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20070491 Ver 1_Year 2 Monitoring Report_20140808
oq-oLrq� FINAL ANNUAL MONITORING REPORT YEAR 2 (2013) TATE FARM (RIPSHIN BRANCH) STREAM/WETLAND RESTORATION SITE ASHE COUNTY, NORTH CAROLINA (EEP Project No. 372, Contract No. 004802) Construction Completed December 2011 Submitted to: North Carolina Department of Environment and Natural Resources Ecosystem Enhancement Program Raleigh, North Carolina AUG 8 2014 j D NR - MltR7 A�j7Y r~ ,� Ecosystem January 2014 RECEIVED FEB 2 1 2014 NC ECOSYSTEM SNHANCEMENT PROGRAM FINAL ANNUAL MONITORING REPORT YEAR 2 (2013) TATE FARM (RIPSHIN BRANCH) STREAM/WETLAND RESTORATION SITE ASHE COUNTY, NORTH CAROLINA (EEP Project No. 372, Contract No. 004802) Construction Completed December 2011 Submitted to: North Carolina Department of Environment and Natural Resources Ecosystem Enhancement Program Raleigh, North Carolina Prepared by: Axiom Environmental, Inc. 218 Snow Avenue Raleigh, North Carolina 27603 r� �m Axiom Environmental, Inc. +Il iGl1 ' 71CT i I....A. January 2014 10 EXECUTIVE SUMMARY 2 0 METHODOLOGY 2 1 Vegetation Assessment 2 2 Stream Assessment 3 0 REFERENCES Table of Contents Appendices - 1 3 3 3 5 APPENDIX A PROJECT VICINITY MAP AND BACKGROUND TABLES Figure 1 Vicinity Map Table 1 Project.Co_mponents and NLtigation Credits Table 2 Project Activity and Reporting History Table 3 Project Contacts'Table Table 4 Project Baseline Information and Attributes APPENDIX B VISUAL ASSESSMENT DATA Figures 2 and 2A -2F Current Conditions Plan View Tables 5A -513 Visual Stream Morphology Stability Assessment, Table 6 Vegetation Condition Assessment Stream Fixed - Station, Photographs Vegetation Monitoring Photographs APPENDIX C VEGETATION'PLOT DATA Table 7 Vegetation Plot Criteria Attainment Table 8 CVS Vegetation Plot Metadata Table 9 Total and Planted Stems by Plot and Species APPENDIX D STREAM SURVEY DATA Cross - section Plots Longitudinal'Profile Plots Substrate Plots Table, 10a-10d' Baseline Stream Data Summary Table '1la -1ld Momtoring Data APPENDIX E HYDROLOGY DATA 'Table 12 Verification of Banlfull' Events Table 13 Wetland Hydrology Criteria Attainment Summary Groundwater Gauge Graphs APPENDIX F STREAM FORMS Figure 3 NCDWQ Form Reaches NCDWQ Stream Identification Forms Tate Farm (Ripshm Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe,County, North Carolina Table of Contents 1.0 EXECUTIVE SUMMARY The Tate Farm (Ripshin Branch) Stream and Wetland Restoration Site (hereafter referred to as the Site) is situated within US Geological Survey (USGS) hydrologic umt 05050001 of the Upper New River'Basm and is in a portion of NC Division of Water Quality (NCDWQ) Pnority Sub - basm 05 -07 -02 The project is located in the northwest comer of Ashe County, about 1 mile south of the Virginia state line and 3 miles east,of the Tennessee state line (Figure 1, Appendix A) The Site is encompassed within a 61 92 -acre easement located in a tract ownedby'Michael and Virginia Tate The Site includes an unnamed tributary to Ripshin Branch (UT), Ripshin Branch proper, associated floodplain wetlands, and additional tributaries found on the property (Figure 2, Appendix A) This report (compiled based on EEP's Procedural Guidance and Content Requirements for EEP Monitoring Reports, Version 1 4, dated 11/7/11) summarizes data for Year 2 (2013) monitoring The project goals are as follows • Improve stream water quality and ecological function'by excluding livestock, restoring pool and nffle sequences, and restoring tree canopy and mstream large woody debris • Enhance aquatic and terrestrial habitat in the,stream corridor and adjacent wetlands • Enhance and/or restore the ecological function of riparian wetlands • Restore the riparian corridor (forested buffer) forwatershed and wildlife benefits • Enhance habitat for native brook trout (Salvelinus fontinahs) and improve fishery potential • Increase biodiversity of the stream ecology, riparian buffers, and wetlands These goals will be accomplished through the implementation of the following objectives • Improve channel geomorphology toward reference, conditions by providing watershed scaled and Rosgen -typed channel dimension, adding floodplam benches where floodplain access is' not feasible, restoring sinuous pattern to straightened reaches, where possible, =and adjusting profile as needed to restore or maintain sediment transport equilibrium • Restore streamside floodprone area where appropriate (increase floodwater access to the floodplam) • Reduce sediment and nutrient loading by reshaping and stabilizing banks, reducing bank scour, excluding livestock, and restoring riparian buffers • Enhance or restore wetland hydrology and vegetation in former pastures and filled wetlands After construction, five vegetation plots were established and sampled During Year 2 (2013) monitoring, thirteen additional vegetation plots were established and sampled Vegetation Success Criteria (fiom the,approved Ripshin Branch Stream & Wetland Restoration Plan [NCEEP 2007]) include the following • Survival of planted vegetation should exceed 80 percent after 5 years following planting (mmimum 260 stems /acre) • Planted vegetation stabilizing at 20 years with distinct canopy, subcanopy, and shrub layers • Establishment of herbaceous cover over 75 percent of the soil surface in restored wetlands and riparian areas • Plant biodiversity dominated by native species, with minimal ecological impact from invasive species Tate Farm (Ripshm Branch) (final) Axiom Environmental, Inc. _ Momtormg Year 2 of 5 (2013) EEP Project Number 372 ,January 2014 Ashe County, North Carohna page 1 Overall, vegetation was slightly below success criteria with an average of 267 stems /acre across the Site In addition, six of the eighteen vegetation monitoring plots met, or exceeded ,success criteria of 320 stems /acre (minimum stem count after 2 years) Vegetation plots 2 and 4 were below success criteria with 283 and 162 stems /acre, respectively Potential causes of the low stem counts at these plots include excessive hydrology associated with wetland restoration and over competition by sedges and soft rush (Carex spp and Juncus effusus, respectively) Additional plots below success criteria can be attributed to poor planted stem survival due to harsh, high elevation climate and poor soil's Supplemental planting throughout these areas is recommended for winter 2013/2014 One vegetation area of concern was noted at the beginning of 2013 An overbank event scoured the floodplain and deposited gravel and silt, along both banks at the downstream end of Ripshm Branch near Vegetation Plot,5, and a number of planted stems were buned.by debris and sediment This area appears to have stabilized, with woody stems reestablishing However, it is still scoured and is characterized by poor, rocky soils A visual assessment and geomorphic, survey were completed for the Site The visual ,assessment indicated that project reaches were,performrng wrthmtestablished ,success criteria ranges as'shown below Year 1 (20J2) geomorphic measurements, indicated channel widening with subsequent sediment aggradation m, a 150 -200 foot reach of the Unnamed Tributary � due to an unusually heavy ram event This area appears stable with vegetation established in year 2 (2013) It will continue to be monitored closely during subsequent,inomtofing .years Additionally, during a summer of 2013 heavy rain event, a boulder was dislodged in a,nght bank structure in, the lower portion of Ripshm Branch The boulder is .still in place but is unstable, compromising the integrity of the structure This structure isrmarked,on Figure 2B (Appendix B) During Monitoring Year 2 (2013), approximately 21,350, linear feet of additional stream was mapped onsrte using sub -meter GPS The locations of additional streams are depicted on Figures 2A -217 NCDWQ Stream Identification Forms were used to determine the Perennial /Intermittent status of each reach These forms are,included in Appendix F Stream Success Criteria (from the approved Ripshin Branch Stream & Welland Restoration Plan [NCEEP 2007]) is as follows • Channel morphology retains the design stream type over the majonty of the reach • Coarsening of nffle bed material in newly constructed reaches • Pool /nffle spacmg,should remain fairly constant • Maintenance of bankfull width at nffles within 10 percent of the design • Maintenance of bank height ratios at 1 1 1 • Bank stability over °90 percentof altered channel reaches • Dimension and profile stability over 90 percent of altered channel reaches • No significant channel aggradation or degradation • Mmunal development of mstream bars • Biological populations (invertebrate and fish) remain constant or increase and species composition mdicates,a positive trend Tate Farm (Ripshu► Branch) (final) Axiom Environmental, Inc Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina page 2 Success criteria for stream restoration will be based on stream stability assessed using measurements of stream dimension, pattern, and profile; Site photographs; visual assessments; and vegetation sampling. It is too early in the 5 -year annual monitoring period for Site measurements to determine if stream success criteria, in relation to restoration objectives, are being achieved. However, the stream appears to be functioning properly, emulates design conditions, and is trending towards success. During Year 2 (2013) monitoring, six groundwater gauges were installed at the Site. Wetland hydrology success criteri a (from the approved Ripshin Branch Stream & Wetland Restoration Plan [ NCEEP 2007]) is as follows. • Hydrologic monitoring indicates groundwater within 12 inches of the ground surface for 10 percent of the growing season • Increasing wetland vegetation • Development of hydric soils • Fulfill US Army Corps of Engineers (USACE) criteria for jurisdictional wetlands Groundwater gauges were installed in mid October 2012; therefore, no groundwater gauge data is available for year 1 (2012) monitoring. All six groundwater gauges were saturated/inundated for well over 10 percent of the year 2 (2013) growing season. Summary information /data related to the occurrence of items such as beaver or encroachment and statistics related to performance of various project and monitoring elements can be found in tables and figures within this report's appendices. Narrative background and supporting information formerly found in these reports can be found in the Baseline Monitoring Report (formerly Mitigation Plan) and in the Mitigation Plan (formerly the Restoration Plan) documents available on the NC Ecosystem Enhancement Program ( NCEEP) website. All raw data supporting the tables and figures in the appendices are available from NCEEP upon request. 2.0 METHODOLOGY 2.1 Vegetation Assessment Five vegetation plots were established and marked during the Year 1 (2012) monitoring period, and 13 additional plots were established and marked during the Year 2 (2013) monitoring period, yielding a total of 18 vegetation plots on the site. Plots were established by installing 4 -foot, metal U -bar post at the corners and a 10 -foot, 0.75 inch PVC at the origin. The plots are 10 meters square or 20 meters by 5 meters and are located randomly within the Site. These plots were surveyed in August for the Year 2 (2013) monitoring season CVS -EEP Protocol for Recording Vegetation, Levels 1 -2 Plot Sampling Only Version 4.2 (Lee et al. 2008) ( http: / /cvs.bio.unc.edu/methods.httn); results are included in Appendix C. The taxonomic standard for vegetation used for this document was Flora of the Southern and Mid - Atlantic States (Weakley 2012). 2.2 Stream Assessment Annual stream monitoring was conducted in June of 2013. Measurements were taken using a Topcon GTS 303 total station and Recon data collector. The raw total station file was processed using Carlson Survey Software into a Computer Aided Design (CAD) file. Coordinates were exported as a text/ASCII file to Microsoft Excel for processing and presentation of data. Pebble counts were completed using the modified Wolman method (Rosgen 1993). Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina page 3 Eight permanent cross - sections, six riffle and two pool, were established and will be used to evaluate stream ,dimension, locations are depicted on Figures 2A and 2B (Appendix B) Cross - sections are permanently monumented with 4 -foot metal' U -bar posts at each end point Cross - sections will be surveyed to provide a detailed measurement of'the stream and banks, including points on the adjacent floodplam, ,top of bank, bankfull', breaks in slope, edge of water, and thalweg Data will be used to calculate, width -depth ratios, entrenchment ratios, and bank height ratios for each cross - section In addition, pebble counts were completed at cross - sections 4 and S, and photographs will be taken at each permanent cross - section annually Two monitoring reaches were established (Unnamed Tributary and Ripshin Branch) and will be used to evaluate stream pattern and longitudinal profile, locations are depicted on Figures 2A and 2B (Appendix B) Longitudinal profile measurements include, average, water surface slopes, facet slopes, and pool -to -pool spacing Seventeen permanent photo points were established throughout the restoration reach, locations are depicted on Figures 2A and 2B (Appendix B) In addition, visual stream morphology and stability assessments were completed.m each of the two monitoring reaches to assess the channel bed, banks, and m- stream structures - Tate Farin (Ripshm Branch) (final) Axiom Environmental, Inc. Monitonng Year 2 of 5 (2013) EEP Project Number372 January 2014 Ashe County, North Carolma page'4 3.0 REFERENCES Ecosystem Enhancement Program (EEP). Unpublished. Procedural Guidance and Content Requirements for EEP Monitoring Projects, Version 1.4, dated 11/07/11. NC Department of Environment and Natural Resources. Available online at bttp: / /portal.ncdenr.org/c /document library /get file ?p 1 id= 1169848 &folderld = 2288101 &name =DLFE -39268 pdf. Lee, M.T., R.K. Peet, S.D. Roberts, and T.R. Wentworth. 2008. CVS -EEP Protocol for Recording Vegetation, Levels 1 -2 Plot Sampling Only, Version 4.2. Available online at hqp:/ /cvs.bio.unc.edu /methods.htm. N.C. Ecosystem Enhancement Program. 2007. Ripshin Branch Stream and Wetland Restoration Plan - Ashe County, NC. Rosgen. 1993. Applied Fluvial Geomorphology, Training Manual. River Short Course, Wildland Hydrology, Pagosa Springs, CO. Weakley, Alan S. 2012. Flora of the Southern and Mid - Atlantic States. Available online at: http: / /www. herbarium .unc.edu /WeakleysFIora.r)df [September 28, 2012]. University of North Carolina Herbarium, North Carolina Botanical Garden, University of North Carolina, Chapel Hill, North Carolina. Weather Underground. 