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20070624 Ver 1_Year 4 Monitoring Report_20111020
YEAR 4 (2011) ANNUAL MONITORING REPORT JARMANS OAK RESTORATION SITE ONSLOW COUNTY, NORTH CAROLINA (CONTRACT D06069 -A) FULL DELIVERY PROJECT WHITE OAK RIVER BASIN CATALOGING UNIT 03030001 Prepared for: NORTH CAROLINA DEPARTMENT OF ENVIRONMENT AND NATURAL RESOURCES RALEIGH, NORTH CAROLINA Restoration Systems, LLC 1101 Haynes Street, Suite 211 Raleigh, North Carolina 27604 October 2011 Axiom Environmental, Inc. 20 Enterprise Street, Suite 7 Raleigh, North Carolina 27607 EXECUTIVE SUMMARY Restoration Systems, L.L.C. has completed restoration of stream and riverine wetlands at the Jarmans Oak Stream and Wetland Restoration Site to assist the North Carolina Ecosystem Enhancement Program in fulfilling stream and wetland mitigation goals in the region. The Site is located less than 2 miles east of the Onslow /Duplin County line and approximately 3 miles west of the Town of Richlands in Onslow County. The Site is located in United States Geological Survey (USGS) Cataloging Unit (CU) and Targeted Local Watershed 03030001010010 (North Carolina Division of Water Quality Subbasin 03 -05- 02) of the White Oak River Basin and will service the USGS 8 -digit CU 03030001. This report serves as the Year 4 (201 1) annual monitoring report. Primary activities at the Site included 1) stream restoration, 2) wetland restoration, 3) soil scarification, and 4) plant community restoration. Project restoration efforts will provide a minimum of 6640 Stream Mitigation Units and 12 riverine Wetland Mitigation Units. Fourteen vegetation plots (thirteen 10 -meter by 10 -meter and one 20 -meter by 5- meter) were established and permanently monumented. These plots were surveyed in early July 2011 for the Year 4 (2011) monitoring season. Based on the number of stems present, the average density of all plots was 460 planted stems per acre surviving in Year 4 (2011). The dominant species identified at the Site were planted stems of blackgum (Nyssa biflora), green ash (Fraxinus pennsylvanica), and river birch (Betula nigra), and natural recruits of red maple (Acer rubrum) and sweetgum (Liquidambar styraciflua). Two of the fourteen plots had low densities of planted stems (plots 1 and 5 with 121 and 243 planted stems per acre, respectively) as the result of ponded water from a previous beaver impoundment. Areas affected by the inundation will be replanted before the start of the 2012 growing season. Beaver management is now occurring on the Site and will continue as necessary. No additional vegetation problem areas were noted during the Year 4 (201 1) monitoring season. Twenty cross - sections and longitudinal profiles within five 600 -foot reaches were measured during Year 4 (2011) monitoring. As a whole, monitoring measurements indicate that there have been minimal changes in both the longitudinal profile and cross - sections as compared to as -built data. The as -built channel geometry compares favorably with the emulated, stable E/C type stream reach as set forth in the detailed mitigation plan and construction plans. Current monitoring has demonstrated that dimension, pattern, and profile were stable over the course of the monitoring period. One potential stream problem area was documented within the Site during Year 2 (2009) monitoring, which consisted of an area of reduced bed and bank integrity located on the Main Tributary immediately upstream of Monitoring Reach 2. The area consists of one pool that has scoured; however, erosion does not appear to be progressing and the area is stable at this time. The area should continue to be watched closely throughout the monitoring period. No additional stream problem areas were noted within the Site during the Year 4 (2011) monitoring year. Four Restoration Site and one reference groundwater monitoring gauges were maintained for the Year 4 (2011) monitoring season. All monitored gauges within restoration areas were inundated /saturated within 12 inches of the surface for greater than 8 percent of the growing season. No wetland problem areas were noted during Year 4 (2011) monitoring. In summary, the restoration site achieved success criteria for vegetation, stream, and hydrology attributes in the Fourth Monitoring Year (2011). Annual Monitoring Report Executive Summary Jarmans Oak Stream and Wetland Restoration Site TABLE OF CONTENTS EXECUTIVESUMMARY ............................................................................................ ............................... i 1.0 PROJECT BACKGROUND .............................................................................. ............................... 1 1.1 Location and Setting ...................................................................................... ............................... 1 1.2 Project Objectives .......................................................................................... ............................... 1 1.3 Project Structure, Restoration Type, and Approach ....................................... ............................... 