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Home My WebLink About20080833 Ver 1_Year 1 Monitoring Report_20140808Fletcher - Meritor Site (UT to Cane Creek) Stream and Wetland Restoration Project No: 138 Monitoring Report Year 1 of 5 Henderson County, North Carolina Prepared for: r� 14"11 Al 11eiit U. North Carolina Department of Environmental and Natural Resources Ecosystem Enhancement Program 1601 Mail Service Center Raleigh, NC 27699 -1601 Construction Complete: May 2012 Data Collected: May 2013 Report Submission: March 2014 Prepared by: IDIA. HDR Engineering, Inc. of the Carolinas 3733 National Drive, Suite 207 Raleigh, NC 27612 -4845 Fletcher- Meritor Site (UT to Cane Creek) Stream and Wetland Restoration Project No: 138 Monitoring Report Year 1 of 5 Henderson County, North Carolina TABLE OF CONTENTS 10 EXECUTIVE SUMMARY 20 Methodology 21 Morphometnc Parameters and Channel Stability 211 Profile - 212 Dimension 213 Pattern - 214 Substrate 2 1 5 Sediment Transport 2 1 6 Photo Documentation 22 Vegetation 23 Hydrology 30 REFERENCES CITED LIST OF APPENDICES APPENDIX A GENERAL TABLES AND FIGURES ,Figure 1 — Vicinity Map Figure 2 — Asset Map Table 1 a — Project Components Table lb — Component Summations Table 2 — Project Activity and Reporting History Table >3— Project Contacts Table 4 — Project Attributes APPENDIX B VISUAL.ASSESSMENT Figure 3a — Current Condition Plan View 1 3 3 3 3 4 4 4 4 4 5 5 Fletcher - Mentor Site (UT to Cane Creek) Restoration Project Page 1 Monitoring Report Year 1 of 5 March 2014 Project No 138 Year 1 of 5 Figure 3b — Current Condition Plan View Figure 3c — Current Condition Plan View Figure 3d' <— Current Condition Plan View Table 5a — Visual Stream Morphology Stability Assessment — Upper Reach Table 5b — Visual Stream Morphology Stability Assessment — Lower Reach Table 5c — Visual Stream Morphology Stability Assessment - Tributary Table 6 — Vegetation Condition,Assessment Photos — Permanent Photo Points Photos — Vegetation Plots APPENDIX C VEGETATION PLOT DATA Table 7 — Vegetation Plot Mitigation Success Summary Table 8 — CVS Vegetation Metadata Table .9 — Vegetation Plot Data APPENDIX D STREAM ASSESSMENT DATA Cross - Sections with Annual Overlays Longitudinal Profiles with Annual Overlays Pebble Count Plots with Annual Overlays Table, l0a — Stream Data Summary —Upper Reach Table l Ob — Stream Data Summary — Lower Reach Table l Oc — Stream Data Summary — Tributary Table 11 a — Monitoring Data — Dimensional Morphology Summary APPENDIX E HYDROLOGIC DATA Table 12 — Verification of Bankfull Events Groundwater Monitoring Gauge Data Fletcher- Mentor Site�(UT to Cane Creek) Restoration Project Page ii Monitoring Report Year 1 of 5 March'2014 Project No 138 Year 1 of 5 1.0 EXECUTIVE SUMMARY The Fletcher - Mentor Site Stream and Wetland Restoration Project, completed in May 2012, restored 3,617 linear feet of meandering C/E -type stream along an Unnamed Tributary (UT) to Cane Creek plus 648 linear feet of a first order tributary (Tributary) to the Main Stem as well as re- establish hydrology and hydrophytic vegetation to 6 7 acres of historical wetlands This natural channel restoration consists of a Priority H restoration that includes a bankfull bench to allow for flood attenuation before reconnecting to the natural floodplam The riparian buffer was planted with species representing an Alluvial Forest grading to a Bottomland Forest Community (Schafale and Weakley, 1990) This stream was- preserved within the 20 3 acre conservation easement Efforts to restore or enhance wetlands on the project site included restoring topography, hydrology; and habitats of a natural wetland system by excavating overburden/berms and filling agricultural ditches to promote an increase in ground water elevation Following excavation, removal of dram tiles and plugging of diamage ditches, the wetland areas were planted with native hardwoods The project,goals and objectives are listed below Project Goals • Improve local water quality by reestablishing stream stability and capacity to transport watershed flows and sediment load • Provide additional floodplam storage by increasing the capacity of the stream to mitigate flood flows • Restore aquatic and riparian habitat • Reducing non -point source sedimentation and nutrient inputs into °the project reaches Project Objectives • Restore /enhance approximately 4,288 linear feet to stable stream channel morphology, supported by mstream habitat and grade/bank stabilization structures Restoration and' enhancement consists of restoring the channel pattern and profile and building a floodplam bench along the reaches • Reestablish hydrology and hydrophytic vegetation to 6 7 acres of historic wetlands by removing overburden/berms, plugging agricultural drainage ditches, and replanting with native grasses, shrubs and trees • Elnminate accelerated bank erosion by creating a bankfull bench, floodplam, and laying back slopes • Reestablish a native riparian buffer Revegetation of the buffer was accomplished by planting tree and shrub species for alluvial and Bottomland Hardwood Communities The project has been divided into segments which include thtee�stream reaches and four,wetland areas ■ Upper Reach Main Stem— 1838 linear feet • Lower Reach Main Stem -1779 linear feet • Tributary — 648 linear feet • Wetland A — approximately 2 92 acres • Wetland B — approximately 143 acres • Wetl'and C'— approximately 1 34 acres • Wetland D — approximately 0 97 acres The project site, which is protected by a 20 3 -acre permanent conservation easement held by the State of North Carolina, is situated in Henderson County in the North Carolina Mountains Physiographic Fletcher- Mentor Site (UT to Cane,Creek) Restoration Project Page 1 Monitoring Report Year 1 of 5 March 2014 Project No 138 Year 1 of 5 Province The project is located in the French Broad River Basin, USGS' Hydrologic Unit Code (HUC) 06010105 and NCDWQ subbasin 04 -03 -02 Cane Creek is a North Carolina Class C stream that 15 listed on the 303(d) list as ecologically/biologically unpaired upstream of US 25 (NCDWQ 2012) In addition, restored reaches dram lands with ,significant non -point source ,impacts to water quality from agriculture, industrial /commercial development, and historical clay strip mining Land Use / Land Cover data indicates that more than 60 percent of the 1 1- square mile UT to Cane Creek watershed is currently pervious with the dominance of open fields /lawn/low- density residential lands, and about 40 percent is impervious commercial /institutional buildings /roads The vegetative success of the restoration site is based on criteria established in the USACE Stream