Loading...
The URL can be used to link to this page
Your browser does not support the video tag.
Home
My WebLink
About
20081573 Ver 1_More Info Received_20111014
Corps Submittal Cover Sheet Please provide the following info: 1. Project Name Z?r?-A ?? 2. Name of Property Owner/Applicant:- C?t,r; r ?a tr r - R 1, ?-t,l .Vh ye-ti Ac, -- 990,12 3. Name of Consultant/Agent: (??c(C - (xaQcQ?,Q (I xgc *Agent authorization needs to be attached. 4. Related/Previous Action ID number(s): _-P-.D # 2-06 K - 5. Site Address:? L< <?( 6. Subdivision Name: Nara A ra,[ 0s,4-,kV 7. City: Cires? 8. County. -A, k 9. Lat: L? G . 6fGl Z [6 Z Long: )a ?? ! S^ (Decimal Degrees Please ) 10. Quadrangle Name: U ?tl to 11. Waterway: UT 4o A r^ -k Pet,) 12. Watershed: U,0,t4/ 13. Requested Action: _ Nationwide Permit # General Permit # (? iirisdictt.onal Determination Request U 01(' 1 - ^t Pre-Application Request f) ?? DENR- WATER 4UALITV ----------------------------------------------------------------------------------nANDSAND STORMpygTER BAH------- The following information will be completed by Corps office: AID: Prepare File Folder Assign number in ORM Begin Date Authorization: Section 10 Section 404 Project Description/ Nature of Activity/ Project Purpose: Site/Waters Name: Keywords: WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont Proiect/Sfte: e )Qco+t' iiCity/County, (? .6) Z AS he- COV/??' Sampling Date: AppNcanUOwner: K" I' ?.4tr State: g c. Sampling Point: Investigator(s):?ff Section, Township, Range: ??^tc•?e+l1. /AX _ col G:?c 1.,? Landform (hilislope, terrace, etc.): /-tc G Local relief (concave, convex, none): (o-icz oL Slope (%): JL Subregion (LRR or MLRA):n L& Li'f Z 1('Z Long: (RU ? e j < S Datum: 3 Soil Map Unit Name: ?_ tJ??l? ?Plu \ NWi classification: VA- Are climatic / hydrologic conditions on the site typical for this time of year? Yes _e? No (If no, explain in Remarks.) Are Vegetation l? Soil or Hydrology L? significantly disturbed??c<- Are "Normal circumstances" present? Yes No K Are Vegetation y, Soil or Hydrology naturally problematic? t/af (if needed, explain any answers in Remarks.) SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transacts, important features, etc. Hydrophytic Vegetation Present? Yes C-"- No Is the Sampled Area Hydric Soil Present? Yes f No within a Wetiand? Yes No Wetiand Hydrology Present? Yes No Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two reauired) Primary Indicators (minimum of one is reouired: check all that agp)y) _ Surface Soil Cracks (86) `'Surface Water (Al) True Aquatic Plants (614) - Sparsely Vegetated Concave Surface (B8) _Lo?High Water Table (A2) ?Hydrogen Sulfide Odor (Cl) _?Drafnage Patterns (B10) ySaturation (A3) `f Oxfdized Rhizospheres on Living Roots (03) _ Moss Trim Lines (B16) _ Water Marks (Bl) ZPresence of Reduced Iron (C4) _ Dry-Season Water Table (C2) Sediment Deposits (62) - Recent Iron Reduction in Tilled Soils (C6) !'Crayfish Burrows (C8) Drift Deposits (1213) .-. Thin Muck Surface (07) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (64) - Other (Explain in Remarks) _ Stunted or Stressed Plants (131) _ Iron Deposits (65) _ Geomorphic Position (D2) Inundation Visible on Aerial Imagery (B7) _ Shallow Aquitard (133) Water-Stained Leaves (139) _ Microtopographic Relief (D4) r/Aquatic Fauna (B13) _ FAC-Neutral Test (D5) Field Observations: Surface Water Present? Yes b -N, Depth (inches): Water Table Present? Yes No Depth (inches): Saturation Present? Yes JC No Depth (inches): / err Wetland Hydrology Present? Yes Y No includes capillary fringe) Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if avai lable: 1 S 01, ?SC O c.S ?.?ti' l S? ce ?U S r emarks: S 4cxq Z-I ce Ar? US Army Corps of Engineers Eastern Mountains and Piedmont - interim Version VEGETATION (Five Strata) - Use scientific names of plants. Sampling Point: " Tree k0 ( Absolute Dominant Indicator Dominance Test worksheet: Stratum (Plot size: o /o Cover Species? Status Number of Dominant Species That Are OBL, FACW, or FAC: (A) 2. 3 Total Number of Dominant 4 Species Across All Strata: (B) 5 Percent of Dominant Species That Are OBL, FACW, or FAC: (A/B) 6. - 7. Prevalence Index worksheet: t Saolinq Stratum (Pint size: Ly l ) i _ =Total Cover - Total % Cover of: Mul(liv bv: OBL species x 1 = FACW species x 2 2• = FAC species x3= 3. FACU species X4= 4' UPL species X5 5. 6, = Column Totals: (A) (B) 7. Prevalence Index = B/A = t Shrub Stratum (Plot size: ?? ?Q ) 1 = Total Cover Hydrophytic Vegetation Indicators: 1 - Rapid Test for Hydrophytic Vegetation 2 - Dominance Test is >50% 2• 3 - Prevalence Index is 53 01 3. _ . 