1 1.4 Project History and Background ..................................................................... ..............................3 ............................... 7 2.0 PROJECT CONDITION AND MONITORING RESULTS .............................. ..............................5 ........................ ............................8 -9 2.1 Vegetation Assessment .................................................................................. ............................... 5 2.1.1 Vegetation Success Criteria .................................................................... ..............................5 ..........................12 -16 2.1.2 Vegetative Problem Areas ...................................................................... ..............................6 ............................... 10 2.2 Stream Assessment ........................................................................................ ............................... 6 2.2.1 Stream Success Criteria ......................................................................... ............................... 6 2.2.2 Bankfull Events ....................................................................................... ..............................7 2.2.3 Stream Problem Areas ........................................................................... ............................... 7 2.2.4 Categorical Stream Feature Visual Stability Assessment ....................... ..............................7 2.2.5 Quantitative Stream Measurements ....................................................... ............................... 9 2.3 Wetland Assessment ...................................................................................... ............................... 9 2.3.1 Wetland Success Criteria ....................................................................... ............................... 9 2.3.2 Wetland Problem Areas ....................................................................... ............................... 10 2.3.3 Wetland Criteria Attainment ................................................................ ............................... 10 3.0 CONCLUSIONS ................................................................................................ .............................17 4.0 REFERENCES ................................................................................................ ............................... 18 FIGURES Figure1. Site Location ................................................................................................... ..............................2 TABLES Table 1. Site Restoration Structures and Objectives ...................................................... ..............................3 Table 2. Project Activity and Reporting History ........................................................... ..............................4 Table 3. Project Contacts Table ..................................................................................... ..............................4 Table 4. Project Background Table ................................................................................ ..............................4 Table 5. Planted Species and Reference Forest Ecosystem .......................................... ............................... 5 Table 6. Verification of Bankfull Events ...................................................................... ............................... 7 Table 7A -E. Categorical Stream Feature Visual Stability Assessment ........................ ............................8 -9 Table 8. Baseline Morphology and Hydraulic Summary ............................................ ............................... 11 Table 9A -E. Morphology and Hydraulic Monitoring Summary ................................ ..........................12 -16 Table 10. Wetland Criteria Attainment for Year 4 ( 2011) .......................................... ............................... 10 Table 11. Summary of Groundwater Gauge Results .................................................... .............................17 Table 12. Summary of Planted Vegetation Plot Results ............................................... .............................17 Annual Monitoring Report page i Jarmans Oak Stream and Wetland Restoration Site APPENDICES APPENDIX A. VEGETATION DATA 1. Vegetation Survey Data Tables 2. Vegetation Monitoring Plot Photos APPENDIX B. GEOMORPHOLOGIC DATA 1. Tables B 1 -135. Visual Morphological Stability Assessment 2. Cross - section Plots and Tables 3. Longitudinal Profile Plots APPENDIX C. HYDROLOGY DATA 2011 Groundwater Gauge Data APPENDIX D. MONITORING PLAN VIEW Annual Monitoring Report page ii Jarmans Oak Stream and Wetland Restoration Site 1.0 PROJECT BACKGROUND 1.1 Location and Setting Restoration Systems, L.L.C. (Restoration Systems) has completed restoration of stream and riverine wetlands at the Jarmans Oak Stream and Wetland Restoration Site (hereafter referred to as the "Site ") to assist the North Carolina Ecosystem Enhancement