xS FA Ctt f- _ Problematic Hydrophytic Vegetation (Explain) 'Indicators of hydric soil and wetland hydrology must 2. CCPASL S ✓b0 3• be present, unless disturbed or problematic. 4. Definitions of Four Vegetation Strata: 5. Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or 6 more in diameter at breast height (DBH), regardless of 7. height. 8. Sapling /shrub -Woody plants, excluding vines, less 9. than 3 in. DBH and greater than 3.28 ft (1 m) tall. 10. Herb -All herbaceous (non - woody) plants, regardless 11. of size, and woody plants less than 3.28 it tall. 12. Woody vine - All woody vines greater than 3.28 ft in l D =Total Cover helghL Woody Vine Stratum (Plot size: ) 2. OVNt ILEX I fLL,V 17fV�it (40 ''t 4. Hydrophytic 5. Vegetation Present? Yes No 6 = Total Cover Remarks: (Include photo numbers here or on a separate sheet.) i0 UAX� I L) rte` CA-`°P(d "G Struv(- �I��Irh�c (FA-Cw o4-0�)L 5r6-e.S d.a�irt�� US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version SOIL Sampling Point: W 3—`1 l.{ 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 'Type: C= Concentration, D= Depletion, RM= Reduced Matrix, MS= Masked Sand Grains. 2Location: PL =Pore Lining, M= Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Soils': _ Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147) _ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147,148) _ Coast Prairie Redox (A16) _ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147,148) (MLRA 147, 148) _ Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147) _ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (fF12) _ Thick Dark Surface (Al2) _ Redox Depressions (F8) _ Other (Explain in Remarks) _ Sandy Mucky Mineral (S1) (LRR N, _ Iron - Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 'Indicators of hydrophytic vegetation and _ Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) unless disturbed or problematic. Type: Depth (inches): Hydric Soil Present? Yes No K marks: yw 0-sty) C' `-% v,.e 1(lc1.11' OUrI� -er US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Project/Site: A �' rA City/County: W R,6 Sampling Date: }N lI ApplicantlOwner: tVJ W (L W I�F State: N) C- Sampling Point: L D 5 Investigator(s): t �D t-� 1< AYYa ✓t C2— �ySeection, Township, Range: Landfonn (hillslope, terrace, etc.): d 9f ra`s iaYl oVX i;ClL b�'lbcal relief (concave, convex, none): C Qn (%Li V'f- Slope ( %): 1Z- Subregion (LRR or MLRA): Lat: Long: D turn: Soil Map Unit Name: �Ot10 �II�- K�.c -� �0 NWI classification: to �{ Are climatic / hydrologic conditions on the site typical for this time of year? Yes X No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes X No 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 Hydric Soil Present? Yes No within a Wetland? Yes No Wetland Hydrology Present? Yes �_ No Remarks: ©�n ► a rn� �s, u� e v-) 3 A HYDROLOGY Wetland Hydrology Indicators: Primary Indicators (minimum of one is required; check all that apply) Surface Water (Al) _ True Aquatic Plants (814) _ High Water Table (A2) _ Hydrogen Sulfide Odor (C1) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Water Marks (B1) _ Presence of Reduced Iron (C4) _ Sediment Deposits (82) _ Recent Iron Reduction In Tilled Soils (C6) _ Drift Deposits (83) _ Thin Muck Surface (C7) Algal Mat or Crust (84) _ Other (Explain in Remarks) _ Iron Deposits (85) _ Inundation Visible on Aerial Imagery (87) _ Water- Stained Leaves (89) _ Aquatic Fauna (B13) Field Observations: I^ Surface Water Present? Yes x No Depth (inches): W Water Table Present? Yes No Depth (inches): _ Surface Soil Cracks (86) _ Sparsely Vegetated Concave Surface (88) _ Drainage Patterns (810) _ Moss Trim Lines (816) _ Dry- Season Water Table (C2) _ Crayfish Burrows (C8) _ Saturation Visible on Aerial Imagery (C9) _ Stunted or Stressed Plants (D1) _ Geomorphic Posltion (D2) _ Shallow Aquitard (D3) _ Microtopographic Relief (D4) _ FAC- Neutral Test (D5) Saturation Present? Yes No Depth (inches): Wetland Hydrology Present? Yes X No Describe Recorded Data (stream gauge, monitoring well, V1 DWJ - h� 4 m I a� w�'c� rs ob�rve� US Army Corps of Engineers if available: Eastern Mountains and Piedmont - Interim Version VEGETATION (Four Strata) - Use scientific names of plants. (Plot size: ) 1. 2. 3. 4. 5. 6. 7. 8. Sampling Point: WL4-S u1 % Cover Species? Status Number of Dominant Species That Are OBL, FACW, or FAC: S (A) Total Number of Dominant 5 Species Across All Strata: (B) Sapling /Shrub Stratum (Plot size: 1. ar t 2. �:0.CGLU yiS ` &6 f- U a 3. ) U 0 '15 = Total Cover ppS C� ` I PC Ffl C 0 a. Ca•r„nus carUlavt iana_ 5. c 6. 7. e. 9. 10. Herb Stratum (Plot size: ) 1. 'S" CAA S e 4 sus 2. V-bk&% a,faU. t tS 2 O 85 I S = Total Cover cj 1rALNF �r o �R Dui 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. Woody Vine Stratum (Plot size: 1. ntitAA�c t`p A.v��l_f�0�0. ) ) 00 = Total Cover yes F/J-G 2. 3. 4. 5. 6. _ = Total Cover Percent of Dominant Species That Are OBL, FACW, or FAC: 160 (A/B) Prevalence Index worksheet: Total % Cover of: Multiply by: OBL species - x 1 = FACW species 3- x2= _I -:�Q FAC species ZOO x3= (P bD FACU species 15 x4= Lo0 UPL species -" X5= - Column Totals: 300 (A) 330 (B) Prevalence Index = B /A= 1• }-7- Hydrophytic Vegetation Indicators: _ 1 - Rapid Test for Hydrophytic Vegetation 2 - Dominance Test is >5o% 3 - Prevalence Index is 53.0' _ 4 - Morphological Adaptations' (Provide supporting data In Remarks or on a separate sheet) _ Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling /Shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb - All herbaceous (non - woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vine - All woody vines greater than 3.28 it in height. Hydrophytic Vegetation Present? Yes No lude photo numbers here or on a separate sheet.) � C ta.� N A C p I/ylil � aw- by a ur d s�v�Q ems US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version SOIL Sampling Point: W —S' W Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix (inches) Color (moist) % Redox Features Color moist % Tyoe Loc Texture Remarks o' 1 Z loyR 5/I 90 tD% sq 10 12M PL hU, 0 'Type: C= Concentration, D =De letion, RM= Reduced Matrix, MS= Masked Sand Grains. ZLocation: PL =Pore Lining, M= Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Soils': Histosol (Al) _ Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147) _ Hlstic Eplpedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147,148) _ Coast Prairie Redox (A16) _ Black Hlstic (A3) _ Thin Dark Surface (S9) (MLRA 147,148) (MLRA 147, 148) _ Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (1719) _ Stratified Layers (A5) X Depleted Matrix (173) (MLRA 136, 147) _ 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (176) _ Red Parent Material (TF2) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12) _ _ Thick Dark Surface (Al2) _ Redox Depressions (F8) _ Other (Explain in Remarks) _ Sandy Mucky Mineral (S1) (LRR N, _ Iron - Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) 'Indicators Sandy Gleyed Matrix (S4) _ Umbric Surface (1713) (MLRA 136, 122) of hydrophytic vegetation and _ Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ _ Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (if observed): Type: h Depth (inches): Hydric Soil Present? Yes No US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont ProjectlSite: Vv v�—M City/County: Vyal�j— Sampling Date: Platy Applicant/Owner: Vy W KW KF State: �C-- Sampling Point: W4 —S Investigator(s): Lbi e b o lk , K,i t r r ain Ck.. Section, Township, Range: Landform (hillslope, terrace, etc.): � r- 540'p— Local relief (concave, convex, none): Slope Subregion (LRR or MLRA): Let: Long: Daturp: Soil Map Unit Name: -v�Q— O NWI classification: !� Are climatic/ hydrologic conditions on the site typical for this time of yea Yes X/'_ No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes L No 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 X No Is the Sampled Area Hydric Soil Present? Yes No X within a Wetland? Yes No Wetland Hydrology Present? Yes No x Remarks: ,,^ ^ VI C4 `rte HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (86) _ Surface Water (Al) _ True Aquatic Plants (814) _ Sparsely Vegetated Concave Surface (88) _ High Water Table (A2) _ Hydrogen Sulfide Odor (C1) _ Drainage Patterns (810) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) _ Water Marks (81) _ Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) _ Sediment Deposits (82) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) _ Drift Deposits (83) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (84) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (Dl) _ Iron Deposits (85) _ Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (87) _ Shallow Aquitard (D3) _ Water- Stained Leaves (89) _ Microtopographic Relief (D4) _ Aquatic Fauna (813) _ FAC- Neutral Test (D5) Field Observations: Surface Water Present? Yes No y` Depth (inches): Water Table Present? Yes No x Depth (inches): Saturation Present? Yes No x 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 Eastern Mountains and Piedmont — Interim Version VEGETATION (Four Strata) - Use scientific names of plants. Absolute Dominant Indicator Tree Stratum (Plot size: ) % Cover Species? Status ^- 1. 2. Li q w cLa- 5 Ci do fALA 3. QUQA- _us 4. 5. 6. 7. 8. 40 =Total Cover Sapling /Shrub Stratum (Plot size: 1. AU-AL o(aa CA l () ✓t y t- 2. //p� i� vy4is fiat 2 0 �_ OTC 3. LG trO i J�.l A S C.,(b ( VU 0..bti0. � s e8 C- 4. Aces Yv bn-j -✓ k 2 S �-AC 5. 6. 7. 8. 9. 10. q_ = Total Cover Herb Stratum (Plot size: ) I. POO.ceP-0- to D �a - 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. IS = Total Cover Woody Vine Stratum (Plot size 1. 5- n..,r.�anL ►'��u.v�f.r {o -Cc:c� t tfC� � �i9-L 2. 3. 4. 5. 