The URL can be used to link to this page

Home My WebLink About20070911 Ver 1_Year 3 Monitoring Report_201105220'� 021 601 West Stream Restoration Project Annual Monitoring Report Monitoring Year: 2010 Monitoring Year: 3 As -built Date: 2008 NCEEP Project Number: D 06054 -E Submitted to: NCDENR- Ecosystem Enhancement Program 1619 Mail Service Center Raleigh, NC 27699 -1619 rA*I.-- o stem E ar emeht PROGRAM Prepared by: North Carolina State University Department of Biological and Agricultural Engineering 3100 Faucette Drive / Campus Box 7625 Raleigh, NC 27695 -7625 Prepared for: Environmental Banc and Exchange 909 Capability Drive Suite 3100 Raleigh, NC 27606 9n� sC� ?P �P ern NCDENR HC STATE UNNEFiall O i 601 West Mitigation Site Annual Monitoring Report for 2010 . (Year 3) Table of Contents Table of Contents 1.0 Executive Summary ................................................................................... ............................... 2 2.0 Introduction ................................................................................................ ............................... 3 2.1 Project Description ..................................................................................... ............................... 4 2.2 Project Objectives ...................................................................................... ............................... 4 2.3 Project History ........................................................................................... ............................... 5 3.0 Project Condition and Monitoring Results ................................................ ............................... 6 3.1 Vegetation Assessment .............................................................................. ............................... 6 3. 1.1 Vegetation Success Criteria .................................................................... ............................... 6 3.1.2 Description of Vegetation Monitoring .................................................... ............................... 6 3.1.3 Results of Vegetation Monitoring ........................................................... ............................... 7 3.2 Stream Assessment .................................................................................... ............................... 8 3.2.1 Stream Success Criteria .......................................................................... ............................... 9 3.2.2 Stream Morphology Monitoring Plan ..................................................... ............................... 9 3.2.3 Stream Morphology Monitoring Results .............................................. ............................... 10 3.2.4 Problem Areas ....................................................................................... ............................... 11 3.3 Rainfall Data ............................................................................................ ............................... 12 4.0 Conclusions .............................................................................................. ............................... 13 AppendixA — As Built Survey ...................................................................... ............................... 14 AppendixB — MY2 Survey ........................................................................... ............................... 15 Appendix C — Profile, Cross Sections, and Pebble Counts ............................ ............................... 16 AppendixD — Site Photos .............................................................................. ............................... 42 AppendixE — Vegetation Data ...................................................................... ............................... 58 AppendixF — Rainfall Data ........................................................................... ............................... 62 AppendixG — Morphology Table .................................................................. ............................... 65 EEP Project #D 06054 -E 1 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 1.0 Executive Summary This Annual Monitoring Report documents the results of monitoring activities during the 2010 growing season on the 601 West Stream Restoration Project. Construction of the site, including planting of trees, was completed in March 2008. The 2010 data documents results from the third year of geomorphic and vegetation monitoring at the site. The design for the 601 West Stream Restoration Project involved stream restoration. After construction, it was determined that the project generated 4,532 feet of stream restoration. The As -Built Survey is included as Appendix B. This Annual Monitoring Report presents data from five vegetation monitoring plots, one crest gauge, one rain gauge, six cross sections, approximately 3,160 linear feet of profile survey and photographic reference locations, as specified in the approved Restoration Plan for the site. Approximately 420 linear feet of profile survey were added to Reach 1 from previous monitoring years in Monitoring year 2 (2009) in order to meet the minimum of 3,000 linear feet of longitudinal monitoring required for EEP Full Delivery projects. A manual rain gauge was used in conjunction with the onsite automatic rain gauge to validate precipitation data. Normal rainfall occurred throughout this monitoring period, although the stream was at its driest observed level ever, during the survey visit in September, 2010. The vegetation monitoring documented surviving planted stem densities between 242 and 445 stems per acre with an average of 349 stems per acre. This represents a survival rate of approximately 55% based on a baseline density of 634 stems per acre. The initial vegetative success criteria of 360 stems per acre after three years of monitoring was achieved on three of the five monitoring plots. Supplemental planting with three year old stems will be completed before the start of the 2011 growing season in the areas around two of the plots. The final vegetative success criteria will be the survival of 260 five- year -old planted stems per acre at the end of five years of monitoring. Three bankfull events were recorded in November, May and August. The restored stream channel has remained basically stable and is providing the intended habitat and hydrologic functions. All monitored cross sections and the longitudinal profile for 2010 document only minor adjustment in stream dimension. There are some areas of erosional bank adjustment but they are due to the slow vegetative recovery from the extraordinary drought in 2008. The bed material in some riffles has remained fine primarily due to the large number of woody debris blockages that occur each fall. When sediment moves through the reach, pools should clear out and grow deeper and riffles should begin to move to a coarser distribution. EEP Project #D 06054 -E 2 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 2.0 Introduction 2.1 Project Description The 601 West site is located approximately 13 miles south of Monroe in Union County (see Figure 1). The property is located directly off Pageland Highway/US Hwy 601 South just south of Ervin Thomas Road, SR 2112. Figure 1— 601 West Location Map The project is a restoration of approximately 4,500 linear feet of unnamed tributary to Lanes Creek in the Yadkin Pee -Dee River Basin. The project is made up of an upper and lower section of UT, referred to as Reach 1 and Reach 2, respectively for monitoring. Reach 1 and Reach 2 stationing is summarized in Table 1. The 601 West site has a drainage area of 0.41 mil. The EEP Project #D 06054 -E 3 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) dominant historic land use was originally timber production followed by intensive agricultural production of crops including corn, soybeans, and winter wheat. The channel was straightened and channelized for agricultural purposes. This led to an incised condition with little to no floodplain access. Table 1 — 601 West MonitorinLg Reaches Reach Name As -Built Length ft Monitoring Stations Restoration Approach UT /Reach 1 /Reach 2 4,532 100 +98 — 117 +50 Restoration (Priority I) 130 +50 — 145 +02 Total 4,532 3,104 2.2 Project Objectives The 601 West site was identified by EBX to support the NC EEP full delivery mitigation process. The objective of the project was to produce a minimum of 4,500 stream mitigation units (SMU) to NC EEP through the full delivery process in the Yadkin Pee -Dee River 03040105 hydrologic unit. Due to the incised condition of the channel and lack of access to