Program (EEP) in fulfilling stream and wetland mitigation goals in the region. The Site, located less than 2 miles east of the Onslow /Duplin County line and approximately 3 miles west of the Town of Richlands in Onslow County, will provide a minimum of 6640 Stream Mitigation Units and 12 riverine Wetland Mitigation Units (Figure 1). The Site is located in United States Geological Survey (USGS) Cataloging Unit (CU) and Targeted Local Watershed 03030001010010 (North Carolina Division of Water Quality [NCDWQ] Subbasin 03- 05 -02) of the White Oak River Basin and will service the USGS 8 -digit CU 03030001. Directions to the Site from Richlands, North Carolina, are as follows: ➢ Travel west on Highway 24 for approximately 3 miles ➢ The Site is on the right immediately before Haw Branch Road 1.2 Project Objectives The primary components of the restoration project included 1) construction of a stable, riffle -pool stream channel; 2) enhancement of water quality functions within, upstream, and downstream of the Site 3) creation of a natural vegetated buffer along restored stream channels; 4) restoration of jurisdictional riverine wetlands in the Site; 5) improvement of aquatic habitat and species diversity by enhancing stream bed variability; and 6) restoration of wildlife functions associated with a riparian corridor /stable stream. 1.3 Project Structure, Restoration Type, and Approach A conservation easement has been placed on the Site to incorporate all restoration activities. The Site contains 17.1 acres of hydric soils, three UTs to the New River (main tributary, southern tributary [west] and southern tributary [east]), associated floodplains, and upland slopes. The purpose of this project was to restore stable pattern, dimension, and profile to the UTs; restore hydrology to drained riverine wetlands; and revegetate stream banks, floodplains, and wetlands within the Site. The Site drainage area encompasses approximately 0.59 square mile of land at the downstream Site outfall that is characterized by forest, agricultural land, and sparse industrial /residential development. Prior to construction, the entire Site was utilized for row crop production. In order to maximize useable field acreage streams were channelized and riparian vegetation was removed. Site streams were subject to contamination from the broadcast application of agricultural chemicals. Site agricultural practices contributed to degraded water quality, unstable channel characteristics (stream entrenchment, erosion, and bank collapse), and decreased wetland function. The primary goals of this stream and wetland restoration project focus on improving water quality, enhancing flood attenuation, and restoring aquatic and riparian habitat and will be accomplished by: • Removing nonpoint and point sources of pollution associated with agriculture including a) cessation of broadcasting fertilizer, pesticides, and other agricultural chemicals into and adjacent to Site streams and b) restoration of a forested riparian buffer adjacent to streams to treat surface runoff. Annual Monitoring Report page 1 Jarmans Oak Stream and Wetland Restoration Site , w Of jg > o N � B U p o O g ? f t 12r- r D U a LL o `LLO 0 Cn LU 5� i 4= - f 00 C Z. ZQU o O G� 0 O U Cl Z 1., _ •1 o W rs . Q O U) 0 U y � e � Ar r - ow: a F° d F a cz co f a Z LU le a �} a 41, - ��� • Reducing sedimentation within onsite and downstream receiving waters by a) reducing bank erosion associated with vegetation maintenance and agricultural plowing to Site streams and b) planting a forested riparian buffer adjacent to Site streams. • Reestablishing stream stability and the capacity to transport watershed flows and sediment loads by restoring stable dimension, pattern, and profile supported by natural in- stream habitat and grade /bank stabilization structures. • Promoting floodwater attenuation by a) reconnecting bankfull stream flows to the abandoned floodplain terrace; b) restoring secondary, dredged, straightened, and entrenched tributaries, thereby reducing floodwater velocities within smaller catchment basins; c) increasing storage capacity for floodwaters within the Site; and d) revegetating Site floodplains to increase frictional resistance on floodwaters. • Restoring onsite wetlands, thereby promoting flood storage, nutrient cycling, and aquatic wildlife habitat. • Improving aquatic habitat with bed variability and the use of in- stream structures. • Providing a terrestrial wildlife corridor and refuge in an area developed for agricultural production. Primary activities at the Site included 1) stream restoration, 2) wetland restoration, 3) soil scarification, and 4) plant community restoration. Table 1 describes the Site restoration structures and objectives, which have provided the minimum of 6640 Stream Mitigation Units and 12 riverine Wetland Mitigation Units. • Restore 6418 linear feet of stream within three UTs to the New River by constructing meandering, E -type and braided, D -type channels. • Enhance (level 11) 1205 linear feet of stream within three UTs to the New River. • Restore 11.0 acres of jurisdictional riverine wetland by reestablishing historic water table elevations. • Enhance an additional 6.1 acres of jurisdictional riverine wetland. • Reforest the entire floodplain with native forest species. Table 1. Site Restoration Structures and Objectives Restoration Segment/ Reach ID Station Range Restoration T e/A roach * Designed Linear Footage/Acreage SMU/WMUs Main Tributary 10+00— 57 +09 Restoration/PI 4709 4709 Southern UT (east) -- Restoration/P1 1013 1013 Southern UT (west) 10+00— 17 +96 Restoration/PI 696 696 -- -- Enhancement II 1205 482 Riverine Wetlands -- Restoration 11.0 11.0 Riverine Wetlands -- Enhancement 6.1 3.05 Mitigation Unit Summations Stream Riverine Wetland ;," M_� ��tKt -•. 