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20140843 Ver 1_Summary of Site Meeting on 11-14-14 w Att_20141211
Burdette, Jennifer a From: Wanda Austin <wandajoyceaustin @gmail.com> Sent: Thursday, December 11, 2014 10:44 PM To: Brown, David W SAW Cc: Barnett, Kevin; Fox, Tim; Price, Zan (George); Tompkins, Bryan; Leslie, Andrea J; Devane, Boyd; Burdette, Jennifer a; Brent Pack Subject: Re: Summary of Site Meeting on November 14, 2014 (UNCLASSIFIED) Attachments: Final Storm Water and Bridge Plan Signed December 2014.pdf, Pinnacle and HG LLC extension letter signed.pdf, WR Jule Noland Drive_EEP acceptance.pdf; 31 -2738 - Jule Noland Property - NCWAM.pdf, Conservation meets and bounds.pdf; Agency Response December 2014.pdf Thank you for the opportunity to address the concerns of each of the agencies. The revised storm water plan, the NCEEP acceptance letter, NC WAM, property evaluation and letter of extension from the buyer are attached. Please do not hesitate to contact me if you have any questions. On Mon, Nov 17, 2014 at 2:22 PM, Brown, David W SAW <David.W.Browngusace. army. mil> wrote: Classification: UNCLASSIFIED Caveats: NONE Action ID 2013 -02365 Wanda H. Austin, PE - Engineering Services Sylva, NC 28779 Wanda Austin, Thanks for meeting with representatives of the Corps and NCDENR -DWR at the site to discuss remaining outstanding items need for the 401 and 404 permitting actions of the proposed commercial development project on the property at the northeast corner of Jule Noland Drive and Russ Avenue in Waynesville. This e -mail is a summary of our discussion of the outstanding items. Unless otherwise noted below, submit documents /plans /drawings addressing these items to both the Corps and DWR. 1) Plans /designs showing storm drainage system per 401 storm water requirements. These documents are currently being worked on and will be submitted to DWR when completed. 2) Mitigation Plan. DWR needs to have NCEEP's letter stating NCEEP is willing to accept payment for compensatory mitigation. Please submit a copy of the letter to Kevin Barnett at DWR. 3) Purpose and Need of northern 0.7 acre outparcel along Dellwod Road (US Highway 19). No purpose and need has been provided for the impacts (approximately 0.1 -0.2 acres of fill to wetlands) associated with this outparcel. Development of this parcel is not dependent on the proposed commercial/retail development of the parcel along Jule Noland Drive. DWR and the Crops consider the outparcel independent of the proposed development along Jule Noland Drive, therefore the proposed fill of wetlands joining the two parcels is not justified. Provide documentation that the outparcel does support the purpose and need of the proposed commercial/retail development along Jule Noland Drive. oocueign Envelope ID: noprVonofCsCo4roa+wcm*r44rcmwcr1 W- anda H. Austin, PE Engineering Services 82D508-2939 45 Homespun Road 828342-5079 Svb/ ,Y4ordzCurolinu2877V December l|,2O}4 Purpose and Need of\JS 19 Connection: As requested, n driveway connection has been designed for the property fi7ouzlJS 19 as well um Jule Noland Drive. The new connection will bc facilitated hy installing o22'arch culvert over Factory Branch. There are uo proposed impact bdhe stream; therefore, the total impacts to the project donotiooreuoedoctntbcpropoocdcoonectioo. Further analysis ofthe internal traffic flow warrant the additional access tn the property. To reduce the impacts to the wetland; the road typical has been modified to include asmaller tbotprbt;lA'povcmeut. Additionally a5'gubiom basket wall along the fill side and curb & gutter will bc utilized \o further reduce the road footprint. The modified typical reduces the impacts 0.2 oorca. The new proposed impacts to wetland is 1.0 acres with a remaining 2.2acres. This internal access will divide the traffic demand between the two access points noD8i9 and Jule Noland Drive. The safety of the general public will hc maintained by providing a separate access to the grocery store for trucks and deliveries. The internal access also reduces the number ofconflicting movements for the driver. Patrons accessing the property from L/S lP vvcat will be able to hzcu right into the property through the northern entrance off DSI9 then turn right out of the property through the southern entrance onto Jule Noland Drive. All other patrons can access the road with only one left turn movement. Therefore, the internal access road increases the safety ofthe motoring public hy reducing the potential of conflicting cuuvoouonto at the intersections adjoining the property. Alternative Analysis: The revised analysis of other available property of approximate 5.0 acres within ufive mile radius nfthe property has been completed. As stated in the application, the property is zoned commercial within the city Uodto of Waynesville and is located near the intersection oftwo major bigbvvoym, US 19 and US 276. This area not only io the single access to Waynesville from Maggie Valley and Jonathan Creek communities but also serves J000bunku Assembly and Lake Juuo|usko. Kim Teague of Prudential |otChoice Realtors has provided two properties fitting this description. A6.| acre tract ouMoody Farm Road and 5.0 acre tract on Howell Mill Road. The 1ruc{a are open land located off any major bigbwoy. The access 10 the properties is Uondcd. The property also increases the trip length for the area of service targeted by the grocery retail. The potential customer base of Lake ]noubaska aodJunabu*ko Assembly would bc lost at these location. 7bccufhzc' the current location remains the bsm1 uDczou1ive for oue}v grocery retail. Mitigation: A NC WAMlas been completed byECB Carolinas and included with this response. The overall rating of the wetland is LOW. Additionally, the remaining 2.2 acres will be DocuSign Envelope ID: 83F79B80-CEC2-475B-A4C5-97447E904C71 MIT."M placed into a conservation easement with Southern Water Conservation. At the time of this response, Mr. Harmon is still in negotiations with Southern Water Conservation. The survey of the proposed conservation easement has been provided as an attachment. Thank you for the opportunity to address the concerns. Please let me know if you need any additional information to continue to process the application. 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Our services were provided in accordance with ECS Proposal No. 08- 17399P. Background The approximate 9.832 -acre undeveloped tract is located between Jule Noland Drive and Dellwood Road, west of Lake Junaluska in Waynesville, Haywood County, North Carolina. The Haywood County Parcel Identification Number associated with the site is 8616 -49 -2446. Based on information provided by Ms. Wanda Austin, a wetland delineation was completed on the property in February 2014. The delineation report, completed by Altamont Environmental Inc., was utilized as part of this evaluation, and can be found as an attachment to this report (Attachment 1). The aforementioned report identified a 3.28 acre wetland within the floodplain portion of the site. As part of the proposed development of the property, impacts are proposed to the wetland. Per federal regulations, mitigation for the impact to the wetland is required. An assessment of the wetland using the North Carolina Wetland Assessment Method ( NCWAM) has been requested to approximate the quality and function of the wetland, and to determine if the mitigation ratio suggested by the permitting agencies is consistent with the wetland quality and function. The NCWAM Wetland Assessment Form and the NCWAM Wetland Rating Sheet are found in Attachment 2. ECS personnel conducted a field investigation of the site on December 9, 2014. North Carolina Wetland Assessment Overview NCWAM is a process that began in 2003, and was developed by an interagency team of federal and state agency staff. The purpose of the NCWAM is to provide a method to assess the function of a wetland relative to a reference condition for each of the 16 North Carolina general wetland types. The intent was to develop a process that is accurate, consistent, rapid, observational, and scientifically based. NCWAM was created to be used for project planning, alternatives analysis, compliance and enforcement, mitigation planning, and tracking functional assessment. 1900 I1i.e ride r omrlilHe IFw!oad, Sulite 10, Asherrlilllle, INC 28803 11� l: 828 665 2307 828 665 ...Z 128 w ecallournaPoEd .z oirn E.: :CS Mid Atlantic, h...h....0 IE.: :CS Carolinas, f...f....11:a IE.: :CS IF: lorida, h...h....0 IE.: :CS Illinois, h...h....0 IE.: :CS Southeast, h...h....0 IE.: :CS ..�..exas, f...f....11::a Report of Wetland Determination Services Jule Noland Property Waynesville, Haywood County, North Carolina ECS Project No. 31 -2738 December 11. 2014 Literature Review ECS reviewed information relative to the site prior to the site visit, these included: • United States Geological Survey (USGS) map does depict surface waters on the Mauney Cove Branch and Factory Branch. Topographic map of the site. The topographic ite, including two blue line streams which are • ECS reviewed the U.S. Fish and Wildlife, National Wetlands Inventory Map of the site. The map does not depict wetlands on the site. • ECS reviewed the United States Department of Agriculture (USDA) Soil Survey of Haywood County. Soils depicted on the soil survey include Dellwood -Urban Land complex (DhA), Dillsboro loam (DsB,DsC), Evard -Cowee complex (EvD, EvE), and Saunook -Urban land complex (SfC). No soils mapped on the site are identified on the Hydric Soils List for Haywood County. • ECS reviewed the wetland delineation report completed by Altamont Environmental Inc., which included an assessment of the vegetation, hydrology, and soils identified at the site. NCWAM Findings and Conclusions ECS visited the site on December 9, 2014 to perform the NCWAM. Review of the vegetation, soils, and hydrology within the wetland area were compared to the findings of the Altamont Environmental Inc., report. ECS concurred with those findings. ECS utilized the Dichotomous Key to General North Carolina Wetland Types that accompanies the NCWAM User Manual, Version 4.1, in order to classify the wetland type that had been previously delineated. A classification of Bottomland Hardwood Forest was assigned to the wetland. The wetland is dominated by herbaceous species, which is not typically associated with a Bottomland Hardwood Forest. No evidence of organics or muck was identified during the evaluation. Past disturbance to the wetland via clearing and maintenance, and an adjacent berm /gravel path are stressing the wetland and not allowing for the successful growth of hardwood species. It is anticipated that short periods of inundation occur, with surface flow to drainage features located within the wetland, and subsequent drainage into Factory Branch located on the northern property boundary. The wetland did not demonstrate indicators of long periods of inundation. ECS compiled data obtained from the site and incorporated that data into the NCWAM Wetland Assessment Form. Through a series of metrics associated with different attributes and site characteristics, a rating of the wetland is measured and provided through the NCWAM Wetland Rating Sheet. The rating for the wetland evaluated on the project site was given an Overall Wetland Rating of LOW. ECS would like to note that data incorporated into the rating system was derived from professional opinions obtained at the site, and the snapshot of the site on the day it was evaluated. Report of Wetland Determination Services Jule Noland Property Waynesville, Haywood County, North Carolina ECS Project No. 31 -2738 December 11. 2014 This report and associated attachments, along with the NCWAM results, can be provided to the permitting authorities to support the opinion of lowering the mitigation ratio assigned to the wetland. ECS cannot guarantee concurrence of our opinion with regulatory authorities. Closure ECS appreciates the opportunity to provide wetland services for your project. Please contact us at (828) 665 -2307 if you have any questions concerning this letter. Sincerely, ECS Carolinas, LLP W. Brandon Fulton, LS Z,PwS Senior Soil /Wetland Scientist Istli n A. Roth, C H M M Environmental Services Manager Attachments: Wetland Delineation Report by Altamont Environmental Inc., 2014 NCWAM Wetland Assessment Form, NCWAM Wetland Rating Sheet ATTACHMENT 1 Wetland Delineation Report by Altamont Environmental Inc., 2014 Jule Noland Wetland Delineation Waynesville, Haywood County, North Carolina Harmon Graham Properties, LLC 2511 Midland Road Shelbyville, Tennessee 37160 February 14, 2014 Prepared for John Harmon Harmon Graham Properties, LLC 2511 Midland Road Shelbyville, Tennessee 37160 Project Number 2504 Prepared by Altamont Environmental, Inc. 231 Haywood Street Asheville, NC 28801 828.281.3350 Wetlanid Delineation Harmon Graham Properties, LLC Jule Noland Wetland Delineation Waynesville, Haywood County,, North CarolinFw, Harmon Graham Properties, LL 2511 Midland Road Shelbyville, Tennessee 37160 EM February 14, 2014 Page 11 Iwafir 6-� Natalie Bouchard, E.I.T. P:\Harmon, John\Wetland Dohneation - Me Noland\Wefl and Delineation ReportDom Wetland Delineation Harmon Graham Properties, LLC Table of Contents February 14, 2014 Page iii 1.0 Property Owner Information ......................................................................................... ............................... 