the floodplain, the existing channel was abandoned and a Priority I Natural Channel Design approach was selected for the majority of the project. Given the valley type VIII drainage, a C4 channel was chosen as the design channel. The design channel relies heavily on structures for grade control and bank protection. Monitoring of the 601 West site is required to demonstrate successful mitigation based on success criteria specified in the Restoration Plan. Stream and vegetation monitoring are conducted on an annual basis. This Annual Monitoring Report documents the results of the monitoring for 2010 (Year 3). The as -built data documented 4,532 linear feet of stream restoration. The stream restoration will provide multiple ecological and water quality benefits within the Yadkin Pee -Dee River Basin. Those benefits are as follows: Hydrology: • Re- establishing floodplain connection by raising bed elevations • Increase flood storage by re- establishing floodplain Water Quality: EEP Project #D 06054 -E 4 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Reducing turbidity by reducing sediment inputs Reducing water temperatures by providing shading Increasing/ stabilizing oxygen levels by reducing BOD /COD and increasing re- oxygenating turbulence Habitat: • Improve bed habitat by increasing riffle -pool diversity, reducing sediment deposition, and improving low flow water depths • Improve bank habitat by increasing stability and woody biomass • Improve floodplain habitat by establishing micro - topography and hydrology, removing invasive vegetation, and increasing habitat diversity • Improve food web dynamics by adding biomass (such as detritus, wood debris, and leaf matter) and re- establishing floodplain connection 2.3 Project History This project was identified by EBX in the winter of 2006. Table 2 — 601 West Site History Project Activity and Reporting History Activity or Report Data Collection Complete Actual Completion or Delivery Restoration Plan February 2007 April 2007 Final Design - 90% N/A July 2007 Construction N/A February 2008 Temporary S &E mix applied to entire project area N/A February 2008 Permanent seed mix applied to reach N/A February 2008 Bare roots and live stakes N/A March 2008 Mitigation Plan / As -built (Monitoring Baseline) March 2008 June 2008 Year 1 Monitoring March 2009 March 2009 Year 2 Monitoring October 2009 December 2009 Year 3 Monitoring September 2010 December 2010 Year 4 Monitoring September 2011 Year 5 Monitoring September 2012 - EEP Project #D 06054 -E 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 3.0 Project Condition and Monitoring Results 3.1 Vegetation Assessment 3.1.1 Vegetation Success Criteria Successful establishment of vegetation in riparian areas will be the survival of 260 planted stems following Year 5 monitoring. The interim vegetative success criteria will be the survival of at least 320 planted stems per acre at the end of Year 3 monitoring. Up to 20% of the site species composition may be comprised of volunteers. Remedial action may be required should volunteers present a problem or exceed 20% composition. A digital image photo log will be used to subjectively evaluate the restoration site over time. A series of images over the five year monitoring period should demonstrate maturation of planted vegetation and volunteer species. 3.1.2 Description of Vegetation Monitoring Five semi - permanent vegetation plots were established within the planted restoration areas to monitor the success of planted vegetation. The vegetation plots are 0.01 hectares in size. The vegetation plots are distributed across the site, but the precise location and orientation of the plots was random (see location on as -built drawings.) The plots cover approximately two percent of the site. Seven species were planted on site (see Table 3). Table 3 — 601 West Planted Snecies Common Name Scientific Name Abbreviations Paw Paw Asimina triloba AT River Birch Betula nigra BN Shag Bark Hickory Carya ovate CO Green Ash Fraxinus perms lvanica FP Swamp Chestnut Oak- Quercus michauxii QM Water Oak Quercus nigra QN Willow Oak Quercus phellos QP Each of the planted stems inside the plots was flagged to help in locating them in the future. The taxonomic standard for vegetation used in this report was based on "Manual of the Vascular of the Carolinas ", by Albert E Radford et al. The vegetation monitoring protocol used for collecting vegetation data was established for this project in 2000 by the Wetland Restoration Program (WRP) and Karen Hall of NCSU. EEP Project #D 06054 -E 6 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 3.1.3 Results of Vegetation Monitoring 601 West vegetation is dominated by forbs with goldenrod (Solidago sp.) being the dominate species found as was the case in fall 2009. Most vegetation is still taller than most trees, being head high or more. Blackberry (Rubus sp.) is becoming more common and difficult to deal with when monitoring. The black willows (Salix nigra) along the stream banks continue to do quite well and fairly dense in areas, while the silky dogwood (Corpus Florida) continues to lag behind in growth performance. There was no water in the stream at the time of the visit, and the meander bends, which typically have pools, contained no water as well. The beaver (Castor canadensis), pond adjacent to plot WI was dry except for a small pool. Balloon vine (Cardiospermum halicacabum) is becoming more common in and near the area of-plot W1. It is found sporadically across the entire site. This species is listed as a plant pest in South Carolina and a noxious plant or weed in 3 other southern states. Green tree frogs (Hyla cinerea) were observed at plot W I. Minor impacts by animals and no vandalism was observed. Original planting density, based on the five 0.01 hectare plots, (100 square meters) was 634 stems per acre. The current density is currently 349 stems per acre which represents a survival rate of approximately 55 %. The planted stems in the monitoring plots ranged from 242 to 485 stems per acre. The initial vegetative success criteria of 360 stems per acre was achieved on three of the five monitoring plots. Supplemental planting with three year old stock is scheduled for February 2011 in the area around two of the plots. The final success criteria of 260 stems per acre after five years can still be met. Table 4 - Baseline Stem Counts Baseline Data May 2008 Plot PLANTED SPECIES AT BN CO FP QM ON QP Q PLANTED STEMS W1 3 6 1 2 1 13 W2 3 2 4 3 3 15 W3 1 2 5 1 4 3 16 W4 2 2 5 2 4 2 17 W5 1 4 4 1 4 1 2 17 TOTALS 6 16 7 11 11 13 9 5 78 Percents 1 0.077 1 0.205 0.090 1 0.141 1 0.141 1 0.167 1 0.115 1 0.064 1 1.000 EEP Project #D 06054 -E 7 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Table 5 — MY3 (2010) Stem Counts October 2010 (MY3) Plot PLANTED SPECIES LIVE Plot size AT BN CO FP QM QN QP Q PLANTED STEMS W1 1076 5 1 1 15 100 1076 0.0247 7 W2 16 2 1076 0.0247 1 2 3 100 8 W3 688 1 1 5 1 1 2 Totals: 11 W4 5380 0.123 0.182 4 15.6 2 Average 6 W5 4 1 4 2 11 TOTALS 0 12 2 11 6 5 7 0 43 Percents 0.000 0.279 0.047 0.256 0.140 0.116 0.163 0.000 1.000 Table 6 - Baseline Stems per Acre Monitoring Plots Baseline Data May 2008 Plot Trees Plot size Plot size Plot size Stems ni m ft acre per acre W1 13 100 1076 0.0247 526 W2 15 100 1076 0.0247 607 W3 16 100 1076 0.0247 647 W4 17 100 1076 0.0247 688 W5 17 100 1076 0.0247 688 Totals: 78 500 5380 0.123 0.182 Stems per plot 15.6 8.8 Average 634 Table 7 — MY3 (2010) Stems per Acre Fall Monitoring Data October 2009 Plot Trees Plot size Trees Percent Stems ni m Lost Loss per acre W1 6 100 3 0.500 242 W2 8 100 0 0.000 323 W3 11 100 0 0.000 445 W4 7 100 3 0.429 283 W5 12 100 2 0.167 485 Totals: 44 500 8 0.182 Stems per plot 8.8 Average 357 EEP Project #D 06054 -E 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 3.2 Stream Assessment 3.2.1 Stream Success Criteria As stated in the approved Mitigation Plan, the stream restoration criteria for the site includes the following: Bankfull Events: Two bankfull flow events must be documented within the five -year monitoring period. Cross - Sections: There should be little change in as -built cross sections. Cross sections shall be classified using the Rosgen stream classification method and all monitored cross - sections should fall within the quantitative parameters defined for C type channel. Longitudinal Profiles: The longitudinal profiles should show that the bedform features are remaining stable, e.g. they are not aggrading or degrading. Bedforms observed should be consistent with those observed in C type channels. Photo Reference Stations: Photographs will be used to subjectively evaluate channel aggradation or degradation, bank erosion, success of riparian vegetation and effectiveness of erosion control measures. 