6900 SMU's 14.05 WMU'sffL" ��F��. s ��w'sn:r* *PI= Priority I 1.4 Project History and Background Completed project activities, reporting history, completion dates, project contacts, and background information are summarized in Tables 2 -4. Annual Monitoring Report page 3 Jarmans Oak Stream and Wetland Restoration Site Table 2. Project Activity and Reporting History Activity or Report Data Collection Completion Actual Completion or Deliver Restoration Plan December 2006 December 2006 Construction Completion NA September 2007 Site Planting NA January 2008 Mitigation Plan/As built November 2007 February 2008 Year 1 Monitoring (2008) November 2008 November 2008 Year 2 Monitoring (2009) November 2009 August 2009 Year 3 Monitoring (20 10) November 2010 August 2010 Year 4 Monitoring (2011) November 2011 October 2011 Table 3. Project Contacts Table Full Delivery Provider Restoration Systems Drainage Area 1101 Haynes Street, Suite 21 1 Drainage impervious cover estimate ( %) Raleigh, North Carolina 27604 Stream Order George Howard and John Preyer (919) 755 -9490 Construction Contractor Backwater Environmental Ecoregion PO Box 1654 Rosgen Classification of As -built Pittsboro, North Carolina 27312 Dominant Soil Types Wes Newell (919) 523 -4375 Planting Contractor Carolina Silvics USGS HUC 908 Indian Trail Road NCDWQ Subbasin Edenton, North Carolina 27932 NCDWQ Classification Dwight McKinney (252) 482 -8491 Designer and Monitoring Performer Axiom Environmental, Inc. Any portion of project upstream of a 303d listed segment? 218 Snow Avenue Reasons for 303d listing or stressor Raleigh, North Carolina 27603 % of project easement fenced Grant Lewis (919) 215 -1693 Table 4. Project Background Table Project County Onslow County, North Carolina Drainage Area 0.59 square mile Drainage impervious cover estimate ( %) < 1 Stream Order First and Second Physiogra hic Region Coastal Plain Ecoregion Carolina Flatwoods Rosgen Classification of As -built E-/C-type Dominant Soil Types Muckalee, Autryville Reference Site ID Bullard Branch USGS HUC 03030001 NCDWQ Subbasin 03 -05 -02 NCDWQ Classification C NSW (Stream Index # 19 -(1)) Any portion of any project segment 303d listed? No Any portion of project upstream of a 303d listed segment? No Reasons for 303d listing or stressor Not Applicable % of project easement fenced 0% Annual Monitoring Report page 4 Jarmans Oak Stream and Wetland Restoration Site 1.5 Monitoring Plan View Monitoring activities for the Site, including relevant structures and utilities, project features, specific project structures, and monitoring features are detailed in the monitoring plan view in Appendix D. Site features including vegetation, stream dimension (cross- sections), stream profile and pattern, wetland hydrology, and photographic documentation were monitored. 2.0 PROJECT CONDITION AND MONITORING RESULTS 2.1 Vegetation Assessment Following Site construction, fourteen plots (thirteen 10 meter by 10 meter and one 20 meter by 5 meter) were established and monumented with metal fence posts at all plot corners and PVC at each plot origin. Sampling was conducted as outlined in the CVS -EEP Protocol for Recording Vegetation, Version 4.0 (Lee et al. 2006) ( http: / /cvs.bio.unc.edu/methods.htm); results are included in Appendix A. The taxonomic standard for vegetation used for this document was Flora of the Carolinas, Virginia, Georgia, and Surrounding Areas (Weakley 2007). The locations of vegetation monitoring plots were placed to accurately represent the entire Site and are depicted on the monitoring plan view in Appendix D. 2.1.1 Vegetation Success Criteria Success criteria have been established to verify that vegetation components support community elements necessary for forest development. Success criteria are dependent upon the density and growth of characteristic forest species. Additional success criteria are dependent upon the density and growth of "Character Tree Species." Character Tree Species include planted species, species identified through visual inventory of an approved reference (relatively undisturbed) forest community used to orient the Site design, and appropriate community descriptions from Classification of the Natural Communities of North Carolina (Schafale and Weakley 1990) including Coastal Plain Small Stream Swamp and Nonriverine Wet Hardwood Forest. All canopy tree species planted