4 - Morphological Adaptations' (Provide su ortin 4. _ pp g data in Remarks or on a separate sheet) 51 _ Problematic Hydrophytic Vegetation' (Explain) 6. 7, 'Indicators of hydric soil and wetland hydrology must t = Total C be present, unless disturbed or problematic. Herb Stratum (Plot size: )U ) 1' over Definitions of Five Vegetation Strata: Tree - Wood lants l di d 2. y p , exc u ng woo y vines, approximately 20 it (6 m) or more in height and 3 In. 3. (7.6 cm) or larger In diameter at breast height (DBH). 4. Sapling - Woody plants, excluding woody vines 5, s. , approximately 20 it (6 m) or more in height and less than 3 in. (7.6 cm) DBH. 7, Shrub - Woody plants, excluding woody vines, 8. approximately 3 to 20 it (1 to 6 m) in height. 9. Herb - All herbaceous (non-woody) plants, including 10. herbaceous vines, regardless of size, and woody lants e ce t d i l 111. p , x p woo y v nes, ess than approximately 3 ft (1 m) in height. 12. t ( = Total Cover Woody vine - All woody vines, regardless of height. f? ) Woody Vine Stratum (Plot size: ? t i. 2. 3. 4. Hydrophytic Vegetation Present? Yes N = Total Cover o Remarks: (include photo numbers here or on a separate sheet.) US Army Corps of Engineers Eastern Mountains and Piedmont- Interim Version SOIL ') ' ? Sampling Point: Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of Indicators.) Depth Matrix Redox Features (inches) Color fmoiso _ % Color (moist) _ ° Tvoe' LLoci Texture Remarks 'Typo: C=Concentration, D=De letion RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Solle: Histosol (A1) ark Surface (S7) - 2 cm Muck (A10) (MLRA 147) - Histic Epipedon (A2) _ Polyvalue Below Surface (S8) (MLRA 147, 148) _ Coast Prairie Redox (A16) _ Black Histic (A3) _ Thin Dark Surface (S9) (MLRA 147,148) (MLRA 147,148) Hydrogen Sulfide (A4) Stratified La ers (A5) _ Loamy Gleyed Matrix (F2) D l t d M i - Piedmont Floodplaln Solis (F19) y ^ ep e e atr x (F3) (MLRA 136, 147) - 2 cm Muck (Al 0) (LRR N) _ Redox Dark Surface (F6) _ Red Parent Material (TF2) _ Depleted Below Dark Surface (Al 1) _ Depleted Dark Surface (F7) _ Very Shallow Dark Surface (H 2) --thick Dark Surface (A12) .-. Redox Depressions (F8) _ Other (Explain in Remarks) .-. Sandy Mucky Mineral (81) (LRR N, ` Iron-Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) - Umbric Surface (F13) (MLRA 136, 122) 'Indicators of hydrophytic vegetation and .- Sandy Redox (S5) _ Piedmont Floodplain Solis (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (If observed): Type: / Depth (inches): Hydric Soil Present? Yes v No Remarks: US Army Corps of Engineers Eastern Mountains and Piedmont - interim Version WETLAND DETERMINATION DATA FORM - Eastern Mountains and Piedmont Project/Site: Py? l:? aV rt.3? City/County: l..y?e?? t - t•'?tsty- CC _ Sampling Date: V2Z Appiicant/Owner. Y`i?W yV .,y a-Aaji m'.+,"- Ch fir, .n ? pc;y-e- State: Sampling Point: ? 2:tt72 Investigator(s):1 Tc Section, Township, Range: CP?S?c?,tiC /gel Ld`?(k r?.t Landform (hillslope, terrace, etc.): Ate -Flan Local relief (concave, convex, none): to p L Slope (%): 61900' Subregion (LRR or MLRA : Let: •-6?Lf ?r`Gt L Long: --kr - 609 LfCr Datum: '+ok'.3 Soil Map Unit Name: U hw U? (1 1c, A; IV\ NW( classification: Are climatic / hydrologic conditions on the site typical for this time of year? Yes y No (If no, explain in Remarks.) Are Vegetation (soil , or Hydrology y significantly disturbed? t)J Are "Normal Circumstances" present? Yes ZNo Are Vegetation `"Soil or Hydrology .--/ naturally problematic? Po (if needed, explain any answers in Remarks.) SUMMARY OF FINDINGS - Attach site map showing sampling point locations, transects, important features, etc. Hydrophytic Vegetation Present? Yes No Is the Sampled Area Hydric Soil Present? Yes No within a Wetland? Yes No Wetland Hydrology Present? Yes No Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) PrIm5W Indicators i d• check all that apply) ,_, Surface Soil Cracks (86) _ Surface Water (A1) _ True Aquatic Plants (614) _ Sparsely Vegetated Concave Surface (88) High Water Table (A2) L- ydrogen Sulfide Odor (CI) _ Drainage Patterns (1310) _ S turation (A3) ..r Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (616) ?'Water Marks (B1) C resence of Reduced Iron (C4) Dry-Season Water Table (C2) .