3.2.2 Stream Morphology Monitoring Plan Stream monitoring will document the stability of the restored channel. Monitoring will occur for 5 years or until the final success criteria have been achieved, whichever is longer. Monitoring methods used are based on US Army Corps of Engineering guidance documents and NC Division of Water Quality guidance documents. Cross Sections Two permanent cross sections, one at a riffle and one at a pool were installed for every 1,000 linear feet of restored stream. Each cross section was marked with permanent pins on both banks. Each cross section is tied to a benchmark to allow for comparison for data each year. The cross section survey takes into account water surface and all breaks in slope including thalweg, top of bank, and bankfull if present. Longitudinal Profile Longitudinal profile is surveyed once every year for five years or until the final success criteria are met. The longitudinal survey will include thalweg, water surface, bankfull and top of bank. EEP Project #D 06054 -E 9 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Each survey point will occur at the head, midpoint, and end of each feature and the invert of each structure. The survey will be tied to a permanent benchmark. Hydrology Bankfull events will be monitored for the length of the monitoring period. One crest gauge is installed on site to capture bankfull events. Photographs of high water marks, wrack lines and sediment deposition will also be used to document these events. Photo Reference Stations Photographs will be taken at the same locations each year for the length of the monitoring period. These photos will document the progression of the site from year to year. 3.2.3 Stream Morphology Monitoring Results Stream conditions are stable. As the riparian vegetation develops it is becoming the significant stabilizing factor for the channel and stream banks. Stream features including pools and riffles are remaining stable. There are 15 structures within the monitoring reaches. All structures appear to be stable. All structures are functioning as designed with no evidence of relocation or piping. The backwater from the beaver dams are preventing several structures from performing as designed. Constructed riffles are holding grade with no down cutting or headcuts observed. There was no water in the stream during the survey period preventing a measurement of the water surface. This was the second consecutive year with no water surface measurements. One log structure had a significant debris dam that caused all flow to concentrate in a small area creating a notable scour pool. (Noted in the 601 N Reach 2 profile on page 38) The debris dam was removed during the visit. The log structure now functions correctly and the scour pool should refill back to the design dimensions. Cross Sections The survey data was collected in September 2010, and the results are presented in Appendix C. Cross sections appear to be stable. Longitudinal Profile The longitudinal profile survey was conducted in September 2010, and the results are presented in Appendix C . The profile survey showed little change in channel dimensions or profile. Hydrology Three bankfull events were documented during this year of monitoring by a crest gauge. The bankfull events were recorded in November, May and August at stages of 1.1 ft, 0.33 ft. and 0.06 ft above bankfull, respectively. EEP Project #D 06054 -E 10 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 3.2.4 Problem Areas There were five problem areas identified at the 601 West site in the Year 2 Monitoring Report. The first three problem areas are located in Reach 1 and are related to bank erosion. These areas are characterized by vertical banks and channel widening. Two of these problem areas (PA1 and PA2) have repaired themselves with improved vegetative cover growth. PA 3 has not recovered and supplemental planting will be undertaken in 2011. The last two problem areas are beaver dams that appeared in the Reach 2 section of channel during MY 2 (2009). The beavers were removed but the dams were still in place at the time of survey, causing backwater for approximately 200 feet upstream of the dams. The beaver dams are scheduled to be removed in December 2010. Once the dams are removed replanting of the perimeter of the flooded areas may be needed. Additionally, this stream flows into Lanes Creek which is also dammed up by beaver activity causing back water from the end of the restoration reach upstream for about 50 feet. This is not listed as a problem area as it is the result of an impact off of the restoration reach, but a photo is included. Table 8 - 601 West MY2 Problem Areas ID Station Description Repair Photo Number PA1 116+30-116+51 Bank Erosion/Incision n/a Problem Area Photo 1 PA2 107 +79 — 107 +92 Bank Erosion/Incision n/a Problem Area Photo 2 PA3 103 +73 — 103 +83 Bank Erosion/Incision Replant /reseed Problem Area Photo 3 PA4 140 +28 Beaver Dam Drain /replant Problem Area Photo 4 PA5 142 +38 Beaver Dam Drain/replant Problem Area Photo 5 P`4 Photo Below reach Backwater n/a Problem Area Photo ' See Appendix D. EEP Project #D 06054 -E 11 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 3.3 Rainfall Data Rainfall data is collected by an automated rain gauge and confirmed with a manual rain gauge. Rainfall data shows normal rainfall during the monitoring period. The average monthly peak day for the 2009 growing season was 1.56 inches with a maximum monthly peak day of 2.94 inches occurring in November. The average monthly sum was 3.98 inches with a maximum of 6.05 inches occurring in November. Complete rainfall data is shown in Appendix F. Figure 2 — W2 Rainfall Data Summary 601W MY3 Rainfall Summary *Rainfall data collected from 10/12/2009 - 9/15/2010 6 ■ Monthly Sum 5 N ■ Monthly Peak d V 4 C r-° c 3 2 1 0 OCT NOV DEC JAN FEB MAR APR MAY JUN JUL AUG SEP Month EEP Project #D 06054 -E 12 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 4.0 Conclusions Overall stream dimension, pattern, and profile are stable with only minor erosional problem areas. With normal rainfall, riparian vegetation is flourishing. Most areas of erosion that remain as problem areas are being improved as vegetation becomes established. Two of the five vegetative monitoring sites did not achieve the interim vegetative success criteria and supplemental planting with three year old stems will be completed in early 2011. Beaver dams degrade the riffle habitat and the beaver itself removes larger woody vegetation. In addition the enlarged pool perimeters drown significant streamside vegetation. Removal of the dams will expose areas of bare soil that may also need replanting. The channel was dry again during data collection, however all stream structures appear stable. Overall, the site is on track to achieve the stream stability and vegetative success criteria specified in the Restoration Plan. Monitoring will continue through 2012. EEP Project #D 06054 -E 13 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Appendix A - As Built Survey EEP Project #D 06054 -E 14 x +„ +� Z 0 CO W O O s� F- �, 0 z w oar m Z N o o o w Q N v� Z w Q d U O N O U J Z W W O U Z ( 0 O W < J O `: t \s V a rn g s ^ � In ........;/ co `'.. C°I N s Z CO CD W N co rn CD !.yoNed �°�� . W M O CD Of N 0 H O L" N m W W d 3 Z Q 0 0 U 2 --- �wz v �W O LL LO Q W W z I �L)o �2 a) Z LLJ JW Z Ir LLfLj) Z W C5 X IF= O 6 0 a- C5 W ZH w Q�< C) Q 0 W 8 " �zm L v 0 z< � s o f < < -i = p c ZZ� - Cn rr O r 0Z a NQ Yi O A et9� O O Z LLJ Z C P � ,o �w E W>- O i c U Con W Q W O O LL V L J > j (n ZYW W W W 7 t _ ■ „1 W ° Z rn m WC7N a QaZ, 02 Z `�`_ t CO W j T Q?L'O jgg}ON z k jo0 g �cc aZ R N i C¢ ."W,w AG - cc tt 4m Up3uu -W%,Lx gcw\.Na U) Q . LLI THE- }��pt�� ACT W &S - -,;- Q J$ - t: - - -- L ry8 I L I Q CL 7-N N s 55 0 g qo 8 ' W W Z o = W _� cn z �m z I m J �F= ,f'.,. Vi J c • • • Q U 1/ !O o b W g t IH + ;'i, rang C__) <p b = cn r Z(L CLI ,--. r o cz O r w O w_^ can p^ N J O CD Q V z Z / U N `V I I _ ' I o I i U I I i L � �� •• CL N N N N N co I W ba 5 1 > W a \ I w CD Li 6 a wra+w AS — . -in V�"M dwAm -mum mmW\w uow- oan-R-w -a vw — ^ =Aw 1 133HS 3NIlH0LL ,9 R r s� 9'LZS I 1 1 I o'ers 1 � £9+901 v1S O'9ZS 1 I L'LZS I I I I S'LZS 1 i 1 s•azs c'9zs- AZ3 64 +LO1 vls TI T II 1 , S'EZS ,I I i � I 1 Z•sZs / 1 I 9'6ZS 1 I -Al3 vls Z'6zs 1 I 1£'LZS £I+S01 C6ZS I I i'6 S I I �1 9'6Zs 1 I I z•oss I S'OEs it I' III 'szs -A� �+i01 vls L 9'0£S Z'OES I II 6'6ZS 6•azs I I S'OES I 1 I I dl Q'azs I £'QES Z Q£$ ZL'6Z9- Ala 09 +ZOL V.LS I i I VUS ' I II O'LE9 £o+1ol VAS TO i I 8 oes l'Z£S L'ZES 9L+001 V1S NV n -V Sl'l£5 -1110 'nNl 00+001 V.LS c1311 .O£ ONIISI13 Ol M Z'ZES I — I I - 6 l£S TUG WWS -NI 'ANl 99+66 v1S tL.