and identified in the reference forest will be utilized to define "Character Tree Species" as termed in the success criteria. Table 5 below outlines planted and reference forest species. Table 5. Planted Species and Reference Forest Ecosystem Planted Species Reference Species River birch (Betula nigra) Red maple (Ater rubrum) Sugarberry (Celtis laevigata) Ironwood (Car inus caroliniana) Buttonbush (Cephalanthus occidentalis) Pignut hickory (Cara labra) Green ash (Fraxinus pennsylvanica) Do wood (Cornus sp.) Swamp black gum (Nyssa biflora) Ash (Fraxinus sp.) Sycamore (Platanus occidentalis) American holly (Ilex o aca) Cherrybark oak (Quercus pagodaefolia) Sweetgum (Li uidambar s raci ua) Water oak (Quercus nigra) Yellow poplar (Liriodendron tuli i era) Willow oak (Quercus phellos) White oak (Quercus alba) Elderberry (Sambucus canadensis) Water oak (Quercus nigra) aaa d �;��+#)).�L".•� �w �:+.C,m4`w,.a'ta'.'.n ^�°.ii':.«+j�",4;a x. R.,Y�S�wn'La ;' <r`l'°:} ., i,. �Y Laurel oak (Quercus lauri olia) SlYyjf ixa�d,•,F y-'' 11 '%, �i•}'3fr Y^ . v sfin 1c W 'j�4 »°a,'�( A y .3'N'4fi =�, y ._,, ,: y.= Ru,..-mez Swam chestnut oak (Quercus micharaii) Cheri bark oak (Quercus pagoda) Success criteria dictate that an average density of 320 stems per acre of Character Tree Species must be surviving in the first three monitoring years. Subsequently, 290 Character Tree Species per acre must be surviving in year 4 and 260 Character Tree Species per acre in year 5. Annual Monitoring Report page 5 Jarmans Oak Stream and Wetland Restoration Site 2.1.2 Vegetative Problem Areas Vegetation sampling across the Site was above the required average density with an overall average of 460 planted stems per acre. Two of the fourteen plots had low densities of planted stems (plots 1 and 5 with 121 and 243 planted stems per acre, respectively) as the result of ponded water from a previous beaver impoundment. Beaver management is now occurring on the Site and will continue as necessary. No additional vegetation problem areas were noted during the Year 4 (2011) monitoring season. The Site will be replanted in the areas that were affected by the inundation before the start of the 2012 growing season. 2.2 Stream Assessment Twenty permanent cross - sections within five 600 -foot reaches were established after construction was completed. Measurements of each cross - section include points at all breaks in slope including top of bank, bankfull, and thalweg. Riffle cross - sections are classified using the Rosgen stream classification system (Rosgen 1996). Longitudinal profile measurements of five 600 -foot reaches include thalweg, water surface, and bankfull; with each measurement taken at the head of facets (i.e. riffle, run, pool, and glide) in addition to the maximum pool depth. 2.2.1 Stream Success Criteria Success criteria for stream restoration will include 1) successful classification of the reach as a functioning stream system (Rosgen 1996) and 2) channel variables indicative of a stable stream system. The channel configuration will be measured on an annual basis in order to track changes in channel geometry and profile. These data will be utilized to determine the success in restoring stream channel stability. Specifically, the width -to -depth ratio should characterize an E -type or borderline E -/C -type channel, bank - height ratios indicative of a stable or moderately unstable channel, and minimal changes in cross - sectional area, channel width, and /or bank erosion along the monitoring reach. In addition, channel abandonment and /or shoot cutoffs must not occur and sinuosity values must remain relatively constant. The field indicator of bankfull will be described in each monitoring year and indicated on a representative channel cross - section figure. If the stream channel is down- cutting or the channel width is enlarging due to bank erosion, additional bank or slope stabilization methods will be employed. Stream substrate is not expected to coarsen over time; therefore, pebble counts are not proposed as part of the stream success criteria. Visual assessment of in- stream structures will be conducted to determine if failure has occurred. Failure of a structure may be indicated by collapse of the structure, undermining of the structure, abandonment of the channel around the structure, and/or stream flow beneath the structure. Annual Monitoring Report page 6 Jarmans Oak Stream and Wetland Restoration Site 2.2.2 Bankfull Events Table 6. Verification of Bankfull Events Date of Data Date of Photo (if Collection Occurrence Method available February 28- Total of 2.28 inches of rain documented between March 2009 March 2, 2009 February 28 -March 2, 2009 at an onsite rain gauge -- Total of 3.01 inches of rain documented on April 14, April 2009 April 14, 2009 2009 at an onsite rain gauge -- May 16 -18, Total of 3.05 inches of rain documented between May May 2009 2009 16 -18, 2009 at an onsite rain gauge -- November 11, Greater than 5 inches of rain documented between April 2010 November 10 -12, 2009 as the result of Tropical Storm 2009 Ida.