Mitigation Guidelines (2003) Vegetation monitoring will be considered` successful if a minimum of 260 planted stems /acre are surviving at the end of five years The interim measure of vegetative success for the site will be the survival of a minimum of 320 planted stems /acre in year three The Monitoring Year 1 (MY1) stem counts are located in Tables 7 and 9 in Appendix C Currently, 13 of 17 vegetation plots are meeting the interim measures of success Vegetation throughout the reach appears to be growing at acceptable rates and the mortality rate appears to be fairly low, The four plots that are not meeting interim success criteria include 3 along the tfibutary which.may not have been planted at the appropriate density and the plot closest to the confluence with Cane Creek which has had backwater impacts numerous times over the past „year Numerous locations were noted along the reaches as having sparse vegetation during the monitoring event This could be due to climatic reasons as well as backwater effects and deposition on, the floodplam These areas are illustrated on the Current Condition Plan View (CCPV) in Appendix B In addition to these locations, there is 'a large area of cattails (Typha latifolia) growing within the upper wetland area This location was not noted on the CCPV as it was found during a subsequent visit to the ,site The cattails are not posing problems to the reaches currently, however, this location provides a seed source and should be watched Cattails have created issues when stands grow within streams by out - competing other riparian herbaceous species ,and creating potential areas for aggradation No easement encroachments were noted on the project site although farming activities continue to occur in close proximity Also, a nearby area has been grassed and maintained for a local group of model airplane enthusiasts The reaches of the restoration project were observed to be in stable condition The channel's profile and cross - sections adjusted minimally from the baseline conditions The channel accesses its floodplam and evidence of bankfull events were observed during Year 1 monitoring This evidence included the presence of wrack lines, sediment deposits, the crest gauge, and actual event during monitoring The substrate shows a gradual change to more coarse material in the upper and lower reaches although the tributary reach still has a hard,clay substrate This is expected as the tributary reach has little available to migrate into the system Sediment transport analysis and shear stress fall within acceptable ranges and similar to those of the baseline condition Notable areas of potential concern along the reaches,mclude a structure/bank failure along the lower reach at Station 21 +85 This area was noted during construction as having poor soils and matting was provided at that time to help with stabilization This area is also subject to numerous backwater events from Cane Creek and in an area where vegetation has been noted as sparse Another area of potential concern occurs along the lower reach dust below the aerial, sewer line - crossing and near- the floodplam interceptor at Sta 14 +95 This area has a couple of issues including an approximately 10” x 10' area of bank erosion dust above the floodplam, interceptor Then the interceptor itself has broken down and is potentially downcutt'ing and creating a channel The last mayor area of concern is, located at the permanent stream crossing near Sta 24 +00 on the upper reach Debris has collected in front of the culverts including the Fletcher- Mentor Site (UT to Cane Creek) Restoration Project Page 2 Monitoring Report Year 1 of 5 March 2014 Project No 138 Year 1 of 5 floodplam pipes and created a blockage This has resulted in erosion along the upstream side of the, crossing as well as scour on the downstream ends of the floodplam pipes This area is in need of maintenance along,the crossing and may require future regular visits, to make�certam the crossing remains in place and safe Other areas of minor aggradation or erosion are noted on the CCPV These areas do not appear to be negatively impacting the channel morphology at this time Vegetation was noted as spareV in several locations during the monitoring event, however, subsequent visits to the site mdicate, that the,herbaceous cover on the site is adequate Several factors have been determined to be worthy of future attention on the site These include backwater effects from Cane Creek during large precipitation events, beaver monitoring due to past removal onsrte and presence upstream, vegetation planted outside the planting window as well as future plans by the Town that may impact the project area such as proposed sewer Imes and development of the park with multiple uses 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 the tables and figures in 'the report appendices Narrative background and supporting documentation 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 EEP's website All raw data supporting the tables and figures in the appendices is available from,EEP upon request 2.0 METHODOLOGY Channel stability and vegetation survival were monitored on the project site Post restoration monitoring will occur for a minimum of five years or until the success criteria are met The monitoring assessment was completed using submeter accuracy GPS and total station on May 7, 8, and 9, 2013 This report details the results of Monitoring Year 1 2.1 Morphometric Parameters and Channel Stability 2.1.1 Profile The entire length of the reach was monitored by HDR using a total station Multiple parameters were located including top of bank, thalweg, and water surface The longitudinal profiles show that the bed features are stable Riffles throughout the upper, lower, and tributary reaches show a general trend of becoming shorter and steeper in Year 1 as compared to baseline However, overall channel and bankfull slopes remain consistent in comparison to the baseline condition Pool lengths and depths remain ',stable and,similar to baseline values as well In the bottom half of the lower reach, starting' around Sta 18 +00, bed features become hard to distinguish due to frequent backwater effects from Cane Creek Data collection for baseline and year 1 monitoring have both come after large rainfall events, that back up water well into the lower reach as shown in the photo locations 2.1.2 Dimension Nine cross sections were meausred by HDR staff on May 7 -9, 2013 The morphological data is presented in Tables 10 and 11 in Appendix D, along with the cross - sectional data The channel cross - section dimensions lie within the design parameters for all reaches Comparison