2013. Station at Jefferson, North Carolina. (online). Available: http: / /www.wunderground. com/history/airport/KGEV /2013/l /l /CustomHistory.html ?day end =7 &monthend =6 &yearend =2013 &req_ city= NA &req_state= NA &req_statename =NA [June 7, 20131. Weather Underground. Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina page 5 APPENDIX A PROJECT VICINITY MAP AND BACKGROUND TABLES Figure 1 Vicinity Map Table 1 Project Components and Mitigation Credits Table 2 Project Activity and Reporting History Table 3 Project Contacts Table Table 4 Project Baseline Information and Attributes Tate Farm (Ripshm Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Q ♦' / 1. SA CE V r r Project Site 1 J , NORTH CAROVXA . = Ava SM'. ..f' / 4. --�� } f/4t" -' - . t w \f - CD k- 519 ftw. ic t , . y L 6;p0... p , �} , 'v«,' 194 -. � a Mauntair - `j'. PhepN� 1l Directions from Raleigh: Axiom Environmental 218 SnowAvenue FIGURE Raleigh, NC 27603 EEP PROJECT NUMBER 372 (919) 215 -1693 a Ashe County, North Carolina Take 1-40 West approx. 100 miles to US-421 North.± Project: Travel approx. 71 miles, then take a right on US -221 North.J 12- 004.13 After approx. 12 miles, turn left on NC- 194N /US -221 Bus. North. Travel approx. 5 miles, then turn left on NC- 194N /NC -88W After 2 miles, turn right on NC -194N. Continue on S. Big Horse Creek Road. Turn Left on Big Wndfall Road. After approx. 5 miles, turn left onto Rip Shin Road. ^J Site is about 2.5 miles on the right. 0 1.25 2.5 5 7.5 - iVAT% .. . Miles }i;N. - -'-•Copyn ©2013,National''GeographicSod y,i- bed VICINITY MAP TATE FARM (RIPSHIN BRANCH) Axiom Environmental 218 SnowAvenue FIGURE Raleigh, NC 27603 EEP PROJECT NUMBER 372 (919) 215 -1693 Ashe County, North Carolina Axiom Environmental, Inc. VICINITY MAP TATE FARM (RIPSHIN BRANCH) Dm. by. KRJ FIGURE Date: EEP PROJECT NUMBER 372 December 2013 Ashe County, North Carolina Project: 12- 004.13 N M L 6� z •O L a Pa W W a� fA C .o r:+ C� � O .d w U a � a ca as v, L � r b � 0 C a� L o a.1 V a �+ fr a� Cd a � E� F a N O O C N 5-' 0 0 0 W hm b, w V� N � N ¢z N O O wwQ) H �w d L 4r O r r+ r O U C W� 3 t C i C b0 O Ll Cl O M O O vl � 00 ,t oD � V CA M M N O O �D '7 LO+ 00 7 N 00 h N o0 N Q1 M "" .-i N N CA x oo L °d waWaWa.Wa..04 W04W � d d C C C G C g C q G G❑ O N O0 O N O c is c° a, y a. W a. Wa WaWwWa'". o ea a CC W O O V1 vn 00 v'� 00 00 — N M 00 00 T T OD N O to 7 O et N C:, �t [� 6� O V 00 M N [� �n .-. V^ N 00 M O N Cl M= .� N _ W C O O bL dO O O � h a G% W W W W � yN � V�+1 V1 VCl CN Vi �N+ V1 �4y1 IS N a �a L3, N �a LL N � d N a U J7 t .a to H N ��d/ HF,F, F— R V dry .-��i N �yd ed NNMM�� tC RS CS /0 ld e0 r3 r3 "aaO "O H 0 •O UU cc]] 0 cM7� CMt� Q E a R q cs a q R ¢ 33 P� a N O O C N 5-' 0 0 0 W hm b, w V� N � N ¢z N O O wwQ) H �w d Ua CJ bA O LT. P. u .1 N 5 W o C4 r M r"4 LOI) 0 cl o 0 CJ bA O LT. P. u Table 2. Project Activity and Reporting History Tate Farm (Ripshin Branch) Stream and Wetland Restoration Site (EEP Project Number 372) Elapsed Time Since Grading Complete: °2 years 3 months Elapsed Time Since Planting Comp_ lete: 1 year 11 months Number of Reporting Years: 2 Activity or Deliverable Data Collection Complete Completion or Delivery _Restoration Plan _ _ March 2007 Final Desi -_ — Construction Plans Land Mechanics Designs, Inc Se -teinlier -2009 Construction Auaust 2011 Tem _or _ S &E mix apphqd to entire project area Habitat Assessment Restoration Program Au st 2011 Permanent seed nuxfa -lied to entire project area 'Surveyor Au st_2011 Containen_zed and B " " &B lanhn s for entire reach December 2011 As= builtZonstraction Plans Seed Mix Source_ December 2011 Year 1 Monitoring 2012 October 2012 Decembei 2012 Year 2 Monitonn , 2013 _ November 2_Q t3 Jams '2014 Year 3 Monitoring 2_014, 218 Snow Avenue Year 4 Monitor 2015 _ Grant Lewis 919- 215 -1693 Year 5 Momtorin = 2016 Table 3. Project Contacts Table Tate Farm (Ripshin Branch)_Stream and Wetland Restoration °SWJEEP Project'Nuinber 372) Designer Ecologic A "ssociates, P C ,Greensboio, NC;2740.4' Mark Taylor 336- 382 -9362_ _ Construction Contractor Land Mechanics Designs, Inc Willow Spring, NC 27529 Lloyd Glover 919 -422 -3392 Planting and.Seedingg Contractor' Habitat Assessment Restoration Program Charlotte, NC 28262 'Surveyor Stewart, Proctor Raleigh, NC 27603 Herb Proctor 919- 7794855 Seed Mix Source_ `Green Resowce Colfax, NC 27235 336- 855 -6363 Years 1 -5 Monitoring Performers Axiom Envnonmental, Inc 218 Snow Avenue Raleigh, NC 27603 Grant Lewis 919- 215 -1693 Tate Farm (Ripshm.Branch) °(final) Axiom Environmental, Inc Motutormg Year 2 of -5,(2013) EEP Project Number 372 January 2014' AsHe County, North Cafohna Appendices Table 4. Project Baseline Information and Attributes ` Tate Farm ,(Ripshin Branch) Stream and Wetland Restoration Site (EEP- Project Number372) Tate Farm (Ripshin Branch),(ftnal) Axiom Enwronmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Project Information Project Name Tate Farm shin Branch Project County Ashe Project Area Acres 6192 Project Coordinates (NAD83 2007 1,037,279 65, 1,234,847,66 Project Watershed Summary Information Physiograpluc Region Blue Ridge Ecoregion Southern Crystalline Ridges and Mountains Project River Basin Upper New USGS 8-digit HUC 05050001 USGS 14-digit HUC 05050001010050 NCDWQ Subbasm 05 -07-02 Project Drainage Area (Sq Mi 2 0 Project Drainage Area Impervious Surface <5% Watershed Type Rural Reach Summary Information Parameters Reach 1 (Ripshin Branch Reach 2 (UT) Area 1 Tributaries Area 2 Tributaries Area 3 Tributaries Area 4 Tributaries Restored/Enhanced Length Lmear Feet 2300 912 2419 1362 2500 3367 Drainage Area (Square Miles 2 0 0 56 NA NA NA T NA NCDWQ Index Number 05 -07 . NCDWQ Classification - C, NSW, Tr Valley Type/Morphological 'Description II/BC4 Dommani Soil Series Colvard and Toxawa Drainage Class Well and Pooily Drained Soil H dric Status Nonh dric and H dnc Sloe 002 002 FEMA Classification NA Native Vegetation Community Montane Alluvial Forest and Swamp Forest-Bog Complex Percent Composition of Exotic Invasives <5% <5% Regulatory Considerations Regulation Applicable Waters of the U S — Sections 404 and 401 Yes - Received Appropriate Permits Endangered Species Act No Effect _ Fhstonc Preservation Act No CZMA/CAMA NA FEMA Flood lain Compliance NA Essential Fisheries Habitat Trout Tate Farm (Ripshin Branch),(ftnal) Axiom Enwronmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices VISUAL ASSESSMENT DATA Figures 2 and 2A -2F Current Conditions Plan View Tables 5A -513 Visual Stream Morphology Stability Assessment Table 6 Vegetation Condition Assessment Stream Fixed - Station Photographs Vegetation Monitoring Photographs Tate Farm (Ripshm Branch) (final) Axiom Environmenta4 Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices zm4K � U � C m LL C Y � (A U O E E O d. � m i Cn N > C w c) -i U a7 W 0 a) 0 U- C) co 0 0 0 N 0 0 O C)f 0 Lo a ml w No 5: N ti Z M = CL w� mU O o H LL Z F— Z Z Q � OF-� 0 Z a� cn Q� wQ Of U M cn C r- M O CO > T O c ?: Z N Cl) T � N � xT taT Q N O Y E O E N T E 0 U N .4.7 N O Q a. 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'N O1C OIn mr�_yy_ t` I 'mVynOC n q L c ' 8 mNgNCCS- ,°� -1p0-E m L``Nm?dFq a soap >Salcg�ov .0 wd - U = N AC 00 o m m r �mlb 3 Cg 1 -0 E m26mqq.'n alm q' OL Yj�Gng01n t � m0�mm �iN Tu g CLaoa-o nc O O ON mC > jq A Ea£ p o o u uo C u m oiu� ngc _ -- °mid «�°10aU a c 0 Pn FT oEpEAID d- cEo nm £�pn oa j o p pd 1n'^ c o -C OV ° ZJL « m m mY m `�pdL Jl Nmn ` m m t rn my�C' d ac J� ro OJ d «q`` L n� io m REo -cm @@ten � 3 q c � °mm«cmum «m m co E£ ° . c�v� E c m @ghEo' «m�uTi rj mOJ�Y E'oo3a E o gxvymmmau m 7Smn3q"oEm V Nti 4 _��os `q �E _oLnm IS t$_C ° £ m y Ymo$D m m- £omv M's n & d � U T - t.,.�E�mg n mm g�OpEty ��`o `q gNgm o mp GC N�nu On >nr�u m`mac n «EPoam aT n q B f� T u n L E o q mn «r�o°^c'Ec ~ m�0AE ow qE �ca0ii MA my � _. jm mad go'3mvm d£ a° ;S- Z'n �mimw O q n m "s o:_£ W c m r� m E t m o c iol a m_ Jm on L U _8'r JO'Npo m m C ymj =m mW c >m `J C Cly o �. > NO d« m LJ n�rC q�« £ E m O q O N > = O U -ass C L E m O bag >> m 0 W F -m._rl w m E'" >°tmyv rim v «4 o umma Tate Farm (Ripshin Branch) Stream Fixed - Station Photographs Taken August 2013 Tate Farm (Ripshin Branch) (final) Axiom Enwronmen&4 Ina Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Tate Farm (Ripshin Branch) Stream Fixed - Station Photographs Taken August 2013 (continued) Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Tate Farm (Ripshin Branch) Stream Fixed-Station Photographs Taken August 2013 (continued) Photo Point 15 Tate Farm (Ripshin Branch) (final) Aidons EnvkonmentA Inc Monitoring Year 2 of 5 (2013) EEP Project Number 372 J=wwy 2014 Ashe County, North Carolina Appendices Tate Farm (Ripshin Branch) Vegetation Monitoring Photographs Taken August 2013 Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Tate Farm (Ripshin Branch) Vegetation Monitoring Photographs Taken August 2013 (Continued) r� Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Tate Farm (Ripshin Branch) Vegetation Monitoring Photographs Taken August 2013 (Continued) Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices APPENDIX C VEGETATION PLOT DATA Table 7 Vegetation Plot Cntena Attainment Table 8 CVS Vegetation Plot Metadata Table 9 Total and Planted Stems by Plot and Species Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Momtormg Year 2 of 5 (2013) EEP Project Number 372 7anuary 2014 Ashe County, North Carolina Appendices Table 7. Vegetation Plot Criteria Attainment Based on Planted Stems Tate Farm (Ripshin Branch) Stream and Wetland Restoration Site,(EEP Project Number 372) Vegetation Plot ID Ve etahon Survival Threshold Met`! Tract Mean 1 Yes 33% 2 No 3 Yes 4 No 5 Yes 6 No ,7 No 8' No 9 Yes 10 No 11 Yes 12 No* 13 No 14 Yes 15 No 16 No 17 No 18 No* *When including natural recruits such as Red Maple (Acer rubrum), Mountain Laurel (Kalmia lahfoha), and Silky Willow (Sabz sericea) „these plots exceed 320 stems /acre Tate Farm Jbpshm Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 Januarv, 201,4 Ashe County, North Carolina Appendices N f7 z a a W W 61 C O R V O n� a R d ea .Q R O a� O C � C h rn r U� L F H v N � v'i 0 O � Q N ti 'Jr 0 A O r^ y Q i W O U N O m � a�Z �z N O O wwv �F WQ � b � Cd a _o IA J°. U is. a0+ .O rn O �O ^ a y d ~ Q% to y b � 4 .O H fn y � a •�" ed L' ° 1.. b tOd O CC W N E U e0 N 0 ; a 0 w 0 In b U� o W N °� O cd, '1"' -� p 0 O w y. (U cUd O .� 4 ti 1--� U), CA Q) N Nl q -0, c'"n Ir b°n U a s O O O O > m 3 0 a 3 b °° di CA 0u� Ca A 0 O N a� N N 41 En w a0+ y Yv~i [yr`U,,.' N N rl W ° -d) O 0 T T °� o'W o�1 �'41r o o rs x° c o a o w o 110 v �. v 4 v aa ° c8 z 0 3 uukn W A A � nU � Z °° O Vi I� 1 6� 3 cc O R cl V pro ° `� +�+ a R 0 Tn -0 Q�+ 67 z �•' a w CC G R Q O �I Q a� ��. � V] h a d d y a �r �uuzw�r A w 19 'O +' � ++ ++ CL P;A^O'o ��.A 'a aw` >SAAAa daa AGs!.1 ti R.o4� v C4 v N � v'i 0 O � Q N ti 'Jr 0 A O r^ y Q i W O U N O m � a�Z �z N O O wwv �F WQ W �i CL N •a m O a a E W W c A n N h M v s 'o a LU W W W H F 61 W Y yW. OD U u 7 'a O � x O C E N -a E c W � .. c W v v c W W c II d n o — Q _ II n a L W -,e b ? 3 M N E E N W d w w w v c E v rr W m W E 2 �i 0 0 .-I c v 0 E n u E v o- v u E m m h Ln N r Ln V � r N �••1 H 8 N m 6 rn w N 00 h N a m a, m m m C n n m a N m Fl D o O '-I m a N N a, r+ — `0 o 0 .1DI h rl M R N Ql " M � C n N rl 1-I m M N N 0o Cj� m F- v .•� m rl r! M rl O O t` f0 N o R o N n v° rn l O v a r N O H ~ O m m N a — r O N a h m m ri � M � O C � N .-I n N rl m N -zl' h N 'A 8~ O N rl M N N V N � O N 0. O .N-1 m � C a � N N [t N T O F 00 N N (0 N r O O? o°o n c c u n V m m rl N M In .--I V N Lr) O r Qc m m rl N M N Ln rl O O O ry a O Ln m a m m rl N m In rl O r N C Y1 a N r Rt M a1 lD ~ O O N rl r1 � N M Q1 .ti 14 N n r. V m O! M rl O �p G a ri r LO N lD V1 M 8~ 7 lD o o N a a C 00 a 0,11 N N N h -zr M 1 1 m co Nog rj O ~ N — � O W O N n O ry M N 1-4 O co C N n m e-1 In M In to �0 n I l, N O � lD a0 M rl Lfl m � N � O ti � O O Ln v O N n h `3 m rl in M N a m °c + Ln a v u w u v y v o E a v m u r 7 7 7 7 N •N u u ` (U W 7 O 7 W `1 W W W W 7 L 7 L W W 7 L W it W `1 W W 7 L W Q�1 W v W W W `1 W v W W i 7 L O L 7 L W W L L W W L L Ln CL E L V) F H L In L Ln L Ln f- F- F- vi in H vi F Ft n v+ LA F In In H vi vi ate+ kn r 0 u A t Z z °o E W c W c 0 A z W Z a c —W a L u > v a E t0 m o c a u o a 3 C C W W O O m L W O O v E c aa W a L3 v a o u E Q E o v -°a lJ aci W o .Y r ° '—` o °-° v v o v 3 i E '� E° E E° n E o v- R o > 0 L c Q a L 3 a to a° E m W a 3 c m 3 a u W t E E u 2 u ° E E E a w o f Z u _° E °c o> a c E E o u H 72 C ��- c >m m O v m n w c o v o 0 2 o O C 0 W a O u W « c a E c m c m u o E E c v a ° - o u o y a m 2 c c u^ u c E v u L op m >> m u p p c u '� c CA a >> n 0 a 0 c d O a V r 41 W N X X_ X h0 V 7 u V W O d d m O O tm0 d tD 10 J O c a r0 i .7/ ,7V L z L s t aC '0 m f0 N h tV0 a Q Q m m u u u u U LL LL c Y Y a a V V V cn 61 W Y yW. OD U u 7 'a O � x O C E N -a E c W � .. c W v v c W W c II d n o — Q _ II n a L W -,e b ? 3 M N E E N W d w w w v c E v rr W m W E 2 �i 0 0 .-I c v 0 E n u E v o- v u E v m c d u W CL CA V r O a d E w tA d c m a c m r N h v s �O a` a W W E GA r v Y H G) c m ` "° c uy 7 � � u O � x c 'O in m a m m II d n � u - a C � II r v 0 a � c c v a) E w 7 7 Cr Cr (l Cu V) V) Cu C) V x W W .fl E v a- v Y Q) m E V {1 0 0 C aL+ Cu E E o- v Y Ql v E LL U1 tf1 to W N c0 .� e-I M N-7 O a) a; N r m N— V) V) Ln C 00 N c0 N M r4 m o0 1-1 1-1 V '4 } d O In M _ V1 V) V) V 00 N 00 N M Q1 00 fn � c a M (p t-I V tt1 c0 3 e-1 ri M O N '~ N u1 ri V1 "o .-I N Ln m M �--I M N f� N d' M N V N t\ ry } o. O Gf V1 N V1 lD r-1 N M M e-1 TT M .-1 N N I- M Ln Ql � N V1 � � = a N N h 00 00 r g o Noo N a 0 c a v 0 e-1 r-1 N ri n � O N m c v a '-i r 0 00 i--1 N N Cr N M Q) N a a C) o o L r 0 O N O O O � O O N d O c a LD N O N rl O N O d 000 N lD O Q1 Ct M � N � to N I M N O ti O M � ,�. 0 N M N N '7 E- — N O O a v n N m N m O N c -4 r-1 1-4 00 N n .-i a--I h c0 N � co )ryi r V N M 71 y 1 O LD N o M�M O lD a ~ v W _ _ C N V) c 3 W u o m o Q �- v a d) I_ u 7 V 7 N W 7 7 7 L d N d Gl i J L 3 L N O 7 L N 4) d 7 W N d d 07 U) OJ E 7 E , E N i ` L ` L N N CL L VI r r L V) L V) V) r Vf r N I- r r V) H H r r r V) vl V) r V) V) I-" V) V) V1 y N w Z 0 E m m a) DLO. c m u v (1 a E v 3 z v L O m c oj o = 0 C O O v L O L O O m L cO O L O L '-ai' L > H i it a a � O E c a = p c L L i y v u u° `w -�° v 3- o ,c.. v v vw L E a a w` u °�' Y °a m° o u r E ° r Y -y ° w E '_� E m° E v E° r `o �' E- m" o a °-° 'o Y > 9 m L aC 3> C¢ '� ¢ L Q ao Q E ,. m v¢ 0 3 c uo n 3 0 'G u v t E E y P u m H E a ° E E m } = x o f Z 3 -° -° E o —> a c E a `!n E m u 'E m o = S M v 'o `. m -or c m cc c c Z c E E L '� "O c- y w O in V m O -O O -O m W O u N "O c > m ` 3 n am-� R m u O E E d n m o O v .