-. Sediment Deposits (62) - Recent Iron Reduction in Tilled Soils (C6) _t'0rayfish Burrows (C8) _ Drift Deposits (B3) ._- Thin Muck Surface (C7) r Saturation Visible on Aerial Imagery (C9) Algal Mat or Crust (B4) V - Other (Explain In Remarks) - Stunted of Stressed Plants (D1) _ Iron Deposits (135) - Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3) _ Water-Stained Leaves (69) - Microtopographic Relief (D4) _ Aquatic Fauna (1313) _ FAC-Neutral Test (D5) Field Observations: Surface Water Present? Yes 4 No Depth (Inches): Water Table Present? Yes No Depth (inches): Saturation Present? Yes ZZ'No Depth (inches): Wetland Hydrology Present? Yes No includes capillary fringe) Describe Recorded Data (stream gauge, monitoring well, aerial photos, previous inspections), if available: Remarks: US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version VEGETATION (Five Strata) - Use scientific names of plants f I Absolute Dominant Indicator Tree Stratum {Plot size: 1? 1G ) % Cover Species? _ Status i. 2. 3. 4. 5. s. 7. c c Total Cover Sapling Stratum {Plot size: ) 2. 3. 4. 5. 6. 7. /?` ! h f ) = Total Cover Shrub Stratum (Plot size: 1. 2. 3. 4. 5. 6. 7. Herb Stratum (Plot size: d{ ?C 1 r ) 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. 11. 12. _ r Woody Vine Stratum (Plot size: A i o j 1. 2. 3. Remarks: (Include photo numbers here or on a separate shoot.) = Total Cover = Total Cover = Total Cover Sampling Point: W •i _* Dominance Test worksheet: Number of Dominant Species That Are OBL, FACW, or FAC: (A) Total Number of Dominant Species Across All Strata: (B) Percent of Dominant Species That Are OBL, FACW, or FAC: (A/B) Total % Cover of. Multiply by: 08L species x 1 = FACW species X2= FAC species x 3 = FACU species x4= UPL species x5- Column Totals: (A) (B} Prevalence Index = B/A = Hydrophytic Vegetation Indicators: _ 1 - Rapid Test for Hydrophytic Vegetation _ 2 - Dominance Test is >50% _ 3 - Prevalence Index is 53.0' _ 4 - Morphological Adaptations' (Provide supporting data in Remarks or on a separate sheet) Problematic Hydrophytic Vegetation' (Explain) 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Five Vegetation Strata: Tree - Woody plants, excluding woody vines, approximately 20 ft (6 m) or more in height and 3 in. (7.6 cm) or larger in diameter at breast height (DBH). Sapling - Woody plants, excluding woody vines, approximately 20 ft (6 m) or more in height and less than 3 in. (7.6 cm) DBH. Shrub - Woody plants, excluding woody vines, approximately 3 to 20 It (1 to 6 m) In height. Herb-All herbaceous (non-woody) plants, including herbaceous vines, regardless of size, and woody plants, except woody vines, less than approximately 3 ft (1 m) in height. Woody vine - All woody vines, regardless of height. Hydrophytlc Vegetation Present? Ye No US Army Corps of Engineers Eastern Mountains and Piedmont- Interim Version SOIL Sampling Point: Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of Indicators.) Depth Matrix Redox Features (Inches) Color (moist) Color (moist) % Tvoe Loc' Texture Remarks _ e: C=Concentration, D=De letfon, RM=Reduced Matrix, MS=Masked Sand Grains. 2Location: PL=Pore Lining, M=Matrix. Hydric Soil Indicators: Indicators for Problematic Hydric Soils': istosol (Al) - Dark Surface (S7) ` 2 cm Muck (Al 0) (MLRA 147) .- Histic Epipedon (A2) - Polyvaiue Below Surface (S8) (MLRA 147, 148) - Coast Prairie Redox (Al 6) Black Histic (A3) - Thin Dark Surface (S9) (MLRA 147,148) (MLRA 147, 148) _ Hydrogen Sulfide (A4) ?tratifled Layers (A5) - Loamy Gleyed Matrix (F2) D l t - Piedmont Floodplain Soils (F19) _ ep e ed Matrix (F3) - (MLRA 136,147) - 2 cm Muck (A10) (LRR N) .- Redox Dark Surface (F6) ,,,_, Red Parent Material (TF2) _ Depleted Below Dark Surface (A11) _. Depleted Dark Surface (F7) _ Very Shallow Dark Surface (TF12) ?-_ Ick Dark Surface (Al 2) _. Redox Depressions (F8) - Other (Explain In Remarks) Sandy Mucky Mineral (S1) (LRR N, _ Iron-Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) - Sandy Gleyed Matrix (S4) _ Umbric Surface (1713) (MLRA 136,122) 3Indicators of hydrophytic vegetation and - Sandy Redox (S5) _ Piedmont Floodplain Soils (1719) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) unless disturbed or problematic. Restrictive Layer (if observed): Type: 9 1 Depth (inches): Hydric Sol[ Present? Yes v No Remarks: US Army Corps of Engineers Eastern Mountains and Piedmont - Interim Version Year 1 Monitoring Report per permit conditions for North Fork Estates SD in Creston, NC Submitted to: NCDWQ and USACE Date Submitted: 3/29/11 Authors and Investigators: Derek Goddard and Cory George, El- Blue Ridge Environmental Consultants, PA Introduction: As a result of CWA violations the site was required by regulatory authorities to be restored to original