6. _ I = Total Cover Remarks: (Include photo numbers here or on a separate sheet.) rft a+LLAy ko,,�0 -6J Awsfi Sampling Point: w4-5 Dominance Test worksheet: Number of Dominant Species That Are OBL, FACW, or FAC: (A) Total Number of Dominant Species Across All Strata: (B) Percent of Dominant Species That Are OBL, FACW, or FAC: I G O (A/B) Total % Cover of: Multiply by: OBL species x 1 = FACW species x 2 = FAC species -7-10 x 3= Le50 FACU species x4= UPL species x 5 = Column Totals: Z-L C7 (A) kV 3q (B) Prevalence Index = B/A = 3-0 Hydrophytic Vegetation Indicators: _ 1 - Rapid Test for Hydrophytic Vegetation C 2 - Dominance Test is >50% Y. 3 - Prevalence Index is s3.0' _ 4 - Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) _ Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling /Shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than 3.28 ft (1 m) tall. Herb - All herbaceous (non- woody) plants, regardless of size, and woody plants less than 3.28 ft tall. Woody vine - All woody vines greater than 3.28 ft in height Hydrophytic Vegetation Present? Yes K No US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version SOIL Sampling Point: W 5- U 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) % Tvne oc Texture Remarks o-ILA 1GN(Z$13 q57 kolK 5/y `5 Rwt PL P Hydric Soil Indicators: RM= Reduced Matrix, MS= Masked Sand Grains. ZLocation: PL =Pore Lining, M= Matrix. Indicators for Problematic Hydric Histosol (Al) Histic Epipedon (A2) Black Histic (A3) _ Hydrogen Sulfide (A4) Stratified Layers (A5) 2 cm Muck (A10) (LRR N) Depleted Below Dark Surface (A11) Thick Dark Surface (Al2) _ Sandy Mucky Mineral (S1) (LRR N, MLRA 147, 148) Sandy Gleyed Matrix (S4) _ Sandy Redox (S5) _ Stripped Matrix (S6) Restrictive Layer (if observed): Type: Depth (inches): Dark Surface (S7) _ Polyvalue Below Surface (S8) (MLRA 147,148) _ Thin Dark Surface (S9) (MLRA 147,148) _ Loamy Gleyed Matrix (F2) Depleted Matrix (F3) _ Redox Dark Surface (F6) Depleted Dark Surface (F7) Redox Depressions (F8) _ Iron - Manganese Masses (F12) (LRR N, MLRA 136) _ Umbric Surface (F13) (MLRA 136, 122) _ Piedmont Floodplain Soils (F19) (MLRA 148) A6 rflfw"' Sr5) l S V1 bf � 3 d"O C- _ 2 cm Muck (A10) (MLRA 147) Coast Prairie Redox (A16) (MLRA 147, 148) _ Piedmont Floodplain Soils (F19) (MLRA 136, 147) Red Parent Material (TF2) Very Shallow Dark Surface (TF12) Other (Explain in Remarks) 'Indicators of hydrophytic vegetation and wetland hydrology must be present, unless disturbed or problematic. Hydric Soil Present? Yes No /_ US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version Attachment 2: Wetland Rating and Stream Assessment ! e_ ts - West Cary Force WETLAND RATING' WORKSHEET (4th VERSION) on 11'1a as W1 14 Project Name: WVV KW RF County. ( alL Nearest Road: Anal Lwt 4 c Date: 1*4 ILIA,,- 201 Wetland Area (ac): p, pq V44— Wetland Width (ft): 304 me of Evaluator(s): 1[ Ct l t�' a bdGi- Wetland M: W ¢ WETLAND LOCATION: ADJACENT LAND USE: (within 1/2 mile upstream, upslope or radius) on sound or estuary, pond or lake 4, � x forested/natural vegetation `j % 7L on perennial stream �t 0 p 4ko-' on intermittent stream -V, d &Y- x agricultural/ urbanized S % x impervious surface % within interstream divide \0 _� Ad scent Special Natural Areas other SOILS: DOMWANT VEGETATION: ` �, " L Soil Series: N W �� ` 1uaL- 1 LkWws W predominantly organic (humus, muck or peat) 2 _(_predominantly mineral (non - sandy) 3 , q wy c -rt predominantly sandy 4 I MRAULIC FACTORS: FLOODING AND WETNESS: freshwater semiperrnanenily to pennenently flooded or inundated brackish seasonally flooded or inundated steep topography intermittently flooded or temporary surface water ditched or channelized no evidence of flooding or surface water total wetland width> 100 feet WETLAND TYPE: (select one)* Bottomland Hardwood Forest Bog/Fen Swamp Forest Headwater Forest 9 Carolina Bay Bog Forest y �•� �� (S C Pocosin Ephemeral Wetland IAi Pinc Savannah Other•. _ Freshwater Marsh * The rating system cannot be applied to salt and brackish marshes or stream channels. DEM RATING WATER STORAGE Z X 4.00 = BANK, SHORELINE STABILIZATION %i X 4.00 = POLLUTANT REMOVAL Z * X 5.00 = (D WILDLIFE HABITAT l X 2.00 = 2 AQUATIC LIFE 1' X 4.00 = � RECREATION/EDUCATION O X 1.00 = 0 TOTAL WETLAND SCORE _ * Add one point if in sensitive watershed and >10% nonpoint disturbance within 1/2 mile upstream, upslope, or radius. WFTT.AND RATING WORKSHFET (4th VERRTON) ITl / w Project Name: VJVJ (LW K F County: W dig, Nearest Road: [?rY.e % Lg WtS Date: 19- AM _0IZpl Wetland Area (ac): > o, Iac,.e— Wetland Width (ft): 35 4:4- me of Evaluator(s): q.yyanCe_, Lb,,tko,14 Wetland ID: W y WETLAND LOCATION: ADJACENT LAND USE: (within I/2 mile upstream, upslope or radius) on sound or estuary, pond or lake ✓ forested/natural vegetation XC on perennial stream i agricultural/ urbanized 25 % on intermittent stream ✓ impervious surface I % within interstream divide Ad t Special Natural Areas other SOIIS: DOMINANT VEGETATION: (; " '' Soil Series: RwAu o $wy�k to" 1 f predominantly organic (humus, diuck or peat) 2 ?Luss X predominantly mineral (non- sandy) 1 3 is ,` u predominantly sandy 4 C `a HYDRAULIC FACTORS: FLOODING AND WETNESS: JF- freshwater semipermanently to permenently flooded or inundated brackish seasonally flooded or inundated steep topography intermittently flooded or temporary surface water ditched or channelized no evidence of flooding or surface water total wetland width > 100 feet WETLAND TYPE: (select one)* Bottomland Hardwood Forest Bog(Fen Swamp Forest Headwater Forest Carolina Bay Bog Forest Pocosin Ephemeral Wetland Pine Savannah Other: �— Freshwater Marsh * The rating system cannot be applied to salt and brackish marshes or stream channels. DEM RATING WATER STORAGE -3 X 4.00 = BANK, SHORELINE STABILIZATION �_ X 4.00 =_ POLLUTANT REMOVAL 3 * X 5.00 = j WILDLIFE II ABUAT 3 X 2.00 = AQUATIC LIFE Z X 4.00 = RECREATION/EDUCATION y X 1.00 = O TOTAL WETLAND SCORE = * Add one point if in sensitive watershed and >10% nonpoint disturbance within 1/2 mile upstream, upslope, or radius. WETLAND RATING WORKSHEET (4th VERSION) ... O R M" It S VV I. Project Name: W Val g W F F County: Wa j Nearest Road: G7rcen. Ley,td Bsi^� Date: !+ zoli Wetland Area (ac): ^2acr[s Wetland Width (ft): 5 -- f# me of Evaluator(s): l; I4vYUA..%,c c, L p; e.too W Wetland ID: W3 WETLAND LOCATION: ADJACENT LAND USE: (wid*1/2 mile upstream, upslope or radius) on sound or estuary, pond or lake —� Z fivested/natural vegetation _�_ % on perennial stream s r7�gricultural/ urbanized to % on intermittent stream impervious surface �_ % I-A-Fja—cL%t within interstream divide Special Natural Areas other SOILS: DOM WANT VEGETATION: / Soil Series: ' Aa S �d 1 viu(s 't'A� predominai4 y organic (humus, muck o peat) 2 Li r _predominantly mineral. (non - sandy) 3 wkdaus sin' predominantly, sandy 4 HYDRAULIC FACTORS: FLOODING AND WETNESS: X freshwater semipermanently to pe[menently flooded or inundated brackish oL seasonally flooded or inundated steep topography intermittently flooded or temporary surface water ditched or channelized no evidence of flooding or surface water total wetland width > 100 feet WETLAND TYPE: (select one)* Bottomland Hardwood Forest Bog/Fen Swamp Forest K Headwater Forest /W-/o Carolina Bay Bog Forest Pocosin Ephemeral Welland Pine Savannah Other. Freshwater Marsh * The rating system cannot be applied to salt and brackish marshes or stream channels. DEM RATING WATER STORAGE X 4.00 = BANK, SHORELINE STABILIZATION d X 4.00 = POLLUTANT REMOVAL 3 * X 5.00 = WILDLIFE HABITAT 3 X 2.00 = AQUATIC LIFE X 4.00 = RECREATION/EDUCATION D X 1.00 = TOTAL WETLAND SCORE * Add one point if in sensitive watershed and >10% nonpoint disturbance within 1/2 mile upstream, upslope, or radius. USACE AID# DWQ # Site # (indicate on attached map) ;,a,; STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information �� for the stream reach under assessment: 1. Applicant's name: WQ.S�'QI(YI SOU Z 2. Evaluator's name: k#MvV , Lbl'-f be t� 3. Date of evaluation: ( 2-0 11 4. Time of evaluation:- 3 -. DO pm S. Name of stream: (AT `f'b Okift 00- Cf t4 6. River basin: CAAC, RA4," 7. Approximate drainage area: 13 QCxC5 8. Stream order: Af 9. Length of reach evaluated: I00f+ 10. County: wit 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if any): n-to. Latitude J✓ (ex 34.872312): , . � T7-8 ON Longitude (ex. — 77.556611): 'f " O .q o T8J 0 E Method location determined (circle): GF5 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): 15. Recent weather conditions: Y `0f ' V1.0 Wr\ I d s� kDU41-_S 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 -M 18. Is there a pond or lake located upstream of the evaluation point. YES NO If yes, estimate the water surface area: 1 Q.Co^e- 19. Does channel appear on USGS quad map? 0 NO 20. Does channel appear on USDA Soil Survey? YES NO 21. Estimated watershed land use: --L% Residential —% Commercial =% Industrial 4 % Agricultural A% Forested —% Cleared / Logged =% Other 22. Bankfull width: 4 �_t _ _ _ __ 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: ,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): 31� Comments: Evaluator's Signature Date 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. STREAM QUALITY ASSESSMENT WORKSHEET " These characteristics are not assessed in coastal streams. Attachment 3: Stream and Wetland - West Cary Force Main UGACE Action ID: G/YW-2005-20159 DVVQ#2OO6-12O3 Supplemental Information, Request for Permit Modification Western Wake Regional Wastewater Management Facilities Attachment B: Apex Site 14 Water & Sewer Extension Policy Attachment 1: Preliminary Jurisdictional Determination Form - Apex Water & Sewer Extension Policy ATTACHMENT PRELIMINARY JURISDICTIONAL DETERMINATION FORM BACKGROUND INFORMATION A. REPORT COMPLETION DATE FOR PRELIMINARY JURISDICTIONAL DETERMINATION (JD): B. NAME AND ADDRESS OF PERSON REQUESTING PRELIMINARY JD: Town of Cary, Contact Person: Jamie Revels C. DISTRICT OFFICE, FILE NAME, AND NUMBER: Wilmington District, AID# D. PROJECT LOCATION(S) AND BACKGROUND INFORMATION: This portion of the Western Wake project is known as the New Hill Water & Sewer Infrastructure. The area is located north of U.S. Highway 1, south of Old U.S. Highway 1, east of proposed Site 14, and west of New Hill Hollemann Road. (USE THE ATTACHED TABLE TO DOCUMENT MULTIPLE WATERBODIES AT DIFFERENT SITES) State: NC County /parish /borough: Wake County Center coordinates of site (lat/long in degree decimal format): Lat. 35 040'19.87" North, Long. 78 056'04.65" West. Universal Transverse Mercator: Name of nearest waterbody: White Oak Creek Identify (estimate) amount of waters in the review area: Non - wetland waters: 1,380 linear feet: 3,105 width (ft) and /or 0.07 acres. Cowardin Class: Riverine Stream Flow: Ephemeral, Intermittent, and Perennial Wetlands: 2.0 acres. Cowardin Class: Forested Name of any water bodies on the site that have been identified as Section 10 waters: Tidal: Non - Tidal: E. REVIEW PERFORMED FOR SITE EVALUATION (CHECK ALL THAT APPLY): ❑ Office (Desk) Determination. Date: ® Field Determination. Date(s): 1. The Corps of Engineers believes that there may be jurisdictional waters of the United States on the subject site, and the permit applicant or other affected party who requested this preliminary JD is hereby advised of his or her option to request and obtain an approved jurisdictional determination (JD) for that site. Nevertheless, the permit applicant or other person who requested this preliminary JD has declined to exercise the option to obtain an approved JD in this instance and at this time. 2. In any circumstance where a permit applicant obtains an individual permit, or a Nationwide General Permit (NWP) or other general permit verification requiring "pre- construction notification" (PCN), or