1 2.0 Introduction ................................................................................................................... ............................... 2 3.0 Property Information .................................................................................................... ............................... 3 3.1 U.S. Geologic Survey and North Carolina OneMap ........................................ ............................... 3 3.2 Property Survey Plat ........................................................................................ ............................... 3 3.3 U.S. Department of Agriculture Soil Map ....................................................... ............................... 3 3.4 U.S. Fish and Wildlife Service (USFWS) National Wetlands Inventory .......... ..............................4 3.5 U.S. National Flood Insurance Program Digital Flood Insurance Rate Map . ..............................4 4.0 Site Investigations ......................................................................................................... ..............................5 4.1 Wetland Determination Site Investigation ...................................................... ..............................5 4.2 Wetland Delineation Site Investigation ........................................................... ..............................5 4.2.1 Methods ............................................................................................................. ............................... 5 4.2.2 Investigation Results .......................................................................................... ..............................5 5.0 Conclusions .................................................................................................................... ..............................7 Figures 1. Site Map 2. Site Aerial Map 3. Wetland Area Map Tables 1. Data Point Latitude and Longitude Appendices A. Haywood County Property Record Card B. Survey Plat C. USDA Web Soil Survey D. USFS National Wetlands Inventory E. Digital Flood Insurance Rate Map F. Representative Photographs G. Wetland Determination Data Forms P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx Wetland Delineation Harmon Graham Properties, LLC 1.0 Property Owner Information Name: Harmon Graham Properties, LLC Mail: 2511 Midland Road Shelbyville, Tennessee 37160 Phone: 931.205.1905 Email: belle7233 @gmail.com P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx February 14, 2014 Page 1 Wetland Delineation Harmon Graham Properties, LLC 2.0 Introduction February 14, 2014 Page 2 Altamont was retained by Harmon Graham Properties, LLC (Harmon) to determine, and delineate if existent, wetland(s) located on the property located at Jule Noland Drive, Waynesville, Haywood County, North Carolina (Subject Site). Harmon expressed interest in developing the Subject Site. If wetland(s) are located on the Subject Site, permits prior to construction and /or mitigation fees may be required. Consequently, Harmon requested that a wetland delineation be performed on the Subject Site. A wetland delineation is performed by qualified professionals. However, the U.S. Army Corps of Engineers (USACE) must complete a jurisdictional determination to identify the presence or absence of jurisdictional waters, including wetlands on a site. According to USACE Regulatory Guidance Letter No. 08 -02, dated June 26, 2008, "An approved jurisdictional determination is an official USACE determination that jurisdictional "waters of the United States," or "navigable waters of the united States ", or both, are either present or absent on a particular site. An approved jurisdictional determination precisely identifies the limits of those waters on the project site determined to be jurisdictional under the Clean Water Act /Rivers and Harbors Act of 1899." Ajurisdictional determination by the USACE is necessary prior to submitting permits to impact wetlands or open waters. Once the USACE has reviewed the wetland delineation report prepared herein, the USACE will visit the Subject Site to issue a jurisdictional determination. P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx Wetland Delineation Harmon Graham Properties, LLC 3.0 Property Information February 14, 2014 Page 3 The Subject Site is located between Jule Noland Drive and Dellwood Road in Waynesville, Haywood County, North Carolina. According to the Haywood County Geographic Information Services (GIS), the Subject Site is identified by parcel identification number 8616 -49 -2446, and is an approximately 9.076 -acre undeveloped parcel. The Haywood County Property Record Card is included as Appendix A. 3.1 U.S. Geologic Survey and North Carolina OneMap The location of the Subject Site outlined on the U.S. Geologic Survey (USGS) 7.5- minute quadrangle map is included as Figure 1. A site aerial map with aerial imagery from North Carolina OneMap (NC OneMap) is included as Figure 2. The NC OneMap 2012 hydrology data identifies that Mauney Cove Branch flows along the northwestern Subject Site boundary to Factory Branch, which flows into Lake Junaluska approximately 900 feet east of the Subject Site. 3.2 Property Survey Plat According to the survey plat recorded in Haywood County Registry in Plat Cabinet "C ", Slot 4325, the Subject Site is approximately 9.832- acres, which is slightly larger than the area reported on the Haywood County GIS website. The Subject Site is bound by Dellwood Road and an unnamed parcel to the northeast, the Wayne Robinson parcel and the Jacqueline M. Hayes parcel to the northwest, Jule Noland Drive to the south, Russ Avenue to the west, and the Clifford L. Bolin parcel to the east. A Bojangles' restaurant is located on the Clifford L. Bolin parcel. A peninsula of the Subject Site extends east and is bound by the Clifford L. Bolin parcel and the Waynesville Christian Fellowship parcel to the north, Jule Noland Drive to the south, and the Lewis N. Green parcel to the east. The survey plat identifies Mauney Cove Branch along the northwestern property boundary. Mauney Cove Branch meanders on and off the Subject Site and converges with Factory Branch on the northern property border. Factory Branch then meanders on and off the Subject Site along the northeastern property boundary along Dellwood Road. Factory Branch continues east along Dellwood Road until entering a concrete box culvert. The plat identifies an 8 -inch sanitary sewer line and 20 -foot sewer easement parallel to the northwestern property boundary adjacent to Mauney Cove Branch, and the northeastern property boundary adjacent to Factory Branch. An 18 -foot walking trail easement lies within the 20 -foot sewer easement. A 45 -foot road and utility public right of way is identified along Jule Noland Drive. An additional 20 -foot sewer easement connects the main 20 -foot easement line to a manhole located on Dellwood Road. A 20 -foot utility easement connects the road and utility easement from Jule Noland Drive to a fire hydrant located on the Clifford L. Bolin parcel. A 25 -foot utility easement connects the road and utility easement from Jule Noland Drive to Russ Avenue. The survey plat is included as Appendix B. 3.3 U.S. Department of Agriculture Soil Map The U.S. Department of Agriculture (USDA) National Cooperative Soil Survey Web Soil Survey (WSS) report for the Subject Site is included as Appendix C. According to the WSS, the majority of the Subject Site (3.2 acres) is Dellwood -Urban land complex, 0 to 3 percent slopes, occasionally flooded (DhA), and 2.5 acres of the Subject Site is Evard -Cowee complex, 30 to 50 percent slopes (EvE). The remaining Subject Site area is comprised of urban land complexes and Dillsboro loam soils. P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx Wetland Delineation Harmon Graham Properties, LLC February 14, 2014 Page 4 3.4 U.S. Fish and Wildlife Service (USFWS) National Wetlands Inventory According to the U.S. Fish and Wildlife Service (USFWS) National Wetlands Inventory (NWI), no wetland areas were identified on the Subject Site. According to the USFS, these data were collected in the 1980s. Consequently, the NWI may not accurately reflect current site conditions. The USFS National Wetlands Inventory map is included as Appendix D. 3.5 U.S. National Flood Insurance Program Digital Flood Insurance Rate Map According to the U.S. National Flood Insurance Program (NFIP) Digital Flood Insurance Rate Map ( DFIRM), a Federal Emergency Management Association (FEMA)- mapped stream was not identified on the Subject Site. Consequently, a FEMA- mapped floodplain was not identified on the Subject Site. The DFIRM identified Factory Branch, along the Subject Site's northwestern border. The DFIRM map is included as Appendix E. P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx Wetland Delineation February 14, 2014 Harmon Graham Properties, LLC Page 5 4.0 Site Investigations 4.1 Wetland Determination Site Investigation Altamont conducted a preliminary wetland determination investigation on January 14, 2014. This visual investigation included: examining general Subject Site topography, digging soil test pits, taking photographs, observing vegetation, collecting global positioning system (GPS) data points, and documenting the approximate extent of the wetland area. During the preliminary determination Altamont personnel marked the approximate boundary of the wetland area with pin flags. Altamont personnel used the USACE Wetland Determination Data Forms — Eastern Mountains and Piedmont Region (data forms) as a general guide to determine if the area was a wetland. However, Altamont did not complete the data forms in sufficient detail to complete a wetland delineation. Consequently, a wetland delineation site visit was necessary. 4.2 Wetland Delineation Site Investigation Altamont completed the wetland delineation site investigation on February 5, 2014. Representative photographs are included as Appendix F. 4.2.1 Methods Altamont personnel, Natalie Bouchard, and BDY Environmental, LLC (BDY) personnel, Chris Flemming, conducted the wetland delineation. Natalie Bouchard, E.I.T., was trained in wetland delineation techniques in 2013. Chris Flemming, M.S., was trained in wetland delineation techniques in 2007. Altamont partnered with BDY to complete the wetland delineation. The investigation consisted of the following: • Walking the Subject Site boundaries. Note: property boundaries were not staked or established and the property boundaries were approximated from available Haywood County GIS information. • Digging soil test pits throughout the Subject Site. • Observing vegetation. • Taking photographs. • Completing data forms at five locations to document wetland and upland conditions on the Site. • Hanging flagging to mark the wetland boundary. • Collecting GPS points at each wetland boundary flag and at each location where the data forms were completed. Altamont personnel used a Trimble XH 2005 Series Pocket PC global positioning system (GPS) unit to collect point locations. According to the manufacturer, the GPS unit has a subfoot accuracy. 