conditions, including establishing hydrology, soils, and vegetation that was consistent with previous wetiand conditions (mountain fen-seep). BREC was the design engineering and environmental firm responsible for the design and implementation of the approved design. In summary the design removed clay fill material down to the pre-existing grades and removed unpermitted culvert pipes. Once this material was removed the site soils were verified to be hydric. The soil was graded to remove rills and channelization in order to mimic conditions from known and nearby reference seeps. The area was then seeded and stabilized with a native wetland seed mix. Erosion control matting was used to stabilize the wetland area. The matting type is known as coir 700 gram and is 100% biodegradable. k 7' Ai Figure ]-Site After Construction To eliminate the potential for channelization over the wetland slope a series of coir fiber baffles (100% L eZ - ? "Y E -- `y t 1'rl l j 1 11 L4_ .'! 4 S ? j ?q?y+ .?•,' era „per '?'I r l N l .. i 3 Figure 2• Coir Fiber Baffles r -` In the spring of 2009 the site was planted per the plan by BREC staff and under our direction. Below is a list of the plants and quantities that were planted. In general, bare-root vegetation was planted at a target density of 320 stems per acre, or a 2-foot by 2-foot grid. Planting of bare-root vegetation was conducted during the dormant season. Observations were made during construction of the site regarding the relative wetness of areas to be planted. Planting zones were determined based on these biodegradable) were installed perpendicular to the flow. assessments, and planted species were matched according to their wetness tolerance and the anticipated wetness of the planting area. Plant List Herbaceous, permanent seed mixture labeled "WNC Riparian Diversity Mix" APPL;IFD 50 tBS: Common Name Botanical Nam 5.00% Sensetive Fern Onoclea sensibillis 2.50% Joe Pye Weed Eupatorium fistulosa 2.50% Swamp Milkweed AscIepias incarnata 2.50% Eastern Gamagrass Tripascum dactyloides 5.00% Green Bulrush Scirpus atrovirens 5.00% Hop Sedge Carex lupilina 10.00% Rice Cut Grass Leersia oryzoides 2.50% Soft Rush Juncus effusus 2.50% Softstem Bulrush Scirpus validus 2.50% Three Square Spikerush Scirpus americanus 10.00% Va Wild rye Elymus virginicus 10.00% Woolgrass Scirpus cypemus 2.50% Deertongue Panicum clandestinum 5.00% Button Bush Cephalanthus oceidentalis 5.00% Elderberry Sambucus canadensis 2.50% Red Chokeberry Aronia arbutifolia 5.00% Silky Dogwood Comus amomuin 2.50% Winterberry Ilex verticillata 2.50% Black Gum Nyssa sylvatica 2.50% Green Ash Fraxinus pennsylvanica 2.50% Red Maple Acer rubrum 2.50% Pin Oak Quercus palustris 2.50% Wild Black Cherry Prunus serotina 2.50% Silver Maple Acer saccharium Planted 600 stems Type Common Name Scientific Name Flooding Light Wetland pH wildlife region val. 1 Arrowhead Sagittaria latifolia seas-perm sun to shade oblig all B, Sm all 1 Broad-leaf Cattail Typha latifolia seas-perm sun oblig all B, Sm all 1 Cardinal Flower Lobelia cardinalis irreg-seas sun fac.wet 0-7 B, Sm all 1 Hollow Joe-pye-weed Eupatoriadelphus fistulosus irreg-seas sun facu 0-7 birds all 1 Pickerehveed. Swamp Rose Mallow 2 Virginia Blueflag 2 Soft Rush 2 Softstem Bulrush 2 Square-stem Spikerush 2 Three-square Bulrush 2 Buttonbush 2 Brookside Alder Elderberry Pontederia cordata seas-perm sun-part.sh oblig 0-7 B, Sm all Hibiscus moscheutos seas-reg sun-part.sh oblig 0-7 B, Sm all Iris virginica seas-perm sun oblig 0-7 birds all Juncus effusus seas-perm sun-part. fac.wet 0-7 B,Sm all Scirpus validus seas-perm sun oblig. 0-7 B,Sm all Eleocharis quadrangulata seas-perm sun oblig. 0-7 B,Sm all Scirpus americanus seas-perm sun oblig. 0-7 B,Sm all Cephalanthus occidentalis 3 Red Chokeberry Hydrangea arborescens 3 Silky Dogwood Xanthorhiza simplicissima 3 Silky Willow Hamamelis virginiana seas-perm sun-part oblig all B,Sm,Lm all 3 Spicebush Alnus serrulata irreg part.-shade fac.upi 0-7 B,Sm all 3 Winterberry Sambucus canadensis irreg-seas part.-shade fac.wet 0-7 birds all 3 Sweet Azalea Aronia arbutifolia irreg part fac upl 0-7 B,Sm,Lm all 3 Rhododendron Cornus amomuin irreg-reg sun fac wet 0-7 birds all 3 Salix sericea irreg-seas sun-part. fac wet 0-7 B,Sm,Lm all Lindera benzoin irreg-seas sun-part. fac wet 0-7 B,Sm,Lm all Ilex verticillata irreg-seas sun-part. fac wet all B,Sm all Eastern Cottonwood Rhododendron arborescens irreg-reg sun-part. oblig 0-7 B,Sm,Lm all Green Ash Rhododendron catawbiense irreg-seas Honeylocust irreg-reg part.