� m c c U E y c j N c op c 7 m c° t10 OD i j u m m c O v 7 u n v w -O 00 u o u c m V E O Ln y d 7 7 N N m m C N O w 7 d d pp H c d m m c ` V O O -o C H m i u> ° c o o 'n c `o `° '° c .x ° E E o 3 .m. c w v a �, x x x -m m u o u a¢¢ u w c a E ¢ a) m w m `m u u o u `� u `� u m LL �- v io �c io x _, c'a G c G �v d d o Ci o C== s t r a io v* -Fu m Ln u0i R v Y H G) c m ` "° c uy 7 � � u O � x c 'O in m a m m II d n � u - a C � II r v 0 a � c c v a) E w 7 7 Cr Cr (l Cu V) V) Cu C) V x W W .fl E v a- v Y Q) m E V {1 0 0 C aL+ Cu E E o- v Y Ql v E LL STREAM SURVEY DATA Cross - section Plots Longitudmal,Profile Plots Substrate Plots Tables IOa -d Baseline Stream Data Summary Tables 11 a -d Monitoring Data M Tate Farm (Ripshm Branch) (final) Axiom Environmental, Inc Momtonng Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carohna Appendices 1 1 1 � ^ O, 1 � y ; a 1 e � C j a C :J � p 1 Y- 0 ^ 1 M 1 1 1 1 1 1 1 .J 1 wu3 °t e 1 a��w`w`AAa c c 1 I � 1 1 v�im'd'awk.w��3w`m 1 v � d ON 1 oO 1 � C � R 1 1 C Z 1 �o�MrnornN'n -fo A. 1 � M � A a 1 1 1 a 1 1 1 1 1 1 1 1 n 1 C> 1 !n c s Oaafi uopU—Nv r 1 c 1 O O� - -f .n n M M -n NO --+ --� �. 1 > o0 0� o0 0o ao r r r r r r r r o0 00 w a, o, a a In �n In In In In �n In ,n W 1 c a 1 7 V O N^ 00 M V O, r N �n � 00 N --� N M M �n 7 O l:J Q+ V' r 1 v w� •� :J a3xa`ow N N N N N fJ M M M M M � 1 1 1 � ^ O, 1 � y a 1 � C j a C :J � p 1 Y- ^ 1 1 1 1 1 1 1 1 1 wu3 °t e 1 a��w`w`AAa c c 1 �x 1 1 v�im'd'awk.w��3w`m 1 1 1 1 1 ^ 1 � y a 1 j 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 1 v e a ( a � � ro w 1 1 i i 1 i i � I 1 I 1 s; 1 1 1 1 1 1 W I 1 1 I 1 1 1 1 1 1 tir N y 1 � � 4 C/1 O N o .� V 1 6135 C 1 � 1 L 1 1 1 1 C t 4 l a •`N 1 1 LW J a 1 1 1 1 I 1 i - y' � s a E 3 O c 1 1 A c .a c ofn a'ca7 aD,— c1 woL�� r Naafi U0.11-7H �N -M - o v 7 n - M t � T M O Qr V 4 T IN IMV.V cr —�3oea 7 LY V lw� • N Va m �T M V �VM � ltM Va ' ' ' �V.M ' 'J m V[•N � v U . . n o . -' . ! 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C.Qv1 P.. a.' ca �'�bx � s 43 5 �i 'O °pp' oo o � 'a�d33 Q � ov aov �.°�3 _°•q��O 9� o yd�} ? r y1O, g'ti "� rn�rgg w o s w ` U bcqq � � '� w y M Pr ;ae^' w y tx o ry' y 3 $ Go APPENDIX E HYDROLOGY DATA Table 12 Venfication of Bankfull Events Table 13 Wetland Hydrology Cntena Attainment Summary Groundwater Gauge Graphs Tate Farm (Ripshm Branch)9(final) Axiom Environmental, Inc. Monitoring Yearn of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolma Appendices Table 12. Verification of Bankfull Events Tate Farm (Ripshin Branch) Stream and Wetland Restoration Site (EEP Project Number 372) Date of Data Photo (if Date of Occurrence Method Collection available Approximately 3.9 inches of rain documented* at a nearby June 7, 2013 January 17, 2013 rain station over a four day period from January 14 -17, 2013. - -- Wrack and sediment observe on top of banks after April 28, 2013 January 30, 2013 approximately 4.2 inches of rain was documented* at a 1 -3 nearby rain station on January 30, 2013. Approximately 4.34 inches of rain documented over three June 12, 2013 May 7, 2013 days at an onsite rain gauge. -_ Wrack observed in the floodplain after approximately 5.92 June 12, 2013 May 24, 2013 inches of rain was documented over eight days at an onsite 4 rain gauge. Approximately 4.13 inches of rain documented over two August 13, 2013 July 4, 2013 days at an onsite rain gauge. Wrack and laid back vegetation observed in the flood plain August 13, 2013 August 10, 2013 after approximately 3.52 inches of rain was documented at 5 an onsite rain gauge. *Jefferson Weather Station (Weathemnderground 2013) Bankfull Photo 1: Unnamed Tributary Bankfull Photo 2: Unnamed Tributary Bankfull Photo 3: Bankfull Photo 4: Ripshin Branch Tate Farm (Ripshin Branch) (final) Axiom Environmental, Inc. Monitoring Year 2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Table 13. Wetland Hydrology Criteria Attainment Summary Tate Farm (Rinshin Branch) Stream and Wetland Restoration Site (EEP Proiect Number 372 * Groundwater Gauges were installed in October 2012, therefore, groundwater monitoring was initiated during-the Year 2 (2013) monitoring year Tate Farm (Ripshm Branch) (final) Axiom Environmental, Inc Monitonng Year'2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices Success Criteria Achieved/Max Consecutive Days During Growing Season Gauge (Percentage) Year 1 (2012)* Year 2 (2013) Year 3 (2014) Year 4 (2015) Year 5 (2016) 1 _ 130 Days ° (81%) 2 e 160 Days a y s �+ 1,00 ° / ° y �y ia�n, r�;cs, ; -,E � � Aa � .k dvk 5 ~ as 3 _ 160 Days $ '' _ tit I 100 %� ���iWin 4 _ 152 Days` �` WN y W11 ��i ✓ ` � '�d 95 % F � `� 5 _ 160 Days 100%) y� SAi Y (% d Ys6-s 4Ay�a .ik aL�'Nn 6 _ 160 Days „ k, 100% * Groundwater Gauges were installed in October 2012, therefore, groundwater monitoring was initiated during-the Year 2 (2013) monitoring year Tate Farm (Ripshm Branch) (final) Axiom Environmental, Inc Monitonng Year'2 of 5 (2013) EEP Project Number 372 January 2014 Ashe County, North Carolina Appendices e-i C7 QD /fa L � Q f� 3 M e� � N O N t7 L LL G! 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Monitoring Year 2 of 5 (2013) EEP Project Number 372 January.2014 Ashe County, North Carolina Appendices z-0� W OWN Q Q O N 0 0 0 r • I • L•7 � U O LL cA U O E m N a U) W u) -j U J W CY) LL U) r-- M LU M C 2 o U W Q m LU � LL P-- Z OLLJU LL QLu °� ~c) C) a- Z w cn wQ C5 M E Cr-M O > N O O c 3Zui W C L N N M r X.- Q N U C O Y E O U w N E o_ N T Cl U ❑ ❑ a_ U) r-- M LU M C 2 o U W Q m LU � LL P-- Z OLLJU LL QLu °� ~c) C) a- Z w cn wQ C5 C M O E Cr-M O > N O c 3Zui W C L N E cn -M o � 75 X.- Q N U C 5 E 0 w E o_ M_ ao NC Division of Water'Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date ProjectfSite (u {� Pu-j Latitude Evaluator Pq l.; l v,'�rl X, b L County: A Longitude. 0 1 2 Total Points- r vs at least intermittent Stream Determination (circle one) Other if M if _ 19�or perennial r/ Z 30' l Ephemeral Intermittent Perennial e g Quadit me. A Geomorphology (Subtotal = Absent Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0- 1 05 3 3 In- channel structure ex riffle -pool, step -pool, n ripple-pool sequence 0 1 2 b 4 Particle,size of stream,substrate p 1 1 3 5 Active /relict floodplain _ 0 1 Q7 3 6 Depositional bars or benches 0 05 2 3 7 Recent alluvial deposits 0 V 2 3 8 Headcuts 0 1 0 3 9 Grade control 0 05 CV 15 10 Natural valley 0 0,5 1 1 11 Second or greater order channel _ No ,= 0 es - 3 artificial ditches are,not rated, see discussions in manual B Hvdroloav (Subtotal = I - 1 12 Presence of Baseflow 0 1 2 �I 13 Iron oxidizing bacteria 0 T 2 3 14 Leaf litter (131 1 05 0 15 Sediment on plants or debris 0 3 1 1 5 116 Organic debris lines,or piles 0 2 1 15 17 Soil -based evidence of high water table? No = 0 - %. oiuiuLiv (buDioiai = 18 ,Fibrous roots in,streambed, 3 2 1 0 19 Rooted upland plants in streambed 2 1 01 20 Macrobenthos (note diG&rsity and abundance) 0 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 05 1 1 5 23 Crayfish 05 1 15 24 Amphibians 0 aj 1 15 25 Algae 05 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Othigr = 'perennial streams may also be identified using other methods Seep 35 of manual Notes - Sketch 41 NC DWO Stream Identification Form Version 4.11 P'✓ - 0 Date, _ 0 Project/Site f dP ,, , Latitude. Evaluator P"' County, A Longitude Total Points: Stream Determination (circle one) Other Stream is at least intermittent a d a 19 or perenriial if a 30' Ephemeral Intermittent Perennial e g Quad Name. A Geomorphology Subtotal = Absent Weak Moderate Strong 1° Continuity of channel bed,and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 3 3 In- channel structure ex raffle -pool, step -pool, ripple-pool s uence 0 1 Q% 3 4 Particle size of stream substrate_ 10 1 1 C7 3 5 Active /relict floodplain 0 1 ® 3 6 Depositional bars or benches 0 1 2 3 7 Recent alluvial deposits 0 05 2 3 8 Headcuts 0 FACW = 0 75, OBL =1 5 _Other = 0 2` 3 9 Grade control 0 0 1 1 5 10 Natural valley 0 05 1 5 11 Second or greater order channel - Yes = 3 ° artificial ditches are not rated, see discussions in manual B Hydrology (Subtotal = 714 ) 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 0 12 3 14 Leaf litter 15 1 0 15 Sediment on plants =or debris 0 1 1 1 5 16 Organiodebns lines or piles 0 _' 1 1 5 17 Soil -based evidence of high'water tables No = 0 es = 3 C Bloloav (Subtotal = C? 18 Fibrous roots in streambed 3 2 0 19 Rooted upland plants in;streambed 2 1 0 20 Macrobenthos (note diversity and abundance) 0 11 3 21 Aquatic; Mollusks 1 2 3 22 Fish 05 1 1 5 23 Crayfish 0 05 1 1 5 24 Amphibians 0 05 1 5 25 Algae 0 05 /1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL =1 5 _Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch NC,DWQSStream Identification Form Version 4.11 Date �%� �{ - a Y7 /� Project/Site -[a le Eq .,, Latitude. Evaluator �o, '� �,, Gv �, County / Longitude, Total Points: Stream Determination (circle one) Other Stream is at least intermittent d? 19 or perennial d> 30' Ephemeral Intermittent Perennial e g Quad-Name A Geomorphology (Subtotal =_L7 7 Absent Weak Moderate Strong 1a Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 05 2 3 4 Particle size of,stream substrate 0 1 3 3 5 Active /relict floodplain 0 1 2 1 5 6 Depositional bars or benches 0 05 2 3 7, Recent alluvial_ deposits 0 1 5 3 8 Headcuts 0 25 Algae 2 3 9 Grade control 0 0 1 1 5 10 Natural valley 0 05 1 11 SecondUorgreater order,channel o - Yes'= 3 °artificial ditches are °,not rated, see,discussions in manual B Hydrology Subtotal = 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria M 1 2 3 14 Leaf litter 15 _ 0 05 0 15 Sediment on plants ordebris 0 05 21 Aquatic Mollusks 1 5 16 Organic debris lines or piles 0 05 3 1 5 17 Soil -based evidence of high water table'? No =`0 es = C Biology Subtotal = 5' �J 18 Fibrous roots in streambed 3 2 0 19 Rooted upland plants in streambed 2 1 0 20 Macrobenthos (note diversityand abundance) 0 _ 2 3 21 Aquatic Mollusks 1 1 2 3 22 Fish 119 05 1 1 5 23 Crayfish 05 1 1 5 24 Amphibians 05 1 1 5 25 Algae i 05 1 1 5 26 Wetland plants in streambed F_ACW = 0 75, OR = 1 5 Other =,0 'perennial,streams mapalso be identified using other methods Seep 35 of manual _ Notes F f i e s� '0 1 Sketch NC Division of Water Quality — Methodology for Identification of Intermittent'and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date ((• 4(_ 01 -5 Project/Site Ta.4c --t Latitude Evaluator. �P t r • o.. /1 {rcn County: /�i ti Longitude. Total Points: Stream Determination (circle one) Other Stream is at least intermittent r �� Ephemeral, Intermittent Perennial e g Quad Name: d t 19 or perennial r%z 30' v - 3 A Geomorphology (Subtotal= Absent Weak 'Moderate Strong 18 Continuity of channel bed and bank 0 _ _ 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 (j 2 3 4 Particle size of stream substrate 0 05 2 3 5 Active /relict floodplain 0 e 2 3 6 Depositional bars or benches NO 1 2 3 7 Recent alluvial deposits 0 0,5 2 3 8 Headcuts 0 1Q 2 3 9 Grade control �0 1 15 10 Natural valley 10 05 1 1 11 Second or greater order channel = Yes = =3 a artificial ditches are not rated, see discussions in manual B Hvdroloqv (Subtotal = 6 1 ) 12 Presence of Baseflow 0 1 2 0 13 Iron oxidizing bacteria 3 _ _ 1 2 3 14 Leaf litter 1 5 1 0 0 15 Sediment on plants or debris 05 1 15 16 Organic debris lines or piles 05 1 1 5 _ 17 Soil -based evidence of high water table? No = 0 e C Biologv (Subtotal = 18 Fibrous roots in streambed 3 2 0 19 Rooted upland plants in,streambed 3 C?? 1 0 20 Macrobenthos (note,diversity and abundance) 1 2 3 21 Aquatic, Mollusks 1 2 3 22 Fish 05 1 15 23 Crayfish 0 1 15 24 Amphibians 0 0 1 15 25 Algae 491 0,5 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch 41 Pil� - y NC DWO Stream Identification Form Version 4.11 Date C, Project/Site Latitude Evaluator County: i Longitude. Total Points: ((A� i Stream Determination (circle one) Other Stieam is, at least intermittent ` 1 5 Ephemeral Intermittent Perennial e g Quad Name, if z,19 or perennial if? 30' _ 2 3 A Geomorphology Subtotal = r Absent Weak 'Moderate Strong 1" Continuity of channel bed and bank 0 1 2 3 2 Sinuosity,of channel along thalweg 0 T _ 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 2 3 _ 4 Particle size of stream substrate _ 0 161 2 3 5 Active /relict floodplain 0 1 2 3 6 Depositional bars or trenches 0 1 3 7 Recent alluvial deposits 0 1 2 3 ,$ Headcuts 0 1 2 3 9 Grade control 0= _C6 1 1.5 10 Natural valley 0 05 1 1 5 11 Second or greater order channel No = 0 Yes =T3 a artificial ditches are not rated, see discussions in manual B Hydrology (Subtotal 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing, bacteria 19 Rooted upland plants in streambed 1 2 3 14 Leaf litter 15 1 05 1 115 Sedimenbon plants or debris 0 _ 015 1' 1 -5 16 Organic debris lines or piles 0 161 1 1 1 5 17 Soil -based evidence of high water table? No = 0 Yes = 3 C Blologv (Subtotal = 18 Fibrous roots in streambed $ 2 1 0 19 Rooted upland plants in streambed 31) 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 2 3 21 Aquatic;Mollusks 0 1 2 3 22 Fish 0 05 1 15 23 Crayfish 0 105 1 1 5 24 Amphibians 0 05 1 1 5 25_ Algae 0 05 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch, NC' Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 PL Date- `� a ProjectlSite 1 k ( P_ Latitude Evaluator. ���' �, 9 v� County ;� Longitude Total Points Stream is at least rntermrttent ` 7 Stream Determination (circle one) Ephemeral Intermittent Perennial Other Name �1� ` 2 Sinuosity of channel along thalwed e g Quad 4, \ if ? 4'� ^ r NC DWO Stream Identification Form Version 4.11 Date. '- ProJectlSite J Q 4? rG _ ,,,,, Latitude. Evaluator 67..4 County. 4<' P Longitude Total Points- C Stream is at least intermittent Stream Determination (circle one) Other J Ephemeral Intermittent Perennial e g Quad Name. if t J9 or erennial,d >_ 30' 2 3 A Geomor holo" Subtotal = _Absent Weak Moderate, Strong 18 Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 2 J 4 Particle size of stream substrate 0 1 2 3 5 Active/relict `floodplain 0 1 1 3 6 Depositional bars,or benches 0 1 3 7, Recent alluvia l`deposits 0 1 2 3 8 Headcuts 0 1 2 05 9 Grade control 0 0 5' 1 10 Natural valley 0 05 1 1 11 Second or greater,orderchannel No = 0 Yes'= 3 e artificial ditches are not rated, see discussions in manual B Hvdroloov (Subtotal= i O ) 12 Presence of Baseflow 0 1 2 1 13 Iron oxidizing bacteria 0 2 3 14 Leaf litter 15 T 05 0 15 Sediment on plants,or debris 0 -65- 1 5 16 Organic debris lines or piles 0 05 3 1 5 17 Soil -based evidence of high water table? No = 0 C Biology (Subtotal = 7, z�_ ) 18 Fibrous roots in streambed 3 ® 1 0 19 Rooted upland plants in streambed _ 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 15 23 ;Crayfish _ 05 1 1 5 24 ,Amphibians 0 _ _ 1 1 5 25 Algae 05 1 15 26 Wetland plants in streambed FACW_ = 0 75, OBL = 1 5 O_th_e_r = 'perennial streams'may also be identified using other methods See p 35 of manual Notes Sketch NC IDWO Stream Identification Form Version 4.11 t Date: L ProjectlSite Ta1,= i\q- N; Latitude, Evaluator. a i °+ �) 0 v=im - County, A ;'. r Longitude Total Points: Stream Determination (circle one) Other Streamds at least IntermItent I Ephemeral Intermittent Perennial e g Quad Name. if 2 19 or perennial die 30' 2 3 A Geomorphology Subtotal = Absent Weak Moderate Strong 1e Continuity of channel bed and bank 0 1 _ 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, n le- ool se uence 0 (% 2 2 3 4 Particle size of stream substrate 0 1 2 3 5 Active /relict floodplain 0 1 2 3 6 Depositional bars or benches C 1 2 3 7 Recent alluvialGdeposits 0 1 2 3 8' Headcuts 0 1 2 3 9 Grade control Z 0'5 1 1 5 10 Natural valley 0 05 1 11 Second or greater order channel o = Yes =13 a artificial ditches are not rated, see discussions in manual R Hvdroloav (Subtotal = C - r 1 12 Presence of Baseflow 0 1 2 /3 13 Iron oxidizing bacteria 19 Rooted upland plants in streambed 1 2 3 14 Leaf litter f 1 5 1 05 0 15 Sediment on plants or debris 0 3 1 1 5 16 Organic debris lines or piles 1 05 1 1 5 17 Sod -based evidence of high water tables No = 0 Ye§ ='3 C Bioloav (Subtotal = 18 Fibrous,roots in.streambed 3 2 1 ,0 19 Rooted upland plants in streambed 3 2 _ 1 _ 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 05 1 1 5 23 Crayfish 0 05 1 5 24 Amphibians 0 05 15 25 Algae 05 1 1 5 26 Wetland plants -in streambed FACW = 0 75, OBL = 1 5 Other= 0 'perennial streams may also be identified using other methods See p 35 of manual Notes- '� Sketch NC DWO Stream Identification Form Version 4.11 f, 6 - -1 / Date I l - U S Project/Site / Latitude- Evaluator �, , i o L County: A c Longitude 0 1 2 Total Points' Stream Determination (circle one) Other Stream is at least intermittent l Ephemeral Intermittent Perennial e g Quad Name' i1? 