requests verification for a non - reporting NWP or other general permit, and the permit applicant has not requested an approved JD for the activity, the permit applicant is hereby made aware of the following: (1) the permit applicant has elected to seek a permit authorization based on a preliminary JD, which does not make an official determination of jurisdictional waters; (2) that the applicant has the option to request an approved JD before accepting the terms and conditions of the permit authorization, and that basing a permit authorization on an approved JD could possibly result in less compensatory mitigation being required or different special conditions; (3) that the applicant has the right to request an individual permit rather than accepting the terms and conditions of the NWP or other general permit authorization; (4) that the applicant can accept a permit authorization and thereby agree to comply with all the terms and conditions of that permit, including whatever mitigation requirements the Corps has determined to be necessary; (5) that undertaking any activity in reliance upon the subject permit authorization without requesting an approved JD constitutes the applicant's acceptance of the use of the preliminary JD, but that either form of JD will be processed as soon as is practicable; (6) accepting a permit authorization (e.g., signing a proffered individual permit) or undertaking any activity in reliance on any form of Corps permit authorization based on a preliminary JD constitutes agreement that all wetlands and other water bodies on the site affected in any way by that activity are jurisdictional waters of the United States, and precludes any challenge to such jurisdiction in any administrative or judicial compliance or enforcement action, or in any administrative appeal or in any Federal court; and (7) whether the applicant elects to use either an approved JD or a preliminary JD, that JD will be processed as soon as is practicable. Further, an approved JD, a proffered individual permit (and all terms and conditions contained therein), or individual permit denial can be administratively appealed pursuant to 33 C.F.R. Part 331, and that in any administrative appeal, jurisdictional issues can be raised (see 33 C.F.R. 331.5(a)(2)). If, during that administrative appeal, it becomes necessary to make an official determination whether CWA jurisdiction exists over a site, or to provide an official delineation of jurisdictional waters on the site, the Corps will provide an approved JD to accomplish that result, as soon as is practicable. This preliminary JD finds that there "maybe" waters of the United States on the subject project site, and identifies all aquatic features on the site that could be affected by the proposed activity, based on the following information: FA SUPPORTING DATA. Data reviewed for preliminary JD (check all that apply - checked items should 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: Withers & Ravenel. ® 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. 03030004 ® U.S. Geological Survey map(s). Cite scale & quad name: New Hill. ❑ USDA Natural Resources Conservation Service Soil Survey. Citation: ❑ National wetlands inventory map(s). Cite name: ❑ State /Local wetland inventory map(s): ❑ FEMA/FIRM maps: ❑ 100 -year Floodplain Elevation is: (National Geodectic Vertical Datum of 1929) ❑ Photographs: ❑ Aerial (Name & Date): or ❑ Other (Name & Date): ❑ Previous determination(s). File no. and date of response letter: ❑ Other information (please specify): IMPORTANT NOTE: The information recorded on this form has not necessarily been verified by the Corps and should not be relied upon for later jurisdictional determinations. Signature and date of Regulatory Project Manager (REQUIRED) KI Signature and date of person requesting preliminary JD (REQUIRED, unless obtaining the signature is impracticable) SAMPLE Estimated Site Cowardin amount of Class of number Latitude Longitude Class aquatic aquatic resource in resource review area Stream 100 linear feet non- section 10 1 1 0.003 acre — non - wetland Stream 400 linear feet non - section 10 2 0.05 acre — non - wetland Stream 200 linear feet non - section 10 3 0.005 acre — non - wetland Stream 100 linear feet non - section 10 4 0.002 acre — non - wetland Stream 150 linear feet non - section 10 5 0.005 acre — non - wetland Stream 150 linear feet non - section 10 6 0.002 acre — non - wetland Stream 180 linear feet non- section 10 7 0.003 acre — non - wetland Stream 100 linear feet non - section 10 8 0.004 acre — non - wetland Wetland 0.2 acre non- section 10 C — wetland Wetland 1.8 acre non- section 10 D -E — wetland ✓ f4F m ,1 I i 1 1 I PROPOSED PERMANENT SEWER E�\;EMENT PROPOSED. TEMPORARY CONSTRUCMN BOUNDARY PROPOSED - -SM ITAf2Y SEWER r 1� .....PROPOSE -FORCE MFJN PROPOSED WATER II f ` STREAM CRI —SWC \771 7 \ jj) � t 37 i rrvv��vy r 38 313 5 �� v: 35—L- L 4 �� 41111 — T \ �IMie�rri ent� 27i 26 — 30 31 L 32 v i 288L , i V 8 V Fite; rritte t r m. m vy v� L4 t r r � I , X11 i Imarmrctent I 237 1 Y,��.� m-- -- - - I - flyi f'�v \VAS " 21� ',Ir �� 1.2 r� o y.:. 19 �� - n ntermiI .wmw_a .w�1Ei SITE 14' ,r fd 1 14 x:.57 J "-» »mm «.= lk V v a� V I �AvAVA A \rt d't ti s '� 15 N \ 42 C. L i N 3� i� 4lVA�`AVVA�VAAA yi ', ��i 1 r r \ r VlNNV '�A ��AAAVA AAA\ \. \. v " \v 400 200 0 400 SCALE: 1" - 400' April 27, 2011 t^wN Fr .,s URUr�.HC ',. A) ALL WKXR ,, c_3 , IJNE9 si Ak N WSix"' "" A M110WIM OF 3 FETE W COVER, B) MNNTNN 16' MINI- VEFOEW. S-E`A =N eEINE, VfO.PIES (W:10iE n'l-O). D COSUL,mN Nm ROM, INE ENE.,i -11"', F FREEOl{EO G) EFlNILLUSTRm RY RSSMGS PFO4 E.) CONTRAC,OR sNALL EOORo,N U,E3,Y RFIECAVKIN Oft RBANOfWY9l YIi1H ,,,,i_ ,,,, BEM_ES AS REWINFE E.) a ,,, WILL NEI ERENOACH UPOR FWRECED ARFAS OH RLW PPRNLEL TiRWGH MT IFg6RE0 BUFFER. F) PPEVJIT �AFATOH b 10 FEED 1HE , , AIHN MAY, -r F, 5m6F E PPRWICEO iH4T 1'.HmF. E1kYARON OF THE BOTTOM C: THE wR1FR MNN IS AT 119 IN-1FE ABOVE THE roP THE SEWER WRH A HgRZorBAL gPARADON OF AT LFIST ] ffr . G.) q- SiTiNIBMOWle I Sa �O /� A CONNIARRRED WE SIN A IOI N' OFAYPfiIXPNroF�o ME iiF� OFFDiIFt 1 C�'IB FUCnINI� ALL wRPcR p5(ry9IiTIDN EXIEN3IX: PFRYR AY: LICATYJNS X BE ABEON ?FNHD BY A SFA!.D ENGWELR'S REPORT PER TIE TOWN . APIX WAYFR SEWER nStEM NANEEBWEM PEw. PLESE CDMALT NE ENFANk-x , OM9EN AT 249 - 3391 10 o61rY.N 111LTC PEPIHr MIDOATIOxi H.) PRIORITD SLWI D KOR`_ , S`u`OS PpIm hPPRW4L FRDa ''ilE PWYNWG UWSPECTOR WSI RE ETAO D ,NOR V ou"O N" L ll_LI THE IN�SECIIC ?,, BNE'ON At 249 -3418 FOA IkFORIMTIN. I.j SW1 DC'.JR Vlti3 AECVIREP F'ROi"1T:Ol'i'0CER HOsrrQ.l ttLRN10C N Ir;SPECim. 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LPWIS.ANO I]FJiNF1' - `.%� °O MITRES -O N,) NO ME,, OR P-IF MM' FA - MS SR- DE AU9WE0 M BE LWNTEB IN THE CNCU.ATIONS FOR N" BUFFERS, ER ! A.B. IA'ESGNT AREAE 16. SEV "COST PoP G PROFlA�Y• � PROFILE O gS,M-L (APPLY TD Ex" 0052 k LA53) i7. SE i -5 FOR B -E/FUR PROFILE 1. < +• Rs SRNL BE TERLIRAM, BY DTF4'RS, CRTH A NIRE, ,8. NOT M[ FULL JOEIT of FNFF I, ,, PLIG. 19. CIN:IR4CT BRFA15 0WNTRACT 1 i0 TERMIW,R6AIBEViANM; 2 1EE DPAWiNB I W]oi FBI CONTINUATOR of BANN PARNC. RPE ,� Na0 PLW fGR p,YJN LINT. T ROEF - .1mIAV04 DPHN MIL SEE BINOSWAIER 20. CONIRAIT BPFAN FDR LIHM: AL U1Ci PN+N M'o .RAW EET DRAWINGS YANHL4E. F,1RN6X ANC INSTALL FI.IXI6;i CRFlR':GL t CDYNECF Nl DOwN SPOUTS ro ROOF DNNN N;AOE)k SEE GRRER RR fANiItAIOJSLY iD CCNIWCT 2 STRUCi1Rt =. AN.]tl1ECRAEN. IRAN, 21- CAyRW,� 6,IIA9 5E" EIFC!RS"✓A- �AWINGS 5. CINNFLT FWhTNTON DIL MS k ROOF 0!uINS. SEc K ARLMRL -TURN- k ST,RMWATER 0!UWItm3 23. ANU EA05.@i CWYFOL NY Wl.NPALI 1. 6. sEE (1RAWIIL I W101 FOR NI. 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W gy, //--f r'f I y _\ 1 I ^¢ Y. $CE t W, O6 FOA DRAW ?IPMG IN BE CONFROL AFN _ E1flAMM 1'' II a 130 31026 3D 11 y ]I ®. , f\ ( -�' - t o ` �- _ I ". � - ,C �GYE➢ B ,' R QE� OW m �PIXA55-]AR SQE AS A 9 316' a -- 19 78 31tAf - 3,026 `,.:.0 l' C l /('� r` i ' $ < i ^, s: ,6" x'. l ; j �. ANC COIfR+LI 3 A 2 15 121 31 45 31119 / ', 8 i /( 1 //_ , E -_ P EG �'�/ \ 11 CONTRA: BREAK IJNE FDR RP9.0 6TVCFN CONiRA"I i _3 3,4.91 01 .B : l.,� I 2 rfW.- f y ,t iT. FIRE MDNNi,, IYACY_ TD`M; DF nIFX STANIW�. �1 A p [9u u9 23b 00 \� 39 136 29835 2699 /> _ i { i �` 1 I RPEtf, FCx ARE 9 -2 3D5.PA fl . gL 79 MIN .,( 1/ �.' B 'y -..r�� I/ �. SEE I 'M202 G I W206 FON PROCESS FIFYG OEtwL INS 0 Jpt.lO 300.28 1 -'` / �% w P1, 1,; A 1, W ,1 U d e `- / r,. 1 _ DMN-i (oRNN wJmTDli1 "Z DE,oa o.•1 1 ca56 - 30 ?u I h ,'\ S , i :/ .g I1ry, W s' FROM WST- 29T.1' 355,SG m 21 ' ! 1 - 3 71 1 r - } (,' -12 + `� 0 31290 CB 2-0 95 30; ?5 301.10 ),, �Il '_ -- 1 iH WJ \ti\ WM, M 8' PD FRFAI CHEM. 8111u = 2930' \ A '.,/ y $ �f->~,' : 1 /$ / �.� \ I INV. IN a' FR]N FMS = 299.05' B 6 3!5.70 15 tot 308.33 30215 ,P (/ / 5PUU6i Pax \\ /// / - a x% b \� /® `yy l Inv. D- IPE z9]A' 6_f 2< ss 299.69 29I" , _ 1�$ �`.. ,^• 55. I— NAE PIPE CONNECTiCN 0.SSFaeLY: EE ?ROFIIE 31360 1. ,E ,- �/ \/!\ \ I6. SEF i Qi5> FOF 00. PflOR1E e_il 306.,] 11 %% I �� - -: I j { ` 0 r �`• , '�5. :. c A Y , > :I 16. N0, ISE FOR DE/FLR PROFIT£. 8_T3A 30558 91 21 2a 3W.20 .'ao.all ' _i f ` �� 87 303.]7 301.05 ). ,,, y',.� / 19. CON1RALi &LEAK, CO TRACT i U T9iMNAE WM YN.VE 6 -1{ 30610 LD 15 40 3]290 ,'AZJ2 `J ' - '.` - ANC E SNB E' N FL - PPFS — UNES. 6 -15 JO]9D 15 -- ' . J/ PIP mH G 2s Ea9 `,j/ an, ham, �'.'; %' 1. 'h PIPE All AND PWO FOR DWJN LOVES- 8-16 305.25 G _ 319.98 306 BO 1. �Y' i - t. / I 0 -I] 513.60 116 39.99 ' i 20. COI.TRACI FRG!( FOF CHELmP1 oUCi D,wY. M1NC C9 15 I f�( /� f/ �..� It I 1" `'.\ \\ K' MAMIOLC Flaixl4l DND INSFA- FLIXWIE L,RMi.AL ` l _5= ! `l ? lq�.,'.1 ], / l ,v` ?- 1 �'.i��� 21.IIRFC, HtEN(- S�SCiRIC% 01W'�NGi SIRD:NRE. a -16 31350 CD.. ih 2]_.W . ,/ .3 �-��, i -;y %F J Uf ' 11 � r 2';. miBRAG 9flFPK PEMOVC T]APoRAA! BLDA' OR ARo C -, 26400 CB 'I 36 40 aft 'lr±� i I�^1 \ \ LLNNEC, TO 1a- OW WATER TINE. U9N'„ COUPUx AS 30 t90 27]40 2]5.50 1 ,9 ' `I m - J 1 ' �k / ! ® Iv \ q\ NCIDEO. _ [ -3 2890 CB 2q ,64 „ 284.50 1NO.00 C_2 285.W CW I _ J�` ��+ j_ -_ / / wO l \A� •�/ 23, a;MINGAARE ON CUBR.LC FAt6311Es Cut NGNt1 l , C.-4 x9390 15 �4- 28310 2e6.oO� ', ' '' � c , �Tti ✓mss ! A /`\ TD MNNt 306.10 11 ,; D A+ N '�, / - atl l `S- !t EoNsEMCTI,N o INFiUFM FDRCE NNNS. C -5 300.79 230.86 qf. �" `�. \� { ,. ' 2a. 1W5 90 B910s ROfATm UPWARCS t0 NARIE 3T RAS C -6 3 ]O 15 101 1 "� • 1F ,rte! F :t` rit 6 27WJ '� : :�. bvER ALP LWG A°PFt,gLW1E t- OI' IEEV. OF PA, n _ JOSW �. CB 5 t06 '0225 301.19 r.' "t 3a ;.5' C-B 26W CB - 24 13T 2N,N 28SW C4NTRPCT 3' � _ �wa ;'�A IN }j •s 1 - �r '�S �V *;. �',� I 1 26. GAtE VALVE YIIx1 YCFD DPEAAi(1 °. SEE Li -,All IN! t L -9 2^9.50 C5 'I, 24 �280�0 28305 OPERPTitd, f�AiNTENdINGE - - p ;', ♦- _ b xk.m e € N $ AC � l ® j ,,E 1 ENR da zn T tab �UTLQ�N�JS 9 ( h'uw.