4.2.2 Investigation Results The Subject Site is predominately shrubby vegetation with areas of open fields. A small section of surface vegetation appeared to have been recently removed and stockpiled on the southwest corner of the Subject Site. Mauney Cove Branch was identified parallel to the northwestern property boundary on the Subject Site. This stream runs northeast to the point where it converges with Factory Branch at a location slightly north of the Subject Site. Factory Branch was observed to continue east from the confluence until reaching a roadway culvert on Dellwood Road just north of the Subject Site. The Subject Site is bounded by Jule Noland Drive to the south, Russ Avenue on the west, Mauney Cove Branch and Factory Branch to the north, and commercial development to the east. A stormwater culvert was P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx Wetland Delineation Harmon Graham Properties, LLC February 14, 2014 Page 6 observed along the southern property boundary. The culvert appears to discharge stormwater from Jule Noland Drive onto the Subject Site. Altamont observed a gravel road /walking trail within what appeared to be the 20- foot -wide sewer easement, which includes the 18- foot -wide walking trail easement, as depicted on the Survey Plat (Appendix B). The trail appeared to be elevated above the existing grade on the Subject Site in that location. This gravel road appears to be acting as a berm between the Subject Site and Mauney Cove Branch and appears to be preventing stormwater runoff from the Subject Site from entering the branch along the northwest property boundary. A drainage ditch was observed on the southeastern side of the gravel road, parallel to the road and Mauney Cove Branch. The ditch appeared to discharge to Factory Branch. The site aerial map is included as Figure 2. Altamont and BDY delineated the boundaries of the wetland area on the Subject Site by observing vegetation, hydrology, and the soils. During the site visit Altamont and BDY completed a total of five data forms at five different locations on the Subject Site. Two data forms were completed at upland locations (UPL -1 and UPL -2), and three data forms were completed at wetland locations (WL -1, WL -2, and WL -3). Copies of the completed data forms are included as Appendix G. Areas where all three wetland indicators (vegetation, hydrology, and soils) were present were classified as a wetland. Notably, the soils observed at data form location WL -2 were somewhat marginal, and are likely still developing wetland features. Black concretions were observed in the upper 4 inches of the soil profile. Notwithstanding the concretions, the soils appeared to be high chroma. The wetland delineation identified a 3.28 -acre wetland situated in the northwest portion of the Subject Site adjacent to the gravel roadway parallel to Mauney Cove Branch (see Figure 3). The wetland area does not include the gravel road, as this area is elevated and appears to be dry. Altamont and BDY hung flags at the wetland boundary location, and used the GPS unit to document the flag location. Each flag is numbered in the field, and likewise numbered in Figure 3. The latitude and longitude of the GPS points collected on February 5, 2014 are included in Table 1. P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx Wetland Delineation Harmon Graham Properties, LLC 5.0 Conclusions February 14, 2014 Page 7 Altamont and BDY have performed a wetland delineation and determined a 3.28 -acre wetland is situated on the Subject Site. Altamont recommends this report be submitted to the USACE for a jurisdictional determination. P: \Harmon, John \Wetland Delineation -Jule Noland \Wetland Delineation Report.Docx FIGURES r I k .. I .. 1. [ y.. J 1� }11SCt5 - fr f ffff ffy{ JJ3 I ilk I5 I - key 5 ' .i'i� L EL . Y� 11 ` _ ik' VC'kltti a ik i t - -A— Subject Sitef - : • :� Y -uih crnler,2, l3M A 10. �` }� M ter. ' ¢ _• -_� -' Barren ling! ii l4 l48, x585 P"I +(t{J #. 1•k.EV Sts 25g�{ �; Cm N y LA A 1I Ira! Jas a :. f'= II N r $ roe 1 CI *inch �� iY,', e•: tf' ; xis }, ��' f• s�, , }jr% 1113�lk° M1 _ Nz r - - 4~ _ + I - + Ur �yi1F M1I -F- + ' •y. F iy # rf ';?S Q� 'i• Legend�r • •t il• — -y - • 1. ,. y� •�� ��, Subject Parcel '1st ' '? p Data Sources: USGS To o ra h Clyde and Dellwood Quadrangle Subject Parcel: Haywood County GIS I�- 113 • SITE LOCATION MAP FIGURE w�rw,ar�a� ■w.■wr�eiw�r�rar.ss� JULE NOLAND PROPERY HAYWOOD COUNTY, NORTH CAROLINA DRAWN By NATALIE BOUCHARD SCALE PROJECT MANAGER: ZAN PRICE Feet CLIENT: HARMON GRAHAM PROPERTIES, LLC 0 1,000 2'000 DATE: 02/11/2014 P:\HARMON, JOHN \WETLAND DELINEATION - JULE NOLAND \FIGURES ,r►r zpe� pp z DELLWOOD RD C N 5�l�� ELDON WA` Factory Branch iq*k - IT O C\1 01 2575 r S iLaMe JULE NOLAND DR 2585 r 4 Gravel Road P� r r d •f � ,_ GANDER W. ,I 2565 LJ Subject Parcel Data Sources: Hydrology k5: Hydrology - INC OneMap 2012 — � Orhoimagery - INC OneMap 2010 Contours Ro ads + Roads - NCDOT 2007 Roads #; Contours - NCDOT 2005 ` SITE AERIAL MAP FIGURE F www,ar�ew�wrww *�wwwwr�rar.as� JULE NOLAND PROPERY 2 DRAWN By NATALIE BOUCHARD SCALE HAYWOOD COUNTY, NORTH CAROLINA PROJECT MANAGER: ZAN PRICE Feet CLIENT: HARMON GRAHAM PROPERTIES, LLC 0 200 400 DATE: 02/03/2014 P:\HARMON, JOHN \WETLAND DELINEATION - JULE NOLAND \FIGURES Wetland Area 3.28 Acres 34� 0 10 1 Legend Notes: 1. "GPS" = global positioning system. A Wetland Points 2. Field investigation and wetland boundary, wetland, upland, and GPS verification ponts were • Wetland Boundary Points completed on February 5, 2014. Points were collected with a Trimble XH 2005 Series Pocket PC. Upland Points 3. "UPL" indicates an upland data point. Refer to Wetland Determination Data Form for more detailed information. • GPS Verification Points 4. "WL" indicates a wetland data point. Refer to Wetland Determination Data Form for more detailed Wetland Boundary information. Hydrology 5. "GPS Verification Points" were collected on the Bojangles' dumpster corners to verify the accuracy Subject Parcel of the GPS unit. 6. Data sources are as follows: hydrology and orthoimagery data from NC OneMap 2012; parcel from 5 -ft Contours Haywood County GIS; roads from NCDOT 2007; 5 -foot contours from NCDOT 2005. �+ 0 T R ;A1 10 47.n rat R'.P {r, www,ar�ew�wrww *�wwwwrRraa = o DRAWN By NATALIE BOUCHARD PROJECT MANAGER: ZAN PRICE CLIENT: MOUNTAIN ENVIRONMENTAL SERVICES 0 DATE: 02/11/2014 FIGURE WETLAND LOCATION JULE NOLAND PROPERTY SCALE K HAYWOOD COUNTY, NORTH CAROLINA �J � Feet 100 200 P:\HARMON, JOHN \WETLAND DELINEATION - JULE NOLAND \FIGURES TABLE Table 1. Data Point Latitude and Longitude Dellwood Road, Waynesville, Haywood County, North Carolina Sample Point Point Type Latitude I Longitude Decimal Degrees 1 Wetland Boundary 35.5235 - 82.9873 2 Wetland Boundary 35.5236 - 82.9871 3 Wetland Boundary 35.5236 - 82.9870 4 Wetland Boundary 35.5237 - 82.9869 5 Wetland Boundary 35.5238 - 82.9868 6 Wetland Boundary 35.5239 - 82.9868 7 Wetland Boundary 35.5240 - 82.9866 8 Wetland Boundary 35.5239 - 82.9864 9 Wetland Boundary 35.5239 - 82.9863 10 Wetland Boundary 35.5238 - 82.9861 11 Wetland Boundary 35.5237 - 82.9860 12 Wetland Boundary 35.5238 - 82.9858 13 Wetland Boundary 35.5238 - 82.9856 14 Wetland Boundary 35.5238 - 82.9854 15 Wetland Boundary 35.5240 - 82.9852 16 Wetland Boundary 35.5241 - 82.9853 17 Wetland Boundary 35.5241 - 82.9854 18 Wetland Boundary 35.5246 - 82.9853 19 Wetland Boundary 35.5247 - 82.9853 20 Wetland Boundary 35.5247 - 82.9852 21 Wetland Boundary 35.5248 - 82.9854 22 Wetland Boundary 35.5248 - 82.9856 23 Wetland Boundary 35.5248 - 82.9858 24 Wetland Boundary 35.5248 - 82.9859 25 Wetland Boundary 35.5248 - 82.9860 26 Wetland Boundary 35.5247 - 82.9861 27 Wetland Boundary 35.5246 - 82.9862 28 Wetland Boundary 35.5245 - 82.9863 29 Wetland Boundary 35.5244 - 82.9865 30 Wetland Boundary 35.5243 - 82.9866 31 Wetland Boundary 35.5243 - 82.9867 32 Wetland Boundary 35.5242 - 82.9869 33 Wetland Boundary 35.5241 - 82.9870 34 Wetland Boundary 35.5240 - 82.9871 35 Wetland Boundary 35.5239 - 82.9872 BJ 1 GPS Verification 35.5242 - 82.9852 BJ 2 GPS Verification 35.5242 - 82.9853 BJ 3 GPS Verification 35.5242 - 82.9852 BJ 4 GPS Verification 35.5242 - 82.9853 R \Harmon, John \Wetland Delineation -Jule Nola nd \Sample_Points_Lat_Long Page 1 of 2 Table 1. Data Point Latitude and Longitude Dellwood Road, Waynesville, Haywood County, North Carolina Sample Point Point Type Latitude I Longitude Decimal Degrees UPL 1 Upland 35.5237 - 82.9859 UPL 2 Upland 35.5249 - 82.9853 WL 1 Wetland 35.5240 - 82.9864 WL 2 Wetland 35.5239 - 82.9855 WL 3 Wetland 35.5247 - 82.9858 Notes: 1. Field investigation and wetland boundary, wetland, upland, and GPS verification ponts were completed on February 5, 2013. 2. Points were collected with a Trimble XH 2005 Series Pocket PC. 3. Datum: North American Datum (NAD) 1983. R \Harmon, John \Wetland Delineation -Jule Nola nd \Sample_Points_Lat_Long Page 2 of 2 APPEN DIX A HAYWOOD COUNTY PROPERTY RECORD CARD (D qq qq N C6 qq CL � co O LL t: O CL @ i U \ U) L F ± L I O ± I � < I ƒ 0 Z O 5 ± < I 2 ± 2 Z \ 2 / \ 2 \ Z R w \_ \ I w I m \ \ \ k \ \ c c E 0 � § k \ \ « 12 I i U) S k Z S L 2 \ ± 0 C) k Z w — � 2 Of § \ < k w < a ƒ c \ o < \ O > I = / z I w \ I ± 1 0 cl \ f Z o 0 o R S \ § / i 3 / � 2 co < 2 R ƒ d \ / U I » R R \ \ \ \ \ \ / / ^ / = CO 7 7 2 7 2 2\ 7 o k & 2 > & U 0 > » 2 \ \ > 7 m « N U \ a k \ % \ co j m / 3 < $ $ / # \ \ '6 {-4 o E /�\ \ �\ / 0 ? \ ))) \( \ 0 E E ®» 2L \a ;,-P 0 \ \ {j / \ {{ 0 m0 0 (K7]« /\{ ` r ®�, \)) §°;_- a /[ { }f.E # \ \ APPENDIX B SURVEY PLAT -AL I N, N, ir Ilk wd pry. I l'i W11 p k i IS, too . . ....... . ................................... . . .... . ....... . . RolAug WWII 4 , i P i ii" ii"i� " l" I"" iJLit ll, i"i MU, -AL I N, N, ir Ilk wd pry. I l'i W11 p k i IS, RolAug WWII 4 APPENDIX C USDA WEB SOIL SURVEY Z 060££6£ M „65 ,85 oZ8 m o — U O Z Q i IL � 7 O � O 3 O� Q c(U G O U) M 4 d J'P4 0 f o N M f� Y Y' O ■ J O — M O n M O n M „LT ,65 oZ8 M 060££6£ z Ob0££6£ Z 066Z£6£ Ob6Z£6£ 068Z£6£ MZ£6£ M oZ8 O O IL AW ° p N N N O •i _ M - I o 1 � ~ °o Ob0££6£ 066Z£6£ Ob6Z£6£ 068Z£6£ O M O 1 M o a� i 3 - � U M _ M O N Q O 00 Q O N O m W p 0 j M z C r, O O N z O 4 W N M jif O O�}i Sathj � W In L7 W > x o -2 � L � Cr O � O ON � d r M L y N C C •0 d +� > _ L 7 N 0 C zQ ZU M M..LT .65 oZ8 Ob8Z£6£ z �i N 0 `Us U s `o Z Us �. Q IL o 3 �I o � O 3 o U Us 2 Q N 75 O U) Z O O LL Z CL 0 Z W 0 W J CL O O O N (U a) Q (U (U E N a) O Q 7 O a) E O U (U y T a) y O y a) H a) C 6) C W.5 N U) N 7 _ U U N U O -p O U y a) N Q N N O Q � E Us p 0) E O a) CL �_ UA E N > a) ° p C > 2i o o N 0 �0- C > Q a) a) '6 w y� E (U E 0)E(u O '6 6 ° C � N C ~ O U) (1) j U 6) E a) a) (U E 2), ° t E .� N 6 U y N y — W E (° Q n � C � U � O O N j y N p U u) U = �E t a) U v N N (U N U) -0 O 0) N N j O O E U a) cn E w 2 �_ U E y y O -yo O 0(8 i N a) c y f Q (U y p Q Q y 6 O (h a) O ° N a) o O O O C Q y U d _0 y (1)'6 Z 1 E U .y w ( (% o s U) Q ( U) O �a O- L N y U) U N UO N N C O 7 O N 0 6 (n a) (6 aTi 0 ° a) }} a N _ ° N U a) Q - .o a) 7 u) U O N E o 2 p = O U (U >a) (n a) a) — O Q O " -6 '6 .° N 5- a) y 3 N Q U N N U> N J> (U Z= N Q p C U a3 - a) N >� Q N (u tl) Utl) N 0 C N 3 (6 0 .L Q > E (� U a) C N Q U) E 6 O '6 .� N U) O O C U U a) U) ° U) O O N °- 3 >+ a) p U) > — a) a) a E p p c/�U (6 O n� N 2 Q=oQ U L N H� O 7 U) U) � C � U � O U) 3 C a) O s = �E t m (i — Y O N E f U) -0 O r Q y � �_ U E y y O -yo !E O i c y f Q (U y p Q f 6 w CL N E R f/) O ° (U Q a) E m ° O O s Q ° E y O a) T N 0 N N 1 a) Q a) E > U) U) a) a) ( ° N ° N a Q � N f O '6 N ° 0 6 U) L C y L a) }} a 0 6 C N 7 - Q 0) O Z a) N a) E Us E 1 0 ON H U O carw- O O N N O N 6) N N IL a) U) Uo i? U U ' U) 0 (n Q _a O U m 0 (U Z d U L U a) 7 Cl) O y . O > L L 7 N w 0 (0 O Z U a y � w Q m (i O R U R r r Q y >. �_ 2 y O -yo a O d Q U) Q 0 o CL U) J m O U N E R f/) a) m Q' O O 0 L m a R U) (n > O (n (n g R r a Q � a) }} a y ° y 0 Q U) O a o C C > > Q Q R R C > Q R a) R a Q y 3 ) Q o a w a Q U) > 3: 3 y o o = R = O o O > a) > m O` w � O o U) o U) ° Q LU _ o > z m o `o R LL 3 O a) > > a R w o v m y Q w o 0 U) U) 0 U) o o R 0 m m U a o U c7 c7 'm R J J y a) a o m U) m U) aa)) a o U) in U) U) N © R v V Q R L L Q 0 U) v1 carw- O O N N O N 6) N N IL a) U) Uo i? U U ' U) 0 (n Q _a O U m 0 (U Z d U L U a) 7 Cl) O y . O > L L 7 N w 0 (0 O Z U a Soil Map— Haywood County Area, North Carolina Map Unit Legend Subject–Parcel Haywood County Area, North Carolina (NC606) Map Unit Symbol Map Unit Name Acres in AOI Percent of AOI 5 Udorthents -Urban land 0.3 3.6% complex, 2 to 50 percent slopes DhA Dellwood -Urban land complex, 3.2 34.7% 0 to 3 percent slopes, occasionally flooded DsB Dillsboro loam, 2 to 8 percent 1.8 19.6% slopes DsC Dillsboro loam, 8 to 15 percent 0.8 8.3% slopes DuC Dillsboro -Urban land complex, 0.2 2.3% 2 to 15 percent slopes EvD Evard -Cowee complex, 15 to 30 0.2 2.4% percent slopes EvE Evard -Cowee complex, 30 to 50 2.5 27.9% percent slopes SfC Saunook -Urban land complex, 0.1 1.1% 2 to 15 percent slopes Totals for Area of Interest 9.1 100.0% USDA Natural Resources Web Soil Survey 2/10/2014 " l Conservation Service National Cooperative Soil Survey Page 3 of 3 APPENDIX D USFS NATIONAL WETLANDS INVENTORY a� W UL a r a� o ij p N 0 R CIJ l6 w a w t :E E (� LL LL W W LL -1 cn� IIIi1111 Day 1 ]F L or •.r �' - 's .22 Alft- N N 0 U i as a r: `u a °' ' � a f fr a a -$ rti f_ �.f r I Alp- 1 o L APPENDIX E DIGITIAL FLOOD INSURANCE RATE MAP �] } LU a. 4 o g �'r E LU n a. z Lu Lrj OC n O C J � y..