19 or perennial if? 30` 0 05 A Geomorphology Subtotal = %- , ) Absent Weak _Moder_ate Strong 1a Continuity of channel bed and bank 0 1 2 3 _ 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 05 2 3 4 Particle size of stream substrate 0 _ 1 02 3 5 Active /relict floodplam 0_ 1 _ 3 6 Depositional bars or benches 0 1 3 7 Recent alluvial deposits 0 1 2 .3 8 Headcuts 9 1 _ -2 3 9 Grade control 0 <0 1 15 10 Natural valley 0 05 1 15 11 Second or greater order channel No = 0 Yes ='3 a artificial ditches are not rated, see discussions in manual B Hydrology (Subtotal = 12 Presence of Baseflow 0 1 2 v 13 Iron oxidizing bacteria 0 0 2 3 14 Leaf litter 1 1 J 05 0 15 Sediment on plants or debris 0 05 1 15 16 Organic debris lines or piles 0 05 1 1 17 Soil -based evidence of high water tables No = 0 , Yes .= C Blolow (Subtotal = _0 ) 18 Fibrous roots in streambed 3 _ 1 0 19 Rooted upland plants in streambed 3 ® 1 0 20 Macrobenthos (note diversity and abundance) 0 1 3 21 Aquatic Mollusks 0, 1 2 3 22 Fish 0 05 1 15 23 Crayfish 0 05 1 15 24 Amphibians _ 05 1 15 25 Algae 05 1 1 5 26 , Wetland plants in streambed FACW = 0 75, O_ BL = 1 5 Other = 0 'perennial streams may also be identified using other methods See'p 35 of manual Notes - it 'Sketch NC DWO Stream Identification Form Version 4.11 ) k I U V'(_ Date: b- U Project/Site"'Ic,4-c Latitude: Evaluator 5U v �.� �,1 County. Longitude 'Total Points. Stream Determination�(clrcle one) Other Stream is at least intermittent Ephemeral Intermittent Perennial e`g Quad Name: if 2:19 or perennial d 2:30* 2 3 A Geomorphology (Subtotal= Absent We k Moderate Strong 19 Continuity of channel bed and bank 0 "12 2 3 2 Sinuosity of channel along thalweg 0 , 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 1 3 4 Particle size of stream + substrate 0 1 ® 3 5 Active /relict floodplain 0 1 2 3 6 Depositional bars or benches 0 05 2 3 7 Recent alluvial deposits 0 1 2, 3 8 Headcuts 0 1 "perennial streams may also be identified using other methods Seep 35 of manual 3 9 Grade control 0 05 1 5 10 Natural valley 0 05 1 5 11 Second or greater order channel No =-O') Yes = 3 artificial ditches are not rated see discussions in manual �--� B Hvdroloav (Subtotal= ?, < ) , 12 Presence of Baseflow _ 0 1 2 3 13 Iron oxidizing bacteria 0 _ 1 2 3 14 Leaf litter 1 5 , 1 05 0 15 Sediment on plants or debris 0 1 1 1 5 16 Organic debris_line&or piles 05 1 1'5 17 Sod -based evidence of high water table'? No = 0 es = 3 C Biolo Subtotal = 18 Fibrous roots in streambed 3 12 1 0 19 Rooted upland plants in streambed 3 1 0 20 Macrobenthos (note diversity and abundance) 0 1 J 3 21 Aquatic Mollusks 16 1 2 3 22 Fish 05 1 1 15 23 Crayfish 05 1 1 5 24 Amphibians d 05 1 1 5 25 Algae _ _ j0 05 1 15 26- Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 "perennial streams may also be identified using other methods Seep 35 of manual Notes 1 Sketch NC Division of Water Quality – Methodology for Identification of Intermittent' and Perennial Streams and Their Origins v. 411 NC DWQ Stream Identification Form Version 4.11 PT P� Date "� (f �— (3 Project/Site �u*(✓ G, ,,1 Latitude Evaluator �Q� �� G✓�G�/ %Xiva^ County- Longitude Total Points, Stream is at least intermittent Stream Determination (circle on Other rf>_ 19 or perennial d? 30* ` Ephemeral Intermittent Perennial e g Quad Name A Geomorphology (Subtotal = ` U ) Absent Weak Moderate Strong 18 Conbnwty of channel bed andbank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 06 3 3 In- channel structure ex riffle -pool, step -pool, n le- ool,se-uence 0 1 V 3 4 Particle size oflstream substrate 0 1 1 3 5 Active /relicf'floodplaih 0 Yes = 2 3 6 Depositional bars or benches 0 1 2 3 7 Recent alluvial deposits_ __ 0 1 2 3 8 Headcuts 0 1 2 9 Grade,control 0 0 5 1 dE _ 10 Natural valley 0 0 5 1 Sketch 11 Second or greater order channel o 210-3 = 3 a artificial ditches are not rated see discussions in manual B Hvdroloav (Subtotal = "t ) 12 Presence of Baseflow 0 1 2' 0 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 15 1 06 0 15 Sediment on plants or debris _ 0 0 1 1 5 16 Organic debris lines or piles 0 0 1 15 17 Soil -based evidence of high water table? No = 0 Yes = C_ Biology (Subtotal = 6' L—) 18 Fibrous roots in streambed 3 1 0 19 Rooted uplandrplants;in streambed 2 1 0 20 Macrobenthos (note'diversity and abundance) 0 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 15 23 Crayfish 05 1 1.5 24 Amphibians _ 0 1 15 25 Algae 0 05 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods S_ ee p 35 of manual Notes Sketch 41 l- NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v.4..11 /� ) NC DWn Stream Identification Form Version 4.11 PT_ "6 q Date 1 U 3 Project/Site dj,, �q - �, Latitude- Evaluator. P_ �%r/5c —.>✓ }t 0 v� County: S (,I Longitude Total "Points• Stream Determination (circle one) Other siream is at'least intermittent Ephemeral Intermittent Perennial e g Quad Name if ? 19 or" erennlal if a 30' 2 3 A Geomorphology ( (Subtotal= Absent Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 1 3 4 Particle size of,stream substrate 0 0 15 2 3 5 Active /relict floodplain ® _ -1 _ 2 3 6 Depositional bars or benches 0 1 2 3_ 7 RecenValluvial'deposits 0 05 2 :� 8 Headcuts 0 0 2 3 " 9 Grade control 0 0 5 1 1 5 10 Natural valley 0 05 1 1 5 11 Second or greater order channel o = Yes = 3 artificial ditches are not rated, see discussions in manual B Hvdroloav (Subtotal = ) 12 Presence of Baseflow 0 1 2 ) 3 13 Iron oxidizing bacteria _ _ _ Q 1 2 3 14 Leaf.litter 1 5 1 05 3 15 Sediment on plants or debris 0,5 1 1 5 16 Organic debris lines or piles QO 0 15 1 1 5 17 Soil -based evidence of high water table'? No = 0 es = C' Bioloav (Subtotal = 18 Fibrous roots in streambed 3 2 0 19 Rooted upland plants in streambed 3 1 0 20 Macrobenthos (note diversity,and abundance) 0 1 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 1 5 23 Crayfish V b 5 1 1 5 24 Amphibians 65 1 1 5 25 Algae 0 05 1 1 5 26 Wetland plants in streambed FACW 0 75, OBL = 1 5 Other 'perennial streams may also be identified using,other methods See p 35 of manual - Notes -Pev C -rr,., .i Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 () _L V � 619 Date _ _ 1 0 ProjectlS(te Tole PU `m Latitude Evaluator (v,- I , ��, _ 4o, County• 5 Longitude, Total Points Stream Determination (circle one) Other Stream is at i Ephemeral Intermittent Perennial P a Quad Name: g enniaintermdtent if t ,19 or perennial d >_ 30' 2 3 A Geomorphology ( Subtotal = b ) Absent Weak Moderate Strong la Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 5 1 2 3 3 In- channel structure ex riffle -pool, step -pool„ ri le- oolnse uence 0 1 2 3 4 Particle size of stream isubstrate _ 1 2 3 5 Active /relict floodplam No = 0 1 2 3 6 Depositional bars or benches 1 2 3 7 Recent alluvial deposits 0 1 2 3 8 Headcuts 0 C9 2 3 9 Grade control _ 0 1 1-5, 10 Natural valley 0 65 1 Sketch- 11 Second or greater order channel o = I Yes = 3 artificial ditches are not rated, see discussions in manual B Hvdrologv (Subtotal = S'- S` ) 12 Presence of Baseflow 0 1 2 3 13' Iron oxidizing bacteria _ 3 1 2 3 14 Leaf litter 5 1 (99 0 15 Sediment on plants or debris 0 05 1 1 5 16 Organic debris lines or piles 05 1 1 5 17 'Sod -based evidence of high water table? No = 0 res t- D3 C Biology (Subtotal = 1& Fibrous roots in streambed 3 -2, j 0 19 Rooted upland plants in streambed 3 2 1 20 M acrobenthos� (note diversity and,abundance) 0 t V 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 15 23 Crayfish _ 05 1 15 24 Amphibians 0,5 _ _ 1 1 5 25 Algae 0 05 T 11 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other= 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch- 41 NC Division of Water Quality — Methodology for Identification of Intermittent,and Perennial Streams and Their Origins, v. 4.11 NC DWn Stream Identification Form Version 4.11 PT °() P Date. I �- �' a d Project/Site 4 _ Latitude. Evaluator. P Ar jam- County. 454,.-7— Longitude: Total Points: Stream Determination (circle one) Other Stream is at least,intermrttent (1 `� l Ephemeral Intermittent Perennial e g Quad Name d >- 19 or perennial d ? 30' 2 3 A Geomorphology- Subtotal = Absent Weak Moderate Strong 1a Continuity of channel bed,and bank 0 1 W, 3 2 Sinuosity of channel along thalweg 0 !T 2 3 3 In- channel structure ex riffle -pool, step -pool, n le- ool sequence 0 /,� V 2 3 4 Particle size of stream substrate (o 1 1 3 5 Active /relict floodplain No = 0 1 2 3 6 Depositional bars or benches 0 1 2 3 7 Recent,allu_vial deposits 0 1 2 3 8 Headcuts 0 1 'perennial streams_ may also be identified using other methods See p 35 of manual 3 9 Grade control 0 05 _ 1 5, 10 Natural valley 0 05 1 5 11 Second or greater order channel o - Yes = 3 " artificial ditches are not rated, see discussions in manual R Hvrirnlnnv lCiihtntal = ' 1 12 Presence of'Baseflow 0 1 10 3 13 Iron oxidizing bacteria 0 2 2 _ 3 14 Leaf litter 1 5 1 0 15 Sedlmenton plants or debris 0 0 1 15 16 Organic,debeis lines or piles 1 0 05 1 1 5 17 Soil -based evidence of high water tables No = 0 e = C Rinlnnv (Subtotal = -t15- 1 18 Fibrous roots in streambed 3 1 0 19 Rooted upland plants in streambed 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 3 21 Aquatic Mollusks 1 2 3 22 Fish, 05 1 1 5 23 Crayfish 05 1 1 5 24 Amphibians 0 1 15 25 Algae 05 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other =,0 'perennial streams_ may also be identified using other methods See p 35 of manual Notes Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v_. 4.11 NC nWn CtrPain irlpntif:catinn Farm Vercinn 4.11 �✓ — ��% Ct/ Date: Prolect(Site a , 2 Latitude Moderate Evaluator �� L� y r X, , County: A ` 'Longitude. 0 Total Points- Stream is at least intermittent Stream Determination (circle one) Other if? 19 or perennial if Z 30' 1 Ephemeral Intermittent Perennial e g Quad Name 2 A Geomor holo (Subtotal = _1 ~ Absent Weak Moderate Strong ' 18 Continuity of channel b_ed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 ® 2 3 3 In- channel structure {ex riffle -pool, step -pool, ripple-pool se uence 0 11A 5' © 3 4 Particle size of stream substrate 0 1 _ 3 5 Active /relict floodplain 0_ 1 2 3 6 DeposiEional bars or benches 0 1 2 3 7 RecenUalluvial deposits 0 05 2 3 8 Headcuts 0 1 3 .perennial) streams may also be identified using other methods See p 35 of; manual 9 Grade, control 0 05 1 15 10 Natural valley 0 05 1 11 Second or greater order channel _ W071 Yes = 3 Sketch aartificial ditches are,not rated, seeidiscussions in manual B Hvdiroloav (Subtotal = to _ _1 12 Presence of Baseflow 0 1 2 �! 13 Iron oxidizing bacteria 0 0 2 3 14 Leaf litter 15 IV 05 0 15 Sediment on plants, or debris 0 11A 5' © 1.5 16 Organic debris lines or piles D Q _ 1 1 5 17 Soil -based evidence of high water tablet No = 0 Yes = 3 1 C Rinlnnv ( Suhtotal = h 1 18 Fibrous roots in,streambed 3 2 , _ 1 0 19 Rooted upland plants in streambed 3 _ 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 3 21 Aquatic Mollusks 0 1 2 3 22 Fish V 05 1 15 23 Crayfish 0 0-5- 1 1 5 24 Amphibians 0 05 1 1 5 25 Algae 05 1 1 5 26 Wetland plants In streambed _ FACW = 0 75, OBL = 1 5 er = .perennial) streams may also be identified using other methods See p 35 of; manual Notes Sketch 41 NC Division of Water Quality - Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 rL\ %if, Y\l7 7 QL V_,r Vavw;nn d t t Date ` - S i9 (� ProfectlSite u� �t Latitude 18 Continuity of channel bed and bank Evaluator PQ- k\ (w dw t a on County. c� Longitude 3 Total Points: Stream Determination (circle one) Other 1 Streamjs at least intermittent Ephemeral Intermittent Perennial e g Quad Name' 3 In- channel structure ex .riffle -pool, step -pool, ripple- pool sequence, If a 19 or Eerenriial if a,30- 1' 15 Sediment on plants or debris 3 A Geomorphology (Subtotal = 4 Lj Absent Weak Moderate Strong 0 1 18 Continuity of channel bed and bank T 0 1 13 Iron oxidizing bacteria 3 19 Rooted u 2 Sinuosity -of channel along thalweg 0 1 14 Leaf litter 3 1 3 In- channel structure ex .riffle -pool, step -pool, ripple- pool sequence, 0 1' 15 Sediment on plants or debris 3 05 4 Particle size of stream substrate 0 1 2 3 5 Active /relicffloodplain 0 1 2 3 No = 0 6 Depositional bars or benches 0 1 2 3 V 7 Recent alluvial deposits 0 1 2 3 24 Amphibians 8 Headcuts _ 0 1 2' 1,5 9 Grade'control 0 65 1 1'5 1 5 10 Natural valley 0 1 1 5 11 Second or greater order channel - Yes ='3 artificial ditches are not rated, see discussions in manual Q U.,4.,,1 —, - 4 N 12 Presence of Baseflow 0 1 2' 3 1 13 Iron oxidizing bacteria 0 19 Rooted u 2 3 2 14 Leaf litter 1 5 1 0 0 15 Sediment on plants or debris 0 05 3 1 5 21 Aquatic Mollusks 16 Organic debris lines or piles 0 1 1 5 17 Soil-baso evidence,of high water table? No = 0 es = 1 r GLninnv I rG hfnfni = /— 18 Fibrous r ots in streambed 3j 1 0 19 Rooted u land plants in streambed 2 0 20 Macrobenthos (note diversity and abundance) 0 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 116 23 Crayfish V 05 1 1 5 24 Amphibians 05 1 1,5 25 Algae 0 65 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 •perennial,streams may also be identified using other methods See p 35 of manual Notes Sketch 41 NC DiVlsion of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 C Nt" nWn Ct"rPam i4Pnti4ieatinn l nrm VPrcinn d -11 P IT- I J 0 Date: Project/Site �ute Latitude. Moderate Evaluator. 