-7-7 .O£ ONILSDC3 NI938 ZEES T V GLS � X D i. 133HS 33S 3NnHoLLVMI + I I + I OD �ji if I THE Q \pN ACT °o I I 1 1� co `= n IE8 In I I I (' i I i �iaiv s t v 1 �C \ ' � 6 r � y '•: p tc'fi S o p ra•Nd 4; o \ I a LO � 1 + 1, 111 I If�bS 1 ' z w O IL I 11 Q Z I O� Q 1 z z a U� + 1 f O \� II I � II CL 0 i \\ cc y'x I o ` �° ! I i i 0000 r Q I l t I I \ \ \\ II I i I1 IV 1 a cn I I \ / l li , Le) CZ o \I \ I \I I 111`1 O cn I N Q 1 � 1 � � 1 1 I �� I I I 111 � LL LL LL I 1/ O CL2s w ta7 I 11 I 1 � I I lil C O + r� I II I t i I W C ► 1� I I i � � � � � 1 1 O 1 \ 4 �± ° II I I I � � I W■ LO zw cc w g gggg LJ + I ( 11 II F y¢ \ it I I m U g '0 v I i I / 1 22 z z IL + / O O + O a r -Fpwr- ( As W i it AIR "P -.NY1d ONDAM -'0UM 0HD03k1\5-PVDW-ODK W if1 )=Lo \ -\.,1 IS 11�D N N S IIIHS 33S R 300 ,4 O . & '_ Q + X 00 I O'6LS rl o-sls I dl ° 3Nn� I +o ' I I I III I o O'OZS 00 a 8S'LLS�Al3 09 +L1L V1S Al I I NVHO 3d07S � i \ I t }BOA V! £'LZS 1 1 / / / i 1 \ III / �� II / / / ` Q W • Ea 9'LZ9 ZOVSW tZ 1 -I ! Ihlgr I I' r l r 11 w /lip 4101I1�1 ' i l ( a i ili > Z; AT3 +Lttvts L'6LS O i O } I f / WWI', _ I i I I I �Ijmlil ; ll / i i� i! l ;i I I illll i f g 1 L'6 LS r'/ w °I IIi i i lil �l ; tr r rl � ........ +'�� I w I I o� � a w CO 1 1 1 1 1 1 I l l l l l l I I, l f > A I I I I I I I l' „ ap• � ;• �....... vim' =i S' L ZS 1 I I I I I I I I I Z 111 / Ld r. -`'� -'i I ( 1 1 1 1 1 (! I I I I O 25 25 25 I I I I � 1111111' I 1 {� ! I l � l l� J I I y t yo + °Ss c `:�dONd.....••cc 1 L'LZ9 l O I I AT3 V1S + 1 1111 cO III 11 I I I II 1 l l l l l l f l l l I i f 8l'61S� �6+Sll 3'JNV 3dO1S _ �' lZ9 i H a 1 ' f u l l 11111 II I I I I I i F III 1 1111 I I I I 1 1 I I I I � r> 1 1 O 1 1 \ \ \ \\\ I z! �1 ! I •\ 1 1 I I m Q 1 I I \\ \'\ 1 I I I m m + �_ 1 11 \\ \ III II II II 9'OZS \\ \ \\\ I I 1� 11 II 72 z m 111 1 11 11 a oj IL v� I vy x 1 1 1v 1 1 1 � I I I I I I , �, 1 1 I 8 w 02 fL z LL Z' lZS \ `. 1` V I I I' I jll z �w Z i l Z -OZS I I I l 9£'0L4� Ala V1S LC) p V I + I II 1 1 1 1 1 1 \V \ O'SZS Li+Yll f I I i II 1 b F F / L'tiZS / p I I I I I 1 +,\ I I 1 1 1 � � \�`� A A •. � I � l 1V \ I 1 1 I I;� 1 1 ' � 1 1. 1 U 9'SZS _ 1 \ \ A A \'. V A 1\ \1► A\ \\ \\ 1 II 11 1Ir�, �V A 11 Il 1 \ 1 �I 1 Ui CD cz " U 1 9'£ZS al I p A 1 LO 1 1 1 1 1 1 1 \\ \ \\ 11 I i i I I (O E 8 I r 1 \ \ 1 ( 11 v \1 V I ) IV o� 1 AI A \ I I I \ 8£•SSS- A13 LL+ZII V1S _ 716 l ti-£ZS / 1 O LO N / /! I I i II �' IF m LI'M i?j2i i. ob ��` � §R"g �@ m i o I i 009Z9 11 W�w wO O / N o a- Z �• S'9ZS f LL �ylyF // , I I I ° °zia. rc CL 6'9Z9 0 -AZT V1S 09.091 OS +ILI ± /" i� j I� 3DW MO1S I Z'LZS / 1 I � �/ i II \ ( I I I I f i 8 Q� F�8 � w i i v I i I �5 X r l L'LZS c ° / I 3 1 Cos* f I \ 1 I O\ i t I I O vI vv 1vv 1 1v I I 6 L£ '1113 £'9ZS IN it Vls 1 \ ok \ \\ �1 i z N °o o'\ \ F 8 1 Z'9Z8 L'97i�J' \ �p THE G� \� ACT i ILL \ 1 \ . r- \ I I Ln i 9'LZS I sy� b3aN� I I I 1 N :133HS 33S 3NnHO1VW -R-M-4 98 " - - -- -Ioe VL ft MPV" OWADiov.a aa003u\5•v\aCG7Wl \ wW=Wa W9 •^^'ILYLI9 \'d\'1 MawW xe ."* - 9= VL "N UwwwN cmum -co\Lm rw M c000iacw \�la ° h iff m N h •9 pj x .9'L lot W J It- U) Z X 9 133HS 33S 3NnHOIVI4 w c / N a A O n L'LOS aai \ \ o 1 9'909 O \ ` I LLI + o > I I \ \ \ \ N I j ya \ \ \ I �� `• \\ W 9L'905� 96+9ZL 3NVA Ala d15 I 6'LO9 i I I I THE ACT :C ,9l6\QS I A , ' ?, N ��i li �-� Q S tj ti'80S 1 r7 VLOS 1 r� � O �� s � •o N 1 ! II I i I I I I O'90S r I I I I I I I I I I I I I II II I O.. £'BOS � ,,,,,,,,,,,,,, d�ip......... . LO } LO VII, 1,9 I I t I ? rd • Ny `�' c V*LS vI I li 9'£19 IAI N t \ 1 Z 0 Z — 1 9'0L9 Ln EL z Z F ( 1 + �W o jGia�a °g�vA�� g,o §5so 1 z 04 1 �1 £'LLS 1 1 W7jWmw \ I LO £'LlS N ON I lil ooc�WCFi� 1 L9zaawcMm%.. �;z ui (� z �_ (z ul t L' L LS�'Al3 LS - — — 3ONVHO 3dOlS /, NVn 69 +ZZL V1S O_ d d I I 1I II I z I Q U O I, Av I, fdl' Wil Si! �i 0 j I I I f S =z� ,' I + z 9 H I ii cV $ R I /I \ N a 43 Q "kin Z'� 15 - — 1 ' L4ZL9�Al3 £9+LZL V1S W m I I/% Y i� 3D 110 3 rIS 1 NV O I I cow ti p rr 1 °I 9'9 1.9 dl LO 1 i O'L1S N 1� l'LLS i �ii' I I I I I I LZ+OZL d1S Ndn ssoa0 HOO — 9'L lS ' 1 ( r 1 I ! I l O L'LL9 > w 3G £'L L9 I < 3 9 II� t I ;11I! I I I I g 3 6 c c c c m I I I I 6'LL9 !I I. ,Q 1 B6+B11 V q > rn I I Iv �•. i �� l v I I $ 30Nd 0'619 _6 I I i I i � �• N�N�1yW y� �� I I I S$ 5 g L'L1S LO 111 i a I 00 yw l 0 07, rE 133HS 33S 3Nf1HO1dW 6 L 0'9 m 'n N n I Ira MawW xe ."* - 9= VL "N UwwwN cmum -co\Lm rw M c000iacw \�la 9 9'l CIA I i $ L 13.3HS 33S 3NIlHO1vW S 133HS 33S 3NnHOiVN guy LO + M 0 0 + M 0 LO t LO M O O + LO M O + M O O d- M O LO M M O O M M O LO + N M O CD + N O LO + M 0 0 0 LO O M 0 O + O M O LO + N O 0 rn N O LO + 00 N 0 O 00 N O LO t` D A b o A !Yj r� 4t �f a� v II / 1 b / 1 - L O , A - 1 vzas I I L'Z0S L'ZOS 9'z �X C, 0 I I `/ I L O H J O O I w zILM OV 1 J s'Zos Lil J 1 do x m / .I Z'ZOS S' LOS Z' LOS £ ZoS £'ZOS L'Z0S CZOS b'ZOS 6zo L z ° I 25 6U 9 I I II a 60 W m 99'009 -'AM LL+f£L V1S II I I 1 1 1 I 69.009 -'nl3 9£+i£L vls \ 1 1 1 \ 1 1 1 I I I 1 1 1 1 1 1 I 1 1 1 \ 1 I I 1 I I f \ 1 R I I w I CL 1 N j j 9'Z0S w o a 3 Z i4 < ¢ o: I 6 ZOS I i 1 I • '�I � t I � I CZOS 9•Z0S 6-Z0S � � yi I \�) 99109 'A'13 LL +Z£L vis 13NVA SSOHD Mo � � 1 1 Z'ZOs E9'L09 -inn ANI OO +00+M V1S doa •O£ ON3 6 lOS * ZOS -NI 'ANl 0*909 99 +L£L vls CON O£ NI038 _ 0 *OS � sszos =•n�3 s'�os u +L£L vls 6' *Os S di I 1 1 1 I 1 - i I, I s'sos I._.. I I _. V909 L i9 £o9 —AZ3 86+6ZL v15 L'909 13NVA SSOao �aoa 6'904 / I i I A'I I I 0'605 _ o-aos `YOS -A V +ELL TUB £'L09 S'LOS I I I ti'0LS _ 9'OLS I I 1 I 1 0'609 Of'9O9 -AZ3 LB +LZ l vls 9'OLS S 133HS 33S 3NnHOiVN guy LO + M 0 0 + M 0 LO t LO M O O + LO M O + M O O d- M O LO M M O O M M O LO + N M O CD + N O LO + M 0 0 0 LO O M 0 O + O M O LO + N O 0 rn N O LO + 00 N 0 O 00 N O LO t` D A b o A !Yj r� 4t �f a� v II / 1 b / 1 - L O , A \ II I I II I I I' I 1 I 1 1 \ \ \ 1 I 1 9 r9 I 0 zi A 9 r\�A U V� zR� CL Z 3 H 00. 41 �\ON ACT - T15� Y U.+ \ \ LLR44444f <e liv 6 LQ V/ s� W 0 g 4 ° XI of 9 -;I Z Q Z Q Uw Z W J CL LL LL 0 �w p CL vim < U z � L -� O U = U) rr _(33 Q Ippd cz 2 �g i8 I -RM-4 +V —U* - 9= VL AM WSW-m MSNW -M\LM OW03u\WW\aW-W A-a• •awt Pw WO LOMMLO \ -\a m� at2 w °�`• 9'z �X C, 0 3i s a p C F =g `/ I L O H J O O I w zILM OV J ' Lil J O x m / .I 6- 6zo L z ° i 25 6U 9 I I II a 60 W m I I \ 1 I I I 1 1 1 II I I 1 1 1 I I OON \ 1 1 1 \ 1 I I 1 1 1 1 1 1 I 1 1 1 \ I I 1 I I f \ 1 R 1' w I CL 1 N j j w o a 3 Z i4 < ¢ o: I I i r cb I • '�I � t I � I � � yi \ II I I II I I I' I 1 I 1 1 \ \ \ 1 I 1 9 r9 I 0 zi A 9 r\�A U V� zR� CL Z 3 H 00. 41 �\ON ACT - T15� Y U.+ \ \ LLR44444f <e liv 6 LQ V/ s� W 0 g 4 ° XI of 9 -;I Z Q Z Q Uw Z W J CL LL LL 0 �w p CL vim < U z � L -� O U = U) rr _(33 Q Ippd cz 2 �g i8 I -RM-4 +V —U* - 9= VL AM WSW-m MSNW -M\LM OW03u\WW\aW-W A-a• •awt Pw WO LOMMLO \ -\a LO ,s z ,s• o e § R O b + LO I / + LO J THE , - =G� \W ACT Lo ! ! (/ / t v J T5 IN LO + \ + I / LO 0 N s + + �I m NZ�if/11L8� \\ I \ 9 �offi0� < z OW7jW IL 0 0QrFPy \ r < < \ j F �Q�Q IM Wm - p0* art \ Y Y N O $_C W ! _ + g G W z I l I 1 I W J F5 Z Z 11'il; O Ln p ! if i I o - I LO i:3 Q W I I I I I 00 M v�� / Iz W a LO r 1 7 W + 9 00 C� LLI O I \ LO + I- o < r M IL O o $ 7dw d z M 8 18t 1611 $ � J Q c sCc W W T O Y N S N o:•o�`yQYom::" �: Z In Iz Q 9w Z �gLL 00 �w p FE cc 0 U ui i U O O a ¢ 6 E 7 c �p 6� E L E E 3 -R,R, ( +a - s aAm mpvww onovuo -coam 4-. wxw\�a _"_'i V),* O'L64 w> I oad I W zti98 O'L64 ao FHm <�g 9'L64 I I I 0'664 I 0.664 I � f2m� 0'664 0'664 Ia,d I I 0' 664 0,66* I 0'66-k 0,66-k 0'66* I I �8 w l'664 II �3 I I rn W ' I I Z'664 ' UNW I I� II L' 664 1 I I 9' 664 I I I L' 664 8664 I� 0'009 � I I 8'664 I I I I I I 6'664 i 0'009 1 l'009 9'009 1 1 8'864 rillV l09 S'l09 I Uan° VLog k'n$ j� a+o ame 0• l09 V<) I I 9'l09 I I I I L109 ' 6• L09 l'ZOS I I 1 1 8' l09 1 I I I 8' lOS lzo9 3NnK4vm LO ,s z ,s• o e § R O b + LO I / + LO J THE , - =G� \W ACT Lo ! ! (/ / t v J T5 IN LO + \ + I / LO 0 N s + + �I m NZ�if/11L8� \\ I \ 9 �offi0� < z OW7jW IL 0 0QrFPy \ r < < \ j F �Q�Q IM Wm - p0* art \ Y Y N O $_C W ! _ + g G W z I l I 1 I W J F5 Z Z 11'il; O Ln p ! if i I o - I LO i:3 Q W I I I I I 00 M v�� / Iz W a LO r 1 7 W + 9 00 C� LLI O I \ LO + I- o < r M IL O o $ 7dw d z M 8 18t 1611 $ � J Q c sCc W W T O Y N S N o:•o�`yQYom::" �: Z In Iz Q 9w Z �gLL 00 �w p FE cc 0 U ui i U O O a ¢ 6 E 7 c �p 6� E L E E 3 -R,R, ( +a - s aAm mpvww onovuo -coam 4-. wxw\�a ,9 ,£ ,S'L ,£ R b 0 R $ R 0 R ,�a THE r g g \OtA ACj Y �✓y �d�s ��a3aNn �C 7lV $ m N R n 113y,00 a 1'019- A13 lL'L9+WO V1S S-Al3 - SL00'0�3 19+00Z V15 Z L S 0 k� ' -115 u301f109 O \� / 9L00 I S — 3 O 11 ri+00a V1S 6'Z L 5 0 + 0 4VWUP� h CZLS -Al3 OO+OOZ V1S NLLSD(3 01 ML S 9LS N A Z �j � 1gg0 �� ZZ W 0 mB�F�< W N Z yyJpQpQ WJ<WJ yy��aQa{{ W L ZILLLWNa OR L <Z W U S Q0 cc w 0: g �� a a IIII CN W J m y ¢ C I I qm �y m m I I S'W d d 0000 I f g p� I I a w it DC I I I I I8t I X Z o O Q S i �n O € W W �8 N S 6g 4 s •'d.d oN „,,, UPe• � o a Uw Z g� O Z Z WC W r 0 7� (J F U U C= CZ L U O O Vi E 8 � 8 �s 6 MMlf.