with baseline values, along with Fletcher - Mentor Site (UT to Cane Creek) Restoration Project Page 3 Monitoring Report Year 1 of 5 March 2014 Project No 138 Year l ,of 5 visual assessment, show no excessive aggradation, degradation, or trends, toward instability in the cross sections The instances of cross sections showing aggradation occur in cross sections 1, 4, and 6 2.1.3 Pattern The pattern of the channel was obtained using total station The location is illustrated on the current condition plan view map in Appendix B No lateral movement in stream pattern'was observed m,Year 1 monitoring 2.1.4 Substrate Pebble counts were taken for Year 1 monitoring at permanent riffle cross sections on the upper and lower reaches The Wolman Pebble count methodology was, used to calculate the D50 and D84 to assess changes in particle size distributions Pebble counts were not initially planed for this restoration and were not performed in baseline monitoring However, due to significant presence of substrate seen during year 1 monitoring, counts were performed to compare with future years Counts were not performed on the tributary reach due to the hard clay material making up the streambed 2.1.5 Sediment Transport Shear stress values calculated from Year 1 riffle data and average slope remain within acceptable values when compared to the design and baseline As the average channel slopes and cross section dimensions remained relatively unchanged, the shear stress values fall within acceptable ranges 2.1.6 Photo Documentation Photos were taken at the 52 stream photo stations and 17 vegetation plots on May 7 -9, 2013 The locations of the photos stations and vegetation plots are noted on lvigure 3 in Appendix B The photos.for monitoring year 1 are also provided in Appendix B 2.2' Vegetation The Carolina Vegetation Survey (CVS) Protocol Level 2 methodology was used to sample vegetation on May 7 and 8, 2013 Monitoring was conducted on seventeen vegetation plots (3 on the, tributary, 7 on the main stem upper reach and 7 on the main strream lower reach) The 100 - square meter CVS plots are permanently marked with galvanized metal pipe The plots occur within the floodplam/npanan area with a few running upslope slightly According to the data collected, the average plant density among the 17 plots is 398 stems /acre with the range from 607 to 202 stems /acre The highest plant density occurred in plot 4 with over 600 stems /acre Currently, 13 of the plots are meeting the interim 3 -year vegetation success criteria of 320 stems /acre Year 1 monitoring data is provided in Appendix C Vegetation throughout the reach appears to be growing at acceptable rates and the mortality rate appears to be fairly low Herbaceous vegetation which is sparse in the spring and noted on the CCPV was reviewed during subsequent visits to the site over the summer and found to be thriving The four plots that are not meeting interim success criteria include 3 along the tributary which may,not have been planted at the appropriate density ,and the plot closest to the confluence with Cane Creek which has had backwater impacts numerous times over the past year Fletcher - Mentor Site (UT to Cane Creek) Restoration P_ roject Page 4 Momtormg.Report Year 1 of 5 March 2014 Project No 138 Year 1 of 5 2.4 Hydrology No groundwater monitoring gauges were installed onsite prior to the Year 1 monitoring, however, 35 wells were installed in June 2013 in the proposed wetland areas to document hydrology-for the remaining years of monitoring Two crest gauges were installed and indicated a couple of bankfull events as well as evidence of a bankfull event along the site in wrack Imes, vegetation lying over, and ponded water on the floodplam During the baseline monitoring a bankfull event was documented with photos on September 18, 2012 as well as during the,first year monitoring on May 8, 2013 Data from the groundwater monitoring stations showed 11 of 26 stations were in operation for a portion of the 2013 growing season The data revealed that 8 of the U stations met the soil saturation criterion of groundwater being within 12 inches of the soil ,surface for ,at least ,5 percent of the growing season (10 days) The on -site ram gauge did not have a full data set to cover the required time period, so a nearby NC Climate Center rain gauge (Fletcher 3W) was utilized for full rain data coverage Above - average rainfall was recorded during the initial data period (June 25 to December 15, 2013), but a full year1as not yet been covered by the dataset During normal rainfall years most groundwater gauges are expected to meet the minimum criteria, but it is difficult to predict, at this time with such a limited dataset combined with our understanding of the surface -water driven hydrology for the, site 3.0 REFERENCES CITED HDR Engineering, Inc 2008 Final Stream & Wetland Restoration Plan for the Fletcher- Mentor Site (UT to Cane Creek) HDR Engineering, Inc 2011 UT to Cane Creek Stream Restoration Final Plans (90 %) Lee, Michael T, R K Peet, S D Roberts, and T, R Wentworth 2006 CVS -EEP Protocol for Recording Vegetation Version 4 0 (http / /cvs bio �unc edu /methods htm ) North Carolina Ecosystem Enhancement Program 2011 Baseline Monitoring Document Format, Data Requirements, and Content Guidance U,S, Army Corps of Engineers, Wilmington District 2003 Stream Mitigation Guidelines North Carolina Division of Water Quality (DWQ), U S Environmental Protection Agency, Region IV (EPA), Natural Resources, Conservation Service (MRCS) and the North Carolina Wildlife Resources Commission (WRC) Fletcher- Mentor Site (UT to Cane Creek) Restoration Project Page 5 Monitoring Report Year 1 of 5 March 2014 Project No 138 Year 1 of 5 Appendix A General Tables and f=igures ttntaw�y •$_ — =' N Frady /. kf f �• • French Broad - d'S • D River Basin i '!•1� r` • • O KI Fletcher - Meritor Herd / �, •` 1,•' _ z Restoration Si• 3t "S G,' r 4� '�� to •'� ��/ � � }per•. {•� 2P .• � •1 � `. ��- _ tip: .. = ti' ;' -"`- .� � ' •.'�- �EtC�ter t t y d•r� r- �Lr pie 2 — 1 J �" — r • A• mss, t t ` i 2 u e •�• t \ 1 - t . f• f ,� ' �ti �w•ye eis FS 21 4 �_ r �-- �� Fletcher - Meritor _ r Restoration Site t� CL A4 'e-, z !� • %, AO I ea► t ��-� •vJli . / (�.L - -_r '"_'� •t :may I•e • ` • r� } � 1 • LD Mite. Directions to the site: From 1 -26 take Exit 44 US 25. Proceed north for approximately .. vG _, 1.25 miles and turn left on Rockwell Drive. M Site is located approximately 500 feet to the west l t •• _ �' • er v of US 25 and to the north of Rockwell Drive. r^ vRp �•. \ ` _ I 6 0 1,000 2,000 4,000 - N Feet . rr _.} .