-shade fac wet 0-7 birds all 5 Persimmon irreg part.-shade fac wet 0-7 B,Sm all Red Maple part fac wet acid B,Lm F,H,Lt 5 River Birch Fraxinus pennsylvanica 5 Silver Maple Gleditsia triacanthos 5 Sweetgum Diospyros virginiana irreg-seas all fac wet 0-7 birds all Sycamore Acer rubrum irreg-reg sun facu 0-7 birds all Eastern Hemlock Morus rubra irreg-seas all fac wet 0-7 B,Sm all Betula nigra irreg-seas sun facu 0-7 B,Sm,Lm all 6 Acer saccharinum irreg-reg sun - part facu 0-7 B,Sm,Lm all 6 Liquidambar styraciflua irreg-seas all obli-fac 0-7 B,Sm,Lm all Platanus occidentatis irreg - seas part - shade facu 0-7 B,Sm all Tsuga canadensis irreg sun fac wet 0-7 birds all irreg - reg all fac wet 0-7 birds all sun facu 0-7 B,Sm all all fac upl 0-7 B,Sm Ho,F,L t r ' i ?.? • , _. _? eA' €" U ;s2. use. '- ?.., .? S l N. ? 1",? :SK? iiS'TY ? ? .. -?Y' ?L ??.. L ? ter;, r•... ? Summary of the Findings: The entire .42 acre site was considered for the purposes of monitoring and predicting survivability of the vegetation planted on-site. The vegetation monitoring for Year 1 indicated a survivability of over 480 stems which is on a trajectory to achieve an average vegetation survival criterion of 320 stems per acre surviving after the 3rd growing season. Many different animal species were observed throughout the site (white tail deer, wild turkey etc.). The proliferation of these animals grazing on the planted species may be an Item of concern in future monitoring periods. Another area of concern that will warrant revisiting during the next monitoring period is the establishment of invasive species such as fescue and black locust. No remedial action is proposed until more data can be collected during the next growing season. Figure 3- Site after initial Planting Five soil cores were taken and soils were determined to meet the USACE criteria for hydric soils. Site hydrology was obvious and present during the monitoring evaluation. The site was inundated below a depth of 12" at each core sample location. Conclusion: Successful restoration of wetland hydrology is defined in the project's Restoration Plan as achieving continuous inundation of the site or continuous saturation of its soil within 12 inches of soil surface for a minimum of 12.5 percent of the growing season, or 30 consecutive days. The post-restoration monitoring data reflect that the site meets applicable USACE criteria for wetlands and the site is performing with similar hydrology as reference sites. Observations were made to visually document the restoration's success during Year 1 of monitoring. Thick, herbaceous vegetation covered nearly the entire site. It is our professional opinion that the project has a high probability of meeting the success criteria. North Carolina Division of Water Quality -- Stream Identification Form; Version 3.1 Date: 2 Z Project: T r_ ke- V ss J Latitude: t t Z +? 2 Evaluator: Ds G 5 G Site: At F v-[ It ?-47 Longitude:--8 ?. (p??i ?(( S Total Points: Other "rV'e"SV ke P Stream is at least intermittent Caunty: if;! 19 or erennial if ? 30 e.g. Quad Name F s-7 D MA-11? A. Geomorphology (subtotal = Absent Weak Moderate Strong 1a. Continuous bed and bank 0 1 2 2. Sinuosity 0 1 115 3 3. In-channel structure: riffle-pool sequence 0 1 _ 2 4. Soil texture or stream substrate sorting 0 1 2 5. Active/relic floodplain 0 1 2 6. Depositional bars or benches 0 1 2 7. Braided channel 1 2 3 8. Recent alluvial deposits 0 1 2 9 8 Natural levees 0 1 2 10. Headcuts 0 1 2 11. Grade controls 0 0.5 1 12. Natural valley or drainageway 0 0.5 1 13. Second or greater order channel on existing USGS or NRCS map or other documented evidence. No = 0 es =3 Man-made ditches are not rated; see alscussions in manual S. Hvdrnionv (Suhtntal = / 1 1 14. Groundwater flow/discharge 0 1 2 15. Water in channel and > 48 hrs since rain, 4C Water in channel -- d or growing season 0 1 2 16. Leaflitter 1 0.5 0 17. Sediment on plants or debris 0 0.5 1 1.5 18. Organic debris lines or piles (Wrack lines) 0 0.5 t 19 1.5 19. Hydric soils (redoximorphic features) present? No = 0 es = 1.5 C. Biologv (Subtotal = M 20 . Fibrous roots in channel 12 2 1 0 21b. Rooted plants in channel 2 1 dp 22. Crayfish 0.5 1 1.5 23. Bivalves 1 2 3 24. Fish 0 0.5 1.5 25. Amphibians 0 0.5 1.5 26. Macrobenthos (note diversity and abundance) 0 0.5 1.5 27. Filamentous algae; periphyton ev 1 3 28. Iron oxidizing bacteria/fungus. 