1 County: Longitude: 0 Total Points: Stream Determination (circle one) Other Stream is at least intermittent 3, Ephemeral Intermittent Perennial e g Quad Name 2 d t 19 or erennial W a 30' 3 In- channel structure` ex riffle -pool, step =pool, ripple-pool sequence A Geomorphology Subtotal Absent Weak_ Moderate Strong 1' Continuity�of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure` ex riffle -pool, step =pool, ripple-pool sequence 1 _ 2 3 4 Particle size of stream substrate 1 2 3 5 Active /relict floodplam No = 0 1 2 3 6 Depositional bars or benches 0 1 2 3 7 Recent alluvial deposits 0 1 2 3 8 Headcuts ® 1 2 3 9, Grade,control 0 0 1 15 10 Natural valley 0 0 1 1 5 11 Second or greater order channel o - Yes = 3 artificial ditches are�not rated, see discussions in manual R Hvdrnlnav (Subtotal = '4r 1 12 Presence of Baseflow 0 1 2 0 13 Iron,oxidizing bacteria 0 1 2 _ 3 14 Leaf`litte_r 15 1 05 0 15 Sedimenton plants, or debris 05 1 1 5 16 Organic debris lines or piles 0'5 1 1,5 17 Sod -based evidence of high water tatile? No = 0 es = 1 C Bioloav (Subtotal = -S._,;- ) I 18 Fibrous roots in streambed 3 2 0 19 Rooted upland plants in streambed 3 2 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks 1 2' 3 22 Fish 05 1 1 5 23 Crayfish 0 5 1 1 1 5 24 Amphibians 0 1 1 5 25 Algae 0 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes S _- u yn Iro r c, Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWQ Stream Identification Form Version 4.11 1 p yq - Date• `/- a-7 - d-d f 3 Project/Site -IP {U- Latitude Evaluator 6p, I%;lv� d, _ i 0— County. S 4-e Longitude, Total Points �� Stream Determination (circle one) Other Stream is at least intermittent Ephemeral Intermittent Perennial e g Quad Name' if z 19 or oerenmal if z 30' A Geomorphology (Subtotal = a6 ) 0 i 1 2 1 0 13 Iron oxidizing bacteria Absent Weak Moderate Strong 1 1' Continuity of channel bed and bank 0 1 2 0 15 Sediment on plants or debris 2 Sinuosity of channel along thalweg 0 1 9 3 16 Organic debris lines or piles 0 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 2 17 Sod -based evidence of high water table? No = 0 Yes:- 4 Particle size of stream substrate 0 1 2 CM 1 5 Active /relict floodplain b 1 2 3 1 6 Depositional, bars or benches 0 1 0 3 1 7 Recent alluvial deposits 0 1 2 M Other = 0 r� 8 Headcuts 0 1 1 <7 3 9 Grade control 0 05 1 10 Natural valley 0 05 1 1 11 Second or greater order channel No = 0 es = 3 artificial ditches are not rated, see discussions, in manual R i-ivrirninnv MZi iintntol = Cr 1 12 Presence of, Baseflow 0 i 1 2 1 0 13 Iron oxidizing bacteria ff' 1 2 3 1 14 Leaf litter 1 5 20 Macrobenthos (note diversity and abundance) _ 05 0 15 Sediment on plants or debris 0 05 1 1 16 Organic debris lines or piles 0 0 5 1 - 0 17 Sod -based evidence of high water table? No = 0 Yes:- r- ".ninny /Q..Kf_fol - 1 ) . < 1 I 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 2 �7 21 Aquatic Mollusks 1 2 3 22 Fish 0 05 1 23 Crayfish 0 CM 1 15 24 Amphibians Ur 05 1 25_ Algae 0 05 1 15 26 Wetland plants in streambed FACW'= 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified, using other methods See p 35 of manual Notes Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermlttent'and Perennial Streams and Their Origins v. 4.11 NC DWQ Stream Identification Form Version 4.11 0 Date l I C/ `I' S Project/Site ul e r 4- ✓r Latitude. Evaluator. Pp_ County. Longitude: �I Total Points: 'Stream is at least intermittent a (� , CD d t 19 or perennial if 2 30' Stream Determination (circle one) Ephemeral Intermittent Perennial Other e g Quad Name A Geomorphology (Subtotal= l C I �'� Absent Weak Moderate' Strong I 3 1a Continuity of channel bed and bank 0 1 2 _` 3 16 Organic debris lines or piles 2 Sinuosity of channel along thalweg 0 1 2 3 No = 0 3 In- channel structure ex riffle -pool, step -pool, n le- ool se uence 0 1 2 0 4 Particle size of stream substrate 0 25 Algae 2 3 1 5 Active /relict floodplain ,26 Vlletland,plants in streambed 1 2 3 'perennial streams mayalso beadentified using other method's See p ,35,of manual q_ Depositional bars or benches 0 Notes 2 3 7, Rece itialluvialAeposits_ 0 2 3 8 Headc_uts 0 1 3 9 Grade control 0 05 Ci5 10 Natural valley 0 0,5 1 15 11 Second or greater order channel = Yes = 3 a artificial ditches are not rated, see discussions in manual B Hvdroloav (Subtotal = �7 ) 12 Presence �of 'Baseflow 0 1 2 0 13 'Iron oxidizing bacteria 0 1 2 3' 14 Leaf litter 1 5 1 05 3 15 Sediment on plants or debris 0 _ 0 1 _1 5 16 Organic debris lines or piles 0 1 05 1 15 17 Soil -based evidence of high water table? No = 0 es = C Biology (Subtotal =_ fir,) 18 Fibrous,roots in streambed 3 _ 2 a. 0 19 Rooted upland plants in streambed 3, 2 0 _20 Macrobenthos (note diversity and abundance) 0 CP 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 0 1 1 5 23 Crayfish _ 0 1 15 24 Amphibians 0 1 115 25 Algae 05 1 1 5 ,26 Vlletland,plants in streambed FACW,= ',Q75, OBL = 1.5 Ot - 'perennial streams mayalso beadentified using other method's See p ,35,of manual Notes Sketch 41 f t" P- NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 Nir nwti Ctrc-fxm Mantifientinn Farm Veraian d_11 Date - ,� - �, �? 3 Project/Site a �p �G - �, Latitude Evaluator: p� , 5C- ��Cc C/_, County: ,° , > Longitude: Total Points. 1 L� 18 Continuity of cfiarinel bed and bank Stream Determination (circle one) Other Stream is at least inten uttent J Ephemeral Intermittent Perennial e g Quad Name if ? 19 or perenniai if t 30' 1 0 3 A Geomorphology Subtotal = 1 1 _ Absent Weak M_ oderate Strong 13 Iron oxidizing bacteria 18 Continuity of cfiarinel bed and bank 0 1 2 14 Leaf litter 2 Sinuosity of channel along thalweg 0 1 0 3 15 Sediment on,plants or debris 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 2 16 Organic debris lines,or plies _ _ 4 Particle size of stream substrate 0 1 1 5 3 _ 5 Active /relict floodplain 0 1 2 3 24 Amphibians 6 Depositional bars or benches 0 1 2 3 25 Algae 7 Recent alluvial deposits 0 1, 2 3 26 Wetland plants in streambed 8 Headcuts 0 1 'perennial streams may also be identified using other methods See p 35 of manual 3 9 Grade control 0 05 1 5 10 Natural valley 0 05, 1 0 11 'Second or greater order channel No = 0, Yes-3 artificial ditches are not,rated, see disc ssions in manual D u- 4— i.,..,, - /�_ 12 Presence of Baseflow 0 1 2 _ 0 13 Iron oxidizing bacteria 0 2 3 14 Leaf litter 1 5 0 06 0 15 Sediment on,plants or debris 0 05 2 1 5 16 Organic debris lines,or plies _ _ 0 05 1 1 5 17 Sod - based, evidence of high water tabled No"- 0 Yes = 3 1 18 Fibrous roots in streambed 3 1 0 19 Rooted upland plants in streambed 3 1 0 20 Macrobenthos (note diversity and abundance) 0 1 3 21 Aquatic Mollusks bl 1 2 3 22 Fish 05 1 1 5 23 Crayfish t3 05 1 1 5 24 Amphibians 0 03f 1 1 5 25 Algae ^ 05 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1'5' Other'= 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch i I 41 NC Division of Water Quality - Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 f 1 A Date (— - ' o Project/Site K ^ f e Latitude. Evaluator: I''2 ; r, X r��ov J I, County �,S I � Longitude: ' Total Points. Stream Determination (circle one) Other Stream is at least intermittent 11L I Ephemeral Intermittent Perennial a g' Quad'Name if a 19 or perennial if 2 30' 2 3 A Geomorphology (Subtotal = I C'' " ) Absent Weak Moderate Strong 18 Continuity of channel bed and bank ' 0 1 2 3 2 Sinuosity of channel along thalweg _ 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool -sequence 0 1 /7 C5' 3 4 Particle size,of stream substrate 0 1 1 3 5 Activehelict floodplain _ _ 0 1 2 3 6 bepositional bars or benches t), 1 2 '3 7, Recent,glluvia1ydeposits 0 1 2 3 8 Headcuts 0 11 2 3 9 Grade,control 0 05 1 1 10 Natural valley 0 05 d1 15 11 Second or greater order channel o = Yes = 3 a artificial ditches are not rated, see discussions in manual B Hvdroloav (Subtotal = (e), �:- ) 12 Presence of Baseflow 0 1 2 J 13 Iron oxidizing bacteria d> 1 2 3 14 Leaf litter 15 1 CUP 0 15 Sediment on plants or debris 2 05 1 15 16 Organic debris lines or piles 0 05 1 1 1 5 17 Soil =based evidence of high water tables I No- 0 1 YQU-:> C ,Bioloav (Subtotal = 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance)' _ 0 2 3 21 Aquatic Mollusks 1 _ 2 3 22 Fish 0 5' 1 1 5 23 Crayfish t), 05 1 15 24 Amphibians 05 1 15 25 Algae 0 0 5' 1. 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 0th4 = \0 *perennial streams, may also be identified using other methods See p 35 of manual Notes Sketch 41 NC Division of Water Quality — Methodology for, Identification of, Intermittent and Perennial Streams and Their Origins v. 411 NC DWO Stream.1dentification Form Version 4.11 Date 13 Project/Site ' U { ,Latitude: Evaluator I' e� I ti5 , J County: Longitude. Total Points: Stream Determination (circle one) Other Stream is at least intermittent Q- - Ephemeral Intermittent Perennial e g Quad Name if 2 19 or perennial if a 30' I 2, 3 A Geomorphology (Subtotal = ti ) Absent Weak Moderate_ Strong 1a Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2, 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 05 2 3 4 Particlesiz&ofstream- substrate A 1 2 3 5 Active /relict floodplam No = 0 1 2 3 6 Depositional bars +or benches 0 1 2 1 7 'Recent alluvial deposits 0 2 3 S Headcuts 0 ; i 2 3 9 Grade control 0 r 1 15 10 Natural valley 0 05 1 1 11 Second or greater order channel o = 'Yes = 3 a artificial ditches are not rated, see discussions -in manual R Hvdrnlnav (Subtotal= 1 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 15 1 05 t 0� 15 Sediment on plants or debris 2` _ 05 1 15 16 Organic debris lines or piles A 05 1 1 5 17 Sod -based evidence of high water table? No = 0 Yes =_T) r. Rinlnnv (Suhtntal = _ - ) 18 Fibrous roots in;streambed 3 2 0 19 Rooted upland plants in streambed 0 2 1 0 20, Macrobenthos (note diversity and abundance) 0 1 2` _ 3 21 Aquatic) Mollusks Oi 1 2 3 22 Fish ,0' 05 1 15 23 Crayfish 05 1 1 5 24 Amphibians 15 25 Algae ,0 05 1 1 5 26 Wetland plants'in streambed FACW = 0 75, OBL = 1_5 Other`= 0 "perennial streams may also be identified using other methods Seep 35 of manual Notes Sketch NC Divlsion,of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Oriqins v 4.11 NC DW Stream Identification Form Version 4.11 � �-?,I Date. ; — ,_ Q _ ' G Project/Site U_ Latitude: Evaluator, ` 1 County. Longitude: / >7 1 2 Total Points. e- Stream Determination (circle one) Other Steam is at least intermittent Ephemeral Intermittent Perennial e g Quad Name' if a 19 or perennial h a 30" 0 1 A Geomorphology Subtotal = � �'i Absent Weak Moderate Strong 1a Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 05 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 2 1 5 4 Particle size of,stream substrate 0 1 2 1 1 5 5 Active /relict - floodplain 0 1 1 3 6 Depositional bars or benches 0 1 3 7 Recent alluvial deposits 0 1 7D 3 8 Headcuts 0 1 2 3 9 Grade control 0 05 1 15 10 Natural valley 0 0 5 1 15 11 Second or greater order channel o = Yes = 3 artificial ditches -are=t rated, see discussions in manual D W e4rnlnrry /Q� Kf^f�l - `h 1 14— 1 12 Presence of Baseflow -0 1 2 3 13 IroRozidizmg bacteria f 0 1 2 3 14 Leaf litter 5 1 05 0 15 Sediment on plants +or debris 2 05 1 1 5 16 Organic debris lines or piles I 0 05 dD 1 1 5 17 Sod -based evidence of high water table? No= 0 s-= r FLnlnnv /G h +ni l- I, G 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed ® 2 1 0 20 Macrobenthos (note diversity and abundance) 0 2 3 21 Aquatic Mollusks a 1 2 3 22 Fish _ ® 05, 1 1 5 23 Crayfish 05 1 1 5 24 Amphibians 0 7D 1 1 5 25 Algae _ 0 1 05 1 1 5 26 Wetland plants in,streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other,rnethods See p 35 of manual Notes r,74 U, Sketch 41 NC' nWO Stream identification Form Version 4.11 Po -1,61 Date. 3 " d 1 3 Protect/Site ,,j Latitude Evaluator I'p� I County -;,, C Longitude, Total Points. Stream Determination (circle one) Other Stream is at least, intermittent Ephemeral Intermittent Perennial, e g Quad Name L if z 19 or erenniahl' Z 3d' 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence A Geomorphology (Subtotal= ) Absent Weak Moderate Strong 18 Continuity of channel bed and bank_ 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 05 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 2 3 4 Particle size of stream substrate 0 1 1 3 5 Active /relict floodplain 0 1 2 3 6 Depositional bars °or benches 0 1 3 7 Recent alluvial deposits 0 1 ® 3 8 Headcuts 0 1 0 3 9 Grade control 0 1 5 1 1 5 10 Natural valley 0 05 1` 1 5 11, Second,or greater orderchannel No - Yes- 3 artificial ditches are not rated, see discussions in manual R W%ji- Irnlnnv /Ciihtntal = 1 12 Presence,of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 1 5 1 05 0, 15 Sediment on plants or debris 0 05 1 15 16 Organic debris lines or piles 0 1 05 1 15 17 Sod -based evidence of high water table'? No = 0 Yes = 3 r, Q!nlf% lCihtntol = 18 Fibrous roots in,streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 'Fish 0 05 1 1 5 23 ,Crayfish 0 0�5 1 15 24 Amphibians 0 0�5 1 1 5 25 Algae 0 015 1 1 5 26 Wetland plants in streambed FACW ='0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods Seep 35 of manual Notes Sketch NC Division of'Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins V. 4.11 NC DWO Stream, Identification Form Version 4.11 Pup[ /,:j "'Z' ''o Date: f ii '� _ a of - - Project/Site Latitude. Evaluator r r County: (� a Longitude Total Points, Stream Determination (circle one) Other Streamas aNeast intermittent Ephemeral Intermittent Perennial e g Quad Name if a 19 or perennial if a 30' 3 3 In- channel structure ex riffle -pool, step -pool, n le- ool se uence A Geomorphology (Subtotal = I ) Absent Weak Moderate Strong 18 Contlnulty,of channel bed and.bank 0 1 2 3 2 Sinuosity of channel along thalweg 1 5 1 2 3 3 In- channel structure ex riffle -pool, step -pool, n le- ool se uence a 1 2 3 4 Particle size of,stream substrate 0 1 1 3 5 Active /relict floodplain 0 1 1 3 6 Depositional bars or benches 0 1 2_ 3 7 Recent alluvial deposits 0 1 1 3 8 Headcuts 1 2 3 9 Grade control 05 1 1 5 10 Natural valley 0 105 1 5 11 Second orgreater order channel o = Yes =s3 e artificial ditches,areinot rated, see - discussions in manual R HvrImInav (Subtotal = d 5 12 Presence of Baseflow 0 2 3 13 Iron oxidizing bacteria 2 1 2 3 14 Leaf litter 1 5 1 2 0 15 Sediment,on plants or debris a 05 2 _ 1 5 16 Organic debris lines or piles 0 05 1 1 5 17 Soil -based evidence of high water table's o = Yes = 3 C Blolo Subtotal = 18 Fibrous roots in,streambed 3 1 0 19 Rooted upland plants in streambed 2 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 1 2 _ 3 22 Fish 05 1 1 5 23 Crayfish 0 0 1 1'5 24 Amphibians 0 AJO 1 1 5' 25 Algae 05 1 1 5, 26 Wetland plants imstreambed FACW= 0 75, OBL = 1 5 - 'perennial,streams may,also,be identified_ using other methods See p 35 of manual Notes - Sketch 41 _ NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v 4.11 NC DWQ Stream Identification Form Version 4.11 /J! n 1 11 �4 Date 11-03 - a p / 3 Project/Site Tu( -e_ (v - Latitude Evaluator (�J;VW -U County S� Longitude —1 2 ) 3 2 Sinuosity of channel along thalweg Total'Points, -- Stream Determination (circle one) I Other Stream'is,at,least,intermittent i'�'` ✓ Ephemeral Intermittent Perennial e g Quad Name., d > 19 or perenniatif a 30' bbb 2 3 ral A Geomorphology (Subtotal = Absent Weak Moderate Strong 18 Continuity of,channel bed and bank 0 1 2 ) 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence O 1 2 3 4 Particle size,of stream substrate 0 1 2 3 5 Active /relict floodplain 0 (3j 2 3 6 Depositional bars or benches 0 1 2 3 7 Recent alluvial deposits 0 0 2 3 8 'Headcuts 0 1 1 _ _ 3 9 Grade control (0 05 1 1 5 10 Natural valley 0 05 1 1 5 11 Second or greater order channel o j Yes = 3 e artificial ditches are not rated, see rl dis/cus /sions in manual R t-Ivrnlnn�i lCnhtnfn1 = i,'f 1 V 12 Presence of Baseflow 0 Q 2 3 13 Iron oxidizing bacteria W 1 2 3 14 Leaf litter 15 1 05 0 15 Sediment on plants or debris 0 0 1 15 16 Organic debris lines or piles 0/' _ 05 1 1 5 17 Soil -based evidence of high-water table? No = 0 FYe= -3 C Blr to Subtotal = 18 Fibrous roots in streambed 3 1 0 19 Rooted upland plants in streambed 3 1 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 15 23 ,Crayfish 0 0 1 1 5 24 Amphibians 0 0 1 15 25 Algae 05, _ 1 1 5 26' Wetland plants in'streambed FACW = 0 75, OBL = 1 5 Oth 0, 'perennial streams may also be identified using other methods See p 35 ofimanual Notes hp; n << , o -• 7 Sketch 41 NC I)Wn Stream Identification Form Version 4.11 Date ) j I ProjectfSite `T a Latitude Evaluator ur, �„ County: kint Longitude Total Points: Stream Determination (clwie=an Other TA Stream is at least intermittent 3q Ephemeral Intermitten erennfa e g Quad Name d ? 