�• z _ � r� Vicinity Map Figure 1 l ONE COMPANY'Alany Solutions l ill ril 1 Il� Fletcher- Mentor Site (UT to Cane Creek) Year 1 Monitoring I Henderson County, INC "� •• INC Ecosystem Enhancement Program I Project No. 138 aN Z ca �, Z o_ C 4-j 0 o 0a` (U V c E d m Q 9 c ti C } z G N w z 0 )r o c E o y U C r @ m ( c -a) ) C W L 0 0 -0 0 ° .:y. o O « O O' O O y O m o .. C a) 4 3: m .a 3: a a o cc 3: o m a) '> 0 C C a) `0 O C C a) C ,N o C C Vl o .o C > O O) a) L C > m O) a) L C > O Of a) O L C O O1 N N Q p y n 0 y n 0 x y L C L N L C L N L C L a) L C L N X C N X C N ,O C a) C (O a) Ci N '°' N. �C fQ r N C N 'U-' N M 0 m Q) aJ a7 ca > N m > �p a7 > 'O �p a7 > o m tS - o m� r o m r >: v m 3 >. 0 m 3 >: cm) m 3 > L n y L d N L d O a) cu C O N— O a) 7 C y W- aci' 3 aui o ac)' 3 4) o aci 3 ayi o .�0. ° o U _O .O_. ° o o U C o ° ,a U ° o U E E c �, a`) E c �' (D -2 E c a`� T E rn °) E rn Q1 L a) E rn O1 L? a) lvrn cm L C O Ci C Q� - m O C I'm m O C 01 -2 ` m O -c d m 'C > y a7 C T y m <C > y m a m a), U w C N U C 4) U Lm C d C '� d C N N C O y IC N m 3 L c° m c 3 L c y m o c m 3 L c y. n° o 'C' M I c -0 ZE � e � i m e o ca �' ' a) m n v o c C C O n v C C O o C C O m rn o U O (O C C m o U' o C C U [o @ C C Im v O, — C C m a) M a m ,m is - > m o -- c n m n y m n y n m o@ m a o o' 0 a c > O_ C a) > a C a) > O_ C a) O w a 0 p .0- Od O `0 m Q. O O O ° c ? �p ° c O` 0 ? cu ° c 0 0 y as - E C 00 O m m° E c 00 O n5 ° E C o0 y 0 E i0 C O Z O O LL () 0 a �O X LL a) c m a 7 X 0 LL m c cm �c- a) m, 'n 0 m e n y ,O m n M= n w V d a y ++ m E MIMI= m m I= o w w O y y cm a0 O) c0 V � N Q) m V _ , N C) O C C N d C W cc U Lm U m d d d y c C C co `+ r Np CC) ` pN + + o� # A C V: O O O F e0 r O) N a0 O) .0 m N ca N ~ o 0 � rn v rn Q U. N chi O H L � V 0 ILI N a N a N a CL Q `w r � c m o u m 3 O a>) W J al O O 0 m p) ` m m m m O O O )K d � �n N N N N W d m m m m LL O O O O C p E U m m E U m m ¢ m U o �! V Q a3 " " 7 ca m a7 (D V 0 C n C 0 O. a 0 O � J a m M c 0 .r Go H C O N U Q N 2 R d ~ O L a. a V Q Q. Q c L o' cn ca c �r cc E,= CO a- Q E c a °w' a c R d S" co c � Q o N CL O U y C, i Z O 0 O 0 0) O - � UR c a) o o O m > o o cc H � N E ao rn 00 to i O y E N L Q1 }' Cl) co I� ti N -4 + N + c CD E cco - N L CD 00 rl- to d� LL L r co H O O L v Gi L O d E C Ll CC E 0 N N t~A J C/) - C/) c C C c Fa a cu 0 a) a) a) a)' Table 2 Project Activity�and Reporting History Fletcher - Mentor Site UT to Cane Creek Stream and Wetland Restoration/Project No 138 _ Elapsed Time Since Grading Complete 0, rs 3 months Elapsed Time Since Planting Complete 0 yrs 3' Months Number of Reporting Years 0 Activity or Deliverable Data Collection Completion or Complete Delivery Restoration Plan December 2007 February 15, 2008 Final Design - Construction` Plans December 2007 May 2011 Construction /Grading 'NA May 2012 Temporary Seeding NA Dec 2011 -Apnl 2012 Permanent Seeding NA April 2012 Planting (contamenzed, bare,root) NA April 2012 Final Inspection NA June 2012 Mitigation Plan / As -built (Year 0 Monitoring — baseline) September 2012 May 2013 Year 1 Monitoring May 2013 March 2014 Year 2 Monitoring Year 3 Monitoring Year 4 Monitoring Year 5 Monitoring Table 3 Project Contacts Table Fletcher - Mentor Site UT to Cane Creek) Stream and Wetland Restoration /Pro ecttNo 138 Designer HDR Engineering Inc of the Carolinas 3733 National Drive, Suite 207, Raleigh, NC 27612 Primary project design POC Jonathan Henderson, PE (919) 785 -1118 Construction Contractor BuchananaandaSons, Inc P 0 Box'123', Whittier, NC 28789 Construction contractor POC Chris Buchanan, (828) 497 -9720 Survey Contractor Terminus Land Sur6eying, PLLC 28 Bessie Drive, Fletcher, NC 28724 Survey contractor POC Chnstopher,J Gagne, (828),551 -8928 Planting Contractor HARP, Inc 301 McCullough Drive, 4th Floor, Charlotte, NC 28262 Planting contractor POC Alan Peoples, (704) 841 -2841 Seeding Contractor Buchanan,and Sons, Inc P 0 Box 123, Whittier, NC 28789 Contractor point of contact Chris Buchanan, (828) 497 -9720 Seed Mix Sources Protech Environmental, Charlotte, NC Phone (704) 676 -9788 Nursery, Stock, Suppliers Cure Nursery, Pittsboro, NC - (919)x542 -6186 Foggy Mountain Nursery LLC, Creston, NC - (336)384 -5323 Supertree Nursery, Blenheim, SC - (800) 222 -1290 Habitat and Restoration Plants, Lexington, NC - (336) 362 -6776 NC Division of Forest Resources, Greensboro, NC - (919) 731 -7988 Little River Nursery, McMinnville, TN,- (931) 668 -8000 Virginia Department of Forestry, Cnmora, VA - (540) 363 -5732 Monitoring Performers - Baseline HDR Engineering Inc of the Carolinas 3733 National Drive, Suite 207, Raleigh, NC 27612 Vickie Mdler,,AICP,,PWS (919) 232 -6637 Stream Monitoring POC Wyatt Yelverton, PE (919) 232 -6623 Vegetation Monitoring POC Vickie Miller, AICP, PWS (919) 232 -6637 Wetland Monitoring POC NA Table 4 Profect'Attnbute Table Fletcher Mentor Site (LIT to Cane Creek) Stream and Wetland Restoration/Project No 138 Project County Henderson Physiographic Region Mountains Ecoregion Blue Ridge (Broad Basins) Project River Basin French Broad River Basin USGS HUC for Project (8 digit) 6010105 NCDWD Sub -basin for Project 04 -03-02 Within extent of EEP Watershed Plan? No WRC Hab Class (Warm Coot Cold) Warm %of project easement fenced or demarcated 100% marked with EEP easement signage Beaver activity observed during design phase? No EMONLR Component Attribufe�Table Main Steam Upper Reach Main Steam Lower Reach Tributary Wetland A Wetland B Wetland C Wetland D Drainage area (ac) 480 704 205 NA NA NA NA Stream order 2nd 1st NA NA NA NA Restored length (feet or acreage) 1838 1779 648 292 143 1'34 097 Perennial or Intermittent NA NA NA NA Watershed type (Rural Urban; Developing etc) Devel Watershed LULC Distribution (e g) Watershed impervious cover ( %) (Commercia0lnstituhonal Buildings/Roads) Forested Low Density Residential/ Open Fields/ Lawns Medium - Density Residential 38 20 28 14 NCDWD AUMdex number NCDWO classification C NA NA NA NA 303d listed? No NA NA NA NA Upstream of a 303d listed segment? Yes NA NA NA NA Reasons for 303d listing or sbessor Biological Integrity (Benthos) NA NA NA NA Total acreage of easement 203, Total vegetated acreage within the easement 1859 Total planted acreage as part of the restoration 1859 Rosgen classification of pr")ustng Impaired Ditch Impaired Ditch Impaired Ditch NA NA NA NA Rosgen dassificabon of As'built CIE4 CIE4 C/E4 NA NA NA NA Valley type VIII VIII VIII NA NA NA NA Valley slope 0 31 % 015% NA NA NA NA Valley side slope range (e g 2 3 %) NA NA NA NA Valley toe slope range (e g 2 3 %) NA NA NA HA Cowardm classification NA Palustnne Palustnne Palustnne Palustnne Trout waters designation No NA NA NA NA Species of concern, endangered etc ? (YIN) No Dominant soil series and charactenstcs Senes Comus Codorus Kmkora Codorus'I Kmkora Kmkora Kmkora Comus / Kmkora' Depth U U U U V U U Clay°1 U U U U U U U K U U U U U U U T U U U I U U U I U Appe }nclix B Visual Assessment y. lb;zi o ol� 4V `J0- O O 0 0 IN Q ^, M `W � / _21 LL N O U L L U N C Z V D b w L } z a N � 10 V w z 0 E E d m c o c 0 E o � C L C � f0 C } W E Y � N � T U p U C W U U Z t►;'.Z Current Conditions Plan View Figure 3c �1 ONE COMPANY! 