+ 5 - a v E E LL .11 ul _ F S ° { r 4 C9 W O W = W J O c Q 7 n u. � ■ ti W�cc u. ?9 E ",80 mu 0 C) c r3l a IIi o GE tE- -- - - -- 4, Jw J J � � 5 JI J T fi + t7k J J r� w; z 1 bz: � °ry aV LU J .j r.• ~ wAY � � n V s. Z r T 1 W ❑ — ti S - A- C) Q i � ff � 4rr s r 0 i-+ Q- v � C' ~ wAY � � n V s. Z r T 1 W ❑ — ti S - A- C) Q i � ff � 4rr s APPENDIX F REPRESENTATIVE PHOTOGRAPHS Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 1 1111IMMte, AM, An' Photograph 1: Representative view of the Subject Site facing south to Jule Noland Drive. Photograph 2: Representative view of gravel road on Subject Site, facing west to Russ Avenue. Note: a 20 -foot sewer easement and 18 -foot walking trail easement are located on the gravel road. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx wqn_ 'S . .•L- S.-i.� �s_ y' �r�.}. Y- �, � _ #i�>L. ±- .f3`�if� +�'4�.5.'11ic 1' Photograph 2: Representative view of gravel road on Subject Site, facing west to Russ Avenue. Note: a 20 -foot sewer easement and 18 -foot walking trail easement are located on the gravel road. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 2 Photograph 3: Representative view of Mauney Cove Branch on the Subject Site. Photograph 4: View of vegetation at WL -1. Note: the cattails were outside of the vegetation radius plots. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 3 Photograph 5: View of hydric soil at WL -1 on the Subject Site. Photograph 6: View from WL -2 facing upland area to the east. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 4 Photograph 7: View of hydric soil at WL -3 on the Subject Site. Photograph 8: View of non - hydric soil at UPL -1 on the Subject Site. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 5 � 4 I� Photograph 9: View of vegetation at UPL -2. J } Awl f# Photograph 10: Representative view of groundwater encountered on the site. Groundwater is approximately 10 inches to 18 inches below the surface in some locations. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 6 qtu Jlck Ly. �� .'1 �'M1• _' � �F. Photograph 11: View of drainage connection from the northeastern extent of the wetland. This drainage pattern flows northeast where it reaches Factory Branch. Photograph 12: View of stormwater inlets on Jule Noland Drive. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx Wetland Delineation Photos Taken: January 14, 2014 and February 5, 2014 Jule Noland Road Property— Haywood County, North Carolina Page 7 Photograph 13: View of stormwater culvert discharging to the Subject Site. P: \Harmon, John \Wetland Delineation - Jule Noland \Appendix F. Representative Photographs - Dellwood.Docx APPENDIX G WETLAND DETERMINATION DATA FORMS PrqjecIJSitec be\�Woo& City/County: llAAIAv40dA Coo A�J_Sarnpllnq Dare:g - 5 -1 � Applicant/OWW: �kv'EMVA 'es, LLr- State: C_ Sarnpling PoinU W'L -A. lnvestigator(s);P. aI)V0_kjktAL Cl.& C - C_k Section, Township„ RangeNN), Ok V'i�kt Landform (hilislope, terrace, etc,): c 0 Lo� cal relief (concave, convex, none) Slope Subregion (LRR of MILRA): J, jgfk� tj__ Last, Long�__- 9#1 A16.3 Datum: _5.,5200 6 61AD $3 SoIl Map unit Harmer b,;� co lam (D s fz) NW f Classification: Are climatic I hydrologiccondiflois on the site typlcal for this flnie of year? Yes No — ('0 no, explain in Remarks.) Are Vegetation Soil or Hydrology _ sagnificantly disturbed? Are "Normal Circumstances" present? Yes — No-\,-/-,', Are Vegetation Soil or Hydrology — naforally problernatic? (it needed, explain any answers in Remarks.) SUMMARY OF'FINDINIGS - Attach site map showing sampling! point locations, transacts, important features, etc, ............... f4ydrophytic Vegetation Presenr? Yes %/ Nq__ V , is the Sampled Area Hydric Soil Presenr? Yes _, No a Wetland? yes No- We0and Hydrology Present? yes IN cL_ . .............. I.- .......... . . . . . . . . . . . . ............. . ......... . ..................................... . . . .... . .......... &10 vt!S Crte,�. -% A(AL 1 1C 0-AIMML -�wo * *r' 0. e CA, % 1411tr J;6i I WN HYDROLOGY . ...................... _j tifWtetland ff;drofo_gylndW RWi—. :5ggogda lridigitors (ininimunjig trPwcr re ulred 01_(,rc K A tbg( 9plIN Surface Soil Cracks (86) Surface Water (AI) — True Aquatic Plants (131 4) Sparsely Vegetated Concave Surface (138) Water liable (A2) — l]ydrogen; Suffide Odor(C1) Drainage Pattern,; (1310) Saturation (A3) Oxidized Phizospheres on I. iving Roots (0) Moss Trim Lines (13,16) — Water Marks (81) presence of Reduced Iron (C4) D" ry�Season Water Table (C2) — Sediment Deposits (B2) Recent Iron RedLIC6011 In Tilled Solis (C6) Crayfish Burrows (U) Drift Deposits (8 3) Thin Muck Surface (C7) Saturation VUble on Aerial lmagery (C9) Algaf Mat or Crust (84) Other (I-Expialn In Rernarks) Stunted or Stressed Plants (D1) Iron Deposits (135) Geomorphic Position (D2) Inundation visible on Aerial imagery (87) Sftefllow Aquitard (D3) Water,Stained Leaves (139) Microtopographic Relief (D4) Aquatic, Fauna (1313) FAC-Neutral Test (DS) . ..................... . . . ......... . .............................................................................................................................................................. . ....... . ....... - - --------------------- -- ....... ....... Surface Water Present? Yes No � Depth (inchcs):_ Water Table Present? Yes No —_ Depth i .......... ...... Saturation Present? Yes No Depih (inches): Welland Hydrology Present? Yes V/ No�_ _LrjClLIdeS N`�Fr_IbiT5eC_Q'rded Bata (StreHrfl 9�' sac e, mon4oring well, tae l'181 phOtOS, J)reViOLIS inspections), it avallable� Rc�inarks: . . . . . ...................................... .... . .................................. ____ .............. . .......... .. .......... . . .......... .. . . . . - ................. . . - ............... .......................................................................... . .... ..... . ............... . .._.m.._____________ ___ -__ -__ c4ce mw%�OV4_j- .... . ................ US Army Corps of Cnglneers Eastern Mountains and Pledniont- Version 2,0 7, W t" -I- VEGETATION (Four Strata) - Use scientific names of plants. samphrig Point; 20%, of total cover; 0131. species x 1 = . . ............... AbSOILM) Dominant kidIcat r . . . . Dominance Test worksheet! .. ........ .... .... ... . .. . - . .................... . C. . 2? 51210,' L f minant Species Nomber o Do FAC species x 3 .11 — I That Are OBL, FACK or'FAC: FACU species x 4 - (A) I — Total Number of Dominant o ........................... . ..... .' Species Across All Strata: Percent of Dominant Species V Prevalence Index - B/A . ......................... . That Are 081., FACK or FAC; Hydrop,hytic Vegetation indicators., (A18) 7, Prevalence Index worksheet: ..... . . . . . . ..... .... . . ........... 2A -,,rotai cover WA LZ 60% of total covet to 20%, of total cover; 0131. species x 1 = Sr ra�inctiSfrrcrla Stratum (Plot size: FACW species x 2 . ................... 11 FAC species x 3 .11 — 2� _< . . . . . . . . . . . . . . . . . . . . . .............................. FACU species x 4 - 1 UPL species . . . . . . . ............ . . . .......... x 5 Column 'rows: — (A) (B) VW - Prevalence Index - B/A . ......................... . ............. Hydrop,hytic Vegetation indicators., 7� a,. I - R,apid "rest. fur Hydrophytic Vegetation — V2 - DominanceTest is >50% 9. — - ----- . . ... . . .. . .. . . . .......... . ..............mm. 3 - Prevalence Index is s'101 Total Cover, 4 - Morphological Adaptations' (Provide supporting 50% of total cover: — 20% of total cover: data In Reniarks or on a separate sheeo Herb Straturn, (Plot Size� 51 N/ Problematic Hydropl'iyk Vegetation' (Explairi) . . . . .................. &Ankrap#), Oka Y%, cqj% VMA!� 'Indicators of hydric soil and wetland hydrology, must I 0 CLea —U be present, unless disturbed or problematic. 'F6wwr 4. 1 NFj eoft Vegetation strata: f. ,I Tree - Woody plants, exdudinq vines, 3 in, Q,6 cm) or . . . . . . ... . ... . .................... . .............. ► Ift C.k 0 (INW-1, L& _(4 nwr(,.� In diameter at breast height (013H), regardless of Sapling/Shrub - Woody plants, excluding vines, less than 3 In. DB,Ff arid greater, than or' equal 'to 3,28 it (1 M) tali, Herb - All herbaceous (non-woody) plants, regardless -'rotal cover of size, and woody plants less than 128 ft tall. 50% of total cover,: 20-1. of total server Woody Vine Slratoro (Rot size: ",so, Woody vine All woody, vines qre�,Apr than 3.28 fl, 111 'A ry oX 1. 'To x 0 A ? / _— EA--height. - 2. 31 .......... ......... 4h Hydrophytic 6� Vegetation Total Cover Present? Yes No 50% of total cover: 20% of total -- M omarks: .................... . . . . . . . . . . . . . . . . . . . . (Include photo numbers here of on a separate sheet.) US Army Corps of Engirieers Eastern Mounta0s and Piedmont - Version 2.0 =1 Sampling Point..wt. — A, Profile Description: (Describe to the depth, needed to document the Indicator or confirm the absence of indicators.) Depth &n0hQsL_ Matrix — Histosal (Al) — Dark Surfare (S7) EuLm)i Is— 1,10,m Irk c - 10 YK VO q.1D 10 YX '116 JO CUAA G -I a.S-r WA MO Piediniont Floodplain Soils (Fig) Stratified Layers (A5) ZLoarny Depleted Matrix (F3) (MLRA 136, 14,1) 2 cm Murk (A10) (LRR N) Redox Dark Surface (F6) Very Sivillow Dark Surface (T F1 2) Hydric Soil Indicators: Indicators for Problematic Hydric Sofls'. — Histosal (Al) — Dark Surfare (S7) 2 cm Muck (A10) (MLRA 147) — I listic Epipedon (A2) — Polyva1uQ Bei0w Surface (S8) (MLRA 147,148) Coast Prairie Redox (Al 6) — Black t4istic (A3) — Thin Dark Surface (SO) (MLRA 147, 148) (MLRA 147,148) l°lydrogen Sulfide (A4) Gleyed Matrix (1-2) Piediniont Floodplain Soils (Fig) Stratified Layers (A5) ZLoarny Depleted Matrix (F3) (MLRA 136, 14,1) 2 cm Murk (A10) (LRR N) Redox Dark Surface (F6) Very Sivillow Dark Surface (T F1 2) Depleted Below Dark, Surface (A11) Depleted Dark Surface (F7) Other (Explain in Remarks) Thick Dark Surface (Al2) Redox Depressons (F8) Swirly Mucky Mineral (Si) (LRR N, Iran-Manganese Masses (F12) ('LRR K MLRA 147,148) MLRA 136) — Sandy Gleyed Matrix (S4) — t fnibdc Surface (H 3) (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) — Red Parent Material (F21) (MLRA 127, 147) unless disturbed or problernatic, Typer Depth (inches): J47ar i a rks: Cla � Hydric Soil Present? Yes V/ INo — U 5 Army Corps of Enoncers Eastern Mountains and Pledniont -, Version 2.0 WETLAND DETERMINATION DATA FORM — Eastern Mountains, and Piedmont Region & —6—JI _j��.&__ cily/county: sarnpling Dato:9-- rafv�l�stkra�f� icaOwner: IA� ��"���..� State, sanli)llng PointwW4 . . . ................. (s) S ection,'rownship, Rango" andforrn (tillislope, terrace, etc)� JRe _4)� Local relief (concave. convex, giope q e - C Daturn- Subregion (I-KIR or Ml..RA): _LgA_� _�' --- — - — - — ... - - _ Lorq C Soil Map Unit Names . . . ................... NWl classjfjcat�nrl: JVQ)N�,- Are clirnatic, ItrydroicigIc conditions on Vie site �ypical for tlils tirne of year? Yes, _.� No _ (If no, explain In Rcrnarks,) e% No Are Vegeta tion Solil or Hydrology siqnlficantly disturbed? Are "Nornial GlrCUMStOITce-" pfeSOnt? Y An, Vegetation Soil y MAIArally problernatic? (If needed, exp4aln any answer's in Rlefnarks,)l . ........................... � or I lydroloq __ SUMMARY OF FINDINGS — Attach site map showing Sampling point locations, trap sects, important features, -etc Flydrophytic Vegetation Pres(Nlt? Yes Now Is the Sampled Area I lydric Soil Present"? yo s, No.. within a Wetland? Yes No- Wetand I lydrolor')y Present? Yes ............. .............................. 1i_Cq1Vtrl(f1� . . ..... . . ......... . . . ........ . . ......... S"k as (WAYA)) AjorNt�- CAxv HYDROLOGY .... .......... �tl Hydra .. . ndar Indi gs rrriraipi ljj..qLtw (Lu j1pift U Surraco Soil ('racks (B6) . . . . . ............. Surface Water (Al) True Aquatic Plants (BI 4) Sparsely Vogetated (30i)CM Surface (138) Hir h Water Table (A2) Hydrogen Sulfide Odor ((xl) Drainage Patterns (B10) Saturation (A3) ✓"()XIdJ4ed Rhizospheres on Living Roots (C3) moss rrim Lines (1316) Water Marks (u1) Ylop"resence of Reduced trail (C4) Dry-Season Water Table (C2) Sediment Oeposim (132) Recent iron Reduclion, In Tilled Soils (CG) Crayfigh Burrows (CS) Drift IEaeposits (B3) Thin Muck Surface (07) Saturation VAsiNcs on Aerial Imagery (C 9) AlgM Mat or Crust (134) Oth w (Explain in Remarks) Stunted or Stressed Plants (01) Iron Deposits (135) Geomorphic Position (1) 2) InUndalic'n Visible on Aerial Imagery (f)7) _Shallow Aquit ird (Dj) WaM,Gar,.Stainod heaves (139) Microlopographic Relief (D4) Aquatic Fatina (1313) FAC-Neutral Test. (05) ............ . . . . . . . . . ...................... . ....... . .. .. . . ...... ations: Surface Water Present? Yes No %,/ [)epth (inches): ............ Water Table Present? Yes No� Deptili (inchos) No No Saturation Present? Yes Depth (Inches Wetland Hydrology Present? Yes 09 jm� ..1921ud �" ca� V11)u, Descritw Recorded Data (�Jrearn gauge, 5 inspt, ir, . . . . . ........................ . ........... ....................... . . . . . ................. . . . ............... . . .... . .. . .. . .. .. . . . . . .............. Rerrwrks; - - ------------------------ US Army Corps ofErigirwers Eastern Mountains and Piedmont— Version 2,0 VEGETATION (Four Strata) — Use scientific names of plants. Saimpling Point: NIJ L -'*N% Treo Stratum (Plot size: ZJvo 3. . . . . .......... T, Absolute Dominant Indlcator Dominance Test workslheety Numbor of Dorninant Species That Are OBL, FAM or FAC: (A) Total Number of Dominant Species Across All $tratm (I3) Percent of Dominant SI'lecies That Are OBI, FACK or MAC: (Affi) Prevalence, Index worksheet. Total Cover Total % Cov( wr-af,— -Miglipl mi, 5011/o of total cover: . .............................................. . . . . . . . .. 20% of, totat coven 081,. species . ...... X! 1 . . ......... . ............... �Vi t$ imix.kratm Pot slze:15�—) FACW species x, 2 - FAC speries x 3 - Z. FACO species x 4 - 3. ........... L)PL, species x 5 - k COILImn Totals: (A) (B) ww Prevalence Index = B/A 6. .. . ..... . ......... . . ........ . ...... . .............. . Hydrophytic Veta6W'indWi6is; eg . ...................................................... ............ Rapid Truest for Hydrophytic Vegetation 2 Dominance fost is >60% 9, NOT ttt'kk'r Ak4d► c4o�rz Ywk- bpvo%UL� Total Cover, 3 - Prevalence Index is X3,0' 50% of total cover; 20% of total coven— ........... 4 - Morphological Adaptations" (Provide SUPPOrting — Herb (Plot slze: data in Retmrks or, on a separate sheet) Problernatic Hydrophyfic Vegetation, (Exptain) 1 Myo^" Wo ".4 la �C. "Indicators of hydrk'., soil and wetland hydrology must at V� 0 o 13 re s e n I, U n I P s s d I s t o r h e d or p r o b le rn a I I c Vk 5 rVt d 'r Vw 0 ef i n It to n so If Four V e g et a ti o n S 'tra ta ails . ' 6. "M Tree - Wood plants, excluding vines, 3 in, (TA crii) or y rnore in diameter at breast height (1)[311), regardless of 7. height, 8. . ............................................................... . . ..... Saplingl'Shrub - Woody pkints, excluding vines, less 9. than 3 in. DBH, and greater than or equal to 3,28 (1 (11 Herb - At herbaceous (non-woody) plants, regardless x. Total Cover of'size, and woody plants leas; than 3.28 it tall. 50% of total Cover: _!o 20% of total coveri �0 .. . .... (Plot size Woody vine - All woody vines greater than 3,28 i't In ; h0g ht. 21 r V L� Hydrophytic Vegetation Total Cover Present? Yes No 50% of total cover 20% of total cover;,_ PWrTiks" f)-o' to —n i i i-) b e-r' s I ie—re", o-i-66, a'se`p"-ara-'Re sheet.) ' - '' ................................................................................. . . . .. . .................... .. .. ...... .............. US Army Corps of Fnglneors Eastern Mountains and Piedmont - Version 2,0 Sainpling Iloint: W 1..- 9 ...... . . ..... - ---- .... . ........ ...... Profile Description: tOescribe to the depth needed to document the indicator or confirm the absence of indicators.) Deptic RedL)XjF"r�dqLQ,�__ winches LclQr moist', _ Color QW) --L7-W - 7 — —. . .. rks lam_ 10 YR :51`___ A2-Y—K r —(7,— -10AYA I lydric Soil Indicators: Histosol (Al) — Dark SUrlaCe (57) I fistic EpIpedon (A2) — P()IyVaIUO Below SUffafe (SB) (IVILRA147, 148) Black Flistic (A3) Thin Dark Surface (159) (MLR!A 141, 148) Hydrogen Sulfide (A4) Loany Gleyed Matrix (F2') Stratified Layers (AS) Depleted MaVIX (0) 2 can Muck (A'10) (LRR N) — Rcdox Dark Surface (F6) Depleted Below Dark Surface (All) — Depleted Dark Surface ([-'7) — Thick Dark Surface (A1') — Redox Depressions (FU) — S011dy Mucky Mineral (St) (LRR N, -VIron-manganese Masses W12) 0-RR N, IMI-Rh 147, 148) MLRA, 136) — Sandy Gleyed Matrix (S4) (Jn,)bt,icSiii,fai(,e,(FI3)(MLRA'136,122) — 5andy Redox (S5) Piedmont Floodplain Solls (1`19) (IVILRA, 148) Stripped Matrix (SB) Red Parent Material (F21:) (MLRA 127, 147) Restrictive: I ayer (if observed): Type: Depth (inrhes)�! ow ore l"l-=P Lip I (V9-Matrix. .. . . . .... .. 11dNcakors for Problematic Hydric Soils 2 cm Muck (Alo) (MILRA 147) Coast Prairie Nodox (Al 6) (MLRA 147, 148) Piedi,riont Floodiplain SoiN (Fl g) (MLRA'l 36, 147) Very Shallow Bork $urface ('TF12) 01hor (,Explain In Remarks) 'Indicators of hydrophytic Vegetation and we lland hydrology most be present, unless disturbed or problematic. I I Hydric Soil Present'? Yes -!!L No VA 46 61OLA c-0 llkcx6 WC4,e, ob�vaJ- N var tai"tA tea a�r-44-$ io lop, -S�Ak Aeklw?� c-"r&.cJi US Army Corps of Engineers Lastern MOLIMairIS Orld Piedmont Version 40 WETLAND DETERMINATION DATA rORM ® Eastern Mountains and Piedmont Region state: Samp1lriq Paint: _W_-4=___3 ........ . . . Inve-stigator(ON. Section, Township, _y Landform (hillsloj)% terrace, etc.), 1..acaf relier (concave, convex, rione): ALQ Al � Slopo (,%):. sut)regioti (I_Pr� or MLRA ). Lat. 0 7L Dalurn: . . . ....... • Soil Map Unit Naffie: 'L�dkA. O(A NWI Ate cliff -notic I hydrologic conditions Oil (110 Sito (YJACM for this (Ime of Yeat"? YL _N_ No _ (If no, explain in Remarks.) Soil Or f jydrology ............................... Aanco 'ent? No Are Vegetation significantly disturbed? Are'Nornial Circuin,,, , S" pres 1. yes_ Are Vegetation $Oil ........... __, at, Hydrology . .... .,. naturally problernatic? (If rieeded; explain any answers In Remarks.) SUMMARY'OF FINDINGS — Attach site map showing sampling point locations, transects, isriportant, ho. atures, etc. a. I,----- . . . . . . . ................ "I',"",',,, . . . .. .. .. .. .. . . .... . . . ....... .... ................ ...... . . . . ....... ____. . . . . ......... ... . ........ . Hydrophytic'Vegetation Prosr-Int'? No is Oie sampled Area Hydric Soil Present? . .... . within a Wetiland? Yes, Na ,senr? Yes_ No__ Weiland I lydrology Pre ...... . . . . ................... .......... Rernarks S-�e^w% Y" 'Oe- e'lvN"KL�� A V�' 0'fTrQA"^Ak Qkow" b , 0,531,1 r-CC#&tk'9AA9,4j re por� Cm4v-4 G110AaLq_ ................... . . . . . . .................. . . . ...... . HYDROLOGY — — ------------------------ — . ..... r [Lj,� Win 0 11 K'fl—an"d Hydrology Indlicatom c a r �&;F )Li�d�i c a ' tor$ ett SUFfaCe S00 Cracks (136) Aquatic Plants, (B '14) — Sparsely Vo',getatecl Corrc�ave SUff,9Ce (88) urface Water (Al) True V ligh, Watef'I'able (,A2) Hydrogen Suffide Odor (CI) — Drainage Patterns (1316) Oxidized Rhizospheres on Living Roots (C3) _ Moss Trho Lint s (616) Saturation (A3) Dry -Season Water Table (C2) Water Marks (131) Presence of Reduced Iron (C4�) — Sediment Deposrits (82) Recent Iron Reduction In'filled Soils (CO Crayfish Burrows ((,,8) Drift Deposits (133) Thin Muck Surface (0) Saturation VWble on Acrial,laiagery (0) Algal Mat or Crtist (134) Other (Explain in Rernarks) stunted or Stressed Plants 01) Iron Deposits (135) Geornorphic Position (D2) Inundalloti Visible on AetUit linagery (137) Shallow Aquitard (D.3) Water-Stained Leaves (149) Microtopographic Rolief (DI) Aquntic, F auria (B1.3) FAC-Neuiral Test (05) ............... F . ............ -.-1-111".�,,�Ill""I'll"-----..--"""�'ll",'ll""I'll""ll,�l,'I . . ..... . . . ............... hfl� �bser�iFtli 3n5, Surface water Present? No .......... . DeplJ1 wa Water Table Present? Yes No Deptli (incl fans) Ye V/ I yes th Welland Hydrology Present? S No ;oLuratilaii Present'? No_ Dep frin( — ... .. . . . . ...... . ........ - — - - -- - . - - . .. .. ................ 76i Pe,scribe Recorded Data (stioarn gauge, rMoll0ring well, aerlil Fliotos5pr� V"lous Inspections), if avWa e: r. . ....... . . ...... . . . . . ..................... . . . ........... US Arrnv Corps of Engineers ris[ern Mountains and Piedmont — Vorsion 2.0 VEGETATION (Four, Strata) — Use scientific names of plants. Absolute Dominant Indicator Tree Stratum (Plot slzo� —W-11 — ? statu 10 cover -amgies . . . . . . . . . . .................................................. . .................................. . .... . . . ............. 2. 3. 4. . . . .............. 7. Total Cover 50% of total cover,- 2D'% of total cover: .9 (Plot slze:_.6 ........... . ....... - - ------------------------ ---------- 2, Ac w ro)�CQv^ ............ 7. ...................................... . . . . . ........... . ................. Total Cover 50% of total coven L5 20% of total Cover: H,v[k_5jrgjl,yn_i (Plot size: 1 , 'S g0Crr onodeiii, se -A -,, b's �% 2. kvr!�!O rQ Sj%(e AS ao 05L 3. 4N rou�A—_4 kaf-KE& to 06 L Sa:mpli ng Point: Dominance Test workshect,, Number of Dominant Species That Are 08L, FAM or FAC: (A) Total Number of Dornitiant Species Across All Strata l (B) Percent of Dominant SpeCioS That Are 0131., FACK or FAC: I -..,o (A/13) Prevalence iIndex worksheft To tti I %, Qmmr aL- 0131., species x 11 . ........ . . . . . . . . ............................. rACW spedes x 2 - FAC species X 3 - FACU species X 4 UPI. species x 5 Column Totals: (A,) (B) Prevalence Index - B/A - Hydrophytic Vegetation Indicators-, Rapid Test for I lydrophytic Vegetation Dominanco Test. is :,50% 3 - Prevalence Index is :0,01 4 - Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetlarid hydrology must be present, unless disturb or problernak. Tree -- Woody plants, excluding vines, 3 In. (7.6 cm) or more in diarneter at broast lielght (DBI 1), regardless of 7. height. 51—.....--------------,-- , Total Cover 50% of total covej% 20% of total cover: ............... - — - -------- rs here or on a seoarate sheet,11 — ---- - Sapling/ Shrub Woody plants, excluding vines, less than 3 in. 0131-1 and greater than or equal to 3.28 ft (I m) tall. Herb - All herbaceous (ronm woody) plants, regardless of size, rand woody plants less than 3.28 ft tall. Woody vine - All woody vines greater than 3,28 ft in Hydrophytic Vegetation V/ Present? Yes No US Army Corps of Engineers Eastern Mountains and Piedmont - Version 2.0 L3Sampling Point: —W ---- Profile Description: (Describe to the depth needed to docurrient the indicator or confirm the absence of indicators. Depth T- ---j�cjlt? i ols . . . . . ........ -TYPE . . . . . . . ..................................... . ..... . ...... .... . ........ "I'll", . . ..... --c- Hydric Soil Indicators: I listosol (Al) Histic Epipodon (A2') Black I listic (A3) Hydrogen Sulfide (A4) Stratified I ayors (AS) 2 cni Muck (A10) (LRR N) Depleted Below Dark SUrface (Al 1) Thick Dark Surface W12) Sandy Mucky Mineral ($I) (LRR N, MLRA 147,148) Sandy Gloyed Matrix (S4) Sandy Radox (SS) Stripped Matrix (SO) Onairlmhon 1 ftuhe 1;F FW- Reduced Mauix, MS-Masked Szind Gr�,,jins, '[,ocatiorr WMa I ' dx., Indicators for Problematic Hydric Sc Dark Surface ($7) — 2 crn Muck (A10) (MILRA 1,47) Polyvalue 8clow Surface (SB) (MLR A 147, 148) _ Coast Prairie Redox (A16) -1-hin Dark Surface (59) (MLR A147, '14 8) (M LRA'1 47, 148) L oanly Gleyedi Matrix (1"2) SP 19) — Piedi -n ont F loodplain olls ( V�nepleted Matrix (0) :7 (MLRA'136, 147) Redlox Dark Surface (FO) — Very Shallow Dark Surface (1'( 1'2) Depleted Dark Surface (F7) — Other (Explain in Remarks) R e F clox Depression (B) ,. — fron-Mariganese Masses (F12) (LRR N, MLRA,136) — Urnbric Surface (1- 13) (MI-RA'1 36, 122) "'Indicators of hydrophytic vegetation and Pledn-iorit FloodpWrr Soils (F19) (MLRA 148�) wetland 1�ydroloqy must [)a present, Red Parent Material (F21) (MLRA 127, 147) unless disturbed or problematic. Type: v Depth (lrwhes)� . . ............ . . ..... . ..... . . Hydric Soil Present? Yes No LIS Anny Corps of Engineers Eastern Mountains and Pleclawnt, - Version, 2,0 WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont Region Project/Site.. k tog& gg&t _—City/(' ounty:� Sampling Datei;2-5 -if A pplic an I I Owner: . . .... . . .................. . state: SarrlpMng point:-Qvi. , S etiot'l, Township, Lmidfurrn (tilli[slopo, terrac Locat relief (concave, convex, none): –!�'A Slope 00: m" etc.)� Subregion (LRR or ML RA)„ Lat; t -n Da ui Self Map L)nit Narnes Nffl Are cliniatic / hydrologic conditions on tjj(,a site typical for this time of year? Yes _"� _ No _ (if no, explain In Remarks.) Are Vegetation Soll or HydrolOgy . ............. SA9111ficantly disturbed? Are "Normal Circl,imstances" presonr? Yes No Arcs Vegetation wers In Renrrarks�) (if needed xiolainanyans SUMMARY OF'FINDINGS - Attach site map showing sampling point locations, transects, important features, etc. .'1.