0 0.5 1,5 29 . Wetland plants in streambed FAC = 0.5; FACW = 0.75; OBL = 1.5 SAV = 2 ; Other = 0 " Items 20 and 21 focus on the presence of upland plants, Item 29 focuses on the presence of aquatic or wetland plantiFl - Sketch Notes: (use back side of this form for additional notes.) /? s? sG? J D l??P seat<<?, North Carolina Division of Water Quality - Stream Identification Form; Version 3.1 Date: „? Z Z Project: Latitude: Evaluator: SG G G Site. t T 2 Longitude: Total Points: Other W?v'rnsV. sky Stream is of least intermittent County: ) e.g. Quad Name: ?G if z 19 or perennial if a 30 ` S s- Geomorphology (Subtotal = Absent Weak Moderate Strong 1a. Continuous bed and bank 0 1 3 2. Sinuosity 0 1 3 3. in-channel structure: riffle-pool sequence 0 2 3 4. Soil texture or stream substrate sorting 0 1 3 5. Active/relic floodplain 0 2 3 6. Depositional bars or benches 0 2 3 7. Braided channel 0 1 3 8. Recent alluvial deposits 0 1 0 3 9 a Natural levees 0 1 3 10. Headcuts 0 1 69 3 11. Grade controls 0 0.5 1.5 12. Natural valley or drainageway 0 <ar 1 1.5 13. Second or greater order channel on existin USGS or NRCS map or other documented evidence. a.. -- No= 0 Yes = 3 inW rinaue uuones are HOr rarea; see cascussions in manual R_ Hvrirnlnnv iRnhtntol - :-7- 1 14. Groundwater flow/dischar e 0 1 3 15. Water in channel and > 48 hrs since rain, or Water in channel -- d or growing season 0 1 3 16. Leaflitter 1.5 0.5 0 17. Sediment on plants or debris 0 0.5 1 1.5 18. Organic debris lines or piles (Wrack lines) 0 0.5 1.5 19. Hydric soils (redoximorphic features) present? o = 0 Yes = 1,5 C. Bioloav (Subtotal 4 - S 1 20 . Fibrous roots in channel 3 2 1 0 21b. Rooted plants in channel 3 2 1 22. Crayfish 0 0.5 1.5 23. Bivalves o 1 2 3 24. Fish 0.5 1 1.5 25. Amphibians 0 0.5 1.5 26. Macrobenthos (note diversity and abundance) 0- 1 1.5 27. Filamentous algae; peri h on 1 2 3 28. Iron oxidizing bacterla/fungus. 0 0,5 1 29 b. Wetland plants in streambed FAC = 0.5; FACW = 0.75; OBL = 1.5 SAV = 2.0; er = 0 „a" -u ? 1 nn;us vi use pi esence ur upianu prams, item za 7ocuses on the presence of aquatic or wetland plants." Sketch: Notes: (use back side of this form for additional notes.) 2 ` /- z - S it J J MAP North Carolina Division of Water Quality - Stream Identification Form; Version 3.1 Date: 2 2 Project: ?eV S Latitude: 6 X216. - Evaluator: C6'j- Site: F r ?? #3 Longitude: -? Total Points: ether /f / Stream is at least intermittent ` CountA?e_ (&6f"ee' vAle, Oc e??,( If z 19 or perennial' ff a 30 t e.g. Quad Name: A. Geomorphology (Subtotal = Absent Weak Moderate Strong ` 1a. Continuous bed and bank 0 1 2 3 2. Sinuosit 0 1 3 3. In-channel structure: riffle-pool sequence 0 0 2 3 4. Soil texture or stream substrate sorting 0 © 2 3 5. Active/relic flood lain 0 1 3 6. Depositional bars or benches 0 1 O!V 3 7. Braided channel 0 <1> 2 3 8. Recent alluvial deposits _ 0 1 ep 3 9a Natural levees 0 2 3 10. Headcuts 0 1 3 11. Grade controls 0 ® 1 1.5 12. Natural valley or drainageway 0 1 1.5 13. Second or greater order channel on eAsting USGS or MRCS map or other documented evidence. Yes = 3 rvrarr-nraun uncrrtis ure nut rtnuu; see oiscussions in manual R_ Hvrlrnlnnv fRnhtntal = C 'C' 1 14. Groundwater flow/discharge 0 2 3 15. Water in channel and > 48 hrs since rain, jr Water in channel -- d or growing season 0 1 © 3 16. Leaflitter 1.5 1 0 17. Sediment on plants or debris 0 0.5 1.5 18. Organic debris lines or piles (Wrack lines) 0 0.5 1.5 19. Hydric soils (redoximorphic features) present? - Yes = 1.5 C. Biology (Subtotal = X „, s ) 20°. Fibrous roots in channel 3 1 0 211". Rooted plants in channel 3 1 0 22. Crayfish 0 0.5 1.5 23. Bivalves 0 2 3 24. Fish /lip 0.5 1 1.5 25. Amphibians 0 0.5 1:5> 1.5 26. Macrobenthos (note diversity and abundance) 0 0 1 1.5 27. Filamentous algae; periphyton 1 2 3 28. Iron oxidizing bacted0un us. 0 0.5 1.5 29 . Wetland plants in streambed FAC = 0.5; FACW = 0.75; OBL = 1.5 SAV = 2p--07-her= items zu ano zt tocus on the presence of upland plants, Item 29 focuses on the presence of aquatic or wetland plan Notes: (use back side of this form for additional notes.) Sketch: t ? Ax-P North Carolina Division of Water Quality - Stream Identification Form; Version 3.1 Date: 22 /Z Project. Latitude: 3(Q_ ?f2f6 Z Evaluator: Total Points: fit- JC Site: F4l U T 1f L Longitude: ?E + GO 1 41 Total Other ?? Jf j Stream is at least intermittent county: j (??(: 0 vYnsV tKc ,UL iii 19 or perennial if z 30 11L1. 