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Not, Upper Reach Photo Station 7 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 7 Upstream (5/7/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Upper Reach Photo Station 8 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 8 Upstream (5/7/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 L-MA 11 I- Upper Reach Photo Station 11 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 11 Upstream (5/7/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Upper Reach Photo Station 12 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 12 Upstream (5/7/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 y' ! r M1 4 '1� as Upper Reach Photo Station 14 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 14 Upstream (5/7/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 oi� V A s, .r n� �.+..- =�- --,._ '�1 > � r Upper Reach Photo Station 17 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 17 Upstream (5/7/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 tea. Upper Reach Photo Station 18 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 18 Upstream (5/7/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year I of 5) EEP Project #138 Upper Reach Photo Station 19 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 19 Upstream (5/7/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 e-�4 llil- Upper Reach Photo Station 21 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 21 Upstream (5/712013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Upper Reach Photo Station 22 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 22 Upstream (5/7/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Upper Reach Photo Station 23 Downstream (5/7/2013 Year 1) Upper Reach Photo Station 23 Upstream (5/7/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Confluence with Cane Creek (5/08/2013 Year 1) 4i� Looking upstream of Confluence with Cane Creek (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 1 Downstream (6/25/2013 Year 1) Lower Reach Photo Station 1 Upstream (6/25/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 2 Downstream (6/25/2013 Year 1) Lower Reach Photo Station 2 Upstream (6/25/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 3 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 3 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 4 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 4 Upstream (5/08/2013 Year 1) Fletcher- Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 5 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 5 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 6 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 6 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 7 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 7 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 N' is Lower Reach Photo Station 8 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 8 Upstream (5/08/2013 Year 1) Fletcher-Meritor Restoration Project March 2014 Monitoring Report (Year I of 5) EEP Project #138 Lower Reach Photo Station 9 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 9 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 10 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 10 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 11 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 11 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 12 Downstream (5/07/2013 Year 1) Lower Reach Photo Station 12 Upstream (5/07/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 13 Downstream (5/08/2013 Year 1) Lower Reach Photo Station 13 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Pt ms's Ar.r _ t f.• 'd �k -F. .w .� 4;,. Lower Reach Photo Station 14 Downstream (5/07/2013 Year 1) Lower Reach Photo Station 14 Upstream (5/07/2013 Year 1) Fletcher- Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 15 Downstream (5/07/2013 Year 1) Lower Reach Photo Station 15 Upstream (5/07/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 16 Downstream (5/07/2013 Year 1) Lower Reach Photo Station 16 Upstream (5/07/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Lower Reach Photo Station 17 Downstream (5/07/2013 Year 1) Lower Reach Photo Station 17 Upstream (5/07/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 1 MAI:s 4 , r r Tributary Reach Photo Station 1 & 2 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station I & 2 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 3 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 3 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 4 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 4 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 5 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 5 Upstream (5/08/2013 Year 1) Fletcher- Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 6 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 6 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 7 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 7 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 8 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 8 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 9 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 9 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 10 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 10 Upstream (5/08/2013 Year 1) 'li?