(i :; ; e r;' 7 ��...: t n. sNmAR+.Fr em. w:n!wu sE; a1aL a: , cew e -n 304.15 I , h n _ 1,F� \ TDP 519.0' 1 C -12 3pa20 JBe 2b 832 292j�j'] 229725 $' (,'I r § : ;7- \ ., INJ. OLR 5 T6 = 31 Z.0 C -,3 305X' J , II -, F `'Y: .$. _ / - ...I , 15 132 29556 29524 '' emu, / - I - °` ~ 18. 4oR -Er'IIE D,Aw Au9FR YON ' 'l2' W3. Ss C - -14 307.0 J3 r' ,f ±' :'ff eJ; 1. '�.. p'i7' J f -t.. - '• 8 l �a ra__ " - `'\ 2B. AfP J'JNC &ON -OFT. SEE OE,;dL q/ i GN94 C -15 306.00 Pv98a' /. -, JE 15 E% 19942 .:l;,W (r - ` FT ;' m�.a, . ,8 r �'w fl- � � \ - 3a. STANDARD 1 1/2' COMMERCW DJIWOR B+LKFID'A - C -16 F5.15 It IS G3 "OOA5 'r ;`& _ I - r : G ,': / V _ 15 19 31157 0 01 PPR 20it L4UF9 FOR BN ;, , =._ a - I w `Y LY. 5 • OEENI9 ON , L016. C =17 OoS,W M 30224 1 I 1111 `.;Y. . )' ! , „' `• ) 4- . /, m '., l - Y 4 - BR6 DRA91 POliI -, 31. SEE IRWS%'Di GONIPAC, 1 (TOWN OF A °EX) PR'u:TIFS. 30695 +B 15 3T6 i i:(i6'! I. i ljr i p ,i r r i { �- _ g4 \: SThnON , yf. 32 SEE , COT/A FUR 42 RS (INtE DETAIL 51E1 -059. C 19 ,5 uce ?0199 C i5 FEE NO, IR'-RS11E FOR AGENCY RVAON &'' /' 1 - '' -, -,_ - f - / _ _ -R `I I' }:. C11EA4lZ,.Ec, MANE Y SEE / C -20 366.55 6 L� / ;/�' / -' / L ff ! l !T { ~.7 r '; `x ` 'N O \ 9 ARR NIN ol,m FEE AGERCY REAR g ! .. f p '1 TORY saama I . _"�p,. ! .- ., .�. - -J7'. ` .: �,"' s4v'"r f< f- - - '/ ., " � vzE54E:: RN P...LV. ° m r _ ; -=-- J _ A 3, JUL 2W0 {EfA6A _. '1 -a. `. `.,.. LVi ANA _ - ..�_ �__ v LT, i a +g - :- _,,. ___ \�..� C6 = GTCF BAS'N/CUae INLn -�- ° WaPEY) iv^hri oF:G.Y_':E'..MTER N) / .♦ c ' : t , . (, Ge' h / _ -_."' ,.± JB JUNMON 80x RO%' IaV P'�li DAT< JE <'P'PON / UNOSCN'E IN' f, �-- `s _- ,�uvz. � - _ _;.. sEr. 6wx,:o3tl t9'r '. , ♦`" $ " 'r 'F 2k l / !a'� vn nER nA r r _ - '' \ IT _ -- s ` =UV PN ATmY. t} �� D BRWRE INRPK Y , EW. NNVcR( _ _ PPP°°'' .,, - f-__ .-s..� ®i, �', .-'" 5`�_''b �.._ --..�/ .,:, ( r.D `N* > - n vrenne - werrucoR ro'ral7 Iw+msmEU rcrrtR<j - - / S Z (Y,q _- id _ : -_.._ : "'. . -.., ', -_ - , %' ,...v I'IL3: :c DIH�SiWGE Nc,EU. I 0 q0 gp' 129' C _ -. `'. d ..r -- - /j /-I- /Y + ,--BplOGllA'R:ALICR \ t. 1:1 SORV PIPET TD 9E CL4OI II:. RC. ". 5 -- -` :._1 ' N; '.' - ." : - ' xH ii' �! `.l , " AASWS (648 }` � \ 1 61RUCFJRES 9HNL PE TO N.'DOI h \D /Ui ,0 %T' OF A c% SANU.PLS. Y m§a _-- �' a -` /. i ce ./"/ r',' `s :`'� �'� �1 a vv cEY -A . .; r \ eSteffn Wake _ - e• w1 (ro»W of n IX) : ' -_..- - _ - a ,. v - 6E , L['41 ri-f j° _ _ ,_ `,, :.. 6- V r - '.a \ 1LD -lty PLnN `JO'iS: �,�N `` ,•... y FOR COrTDHWTR9, .e+- ", I. _ - '/ ���,'i.\ �' ' IFl"k H44TLRY B `� sEC SNE[i , -Gd l FOo UIJn NOES `�\ . \ ��Ai�i'�I a9.er '' w =ajkTz couu +�' S ''\ q:.,. :' sct�iu Plow sAocN , A r'r ,, :�- amm'ZiOr V m z V :y Reclamation Facility 11 �,. �3 , F �, , - - 1 f �s L �. ' � �� M �� *i�- N� ' - `V ', I A, ��/ 11 :� "ate' ji �� 1 LWUREH 84T(9Ff.C„ �\ /,E C7 - � - sWMPUws1AaN1 A w RGL L Wesieee� Wake partners ' ,� \ -� -� , NO. 3 �� I 1 � \ " \ 1 11"i , ,� _, I I , CONTRACT 1 ,A ',, \ V v \f., ���.. ? _ S(fE�CML -� �I PLANT YARD PIPING PLAN @RIDDLE \ ,A t � �,, �. + �r �- �� � v\ °V 'N. /i! a^4 .° v �`\ cam1 I � ,' f ^N' �' f s¢ I wtlz ` /� �I I_.. �� : 11 \ i 4 ,. _ _ - nnc4ns GaM PI µ,a9 c. alN., mE. S� \ �qA ` = �s. A trl /< .v s O� / / wx�n, Nc 27607 .919 -e a -5+59 _ -/- ,` :�'O � \ -. 1..` _,t'v„ ") \Hyc. - -y, `., y�" , / � `\ TeL 419 -6..d -1282 Fat [ 1 I > T , A9 �. �, A _ / �� .�(,_ :w. 1 -I r I 04_ `,,�' � , V', , �.. ,/ ¢fe e r'. WPo - Ail Po, _ _ \,� �\ 5F i, _ �� j �� ASS a, i.' c , 4 -< :_ >' .'`gym. � _ \ ois Ohl fll m . ,e 3oD �\ '., �T � '/` , \a ; : ` ✓\ -) fJ ': y ___ TeL 9 -ra15 -1351 fox: 9i9- 875 -8491 .I N O M. -. - - P< v �A _ - - 1 ` �- _ " \ FX ,, p.m®amm m AWN v,w ` " - - - - �.. o - mow- 5w ;�' / �N a a� - _ _ - { 1 - "� �.� 6 1 8v - J- - �� c,uFl 6CAL OhYIH i i A A '�� -- . �, o_ ..� 577 � \ �', _ a �� n_ ,097 - - ,;< `" \ ma nwHa-TE�:.«>, m. .' .�.., _ .',. , ; _ ry1=MG At71 p T L_E. -.. ". €'IIPU n �c9 I y' � , �..,, -.v ? w _ .WK ♦ -- _ t, Mw_ �. + .i CHMH -7 BUIDIEk. _ _ I` 6� V .v "'-, - v- m° «° -- P wam CONTRACT.. I \<, r I °` �, G STAGING ' i1 i i - I -RlIEL \ /`" i x0i 6 I Pnss � 1, : ) .- 1 - w - - - - _ f1. El R (\ yv \ , I� " a _ r W3 MATCH', LINE 1 0053 _ . 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'E`. 8( Y� cr Ii q i Q _ 19 i--- M i I \ V A. -� j 1, I I a _ _ '-'� a �I - _ I,i- -- p 11 i \ a"`= I ✓ r M1.. 0 aI : 1 � _ I' q s 1Gt 3 "-- - ® , i� iN - - I \.---�-- :. - I -- 1 v �_ - % I j' 1, 2 AI - 5 ® r- \ 1__1 �I 0 ® SF Ft COrlRUFT I J ' • 4 I \ \ ® �E e° ®� ® °_m amc, I �= 1 La ®19 �f ,..,�, ®I I \~ N .s �.. I 1.11: '� EFFLU9R PUMP ® I ,� _ it `�� "�___ _� _ -. \ \ sve fi4'bE , `" '\ \\ .. ,, �' 1 (Br otHEra) „ I,,i ,)_ \� I T I E 51 -wR zon ssu'c➢ FTfit .., B I MP I -- -_ yl I III. 4 .. v, ®. 1 �_ DE ® I STATON� i) -1- r 1- , \ _ I I ® D T2 ECl 2010 1.IM DF A4% FEN,IBIA,IK I 3RL9Ti PU ! ti i \\ 8 ` u ,T�'jrr=•g --� yr ® l . �' , P ` 1 8 c 06 OLT '111 A.pENR {43UW1rt,At 11 A _ -"� "' 0 'S4 9 - - 1 B ME 201E E LOVED FOR AGm RED t -°°-y I v ® 1 I -� y ®_ _ m _ _ _ _ _ m _ ®_ ° _` c_ E ® I - li s R 9, JuL we9 p�UIhTERY SJBkRIN - A ,/ _ O A \ \ ., A -____ - -_ ", - �� m° e y i E� 0 M1I ® FIN_ Isla, AUE aEALnPi10h \ k j` ii i - /y gg �\ '". A ® 'I ,� F , D�>, A e ® --� r 'i` / ,. r ctuPr;a sr+.lF r B °^^IE "'° ,M s, A \ to d'3*` ° * I , ,�'[ 11 �� �\ \ ail` II NI III f,' I® .._(i \ O �'C m ajJ ° - L..,.�r � {e v v ®. II [h a v I ®`' �st�ifC1 Wake \. g� �� z \ \ sI I I�I �, �_- -� ,- i 1 _- q I -= r ,,-- �,- Regional Wafter % V ®I � I% I �\ °, v 1 -I 1, � ® e�1a08+a�i ®�8 �a�i�i y i ii i 1 ~ ,% 11 I® III a qO , � I `i'I I / /8 % � �\ pPEA- TI I // - 8I � \ y` it ie \ , ' (; \ 1°\ Liu t° \ / aQ Ms " A .� -.� �$� -L . �� ®m_ ®_ °_ ®� �� .�°+.� � A q � F � �� -'�a °� � Western Wake Partners Mmm_ ®_ ®m® ®m ` Oy. ,OE. (APPLY TO 00.51 ONE h CAE3) \ ® "�- 4�` - �' _.ice qp 9 TIFF _ DRAINAGE SCHEDULE - - - -- I • 5[fE %CML DUriW51REAlA PILE CAT' , a7 as w�: eE'EZMIwaED DY m:9RS wm+nvALY� \ ® ,.,.1 ® ®m__® .y Si}<UC K )_A� Z JOW OF PIP h PJ yw (I`' PSOUROE -DNsFF,wR \ __ - _- OE LENam IIPAR6b1 W+E W' I SE DRAWING . W]D `ER m 11,1'mBN OF oRm'N PI'MG J,'�AWEA, Trr_ a B , PLANT' YARD PIPING PLAN SOUTH NR NM - cI1L IFi` INJd3, OA ErR, 3. Rbb DRAPII OUNDi` -WN DIL4N 11H. :.ci S,O3lfMAiTs I � ,i FL`VATON. 3 as -6 3;B 9C INWf.AG. (FFJ+Wih 5 I , A �� 1, 31650 CI 10 E.9�1 j1 B . �� 3iY.0E BI IB 76 31114 31636 A. gFWEC, Pll oOWTi SP0.15 To RCOF D dH iiFAOFR, / r'"1 01 15 121 31216 311?9 _ PRCr1FiECD9iM- 0RWA1NG3 F, ® A . p_3 310.90 5 ARCHDELNRPL,t RMW THiBDftWN!'u15• 3 `* 0 0 1 314.50 11 3A5 99 2B399 296 DC SE_ DRAWING i Wia1 F0.5 P.. CON ELT0.m i0 U\\ s, _- -a"�y�* c 296 u PR91M NNt' 1P:A�MENF M1 - i 9 -2 3059E >t �µ RH97. 1 29531 r SE BIOW""wAL REACiOF firSW DRA.G FOR COM:IUATON _ ® ®m _ _ e-3 38550 O - 7-30819 OF l'NFiiICA- PIP"1C p� ° ® % D -4 3O.w`0 DI 24 81 3E 10 N. SE 1 Cox k 1 LpES FD0. TTE =. UJL FE PE Nm II B_5 312.50 C_ 2i a5 ,0195 JOt 0 P W0. PROFII� ARCADE ChM of NorN Ca b,.. Nc o-6 31'?C CD 1B 3C 30275 AE�3 SEE i W 05 FOR GRNN ,PING IN OOOP COMF:N. AAA ® b\ L!- I 801 CmP ^mle Cemr Drfx. Sde 3to a-7 315.60 CB 3UB� ID. WFI ER E,EP k BnBNEEE PflYMi ER `ASENNLY SIZE FS �� l Rp7egh. NG 17607 JD F- 24 9S, 299.80 X96 ' w.. 9Y PIPE SIZE ,G; OF Mr]l S,AND*NS ,® V I 819-654-1292 Foz 919- 854 -R-o P -13 JCb.P 2a 3PT1O 300 W 11. EONIRALT BPJ,N UN_ FOA PCWG BErvfcTrl LCNTHM."i 1 , ( _ vrcodls-_ Nom 8-134 3115_56 D 302.32 3111b5 ANB IXAYTNL' 3 ,, 0 tialtu Number C -1669 CB tJ 392.32 12 FIRE H,SwAM M CAL IRAN OF LYE% swawT ®* - H-14 30010 30290 11 SE AN' h 1 W206 FCR PAC PIPW6 oEIH. IN // , ® �,\. - B-t5 3019E CB 15 30325 30290 S,R7 ,ox pRE ® w � � � 8-16 30525 DI 5 3L89D ,4, p,H-1 (ORNN N,-) NE DETA_ DN , 0059 A // 9_17 313.W CD 15 119 025 36999 NJ N 5 FFCM WES, 297` /r / A ) ril,T - � \ \ \ \ll �Ir B-1fi 1,395 C9 15 Zfi INV I fi N FROM CFEM BLDG = 26.0 RN. W e FROM «WLB z99ne 8 ,!aI IdS m Aa 27540 2] OR INN. OUT 1z' = 29'11 ® ®\ CH2Y1 HNy - C -t 291 W Ca 36 5. MITRE PIPE CONNEGITON ASSEMNIY, SEE ROFIL B ` 3201 BANO 27 Cvuet Suite 3W Y 479.1E 17540 a 919- 875 -84_1 L -2 294511 ` GB :N "0 Ztl4W 2@105 6. SEE 1 0551 FOR - TRtpFLE. LO ZR 164 // E E C_3 19.50 1]_ SEE 1 ,056 FOP. bE/FCR PPOR,E I It A - NaMer F-OE89 iW1.igM1. NO 21604 2B6AE TeL9'Ui_7 3,1 F 15 9.82 2920 I6. SALKFtO% PRf'FlBmt (RFZ) LCGiED 1x50.. OU ID' °: C-4 29850 C9 - _ C 5 905.1E C0 55 147 2310 2695 19. CONIR^Di 6T�J,K. LOYIR4CT 1 i0 TflG11N4,E WITH 40_VE Ia ® � , CA 5 191 311019 dFD 20 PIPE STU9 OFR WBil R. PLW;, ai PNEPSURE ® i o L -6 --`- L, ,5. iD6 'A225 301.19 LW6: M, BELL NlC R.tm FOR hNN tIN` -S. A III SFr' o C =Z 3J5-W Za 131 0600 198 Ua 20- CONTN.'t BRFFK FDR CHEkICF1 CU^ BARK AND MAN110EE 6 Y, C-8 290.OD va 156 19609 79E W FiIF AI AND WyTNi - LfJiEE LIiEM.AL C RRICT. ?IRE r A 4o C6 - COMINJWSIY TO COHtRACT 2 SRUCRIR6 L A - �C [ -D 2 1 /7JLE'i1� A A 6 � I W 24 292 2l W� %1 WNfxnCT 6RF01t -sE ElECHt ClI' OFA NGS. ® LJ * ---.-- r> c -tD 3w5a �® 125 49215 . -- ]1. 4UNfRAL`i aRFA'(- REMDre ?EMPOPAFt A.OW OPF MID Rq ®_ _ m ®_ _A _ _ _ -. jr '# } C -11 304.,0 - 91 23 -i7 29225 'o," , iL ,Y OR, WAR LOVE Us1NG ,WPJtvS A` 0a _ ® ® 1 - o �_1p 30410 I JB a-Z' F C -13 30555 JB t8 131 m49E 7M1.� 2'. CMG PA9 EROSION GONRO_ BT ETHERS. CON1RiCt i ''•,,'�D'•'ttiF'�,�• - 195 '0 VHNiNN EROSION CONBm. FN;,tNIL gWINO 317.00 3 IS I>T 299A2 Z ^955 CU SIRUCIION Or- aIFWENF FCZCC MNNS ���`y ""` L -15 30690 R 15 - vulla Lrt6 3W.15 0 15 63 -2.00 T- 299.42 24. TACT 90 69!85 P01ATE0 UPWANOS "0 RAGE 3C" PIS ONfR C -,7 305.60 DI 15 196 302 ba FN 'JNE A°PROxIVATE tDP IX ELEt'. OF PA = 304 4' f.HCCI(ED 91' � OB 3025! 302-24 25. No %' BES VI VO o Fitl 36695 �9- 15 - 3 362.57 26. O,,E VALVE ,,it YATtE .,''BATOR :EE EUAi OR 1 E`O :, , R. N'MY L PASS G -IB 306_D D IS 100 5y lil'm 27 SwRARY SEWER Mr {HOLE SE SEE ON 1 C05B L_ZO 30650 IJ R Al roP Fes. - 319A ( PR6.'ECI YANnG95 aB. H Av // - THY. DUI a' Rs - 3120• B. HARRIS 21, NON ,7-,8, OPAJN AS_EIAOLY ON 1 -1 /2" W3. SE 1 _ R. NIUY I F. WR50 , 6'J3 f,, PRDECl NUMBER PRAYING f. 111" 2. ALP 1JNE AIOw-OFE 6E BEAR, 4/ t 6YAi. I@ 3L siAND+A9 t t/2 LONMF,tCW- ORWOh HACNFTo" 1119, PLAN NO%>;£ �+-e Cn nn ■eti� wa C_.CDA x B,m cE. IH'v -r PJU ELEV. I AiSt RLY. SEE DE, Cti t cmb ' ,I NC 05009.0000 I C 0 3 'i - J6 = JUNCDON 80% Rte: 31 SFE 1 CD]J FOR co NTPPLI (,OWN OF APEX PhbFlLES ( SEE ENEE, 1 -0551 FOR MINY Nbil:i. 32. SEE i Col1A FOR 42 RS (INFWEF� PROFLE / ( _ li - LUIDSGPE WIET P. CNEMMIL , PON:1 WN4KKE, SEE I EAIL 5/ , COCM. 1 ' II II E 01 = ,R(IP GRATE INLET �,SYRFAM aiYERT I n - rARD IwEr 'Y,� '�., .r - IXt511NO - CONtWGFOR t0 YEPoFY ppWA'a"REW YfJFNF *.$. / �, � 1 .9 ° tl4 a ^. 