1;7 1_ 46 te- e.g. Quad Name: A. Geomorphology Subtotal =Z7 - V. Continuous bed and bank Absent 0 Weak 1 Moderate 2 Strong 2. Sinuosity 0 1 3. In-channel structure: riffle-pool sequence 0 1 3 4. Soil texture or stream substrate sorting 0 1 2 5. Active/relic flood lain 0 1 2 6. Depositional bars or benches 0 1 2 7. Braided channel 0 - 2 3 8. Recent alluvial deposits 0 1 3 9 a Natural levees 0 1 3 10. Headcuts 0 1 3 11. Grade controls 0 0.5 1.5 12. Natural valley or drainageNay 0 0.5 1 13. Second or greater order channel on xistin USGS or NRCS map or other documented evidence. No = 0 es = 3 u, u?o V 1-0 Qio nUL 1aicu, zmv uisuutiwuns in manual B. Hvdroloav (Stihtntni = _ 5 i 14. Groundwater flow/discharge 0 1 2 15. Water in channel and > 48 hrs since rain, or Water in channel -- d or growing season 0 1 2 16. Leaflitter 1.5 1 0 17. Sediment on plants or debris 0 0,5 1.5 18. Organic debris lines or piles (Wrack lines) 0 0.5 1 1.5 19. Hydric soils (redoximorphic features) present? = Yos = 1.5 C. Bioloov (Suhtntal = / t S 1 20b. Fibrous roots in channel 2 1 21 . Rooted plants in channel 2 1 0 22. Crayfish 0 .5 1 1.5 23. Bivalves 0 1 3 24. Fish _ 0 1 1.5 25. Amphibians 0 0.5 1.5 26. Macrobenthos (note diversity and abundance) 0 1 1.5 27, Filamentous algae; periphyton 1 2 3 28. Iron oxidizing bacteria/fungus. 0 0.5 1.5 29 ". Wetland plants in streambed FAC = 0.5; FACW = 0.75; OBL = 1.5 SAV = 2.0; 45ther = 0 `11- - 1- w wn FAnZncwe uj upiana plants, nem za focuses on the presence of aquatic or wetland plants. Notes: (use back side of this form for additional notes,) Sketch: T 1_ (}j -c yJo f .4C? ? i3 Perm _ -5-ee- j?.e. #3 0 A TO North Carolina Division of Water Quality - Stream Identification Form; Version 3.1 Date: ?- - _;?' 3- Project: r' r6 Pnk?A Latitude: -?G ?& 2 Evaluator. G J C' Site: ?I T 4 S Longitude: -? ( (001 Total Points: Other Stream is at least intermittent y 1 County: S e.g. Qu 5-1 IVam ?- if z 19 or perennial if _ 30 L ?t A. Geomar halo (Subtotal= Absent Weak Moderate Strong 18. Continuous bed and bank 0 1 3 2. Sinuosity 0 1 2 3 3. In-channel structure: riffle-pool sequence 0 1 3 4. Soil texture or stream substrate sorting 0 2 3 5. Active/relic floodplain 0 (fj 2 3 6. Depositional bars or benches 0 1 3 7. Braided channel 0 1 3 8. Recent alluvial deposits 0 2 3 9a Natural levees 0 1 3 10. Headcuts 0 2 3 11. Grade controls 0 1 1.5 12. Natural valley or dralnageway 0 1 1.5 113. Second or greater order channel on existing USGS or NRCS map or other documented evidence. o = 0 Yes = 3 man-maae uncnes are not raiea; see aiscussions in manual B. Hvrirnlnnv (Suhtntal = /'_ 1 14. Groundwater flow/discharge 0 1 3 15. Water in channel and > 48 hrs since rain, gr Water in channel -- d or growing season 0 1 3 16. Leaflitter 1.5 0.5 0 17. Sediment on plants or debris 0 45r5_'' 1 1.5 18. Organic debris lines or piles (Wrack lines) 0 1 1.5 19. H dric soils (redoximorphic features) present? o = Yes = 1.5 C. Bioloov (Subtotal = C_ S ) 20 . Fibrous roots in channel 3 2 0 21k). Rooted plants in channel 3 2 0 22. Crayfish 0 1 1.5 23. Bivalves 0 2 3 24. Fish _ 0.5 1 1.5 25. Amphibians 0~ <::M;p 1 1.5 26. Macrobenthos (note diversity and abundance) 0 1 1.5 27. Filamentous algae; pert h on 1 2 3 28. Iron oxidizing bacteriaffungus. 0 0.5 1.5 29 . Wetland plants in streambed FAC = 0.5; FACW = 0.75; OBL = 1.5 SAV = 2.0; Other = 0 items za ana zi Locus on ine presence of upiana plants, item 29 focuses on the presence of aquatic or wetland plants. Sketch: Notes: (use back side of this form for additional notes,) Qrvr,?,?, L Gf Z C I m<-0>°D ?¢oS¢ P F- W P: LL UZ U H F- z_ W LL FC7 Dw Cl) U IX = U w H z 00 z S 0 a?c.)LL U U x LO w ~r L ¢ z 0 N W Z 0 Cl) O 0 - ~ J z qLL w LL Q O U3 w F- F- ?UCn?z LU ' W Cn O Q ¢}LUm . S p - O a c? J U 0 O ¢ ¢ W O Z 0 a O .,t uicn 3z Z 0 C!)=) }¢o LL LLZ0 wo F-OQ O ¢ G ?oC!?ZLLa0 S JU ¢ O H2 F- Q SU >> M r N O ¢ O w z J M w Z LL> w Q ¢ ? ¢ }Ow?pw W O IX:0L W Co (0 C)(D w wc i)z UawmgzW < co W a! F- Cf) o F, > 0 c) of q O W F- =p w HUn OCnmW W ? U S w¢m QCn 0 Ug0 ' J m> ¢ ¢ U -'LLJ zE zcn? ¢ o - ¢ z LL = CL U z [n2zzzw0 U ,jzOxz_ LL L 0 O ~ ¢O zU w=0?w¢ ?w 'LL O z W LLm0 ? c7 LL o 0 w U m z } 0 0 a UU Q z¢ z W ? UJ<zoo O U ¢ 55z M WF- w¢LL 0 ~ ¢ w U) Cl) w co g U W = S D LL ¢p=, D Q>0 ¢ ? ¢ a w w ?w zw ?O F-w ¢? c7 -? ¢ LL F - LL¢ 0 1Cwm F- 1 aLuL U7S =O W So WO W ? ¢ U w F- m 0 H r r U S F- D D U O z , DSLL = U F- - U qm" qrm. lt) N E t? W U n M V Z I \ I N N 1 N LO N ' N ~ \ 0 ? M I M Zen! ?zw \ U \ L w M LLI U (7 rNi o_' ¢ \ cl, Z Z F U F LO F- F- O N m X X r / W w ? w w 0 L6 Lb a LL a a \ / O ?u a CO Of M? a d J ¢ a ? U ? U 0 W U _ ? ? C N M C7 ¢ U z = C7 N N Cn L,) w w LL I ? I N I M W w Q W LL of S (7 z w J O iC? Co N° rn W CO "CO ' W M M M c? cl 00 Q z O LLI o ? ? > > g w g ? LLI w t- L U O 0 ¢ ? O ? \ M / W / U 0 1 O ¢ \ / J M N (V U ? w / N ? U / o 1 N / U) J 0' J w Z O W 0 z 2: < OW Z= Q ~ zi W co QJ Z LL Q Q r U) z Q LLI 2! w U3 3: O w m o U =~ 0 0 ? w L I J E S2 U..) o S 2: U) LLJ LL Of U) U) N Q z M 0 000 U) w 0 LLI a- O 0 w U) O W- 0 z cn <w~ 0 wp Qv OF- woo 0' W U)ui <W Z: LLI d W 0 Of >j? z= m w w z a m ? of 0 W CO ?w0L V" Q3: W ~ ~ O Q rn Z O O Z? w Q' < LL U) Om a?of `?')0F-w QOOOz 'If o 0 w j0W ujOzZMd (D 0LJLIQH ~ F- - Un w Z U W J z z_ U)ZQQ}dFM-0 wHU>j?0 0 Q=?0QUi0Wrw??zUw C.7 w0WF= Z ZO pZ d ?