`a J Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 h Tributary Reach Photo Station 11 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 11 Upstream (5/08/2013 Year 1) Fletcher - Meritor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Tributary Reach Photo Station 12 Downstream (5/08/2013 Year 1) Tributary Reach Photo Station 12 Upstream (5/08/2013 Year 1) Fletcher - Mentor Restoration Project March 2014 Monitoring Report (Year 1 of 5) EEP Project #138 Vegetation Plot 1 — l Om x l Om (5/07/2013 Year 1) Vegetation Plot 2 —10m x 10m (5/07/2013 Year 1) Fletcher - Meritor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 AL Vegetation Plot 3 — 10m x 10m (5/07/2013 Year 1) Vegetation Plot 4 — 10m x 10m (5/07/2013 Year 1) Fletcher - Mentor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 Vegetation Plot 5 — l Om x l Om (5/08/2013 Year 1) Vegetation Plot 6 — 10m x 10m (5/08/2013 Year 1) Fletcher - Meritor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 Vegetation Plot 7 - l Om x IOm (6/25/2013 Year 1) Vegetation Plot 8 - I Om x l Om (5/08/2013 Year 1) Fletcher- Meritor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 Vegetation Plot 9 — l Om x l Om (5/08/2013 Year 1) Vegetation Plot 10 — 10m x 10m (5/08/2013 Year 1) Fletcher - Mentor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 m i W= 21! lm 30o 0 W., Vegetation Plot 11 — l Om x l Om (5/08/2013 Year 1) .r. Vegetation Plot 12 — 10m x 10m (5/08/2013 Year 1) Fletcher - Mentor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 i I ♦. r Vegetation Plot 13 — 10m x 10m (5/08/2013 Year 1) Vegetation Plot 14 — l Om x l Om (5/08/2013 Year 1) Fletcher - Meritor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 m AmIuk, .i17 ' M i,r •Y fill- `. �0 oMao y, � r � kit Vegetation Plot 15 — 10m x 10m (6/25/2013 Year 1) �,.r �N a } tr ��Y`�' r, � F .• if — 1 ON ", •h J , Vegetation Plot 16 — IOm x IOm (5/08/2013 Year 1) Fletcher - Mentor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project 0138 Vegetation Plot 17 — 10m x 10m (5/08/2013 Year 1) Fletcher - Meritor Restoration Project (Year 1 of 5) March 2014 Monitoring Report EEP Project #138 Appendix C Vegetation Plot Data Fletcher - Meritor Site ( #138) Year 1 (07- May -2013 to 08- May -2013) Vegetation Plot Summary Information Plot # Riparian Buffer Stems' Stream/ Wetland StemsZ live Stakes Invasives Volunteers3 Total° Unknown Growth Form 1 n/a 5 0 0 0 6 0 2 n/a 7 0 0 0 7 0 3 n/a 5 0 0 0 5 0 4 n/a 15 0 0 0 16 0 5 n/a 11 0 0 5 16 0 6 n/a 8 0 0 6 14 0 7 n/a 14 0 0 0 15 0 8 n/a 10 0 0 1 11 0 9 n/a 8 0 0 1 9 0 10 n/a 10 0 0 3 13 0 11 n/a 10 0 0 204 214 0 12 n/a 10 0 0 13 23 0 13 n/a 12 0 0 50 62 0 14 n/a 12 0 0 103 115 0 15 n/a 14 0 0 200 214 0 16 n/a 9 0 0 52 61 0 17 n/a 7 0 0 200 207 0 Wetland /Stream Vegetation Totals (per acre) Stream/ Success Wetland Criteria Plot # StemsZ Volunteers3 Total° Met? 1 202 0 243 No 2 283 0 283 No 3 202 0 202 No 4 607 0 647 Yes 5 445 202 647 Yes 6 7 324 567 243 0 567 607 ..Yes barely_ Yes 8 405 40 445 Yes 9 324 40 364 �s barely 10 405 121 526 Yes 11 405 8256 8660 Yes 12 405 526 931 Yes 13 486 2023 2509 Yes 14 486 4168 4654 Yes 15 567 8094 8660 Yes 16 364 2104 2469 Yes 17$.__. 8094 8377 No Project Avg 398 1995 2400 Yes Riparian Buffer Vegetation Totals (pier acre) Riparian Success Buffer Criteria Plot# Stems' Met? 1 n/a 2 n/a 3 n/a 4 n/a 5 n/a 6 n/a 7 n/a 8 n/a 9 n/a to n/a 11 n/a 1�2 n/a 13 n/a _ 14 n/a is n/a 16 n/a 17 n/a Project Ave n /� ®� Stem Class characteristics 'Buffer Stems Native planted hardwood trees Does NOT include shrubs No pines No vines 2Stream/ Wetland Stems Native planted woody stems Includes shrubs, does NOT include live stakes No vines 3Volunteers Native woody stems Not planted No vines "Total Planted + volunteer native woody stems Includes live stakes Excl exotics Excl vines 00 N V 0 0 Ln to O e-1 L i T O m v 00 aJ '-I 0a � c E O v O N Y LI v V ty v O i u Ln Y Ln m a N LL > 1 kD n t0+ O m i % M a. C = ° a 3: ,--s CL N al d r w N U J u CC s — ra -o m c, o c d vp L u m O 7 L w m C O C a v > aJ a 0 a m m .0 a d a N CL v E v y cC O o o v v u .- — ra -o o c v n f0 VI L u m O 7 L E a, X o ai > aJ a v o v aYJ u N v m 2 CL a E cu N N — V Y N E O 13) M N U O n Y v cu N y� N N E a1 ai 00 > a E o m 7 m >> ai cu v X E v O aJ V aJ O ` Y N C N a L -p aJ a a C N o u c s v a c m m m aJ u E L N E U O C E u ? Y m, v L N U vs 7 U a -mo o, v O a u aJ a aJ N c m cu 0 Y — N+ �7 m U U aJ u m y m aJ "O U O O O_ m a aJ '^ y L Q N, 1 aJ E >' E L � (9 Y i aJ E y-O 7 CC) E a 0 N N N N C +O' L U Y a Q N 0 E v O N Y �> 3 E u u c w CL F J m N N v 0 m m> W v v z Q p� Q N u u 0 m o o y 0 y, w >_ L p N Y m m m a a g a Y > > Y Y ai O O t0 N in w L 7 O O O — i> L am+ am+ N N �O - N iYif to w aJ aJ L aL.+ 7 7 Y O u u O > > O O E aJ aJ X X a a aJ aJ — J 7 00 tw m m N L L p O v O m E E E E v o m- in w w J v v L- LL LL J m m 0 0 Q Q CL a v a c a m N O C a m T E a o , a -°aJ N a to d E T a T T ar v a,p. m m"a w f0 to �� m m m Y N aJ O O p 00 00 m m m m J a` a` m >> a O O a Q 00 m v z N 7 O V O i a, v c 2 c O Om0 E aJ E N � aJ O N C m O O CU C U L f17 U au ar v v LL � LL v M � V 3 u al O p U 2 z m " E 'C c ` v v t± E m a a, m ai 10 Q' E C d ` a o ci m ` tY to a CN C v Y N d v V C i Y C 3 U 0 0J V t u d ai m z V v 0 a` 00 M ri 01 .Q O U v a, �O CL a LU W 0'0� O O .I c C m Y u V) ^ '^ O tA N n (u ` E, •O +�, E cr 0J C 0J •r 0J L � - w Q Z- .2 u N O y U- u Lx U i ri r•1 L? c-I r-1 Ln N 00 •--� O (` C•--� N O O O O � a CA M O O C a ^O o ~ lD N -4 M c-I r.I Ln ^ O N — O 0 O � O � a N lD N rl M ci rl ri I� O en J O C a rl M O C M lD Ci c lD I'D Ln O H i--I M 00 C 9 `1 O ro N O f0 O m 06 a m' n ri J M O1 C M a m .-I c-I m 00 lD Ln Ln Ln o E- M .� m m Ln N c N C) � o f0 O � a O d C a I � Ln Ln ~ lD r-1 a--I I'D Ln Ln o o N O O 1D � a N lD rl lD Ln Ln M ri J `� O d' C LD Ia. .� M Ln m m N O en N O H M Ln M M N O O O O N 06 a N -1 m Ln m M C N a M f� N M M 00 N O H r-4 N m 00 O O N 06 a N M r- N :M M J mi C N' a e-I N rl r•i r-I lD Ln 00 N r-1 N O F- ri LD Ln 00 0 N rl I O C4 O O N 06 a N . I N e i t-1 a-I lD 00 M rl J N a O O c I H c Ui CL v o u no u � y � E a �, v N 0J Q a L v+ E H CU H H H to F- H H LL/ 1 41 N y COC C z _ y C O ° +' :3 > O E a s i w C E L o 3°° o U v o° L >„ ,. uJ U m a E o � �' •c •� v r0 E c '^ z E —' C u ] N C 4J (O C +' E m Eccmum O u C E a • � O w u H tip i M C N = 3 O C f0 C C � L Q +J C X f6 0A Y m Y C Q Q m U Li -�, a crr) 0'0� O O .I c C m Y u V) ^ '^ O tA N n (u ` E, •O +�, E cr 0J C 0J •r 0J L � - w Q Z- .2 u N O y U- u Lx U i N N ri 00 0 M lD M tD O rl V O V1 D 00 r� *ZT Lr) N H = a N N �D N O M �D M �D v1 m ---i T O tD O) CD N o 00 N J O N N tD N o m �D M �.D Ln M -7f 0 lD o°o m v W O m c C N � m 00 m � Ln M co O r � o N Q M F- a N N rn zt m f� ''' N— � N in J N rn N r M o r� m m m o � r r� c ct a n 0 � m 00 � F- rp ri N r� m 00 N G� O r N M O O � a � J N r� m m M � m O 00 c N a N Ln ri M O �"� Ln Dl � N r-I F- f° Ol N m 0 O N o CL N J N m M Cf M O �D c m CL M O N o rl N M CD lD 00 e-1 F- _ m C:) ` �D �n C O m O a m O �D M m O tD c �n d m I m Ln Ln � o Ln v � CD I Ln � a J m N lD 1n M rl O 00 c � a N N Ln un N N Ln m o Ln M N rl H � O �n O N N �n � N N lD 0000 "I 06 a N J N N Ln ri N lD In m LI) O 00 c a m Ln Ln m m 00 ri N O m � F' 0 m N In O N M r- � a J m N ul O Cf M m� O O C � a N m O N r1 N lD N Ln O t.D ri 00 O O r1 N Ln N M "I N N O 0o a y J N M e 1 N N O rl fn Ln O O C � a r m M to M Ln N O U') rt F- O 0 CD N p — c m �n o n cr � 00 a J r m �n o r� M M � O c O V N -+ m -1 ri O F- M v o o .i O N o o — fD ri M r rn m o0 a O M ,--i M �--{ m 00 I� m •+ O N c c m v a ,Stream Assessment Data 7 C'f 3 0 0 m JL O O J ON N W u V L D. E d 1 , I 1 1 1 1 1 1 N i O 1 N � o � � 1 m I L v , U c f13 w � 1 I CL ' I CL I I ' l t� rn 1 v 1 c m 1 � , V ' of ' X i L 1 0 1 C ' r I i � 1 CJ 1 L � v 1 LL 1 I 1 0 I N J 1 1 I I I 1 1 1 I 1 � o m N '•I O O, 00 h �D O o o O o O O o N N N N N N N N rn 06i o 00 m^ N o o� 0 m M O ry H .