( AY -Y ^" - —M JCL M11 `-PVWW OMOOND-00\L; YM '— '—M 10 \"\-'1 .'i N i CD a. 1 I I O I I I I I } d d O I K I I I I I I LL ��d I rY�p. v�ff li D I Y��a CL r, M f/1 '01 03 I + WOZ � I ml aFvMFI pI N c34iOI >. cw� � I V) w Oww 0NN AOQ o! .'i N i CD a. I I I O I I LLJ OI I } d d O 8-�� a I I awl I LL V) WI �I yl W w n o 1 Jil W O LL y M f/1 + + w ml O z N aI I ml cw� � w � o! .'i N i CD a. O O } d d O 8-�� V) xa � � O + + m tttyyy O z N F RE 1- w � wa_ a Wxo Q O S N .OiN z + + $ N O W Z m f � er s � I gay P go Q i s �m m d \In z_ 0 n 0 n o LU ozz Im a D) Fw� M Jz O 11 LL O O L Ld N 8 C4 n W O i M b 0 L 0 r -v O _ n c� � N Q 0 !�19 A 0 co O O N N O n N O Pi w� r Ir Q Q O O Z Li L. . Fw0 N to OD n O 8-�� O O J MT _ O W M z O N t0 Or _� Cl! P, M 2M 0 N I- M x e Q S j a Y J 80 -s Z rn V! �!E v U O �F U ,1(TULf ]'1 W _I W` Q is O F U C/i cz O V cn C _ Q O 7 i _ xpYS C `1 O o 82 I p o r F- Q Lu N r W#wt-4 xa — - Q= SI MR ws„•.Iw.i -►oVs WAo3A&wOmua7aut\-w -ww wa wa c w=Lo\ -\-i r � o j eoo0oo tro - .po o 0 0o I i F I r i ° °. ° o o°o'� ol p a, boy ....a�. 0 0 `� • r ,I o0c l I I o, I m° \ °ion I I I I I I o \ n y °gin o I 0 r i _ °000° o0 00 11, �� o 0 \ \ \ \ ouoo oou o•�,. o M M', 000 °u., II % I • I I 'I � I I � I X o a THE Q c�,ct \a+ ncr W �s y J U G4 IN g �s" =ll:W • ........... y ON Z L 4Z U ILULCI JL U Z z �z W 7�7 0 O F w U RONCn Z F r m n cz Z _ 2 cn E cz w J �8mf CL CL a s' 1E_ I � W K I� z� ICI I�I -mw-# xY —L 8 '4l all mvsw -W ONLLwi&- ux =mv\eiVvxraaA.A -"ft ;m =to\" d\;1 1 11 1 I I I I I I I � 1 •� �1 I I I I rr � j / I f f 1 1 \ •, ` \, 1 � I 1 tl + I11 1 l \\ I � + /� I � I I 1 � \\ •� \ 1 r \ 1 I \ D it 133HS 33S 3NnH31dW I I, i I I I I I I I I I I ; I � I 1 1 •, I � I I , i I r I I I I � + 1 I I I I I I I I I r N i I I o I I i I I ` + \ I I I 1 1 I I + I I I 1 I I I i i I I I r i I ( I r 1 1 I l III II11I I 11 II 1 l II i i i' 11 'I 'I 11 ,I I l l l l l l i w I I I I I o r I ` 1 'THE G.�\pN ACT �Y T5 0 630Hn 7w W z 15 LL Z gs0 I Ilil I lil E, 0 0 Hm N N N N N X Q S i w $ n Q a 0 oN , oPP•• Z Z U tLU U Z z� �z J W CL 3 � U Cc W cz i U - _ cn _N Q Q� E 8 ca I E L w W z 3 Ix s m ;I •rww -w go — m V& Am ftp wrw %amrw -w as MWVAew\r000- aal\ww—Vw rr ttacw��l CL n3HS 33S 3NnHp1VW —\77 -7 1� -^ -t, -- -- 1 \ NX o q v lE c lo 1 1 V I ,_ v ��•� f,t 's 1 1 1 11 I II I 11 1 1 1 � I i � ' � tc 1� 1 1 _ +VlA N \\ vv A \'•\ \ -� \fi r k `..: mayv 1 I o vii e° V w I I 1, lei I r , i I I � , 133HS 33S 3NIl om V R b 0 k Sp THE - �p1•G,\\pN ACT dy3p� 7"M 0 Z w C9 MEN Z n q w n N N N �X =W y W N � W o Fs 5 3 w 6 qm 0 < Gi 6 �- Ld W IL tIP a i5 iT5 8t 2 7 O O 0 6�z w J Iai�H w I I I � I I�I X O a c I • W s � 'I" a �8 .............. o°P�,•`...,�W - 2 °, r Z om i Z z� �W g a- 3 3 F U � C/ U i OBaW O U O 1 'A cn E-c3 Cz IQs i .WW4 xe — oz vi "n B.P wrw WaLwid -gAus w xacw \� °1 \ f ° l t I I 1 g�9 1 r lei I r , i I I � , 133HS 33S 3NIl om V R b 0 k Sp THE - �p1•G,\\pN ACT dy3p� 7"M 0 Z w C9 MEN Z n q w n N N N �X =W y W N � W o Fs 5 3 w 6 qm 0 < Gi 6 �- Ld W IL tIP a i5 iT5 8t 2 7 O O 0 6�z w J Iai�H w I I I � I I�I X O a c I • W s � 'I" a �8 .............. o°P�,•`...,�W - 2 °, r Z om i Z z� �W g a- 3 3 F U � C/ U i OBaW O U O 1 'A cn E-c3 Cz IQs i .WW4 xe — oz vi "n B.P wrw WaLwid -gAus w xacw \� °1 Z LU 11 f, `J .L` -A—:";r: 4 eC° . . . . . . . . . . . . . . .. . . . . . . . v4 s A . .... ........ 1 ) 1 0 I . . . . . . ... ........ ........... ZI 133HS 33S 3NnHOIVY4 THE \ON ACT 71Y z z CL 2 V, "M PIA 0 LU -i z 0 z P: z w w w w N N N N N L CL .............. 1p. Z CE w 1 w C) 1 Z W n z CL 0 z II Ts cn E cz 0 C-) _N U:) Q -c3 C=Z IL I -mwr,Lqf As - og IgL � UPUV-W ORLW-W-W\LIS P% )ZKLD\-N-.L z CLz z CL uj al L CL .............. 1p. Z CE w 1 w C) 1 Z W n z CL 0 z II Ts cn E cz 0 C-) _N U:) Q -c3 C=Z IL I -mwr,Lqf As - og IgL � UPUV-W ORLW-W-W\LIS P% )ZKLD\-N-.L i i I i 1 \ t \ \ \ t t t t l \ 0 z w LLI z z N w w of z Z Q 6 CL W U� Z w W 0 w z 0 Ix Ix Li J g Ui' y Cz FS O U i = fO 21 12 CD E cz IL d I i 6� E L W N y � 2 ., LL r= w <_ i ili e IV a z'� Mm-R-d AY - M St all G vVW d GmLwrw -9G\Lz iY x \ � � x a roll A I \p THE \q+ ACT Q W a� &s f � & E E J {F- 1 1 �a 7 nn ll 1 a* �m ilia* n O N a� i i W \ 0 z w LLI z z N w w of z Z Q 6 CL W U� Z w W 0 w z 0 Ix Ix Li J g Ui' y Cz FS O U i = fO 21 12 CD E cz IL d I i 6� E L W N y � 2 ., LL r= w <_ i ili e IV a z'� Mm-R-d AY - M St all G vVW d GmLwrw -9G\Lz iY \ I 1 1 1 \\ i i W \ N \ / I W 1 vWi w 1 I WX � U H 1 0 z w LLI z z N w w of z Z Q 6 CL W U� Z w W 0 w z 0 Ix Ix Li J g Ui' y Cz FS O U i = fO 21 12 CD E cz IL d I i 6� E L W N y � 2 ., LL r= w <_ i ili e IV a z'� Mm-R-d AY - M St all G vVW d GmLwrw -9G\Lz iY 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Appendix B - MY3 Survey Figure B 1— 601 West Reach 1 Figure B 2 — 601 West Reach 1/Reach 2 Figure B 3 - 601 West Reach 2 EEP Project #D 06054 -E 15 S69LZ DN HO131V21 H12JON Z ON 'A1Nf O:) NOW C) m lD (� O A11S'd3AINn SZ91 31VIS VNI108VD X09 sndWV3 SBV1 U3AV3M ONN33NION3 iviiniinxd Ews wD1O010m JN H9131V l d33- bNa0N JNI810iiNOW (EAW) OTO Z 2IV3A M�09 p I O ? a � w z w 31VG YHJ N10 :S310N *ON V) O a d+ / {I z Q w J J Q zY Y Ne / w z z z / Zz W m LU `° w m mQQaaaQ� 0Rr-IrC�jr�� z02�� ? z o0 0o rn rn o o / N 0 W C 0 00, 0 0 0 0 0 0 0 / G N N N N N N I I / M z I (D III J � I J i i C \ O O v u- UJ v- O I 0 � z ter.. rti III w V) Q \ w I I J 1 i LU 2 N N I W i-1 I W = ' N X + / I � O > H Ln O r-I H w w 2 V) 569LZJNH9131V21 kLM3AINn 31VIS VNIIMIVJ H1i10N SM X09 sndWVJ SEVI 213AV3M 9NIN33NI9N3 lVMf11lf1JIN9V'8 IVDIE)010I9 N\109 LDN'AiNlnO:) NOINn 0 0 Ln 00 o m o o o a l7 3 � a W LL m LL O N °z w N JN �HJI3 Vb d33- UN3aJN JNNOiINOW L AA) 010Z 2Id3A Mti09 31V0 NHJ Na0 :S310N 'ON M 1 ' 4y�04 W W N N H W W I H Z I F- w w w 2 w N N Q w Q w � +r J Q � z Y Y Y z �rn Y w m w m w m / LL- LL Q Q CL < < WHO CL Z_ F- 0 Y >- >- � �?Z o0 00rnm00 / �n0 w Coco �� 02000000 N N N N N N I / Z LU i W J r+ / / Z O 0 I U w w w 25 0 i trn A I LZ HDV]3 ] - MT09 JN `AiNf10O NOW o o 0 m Ln 0 m 569LZ7NH913ltlH H1HON 0 LL 0 AlISi13AINn 31V1S VNI108VD SZ9L X09 sndlNV0 S9V1 H3AV3M o C� 9NIH33NIEJN3ltlHniinDl8E)V T IV71901019 ON �HJMVU d33- 2lN3aON L JN12IOlINOW EAM O�OZ ZI`d3A MT09 FI O O o a a w LL M z° w N 31d0 AHD N210 5310N ON i Oyx0N �I I i i i 1 I (14 00 m I i X + ry) IN, a N ci < � N , i Q N N w � m X + J cr- d' a Of I w Z Z Z m c-1 N I Z Z w m w m w LL 1 0 0 0 I CIO LL Q Q a Q a Q a 0 O F O H O F- 0- >- � 0 Z�222i2 ; 2 Z w w m m o o X 0 0 0 0 0 L c 0 0 0 0 0 0 D C N N N N N N I i � i i Z LU I I w � 20 J Z \ �� U LL w w LL w Q w ,• CO ) w N / I I � I i p N W / w l/7 X + + 2 d m / N —1 Q N ci rI c/ ) � X N lD N rI Q LU w 2 ri N O N lD ter.. rw 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Appendix C - Profile, Cross Sections, and Pebble Counts Table of Contents 601 West R1 RXS- 1 .................. ............................... 601 West R1 PXS- 1 .................. ............................... 601 West R2 RXS- 1 .................. ............................... 601 West R2 RXS- 2 .................. ............................... 601 West R2 PXS- 1 .................. ............................... 601 West R2 PXS- 2 .................. ............................... List of Photos .................................. ............................... 18 .................................. ............................... 21 .................................. ............................... 24 .................................. ............................... 27 .................................. ............................... 29 .................................. ............................... 33 PhotoC 1 - R1 RXS -1 Left Pin ..................................................................... ............................... 18 PhotoC 2 - R1 RXS -1 Right Pin ................................................................... ............................... 18 Photo C 3 - R1 RXS -1 Downstream .............................................................. ............................... 19 Photo C 4 - RI PXS -1 Left Pin ...................................................................... ............................... 21 PhotoC 5 - RI PXS -1 Right Pin .................................................................... ............................... 