19 or perennial if z 30' 2 _3 A Geomorphology (Subtotal = Ig Absent Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 _3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 1 3 4 Particle size of stream substrate 0 1 2 3 5 Active /relict floodplain 0 1 1 3 6 Depositional bars or benches 0 1 3 7 Recent alluvial deposits 0 1 Oi 3 8 Headcuts 0 1 0 3 9, Grade control 0 05 1 1 5 _ 10 Natural valley 0 05 1 1 5 11 Second or greater order channel No = 0 Yes = 3 d artificial ditches are not rated, see discussions in manual �--- R Hvrirnlnnv (Subtotal = q5 1 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 1 5 1 5 0 15 Sediment on plants or debris 0 0 1 1 5 16 Organic debris lines or piles 0 0 1 1 5 17 Soil -based evidence of high,water tables No = 0 Yes = 3 r' Rinlnnv (Suhtntal 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 1 2 11 20 Macrobenthos (note,diversity and abundance) 0 1 2 3, 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 015 1 15 23 Crayfish 0 015 1 115 24 Amphibians 0 Oi 1 115 25 Algae 0 05 1 1 26 Wetland plants in streambed FACW = 0 75„ OBI = 1 5 Other'= 0 'perennial streams,may also be,identified using other meth_ ods Seep 35 of manual Notes Sketch Nf nwn fitrenm Tdentifiention Form Version 4.11 Date. Project/Slte If, Latitude. Evaluator fir ,,,,n County �, Longitude Total Points: Stream Determination (tire Other )3 Stream is at least intermittent 3� Ephemeral Intermitten erennial e g Quad Name if Z 19 or perennial d >_ 30' J 2 3 A Geomorphology (Subtotal =__p_6__) Absent Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 2 3 ,2 Sinuosity of channel along thalweg 0 1 2 3 3 In= channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 C 3 4 Particle size of stream substrate 0 1 _ 2 3 5 Active /relict,floodplain 0 1 1 3 6 Depositional bars or benches 0 '1 2 3 7 R_ecent,alluvial,deposits 0 1 2 3 8 Headcuts 15 1 __ 2 3 9 Grade control 0 / 1 5 1 15 10 Natural valley 0 0t5 11' Second or greater order channel o = 0 Yes = 3 art I ddches,are not rated,'see discussions in manual R I-lwImInnu (Subtotal = 94 1 12 Presence of Baseflow 0 1 2 3 113 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 1 5 1 05 0' 15 Sediment on plants or debris 0 -05 1 1 5 16 Organic debris lines or piles 0 05 1 1 5 17 Soil -based evidence of high water table? No = 0 es = (` Rinlnnu !Ci ihtntnI = q 1 _— zly 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 05 1 15 23 Crayfish QA_ 1 15 24 ,Amphibians 0 0 1 15 25 Algae 0 06 1 / 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 ther = 0 'perennial streams may,also be identified using other methods See p 35 of manual Notes Sketch 3� NC DWO Stream Identification Form Version 4.11 Date S 13 Project/Site Tate Latitude. Evaluator County A56 Longitude Total Points: Stream De te a circle one) Other Stream is at least intermittent ream i t Z$'S Ephemeral n ermitten Perennial e g Quad Name C/ d perennial d Z Sit 2' 3 A Geomorphology (Subtotal = 12 Absent Weak Moderate Strong 1a Continuity of channel bed and bank 0 1 2, 3 2 Sinuosity of channel along thalweg 0 1 2' 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 �2, 3 4 Particle size of stream substrate 0 1 1 3 5 Active/relict floodplain 0 &S=3 2 3 6 Depositional bars or benches 0/ 1 2 3 7 Recent alluvial deposits 0 1 2 3 8 Headcuts 0 25 Algae 2 3 9 Grade control 0 1 5 1 1 5 10 Natural valley 0 0 5 1 M3 11 Second or greater order channel No= 0 Yes = 3 artificial ditches are not rated, see,discussions In manual R Hvdroloav (Subtotal= -• ) 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 1 2 3 -14 Leaf litter 1 5 1 05 0. 15 Sediment on plants or debris 0 5 1 0 16 Organic debris lines or,pdes 0 0 1 1 5 17 Sod -based evidence of high water table? No- 0 &S=3 C Rioloov (Subtotal = 6?,S ) r. 18 Fibrous roots in streambed 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks 0 1 3 22 Fish 05 1 1 5 23 Crayfish 0/ 05 1 ' 1 5 24 Amphibians 05 1 5 25 Algae 0 05 .- 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1T Other =,0 'perennial streams may,alsoibe identified using other methods See p 351of manual Notes Sketch cn/ Nf nwo Ctrpnm identifiratinn Form Version 4.41 ,Date: 11/s;113 Project/Site a -c Latitude Evaluator. ' `u,,, g o r County: Longitude- Total-'Points: Streamtis at least intermittent `S nmination (crrcle,one) Other APP , Ephemeral termittent Perennial e g Quad'Name. d a 19 or rennia! d Z 30' 2 3 A Geomo holo Subtotal = .. Absent Weak 1fAotlerate Strong V Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 1 5 1 2 3 3 In- channel structure ex _nffle -pool, step -pool, n le- ool se uence /Q) 1 2 3 4 Particle size of stream substrate _ 0 1 _ 3 5 Achvelrelict floodplain 0 Y,es 3 2 3 6 Depositional bars or benches Q 1 2 3 7 Recent alluvial deposits 24 Amphibians 0 2 3 8 Headcuts 1 5 1 2 3 9 Grade control ` 0 5 1 1 5 10 Natural valley 0 0 5 1 5 11 Second or greater order channel No = 0 Yes = 3 a artificial ddches aremot,rated, see discussions in manual R Hvdrninnv fSuhtntal = �q 1 12 Presence of Baseflow 3 1 2 3 13 'Iron oxidiimg bacteria �0 '2 3 14 Leaf litter 1 5 1 0,& 0 15 Sediment on plants or debris , 0 0 6 1 1 5' 16 Or arnc debris lines orpiles 0 5 1 1 5 17 Sod- based,evidence of high water table? No =0 Y,es 3 t^_ Rinlnnv /Ct ihtntal = 61 ` 1 18 Fibrous roots in streambed 3 2 0 19 Rooted upland plants in streambed 2 1 0 20 Macrobenthos (note diversity and abundance) 0 2 3 21 Aquatic Mollusks f _1 2 3 22 Fish 0 0 5 1 1 5 23 Crayfish Q 0 6 1 1 5 24 Amphibians 0 -_ 5 1 1 5 25 Algae 0 0 5 1 5 26 Wetland plants in streambed FACW = 0,75, OBL = 1 5 Other ='0 •perennial streams may also be identified using other methods See p 35 of manual Notes Sketch $�sr3' N(_" DWO Stream Identification Form Version 4A I ,pate• ' , i 3 Project/Site -(�; Latitude. Evaluator. ter • dr - _ County:, Sy L Longitude: Total Points: Streain Dete circle one) Other n v Stream is at leasVintermrtte_nt 2 Ephemeral ntermitte Perennial e g Quad Name: if a 4or rennial,Jf a 90' 2 3 A Geomo _ hol Subtotal =_ Absent Weak_ - Mod_ erate Strong _ 11= _Cdnbhuity,of'dhan6el,bed and bank 0 _ 1 2 3 2 Sinuosity,of_channei along tha "g, 0 1 _ 2 3 3 In- dhannelittructure ex nffle -pool, step -pool, n le- ooltse uence 0 0'S 2 3 4 Particle size,ofstream substrate_ 10 1 '1 3 5 Achve/relictatloodp'-lam _ _ 0 Yes s3, 2 3 6 Depositional bars or benches ,-0 1 - ;2 3 7 Recent alluviaWbposds 24 Amphibians - - 1 2 3 8 Headcuts _ _ _ 0 25 Algae 2 3 9 Grade control ,0 0 -51) 1 1 "5 10 Natural valley 0 015 'perennial streams may also,be identified using other methods Sde,p 35 ofmanual 1 (A l5 11_ �Sedondvr greater'_°ordetchinnel No's 0 Yes =r3 " artificial ditches aremot rated, see discussions in manual B, Hvdroloav (Subtotal = 4' 1 12 'Presence of Baseflow 0 1 2 3 13 _Iron wad¢mg bactena _ 0 _ 1 2 _ _ 3 14 Leaf litter _ _ _ 15 1 _ 05 __ 0 15 Sediment on plants or d'ebns 0 0'S 1, 15 16 OrgAni &debns line's or piles 0 2 '1 1 5 IT Sod -based evidence ofjhigh water table?, No = 0 Yes s3, C Bloloav (Subtotal = a ) -------- 18 Fibr s roots in streambed 3 2 1 0 19 Rooted, uplantlIplants?m_streambed _ T, 3 2 1 01 20 ,macrobenthos (note diversttyiand abundance) - 0 C111, 2 3 - 21 Aquatic Mollusks - - 0 1, - 2 3_ _ 22 Fish 0 `5' 1 1 5 23 Ciayfish 0 5' 1 is 24 Amphibians - - 0 0 01 1 - - Ilk 25 Algae _ —_ 0 - 0,5- 1 1 5 26 Wetland plants imstreambed TACW 0 75, OBL = 15 Otlier � 'perennial streams may also,be identified using other methods Sde,p 35 ofmanual _ Notes- 'Sketch NC DWn Stream Identification Form Version 4.11 Date: I 5 Protect/Site 1 aA t✓ Latitude. Evaluator County: r 15�� Longitude Total Points: least Stream Dete - le one) `Other Stream is at intermittent '? 1 V Ephemeral ntermitten erennial e g Quad Name. if 2 19 or perennial if? 30' 2 3 A Geomorphology (Subtotal = �'� Absent Weak Mod to Strong 1e Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 ) 2 3 3 In- channel structure ex nffle -pool, step -pool, ripple-pool sequence 0 1 2 3 4 Particle size of stream substrate 0 1 ' 2 3 5 Active /relict floodplain _ 0 1 2 3 6 Depositional bars or benches 0 1 1 5 3 24 Amphibians 7 Recent alluvial deposits i 1 2 3 0 8 Headcuts 0 1/ 2 3 FACW 7 9 Grade control 0 5 1 1 5 10 Natural valley 0 0. 5 1 1 5 11 Second or greater order channel lho = 0 r Yes = 3 artificial ditches are not rated, se&discussions In manual B Hvdroloav (Subtotal= ) 12 Presence of Baseflow 0 1 2 3 I 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf Utter 15 1 1 l 0 15 Sediment on plants or debris 0 05 1 -1-5 16 Organic debris lines or piles =1 05 1 1 5 17 Sod- based 'evidence of high watertable? No,= 0 Yes =2 C Bloloav (Subtotal = 1,0 725 ) 18 Fibrous roots in streambed 1 3 2 1 0 19 Rooted upland plants m,streambed "'13"1 2 1 0 20 Macrobenthos (note Avers ity,and abundance) 0 1 2 3 21 Aquatic,Mollusks 1 2, 3 22 Fish 0 05 1 1 5 23 Crayfish 0`5 1 1 5 24 Amphibians _ - " ' _ 0 5 �) 1 _ 1 5 25 Algae 0 —65 (1 1 5 26 Wetland plants in streambed FACW 7 BL = 1 5 Other = 0 'perennial streams may also be identified using other methods Seep 35 of manual Notes Sketch I NC Division of Water Quality — Methodology °for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date ProjectUSlte , , L a Latitude. Evaluator ;Ir j County t^ Longitude Total Points: Stream Determination (circle one) Other Stream is at least intermittent J Ephemeral Intermittent Perennial p a Quad Name 9 ' if ? 19 or eiennial if 2:30* 3 1 A Geomorphology (Subtotal = LlI�� 1 Absent_ Weak Moderate Strong 0 1 18 Continuity of channel bed and bank 0- 1 _ 13 Iron oxidizing bacteria_ 3 ( 2 Sinuosity of channel along thalweg 0 1 2 3 1 3 In- channel structure ex nffle -pool, step -pool, ripple-pool se uence 0 O 2 3 06 4 Particle size.of stream substrate 0 1 2 '3 3 5 Active/relict floodplain 1 1 2 3 es = 6 Depositional bars or benches 0 1 2 3 7 'Recent alluvial deposits 0 1 2 3 05 8 ,Headcuts 0 1 2 3 '9 G_ rade control 0 05 1 1 5 26 Wetland plants mistreambed 10 Natural'valley 0 65 1 1 11 Second or greater order channel o = Yes'= 3 a artificial ditches,are not rated „see discussions in manual R Hvrtrnlnnv (Suhtntai = (91 1 12 Presence,of Baseflow 0 1 2 J 0 13 Iron oxidizing bacteria_ 0 ( 2 3 1 14 Leaf litter 1 5 1 0 0 15 Sediment on, plants or debris 0 06 21 Aqua tic Mollusks 1 5 1 16 Organic debris lines or piles 0 3 1 1 5 0- 17 Sod -based evidence of high water table? No = 0 es = 15 C Bioloav (Subtotal = - 1; 1 1 18 Fibrous roots in streambed 3 1 0 19 Rooted upland plants in streambed CT 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 if 3 21 Aqua tic Mollusks 0 1 2 3 22 Fish 0- 0 15 1 15 23_Crayfish 0 1 15 24 Amphibians_ ,0 05 1 1 5 25 Algae _ 05 1 15 26 Wetland plants mistreambed FACW = 0 75, OBL = 1 5 Wer - 0 •perennial;streams may also be identified using other methods See p 35 of manual Notes 'Sketch I I 41 1V!' ilWtl C +roam 1f1an+iiAd -Q #inn IRnrm Vorcinn d_11 Date. Project/Site 'r +a Latitude - Moderate Evaluator- J� R n County �s� Longitude 0 Total Points. Stream is at least intermittent 17, �S rmination (circle one) termittent Other e Quad Name. >% z 19 or perennial if? 30' phem eral ,Perennial g - 2 A Geomorphology (Subtotal = Absent Weak Moderate Strong 18 Continuity of channel bed and,bank 0 1 2 3 2 Sinuosity of channel along thalweg 1 5 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 1 2 3 4 Particle size of stream substrate 0 1 2 _ _ _ 3 5 Active /relict floodplaln 0 1 2 3 6 Depositional bars or benches 0 ) " 0 5 2 3 7 Recent alluvial deposits 0 1 2 3 8 Headcuts 0 FACW =A757 2 3 'perennial streams may also be,identified using other methods See p 35 of manual 9 Grade control 1 1 5 10 Natural valley _ 0 0 1 1 5 11 Second or greater'order channel _ No = Yes = 3 Sketch artificial ditches,are not rated, see discussions in manual R i-ivrirninriv = I— 1 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 1 2 _ 3 14 Leaf litter 1 5 1 05 0` 15 Sediment on plants or debris 0 015 1 3 16 Organic debris lines or piles 0 05 1 1 5 17 Soil -based evidence of high water table? No = 0 es = 3 - 1 r Rininnv 1Cuh+n +n1 = - _7 5 1 i I 18 Fibrous,roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks '0 2 3 22 Fish 05 1 1,5 23 Crayfish 0 0,5 1 1 -5 24 Amphibians 0 " 0 5 1 1 5 25 Algae 0 - 0 5 1 15 26 Wetland plants in streambed FACW =A757 BL = 1 ther = 0 'perennial streams may also be,identified using other methods See p 35 of manual Notes Sketch S NC 1)Wn Stream Identifientinn Fnrm Versinn 4.11 Date. l 1 7 / ?j Project/Site ! fie Latitude la Continuity of channel bed and bank Evaluator Tef Vo A County Longitude, 3 Total Points Stream'rs at least rnterinrttent Stream Determination (circle one) 'Other 1 if? 19 or erennral,d+t,30" Ephemeral Intermittent Perennial e g Quad Name. 3 In- channel structure ex riffle -pool, step -pool, n le- ool sequence A Geornor holo (Subtotal= l0 ) Absent Weak Mo to Strong 0 1 la Continuity of channel bed and bank 0 1 2 3 1 2 Sinuosity of channel along thalweg 0 1 2 3 1 3 In- channel structure ex riffle -pool, step -pool, n le- ool sequence - 0 - 1 2 3 05 4 Particle size of stream substrate 0 1 2 3 05 5 Active /relict floodplain 0 1 17 Soil- based,evidence of high water,table? 3 05 6 Depositional bars,or benches 0 1 2 3 0 5 7 Recent alluvial deposits 1 5 1 2 3 8 Headcuts D 1` _ 2 3 FACW = 0 75, OBL = 16- ther -,0 ' 9, Grade control _ 0 'perennial streams may also +be identified using other methods See p 35�ofamanual 1 1 5 10 Natural valley 0 1 1 5 11 Second or greater order channel No= 0 Yes = 3 artificial ditches are not,rated, see discussions in manual R Hvrirnlnnv (Suhtntal = �1 . L' ) 12 Presence of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 0 1 2 _ 3 14 Leaf litter 15 1 2 0 15 Sediment on plants or debris Q 05 1 1 5 16 Organic debris lines or piles 0 05 1 15 17 Soil- based,evidence of high water,table? No = 0 05 1 C Bloloav (Subtotal = /. 