---'''' ............... . .. . . ....... [lydrophytic Vege(ation Present'? Yes Nu 2 is the Sampled Area H Yes No No ydric Soil Present? . . . ...... —�7 .................... . within a Wetlaod? Yes _ We0and Hydrology Present? Yes NrL..-- ............... . ........ ................... . . . .............. .... ——'.– .......... . . ... ... . .... P –T—, V�:$%'V vj" "Y'�"CAC-&L 44'0w*�� C) tv ' �ar �e%k tay +tv– , \IJA Ae,.sv�kka Ay'v ) /Ve C*k COLCV Ilk ".4 HYDROLOGY UWetfand Hydrology lnd�icator's,� U re. pr IAI�Cptor�L(P, L nwi—(j) re( Suf race Soll Crac ks (136) Surface Water (Al) True AquolJc Plants (B1 4) Sparsely Vegetated C01" Me SUrface (BB) t-figil"r Water Table (A2) — Hydrogen Sulfide Odar (C 'I) Drainage Patterns (310) Saturation (M) — oxidized Rhizospheres on Living Roots (C3) _ Voss Trim I.irncss (1316) Water Marks (131) Presence of Reduced Von (Cil) — Dry-Season Water fable (02) Crayfish Burrows (CB) Sediment Deposits (B2) Recent Iron Reduction in"I'llied Soils (C6) Drift DepoM(s (133) Phin Muck Surface (C'7) saturation Visible on Aerial imagery (C9) Algal Mat or Crust (B4) Other (Explain In Remarks) StUnftid or Stressed Plants 01) Iron Deposits (B5) G eornorphic Position (D2) ' Inundai1c,)n Visible on Aerial lrjj�,jgery (W) . . . ....... Shallow Aquitard (Dj) Water-Stakied Waves (Bg) — Microtopogr8l)hic ROIInf (04) Aqual,ic Fauna (13,13) — — — — — ""' - - "'" . . . . . . . .......................... . . . . . . . . ....... . ......... . ... . . . . . .................. EAR, - Neutral Test (1)5) . . .... . ......... . Wd —0biWr v a tions:—` Surface Water Present? Yes . .. ............... No Depth (inches): . ............ Water Table Present? Yos wwp No_ oepth (Inches) � ............ NOZ SAILIF"atiOrl Present? Yes No Depth (inches):-- Wetland Hydrology Present? Yes_ i �'Iudps C�q.!Paoly Dc!scrlbe Reco ded 5,�'ta (stMaro gauge, 11101*00119 well, aerial Fit ()% j.ijT(�2us Wj,)�;j65' , if rvollable: . ................ . . F�r�'6i"aFrksl - — — ----------------------- - - ....... . ...... . ............ . . . . . . ........... . . .... D'O-S�kk . . . . ...................... . . . . . . ............. . . US Arrity Corps of Engineers Eastern Mountains and Piedmont – Version 2.0 VEGETATION (Four Strata) — Use scientific names of plants. Absolute Doininant kidicatoi J ��C& a Z' Tree Stra i tract (Plot sze: %_0Q=L Le II—.— ............ 2, . . ..... 4�_ PNICA��.5 Foe . ................................. ___ . ....... 51 I . Total Cover 50% of lowl cover 20% of total cover,:- -M (Plot sizf, 6... .......................... t. . ......... ................ V t-- 7'. .... ...... . ........ ............................... ......... . ... . . ..... . . ...... "'Folal Cover 500/6 of tolalcovor: 20% of total cover— (Plot 5izC1 q060 ............ 2. . ........ 3. 4� ........... . . . 5. 7. . . ...................... 9- '. Total Cover 50% of total cover: 5 20P Ljw_ ... �L5 20% of total cover:J (Plot size: 2, ... .. .............. 4._ G \1 C_' \6 . " rota) Cover 50% of total covers 20% of total cover: Remarks: (Include photo numbers here or on a separate sheet,) Sol 'Aar" ('&V'0kK%%S 4"V 0 A 141 i'N Cco' I MAS, CL S a rnpl i rig P,d nt-, Bo finance TestworksheeL Number of Dominant Species 1'hat Are 0BLjACW,orFAC: (A) Total Nurnber of Dominant Species Across All Strata: Percent ofDorninant Species That Are 0BL, FACW, or FAC: (A/13) Prevalence Index worksheet: I Total % CAYQr of, Multil2ly by, O species x 11 = __ I'ACW species -.- - - - - -- x 2 -, . . ................... . ... . ... . . FAC species X 3 , — FACU s — pecies X4- _160 UK. species X 5 Column Tota& (A) (B) Prevalence Index n 111A,,, Hydrophytic Vegetation Indicators: 'I - Rapid festfor ldydrophyflc Vegetation 2 - luminance Test is >50% 3 - Prevalence index is 4, - Morphological Adaptations' (I-Provide supporting data In Remarks or on a separate sheet) Problematic Hydroptiytic Vegetation' (Explain) 'Indicators of hydric sell and wetland hydrology mu% be present, unirns disturbed or problematic. Definitions of Four Vegetation Strata: Tree Woody plants, excluding vinc,.s, 3 in. (7.6 crn) or more In diameter at breast height (DBVI), regardless of height. SaplingfShrLib - Woody plants, excluding vine$, loss than 3 41, DF31-1 and greater than or eqwl to 128 ft (1 n,i:) fail. Herb - All herbaceous (non-woody) pLvits, regardless of'sire, and woody plants less Haan 3.28 ft tall. Woody vine -All woody vines greater than 3,28, h, In Hydrophytic Vegetation Present? Yes N o ok J_ 0 kaAs� Ct 0 w4 sued eA. US Anny Corps of Engineers Eastern Mountains and Piedmont - Version 2,0 M 2 or confirm the absence Sampling Point:! -LRi, 71- Depth Matrix Redox Features J-020195 . . ........ color (moist) Color (linols Q jojSg(L,,- .1111111-1.11 .................... . ............ ...... � ggrks 0-16 M v"I ,-Type' ration I (" Hydric Soil lndicatorst 1-45tosol (Al) Histic Epipedon (Q) Black Histic (A3) Hydrogen Sulfide (A4) Stratified Layers (A5) 2 (,;rn Muck (A10) (LR R N) Depleted Below Dark Surface (A11) TfOck Dark Surface (A'12) Sandy Mucky Mineral (S'l) (L. RR N, ML RA 147,148) Sandy Gleyed Matrix (S4) Sandy I�edox (S5) Stripped Matrix (S6) Typp: Depth (h1che-s):, edr.jr,ed Matrix, MS Masked Sand Grains. "Lacatkwu PL=Porp .. . .. . .. . ....................................... . .. . . . ...... ....... . ............ Indicators for Problematic I lydric Soils' — Dark Surface (S7) — 2, cm Muck (A10) (MILRA 147) — Polyvakle Bek)w, Sk.glace (S ) (MILRA 147, 148) _ Coast Prairie Redox (A,16) — Thin Dark Surface (SO) (MLI7A147, 148) (MILRA 147,148) — Loarny Gleyet] Malrlx (F2) — Pledn'ront I"loodplain Soils (171 9) — Depleted Matrix (F3) (MILRA136,147) — Redox Dark SUrfaCC (H) — Very $ hallow Dark Surface (1412) — Depleted Dark Surface (F7') Other (Explain In Remarks) — Redox Depressiorrs (F8) — Iron-Manganese Masses (F12) (LRR N, MLRA 136) — I.Jrnbric Surface (F13) (MLRA 136,122) 'lndicators of hydiophytic vegetalbn and Prc,atlmont Floodplain Solls (F19) (Mt RA 148) wetland hydrolog y nnust be present, Red Parent Materlat (F21) (MILRA 127', 147) unless disturbed or problematic. Hydrlc Soil Present? Yes No US Army Corps of Engineers Eastern Mountains and Pledrnow .- Version 2,0 WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont Region proje Site� city1county: Sampling Date:9--15 --IY- 'Cv P—g �wo Applicant/Owner: 1>rAvAlr�% KA44� . . . . ............... Slater Sampling Polnt Opt _C 1 jqmimitL hip Sectlon,Town5 _. slope VY Landform (hillsiope, terrace, -ka&L� LccM reflef (concave. convex, Subrr,�glon (LRR or MI RA): ......... . . . . J�g 3-�>-6-0 . .............. Long U*, Soil Mal) Unit Name � ............ ——', NWI classification: WAIA�E Ate climatic / hydrologic conditions on the site typical for this tirne of year? Yes —Z— No (ff no, explain In Remarks.) Are Vegew0on Soil ed? Are "Nornial Circurristances" prosen ? Yes 01" Hydrology —, ................... - sigilificAntly OSLO') 'I Z No- Ar,e Vegetation st)jI or Hydrology— naturally problernaric7 (If needed', explain any answers In Remarks) SUMMARY OF FINDINGS -Attach site map shoWing sampling point locations, transects, important features, etc. jjydroph tic Vegetation F'resent? Yes . ........... _.,_ No . . . . ......... . ....... sampled Area y S'lle, v Hydric Soil Present? Yes No Within a Wetland? yos— No Worland Hydrology Present? Yes . . ...... . . . . . ................ tland Hydrology Indicators: ............ W&L EftmiukkG010—rL, Ulu tjhmol—a—f —0nQj*.E 0. —Ld . . . . ............. .. ..... — Surface So 110 'acks (136) urface Water (AT) True Aquatic Plants (1314) — ' Sparsely Vegetated Concave Surface (BB) ligh Water Table (A2) Hydrogen Sulfide Odor (C'1) --y"Drairtage Patterns (1310) V" Saturation Al ) oxjdlzecj j1hizospheres on, L,Mng, Roots (C3) mass rrirn Unes (1316) I Water Marks (131) Presence of Reduced Iran (C4) Dry-Season Water Table (C2) Sedirrient Deposits (132) Recent iron RedUdi0r) Iri Tilled Soils (U) Crayfish BUrt-OWS (CB) Drift DepoSkS (E33) Thin Muck Surface (C7) Saturafti Visible onAerial lrrwgCq'y (C9) Algal Mat or Grunt (114) other (Explain in Remarks) Stut,Aed or Stressed Plants (DI) Irian 00pomts (135) G eortiorphic Posftlon (D2) I miridation, Visible on Aerial Imagory (137) Shallow Aquitard (10 3) Water- Stained Loaves (139) Mlcrotopographic RQAief (D4) AqUAtIC FaUrKl (I3" l3) FAC-Neutral Test (D5) . . . .............. . . .............. . ... . . . . . . .................... . . told observations: v — -- — - "' - - "' - - . . . ...... . ............... Surfa ce Watery Present? yes No Depth (Inches):— Water Table Pfe%eut? Yes No. Depth (lnches):--jj1,,,,,— Saturation Present? Yes 2�_ No — Depth (inches): Wetland Hydrology Present? Yes, No— 7 DescFibe RecoriW bata (SIrearl, gauge, rponitoring well, aerial photo,.,, prev 'is . . . . . ................... . ------ rternarks . ............. -11111��� . . ........... . . . . . . . . .. . ....................... ............. .................... . . . . . . . . . . ......................... — V& Wit' 1 - - - ------------ - . ...... . US Army Corps of Vngineers Eastern Mountains and P edntont — Version 2.0 VEGETATION (Four Strata) - Use scientific names of plants. aunj (plot sire Absolute Durninant Indicator % coyor soe �s? - Mgig 2. t, 3. - - -.. - ------------------- - .............. . ........ 5. J. Total Cover 50% of total cover: 20% of total cover; to 51raturn (Plot Size; I 1-&bos Spa 2. 3, 5. . . . . . . . . . ........................ .............. T. . ..... 9. . . . . . . . . . . . . .... . . ............................................................................................................. -- . . . . ............. 1"ol, if Cover t 501/1. of total cover: 20% of total cover: I furb, Straturn (Plot size: 5 / 1-0,0f) ea, 2SOIA 450 3,-Vw VN6V%10, CL V�Aca 4. Q 5. 7. W 'Totalcovor 50% of total cover: 20% of total cover: ?Moody' – m 951rratujp (Plot size: 3 01 T. 2. ON 4, Total Cover 50% of total cover. 20% of total cover: Remarks: (fo&id(,.,s photo numbers here or oil a separate sheet.) sampling Point: 0 PL -,2 ................................ Dombiance"rest worksheet. Number of Dominant Species 'I hat Are 0 B L, F'ACW, or FAC: (A) Total Nurnber of Dominant Species Across All Strata; —I-- (B) Percent of Dominant Species That Are OBL, FACK or FAC Y (AIB) Prevalence Index .,, B/A - Hydrophytic 'Vegetation indicators. ............ — A � Rapid 'rest for Hydrophytic Vegetation 1/2 - Dominance Test is >50% 3 - prevalence Index is:53,0' 4 - Morphological Adaptations' (Provide supporting data in RemarRs or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 'Indcators of hydric soil and wetland hydrology Must be,; present, unless disturbed or problem atic. free – Woody plants, excluding vines, 3 in. (7.6 crn) or T rrr� C., -neter at breast height, (D1311), regardless of . in dial height. Sapling/Shrub - Woody plants, excluding vines, less an or eqUill to 328 it (1 11 ri 3, in. 0111-1 arid greater [Ile I'll) tall. Her � All herbaceous (non-woody) plaints, regaMiess of size, and woody plants less than 3,28 ft tall. Woody vine – All woody vines greater than 3.28 it In Hydrophytic Vegetation Present? Yes No LIS Army Corps of Engineers Eastern Mountains arid Piedmont – Version 2.01 013L, species is 1 FAM species x 2 FAC species x 3 FACU species X 4 UPIL species x 5 - Column Tolats: (A) (13) Prevalence Index .,, B/A - Hydrophytic 'Vegetation indicators. ............ — A � Rapid 'rest for Hydrophytic Vegetation 1/2 - Dominance Test is >50% 3 - prevalence Index is:53,0' 4 - Morphological Adaptations' (Provide supporting data in RemarRs or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 'Indcators of hydric soil and wetland hydrology Must be,; present, unless disturbed or problem atic. free – Woody plants, excluding vines, 3 in. (7.6 crn) or T rrr� C., -neter at breast height, (D1311), regardless of . in dial height. Sapling/Shrub - Woody plants, excluding vines, less an or eqUill to 328 it (1 11 ri 3, in. 0111-1 arid greater [Ile I'll) tall. Her � All herbaceous (non-woody) plaints, regaMiess of size, and woody plants less than 3,28 ft tall. Woody vine – All woody vines greater than 3.28 it In Hydrophytic Vegetation Present? Yes No LIS Army Corps of Engineers Eastern Mountains arid Piedmont – Version 2.01 00 to the depth needed to or confirm the absence Sampfing Point: OPL ' Depth f I Cinches) % T --Lo—lor- b1da.L.