21 Photo C 6 - R1 PXS -1 Downstream .............................................................. ............................... 22 PhotoC 7 - R2 RXS -1 Left Pin ............... .................................................. ............................... 24 PhotoC 8 - R2 RXS -1 Right Pin ..............:.................................................... ............................... 24 Photo C 9 - R2 RXS -1 Downstream .............................................................. ............................... 25 PhotoC 10 - R2 RXS -2 Left Pin ................................................................... ............................... 27 PhotoC 11 - R2 RXS -2 Right Pin ................................................................. ............................... 27 Photo C 12 - R2 RXS -2 Downstream ............................................................ ............................... 28 PhotoC 13 - R2 PXS -1 Left Pin .................................................................... ............................... 30 Photo C 14 - R2 PXS -1 Right Pin .................................................................. ............................... 30 PhotoC 15 - R2 PXS -1 Downstream ............................................................ ............................... 31 PhotoC 16 - R2 PXS -2 Left Pin .................................................................... ............................... 33 PhotoC 17 - R2 PXS -2 Right Pin .................................................................. ............................... 33 Photo C 18 - R2 PXS -2 Downstream ............................................................ ............................... 34 EEP Project #D 06054 -E 16 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) List of Figures Figure C 1 - R1 RXS -1 Cross Section Plot .................................................... ............................... 19 Figure C 2 - R1 PXS -1 Cross Section Plot .................................................... ............................... 22 Figure C 3 - R2 RXS -1 Cross Section Plot .................................................... ............................... 25 Figure C 4 - R2 RXS -2 Cross Section Plot .................................................... ............................... 28 Figure C 5 - R2 PXS -1 Cross Section Plot .................................................... ............................... 31 Figure C 6 - R2 PXS -2 Cross Section Plot .................................................... ............................... 34 Figure C 7 - R1 Longitudinal Profile Sheet 1 ................................................ ............................... 36 Figure C 8 - R1 Longitudinal Profile Sheet 2 ................................................ ............................... 37 Figure C 9 - R2 Longitudinal Profile ............................................................. ............................... 38 Figure C 10 - R1 RXS -1 Pebble Count .......................................................... ............................... 39 FigureC 11 - R1 PXS -1 Pebble Count .......................................................... ............................... 39 Figure C 12 - R2 RXS -1 Pebble Count .......................................................... ............................... 40 Figure C 13 - R2 RXS -2 Pebble Count .......................................................... ............................... 40 Figure C 14 - R2 PXS -1 Pebble Count .......................................................... ............................... 41 Figure C 15 - R2 PXS -2 Pebble Count .......................................................... ............................... 41 List of Tables Table C 1 - R1 RXS -1 Dimension Data ......................................................... ............................... 20 Table C 2 - R1 PXS -1 Dimension Data ......................................................... ............................... 23 Table C 3 - R2 RXS -1 Dimension Data ......................................................... ............................... 26 Table C 4 - R2 RXS -2 Dimension Data ......................................................... ............................... 29 Table C 5 - R2 PXS -1 Dimension Data ......................................................... ............................... 32 Table C 6 - R2 PXS -2 Dimension Data ......................................................... ............................... 35 EEP Project #D 06054 -E 17 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 601 West R1 RXS -1 Photo C 1- RI RXS -1 Left Pin Photo C 2 - RI RXS -1 Right Pin EEP Project #D 06054 -E 18 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo C 3 - R1 RXS -1 Downstream Figure C 1 - R1 RXS -1 Cross Section Plot 601W R1 RXS -1 532.00 531.50 JL 531.00 530.50 u_ "530.00 z 0 As -Built a 529.50 f MY1 > W 529.00 �BANKFULL �� MY2 528.50 - * MY3 528.00 208 218 228 238 248 STATION (FT) EEP Project #D 06054 -E 19 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 601 West R1 PXS -1 Photo C 4 - RI PXS -1 Left Pin EEP Project #D 06054 -E 21 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo C 6 - R1 PXS -1 Downstream Figure C 2 - RI PXS -1 Cross Section Plot EEP Project #D 06054 -E 22 526.00 601W R1 PXS -1 525.50 525.00 524.50 524.00 t s- w t p 523.50 —� - MY1 ~ 523.00 �— BANKFUL w W 522.50 L X MY2 — MY3 522.00 521.50 50 55 60 65 70 75 80 85 90 STATION (FT) EEP Project #D 06054 -E 22 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 601 West R2 RXS -1 Photo C 7 - R2 RXS -1 Left Pin Photo C 8 - R2 RXS -1 Right Pin EEP Project #D 06054 -E 24 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo C 9 - R2 RXS -1 Downstream Figure C 3 - R2 RXS -1 Cross Section Plot EEP Project #D 06054 -E 25 601W R2 RXS -1 504.00 -- 503.50 — ------ - - - - -- - 503.00 -- - -- - -- - - - - -- LL Z 502.50 --- - - - - -- — — -- 0 t As -Built > 502.00 --- - - - - -- n– MY1 -- BANKFULL _J w �-- - MY2 501.50 - - - - -- — )K MY3 501.00 60 70 80 90 100 STATION (FT) EEP Project #D 06054 -E 25 O O o L. bq O I ti O O 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 601 West R2 RXS -2 Photo C 10 - R2 RXS-2 Lett Pin Photo C 11 - R2 RXS -2 Right Pin EEP Project #D 06054 -E 27 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo C 12 - R2 RXS -2 Downstream Figure C 4 - R2 RXS -2 Cross Section Plot 601W R2 PXS -1 504.00 503.50 503.00 502.50 502.00 LL Z 501.50 O --4 As -Built Q 501.00 w 500.50 J w 500.00 - f MY1 -f- BANKFULL X X MY2 499.50 - w MY3 499.00 88 93 98 103 108 113 118 123 128 STATION (FT) EEP Project #D 06054 -E 28 O w. ti O O r1 O L 1 ti W rn kn kn C) O W 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 601 West R2 PXS -1 Photo C 13 - R2 PXS-1 Left Pin Photo C 14 - R2 PXS -1 Right Pin EEP Project #D 06054 -E 30 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo C 15 - R2 PXS -1 Downstream Figure C 5 - R2 PXS -1 Cross Section Plot EEP Project #D 06054 -E 31 601W R2 PXS -1 504.00 503.50 503.00 502.50 p502.00 0 As -Built LL Z501.50 —ta— MY1 O F 501.00 '-- BANKFULL Q W 500.50 �� MY2 J w — MY3 500.00 499.50 pq 499.00 88 98 108 118 128 STATION (FT) EEP Project #D 06054 -E 31 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 601 West R2 PXS -2 Photo C 16 - R2 PXS -2 Left Pin Photo C 17 - R2 PXS -2 Right Pin EEP Project #D 06054 -E 33 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo C 18 - R2 PXS -2 Downstream (note beaverdam) Figure C 6 - R2 PXS -2 Cross Section Plot 601W R2 PXS -2 499.50 499.00 498.50 498.00 tAs-Built Z 497.50 O- MY1 497.00 --Ar— BANKFUL w L w 496.50 MY2 496.00 - MY3 495.50 0 10 20 30 40 50 60 70 80 STATION (FT) EEP Project #D 06054 -E 34 QOM � N O O w w_ ti O b �. y O O R: \: O N Q s w 0 a` _ X00 G O �l L w M W O O Q U U .O W W 0 0 m o � d 0 � e p a � � e � p co a , m N M m' >- > } } O co ca M of of o '48 3 o f J K J K J K o � e � d .ti 0 ,a ` OLn 4a ea as as a � a d o- a � O � a s o ei V1 _ a x e U C d w 4 C x a+ G. X•e X., X of 3 = x • <a x o �i • m O o e •x O xx •x C0 C •' a -. e x x x 4 e xX °a ° o x' 4 X x 0 x 0 N X • x x k a x X A e x x •- �a x x x x x a• x $ x x a° x e � e • � a x .. b x .x X X X ° x 1< pp O • X x x e x x x x 9' x X ` •. x • < 00 m 0 N N N N N Ln N ul (u) uoi;eAO13 M W O O Q U U .O W W fi O ti O b O M ti O � O fi O E Q M W d' O O Q U N �O a W W X. x •x •° e X °tl x x X° a O a • °� $ X •X♦ o • » ° ° x e • o o° �X e ° e, e x x .• ' X • ° .° _ p O .• p x •o° a X. •° 4 Xx• • X ♦ ° a o a x 0 •x . x♦ ° x ; X •o° C X S t0 p e x •. ° x x x - X x ,• .° x x • g ° x• i x n S X L^ R d GJ a t H X ox • , •.� s 4A s u d • X ..