15 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 1 2 3 21 Aquatic Mollusks _ _ 0 _ 1 2 3 22 Fish r 05 1 15 23 Crayfish '-0') 05 1 15 24 Amphibians 0 0 5 "4 1 5 25 Algae 0 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 16- ther -,0 ' 'perennial streams may also +be identified using other methods See p 35�ofamanual Notes Sketch Mir TIWCI Ctraam TrlanWir -atinn I nrm Vareinn d_11 Date' 4 P.rojectlSite j _ , Latitude Evaluator ` ;. t, County Pr p Longitude 2 Total Points: a rmination (circle,one) Other 0 Stram is at least intermittent Ephemeral I termittent Perennial e g Quad Name' a > rf, ?'I 8 or perennial if z 30' /"i 1 2 A Geomorphology Subtotal = Absent Weak Moderate Strong 0 1 18 Continuity of channel bed,and bank _ 0 1 2 _ _ 3 1 2 Sinuosity of channel along -thalweg 0 7 1 2 3 1 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence /"i 1 2 3 5 4 Particle size of stream _substrate 0 1 2 3 05 ,5 Active /relict floodplain 1 5 1 2 3 Yes = "s 6 Depositional bars,or benches 0, 1 2 3 7 Recent alluvial deposits_ 0 1 2 3 05 8 Headcuts 0 1 2 3 0 9 Grade control 0 0 1 15 26 Wetland plants in streambed 10 Natural valley 0 05 1 15 11_ Second or greater order channel No = 0 Yes = 3 a artificial ditches are not rated, see discussions in manual R I-Ivrtrninnv /Cuhfn +mI = 12 Presence of Baseflow 0 1 2 3 0 13 Iromoxidizing bacteria 0 1 2 3 1 14 Leaf litter 15 1 05 ; 0 15 Sediment on plants or debris -0_ 5 1 1 5 16 Organic debris lines or piles 1 0 05 1 1 1 5 ' 0 17 Soil -based evidence of high water table? No = 0 Yes = "s 1 5 r` Rinlnnv /Riihtn4 =l= -11 1 I 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in'streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 2 3 21 Aquatic,Mollusks 2 3 22 Fish ' 0 05 1 1 5 23 Crayfish 0 05 1 1 1 5 24_ Amphibians Q 05 1 1 5 25 Algae 0 05 1 1 5_ 26 Wetland plants in streambed FACW =,0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch iV(`'nW, O CtrPam iripntifientinn Fnrm Vercinn 4 -11 Date S 3 Project/Site _Fare_ Latitude- 2 Evaluator. County: ke Longitude Weak tf 14 c 3 I"Continuity of channel bed and bank Total Points, Stream is;at least intem►rttent Stream Determination (ci e) Other 3 I Ephemeral Intermittent erennia e g Quad Name 1 d t 19 or perennial d ? 30" 3 1 5 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence A Geomorphology (Subtotal = 0 1 2 C 3 Absent Weak Moderate S rig 3 I"Continuity of channel bed and bank 0 1 2 3 0 2 Sinuosity of channel along thalweg 0 1 2 3 1 5 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 l; 3 1,5 4 Particle size of stream substrate 0 1 Yes = 3 C 3 15 5 Active /relict floodplain 0 1 C2 1 5 6 Depositional bars or benches 0 1 2 3 1 5 7 Recent alluvial deposits 0-,) 1 'FACW = 0 75, OBL = 1"5 "Other = 0 3 'perennial streams may also be,identified using other,methods Seep 35 of manual 8 Headcuts 0 1 2 3 9 Grade control 0 05 1 15 10 Natural valley 0 05 1 15 11 Second or greater order channel o,= 0 Yes = 3 a artificial ditches�are not rated, see discussions in manual 'Q L.Ivrlrnlnmi /G b,:n1�1 - �..I l 12 Presence of Baseflow 0 1 2 C 3 13 Iron oxidizing bacteria 0 1 2 3 14 _Leaf litter 15 1 5 0 15 Sediment on plants or debris 0 05 1 1 5 16 Organic debris lines or piles 05 1 1,5 17 Sod - biased evidence of high water table? No = 0 Yes = 3 1 r Rininnv /CI ihlnt0l = C Z _ '_% 1 I 18 Fibrous roots in streambed 3 2 1 0 19 ,Rooted upland plants iwstreambed t 0 20 Macrobenthos (note,diveCsity and abundance) 1 2 3 21 Aquatic Mollusl(s 0 1, 2 3 22 Fish 05 1 1 5 23 Crayfish 0 05 1 15 24 Amphibians 0 0 5 ) 1 5 25 Algae _ _ _ _ _ �0 8 1 1 5 26 Wetland plants in streambed 'FACW = 0 75, OBL = 1"5 "Other = 0 'perennial streams may also be,identified using other,methods Seep 35 of manual Notes Sketch NC Division of Water,Qual_ity — Methodology for Identification of Intermittent and Perennial Streams and`Their Origins v 4.11 'f XTS- T1117 Q# -- TA--+;C.--+;^n U^Vareinn d 11 l �` Date. F— 7 f Project/Site i u 1 � Latitude. Moderate Evaluator. , / j jC ,, , , County, �i Longitude 0 1 _2 3 1 Total Points: Stream Determination (circle one) Other 2 Stream is at least intermittent Ephemeral Intermittent Perennial e g Quad Name' 0 if Z 19 or perennial if a 30' 2 - 1 A Geomorphology Subtotal = Absent Weak Moderate Strong 0 1' Continuity of channel bed and bank 0 1 _2 3 1 2 Sinuosity of channel along thalweg 0 1 2 3 3 ,In- channel structure„ex nffle; pool, step -pool, ,ripple-pool sequence 0 1 2 U 1 4 Particle size ofstream substrate 0 1 2 15 0 5 Active /relict floodplain 9j, 1 2 3 23 Crayfish 6 Depositional bars or benches 0 1 2 3 7' Recent alluvial deposits 4 1 2 3 1 5 8 Headcuts 9 1 2 3 1 9 Grade control 0 05 1 1 Other = 0 10 Natural valley 0 05 Notes 11 Second or greater order channel No = Yes = 3 artificial ditches are not rated, see discussions in manual R I- Arninnv /Q"kfnfnl = C q- 1 12 Presence of Baseflow 0 1 2 1 0 13 Iron oxidizing bacteria 0 Cp 2 3 1 14 Leaf litter 15 1 r03 0 15 Sedimenton plants or debris 3 05 1 1 5 1 16 Organic debris lines or piles 0 L 0 5 1' - 15 0 17 Sod- basedievidence of high water tables O`= Yes= 3' 1 5 18 Fibrous °roots in streambed 3 2 1 0 19 Rooted upland plants in streambed _ _ _ 3 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 05 1 1 5 23 Crayfish 0 05 1 1 5 24 Amphibians 0 05 1 1 5 25 Algae 0 05 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 "perennial streams may also be identified using other methods See p 35 of manual Notes Sketch 41 NC Division of'Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 l NC DWQ Stream Identification Form Version 4.11 t/ Y Date ProtecVSite ,1 Latitude: Evaluator P, N/ ti , ,� County: Longitude Total Points: Stream Determination (circle one) Other Stream °is at leashrntermittent Ephemeral Intermittent Perennial e g Quad,Name if z 19, or perennial if 2:30' A Geomorphology Subtotal =--L J1 Absent Weak Moderate Strong 0 18 Continuity of channel bed and bank 0 1 2 3 1 2 Sinuosity of channel along ihalweg 0 1 2 0 3 In- channel structure ex riffle -pool, step -pool, n le- ool sequence 0 1 2 t- V 1 4 Particle size of stream substrate 0 1 2 3 0 5 Active /relict floodplain 0 Cl) 2 3 23 Crayfish 6 Depositional bars or benches 0 1 1 3 7 Recent alluvial deposits 0 1 2 3 15 6 Headcuts 0 0 2 3 1 9 Grade control 0 05 1 1 Other = 0 10 Natural valley 0 05 1 Notes 11 Second or greater order channel NpM Yes = 3 artificial ditches are not rated, see discussions in manual R HvrlmInnv Miihtntal = 1 12 Presence of Baseflow 0 11 2 3 0 13 Iron oxidizing bacteria 0 3 2 3 1 14 Leaf litter 1.5 i9 0�5 0 15 Sediment onplants,or debris 0 05 1 1 5 1 16 Organicidebns lines or piles 0_ 05 1 15 0 17 ,Soil -based evidence of high,water table? No = 0 es = 3 1 5 r_ Rininnv rCuhtntni = I U. C 1 I 18 Fibrous roots'in streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos,(noteldiversity and, abundance) 0 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 05 1 1 5 23 Crayfish 0 05 1 15 24 Amphibians 0 05 1 15 25 Algae 0 05 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 15 Other = 0 'perennial streams may also be, identified using =other methods See p 35 of man_ ual Notes Sketch 41 NC Division of Water Quality — Methodology forddentification of Intermittent and Perennial Streams and Their Origins v. 4.11 VC T1W11 Q +raam Man+i4ira *inn Vnrm VPreinn d_11 Date. / _ G_ ( Project/Site Latitude ,Moderate Evaluator. r it County Longitude 0 V r - M 2 -3 1 Total Points. Stream Determination (circle one) Other 2 Stream is at least intermittent Ephemeral ,Intermittent Perennial e g Quad °Name 0 ita 19 or perennial if 2:30* - 1 A Geomorphology ( Subtotal = _ Absent Weak, ,Moderate Strongt 0 18 Continuity of channel bed and bank 0 1 1 2 -3 1 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, nipple-pool se uence 0 l 2 3 1 4 Particle size of stream substrate 0 V 2 3 _ 5 Active/relict floodplaln No = 0 1 2 3 23 Crayfish 6 Depositional bars or benches 0 2 3 7 Recent alluvial deposits 0 1 2 3 1 5 8 Headcuts 0 1 0 5 3 1 9 Grade control 0 015 Y 15 Other = 0 10 Natural valley 0 05 _1 5 Notes - r• r pu 11 Second,or greater order channel - Yes = 3 artificial ditches are not rated, see discussions in manual R 1-Ivriminnv lRuhfnfal = '6' 1 12 Presence of Baseflow 0 1 3 0 13 Iron oxidizing bacteria 0 2 3 1 14 Leaf litter 1 5 1 05 15 Sediment on plants or debris 3 05 1 1 5 1 16 Organic debris Imes or piles 2 L 05 1 1 1 5 17 Soil -based evidence of high water table? No = 0 es - 1 5 t = Rininnv /Cnhfnlal = 4, 1 I 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 2 1 0 20 Macrobenthos (note diversity and abundance) 0 2 3 21 Aquatic Mollusks 17 1 2 3 22 Fish 65 1 1 5 23 Crayfish 05 1 1 5 24 Amphibians 0 (03 1 1 5 25 Algae _ 0 0 5 1 1 5 25 Wetland plants in streambed FAC " =i0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes - r• r pu Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 \ NP Y%Wn C+rnam Linn +ifoa +inn Fnrm Varcinn d 11 Date• I ' Project/Site t�1 Latitude Evaluator. �� X �; County, '; ;f Longitude. 1, v l� 3 'Total Points: t / Stream Determination (circle one) Other Stream is at least intermittent ' r yb Ephemeral Intermittent Perennial e g Quad Name if z 19 or perennial if 2 30 1 1 A Geomorphology (Subtotal = I ^' ' rl Absent Weak Moder to Strong 18 Continuity of channel bed and bank 0 t 2 3 2 Sinuosity of,channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool sequence 0 1 1 3 4 Particle size,of stream substrate 0 1 2 3 5 Activelrehct,floodplain 0 1 2 3 6 Depositional bars or benches `0 1 2 3 7 Recent alluvial deposits ) 1 2 3 8 Headcuts 0 1 3 9 Grade control 0 05 26 Wetland plants in streambed 15 10 Natural valley 0 05 1 '1 11 Second or greater order channel = Yes = 3 ° artificial ditches are not rated, see discussions in manual R I-IvrimInnv tCrihtntal = If r 1 12 Presence of Baseflow 0 1 2 3 13 Iron ozidaing bacteria 0 1 2 3 14 Leaf litter 15 1 05 0 15 Sediment on plants or debris 0 05 1 15 16 Organic debris lines orpiles 0 1 05 1 1 5 17 Soil -based evidence of high watertable? No- 0 Yes = 3 r' Rinlnnv M11htntal = If i 1 18 Fibrous roots in streambed 2 1 0 19 Rooted upland plants in-streambed 3 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 1 5 23 Crayfish 05 1 15 24 Amphibians 0 0 1 1 5 25 Algae 05 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 D7 Date. I I U- f I t Projectfsite Latitude Evaluator _ ` / I County Longitude Total Points: Stream is at least,rntermittent of Stream Determination (circle one) Ephemeral Intermittent Perennial Other Quad Name: d2 19 or perenrral t%Z 30' 2 Sinuosity of channel along thalweg e g A Geomorphology Subtotal = U(`7 ) Absent Weak Moderate Strong 1a Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ri le- ool sequence (.% 1 2 3 4 Particle size of stream substrate 0 65 2 3 5 Active /relict floodplain 0 s ="3 2 3 6 Depositional bars or benches 0 1 2 __ 3 7 Recent alluvialideposits _ _ _ 24 Amphibians 1 2 3, 8 Headcuts 0 25 Algae 2 3 9 Grade control 0 0 1 15 10 Natural valley 0 05 rq 1 1 5 11 Second or greater order channel No;;-O- Yes = 3 artificial ditches,are not,rated, see,discussions in manual B Hvdroloav °(Subtotal = :7 ) 12 Presence of Baseflow 0 1 3 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 15 1 0 5 1 15 Sediment on plants or debris 2 05 1 1,5 16 Organic debris lines or piles 65 1 15 17 Soil -based evidence of high water table'? No = 0 s ="3 C Blologv (Subtotal = —7 ) "� 18 Fibrous roots in streambed _ 3 4T 1 0 19 Rooted upland plants in streambed _ _ 2 1 0 20 Macrobenthos (note diversity'and abundance) 0 1 2 3 21 Aquatic Mollusks 0 1 2' 3 22- Fish 0 05 1 15 23 Crayfish 0 05 1 1 5 24 Amphibians 0 0 1 15 25 Algae 0 0 1 1.5 2.6 Wetland plants imstreambed FACW = 0 75, OBL = 1 5 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch 41 NC Division of Water Quality — Methodology for Identification ,of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date` �- G -� d Project/Site u-�e ,^ Latitude Evaluator, , w C )(I Cf County. c� Longitude Total Points' Stream'Determination (circle one), Other Stream is at least intermittent �` d t 19 or" erennral'd z 30" Ephemeral Intermittent Perennial e g Quad, Name:, ral A Geomorphology Subtotal = Absent Weak Moderate Strong 1' Continuity of channel bed,and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 V 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence 0 (J 2 3, 4 Particle size of stream substrate 0 1` 2 1 5 Active /relict floodplain 0 1 2 3 6 Depositional bars or benches _ 0 _ 1 2 3 7 Recent,alluvial deposits 01 1 2 3 8 Headcuts 0 1 2 3 9 Grade control 0 05 1'5 10 Natural valley 0 05 15 11 Second or;greater order channel No = 0 Yes = 3 a artificial ditches are not rated, see discussions in manual B H drolo Subtotal = (O 12 Presence of Baseflow 0 1' _ _ 1, 3 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 15 1 05 0 15 Sediment on plants or debris 1 0 05 1 1 15 16 Organic debris lines or piles 0 05 1 1 1 5 17 Soikbased evidence'of high water tables No = 0 s - C Blolo Subtotal= 18 Fibrous roots in streambed 2 _ _ 1, 0 19 Rooiedupland plants in streambed 2 1 0 20 Macrobenthm (note diversity and abundance) 0 1 2' 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 05 1 1 5_ 23 Crayfish 0 05 1 1 5 24 Amphibians 0 1 -1-5 25 Algae 0 0 1 1 5 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 'perennlal streams,may also be Identified using, other methods See p 35 of manual Notes Sketch 41 NC Division of'Water Quality - Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date L -G_ (1 !� Project/Site �� Latitude Evaluator �, County. ,Longitude. ?