— 'o in, i oc tlr t_ Remarks in, v Hydric Soil lndjcators� ldistosO (Al) — Histic Epipedorr (A,2) — BUick 1•fisfic (A3) Hydrogen Sulfide (A4) Stratified Layers (A5) 2 cm Muck (A10) (LOR N) Depleted Below Dark SUrf ice (A'11) "rhick Dark Surface (Al2) — Sandy Mucky Mineral (Si) (LRR N, MLRA '147,148) — Sandy Gleyed Matrix (S4) — Sandy Redox (S5) = Stripped Matrix (S6) Restrictive Layer (if' observed). Type: Depth (inches): NO h,4- — Dark Surface (S7) — Polyvalue Below Surface (S8) (MLRA 147,148) 'rhin Dark Surface (SO) (MLRA 147,148) Loamy Gleyed Matrix (F2) Depleted Matrix (1-'3) Redox Dark Surface (F6) Depleted Dark Surface (F7) RodOx Depressions (F'8) — lron-Manganese Masses (F12) (LRR N, MLRA 136) — Unibric Surface (A 1 3) (MLRA 1136, 12 2) Piedmont Floodplain Soils (F19) (MLRA 148) Red Parent Material (F21) (MLRA 127,147) Indicators for Problematic Hydric Sc 2 crn Muck (A10) (MLRA 147) Coast Pra He Redox (Al 6) (MLRA 147, 148) Piedmont Hoodplain Soils (F19) (MI.RA 136,147) — Very Shallow Dark SL,ItfaCe (,rFI2) — Other (Explain In Remarks) )nclicators of hydrophytic vegetation and wetland hydrology rnust be present, unless disturbed or Problematic. Hydric Soil Present? Yes —, No LIS Army Corps of f-'riginoers Eastern Mountains and Piedmont - Version 2.0 ATTACHMENT 2 North Carolina Wetland Assessment Method Forms NC WAM WETLAND ASSESSMENT FORM Accompanies User Manual Version 4.1 Wetland Site Name Jule Nolan Property Date 12/09/14 Wetland Type Bottoniand Hardwood Forest #'! Assessor Name /Organization ECS- Brandon Fulton, LSS, PWS Level III Ecoregion Blue Ridge Mountains # Nearest Named Water Body Mauney Cove Branch River Basin French Broad #' USGS 8 -Digit Catalogue Unit 06010106 r± Yes rNo Precipitation within 48 hrs? Latitude /Longitude (deci- degrees) 35.524225, - 82.986099 Evidence of stressors affecting the assessment area (may not be within the assessment area) Please circle and /or make note on last page if evidence of stressors is apparent. Consider departure from reference, if appropriate, in recent past (for instance, approximately within 10 years). Noteworthy stressors include, but are not limited to the following. • Hydrological modifications (examples: ditches, dams, beaver dams, dikes, berms, ponds, etc.) • Surface and sub - surface discharges into the wetland (examples: discharges containing obvious pollutants, presence of nearby septic tanks, underground storage tanks (USTs), hog lagoons, etc.) • Signs of vegetation stress (examples: vegetation mortality, insect damage, disease, storm damage, salt intrusion, etc.) • Habitat /plant community alteration (examples: mowing, clear- cutting, exotics, etc.) Is the assessment area intensively managed? FYes r, No Regulatory Considerations (select all that apply to the assessment area) F Anadromous fish F Federally protected species or State endangered or threatened species NCDWQ riparian buffer rule in effect ['"""` Abuts a Primary Nursery Area (PNA) Publicly owned property F N.C. Division of Coastal Management Area of Environmental Concern (AEC) (including buffer) Abuts a stream with a NCDWQ classification of SA or supplemental classifications of HQW, ORW, or Trout Designated NCNHP reference community F Abuts a 303(d)- listed stream or a tributary to a 303(d)- listed stream What type of natural stream is associated with the wetland, if any? (check all that apply) Blackwater r* Brownwater Tidal (if tidal, check one of the following boxes) Lunar Wind Both Is the assessment area on a coastal island? [,Yes [*J No Is the assessment area's surface water storage capacity or duration substantially altered by beaver? Yes No Does the assessment area experience overbank flooding during normal rainfall conditions? r.Yes No Ground Surface Condition/Vegetation Condition — assessment area condition metric Check a box in each column. Consider alteration to the ground surface (GS) in the assessment area and vegetation structure (VS) in the assessment area. Compare to reference wetland if applicable (see User Manual). If a reference is not applicable, then rate the assessment area based on evidence of an effect. GS VS A ro, A Not severely altered B r, B Severely altered over a majority of the assessment area (ground surface alteration examples: vehicle tracks, excessive sedimentation, fire -plow lanes, skidder tracks, bedding, fill, soil compaction, obvious pollutants) (vegetation structure alteration examples: mechanical disturbance, herbicides, salt intrusion [where appropriate], exotic species, grazing, less diversity [if appropriate], hydrologic alteration) 2. Surface and Sub - Surface Storage Capacity and Duration — assessment area condition metric Check a box in each column. Consider surface storage capacity and duration (Surf) and sub - surface storage capacity and duration (Sub). Consider both increase and decrease in hydrology. Refer to the current NRCS lateral effect of ditching guidance for North Carolina hydric soils (see USACE Wilmington District website) for the zone of influence of ditches in hydric soils. A ditch <_ 1 foot deep is considered to affect surface water only, while a ditch > 1 foot deep is expected to affect both surface and ditch sub - surface water. Consider tidal flooding regime, if applicable. Surf Sub A A Water storage capacity and duration are not altered. B B Water storage capacity or duration are altered, but not substantially (typically, not sufficient to change vegetation). C C Water storage capacity or duration are substantially altered (typically, alteration sufficient to result in vegetation change) (examples: draining, flooding, soil compaction, filling, excessive sedimentation, underground utility lines). 3. Water Storage /Surface Relief —assessment area /wetland type condition metric (answer for non -marsh wetlands only) Check a box in each column for each group below. Select the appropriate storage for the assessment area (AA) and the wetland type (WT). AA WT 3a. A A Majority of wetland with depressions able to pond water > 1 foot deep B B Majority of wetland with depressions able to pond water 6 inches to 1 foot deep C C Majority of wetland with depressions able to pond water 3 to 6 inches deep D D Depressions able to pond water < 3 inches deep 3b. A Evidence that maximum depth of inundation is greater than 2 feet B Evidence that maximum depth of inundation is between 1 and 2 feet 4. Soil Texture /Structure — assessment area condition metric Check a box from each of the three soil property groups below. Dig soil profile in the dominant assessment area landscape feature. Make soil observations within the 12 inches. Use most recent National Technical Committee for Hydric Soils guidance for regional indicators. 4a. r, A Sandy soil B Loamy or clayey soils exhibiting redoximorphic features (concentrations, depletions, or rhizospheres) C Loamy or clayey soils not exhibiting redoximorphic features D Loamy or clayey gleyed soil E Histosol or histic epipedon 4b. A Soil ribbon < 1 inch B Soil ribbon ? 1 inch 4c. A No peat or muck presence B A peat or muck presence 5. Discharge into Wetland — opportunity metric Check a box in each column. Consider surface pollutants or discharges (Surf) and sub - surface pollutants or discharges (Sub). Examples of sub - surface discharges include presence of nearby septic tank, underground storage tank (UST), etc. Surf Sub r', A A Little or no evidence of pollutants or discharges entering the assessment area B B Noticeable evidence of pollutants or discharges entering the wetland and stressing, but not overwhelming the treatment capacity of the assessment area C C Noticeable evidence of pollutants or discharges (pathogen, particulate, or soluble) entering the assessment area and potentially overwhelming the treatment capacity of the wetland (water discoloration, dead vegetation, excessive sedimentation, odor) 6. Land Use — opportunity metric Check all that apply (at least one box in each column). Evaluation involves a GIS effort with field adjustment. Consider sources draining to assessment area within entire upstream watershed (WS), within 5 miles and within the watershed draining to the assessment area (5M), and within 2 miles and within the watershed draining to the assessment area (2M). Effective riparian buffers are considered to be 50 feet wide in the Coastal Plain and Piedmont ecoregions and 30 feet wide in the Blue Ridge Mountains ecoregion. WS 5M 2M Fmm A F A f A ? 10% impervious surfaces R'S 17 B PT B < 10% impervious surfaces ('""mm C r C '" C Confined animal operations (or other local, concentrated source of pollutants) F"' D r D r D ? 20% coverage of pasture ri E r " E " E ? 20% coverage of agricultural land (regularly plowed land) F F F F F F ? 20% coverage of maintained grass /herb F G F G F G ? 20% coverage of clear -cut land M"` H F H F H Little or no opportunity to improve water quality. Lack of opportunity may result from hydrologic alterations that prevent drainage or overbank flow from affecting the assessment area. Wetland Acting as Vegetated Buffer — assessment area/wetland complex condition metric 7a. Is assessment area within 50 feet of a tributary or other open water? Yes No If Yes, continue to 7b. If No, skip to Metric 8. Wetland buffer need only be present on one side of the water body. Make buffer judgment based on the average width of the wetland. Record a note if a portion of the buffer has been removed or disturbed. 7b. How much of the first 50 feet from the bank is weltand? Descriptor E should be selected if ditches effectively bypass the buffer. A ? 50 feet B From 30 to < 50 feet C From 15 to < 30 feet D From 5 to < 15 feet E < 5 feet or buffer bypassed by ditches 7c. Tributary width. If the tributary is anastomosed, combine widths of channels /braids for a total width. <_ 15 -feet wide > 15 -feet wide Other open water (no tributary present) 7d. Do roots of assessment area vegetation extend into the bank of the tributary /open water? r' Yes r. No 7e. Is tributary or other open water sheltered or exposed? Sheltered — adjacent open water with width < 2500 feet and no regular boat traffic. Exposed — adjacent open water with width ? 2500 feet or regular boat traffic. 8. Wetland Width at the Assessment Area — wetland type /wetland complex metric (evaluate for riparian wetlands only) Check a box in each column. Select the average width for the wetland type at the assessment area (WT) and the wetland complex at the assessment areas (WC). See User Manual for WT and WC boundaries. WT WC A ± A ? 100 feet B B From 80 to < 100 feet C C From 50 to < 80 feet D D From 40 to < 50 feet E E From 30 to < 40 feet F F From 15 to < 30 feet G G From 5 to < 15 feet H H < 5 feet 9. Inundation Duration — assessment area condition metric Answer for assessment area dominant landform. A Evidence of short- duration inundation (< 7 consecutive days) B Evidence of saturation, without evidence of inundation C Evidence of long- duration inundation or very long- duration inundation (7 to 30 consecutive days or more) 10. Indicators of Deposition — assessment area condition metric Consider recent deposition only (no plant growth since deposition). A Sediment deposition is not excessive, but at approximately natural levels. B Sediment deposition is excessive, but not overwhelming the wetland. C Sediment deposition is excessive and is overwhelming the wetland. 11. Wetland Size — wetland type /wetland complex condition metric Check a box in each column. Involves a GIS effort with field adjustment. This metric evaluates three aspects of the wetland area: the size of the wetland type (WT), the size of the wetland complex (WC), and the size of the forested wetland (FW) (if applicable, see User Manual). See the User Manual for boundaries of these evaluation areas. If assessment area is clear -cut, select "K" for the FW column. WT WC FW (if applicable) A CA CA ? 500 acres B CB CB From 100 to < 500 acres C CC CC From 50 to < 100 acres D CID C D From 25 to < 50 acres E C E CE From 10 to < 25 acres F C F CF From 5 to < 10 acres G Co G G From 1 to < 5 acres H CH CH From 0.5 to < 1 acre I C I CI From 0.1 to < 0.5 acre J Ci Ci From 0.01 to < 0.1 acre K CK CK < 0.01 acre or assessment area is clear -cut 12. Wetland Intactness — wetland type condition metric (evaluate for Pocosins only) A Pocosin is the full extent (? 90 %) of its natural landscape size. B Pocosin is < 90% of the full extent of its natural landscape size. 13. Connectivity to Other Natural Areas — landscape condition metric 13a. Check appropriate box(es) (a box may be checked in each column). Involves a GIS effort with field adjustment. This evaluates whether the wetland is well connected (Well) and /or loosely connected (Loosely) to the landscape patch, the contiguous metric naturally vegetated area and open water (if appropriate). Boundaries are formed by four -lane roads, regularly maintained utility line corridors the width of a four -lane road or wider, urban landscapes, fields (pasture open and agriculture), or water > 300 feet wide. Well Loosely A CA ? 