� N "'� .•y LD O ry C O N 00 M 0) M m N X 0 a V .-� N V - m f� Vl W M 0 Ot M O O n W M 00 O a a0 �D •"'� 01 01 a al n M .-'I N O M f� M M p M V1 0 .D O O ON Ol i n r tC LD �0 LD n n 00 00 d 01 O N tD O N kD o N N lD o N O V1 o N O Y V1 o N V1 O N N O V1 O N V1 O N O 0 N 0 O N N O N N V1 O N o N N O L W o N N 0 O N W o N N W o N N o N N W u o v A r a d 0 v r m D o 0 a a` c x 01 cn iD vl O1 M r .--� r 00 1, m m m m cC G cC C ^� 7 O W O LL W m 1 , I 1 1 1 1 1 1 N i O 1 N � o � � 1 m I L v , U c f13 w � 1 I CL ' I CL I I ' l t� rn 1 v 1 c m 1 � , V ' of ' X i L 1 0 1 C ' r I i � 1 CJ 1 L � v 1 LL 1 I 1 0 I N J 1 1 I I I 1 1 1 I 1 � o m N '•I O O, 00 h �D O o o O o O O o N N N N N N N N N m N N .-� 00 N N M M V1 C 1� M V1 00 N 00 M 0) M m N X 0 0 V .-� N V - m f� Vl W M 00 Ot M O O n W M 00 O a0 �D •"'� 01 01 00 al n M .-'I N O M f� M M p M V1 0 .D O O ON Ol I� n t` tC LD �0 LD n n 00 00 00 01 O N tD O N kD o N N lD o N o N V1 o N Ln o N N V1 o N V1 o N V1 O N 1!1 O N ND O N V1 O N V1 O N O 0 N 0 O N N O N N V1 O N o N N o N N" o N o N N o N N 0 O N W o N N W o N N o N N W O - 01 cn iD vl O1 M •ti .--� r 00 1, m V 00 W t0 N tD 00 1A v1 M .-+ '-1 O 00 m ^ 01 '-1 00 lO LA 1, M 'I 00 M co lD 0 Dl '-1 V1 19 O N ui N O N 1A lD w o o kD LD kD w LD lD ^ N N N 00 m O •-1 .-1 N H N m c ID 0 u + v v � t > m 3 a a, a D C N O a a v o o m m m o v y a 0 LL LL X O O J cr C D N C d A G ww r m n lu> o m m o z u o` 0101 E A d 1 N C 3 O D Ol lD a N R 1A v w u CL m m J � C N m v L V w � m 4J GJ � Q O. 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N v m n N 'D Ln + O o n o O m n o O AID O O m w w I� n N N o In o J1 o to to I� n w W O o- m O lD 'D V1 o V1 V1 Ln In V) O o O In O to o Ln o Ln o o 0 V1 0 Vl 0 In 0 1n o V1 o kD 0 LD 0 ko 0 v N o N o N o N o N o N 0 N o N O N N N N N N N N N N N N N N N N W ^ Ln 1� m .-i N 1p m o0 to m GO N N .--� .--i m m m C O fi m 00 f� vl '-I V1 O W N n N O .-+ N n .-� V N .--� C lo ll1 to O O W N Vl Ol I, m m m m O m V V o O o Ol m N .-I - N N N N N N m m M m m m m "I m", V V V 0 0 �n vi vi u� O O O O x x x x x C O +� X u U O x 4-- t" C 41 CN > x C N U x N f0 W o x 4- ai> N C O U X � x 1 L m ' x 1 x r x x 1 x � r • 1 x I x 1 O Nx x X I x 1 X I x x x 1 1 x 1 x x I x 1 I x 1 x r X 1 X I x I X rq co N Ln l0 t00 Yw1 Ln Ln N Ln LM Ln Ln N N N N N N N N N N (13) UOIJUAaia 0 Ln w OONLn Ln N O n N O O n N O �D N � U N � O U L O L N O L Q N O M N N O C 0 U O U Ln Ln NLA O 4. r°on u N O N N 0 O N N O N Qa Ln 0 S N Ln r_ N ni m 0 °o x N Ln O w m Ul C o � a� L U G 0 o rfj o m � P, 3 I o I n 0 Ln � M O to � O M L rpi O I Ln .-1 1 O Ln it O � O ` 1O M N O MU� Ln LA LA rl � O IN O O N 0 0 0 0 0 LA0 0 0 LA O N (13) uotIL'nala O Ln l0 N o0 I 6D N o N I N I o 1 1 Ln N i Ln , ' N 1 N N 1 Ln N 1 v� I con d 1 N I 0 N i N o 1 N U N x 1 C/) , o L N U X � S 1 N X I I o Ln ' 0 N x 1 0 1 N O I L x I a O x , M 1 m a '4 x 1 O X I o x � 3 i x X 0 o o x I o cli L 3 x ' ti) U1 I ; x o , 1 x O M r LM Ln 14 �-- M x 1 I `r' Ln -4 x O N 2L a Ln CL 1 14 I y I O 0 N X , Ln X c� 1 0 Ln x ,4 \ Q , � O , o x rn QJ , u O LA cl Q x N ei N X o N I � � X r O x I Ln 14 x x x r O o x 1 0 O 0 Ln Ln Ln Ln Kr Ln rn Ln F4 Ln Ln !8 .1 Ch Ln qT N N N N N N N N N N (13) uotIL'nala X x x x x � to x I x x I I I I Z O a y V C5 X x x x X x x X' x I x I x 1 x I o I o I + x O o N 4a = I I 0— X a- a m V) U X v 00 I CO �X 0 0 1 I N a-I O Q1 00 10 LA M N r1 l0 LO %D Vt LM Ln V1 Ln Ln Ln Y1 lA O O O O O O O O O O O O N N N N N N N N N N N N (13) vo!IL'nala 0 Ln w .1 0 0 r, 0 Ln Ln r U Q O O M r C O U N V] L O IT �- � U $ v m O x M m rl x 0 c� M y � UU 3-i s., N 3 o - &n N rl I M M O O N _ Ln rl O 14 N C\ N :n 0 pa � I x � I x I x x I I I I X x x X' x I x I x 1 x I o I o I + x O o N 4a = I I 0— X a- a m V) U X v 00 I CO �X 0 0 1 I N a-I O Q1 00 10 LA M N r1 l0 LO %D Vt LM Ln V1 Ln Ln Ln Y1 lA O O O O O O O O O O O O N N N N N N N N N N N N (13) vo!IL'nala 0 Ln w .1 0 0 r, 0 Ln Ln r U Q O O M r C O U N V] L O IT �- � U $ v m O x M m rl x 0 c� M y � UU 3-i s., N 3 o - &n N rl I M M O O N _ Ln rl O 14 N C\ N :n 0 pa � I Fletcher -Upper Reach - XSC -1 Riffle - Pebble Count Location. STA 1,2 +02 Inches Particle I Millimeters I I Count %Total I °% Cum. 9 Sdt/Cla < ^062 1 SiLT /CLAY 8 1 90,1 8,0 Very Fine 0 062 = 125, S N ° 0 00 80 Fine. 125-,25 1,2 120 20,0 Medium 25 - 50 8 8.0 280 Coarse 50'-'l 0 18 —801 360 04 =_ 08 Very 1, 0 = ,2 ol 001 -360 08-,16 Very Fine, 2-4 G R v E 24 240 600 116 - 22 Fine, 4-57 12 120 7-20 22- 31 Fine 5-7-8 20 200 920 31 44 Medium 8 - 11,3 18 80 fo0 0 44- 63, Medium 1'1, -3 - 1;'6 _ 0 00 1100 10' 63- 89 Coarse 1'6,- 22 6 00 1000 ,89-1-26 Coarse 226,-32 0 0,0 1000 1 26 - 1 77 Very Coarse 32-45 0 100 too 0 1, 77 - 2 5 Very Coarse 45 = 64 0 0 -0 10010 `2 -5 - 3 5 Small 64-90 c el B E 1 0 00 1,0090 35 -&0, Small 90 -128 0 00 10010 �5 0- 7 1 Large 128-180 0 0 0 1`0010 7,1 - 10 1 Large 1 1,80 - 256 01 001 1'00,0 W 1 - 143 Sinall 256,= 362 0 U 0 E R 0 010 1000 143 -20 Small 362 -512 0 100 1000 20-40 Medium 512_= 1,024 0 00 100 0 407,80 Large = Very Lg 1024 = 2048 61 001 100.0 Bedrock Bedrock 0 0 0 1,00 0 Total C6untedl 1,00 Summary Data D50 3 D84 7 D95 9 N O N T N t v cc L CL CL ti R T U N X c� c 0 0 a) a a� a 0 0 O O O 0 0 0 0 r 0 OD 1,- 0 0 C') aniielnwno 0 0 0 0 0 0 CO Cn It O O O 0 LO 0 6 0 N N r r- WWI % 0 0 0 0 0 0 0 CM N r O 0 0 LO 0 -11J %0 0A0 e� c', zoo` or 0 ,9k sc' 0 ,0s` ,19e CQe 006' ,A s� 'PA, oz' oe .LO o� -'e C9 .o �s mss, A A z, o,e o/ os os � � ' sse s�� x`90 X000 E E a) R r IL Fletcher - Upper Reach - XSC -3 Riffle Pebble Count Location STA 15 +23 Inches Particle Millimeters I I Count I %Total I % Cum 10 Silt/Clay < 062 1 SILT/CLAY 1 01 001 00 Very Fine 0 062 - 125 S A N ° 0 00 00 Fine 125- 25 16 160 160 Medium 25- 50 20 200 360 Coarse 50-1 0 121 1201 480 04- 08 Very Coarse 1 0- 2 01 001 480 08- 16 Very Fine 2 -4 G R A v E 4 40 520 16- 22 Fine 4 -57 16 160 680 22- 31 Fine 57 -8 16 160 840 31 44 Medium 8-113 16 160 1000 44- 63 Medium 113-16 0 00 1000 63- 89 Coarse 16-226 0 00 `100 0 89-1 26 Coarse 226-32 01 001 1000 1 26 - 1 77 Very Coarse 32-45 1 0 00 1000 1 77-25 Very Coarse 45-64 0 001 1000 25 -35 Small 64 -90 C B B 1 E 0 00 1000 35 -50 Small 90 -128 0 00 11000 50 -71 Large 128 -180 0 00 1000 71 - 10 1 1 Large 1 180-256 I Ol 001 1000 10 1-143 Small 256-362 B 0 L 0 E R 0 00 1.000 143-20 Small 362-512 0 00 1;00 0' 20-40 