�v/l a 2 3 Total Points. Stream Determination (circle one) Other Stream is at least intermittent Ephemeral Intermittent Perennial e g Quad Name if a 19 or perennial If a 30' 05 2 r A Geomorphology (Subtotal = -1 j _ Absent Weak Moderate Strong 1e Continuity of channel bed and bank_ 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 W 3 3 In- channel structure ex riffle -pool, step -pool, n le- ool sequence 0 05 2 3 4 Particle size of stream, substrate _ 0 _ 05 2 3 5 Active /relict floodplam No = 0 1 2 3 6 Depositional bars, or benches 0 1 2 3 7 Recent alluvial deposits 24 Amphibians 1 2 3 .B Headcuts 0 25 Algae 2, 3 9 Grade control 0 015 26 ,Wetland plants in streambed 15 10 Natural valley 0 05 CIf 1 5 11 Second or greater order channel N 75 Yes = 3 artificial ditches are not rated, see discussions in manual B H drolo Subtotal = 0 12 Presence of'Baseflow 0 1 2 i 3 13 Iron oxidizing ,bactena 0 2 3 14 Leaflhtter 1,5 1 05 & 15 Sediment,on plants or debris 0' 05 1 1 5 16 Organic debris lines or piles 0 _ 05 1 1 5 17 Soil-based evidence of high water table? No = 0 Yes E_3 (- Rinlnnv (Suhtntal = 18 Fibrous,roots imstreambed 2 1 0 19 iRooted upland plants m`streambed;_ 2 1, 0 20 Macrobenthos,(note diversity�and abundance) 0 Q 2 3 21 Aquatic Mollusks _ 0 1 2 3 22 Fish 0 05 1 15 23 Crayfish 0 05 1 1 5 24 Amphibians 0 _ 1 15 25 Algae 0 0 1 15 26 ,Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other =�0 'perennial streams,may also be identifiedrusmg other, methods See }p 35,ofmanual Notes Sketch 41 NC Division of Water'Quality — Methodology for Identification of Intermittent and Perennial Streams and Their Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date G Project/Site rq Latitude: � Evaluator Y� 0 dot J County 0 Longitude �� / U 3 2 Sinuosity of channel along thalweg 0 Total Points, Stream Determination (circle one) Other Stream is,at least intermittent Ephemeral Intermittent Perennial e g Quad Name. if? 19 or perennial d,Z 30" 3 4 Particle size of stream substrate A Geomorphology Subtotal = j Absent Weak Moderate Strong 1a Continuity of,channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3, In- channel structure ex riffle -pool, step -pool, n le- ool sequence _ 0 1 2 3 4 Particle size of stream substrate 0 1 2 3 5 Active /relict,floodplain No =t0 1 2 3 6 Depositional bars or benches 0 1 2 3 7 Recent alluvial deposits n 1 2 3 8 Headcuts 0 FACW = 0 75, O_ BL = 1 5 Other = 0 2 3 9 Grade control 0 0 1 1 5 10 Natural valley 0 05 1 5 1 -1 Second or greater°orderchannel 'Nq--)o 'N --)o Yes = 3 a artificial ditches are not rated, see discussions "m manual B Hydrology Subtotal = 3 12 Presence of Baseflow 1 2 3 13 Iron oxidi2ing bacteria 1 2 3 14 Leaf litter 1 5 1 05 0 15 Sediment on plants or debris 0 05 1 1 5 16 Organic debns_Gnes or piles - 0 05 1 1 5 17 Soil -based evidence of high water table? No =t0 es = C Biology Subtotal = Z. 18 Fibrous,roots`m streambed 2 1 0 19 Rooted upland plants in,streambed 2 1 0 20 Macrobenthos.(note diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 05 1 15 23 Crayfish 0 5 1 1 5 24 Amphibians 0 0 6 1 1 5 25 Algae n 0,5 1 1 5 26 Wetland plants in strearribed FACW = 0 75, O_ BL = 1 5 Other = 0 'perenniabstreams may,also be identified using other methods See p 35,of manual Notes Sketch 41 PVC Division of Water Quality — Methodology for Identification of" Intermittent and Perennial Streams and Their Origins v. 4.111 ' Nir nW(b CtrPnm irlentifiention Fnrm Version 4.11 ) 0 Date: �' G - -- -� 3 Project/Site u 2 Latitude: Evaluator �P���� U� I� �„ County: l �� Longltude. Total Points: Stream Detenrination (circle one) Other Stream is atleast intermittent d t 19 or perennial if t 30' Ephemeral intermittent Perennial e g Quad Name' - - A Geomorphology Subtotal = r 0 Absent Weak Moderate Strong 18 Continuity of channel bedsand bank 0 1 .2 3 2 Sinuosity of channel,along thalweg 0 05 2 3 3 In- channel structure ex riffle -pool', step -pool, n le= ool se uence 0 1 2 3 4 Particle size of stream substrate 0 1 15 3 5 Active /relict floodplain I es = 9 - 1 2 3 6 Depositional bars or benches 05 1 2 3 7 Recent alluvial deposits 0 1 2 3- 8 Headcuts 0 1 2 3 9 Grade(control 0 075 1 5 10 Natural,valley 0 0 5 _ 1,5 11 Second or greater order channel No,= 0 Yes = 3 a artificial ditches are not rated see di s ssions in manual R Hvdrnlnnv lSuhtnt; l = � 1 12 Presence of Baseflow 0 1 3 13 Iron oxidizing bacteria 0 1 2 3 14 Leaf litter 1 5 1 05 0 15 Sediment on plants or debns_ 0 0,5 1 1 5 16 Organic debris lines or piles 0 1 05 1 1 15 17 Sod -based evidence of high water table? No = 0 I es = 9 - C Biology Subtotal = C4 T 18 Fibrous roots in streambed 2 1 0 19 Rooted upland plants in,streambed 2 1 0 20 Macrobenthos (note diversitpand� abundance) 0 1 a9 3' 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 05 1 1 5 23 Crayfish 0 05 1 1 5 24 Amphibians 0 col I 1 15 25 Algae 0 Q05) 1 1 15 2.6 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0_ 'perennial streamsimay also be,identified'using other methods Seep 35 of manual Notes Sketch 41 NC Division of Water Quality — Methodology for Identification of Intermittent and Perennial Streams and Their'Origins v. 4.11 NC DWO Stream Identification Form Version 4.11 Date Project/Site Latitude: Evaluator ey,f a ✓ ( County: 18 Continuity of channel bed and bank Longitude, Total Points: Stream Determination (circle one) Other Stream is at least intermittent Ephemeral Intermittent Perennial e g Quad Name: if a 19 or perennial if a 30' 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence A Geomorphology Subtotal Ab "sent Weak Moderate, Strong 18 Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel thalweg 0 1 2 3 3 In- channel structure ex riffle -pool, step -pool, ripple-pool se uence /�� l% 05 2 3 4 ,Particle.size,of stream substrate 0 1 05 2 3 5 Active /relict floodplain No =�0 1 2 3 6 Depositional bars or benches 1 5 1 2 3 7 Recent alluvial deposits 0 1 2 _ 3_ _ 8 Headcuts 0 1 _ 2 3 9 Grade control 0 ,0 1 15, 10 Natural valley 0 06 15 11 Second or greater order channel Noo Yes =,3 artificial ditches are not rated, see discussions in manual B Hvdroloav (Subtotal = 'Li 1 12 Presence,of Baseflow 0 1 2 3 13 Iron oxidizing bacteria 3 1 2 3 14 Leaf litter 15 1 05 CT 15 Sediment on plants or debris 0 05 1 15 _ 16 Organic debris lines or piles, 22 Fish 1 05 1 15 17 Soil -based evidence of high water table ?' No =�0 Y � 3 C Biolo Subtotal = 6 18 Fibrous roots in streambed 3 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note diversity�and abundance) 0 _ 771 2 3 21 Aquatic Mollusks 1 2 3 22 Fish _ 0 5 1 1 5 23 Crayfish 91 0,5 1 1 5 24 Amphibians 0 1 1 5 25 ,Algae _ 05 1 15 26' Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other = 0 `perennial streams may also be identified using other methods See p 35 of,manual Notes iAqoirpj Sketch i 41 NC nWn Strpam identification Form Version 4.11 Date: 114 t'3 ProjectlSite :-� Latitude: Evaluator: ,U County: to "t Longitude: ere 1 2 'Total Points: Streamvs,at least intermittent �� Stream Decircle one) Other 5 1 Ephemera lntermitbe Perennial e g Quad Name: .+ it a 19 or fennial if a 30' 0 1 A. Geomorphology (Subtotal= Absent W_ eak Moderate Strong 18 Continuity of channel bed and bank - 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel,structure ex nffle -pool, step -pool, n le- ool sequence 0 1 t -' 3 4 Parbde size of stream substrate 0 1 2 3 5_ Acbvehelict;floodplam _ 0 1 2 3 6 Depositional bars or'benches 0 1 2 3 7 Recent alluvial deposits 0 1 2 3 8 Headcuts 0 1 3 9 Gradwcontrol 0 05 1` 1 5 10 Natural valley 0 05 11 Second or greater order channel No = 0 Yes = 3 "artificial drtches,are not rated, see discussions in manual R Hvriminnv /Suhtntali= S 1 12' Presence of Baseflow 0 1 2, 3 13 Iron madizing bacteria 0 2 2 3 14 Leaf Utter 15 1 05 0 15 Sediment on plants,or debris ( 0�5 - 1 1 5 16 Organic debns lines or plies 0 -5 1 15 17 Soil -based evidence of high water table? No = 0 les =2 - r` Rininnv /Suhtntal = I U 1 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 3 2 1 0 20 Macrobenthos (note,diverslty and abundance) 0 1 2 3 21 Aquatic_ Mollusks 0 1 2 3 22 Fish, 05 1 15 _ 23 Crayfish 1 0 05 1 24 Amphibians 0 05 05 1 25 Algae 0 (5 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 15 Other 0 •peren6tals_treams may also be identified, using other methods See p 35 of manual Notes Sketch NC DWO Stream Identification Form Version 4.11 Date: (, Pro�ect/Site A= Latitude: Evaluator. T Ter � A ► r' County: � S �, � Longitude: Total Points: Stream is at least intermittent Z� Stream Darntermitte circlwone) Other 3 Ephemera M ere nnial e g quad Name: IL If 2 19 or pefennial if, 30'_ _ 2 3 A Geomorphology- Subtotal =_ � Absent `Weak Moderate Strong 18 Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 In- channel structure_ ex raffle -pool, step -pool, ripple-pool se uence, 0 1 d 3 4 Partlde size of,streamisubstrate 0 1 2 3 5_ Active /relict floodplain 0 1 2 3_ 6 Depositional bars or benches _ 0 1 2 3 ,7 Recent alluvial deposits 0 1 2 3 8 Headcuts 0 1 2 C22 9__Grade control 0 015 '1 I'S 10 Natural,valley 0 0.5 1 15 11 Second or greater order channel No = Yes = 3 " artificial ditches are not rated, see discussions in manual _ B. Hvdroloav (Subtotal = 5 ) 12 Presence of Baseflow 0 2 2 3 13 Iron�owdizing.bactena _ 0 1 2 14 Leaf litter 1'5 1 05 CO) 15 Sediment on plants or debris 0 05 1 1 -5 16 Organic debris lines or piles 05 1 15 17 Sod -based evidence of high water table? No = 0 Yes = 3 C. Biology (Subtotal = q 5 ') I& Fibrous,roots in streambed 3 2 1 0 19 'Rooted upland plants in streambed 2 1 0 20 Macrobenthos (note diversity and abundance) _ _0 1 2 3 21 Aquatic Mollusks 1 2 3 22 _Fish 0 0,5 1 1 5 23 Crayfish _ 0 0'5 _ 1`_ 15 _24 Amphibians 0 65 1 15 25 Algae 0 COV 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 1 5 Other 0 *perennial streams may also be identified using other methods Seep 35 of manual Notes - Sketch NC DWO Stream Identification Form Version 4.11 Date: (I ? ProtectfSite T, �� Latitude. Evaluator: County: Longitude: Total Points: Stream Determination (ci Other Stream is at least intermittent 3 Ephemeral Intermittent emnnla e g Quad Name: if;! 19 oratrannial if t 30'_ 2 3 A Geomorphology (Subtotal= 1 5 Absent Weak Moderate Str ng 1e Continuity of channel bed and bank 0 1 2 3 2 Sinuosity of channel along thalweg 0 1 _ 2 3 3 In- channel structure ex nffle -pool, step -pool, ripple-pool se uence 0 1 1 3 4 Particle size of stream substrate 0 1 2 3 5 Actwe/rellct floodplain 0 Yes- 3 - 2 3' 6 Depositional bars or benches CL 0 2 3 7 Recent alluvial deposits 00 1 2 3 8 Headcuts 0 7 1 3 9 Grade control 0 05 C9 5 10 Natural valley 0 05 1 , 1 5 11 Second or greater order channel r No = 0 Yes = 3 ° artificial ditches are not rated, see discussions in manual B Hvdroloov (Subtotal = J, 1 12 Presence of Baseflow 0 1 2 3 13 Iron wadizing bacteria 0 1 2 .3 14 Leaf litter 1 5 1 _ 015 0 15 Sediment on plants or debris _ 0 05 1 15 16 Organic debris tines or piles 0 05 1 15 17 Soil-based evidence oUhigh water tabled To = 0 ) Yes- 3 - C Bioloav (Subtotal= 11,5 ) - 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambecl 3 2 1 0 20 Macrobenthos (note diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 0 1 (. 3 22 Fish 0 05 1 15 23 Crayfish 0 0 5 _ 15 24 Amphibians 0 0 15 25 Algae 0 0 5 1 15 26 Wetland °plants'rn streambed FACW = 0 75, OBL = 1 5 Othe = 0 Verenrnal'streams may also be identified using other methods See p 35 of manual Notes Sketch NC DWQ Stream Identification Form Version 4.11 Date- (I (D j (?� ProjectlSlte "r, Latitude: Evaluator County: �S! Longitude. Total Polnts: Stream Is, at least Intermittent 3 Stream Deta circle one) Other r— LA 2 Ephemera rmitbe Perennial e g Quad Name- it 2 19 or perennial if 2 30• 2 3 A Geomorphology Subtotal = 5 Absent Weak Moderate Strong 18 Continuity ofachannel bed and bank 0 1' 2 _ 3 2 Sinuosity of channel along thalweg 0 1 2 3 3 in- channel structure ex nffle -pool, step -pool, n le- ool sequence 0 1 2 3 _ 4 ParUde size of stream substrate _ _ 0 05 2 3 floodplain 0 _ 6s =3 - 2 _3 -,5-Active/relict 6 Depositional bars or-benches 0 1 2 _3 7 Recent alluvial deposits _ 0 ('010 2 3 8 Headcuts _ 0 1 -perennial streams may also,be identified using other methods Seep 35,of manual, 3_ 9 Grade control 0 05 1 10 Natural valley 0 0,5 11 Second or greater order channel o = q Yes = 3 artificial ditches are not rated, see discussions in manual B Hydrology (Subtotal= �, ) 12 Presence of Baseflow 0 1 2 _ 3 13_ Iron oxidizing bactena 0 2 2 3 14 Leaf litter 1 5 1 05 0 15 Sediment on plants or debris 0 05 1 15 16 Organic debris lines or piles 0_ 05 1 15 17 Sod- based,evidence of -high water table? No= 0 6s =3 - C Biology (Subtotal= k `5 ) 18 Fibrous roots in streambed 2 1 0 19 Rooted upland plants in streambed i 3 2 1 0 20 Macrobenthos (note diversity and abundance) Q, 1 2 3 21 Aquatic Mollusks 0 1 2 3 22 Fish 0 05 1 15 23 Crayfish _ 05 1 15 24 Amphibians 0 05 _ `1 '15 25 Algae 0 ('010 15 26 Wetland plants in streambed FACW = 0.75, OBL = 15 Others 0' -perennial streams may also,be identified using other methods Seep 35,of manual, Notes Sketch NC' DWO Ctream identification Form Version 4.11 Date: V t l& is Project/Site 'f"& �LG Latitude: Evaluator. County: A�� Longitude• Total'Polnts: r Stream Detqrp4vpSon4.circle one) Other v Stream is at least intermittent l nt Ephemeral ntermatie Perennial e g Quad Name • .1 if t 19 a nnial if t 30' 2' — A Geomorphology Subtotal = 7 S Absent Weak Mod rate Strong 10, Continuity of channel bed,and,bank 0 1 U 3 2 'Sinuosity of channel along thilweg 0 71-3 2' 3 3 In- channel structure ex riffle-pool, step -pool, ripple-pool se uence 0 05 2 3 4 Parhde,su:etof stream substrate 0 1 C2 3 r5 Active /relict floodplin 0 1 2 3 6 Depositional bars or benches 0 1 2 3 7 Recent alluvial deposits 0 1 2 3 8 Headcuts 1 2 3 9 Grade control 0 94% 1 15 10 Natural valley 0 _0 1 15 11 Second or greater order channel 7ro = 0 3 Yes = 3 "artificial ditches ire, not rated, see discussions in manual R Hvdminav (Subtotal 12 Presence of Baseflow 0 1 2 3 13 'Iron wadizing,bactena 2 3 14 Leaf litter 1-5 71-3 0,5 0 15 Sediment on plants or debris 05 1 15 16 Organic debris ones or piles 0 05 1- 15 117 Sod -based evidence of high water table? No = 0 I - es C Bioloav (Subtotal = 18 Fibrous roots in streambed 2 1 0 19 Rooted upland plants in streambed 1 _ 0 20 Macrobenthos (note diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 0 05 1 15 23. Crayfish 06 1 15 24 ,Amphibians _ 0 Qg 1 15 25 Algae 0 1 15 26 Welland plants in streambed FACW = 0 75, OBL = 15 Other 0 'perennial streams may also -be identified using other methods_ Seep 35 of manual 'Notes Sketch NC DWO Stream Identification Form Version 4.11 Date- 111-41(-3 Project/Site "`� 2-r- Latitude- Evaluator: JCr,r ' u r` County: A s1.c Longitude: Total Points: Stream,is -at least intermittent I Stream Dete circle one) Other 2 S Ephemeral nterml!!q1 Perennial e g Quad Name' if Z 19 or perennial if 2!.30• 2 3 A Geomorphology Subtotal = 'I Absent Weak M te_ Strong 1° Continuity of channel bed and bank 0 1 V 3 2 of channel along thalweg 0 1 2 3 3 In- channel structure ex nffle -pool, step -pool, npple-pool sequence 0 1 2 3 4 Particle size of stream substrate 0 1- _ 2 3 5 Active /relict floodplarn 0 1 2 3 6 Depositional, bars or benches 0 1 2 3 7 Recent alluvial,depos¢s 0 _ ,2 3 8 Headcuts _ 0 25 Algae 2 3 9 Glade control _ 0 05 1_ 15 1 D Natural valley 0 05 1 15 11 Second or greater order channel No = 0 Yes = 3 artificial ditches are not rated, see discussions in manual B Hvdroloav (Subtotal = q",s ) 12 ,Presenc&ot {Baseflow 0 2 2 3 13 Irommadizmg bactena, 0 1 2 3 _ 14 Leaf litter 15 1 0 5 0 15 Sediment on plants,or debris 0 05 1 15 16 Organic debris lines or,piles _ 05 1 15 17 Sod -based evidence of'high water table? No = 0 Yes = 3 C B101oav (Subtotal= f�2 ) 18 Fibrous roots in streambed 3 2 1 0 19 Rooted upland plants in streambed 2 1 0 _ 20 Macrobenthos (note °diversity and abundance) 0 1 2 3 21 Aquatic Mollusks 1 2 3 22 Fish 0 0,5 1 15 23 Crayfish 0 l0 5 1 15 24 Amphibians 0 (A .L) 1 1-5 25 Algae 0 C 0 5 1 15 26 Wetland plants in streambed FACW = 0 75, OBL = 15 Other = 0 'perennial streams may also be identified using other methods See p 35 of manual Notes Sketch