1 ply g0;A5 RPFS TO BE CN`5 III RCP WLLL35 D1HcT.815E NOIEA - -� 2 5!PIA:IUFFS SWML 3 TO NIDDT Arm /OP iDM, OF APFY STANDAN.3 WETLAND DETERMINATION rgDATA FORM -- Eastern Mountains and Piedmont l Project/Site: d I '1 .5 , a I City/County: Sampling Date.. ApplicantlOwner: �� 1',` Sate: %E'— Sampling Point: .:vestigator(s): Section, Township, Range: Landform hillslo e, terrace, etc.: : 6 Local relief concave, convex, none): Slop e(%): ( P etc.): t ( I► `)• G�i�C�t! 510 a /o Subregion (LRR or MLRA): Ito Lat: 47 4 �P fi/ Long: %Ja 741/m 4611 W Datum: WOM Soil Map Unit Name: 1A16 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 Al significantly disturbed? Are "Normal Circumstances" present? Yes V No Are Vegetation 4, Soil _AZ_, or Hydrology_, t�-___ naturally problematic? (If needed, explain any answers in Remarks.) SUMMARY OF FINDINGS -- Attach site map showing sampling point locations, transacts, important features, etc. Hydrophytic Vegetation Present? Yes V No Is the Sampled Area Hydric Soil Present? Yes �^— No within a Wetland? Yes No Wetland Hydrology Present? Yes /� No HYDROLOGY Wetland hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators minimum of one is re wired• check all that apply) _ Surface Soil Cracks (136) _ Surface Water (Al) _ True Aquatic Plants (634) „_,-„ Sparsely Vegetated Concave Surface (138) High Water Table (A2) _ Hydrogen Sulfide Odor (C1) _ Drainage Patterns (B10) =maturation (A3) ___„ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) y Water Marks (61) •,, ,,, Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) _ Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) Drift Deposits (63) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) Iron Deposits (135) „- ,,,,,, Geomorphic Position (D2) Inundation Visible on Aerial Imagery (67) — Shallow Aquitard (03) _ Water- Stained Leaves (B9) _ Microtopographic Relief (D4) Aquatic Fauna (1313) _ FAC- Neutral Test (D5) Field Observations: Surface Water Present? Yes No Depth (inches): Water Table Present? Yes No Depth (inches): 1A Saturation Present? Yes No Depth (inches):_ y / Wetland Hydrology Present? Yes V No includes capillary fringe) Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version tl 11 VEGETATION (Five Strata) — Use scientific names of plants. Sampling Point: Absolute Dominant Indicator Tree Stratum (Plot size': Jti ) % Cover Species? Status Dominance Test worksheet: � . 4 r e r_rH kLtAm Number of Dominant Species That Are OBL, FACW, or FAC: (A) ` Z_b a �L Total Number of Dominant � 3 16 CIA Species Across All Strata: (B) 4. t !`- � 5. WZA P MW? PQ kd.'R,..._..— / Percent of Dominant Species 166 !T That Are OBL, FACW, or FAC: (A/B) 6. Prevalence Index worksheet: 7 !o = Total Cover Sapling Stratum (Plot size: ) Total % Cover of: Multiply by: OBL species d _ x 1 = 1 , J FACW species !� x 2 = D 2. _�C FAC species _Oyb x 3 = A_ 3. FACU species 16 x 4 =�_ 4. UPL species LS x 5 = 5. Column Totals: �_ (A) �- (B) 6. Z•�� 7. Prevalence Index = BIA = Hydrophytic Vegetation Indicators: Rapid Test for Hydrophytic Vegetation = Total Cover Shrub Stratum (Plot size: 1 6 % V 2 - Dominance Test is >50% • � _ 2 -�_ �` 3 - Prevalence Index is s3.0' 3. _ 4 - Morphological Adaptations' (Provide supporting 4. data in Remarks or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 5 _ 6. 'Indicators of hydric soil and wetland hydrology must a7 Total Cover be present, unless disturbed or problematic. Definitions of Five Vegetation Strata: (Plot I+A9T Herb�strc/�cS + m �- �- , r m V tAt +re .Y''r.,_ ,..,__.....,. Tree - Woody plants, excluding woody vines, 2' approximately 20 ft (6 m) or more in height and 3 in. (7.6 cm) or larger in diameter at breast height (DBH). 3. 4 Sapling - Woody plants, excluding woody vines, 5. approximately 20 ft (6 m) or more in height and less than 3 in. (7.6 cm) DBH. 6. 7 Shrub - Woody plants, excluding woody vines, approximately 3 to 20 ft (1 to 6 m) in height. 8. 9 Herb - All herbaceous (non - woody) plants, including herbaceous vines, regardless of size, and woody 10. plants, except woody vines, less than approximately 11 3 ft (1 m) in height. 12. = Total Cover Woody vine - All woody vines, regardless of height. Woody Vine Stratum (Plot size: ) 1. k- 2. d Al RK 3. 4. Hydrophytic Vegetation 5. Present? Yes No = Total Cover Remarks: (Include photo numbers here or on a separate sheet.) US Army Corps of Engineers Eastern Mountains and Piedmont- Interim Version SOIL C%. 17 Sampling Point: A_�_ 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' LOC2 Texture Remarks i Z Tq 2- Z t i r'1 'Type: C,— Concentration, D =De letion, RM= Reduced Matrix, MS= Masked Sand Grains. 2Location: PL =Pore Lining, M= Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Soils3: Histosol (Al) T Dark Surface (S7) _ 2 cm Muck (A10) (MLRA 147) Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16) Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148) — Hydrogen Sulfide (A4) z Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) Depleted Matrix (F3) (MLRA 136, 147) — 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) — Very Shallow Dark Surface (TF12) — Thick Dark Surface (Al2) _ Redox Depressions (F8) _ Other (Explain in Remarks) _ Sandy Mucky Mineral (S1) (LRR N, _ Iron - Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and Sandy Redox (S5) Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes No Remarks: US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Project/Site: & 1V1. W F�i y t� 5S. 000011 City /County: &V 1�'111 Q C Sampling Date: A 1} -- .pplicant/Owner: P , State: G Sampling Point: vestigator(s): Section, Township, Range: Landform (hillslope, terrace, etc.): 1t�, Iq Local relief (concave, convex, none): 1 Slope Subregion (LRR or MLRA): Lat. 15r Cd 14 +1' N Long: ?e` %�� s f It fit! Datum: Soil Map Unit Name: Y OL1 NWI classification: �LA Are climatic 1 hydrologic conditions on the site typical for this time of year? Yes --I/— No (Ir no, explain in Remarks.) Are Vegetation 4e Soil / or Hydrology Al significantly disturbed? Are "Normal Circumstances" present? Yes —,/— No Are Vegetation _ // Soil �V or Hydrology A/ 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 V No Is the Sampled Area Hydric Soil Present? Yes No within a Wetland? Yes No Wetland Hydrology Present? Yes ✓ No HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (86) _ Surface Water (Al) _ True Aquatic Plants (814) _ Sparsely Vegetated Concave Surface (138) High Water Table (A2) _ _ Hydrogen Sulfide Odor (Cl) — Drainage Patterns (1310) ,)vSaturation (A3) _ Oxidized Rhizospheres on Living Roots (03) _ Moss Trim Lines (B16) — Water Marks (131) Presence of Reduced Iron (C4) — Dry- Season Water Table (C2) Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) Algal Mat or Crust (B4) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) Iron Deposits (135) _ Geomorphic Position (D2) Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3) _ Water- Stained Leaves (89) _ Microtopographic Relief (D4) _„— Aquatic Fauna (1313) FAC- Neutral Test (D5) 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 frin e Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: I US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version VEGETATION (Five Strata) — Use scientific names of plants, ti �l Sampling Point: AN Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot size: d ) ' 1. L % Cover Species? Status _ ,FAC Number of Dominant Species That Are OBL, FACW, or FAC: (A) 1 2. 8J` iA 3• 1 ` � � Total Number of Dominant !� Species Across All Strata: u (B) 4. 5 Percent of Dominant Species That Are OBL, FACW, or FAC: (AIB) 6. Prevalence Index worksheet: 7 t 6 = Total Cover Total % Cover of: Multiply by: 6 d Sapling Stratum (Plot size: 1\ ) 1. A. r ' 14 34 -I OBL species x 1 = FACW species Z�` x 2 = t r tm vi 2. �1ejt01r_MAd k-jLtq � y s_ � ,/B FAC species x3= R•A7 IIj;iglrRrt 3. �,�A LSS 4_A, D0 to N r= AC FACU species x 4 = 4, (z I'm 5 ,fir_ A f�c �4 l`,R � UPL species x 5 = 5. 7� Column Totals: I Tf (A) _1 (B) 6. 7. Prevalence Index = BIA = —,a�„ Hydrophytic Vegetation Indicators: Total Cover Shrub Stratum {Plot size: ) _/ 1 - Rapid Test for Hydrophytic Vegetation 1. 76 �_ _.,jL 2 - Dominance Test is X50% 2. _V3 - Prevalence Index is :53.0' 3. _ 4 - Morphological Adaptations' (Provide supporting 4. data in Remarks or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 5. _ 6. �7• 'Indicators of hydric soil and wetland hydrology must a �p Zip be present, unless disturbed or problematic. Definitions of Five Vegetation Strata: = Total Cover Herb Stratum (Plot size: � !� } 1. .3,.■ t�► S5�— Tree – Woody plants, excluding woody vines, 2 > OrAIDA411,4>6S f� approximately 20 it (6 m) or more in height and 3 in. (7.6 cm) or larger in diameter at breast height (DBH). 3 4 Sapling – Woody plants, excluding woody vines, approximately 20 ft (6 m) or more in height and less 5• than 3 in. (7.6 cm) DBH. 6. 7 Shrub – Woody plants, excluding woody vines, approximately 3 to 20 ft (1 to 6 m) in height. 8 Herb -- All herbaceous (non - woody) plants, including herbaceous vines, regardless of size, and woody 10. plants, except woody vines, less than approximately 11 3 ft (1 m) in height. 12. Woody vine – All woody vines, regardless of height. I Woody Vine Stratum (Plot size: �►� � ) = Total Cover 1, _1ey��rr 0A_,% CR _ _ C_ 2. 3. 4 Hydrophytic Vegetation / 5. Present? Yes V No = Total Cover Remarks: (Include photo numbers here or on a separate sheet.) US Army Corps of Engineers Eastern Mountains and Piedmont– Interim Version SOIL Sampling Point: j Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) Depth Matrix Redox Features (inches) Color moi t _ % Color (moist) _ % Type' _ Lac Texture Remarks '�� r I etion, RM= Reduced Matrix, MS= Masked Sand Grains Hydric Soil Indicators: Histosol (Al) Histic Epipedon (A2) Black Histic (A3) _ Hydrogen Sulfide (A4) Stratified Layers (A5) 2 cm Muck (A10) (LRR N) Depleted Below Dark Surface (A11) Thick Dark Surface (Al2) Sandy Mucky Mineral (S1) (LRR N, MLRA 147, 148) _ Sandy Gleyed Matrix (S4) _ Sandy Redox (S5) _ Stripped Matrix (S6) Restrictive Laver (if observed): Type: Depth (inches): Remarks: Location: PL =Pore Linin , M= Matrix. Indicators for Problematic Hydric Sc _ Dark Surface (S7) — 2 cm Muck (A10) (MLRA 147) — Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16) Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148) LThin oamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) Depleted Matrix (F3) (MLRA 136, 147) ,,,,_„ Redox Dark Surface (F6) _ Red Parent Material (TF2) _ Depleted Dark Surface (F7) — Very Shallow Dark Surface (TF12) — Redox Depressions (F8) _ Other (Explain in Remarks) _ Iron - Manganese Masses (F12) (LRR N, MLRA 136) _ Umbric Surface (F13) (MLRA 136, 122) 'Indicators of hydrophytic vegetation and — Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, unless disturbed or problematic. Hydric Soil Present? Yes V No US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version