* Visual observations of overbank resulting from a 1.65 April 2010 February 5, inch rainfall event on February 5, 2010 that occurred Photos 1 -2 2010 after numerous rainfall events, within the 3 weeks prior, that totaled 4.32 inches *. Total of 8.78 inches of rain documented at an onsite rain August 2011 August 26 -27, gauge between August 26 -27, 2011 as the result of -- 2011 Hurricane Irene. *Weatherunderground 2010 a�7 I Pd, 77,7 "� 2.2.3 Stream Problem Areas '7,17T_771) One potential stream problem area was documented within the Site during Year 2 (2009) monitoring, which consisted of an area of reduced bed and bank integrity located on the Main Tributary immediately upstream of Monitoring Reach 2. The area consists of one pool that has scoured; however, erosion does not appear to be progressing and the area is stable at this time. The area should continue to be watched closely throughout the monitoring period. No additional stream problem areas were noted within the Site during the Year 4 (2011) monitoring year. 2.2.4 Categorical Stream Feature Visual Stability Assessment Each stream reach was visually inspected during the Year 4 (2011) monitoring period using eight feature categories and various metrics within each category. Assessment features included riffles, pools, thalweg, meanders, channel bed, structures, and root wads /boulders. Tables for semi - quantitative assessments of Annual Monitoring Report page 7 Jarmans Oak Stream and Wetland Restoration Site each reach are included in Appendix B (Tables BI-B5). The mean percentage of performance for features within each reach is summarized in the tables below. Table 7A. Categorical Stream Feature Visual Stability Assessment Jarmans Oak (Reach 1) Feature Year 1 2008 Year 2 2009 Year 3 2010 Year 4 2011 Year 5 2012 A. Riffles 100% 100% 100% 100% NO B. Pools 100% 98% 100% 100% WE - ;, C. Thalweg 100% 100% 100% 100% A . N D. Meanders 100% 100% 100% 100% 101, . E. Bed General 100% 100% 100% 100% _ F. Banks 100% 100% 100% 100% z G. Vanes / J. Hooks, Etc. NA NA NA NA , - ,r H. Wads and Boulders NA NA NA NA .� ;. a: Table 7B. Categorical Stream Feature Visual Stability Assessment Jarmans Oak (Reach 2) Feature Year 1 (2008) Year 2 2009 Year 3 2010 Year 4 2011) Year 5 2012 A. Riffles 100% 98% 98% 98 %'¢ y B. Pools 100% 100% 100% 100% Pa , " ` ��, C. Thalweg 100% 100% 100% 100% A . N D. Meanders 100% 100% 100% 100% 101, . E. Bed General 99% 100% 100% 100% , F. Banks 99% 100% 100% 100% eA,, ,E, N ,,_ G. Vanes / J. Hooks, Etc. NA NA NA NA , - ,r H. Wads and Boulders NA NA NA NA fi" �', Y I Table 7C. Categorical Stream Feature Visual Stability Assessment Jarmans Oak (Reach 3) Feature Year 1 2008 Year 2 2009) Year 3 2010) Year 4 2011 Year 5 2012 A. Riffles 100% 100% 94% 94% �.` 11 ,; �D B. Pools 100% 100% 100% 100% M, �. C. Thalweg 100% 100% 100% 100% � � "' '�'' D. Meanders 100% 100% 100% 100% 101, . E. Bed General 99% 100% 100% 100% F. Banks 99% 100% 100% 100% G. Vanes / J. Hooks, Etc. NA NA NA NA H. Wads and Boulders NA NA NA NA ��W II1, � Annual Monitoring Report page 8 Jarmans Oak Stream and Wetland Restoration Site L R Vl R L ^C 'O G R O 0 s c 50 F R �Q R H 14 R y C R R h7 0 o n n u u n u u u u M u o N I I V O O 6i O ui CU 0— N CO •- t` v r. ti O r w Q o cLO M LO O U') LO (O N G O O V M O 'a Cd N r O N M ! II II it II ° II M W N II O II tl II 11 II O II U O Lo M co O Cl) .— — M r r \° r O r y Q N O = `� O rN O Ch O O LO r (n r O M O U 9 M M N M II II II ° II II II II II M ° II W O N N N I` N �— II 11 tl 11 M M 11 11 N II it II II it 11 II II II II II II L O d y R U O L _ 4 Z LD 00 II II U) N rn rn N — II II II III ° O it M O II II II I `— II U S U O i! O O a (6 O - C: to Ql Gti C, d O IZ . .. 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R LYE R y F4 : I R , U i R 3 KS 6 3.0 CONCLUSIONS The Site achieved the defined (or targeted) success criteria, with saturation (free water) within one foot of the soil surface for a minimum of 8 percent of the growing season, for all Site groundwater gauges in the Fourth Monitoring Year (Year 2011). A summary of groundwater gauge data for the Year 4 (201 1) is included in Table 11. In addition, all but two vegetation plots within the Site were above the required 290 stems per acre with an average of 460 planted tree stems per acre in the Fourth Monitoring Year (Year 2011) (Table 12). The beaver issue is under control and areas affected by the inundation will be replanted before the start of the 2012 growing season. Table 11. Summary of Groundwater Gauge Results Table 12. Summary of Planted Vegetation Plot Results Plot Success Criteria Achieved /Max Consecutive Days During Growing Season Gauge (Percentage) Year 3 (2010 ) Year 1 2008)* Year 2 2009 Year 3 2010 Year 4 (2011) Year 5 1 Yes /81 days Yes /77 days Yes /25 days Yes /44 days (2012 567 (38 percent) (36 percent) (12 percent) (20 percent), ;,.r 2 Yes /67 days Yes /84 days Yes /31 days Yes /45 days 445 364 ( 32 percent) ( 40 percent) ( 15 P ercent) (21 percent) 3 Yes /63 days Yes /75 days Yes /20 days Yes /41 days ; �� 405 ( 30 percent) ( 35 percent) ( 9 percent) ( 19 percent) 324 4 