Medium 512-1024 0 00 1,000 40-80 'Large - Very Lg 1024-2048 Ol 001 1000 Bedrock Bedrock 0 001 1000 Total Counted 100 Summary Data D50 3 D84 8 D95 10 T V/ g qV •aq l 4) CL Al N x �f c, =1 0 0 ,0 0 0 0 fo 0 0, o r c)) , 00 I- 6 LO N anilelnwno,% 0 0 0 0 0 0 co LO It 0 6 0 C)' o o ° M N r O 0 A�o` �O` 29F 9� 00 019 O� .00` 06, `06' AO SA E sA� £ v N � N .9 d gz 'fit a .o L< << -- 9 �8 - nos `V A .C:I �0le Oe .0s, s� 's Aso �00 0 0 0 0 0 C)' Un o in o N. r 18101% Fletcher - Lower Reach - XSC -4 Riffle Pebble Count Location STA 14 +55 Inches Particle Millimeters D84 Count %Total I % Cum Silt/Clay < 062 SILT/CLAY 0 001 00 Very Fine 0 062 - 125 S A N D 0 00 00 Fine 125- 25 0 00 00 Medium 25- 50 0 00 00 Coarse 50-1 0 281 2801 280 04- 08 Very Coarse 1 0- 2 01 001 280 08- 16 Very Fine 2 -4 G R A V E 0 00 280 16- 22 Fine 4 -57 0 00 280 22- 31 Fine 57 -8 16 160 440 31 44 Medium 8- 11 3 8 80 520 44- 63 Medium 11 3 - 16 8 80 600 63- 89 Coarse 16-226 8 80 680 89-1 26 Coarse 226-32 121 12 0 80 0 1 26-1 77 Very Coarse 32-45 1 8 80 88.0 1 77-25 Very Coarse .45-64 8 801 960 25 -35 Small 64 -90 C B B 1 E 4 40 1000 35 -50 Small 90 -1'28 0 00 1000 50 -71 Large 128 -180 0 00 1000 71 - 10 1 1 Large 1 180-256 I Ol 001 100 0 10 1-143 Small 256-362 B 0 u L 0 E R 0 00 1000 143 -20 Small 362 -512 0 00 1000 20-40 Medium 512 - 1024 0 00, 1000 40-80 Large - Very Lg 1024 - 2048 Ol 001 11000 Bedrock Bedrock 0 0 0 1000 Total Counted 100 Summary Data D50 10 D84 38 D95 61 U) Cd cn L V O as OC O 3 O J 4i R V N X cc c O 0 a� m IL 0 0 0 0 0 0 0 0 0 r 0) CC) � 0 0 co Oni;ejnwno 0 0 0 0 0 0 0. o' 0 0 0 0 0 C\jl O OHO / z�s, ms`s z 29F 90 �9 t9s�` s2 00 Q19, 00% A ''PA -- sA iE .. 19 �N �9�, C,- �' �-E O� ``9i If ,C9 mss; A z 'Oi 0/ 'os °`S'• 's s� •� z9 90 O� 0 0 0 0 0 0 0 Un o LO o LO o N N T" — 112304 % Fletcher - Lower Reach - XSC -6 Riffle Pebble Count Location STA 17 +89 Inches Particle Millimeters I I Count I %Total I % Cum Silt/Clay < 062 1 SILT /CLAY 1 01 001 00 Very Fine 0 062 - 125 S A N D 0 00 00 Fine 125- 25 12 120 120 Medium 25- 50 36 360 480 Coarse 50-1 0 121 1201 600 04- 08 Very Coarse 1 0- 2 01 001 600 08- 16 Very Fine 2-4 G R A V E 0 00 600 16- 22 Fine 4 -57 0 00 600 22- 31 Fine 57 -8 0 00 600 31 44 Medium 8- 11 3 4 40 64.0 44- 63 Medium 113-16 20 200 840 63- 89 Coarse 16-226 16 160 1000 89-1 26 Coarse 226-32 0 001 1000 1 26 - 1 77 Very Coarse 32-45 0 00 1 0 0 1,77-25 Very Coarse 45-64 0 001 1000 25 -35 Small 64 -90 C B B E 0 00 1000 35 -50 Small 90 -128 0 00 1000 50 -71 Large 128 -180 0 00 1`000 71 - 10 1 Large 180-256 Ol 001 1000 10 1-143 Small 256-362 0 u L 0 E R 0 00 1000 143-20 Small 362-512 0 00 1000 20-40 Medium 512-1024 0 0 Q 1000 40-80 Large - Very L 1024-2048 Ol 001 1000 Bedrock Bedrock 0 0 0 1000 Total Counted 100 Summary Data D50 06 D84 16 D95 20 C) a0 ti r R N t V cc O O O J cfl N t cc, d. ,c O a� 72 A a� a O O o O O O O O O r rn 00 r- O O anllelnwno % O O O CD LO O O O O O O ° ch CV O O O O O O O M � N N r O CC 18301 % O LO 0, SAO c�, 1sa A�,0` oe o, 9 0 z 06', 00 A Ag -9A '9A, X I- 10, 9 C�, 9C, 9z '`9t 'o� Lo -1 Ze ' o 8 �s A A Ll OZ 0S 04, s� 'sue s sk, c'90 ,900 9 E CD N d _v ea a C cn ro �n g v m m C_ C O x N ro U a U (1) 00 o Cl) a C co o r N ro N � U ro f6 c C L o �yU LL C N L T �ro L M m9 cu E E p o O cn N M > w cn f N N 0 .m ro C m v cc •2 2 T.0 C (� 9 U G y d 0 c aT N C � m c 0 - a C cm U ?0 C > x ca D 2 C N } ccu C G ca L N O aN T Y U N Q d c co U Q m C N N N N N N N N O N N U rn Cl) N O N x 0 �jf Ln 1- O Ln Lo F- n cD C7 r O N M O V O r O co M � N •- ` C V !' N cD CO V N N '- O O O � to M to In A N r /� M p W � co C } O O O O O M D c r2 cOD CO O � V 0 0 L O co M N U Qi M O N N M 6 O M M M O) D V M _ N W O O O O w M N O N if1 C O O N O O M O Q) V r OJ O Q) r co O Ln O N cD r 6� r 01 O O Un O O O N V O C N N N N N N N N CO CD w Ln c0 N NNN N N r N N N rn o O m m Ln o m°° co O O � ro O O O V N co m O C M N � L d O N O T � O M �,.j Q) U) t CO 101 �n /� O O O n N O N N d hr O W M O O W (6 CD N m W 00 r 07 O 1 O O m M O r N CO V O N N Cl) N N co V V c0 � � m O r N N 00 00 O Cn In p !� N 00 co N O O C, N O co N O N N M O C O �n O O (D O O '' r O O co V ui N O N c,-) O O O O O O c.] O O N _ ly M O O] Cn l.f) C, O r O C) N N M p N — O N N O NN O O 0 O L L , L 07 L N u Y CE a w co (D O) N `. .... m 'p N L L -0 L d Y Q7 CC W m O) Q1 Y 07 Q L 01 L .T� O) In _� Q) T C > N N Q L O. C Q� L C N O. C N N U 'O C N C O N O- o V N N C O U' O p C _O J Q 3 > C m N d 7 C C N N C D L 2 d N co O Ci N N (n L W o o O N .V = y O_ N O L C Y w _� O O C 3 (� an d W pm C N — U N CC W O d C O C y N N O o - L O O m d r ? m o~ �� G) o W .m aNi 00i oa m E cc °� cn m o a n N N m f O CC N C O o o N Q) am to N o co Cl) U U7 c m ° N co UL U m C co ) ` _d o c d N C O E � O Q a o a a C 1 11 Ill. Ill. I I n ro �n g � a m ca d c c x m N O7 o a c � o r m m ro t `l U ro f6 c c N 3 c c N L d � c .� 3 c a E ° EcD �N O M > w N r x N L N N f0 O M c c ro ❑ � � N w C Q7 .91 U a 0 m C m U U W �n N li li • O ccQ G T.0 U ` ca O C a cn c _ c 3 RS f0 a C .O x d � m 2 O E C N O ami r � � N d � d c � � U v rn CD � m x o LiJ w p U M M O CD N O N O O co O � O � 00 O "1 � w r O f N V M N cD N co M N N } n N 00 00 M O CC4% C L Lo MO O D N O O Qi 0 O r c(1 c7 m O co co U O m cn o m o rn o _ r LL O D7 r N N V N CD cD co " O M C O if1 cD 00 m O O O lM D) N _0 0 _ O N V N N Q1 m to V O cD m O O (D co M cn C N N N N N N N N O O O O r cD O O N O co ON OM r c) CD 00 M N m L(7 n O O M M O M O O x D M cn I� O O cn O O N r M N � V M O O O O M O O Q1 m 1� V O) O C9 V m V N C D') N V Cl) N r M ' O cL1 cn M O a) M 00 cn V N r V d_ O T V W Q1 r N O O ca a V 00 O V cD co) O N � U 0 0 m V O 00 c,.� N D) cn N 1� M N O Cl) co D V m <t M D 0 V 17, N O 1p D) V O O N O I� co cn M N N M cD O O O V M Iq N N r CO cn co r N O co r CD V C O N O O) CD O O V N M m O M n M cn N c.,� O M O O O O m O O cn _ co N cD O 1� O _ O m Q co N f� O N N C6 t V (D M In M N O 0 c: m L L_ L L cC CL Ir L_ L_ L 07 L N L � U L T .—. a co O a a n O c N Q o c p� ¢ a aci L m o aci -0 ro 3 ro o aci N m° c o C7 m co c ro o o Al-D- m .a J � x° 3 a m c c N _ a d> c cca m c L 2 a� o ro m Z— U o > ° U (n L LL o °n 2 ;c o d o Y c �c o a o m 3 U m d U W 0 6c- o a° c ac m a� o 0 m Y c m o a c m w a ro o m m m m L ~_ a o o o � 3 >, m o cn W m a a� m o � rr (7 L is LL c ro ) CU ro" C m E cc °' � b m M 0 cC m c m m CO L) � d L o cD (n m U ca a N P t 0 o c m d o U L L @ m cc is (n U 41 o W E c O C O � L a cn 0 co x ro ro Co o v (D d cc � � L s FF 3 � •L E � C � N m O ° E E M ro Q E 1-0 >� fn Z ro m cn cc L T_C E ° m m a cc s N � C m m m ❑ C 777 � x C m L m o E N C m 0 } C Y O Q) GJ L � U m m H � U O C N N N N N N N N n O m L O p co X W ? 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