- C 4- CL x x k C. O i a ° X. i+ m 3 'O LA C x o 'r t0 0 x• o 0 Q X L C x x e ° a • x° x ` e x g x x g x •. ° c x e X. x x e x • x • °cm x •• ° . e ° � o x e • X ° X X °• ° • x • p� X% N M M S • o m •"� N M X m m m . i co m CO co e I I x x e ° a M M co N N N N Ln Ln LA N N N Ln ()j) uoi;ena13 M W d' O O Q U N �O a W W � N � O ti b i O r M 9 r Wo z w a c r C 0 a �a o� U L 0 eo W 00 M w 4 N O O A U a� O a w w N x x x x X • - x x x X X x �• x x x x M X. •�, I - x x xp• x x. x• . X •X �* x x x .. x x x x x.•' x • k• X*" x x, . xx . x a x .� X.• . X :x. x x• x xx x x X, _ fX, ][ YX• p X•. px • • p•• Y _c ------- xRx C ~ �j x '*' �( • dx C N A, X Qi Q: x -_ x N tv :x k > x ° E o E N 4o = x X . ' a y L N xx, x C — n V • x o d 2 X „ x H "d m $ ,X - O x x 3 a •x c C ,x •i X �. X (A x x CC G X x x.. X x •'x , x x ' X.. -------- x X X x fY4 N X x x X xlS Xx .. xl of x ,x x x• x •XX ,. x x • ac x X x oX x x ••'A )IFx ..X )k •x XA x x x K. x x 1$ x , xx• x x x X x ±J X X• X • N rn a--i m r } > Y g Q • x x O m m O O O x K xX x X. X x x x Ix x XX m 0 8 m °m 0 m rn rn Ln Ln Ln v v a v a (:}) uoijena13 00 M w 4 N O O A U a� O a w w 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Figure C 8 - RI PXS -1 Pebble Count Pebble Count 601 W R1 PXS -1 100.0% Figure C 7 - RI RXS -1 Pebble Count Pebble Count 601 W R1 RXS -1 100.0% 90.0% 80.0% 70.0% 60.0% 80.0% a 50.0% d r 40.0% 30.0% �- 20.0% Y2 2009 C 70.0% 10.0% ---iF I 4Y 3 2010 0.0% g1 �5 00 00 00 00 00 00 0 0� 01 O� ti� �� gL� 1ti�F �Nl- 60.0% �Op�b00 Particle Size (mm) Figure C 8 - RI PXS -1 Pebble Count Pebble Count 601 W R1 PXS -1 100.0% 90.0% 80.0% C 70.0% 60.0% a 50.0% d t sbuHt 200 40.0% - �— Y1 (2008) 30.0% --d— Y2 2009 20.0% 10.0% —14-- AY 3 2010 31 �h 00 00 00 00 00 00 0 O� 01 05 L� �� g'LF ,L� 0 �11� -10$00 Particle Size (mm) EEP Project #D 06054 -E 39 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Figure C 10 - R2 RXS -2 Pebble Count Pebble Count 601 W R2 RXS -2 100.0%% 90.0% 780.0% 70.0% i 60.0% a, 50.0% .>–. 40.0% 30.0%'0 u 20.0% 10.0 % —1I —MY 3 2010 0.0% X31 y�h 5 p0 Op0 Op0 �p0 PIP pp0 �p0 ti Particle Size (mm) EEP Project #D 06054 -E 40 SWEEPS . , �� ice► �� Figure C 10 - R2 RXS -2 Pebble Count Pebble Count 601 W R2 RXS -2 100.0%% 90.0% 780.0% 70.0% i 60.0% a, 50.0% .>–. 40.0% 30.0%'0 u 20.0% 10.0 % —1I —MY 3 2010 0.0% X31 y�h 5 p0 Op0 Op0 �p0 PIP pp0 �p0 ti Particle Size (mm) EEP Project #D 06054 -E 40 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Figure C 11 - R2 PXS -1 Pebble Count Pebble Count 601 W R2 PXS -1 U 1L - to rAn -L reoole count Pebble Count 601 W R2 PXS -2 100.0% 90.0% a� 80.0% 70.0% d i 60.0% d a 50.0% d 40.0% 30.0% 20.0% 10.0% 0.0% ti 5 O 0 0 O O O 003 0 � L Og ,LOO $00 1, -,lob ��,LOO OQ$00 ti Particle Size (mm) EEP Project #D 06054 -E 41 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Appendix D - Site Photos Table of Contents PhotoPoints ................................................................................................... ............................... 43 ProblemArea Photos ..................................................................................... ............................... 52 VegetationPhotos .......................................................................................... ............................... 55 List of Photos PhotoPoint 1 .................................................................................................. ............................... 43 PhotoPoint 2 .................................................................................................. ............................... 43 PhotoPoint 3 .................................................................................................. ............................... 44 PhotoPoint 4 .................................................................................................. ............................... 44 PhotoPoint 5 .................................................................................................. ............................... 45 PhotoPoint 6 .................................................................................................. ............................... 45 PhotoPoint 7 .................................................................................................. ............................... 46 PhotoPoint 8 .................................................................................................. ............................... 46 PhotoPoint 9 .................................................................................................. ............................... 47 PhotoPoint 10 ................................................................................................ ............................... 47 PhotoPoint 11 ................................................................................................ ............................... 48 PhotoPoint 12 ................................................................................................ ............................... 48 PhotoPoint 13 ................................................................................................ ............................... 49 PhotoPoint 14 ................................................................................................ ............................... 49 PhotoPoint 15 ................................................................................................ ............................... 50 PhotoPoint 16 ................................................................................................ ............................... 50 PhotoPoint 17 ................................................................................................ ............................... 51 ProblemArea Photo Point 1 .......................................................................... ............................... 56 Problem Area Photo Point 2 .......................................................................... ............................... 56 Problem Area Photo Point 3 .......................................................................... ............................... 56 Problem Area Photo Point 4 .......................................................................... ............................... 56 ProblemArea Photo Point 5 .......................................................................... ............................... 56 ProblemPhoto Backwater .............................................................................. ............................... 56 Photo D 1 - Vegetation Plot W 1 .................................................................... ............................... 55 Photo D 2 - Vegetation Plot W2 .................................................................... ............................... 55 Photo D 3 - Vegetation Plot W3 .................................................................... ............................... 56 Photo D 4 - Vegetation Plot W4 .................................................................... ............................... 56 Photo D 5 - Vegetation Plot W5 .................................................................... ............................... 57 EEP Project #D 06054 -E 42 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo Points Photo Point 1 Photo Point 2 EEP Project #D 06054 -E 43 f ! 4 � fj ^/ jo � r F � � • Amod .f6.� i ♦ i L P ... .A. ik q; 601 West Mitigation Site Annual Monitoring Report for 2010 Photo Point 5 Photo Point 6 EEP Project #D 06054 -E 45 (Year 3) 601 West Mitigation Site Annual Monitoring Report for 2010 Photo Point 8 EEP Project #D 06054 -E 46 (Year 3) 601 West Mitigation Site Annual Monitoring Report for 2010 Photo Point 9 Photo Point 10 EEP Project #D 06054 -E 47 (Year 3) 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo Point 11 Photo Point 12 EEP Project #D 06054 -E 48 601 West Mitigation Site Annual Monitoring Report for 2010 Photo Point 13 Photo Point 14 EEP Project #D 06054 -E 49 (Year 3) 601 West Mitigation Site Annual Monitoring Report for 2010 Photo Point 15 Photo Point 16 EEP Project #D 06054 -E 50 (Year 3) 601 West Mitigation Site Annual Monitoring Report for 2010 Photo Point 17 EEP Project #D 06054 -E 51 (Year 3) 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Problem Area Photos Problem Area 1 Photo Problem Area 1 Photo EEP Project #D 06054 -E 52 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Problem Area 2 Photo Problem Area 3 Photo (beaver dam) EEP Project #D 06054 -E 53 7W, i. 40 i IV 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Vegetation Photos Photo D 1 - Vegetation Plot W1 Photo D 2 - Vegetation Plot W2 (June 2010) EEP Project #D 06054 -E 55 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo D 3 - Vegetation Plot W3 Photo D 4 - Vegetation Plot W4 EEP Project #D 06054 -E 56 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Photo D 5 - Vegetation Plot W5 EEP Project #D 06054 -E 57 Appendix E - Vegetation Data Table of Contents Table E 1 — MY3 (2010) Plot W 1 Data ................ Table E 2 — MY3 (20 10) Plot W2 Data ................ Table E 3 — MY3 (2010) Plot W3 Data ................ Table E 4 — MY3 (20 10) Plot W4 Data ................ Table E 5 — MY3 (20 10) Plot W5 Data ................ EEP Project #D 06054 -E 58 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) .......................... ............................... 59 .......................... ............................... 59 .......................... ............................... 60 .......................... ............................... 60 .......................... ............................... 61 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Table E 1- MY3 (2010) Plot W1 Data Table E 2 - MY3 2010 Plot W2 Data Spring Data Fall Data Notes No Species Coordinates ddh Height DBH Vigor ddh Height DBH Vigor Vigor X m Y m mm cm cm mm cm cm 1 QM 0.80 9.56 9.68 14 142 0 4 21 194 0 4 2 FP 0.82 2.35 11 82 143 4 17 109 266 4 4 3 AT 1.84 7.17 4.03 9 95 0 4 12 200 0 4 4 BN 2.81 4.45 22 99 97 4 33 187 6 4 4 5 BN 3.44 9.80 0.16 0 0 0 0 6 BN 3.95 2.15 21 218 193 4 4 302 14 4 4 7 AT 4.50 7.63 2.53 2 17 0 4 3 25 0 4 8 CO 5.03 5.41 8 58 4 10 59 4 0 9 AT 6.55 2.96 2 23 72 4 4 11 131 0 4 10 QM 7.14 8.45 5 40 4 0 0 0 11 BN 7.80 5.92 12 141 1 4 20 191 7 4 0 12 BN 7.99 0.26 22 218 9 4 0 320 30 4 0 13 BN 8.81 3.92 15 153 3 4 25 206 8 4 4 Table E 2 - MY3 2010 Plot W2 Data EEP Project #D 06054 -E 59 Spring Data Fall Data Notes No Species Coordinates ddh Height DBH Vigor ddh Height DBH Vigor X (m) Y (m) (mm) (cm) (cm) (mm) (cm) (cm) 1 BN 0.53 9.68 14 142 1 4 21 194 7 4 2 QP 0.55 1.26 12 143 2 4 266 11 4 3 QP 1.14 4.03 9 95 4 12 200 8 4 Trunk gnawed 4 QM 2.18 6.50 11 97 4 14 193 7 4 Trunk gnawed 5 QN 3.15 0.16 0 0 6 BN 3.19 9.11 13 193 6 4 312 21 4 7 QN 3.92 2.53 2 17 4 3 25 4 8 Q 4.53 4.79 0 0 9 QN 5.38 7.04 4 72 4 11 131 4 10 BN 5.93 0.21 0 0 11 QN 6.20 9.30 0 0 12 Q 6.76 3.03 0 0 13 QP 7.55 5.71 1 34 4 3 53 4 14 Q 8.55 8.61 0 0 15 QM 9.35 2.49 0 0 EEP Project #D 06054 -E 59 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Table E 3 - MY3 (2010) Plot W3 Data Table E 4 - MY3 (2010) Plot W4 Data Spring Data Fall Data Notes No Species Coordinates ddh ddh Height DBH Vigor ddh Height DBH Vigor o X (m) Y (m) (mm) (cm) (cm) (mm) (cm) (cm) I FP 1.03 0.93 20 166 6 4 29 202 11 4 2 _ FP 1.09 3.13 20 188 6 4 30 200 9 4 3 FP 1.24 5.18 12 111 1.08 4 18 175 6 4 4 QP 1.60 7.62 4 FP 1.24 0 11 150 4 0 19 5 CO 3.59 2.73 7 45 3.19 4 7 45 9 4 6 CO 3.88 5.11 6 FP 3.23 0 14 184 6 0 7 QP 4.46 7.64 5 62 3.35 4 8 126 4 Trunk gnawed 8 BN 4.49 9.89 25 237 9 4 327 18 4 9 QP 5.79 1.22 11 151 3 4 12 236 7 4 Trunk gnawed 10 FP 6.08 3.36 17 185 7 4 25 246 12 4 11 QN 6.40 5.85 1 8 109 5.60 4 10 158 3 4 Trunk gnawed 12 FP 6.90 8.01 25 241 14 4 304 12 4 13 QN 8.30 0.45 13 BN 7.66 0 0 14 QM 8.73 3.18 5 21 8.00 4 5 12 2 Gnawed off top 15 QN 9.13 6.14 15 BN 8.14 0 0 16 QN 9.55 9.00 16 QN 8.53 0 0 Table E 4 - MY3 (2010) Plot W4 Data EEP Project #D 06054 -E 60 Spring Data Fall Data Notes N Species Coordinates ddh Height DBH Vigor ddh Height DBH Vigor o X (m) Y (m) (mm) (cm) (cm) (mm) (cm) (cm) 1 QM 0.78 4.93 0 0 2 QM 0.89 2.23 0 0 3 FP 1.08 7.25 18 235 11 4 312 20 4 4 FP 1.24 9.52 11 150 4 4 19 211 10 4 5 FP 3.19 4.56 18 235 9 4 383 21 4 6 FP 3.23 2.07 14 184 6 4 345 19 4 7 QN 3.35 7.24 14 138 4 254 7 4 8 QN 3.44 9.60 0 0 9 QN 5.52 2.19 6 93 4 8 122 4 Trunk gnawed 10 AT 5.59 6.79 0 0 11 Q 5.60 4.41 0 0 12 AT 5.69 9.01 10 4 0 13 BN 7.66 1.94 0 0 14 Q 8.00 8.32 0 0 15 BN 8.14 6.45 0 0 16 QN 8.53 4.13 0 0 17 FP 9.95 1.79 0 0 EEP Project #D 06054 -E 60 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Table E 5 - MY3 (2010) Plot W5 Data EEP Project #D 06054 -E 61 Spring Data Fall Data Notes No Species inates ddh Height DBH Vigor ddh Height DBH Vigor Y m mm cm cm mm cm cm 1 BN r2.1 7.73 28 227 11 4 325 24 4 2 QM 5.29 2 17 4 3 23 4 3 AT 2.69 0 0 4 FP 2.92 0.20 11 118 4 20 204 9 4 5 QM 4.40 9.95 13 142 3 4 21 219 11 4 6 QM 4.74 3.46 10 133 4 15 177 7 4 7 QN 4.75 7.82 0 0 8 CO 4.80 5.61 0 0 9 QM 4.96 1.26 15 157 4 4 21 232 13 4 10 CO 7.14 0.80 0 0 11 CO 7.18 8.09 1 14 4 0 12 BN 7.20 3.16 16 158 3 4 257 12 4 13 CO 7.23 5.55 4 4 0 14 QP 9.25 9.55 9 82 4 10 123 4 15 BN 9.56 4.46 23 147 2 4 31 223 8 4 16 BN 9.62 7.05 20 165 3 4 29 212 7 4 17 QP 9.66 1.97 8 62 4 12 11 4 EEP Project #D 06054 -E 61 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) Appendix F - Rainfall Data EEP Project #D 06054 -E 62 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) EBX 601 W MY 3 2010 Rainfall Daily Summary EEP Project #D 06054 -E 63 Amount Date (in.) 12/31/2009 0.14 5/4/2010 0.01 10/12/2009 0.32 1/16/2010 0.46 5/5/2010 0.01 10/14/2009 0.21 1/17/2010 1.26 5/6/2010 0.01 10/15/2009 0.36 1/19/2010 0.01 5/8/2010 0.02 10/16/2009 0.01 1/21/2010 0.82 5/10/2010 0.03 10/17/2009 0.02 1/22/2010 0.10 5/11/2010 0.03 10/24/2009 0.21 1/24/2010 0.89 5/16/2010 0.59 10/27/2009 1.02 1/25/2010 0.94 5/17/2010 0.60 10/28/2009 0.21 1/30/2010 0.04 5/21/2010 0.29 10/29/2009 0.01 1/31/2010 0.40 5/22/2010 0.07 10/30/2009 0.02 2/1/2010 0.08 5/23/2010 0.02 11/1/2009 0.51 2/2/2010 0.29 5/24/2010 0.01 11/2/2009 0.01 2/4/2010 0.05 5/28/2010 0.25 11/10/2009 1.18 2/5/2010 2.69 5/31/2010 2.25 11/11/2009 2.94 2/9/2010 0.03 6/1/2010 0.01 11/12/2009 0.51 2/10/2010 0.01 6/2/2010 2.13 11/13/2009 0.01 2/13/2010 0.06 6/6/2010 0.27 11/18/2009 0.07 2/15/2010 0.19 6/7/2010 0.01 11/19/2009 0.03 2/22/2010 0.54 6/8/2010 0.01 11/20/2009 0.01 2/24/2010 0.09 6/10/2010 0.06 11/22/2009 0.08 2/25/2010 0.04 6/11/2010 0.01 11/23/2009 0.57 3/2/2010 0.24 6/13/2010 0.51 11/25/2009 0.02 3/3/2010 0.25 6/15/2010 0.01 11/26/2009 0.01 3/10/2010 0.03 6/18/2010 0.29 11/30/2009 0.10 3/11/2010 0.14 6/25/2010 1.02 12/2/2009 1.44 3/12/2010 1.03 6/27/2010 0.40 12/5/2009 0.06 3/14/2010 0.03 6/29/2010 0.21 12/6/2009 0.01 3/21/2010 0.25 6/30/2010 0.67 12/8/2009 0.84 3/22/2010 0.02 7/9/2010 0.30 12/9/2009 0.42 3/26/2010 0.02 7/12/2010 1.31 12/12/2009 0.05 3/28/2010 0.13 7/13/2010 0.39 12/13/2009 0.12 3/29/2010 0.64 7/16/2010 0.65 12/14/2009 0.02 4/8/2010 0.35 7/18/2010 0.03 12/15/2009 0.01 4/9/2010 0.03 7/21/2010 0.06 12/18/2009 0.14 4/19/2010 0.01 7/23/2010 0.26 12/19/2009 0.07 4/20/2010 0.05 7/24/2010 0.01 12/21/2009 0.01 4/21/2010 0.01 7/25/2010 0.03 12/24/2009 0.01 4/24/2010 0.16 7/26/2010 0.50 12/25/2009 2.00 4/30/2010 0.66 7/27/2010 1.57 12/30/2009 0.19 5/3/2010 0.26 7/28/2010 0.01 EEP Project #D 06054 -E 63 7/31/2010 0.77 8/5/2010 0.91 8/1/2010 0.35 8/14/2010 0.20 8/2/2010 2.00 8/15/2010 0.04 8/3/2010 0.29 8/19/2010 0.91 EEP Project #D 06054 -E 64 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) 8/20/2010 0.01 9/11/2010 0.06 9/12/2010 0.04 Appendix G - Morphology Table EEP Project #D 06054 -E 65 601 West Mitigation Site Annual Monitoring Report for 2010 (Year 3) b N_ z z O Q Q x z z O C N O M vl N N vl Q p R U Q Q X pip ^ N 00 O pp 7 O C z O z z N , N r O N M r N [\ N kn (V M ,_, O O .b In vi vl N X" N N ,-. N M N ^ M N O O O 3 a •�' � o 0 '�" �O M O O O cC [� M O M 00 -,r O� 0 Q Q , 00 O , , , n et M U z z U cc .9 00 � O O 7 N N lzr M M N O O L M N ^ N O O a U z z � � 00 DD 00 vl I�O O .-• .-• O O O In `O 00 00 00 m O O^ N 00 N U z z rG N N M M O r '..� O �. 00 vi Z O\ O N N M N W) ,�• c G n ^ N ^ �O M O � „� O 00 00 O ti L _ _ b •D �y a d � O � 'O y7 �4 �i0 N �A L bA �A � U O w O 3 3 Q Ca °' on o n 3 ?? ° ?? a a o 0 0 o N° .fl •o B 0.1 U 3 °' °o v u U ° o ° c x O > to � � o 10. a a a a` i Q N M [- 00 , M 00 i C/� N N O N O O aN � M N O N O O � N N M N O N O Q\ !. N z z CN o o x N 00 � , 3 N O N i' R o M er CO o c.4 N N O M" it V'1 .� 7 N M M 7 00 r� X v1 O ONO 50 V c .G � '� vl In M O i O N n CN F4 N O 0 O 00 N 7 M O\ M M l- N 00 r N N O V1 O � M r rn v� o, rn - ,n 10 a M � N N O O U z z p [� M M N ^ 7 7 N S O N O `O M 00 Vl O O N v�1 V � i•,� �G 00 R 00 N N M N M O � l� F+I 00 C1' , O O O 0�0 [� N O O M 00 'n •-, N M n O l� et O 7 Q Q z z In 5 v� v� 0 N 00 N p O v1 XN M cC O � N N _ T ,c O M O0 a m 11; N N rn r- N c 3 N O O p O N O N N N 6 7 O 00 O N 00 p c- n eq r \O O 00 N O O d Q M 0o 0 . O N 1r) N r- N W, N z z 0 O 0 CN In n 00 00 O ��. O N O O � N c C 00 01 O M [- 00 �cG G N N O M O O N W) L G� G�� •� •� YN 'O C G CC G G ^� �� + G �� C x N .�- •� ..i •.�. id CG CG cYV C's: E E L' � ,� cC �' .�' ,L bA w y .c N O id N 'fl O .� cd'� - 3 3 Q Q Q a b b 3 Q b o Id o o Y 0.1 U ell cio a O 0 F+ M A-0 Lj 10. o: a Q