Yes /65 days Yes /76 days Yes /21 days Yes /35 days �'� ' 405 (31 percent) (36 percent) (10 percent) (16.5 percent) 405 Ref 1 Yes /60 days Yes /64 days Yes /25 days Yes /44 days IVAN 809 (28 percent) (30 percent) (12 percent) (20 ercent P ) Table 12. Summary of Planted Vegetation Plot Results Plot Planted Stems /Acre Counting Towards Success Criteria Year 1 2008 Year 2 (2009 ) Year 3 (2010 ) Year 4 2011 Year 5 2012 1 283 283 162 121 2 526 526 567 567 3 324 364 324 324 4 405 445 364 364 5 647 648 486 243 1£ 6 405 405 405 405 1Fa�!C�i` 3n�9fi�,idK 7 324 324 324 364�� x 8 324 405 405 405" 9 202 405 405 324 161- 10 809 729 809 728 11 890 972 971 971u 12 324 526 486 445 >}` 13 445 567 526 486 5.3 14 688 688 688 688y Average of All Plots (1 -14) 471 520 494 460 ` Annual Monitoring Report page 17 Jarmans Oak Stream and Wetland Restoration Site 4.0 REFERENCES Environmental Laboratory. 1987. Corps of Engineers Wetlands Delineation Manual. Technical Report Y -87 -1. United States Army Engineer Waterways Experiment Station, Vicksburg, Mississippi. Lee, Michael T., R.K. Peet, S.D. Roberts, and T.R. Wentworth. 2006. CVS -EEP Protocol for Recording Vegetation, Version 4.0. (online). Available: http : / /cvs.bio.unc.edu /methods.htm Rosgen, D. 1996. Applied River Morphology. Wildland Hydrology (Publisher). Pagosa Springs, Colorado. Weakley, Alan S. 2007. Flora of the Carolinas, Virginia, Georgia, and Surrounding Areas (online). Available: http: / /Nvww. herbarium .unc.edu /WeaklevsFIora.pdf [February 1, 2008]. University of North Carolina Herbarium, North Carolina Botanical Garden, University of North Carolina, Chapel Hill, North Carolina. Weather Underground. 2010. Station in Richlands, North Carolina. (online). Available: http:// w�,vw. wunderground .com/US/NC /Richiands.html [April 22, 2010]. Weather Underground. Annual Monitoring Report page 18 Jarmans Oak Stream and Wetland Restoration Site APPENDIX A VEGETATION DATA 1. Vegetation Survey Data Tables 2. Vegetation Monitoring Plot Photos Annual Monitoring Report Appendices Jarmans Oak Stream and Wetland Restoration Site 00 �t Lf1 c-I O N e--I N c cr cu LL O U E O Q 00 'I O O O u of j lD N C C � Y aJ N O / E a fL6 O O X I= Q = u Ou m c E CL O i M M = O C L a O a L w 0 00 L a, CL a) m m. m � 'a v w v c n. v � Y Vi a) N Y > Ln V) a) aJ > � N U -p X � a) — H U _ c N E � a C a) N L v v c O lU l0 C (9 c a) N v U (U Q a a) V) N a) N U L O O c O .II 41 u U C v 7 O' v ti a a a H L L 0 blo p mo a > > a v o o Q. t L U U (a f6 a) v L L O O w w v (U C- Q- 4 (S3 (D v a) UA bD E E cu m 0 0 CL CL -a a c a m IA o c a m T +' 0 cL o " a o m E T (A to to to w m m a) c C G Q a Q N U X aJ L1 ro E aJ ao c .N E c co } a Q N G LU O w CL v c O N L O a) Y m O c c E E L L m m c 7 O U 3 O c O c N c O LO V, (, C Q) c (6 C (O v V) W 0 3 a, W a) O p E uZ r o Z E° -a E a) Q1 'a m M C v L a A a o4 (u m a L a) a a a A m vf°i L m L C G! f0 CL N Co y tk C Z � LL V � f0 � t yj V G1 � r vl a+ > 40 ,� C a1- 3 d v O X L a vi N E s CU a U -p _u r -0 c c f0 y a L GJ bA m E m > 7 G1 J C > 0 c 0 M N 11n I d' I rn IzT I t I N I In I V I Ln 11- I rn I cn I rn i I I I I Io -1 o `0 o IX3 , S 9 N anQ v ui m VO r, m � ID Ln Z3, m � -1 0O 10 0O cn s�3b�t/'21 swa3$' s ' � a O10 o o° o 0 0 0 0 �(aaB�unlOn)j njiN. u N N w ci N ri N N l0 N '� r-i I n I -It I -:t I m ILn I -It I In I V I 00 ri I to I l0 1 00 N l0 N 1.0 ItT O l0 O N N r- V W W c-1 Ln M M N ct M1:t M n m�-It l0 ri V1 I M m Nt M v cn � 1 Ol 1 ;T I V I �0 °I -zr IZ N1 °l rilril °I0) INININIri1NI °I�I�D rq r -I rilril °Ial INININIr -11 N1 - I con IoLnoI°I�*I- I-'TIoI -I ^I- ICI -I °I ©Doommmm© ©00 ©0 1111-41 °°I�I�I °ICI1 -4 1- 1INlr- lrilr -1 M Iri1- I- I- I°I- I°I00 I°°INlrilrilril 1-i ri 1-i ri I 1--i 1-eO 1-i 1-.O 1-.O 1-rO i 1-1-O i 1-1-O Ib Ln Ln O 1--i -I eO -i I -I 1-O -i -I -i -1 ♦ i -i 1 Ln N � In Ln In v1 \ \ \ \ \ \ \ \ \ C7 U' \ C7 C7 C7 C7 \ m \ m \ m \ m \ m \ M \ M \ m \ m \ m \ m \ m \ m \ m ZZZZZIZZZZZZIZIZZ r, r- r- r- n n n n n n n n n n 1-4 1i 1-1 e-1 1-i 1-i 1--1 1-4 1--1 1-i 1--1 1i 1-1 ri 1n f1 N 1n m rn ao 0 0 0 0, 0'* ao M N N Ln O E M 1-i M to N l0 C' M 00 00 I� i0 �0 O 1l. N m O 1- ri al � M M M M M M N N 1-i N r-1 1-i O O 1-i 1-i c-I 1-i 1-i c-I c-I a--I c-I ri r-1 1-i 1-i 1-i V V V C S cf '7 � N N N N N N N N N N N N N N N rj O w 13) m NIO W w N N N Ln In N O l0 l 01 A N N 00 N M N L!1 M 0 M M M M N M M M M M N m m m m m m N m m m m m v v� v v�� v* v v� v .zt I --t I -,t I --t I --t I :t I ,t I cT I ttl-ttl-�Tl-tl:I-la'I NINININININININININININININI -1 INImI-�tILn I DIr, Ioo Io) 10IrilrilmI I Ib Ln Ln Ln V) V) Ln V) 1b Ib Ln N � In Ln In v1 to Ln v1 V1 Ln V1 cn to V1 to V1 C7 U' C7 C7 C7 C7 C7 C7 C7 C7 C7 l7 C7 C7 \ m \ m \ m \ m \ m \ M \ M \ m \ m \ m \ m \ m \ m \ m 00 00 00 00 00 00 00 00 00 00 CO 00 00 00 Q Q Q Q Q Q Q Q Q Q Q Q Q Q Z z Z z z z z z z Z z z Z Z ZZZZZIZZZZZZIZIZZ r, r- r- r- n n n n n n n n n n 1-4 1i 1-1 e-1 1-i 1-i 1--1 1-4 1--1 1-i 1--1 1i 1-1 ri 1n f1 N 1n m rn ao 0 0 0 0, 0'* ao M N N Ln O E M 1-i M to N l0 C' M 00 00 I� i0 �0 O 1l. 