WETLAND DETERMINATION DATA FORM -- Eastern Mountains and Piedmont Sampling Date: r~ — 11 _ Sampling Point: C 11 Slope ( %): W Datum:k/4d P ition: 0 -A 1A Are climatic 1 hydrologic conditions on the site typical for this time of year? Yes ✓ No (If no, explain in Remarks.) Are Vegetation Al , Soil _�, or Hydrology A� significantly disturbed? Are "Normal Circumstances" present? Yes '1/ No Are Vegetation -Al—, Soil, or Hydrology -Al 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 Wetland? Yes No Wetland Hydrology Present? Yes � No Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apl)lvl _ Surface Soil Cracks (136) Surface Water (Al) _ True Aquatic Plants (B 14) - Sparsely Vegetated Concave Surface (138) High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (1310) Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (1316) _ Water Marks (B1) _ Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) — Drift Deposits (133) ___„ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) — Algal Mat or Crust (B4) — Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) Iron Deposits (135) „_,- Geomorphic Position (D2) Inundation Visible on Aerial Imagery (B7) — Shallow Aquitard (D3) Water - Stained Leaves (139) _ Microtopographic Relief (D4) _ Aquatic Fauna (613) _ FAC- Neutral Test (D5) Field Observations: Surface Water Present? Yes No ✓ Depth (inches): Water Table Present? Yes ,, Z _ No Depth (inches): Saturation Present? Yes _ No Depth (inches): !f 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 Eastern Mountains and Piedmont - Interim Version VEGETATION (Five Strata) - Use scientific names of plants. Absolute Dominant Indicator Tree Stratum Plot size: ) % Cover Species? Status 1. CII 4i Akm IT6 3.12radtAGEwa ' ,,J' ,ei P!R 1,6 V 4. 5. 6. 7. =Total Cover SapliIngS��trr�ajjtum (Plot size: ) 1. 2. 3. vt f �- 4. 5. 6. 7. (Plot I Q ) T_ = Total Cover Shrub Stratum Plot size: 1 2. 3. 4. 5. 6. 1 h = Total Cover Herb Stratum {Plot size: %[ ) 1. vA � 2. 3. 4. 5. 6, 7. 8. 9. 10 11 12. =Total Cover Woody Vine Stratum (Plot size: ) t{ 3. >r ''C'05' ' 4. 5. = Total Cover photo numbers here or on a separate Sampling Point: Number of Dominant Species That Are OBL, FACW, or FAC: (A) Total Numberof Dominant Species Across All Strata: 16 (B) Percent of Dominant Species �q That Are OBL, FACW, or FAC: (AIB) Prevalence Index worksheet: Total % Cover of: Multiply by: OBL species [p x 1 = d FACW species 146 - - x 2 = FAC species I� d x 3 =4 FACU species x 4 = - UPL species _- Q x 5 = D Column Totals: ZOIQ (A) 6!E4 (B) Prevalence Index = B1A = 4413. Hydrophytic Vegetation Indicators: 1 - Rapid Test for Hydrophytic Vegetation _Y /2 - Dominance Test is X50% yC 3 - Prevalence Index is : -3.0' _ 4 - Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) _ Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Five Vegetation Strata: Tree - Woody plants, excluding woody vines, approximately 20 ft (6 m) or more in height and 3 in. (7.6 cm) or larger in diameter at breast height (DBH). Sapling - Woody plants, excluding woody vines, approximately 20 ft (6 m) or more in height and less than 3 in. (7.6 cm) DBH. Shrub - Woody plants, excluding woody vines, approximately 3 to 20 ft (1 to 6 m) in height. Herb - All herbaceous (non - woody) plants, including herbaceous vines, regardless of size, and woody plants, except woody vines, less than approximately 3 ft (1 m) in height. Woody vine - All woody vines, regardless of height. Hydrophytic Vegetation Present? Yes No US Army Corps of Engineers Eastern Mountains and Piedmont -- Interim Version SOIL � f'1 Sampling Point: r. 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 'Tvpe: C= Concentration. D =DeDletion. RM= Reduced Matrix. MS= Masked Sand Grains. 2Location: PL =Pore Linina. M= Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Soils': _ Histosol (Al) _ Dark Surface (S7) � 2 cm Muck (A10) (MLRA 147) _ Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16) _ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148) — Hydrogen Sulfide (A4) oamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) Depleted Matrix (F3) (MLRA 136, 147) — 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2) Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12) Thick Dark Surface (Al2) _ Redox Depressions (F8) Other (Explain in Remarks) — Sandy Mucky Mineral (S1) (LRR N, — Iron - Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) — Umbric Surface (F13) (MLRA 136, 122) 31ndicators of hydrophytic vegetation and Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes ,12No US Army Corps of Engineers Eastern Mountains and Piedmont – Interim Version WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont f } Project/Site: kb)l 1,5 bM City /County: t Sampling Date: r v I ' AplicantlOwner: D A t K r� State: � Sampling Point: ivestigator(s): Section, Township, Range: Landform (hillslope, terrace, etc.): i1� C Local relief (concave, convex, none): �'at * Slope ( %): B � y1 Subregion (LRR or MLRA): � � Lat: �� �� ,u �/ Long: 7 � •!f) V✓ Datum: J Soil Mar Unit Name: NWI classification: 4r.1>1 Are climatic / hydrologic conditions on the site typical for this time of year? Yes No (If no, explain in Remarks.) Are Vegetation _AZ_, Soil �& _, or Hydrology __Al_ significantly disturbed? Are "Normal Circumstances" present? Yes , Z No Are Vegetation mow/ , Soil Al, or Hydrology naturally problematic? (If needed, explain any answers in Remarks.) 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 Wetland Hydrology Present? Yes No Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators minimum of one is re uired� check all that apply) _ Surface Soil Cracks (86) urface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (138) High Water Table (A2) _ hydrogen Sulfide Odor (Cl) — Drainage Patterns (610) iSaturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) — Water Marks (61) _ Presence of Reduced Iron (C4) _ Dry- Season Water Table (C2) -� Sediment Deposits (B2) Recent Iron Reduction in Tilled Soils (C6) Crayfish Burrows (08) Drift Deposits (63) - Thin Muck Surface (C7) Saturation Visible on Aerial Imagery (C9) T Algal Mat or Crust (B4) Other (Explain in Remarks) Stunted or Stressed Plants (D1) _ Iron Deposits (135) _ Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (133) _ Water - Stained Leaves (89) _ Microtopographic Relief (D4) Aquatic Fauna (813) _ FAC- Neutral Test (D5) Field observations: Surface Water Present? Yes -A/— No Depth (inches): Water Table Present? Yes --Yl" _ No Depth (inches): - Saturation Present? Yes V/ 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 Eastern Mountains and Piedmont- Interim Version VEGETATION (Five Strata) -- Use scientific names of plants. F% Sampling Point:^ 6� Absolute Dominant Indicator Dominance Test worksheet: Tree Stratum (Plot ize: } 1. % Cover Species? Status y &C Number of Dominant Species That Are OBL, FACW, or FAC: (A) Z. ti talarn Ad t !3 _AZ 144C Total Number of Dominant 3. Species Across All Strata: (B) 4. 5• Percent of Dominant Species //tt u® That Are OBL, FACW, or FAC: (A/B) 6. Prevalence Index worksheet: 7 Total Cover Total % Cover of: Multiply by: d Sapling Stratum (Plot size: �, ) OBL species x 1 = Q 1. 417P r'_— rAkr' 4 Yo FACW species x 2 = 2 ` + M1 vt I 7A _ —r `` FAC species //17 x 3 = 3. /) FACU species� x4= 4. f,'t1KP 4AtdPk UPL species d x5= d 5. Column Totals: (A) (B) 6.� 7 Prevalence Index = BIA = Hydrophytic Vegetation Indicators: 1 =Total Cover Shrub Stratum (Plot size: ) _/1 - Rapid Test for Hydrophytic Vegetation 1. A I w, s 4n t!` 3� _A! 2 - Dominance Test is >50% _ 2. ` ^- 4Z"3 - Prevalence Index is 53.0' 3. 4 - Morphological Adaptations' (Provide supporting 4, data in Remarks or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 5 _ 6. J. indicators of hydric soil and wetland hydrology must `p Total Cover be present, unless disturbed or problematic. Definitions of Five Vegetation Strata: Herb Stratum (Plot size: ) Tree — Woody plants, excluding woody vines, 2 1lPisIV4A uA Jr pit approximately 20 ft (6 m) or more in height and 3 in. 14 (7.6 cm) or larger in diameter at breast height (DBH). 4 Sapling — Woody plants, excluding woody vines, approximately 20 ft (6 m) or more in height and less 5. than 3 in. (7.6 cm) DBH. 6. T Shrub — Woody plants, excluding woody vines, approximately 3 to 20 ft (1 to 6 m) in height. 8. 9 Herb — All herbaceous (non- woody) plants, including herbaceous vines, regardless of size, and woody 10. plants, except woody vines, less than approximately 11. 3 ft (1 m) in height. 12. Woody vine — All woody vines, regardless of height. bi Woody Vine Stratum = Total Cover (Plot size: ) 2. ' t'rr- 3. 4. Hydrophytic Vegetation 5. Present? Yes No Sid = Total Cover Remarks: (Include photo numbers here or on a separate sheet.) US Army Corps of Engineers Eastern Mountains and Piedmont — Interim Version 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 Lac Texture Remarks 'Type: C= Concentration, D =De I�etion., RM= Reduced Matrix, MS= Masked Sand Grains. zLocation: PL =Pore Lining, M= Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Soils': _ Histosol (Al) Dark Surface (S7) — 2 cm Muck (A10) (MLRA 147) Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16) Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147, 148) (MLRA 147, 148) Hydrogen Sulfide (A4) _ Loamy Gleyed Matrix (172) _ Piedmont Floodplain Soils (F19) Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147) 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2) Depleted Below Dark Surface (A11 } _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12) Thick Dark Surface (Al2) _ Redox Depressions (F8) _ Other (Explain in Remarks) Sandy Mucky Mineral (S1) (LRR N, _ Iron - Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) Yl Umbric Surface (1713) (MLRA 136, 122) 31ndicators of hydrophytic vegetation and Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes VIZINIO Remarks US Army Corps of Engineers Eastern Mountains and Piedmont – Interim Version Attachment 2: Wetland Rating and Stream Assessment ! e_ Apex Water & Sewer Extension Policy Alternate Routes A and B Project Name: WI-ErLM,Z C, Nearest road: _Q. County: W A L- Wetland area: acres Wetland width: .46 feet Name of evaluator: CA,49is c " ,Vp Date: 411a KoV -2-Oil Wetland location on pond or lake X on perennial stream on intermittent stream within interstream divide other: Soil series Vle predominantly organic (humus, muck, or peat) �( predominantly mineral (non- sandy) predominantly sandy Hydraulic factors steep topography _X ditched or channelized total riparian wetland width > 100 ft Ab'JP,cC- --OT STREAM - ItQcvsC Wetland type (select one) Adjacent land use (within 1/2 mile upstream, upslope, or radius) forested/natural vegetation 70 % K agriculture, urban/suburban , % impervious surface % Dominant vegetation .1)130-tAlro,_ 2) A. r r 3) Msc�o es ari ' eum Flooding and wetness semipermanently to permanently flooded or inundated seasonally flooded or inundated intermittently flooded or temporary surface water no evidence of flooding or surface water Ncr iN T�xT' ASSu GL) ScAUF cVT I Te, 'Add 1 point if in sensitive watershed and >I 0% nonpoint disturbance within % mile radius. ,Y 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. weight R Water storage 1 x 4.00 = A Bank/Shoreline stabilization 1 x 4.00 = 4- T Pollutant removal x 5.00 = 5 I Low flow augmentation t x 2.00 = 2 N Wildlife habitat ( x 4.00 = 4 G Aquatic life x 1.04 = 2 Ncr iN T�xT' ASSu GL) ScAUF cVT I Te, 'Add 1 point if in sensitive watershed and >I 0% nonpoint disturbance within % mile radius. ., Project Name: WETL-At, lb "D-E—: Nearest road: SR, 1 tl_l County: W AV Wetland area: acres Wetland width: el!b_ feet Name of evaluator: 0,4RI, NCR CSy�t`RC,y� Date: 05 r Je)V 2_010 Wetland location on pond or lake on perennial stream on intermittent stream within interstream divide other: t IG-r�Dw' R Soil series 0 predominantly organic (humus, muck, or peat) X predominantly mineral (non - sandy) predominantly sandy Hydraulic factors steep topography ditched or channelized total riparian wetland width > 100 ft Wetland type (select one) Adjacent land use (within 1/z mile upstream, upslope, or radius) forested /natural vegetation 75 % _X agriculture, urban/suburban Z_s impervious surface % Dominant vegetation 1) No-e-c- rubr v) yin 2) Sex" r� r 3) �ru�nd�nc�r�ct araQnl e� Flooding and wetness semipermanently to permanently flooded or inundated seasonally flooded or inundated intermittently flooded or temporary surface water no evidence of flooding or surface water Bottomland hardwood forest Pine savanna Headwater forest Freshwater marsh Swamp forest Bog/fen Wet flat Ephemeral wetland Pocosin Carolina Bay Bag forest Other *The rating system cannot be applied to salt or brackish marshes or stream channels. No-r iN •-xr: ASSuM�C►� $� i ro 5 �duc «too n 'Add I point if in sensitive watershed and >I 0% nonpoint disturbance within %2 mile radius. weight R Water storage A- x 4.00 = 1� A Bank/Shoreline stabilization Z x 4.00 = 12 T Pollutant removal S [ x 5.00 = 2S 1 * Low flow augmentation �4 x 2.00 = %7 N Wildlife habitat ;5 x 4.00 = 12 - G Aquatic life 2- x 1.00 = E , No-r iN •-xr: ASSuM�C►� $� i ro 5 �duc «too n 'Add I point if in sensitive watershed and >I 0% nonpoint disturbance within %2 mile radius. ................ _ ...... ............ ..... -... ..... ...............- ....... .... ........ ....... ....... .............................. ....................... ............ ... .. ... ........ ._ ...... . ............ ..... ...... .......................... ........... .............................................................................. .....................__._...................................... ....................... ....._.. USACE AID# DWQ # Site # (indicate on attached map) i............ ....................................................................................................................................................__. _......_....................... M STREAM QUALITY ASSESSMENT WORKSHEET Provide the following 'information for the stream reach under assessment: t + 1. Applicant's name: 2. Evaluator's name: CAKks t-�OPK.R 3. Date of evaluation: (ND 1116\1 Uk k 4. Time of evaluation: 5. Name of stream: l S—% Exe, �iRpht. -k 6. River basin: VAkiz k5 LAkE 7. Approximate drainage area. —V AG 8.`Stream order: 9. Length of reach evaluated: '"-' i 5i _. 10. County: WA1Cr 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if any): Latitude (ex. 34.872312): 55 -1 lh 15 6 1 itude (ex. - 77.556611): '� g • {� �� Method location determined (circle): GPS Topo Sheet rtho (Aerial) Photo /Gi� Other GIS Other GC�-%CL. -F EMIL}•1 13. Location of reach under evaluation (note nearby roa s km-arrd attach map identifying stream(s) location): �.. cp us 1 C cl 00 R, cl� CSI( R .R . (z, -aaa' 7 W 61 S. R. 10.0 (z. 4 14. Proposed channel work (if any): SGv.SE SS i M G 15. Recent weather conditions: 1�P cti1 I✓nsNr-t�, IPI \AP-S ice- P- a 2 LI 16. Site conditions at time of visit: IA{i -- o Nip 1�7 ►i rE�1- �v�1E1 V-bp Sl- 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 41n If yes, estimate the water surface area: 19. Does channel appear on USGS quad map? 09 @) 20. Does channel appear on USDA Soil Survey? a NO 21. Estimated watershed land use: _% Residential _% Commercial % Industrial % Agricultural _4&0/, Forested %Cleared /Logged _ %Other { ) 22. Bankfull width: l °2 ` 23. Bank height (from bed to top of bank): Z f 24. Channel slope down center of stream: _Flat (0 to 2 %) 5C Gentle (2 to 4 %) Moderate (4 to 10 %) _Steep ( >10 %) 25. Channel sinuosity: Straight Occasional bends Y 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): Comments: 'j wC- sip,-* � R' o t ^-' '3iL LAb F O _ Ca�S'FtTu'YE.S r✓It�CT vJAiE2 C�.,.33N1s� �' 1i.1�'ES'CtGAT1L�t�. -- - — r Evaluator's Signature Date nil 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 06103. To Comment, please call 919 -876 -8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET T WC.., STK-A I * These characteristics are not assessed in coastal streams. 1. Applicant's name: 3. Date of evaluation -CU N\ om '2011 5. Name of stream: UT F)%G B9,tgt-1C_i1 7. Approximate drainage area: 145 AC. 2. Evaluator's name: CI9,15 "OPPER CSIWKyVi 4. Time of evaluation: 6. River basin: (' 1k EAR R1 S LAKI�� 8. Stream order: z 9. Length of reach evaluated: ZDD` 10. County: W AV & 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if any): pp t� A Latitude (ex. 34.872312): �5. (0to�SS.OIs Longitude (ex.- 77.556611): ' -79 .-t-5 uR, Method location determined (circle): GPS Topo Sheet _io (Aerial) Photo /Gil Other GIS Other Goa Le- C- t't1ZT A 13. Location of reach under evaluation (note nearby roads and landmarks and attach map identifying stream(s) location): N 0� V-3 X 0S _L/ 5R M- -7 14. Proposed channel work (if any 15. Recent weather i I.. 9\1 (=- 16. Site conditions at time of visit: T-,k0TrQt-A% __Al- tANRX�!thoeb 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 (a If yes, estimate the water surface area: 19. Does channel appear on USGS quad map? YE NO 20. Does channel appear on USDA Soil Survey? YES NO 21. Estimated watershed land use: IS % Residential 5 % Commercial _% Industrial _ _% Agricultural 10 % Forested t0 % Cleared / Logged _% Other ( r — 1 22. Bankfull width: 5 23. Bank height (from bed to top of bank): t ©-- IZ. 24. Channel slope down center of stream: _Flat (0 to 2 %) XGentle (2 to 4 %) _Moderate (4 to 10 %) _Steep ( >10 %) 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 (from reverse): V.P Comments: i W C— TSTR"-- 2 Evaluator's Signature Date ou Mov 21011 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 USAGE 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 i W C, STIR � � * These characteristics are not assessed in coastal streams. F..................................................................................................................................................................................................................................................................................................................................._.................................,...,...................,............ ............................... _............ USACE AID# DWQ # Site # (indicate on attached map) t ........... .......................................................... ............... ............. .... ........... ............ .......... ............. ................_. _...._......,... ........,....._..........__.... __...........,......... .... ................ ............ _ ... .............. .._._.. .......... .......................... .................,......._.._......... ,..._... ............................. ... „„ STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: 1. Applicant's name: 2. Evaluator's name: lkR1S kAuPPE S4 NtuRCay� 3. Date of evaluation- A i-1oy %� 1 L 4. Time of evaluation: 5. Name of stream: k3T %SNG ir3' QPtI�C`_k l 6. River basin: -Q .APs Feld; ("NRR15 l EKE, 7. Approximate drainage area: 4- AC 8. Stream order: 1 9. Length of reach evaluated: c 10. County: W AXE 11. Site coordinates (if known): `-- prefer ^iinn decimal degrees. 12. Subdivision name (if any)); t-3 Latitude (ex. 34.872312): 15 •� l �� V U _ _ Longitude (ex. - 77.556611): Method location determined (circle): GPS Topo Sheet ho (Aerial) Photo /G Other GIS Other 13. Location of reach under evaluation (note nearby roads and landmarks and attach map identifying stream(s) location): . t r, .-, c. A (,? §T� m,\. Q (1 n e` v d 0 1 r C 0 1 1") `-t / t i _"I N ` \ 14. Proposed channel work (if any): 15. Recent weather conditions: (—t k 4 fr-J 16. Site conditions at time of visit: 1 � �� ?y {� .� * t1�It :R C�t�l i� . 71� y _b. i"\ESitM ��i.(�F _ _ bt`1 , 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 ([ -IV) 18. Is there a pond or lake located upstream of the evaluation point? YES 0 If yes, estimate the water surface area: 19. Does channel appear on USGS quad map? YES NO ) 20. Does channel appear on USDA Soil Survey? YES 21. Estimated watershed land use: % Residential _% Commercial % Industrial _% Agricultural 4:S-% Forested 5D % Cleared / Logged �% Other 22. Bankfull width: /I 1 23. Bank height (from bed to top of bank): Z- 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 _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 cornment 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): 2A- Comments: S 1 P �P Dva r z G tZM q. A k k= to - i Evaluator's Signature Date 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 06103. To Comment, please call 919 - 876 -8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET -r'�T- SCR * These characteristics are not assessed in coastal streams. USACE AID# DWQ # Site # (indicate o- n attached map) t............... ............................ .... _ .................... .... .... _ ........... ............................. ... ...._......... ................ ........ ...... ....................................... ............... .......... ...... ............. _. M STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: 1. Applicant's name: 2. Evaluator's name: �,tiiL15 NOppFR E! Sy�ERCa�I J 3. Date of evaluation: l�bV 2ZgI 1 4. Time of evaluation: 1 ":,� 15 15 s 5. Name of stream: l )T BxG EgAst SQ AJ 6. River basin: PE � IZ Nl�l PkS LAYS G 7. Approximate drainage area; AC_ 8. Stream order: 9. Length of reach evaluated: '40 10. County: \1,3 A►L e 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if any):r to I A Latitude (ex. 34.872312): - 35,6`T3059 Longitude (ex. -77.556611): 'T -l%. p -5(o2JZ Method location determined (circle): GPS Topo Sheet rtho (Aerial Photo /GE Other GIS Other G,0M,LC 1= A►ZTI -E 13. Location of reach under evaluation (note nearby roads and landmarks and attach map identifying stream(s) location): N Or 0S I- too ^- a R -L 100 � .'LOO' 14. Proposed channel work (if any): 15. Recent weather conditions: V ktN i5r i 1-e t> 2.S HRS C 11e! 6ver-.i't)_ 16. Site conditions at time of visit: 1 � Ig RS ?nS-r -- V- 10Me94- 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 (1 -1V) 18. Is there a pond or lake located upstream of the evaluation point? YES 686 If yes, estimate the water surface area: 19. Does channel appear on USGS quad map? YES e) 24. Does channel appear on USDA Soil Survey? YES t�NO 21. Estimated watershed land use: ID % Residential % Commercial _% Industrial % Agricultural % Forested 'ZD % Cleared / Logged % Other ( ) 22. Bankfull width:_ 23. Bank height (from bed to top of bank): 4 � 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 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): A-� Comments: �W aw ebgm q. 411 = IQ - zo +s Evaluator's Signature Date 2-0 I 1 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. STREAM QUALITY ASSESSMENT WORKSHEET -w C, 5TR * These characteristics are not assessed in coastal streams. IN Z `3.a F g•i.Ye. tia. REYt "' h 4'r ��'..f '�, � xa '�, �' M °x "k �b�ad� �QFIC}rt, � ' -. �+.+ OWe A1tF}h. 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Name of stream: EST 131L, -RMM `._L` !-X 7. Approximate drainage area: 5 A�C. 9. Length of reach evaluated: "- lop 2. Evaluator's name: Q W4 ,NS \�oPPCP- (,SyMSUD`6 4. Time of evaluation: 1 7i� 6. River basin: CiNPE FENS IkRR?-1S LAS\ 8. Stream order: 10. County: V3 01 Kc 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if any):^ N ! Latitude (ex. 34.872312): �i Lon itude (ex. - 77.556611): II Method location determined (circle): GPS Topo Sheet Ortho (Aerial) Photo/G Other GIS Other 64yiCiF. i5AP-T 1A 13. Location of reach under evaluation (note nearby roads and landmarks and attach map identifying stream(s) location): K% n � aV CSX L.'Q. h cb(b,� - V"� o� S.R. M-1 (1."LtKbi 14. Proposed channel work (if 15. Recent weather conditi 16. Site conditions at time of t1l(= C 1 `! i�,) E 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-1V) 18. Is there a pond or lake located upstream of the evaluation point? YES <FJ If yes, estimate the water surface area: 19. Does channel appear on USGS quad map? YES (9) 20. Does channel appear on USDA Soil Survey? YES 21. Estimated watershed land use: _Q % Residential % Commercial _% Industrial �% Agricultural -To % Forested 2 % Cleared / Logged _% Other ( ) 22. Bankfull width: 1-2- 23. Bank height (from bed to top of bank): Q- 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 (from reverse): �J Comments: 'Fy3c ISITPl. 'l Evaluator's Signature & V ` ___ _ Date i2 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 06103. To Comment, please call 919- 876 -8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET —1—W C * These characteristics are not assessed in coastal streams. F � az� - Q J�yy yy /� ^y��7 y�yy n�1::. �yj/� ibp']� §(��,y e x �4K'E_` 2 uSf'e' Mew, a S/ 1iV.fTr� aYlG l AAin {F } .°.3 ,,k��s �'i' � aS i C9'Sa 4 'Eaa°b°'a� '°'a 9u 9+�.$ Main'-4 Of '}�] 3 ., ^',�:&.`tc stir. Z @ 2 .5`q.A- "o-ppnn CtQ, p�W �7, /�a r S' a� a °'� R% OBE �Hl� NtlA14£k l�Il.� vEma�.":i"�Y Bl l a b 4 i+ 'S b u° ,gyp =^ m.,�,1f �w� p k�5 tY p?qg?' --,,44��I } Y6e"'gIte,at10av" ±� .: t� Ike °P¢'. �i:'a' -. :i. - �G. „�.+vR �,. 0. "a:?, Y'!"'Sn, t kd"s,,:, b A'� °i.°Y"l:R:'41 4 m'e�� z� o�ra3 N S.- 'e�'"aR} 0011 3 6 A J'. °3" R is �5 p £�.:: q ■ ♦�' {[��' MAN 7°'�. Y g 3 Dr l i '� 4 ■R� �N kd� ^• ,"`;R' `i. '` r '�p*' �`: A b�,'?6' �'3:" di. - -� a % y� i��� ' " 05% 9 Eg'� gi �;�y x». 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USACE A1D# DWQ # Site # (indicate 'o, n attached map) €............. ..... .......................... _ ................ _ ................. .......... ..................... .... ............ _ ..... ................ ..... .................... ................. ;, #,Y STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: 1. Applicant's name: 2. Evaluator's name: C-�R15 Oppc= Z 3. Date of evaluation: (bJ 63-mi 2=9�1 k 4. Time of evaluation: A-Q0 5. Name of stream: Q -b1G 1~I�11`a ._ _ 6. River basin: C�_AP� �EP�i' �1dAP - 7. Approximate drainage area: 4, � AC 8. Stream order: -1L 9. Length of reach evaluated: " S !k 10. County: W Ak _ _ 11. Site coordinates (if known): in decimal degrees. 12. Subdivision name (if any): � prefer Latitude (ex. 34.872312): 3S. LOS (P 4-2- Longitude (ex.-77.55661 1): Method location determined (circle): GPS Topo Sheet rtho (Aerial Phot Other GIS Other G oo6t.E GAR°r A _ 13. Location of reach under evaluation (note nearby roads and landmarks and attach map identifying stream(s) location): N 0 0 (2 tso' — 3 Ck- CSX R. 4-so, —vJ o, S.R. 112`l � ' 14. Proposed channel work (if any): SEv.SEi? CKo5SINJG 15. Recent weather conditions: '.Attu E "hE� Zln \AR5 29,toR (t:. v C -VFATt 16. Site conditions at time of visit: IS yRS yo S t - C_-�-T C) \3 F- R` 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 (�D If yes, estimate the water surface area: 19. Does channel appear on USGS quad map? YES 0 20. Does channel appear on USDA Soil Survey? YES NO' 21. Estimated watershed land use: 28 % Residential % Commercial % Industrial _% Agricultural 15-1/6 Forested (Q % Cleared / Logged �% Other 22. Bankfull width: L I r 23. Bank height (from bed to top of bank): - 4- 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 _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): l A- Comments: -r li SWP -* ( o Evaluator's Signature ^_^ Date 015 _tJoy 'L 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. 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" R "� 'P` , r, ■F■ � .�`}'`0r r£ ,iA°k'.s°vtwa`, x a' Lt� ` °.:iC ' f"aE"�,�y 3 'a f 9`€"rK+"^a a ..... v6 r ad ieri ar. � a�-3 t`ava a ,° o " a r I'd MMMM. ... "° * These characteristics are not assessed in coastal streams. USACE AID# DWQ #. Site # (indicate on attached map) STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: 1. Applicant's name: 2. Evaluator's name: ?_k5 VAQRPE2 CSy F_P_0 3. Date of evaluation: 655 ►�1DV S. Name of stream: UT 7. Approximate drainage area: 4. Time of evaluation: � 4 ?� 0 EST 6. Riverbasin: CAPE FEAR LANP&1S 1-4KC—) 8. Stream order: 9. Length of reach evaluated 01% I (K) 10. County: W AKL 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if Latitude (ex. 34,872312): . � { Zn �Z� Longitude (ex. — 77.556611): — T S . CA c n 3 Method location determined (circle): GPS Topo Sheet rtho (Aerial Photo /GIST Other GIS Other GC)rYC.,L_6 C—ARTq 13. Location of reach under evaluation note nearby roads and landmarks and attach map identifying stream(s) location): t,3 0� 073 A— C —�(,()d . S ,�- cSK R__R_ � c5o`� . \JJ � 5R kn2l 14. Proposed channel work (if any): C_2.0S5I PA (p 15. Recent weather 16. Site conditions 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 (1 -IV) 18. Is there a pond or lake located upstream of the evaluation point? 0) NO If yes, estimate the water surface area: VA AC 19. Does channel appear on USGS quad map? (�a NO 20. Does channel appear on USDA Soil Survey? YES NO 21. Estimated watershed land use: jL% Residential % Commercial % Industrial % Agricultural 2G% Forested % Cleared / Logged �% Other ( ) 22. Bankfull width: { r 23. Bank height (from bed to top of bank): _(_0 r 24. Channel slope down center of stream: TFlat (0 to 2 %) -K —Gentle (2 to 4 %) _Moderate (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 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): z 2— Comments: _F\0 C__ ST 9— E t= R L bw 'Sy -z 5�: 9_N1 'J. 4 = `7 . " - 10.5 Evaluator's Signature ( Date OS t1113 k 1 \1 2_ 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 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 -rw C S` P- * i * These characteristics are not assessed in coastal streams. USACE AID# DWQ # Site # (indicate on attached map) € ................................ ... ...... ...... ............... .................... . .............. .............................. ........ _ ..................... ......_.............._.._.............. .................... -...................... ... ...... _........................ ......_...............___............_. .............. _ ........ ....................._...................... ......................- ........ M STREAM QUALITY ASSESSMENT WORKSHEET Provide the following information for the stream reach under assessment: f 1. Applicant's name: 2. Evaluator's name: 01Ra5 IAoFQr=R C_S�l►�ES�y� „� 3. Date of evaluation: 0S t,-km look 4. Time of evaluation: Z(�O 5. Name of stream: UT MLG Y S 91 NN01 k\ 6. River basin: CAPS 7. Approximate drainage area: 440-r , Vz, (a X-laV 8. Stream order: 1 9. Length of reach evaluated: - -Lq ;cb 1 10. County: VJ AVCIY 11. Site coordinates (if known): prefer in decimal degrees. 12. Subdivision name (if any): Latitude (ex. 34.872312):5. Lo� Longitude (cx, -77.55661 l):__ Method location determined (circle): GPS Topo Sheet tho (Aerial P TS Other GIS Other (,Q0G L-.t✓ 5AR:M 13. Location of reach under evaluation (note nearby roads and landmarks and attach map identifying stream(s) location): K� nll� k NS I ( 1 lc!cg � — LIB a� S R I 11`1 ( voce \� - 14. Proposed channel work (if any 15. Recent weather 16. Site conditions at time of visit: LlA PoReS 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 -IV) 18. Is there a pond or lake located upstream of the evaluation point? YES(D If yes, estimate the water surface area: 19. Does channel appear on USGS Quad map? YES (0) 20. Does channel appear on USDA Soil Survey? YES NO 21. Estimated watershed land use: 'Z0 % Residential J_% Commercial _% Industrial _% Agricultural -T5 % Forested % Cleared 1 Logged _% Other ( __ ) 22. Bankfull width: C- KA0k1< L- 23. Bank height (from bed to top of bank): 24. Channel slope down center of stream: S( Flat (0 to 2 %) _Gentle (2 to 4 %) Moderate (4 to 10 %) _Steep (> 10 %) 25. Channel sinuosity: X 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. rn � Total Score (from reverse): Comments: �[VJ _ �C[� #� -lt- ScnQr-- TAVr-v�i k6D` P.F-�LOV► A C- RosSIt3tn — t.» -,-19- t�PD X- I1~1 L °- It.1Tf-2M ITrF:*. NS t` �- �- �►.2tr ► LAry� %�I� -E rS (� X.- 11.�t.'a Evaluator's Signature 1 _ Date O 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 06103. To Comment, please call 919- 876 -8441 x 26. STREAM QUALITY ASSESSMENT WORKSHEET T\IJC ST * These characteristics are not assessed in coastal streams. 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