500 acres B CB From 100 to < 500 acres C CC From 50 to < 100 acres D D From 10 to < 50 acres E CE < 10 acres F C F Wetland type has a poor or no connection to other natural habitats 13b. Evaluate for marshes only. Yes C No Wetland type has a surface hydrology connection to open waters /stream or tidal wetlands. 14. Edge Effect — wetland type condition metric (skip for all marshes) May involve a GIS effort with field adjustment. Estimate distance from wetland type boundary to artificial edges. Artificial edges include non - forested areas ? 40 feet wide such as fields, development, roads, regularly maintained utility line corridors and clear -cuts. Consider the eight main points of the compass. 'A No artificial edge within 150 feet in all directions B No artificial edge within 150 feet in four (4) to seven (7) directions C An artificial edge occurs within 150 feet in more than four (4) directions or assessment area is clear -cut 15. Vegetative Composition — assessment area condition metric (skip for all marshes and Pine Flat) A Vegetation is close to reference condition in species present and their proportions. Lower strata composed of appropriate species, with exotic plants absent or sparse within the assessment area. B Vegetation is different from reference condition in species diversity or proportions, but still largely composed of native species characteristic of the wetland type. This may include communities of weedy native species that develop after clearcutting or clearing. It also includes communities with exotics present, but not dominant, over a large portion of the expected strata. 'C Vegetation severely altered from reference in composition. Expected species are unnaturally absent (planted stands of non - characteristic species or at least one stratum inappropriately composed of a single species). Exotic species are dominant in at least one stratum. 16. Vegetative Diversity — assessment area condition metric (evaluate for Non -tidal Freshwater Marsh only) A Vegetation diversity is high and is composed primarily of native species ( <10% cover of exotics). B Vegetation diversity is low or has > 10% to 50% cover of exotics. C Vegetation is dominated by exotic species ( >50% cover of exotics). 17. Vegetative Structure — assessment area/wetland type condition metric 17a. Is vegetation present? Yes C No If Yes, continue to 17b. If No, skip to Metric 18. 17b. Evaluate percent coverage of assessment area vegetation for all marshes only. Skip to 17c for non -marsh wetlands. A ? 25% coverage of vegetation B < 25% coverage of vegetation 17c. Check a box in each column for each stratum. Evaluate this portion of the metric for non -marsh wetlands. Consider structure in airspace above the assessment area (AA) and the wetland type (WT) separately. AA WT Q CA CA Canopy closed, or nearly closed, with natural gaps associated with natural processes mB C B Canopy present, but opened more than natural gaps v Co C'C Canopy sparse or absent o A CA Dense mid - story /sapling layer B C B Moderate density mid - story /sapling layer C E C Mid - story /sapling layer sparse or absent A A Dense shrub layer t B E B Moderate density shrub layer 0 C C C C Shrub layer sparse or absent A CA Dense herb layer a� Co B EB Moderate density herb layer _ C CC Herb layer sparse or absent 18. Snags — wetland type condition metric A Large snags (more than one) are visible (> 12- inches DBH, or large relative to species present and landscape stability). B Not 19. Diameter Class Distribution — wetland type condition metric A Majority of canopy trees have stems > 6 inches in diameter at breast height (DBH); many large trees (> 12 inches DBH) are present. B Majority of canopy trees have stems between 6 and 12 inches DBH, few are > 12 -inch DBH. C Majority of canopy trees are < 6 inches DBH or no trees. 20. Large Woody Debris — wetland type condition metric Include both natural debris and man - placed natural debris. A Large logs (more than one) are visible (> 12 inches in diameter, or large relative to species present and landscape stability). B Not 21. Vegetation /Open Water Dispersion — wetland type /open water condition metric (evaluate for Non -Tidal Freshwater Marsh only) Select the figure that best describes the amount of interspersion between vegetation and open water in the growing season. Patterned areas indicate vegetated areas, while solid white areas indicate open water. A CB C D 22. Hydrologic Connectivity— assessment area condition metric (evaluate for riparian wetlands only) Examples of activities that may severely alter hydrologic connectivity include intensive ditching, fill, sedimentation, channelization, diversion, man -made berms, beaver dams, and stream incision. A Overbank and overland flow are not severely altered in the assessment area. B Overbank flow is severely altered in the assessment area. C Overland flow is severely altered in the assessment area. D Both overbank and overland flow are severely altered in the assessment area. Notes Initial wetland appears to have been a Bottomland Hardwood Forest wetland. A berm and prior clearing activities have altered the connection between the adjacent stream and the wetland. The wetland is now dominated by herbaceous species. Subsequently, saturation and slight evidence of inundation were noted, with surface flow navigating to a drainage feature which flows to the an adjacent creek. For the aforementioned reason, the site does not stay inundated for a duration to support it meeting the definition of a Non -Tidal Freshwater Marsh. NC WAM Wetland Rating Sheet Accompanies User Manual Version 4.1 Rating Calculator Version 4.1 Wetland Site Name Jule Nolan Property Date 12/09/14 Wetland Type Bottomland Hardwood Forest Assessor Name /Organization 3- Brandon Fulton, LSS, P Notes on Field Assessment Form (Y /N) YES Presence of regulatory considerations (Y /N) NO Wetland is intensively managed (Y /N) YES Assessment area is located within 50 feet of a natural tributary or other open water (Y /N) YES Assessment area is substantially altered by beaver (Y /N) NO Assessment area experiences overbank flooding during normal rainfall conditions (Y /N) NO Assessment area is on a coastal island (Y /N) NO Sub - function Rating Summary Function Sub - function Metrics Rating Hydrology Surface Storage and Retention Condition LOW Sub - Surface Storage and Retention Condition MEDIUM Water Quality Pathogen Change Condition MEDIUM Condition /Opportunity Condition /Opportunity MEDIUM NO Opportunity Presence? (Y /N) NO Particulate Change Condition LOW Condition /Opportunity LOW Opportunity Presence? (Y /N) NO Soluble Change Condition LOW Condition /Opportunity LOW Opportunity Presence? (Y /N) NO Physical Change Condition MEDIUM Condition /Opportunity MEDIUM Opportunity Presence? (Y /N) NO Pollution Change Condition NA Condition /Opportunity NA Opportunity Presence? (Y /N) NA Habitat Physical Structure Condition LOW Landscape Patch Structure Condition LOW Vegetation Composition Condition MEDIUM Function Rating Summary Function Metrics /Notes Rating Hydrology Condition LOW Water Quality Condition LOW Condition /Opportunity LOW Opportunity Presence? (Y /N) NO Habitat Conditon LOW Overall Wetland Rating LOW NCDENR North Carolina Department of Environment and Natural Resources Pat McCrory Michael Ellison, Director John E. Skvarla, III Governor Ecosystem Enhancement Program Secretary October 28, 2014 Project: Jule Noland Drive County: Haywood MIMI mlw, 'IMn7lo-, I nNU-17rofirra #7, jr,#, j, 1"r,111j 1.0 --- Y- - _-ffnl X? acts mat may require compensatory mitigatim 1eyffy USUT , = are summarized in the following table. The amount of mitigation required and assigned to NCEEP for this impact is determined by permitting agencies and may exceed the impact amounts shown below. Upon receipt of payment, EEP will take responsibility for providing the compensatory mitigation. The mitigation will be perform(m in accordance with the N.C. Department of Environment and Natural Resources' Ecosystem Enhancement Program In-Lieu Fee Instrument dated July 28, 2010. 1 Thank you for your interest in the NCEEP. If you have any questions or need additional information, please contact Kelly Williams at (919) 707-8915. Sincerely, James. tanfill eem Asset anagement Supervisor cc: Karen Higgins, NCDWR Wetlands/401 Uri David Brown, USACE-Asheville Wanda Austin, agent 1652 Mail Service Center, Raleigh, North Carolina 27699-1652 Phone: 919-707-8976 \ Internet: www.ncdenr.gov River CU Stream (feet) Wetlands (acres) Buffer I Buffer 11 Basin Location (Sq. Ft.) (Sq. Ft.) Cold Cool I Wann RipariLnt on-Riparian Coastal Marsh Coastal Marsh Impact French 06010106 0 OTO 1.2 0 0 0 Broad Upon receipt of payment, EEP will take responsibility for providing the compensatory mitigation. The mitigation will be perform(m in accordance with the N.C. Department of Environment and Natural Resources' Ecosystem Enhancement Program In-Lieu Fee Instrument dated July 28, 2010. 1 Thank you for your interest in the NCEEP. If you have any questions or need additional information, please contact Kelly Williams at (919) 707-8915. Sincerely, James. tanfill eem Asset anagement Supervisor cc: Karen Higgins, NCDWR Wetlands/401 Uri David Brown, USACE-Asheville Wanda Austin, agent 1652 Mail Service Center, Raleigh, North Carolina 27699-1652 Phone: 919-707-8976 \ Internet: www.ncdenr.gov Aarmon Graham Properties, LLC 49 Cupp Lane, Waynesville, NC 28786 Mr. Martin D. Koon Pinnacle Properties One, LLC PO Box 843 Wilkesboro, NC 28697 Dear Mr. Koon: November 14, 2014 Per our phone conversation on Friday, November 14, 2014, it is my understanding that you agree to the following: • You would like to extend the current Option to Purchase and a Contract to Sell with Pinnacle Properties One, LLC and Harmon Graham Properties, LLC for another 90 days passed our previous deadline of November 30, 2014 to February 28, 2015 at no additional cost to Pinnacle Properties One, LLC. • You also agree to adhere to the footprint drawing produced by our engineer, Wanda Austin, for the physical building and parking area on this site. • The developer will ensure storm water drainage is maintained as designed. Any future stream crossing to provide property access shall be spanning structures. If these statements are correct, can you please sign below verifying that the above statements are true and you are willing to abide by these statements. Sincerely, John C. Harmon Harmon Graham Properties, LLC I agree to the Martin D. Koon, Pinnacle Properties One, LLC 0 0 n co m m 0 m O W N ! 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I C-1 ;6 m C1 F '-' _ D i0 TI m '-' D i0 Z F9 ;u O F9 ;0 O C C .Z7 Z°m r Z m F9 � - D °D D z d z m � C1 d F- -9 m z m Z D r f'-I r rTl m r r - () -9 p (-) I ,,,,,,, z n� D p PREPARED BY: A •` o '• � D D C PROPERTY ❑F: I 'urZmzZ z HARM ❑N GRAHAM WANDA H AUSTIN PE �;:/�' ........... ° ....... fTl (� J �• V�r' -- vii < � = STORM WATER ENGINEERING SERVICES_ °� C/) ° n Q v, bd M r PROPERTIES LLC 45 HOMESPUN R ❑AD al D �� W D m D PIN # 8616 -49 -2446 P A N SYLVA, NC 28779 - 9G r ^�° ^p �_ ry td o 2511 MIDLAND R ❑AD (828) 342 -5079 OR (828) 508-2639 .,S+r ro Obi S H E L B Y V I L L E, TN 3 716 0 '•' ,,,,,,,,,,,,,,,,•' 0 0 0 co m m 0 -0 m 0 00 D z d 2 D m rn N ~O coo --1 01 l.n -p� ww-- p� w CD 02 '0 • 0C � ,0 -4. 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CD CD CD p7 CD p7 �f-, '-' r CD '.S• O O O CD In O I=J CD I.=rJ y O � �r ¢ CD c�D o TJ CND �'. � °-n I> w a � CD CD CCDD '� 0 O y O >�' r` O• a¢: ° C, CD ° C CD C CD d o o c�D o° C Q OQ Q % O "Sm C Y $n (Zy O' O.S d N H'' �i �i 3 O r `C CD O I"d OQ CD �. O OQ ',s' ° CD "�,S' (� N oU�Q �. CD N O �' O d NO N G CD � O•i Q.. Q- r N N o d C O Q- O CDC ¢ C OQ , o w � Qm ' �' v� �'.� o G1 ° co C w �n coo CD Q o O y Z ul �� G7 °' o b N Z w o N n N N O 9 (D r Q'. cny O O O '��, 'C p ''•' G C1 �. CCD CD ¢' CCD ,� N r•'t OQ ,8 y Q- O Q" O ''S' OQ O Q- 'C k3' O n o O1 (D C� ' >✓ O O CD cD o CL iC '� 'C p • 00 COD O I-Ph O n O '.�� • �. 5 Q- s UC�Q CAD '�� N C ID CD (D w ¢ CD o' CbDd '0 � y y o o o Z CD 0 ¢ C 0 N O x � y V trJ ° cD O O O O a • 'C `. � O Q ¢ a O CD Q- p O ¢. Q" O 8)C n " o n c,•-D CD CD o r w CD O CD A o O O �J o CAD x O CD O„ (° s TJ cND o 1C n r° O° O w 0 .j t n= N C °° �7 CD n � ° bd = 5 O N Q O G G O �. w CD sn � " (D >✓ CD � CD ° w >✓ CD bd CD CD C� CD C Cp .3 C 5 0. 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