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M r-4 > 09 In a) r- m 11 rn -4 .1.0 I 00 m N r- r, r-I en r, Ln c i L i lzt I-t 00 m m 00 r" 0 ',tn� N r4 -i cu 0 E 0 --,e 0 CL U 0 -le 0 E 0 w 4-1 CL c u 0J 0 o > 0 < C3 C3 4� z 4.1 -6 r3 C3 ,, 2 - u N :3 Qj Qj CO CL .1.1 O E cl: z m Z m m C m CaL. 00 1-1 00 (N rlN AVA r. -i C'4 r-4 L.0 r- ®R C'4 M -i C14 I-i M 01 g r-i -i Ln -1 WINE m Cni 00 N N -I M rn " I InS , rH M r-i 4 N E o" In Lr) -4 C:) -4 1.4 In N 11 ®r14 m —1 00 N R ME N LI) I fl- r-I Lf) 00 00 Lr) (N a) N 00 r" 00 -1 0) N (.0 Lr) L• N YIN."ll C14 Lr) r-i —1 1-4 1-1 11 N N r-I 'i r4 cyi rfi C.� r� C� 0 Q. O,E Ln M r-I rn to TT In ro r- Ln rn m cq M 00 N 1-1 IE cu E E (u w E 0 -Y 3: MI.L. �Z- -a u. u cu 0 CL =; E- CL m U CU 0 ro 0 m 0 0 — aj cu 0 m E ci CL to E CL Q) c >- Ln I-- U CL :3 " a) 3: -2 3: E 0 C (U cu x E CL fa (i 4,1 M 0 u c: u u 0 E bD n (D :E 0 . j L > ra E E 0 u cu 0 L) C3 C3 C3 Q C3 z C3 r3 u C3 C3 C3 C3 C3 C3 -r3 c) V) C) zt C3 �Z—I- Ln Qj C3 Ln Z, :3 6 .61 U rAj Lq 0- CL rl r3 I-n z Ln V) v Ln Qj E L- ki 0 CAJ Zz W Q, U cl co cx lz CL" Jarmans Oak Stream and Wetland Restoration Site Year 4 (201 1) Annual Monitoring Vegetation Plot Photos Taken July 2011 P�I,ot l r--%n n n Annual Monitoring Report Appendices Jarmans Oak Stream and Wetland Restoration Site NI Jarmans Oak Stream and Wetland Restoration Site Year 4 (2011) Annual Monitoring Vegetation Plot Photos Taken July 2011 (continued) Plot E Annual Monitoring Report Appendices Jarmans Oak Stream and Wetland Restoration Site APPENDIX B GEOMORPHOLOGIC DATA 1. Tables B1 -B5. Qualitative Visual Stability Assessment 2. Cross - section Plots and Tables 3. Longitudinal Profile Plots Annual Monitoring Report Appendices Jarmans Oak Stream and Wetland Restoration Site y L C Q Q z z ,C C U i o o c o o c o c o o c o o c c o 0 c O 9 0 0 0 O O O O O C 0 0 0 0 0 0 O O Q d d d Q Q cue L O O O O O O O O O O O O O O O O O z z z z z z Vi p a U V L C y z z z z z z z z z z z O z z 0 O z z z z z z C z O O O O O N N N N N N t^1 N F? z z z z z z z z z z C bA 'O •� COQ O O O O O N N N N N N d N N Q d d d d d d d d z z z z z z z z z z a a cz cz L O :.Q C C C cv cn � :c • � 3 _ v C Jw C U .D � r �Cj [• Qn rA y 6J Qn CC U O C. •� _ i .� C L r L N Q V c3 CL cUS b —to U O O U to u CL n U c bD a O .%n O CL L m `' - 0 3 v, vUi ti u '3 � C4 y U d ^ N C C il. 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H h U O C b O U A C - O R 'O U a U CL ':7 O O aii ^q o c c3 c ro Y u N L c v n w a c cs c w v w N bu M •L' N a s N L tj ti 3 n w c� A 7@0 v v O ,y .�'� C3 � L � N � rJ' .' w fl. � � U i V � L L O ^y�l w ma�c++, �!f G^ N M 7 I/1 ^ N M ^ N N M.4 ^ N U ^ ^ N M 4 ^ N r Q) CC �/ O 1. y L QO o O CE 7 u y U Q tl Qa C U Qj rs 1.0 m m > ee � � E o C Ay, y O O O O O O z z F s a z CO O O O O O O O O O O O O O O O O Q Q ¢ Q Q Q O O O O O O O O O O O O O O O O O z z z z z z i U L � C Q Q Q Q Q Q Q Q Q Q Q E N b+z z z z z z z z z z z° z z o ° o z z z z z z z Y C p _ _ `C G1 O\ C\ C1 C.1 .--. .-- z '-- •-- z z z z z z z z z , 7 C bA 'O v a 8 c z z zzzzzzzz rn a w c z `. a L O C 74 .N C kA N v .A u �• Q v C .c'� U G O G c v c O O c W u �• L �, u u O O �, N ca O to c O ai O, n cU.i to at N C— T -O y d •U.]. C = to H ai R u "C_ O a u O � U h r` u •B U C. O cc '� `C4 ^ U O. 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P P ao b e s ao r m C = z" A O G C O tV �G P - - -- O -- ^- T P P M N N N N N M h M vi a O N N ro C N h ° ys +� 4 C Qa • � Y � C e3��3 e off-' r N E o M d N iv i+ a A � N z N N v t y rl A O7 O O % O I � C 0 aaaaao�v+aa N Y (,ij -;Igjs - pop U01INA413 1} T e e aNM —oee �oaM ��pp M�pp veoNM �.,e O N � O C •L O h N r m b P r m O oo b P ae oe b O oe oe N N M H O O O O V1 N O 0 o L o b O N i e < N -+ O d O b N M N V M M� � � M OO T N N N n N 0 e ry _ 'a r. rry Q O � a V1 N P O N■ O oC �� �� �� ���� N N N M N C O L O N M O Q N N N a0 M T ■ n � � n �G G D �G �G 1� r n j Y P P P P P P P P P P P P °� 1IN.• tr7 N $ e a O V r. P P ao b e s ao r m C = z" A O G C O tV �G P - - -- O -- ^- T P P M N N N N N M h M vi a O N N ro C N h ° ys +� 4 C Qa • � Y � C e3��3 yW 2 o e g � C a � �i o j� I = f � C C C � � e O V CC W M s —Z V fVZ � e " ■ , V C 0 as r. o n o � a � � � N yW 2 C a � = f � C C C � � � — O V CC W � t W ■ —Z V fVZ � e " ■ , V C °a a. 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'�' � -,� .����_,��,��� - -- ,I ----------- . 2 !2 P- 4- 1 �-: �-- � � 2 Ail- I 1 11 .qjv -j")vo!jvaj3 APPENDIX C HYDROLOGY DATA 2011 Groundwater Gauge Graphs Annual Monitoring Report Appendices Jarmans Oak Stream and Wetland Restoration Site T- 4) ea 0 cc L c � 00 L N Y L O� Y) C m E L (se43ui) uoi;e;id!DGJd °O °O o °O °O O ° O ° ° O r- Co Lo v co CD — — — — — — — — — — - c ca m a� c L 3 L O E O O c z c R a� c �3 o 0 > �9 ao O a a (n L LOZ /0 L/ L L LLOZ/LE/OL L LOZ4Z/0 L L LOZ /L L /OL L LOZ /L/0 L L LOZ/LZ /6 LLOZ/LL /6 L LOZ /L /6 L LOZ /ZZ /8 L LOW L/8 L LOZ /Z /8 L L0Z/£Z /L L LOZ /£ L/L L L0Z /£ /L L LOZ/EZ /9 L LOZ /E L/9 L LOZ /E /9 L LOZ /bZ /9 L LOZ /bL /5 L L0Z /tl/9 L L 0 Z /t7Z /b L LOZ/ti 07 L LOZ /� /b L LOZ /5Z /£ CO CD V NOOO(D V N0NIT(D000N V(DCOON V CDOOON V (D ' ' ' — —1 — — — N N N N CV M C? 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