=z W W W w U) 0 0 0= J m 0 0-j= Q? W w m Q U Q m Of Q w 0 0<-?? Of F- Oz ?i cri v Uri m O O UD W LO W of U W J LL U F~- O J 04 *k p S? T w 4t t W W LLJ z J I w i Z ?? w ? ? OW ?C) M K U O U o O ? - W O M LU U / ? U O ¢ / 1 J m ' W n > / I U U W M U LW U 0¢ DnU O ¢ \ N I J CO CO \ ?C) ~ U o ¢ NIL J ? Z C- Q °r w F- U W W of o?? U- M O ?CD U ? ? N C) a J J gm t°OUJ F- O ap p z p C) ?' Ur N o z0Up W O W W - Z ?o Q W W ?j o U ii U) C:, W a W p}p W U LLo Z Z N W LL. z U W a- 00 p> W ?LLa U o N W O O Cl) Q U) CD ¢Q ON w C7 C7 - W LLJ LL > w C) W M W C/) u ZD = J U co Z CD 10 M U7 Z w U) Un J w U z ?N o n °v o oc! m w a? N J J U O Z U p ?m O co ? J M Cb U- 0 W W U) M C) O ¢ ,Kt C) 04 Q ? ti M Z rn Cl) 00 O f Z W M ?D N CD 0 co 0 -1 M Z O 0) 0 Z W Cn N/ ' (n F Q U) cr N \ O ¢ J \ O ¢ co I J M `- ? W LL' Q 0 O y> x L) O ¢ Y J n ? I 0 N O r ° 7 1 w `w m 0 U J ? I M W 0 U o a ? 0 w I O U 0 ¢ ? fV w ? O LU co J O ~ U O co LLI O U w N o O U Q I rn N M ri / N ? U U U 0 ¢ J ? O J rn \ N nl Cn , N a LL M 4t ENE \ o ? M a \ a / W w Uji " \ , U) Q 4 t 1-00 Q ODD ZC) c) co t/) / W r-- C-4 M? ?!C U) ? LL O LU O z ? Q J ti rn c MV 2 U 000 LO Z F- w o Z co m LL, 0 Q 0 W m w w F- w 00 N V / R M W O C) W' o 0) 1-7 M _ m LL 0 rnNLOO w ZL?oo/ w 0 -C)) Q 0 0 o¢ O J W M L / -CD' C-=> O) O m 00 M co W u> t[ N U F / CP M OJ M N Z ? \ w w U \ N / F- UQ O o M N / U M LU N U / O ¢ J ? M AgON - 089 W O w a / M N LL 0¢ J pp r ll/ (n w n z J Y i Cl) U O Q J In O U \ r < \ O< 9tiZl btiZl 9vzl _ 2 o a °v o v rn Z ? ; M M Z r c?+? J d Z J Q 00 0? cli Z Vr () (? N O H (D z > E < 2t O W Z Z(7U° cfl J w U (D 57 ? o a LLj O CD W Q LL Ow U) (? W 0 N Q ce } ? ? W w j U M O CO LlJ CD W m C) Z U z °U o - W ZZfV W ZUw O = Co om <y 0 P j ? w a O Z J ?2 3: Q L W W Q w F- w O ti H ? O (D co U- O N F - III W 2 N 6ZZ) \ Cl) \ J M N 0£ZI lce7 LZZI ui C / ? U Q O M N / ACOON-0189 u, m U / O J ep M / rC I v n e i 3 --- WN O I Z o 0 0 :5 C,5 rn M - m N O I Z 6i ? O o00 I r, / Ll M N v 1 v e- J V v ? v V O _ N J cl 00 Z C O J O M J H W O co LLI J C) J ?- O Q Q J ? J ?N ? O J r 00 J 00 ^ J C'V v N J v _2 O O O J ? J J w , J flr? J F- 00 Cf) U- to J O iQ o? O w J ? N J J W LL J 04 O F- j 4t LO F- J -N Z:) ? LL N P v O 00 J J V V? ? ^ X53 L9Zl 9921 9921 v9ZI Ial N cc \ J OO W -)N-0180 00 N_ O ? N Q d m C6 Z c? J H a Z J Q 0= cc W U ? (D 0- O CC-04 CD O cn W- ? c7 z Zip V c-4 W o (? w ?Z0 0 C-) W J W ti 05- C) U) ¢m F- W O 0 F- U U U) > Cl) m wN Jz J W W co W I- U Cl W U) z C) o 0 LL. C) O?MLU 2 a ?? U J m F- 0 oY W Z V W? a C) m3 W 0 LL 0 / Cl) H W / W U) I \ I \ \ U I U r \ 0 Q O ? o I \ (V I \ \ I I I \ _ M ?LU O < I I I N I _' 8tiZl 6921 IO9ZI 6111 l 6 ? ti221 9ZZl ? 9ZZl I 9221 J J I I I co o W ? U O ¢ I J ? M 9ti . LVZI 7? M W m w H U O J M cl? cV u i 3 3 n / OD N O ? V O d ^ t0 . r LL ? t7 V (n (.9 u? Z M co Ocn / W - z Z p U 0 tV 0 C) ? w 1 QZOUo co W WZ > o ulZUZC? M W U' ¢? 2 o > / W Cl) V O U CO w N ? co 0 >- C) o ca W= m ° z C) CO C) C) 9 Q> w U Z 0' V 2 M I I J Z r p ZZCNW?Uw a. = m ?m \\ / O W M C, w d o o U) C, ° Z M? cn W w / ?> / o cfl ow L / N C) ~ U Q o N / X22 W W _ 0 O w H U i i I ?LU N LU OJ \ U N O < I? `" N b N (r) all \ ^?11O ??°? N N \ \ \ V O ? F- U a Oj \ ? M ? J 0 N 00 Vry \ M M \ Z M 04 \ C) Z W W a_ C'V J / / W W F- / Z U O W U H O z deem-amO 9 Q N Q a c0 N_ O ? a O m M a4 (D ? ? r Z a c+ i : Z J .? a - to LL, 0 Do Q N C7 p o LJJ C7 LL z w Z?pU?'Ur N QZOUo w C) cD w C7 LUc? w > ° Z O ° 0 w LL. ?>- U) 0 W W U)UF' F- O U U O ? w Cf) (D ?U p It H J LLLJ - W m W O U M c0 L1J U Z o z o N Ix LL of c) a > ZZCW ?Uw O ? d = U m F- 0 oU) M p0 * Z Q; W I U CD °3 co W p O co 00 LL. O LO H w w 2 U Q W d' H CO LL O N ? O \ N X31 ??? 6Z1 ge7ee 9,77 J \ O) OP1 d ? Ln O ???t s? E' Oc`'F.- cc? C6 \ `r ? ? 6Zl Z co ? ? ZZ7 w \ - Z 661 ti w 9!) o / Cl) w CO F-C ?? / F- C) O Q J ? J (7 ? / O JNON-GINO / I bbl C/7 Z6l 6I l? ?,6 £7 U) w c"J d' O N 1110, 1110, O N Q o a °v v m ? ? ?5 L) C7 U z <., W J J d Q Z 0 0- CD ? W 0 =D Q N U` p p O (n wC7 C7 Z w Z p V W( N QZOUo O CD W C- LLI w > ° ?ZOZC? M P J W LL U' ? C ~rn W W 0C) 0 . F- C7 U U) > ? m wK Z * p fA D W >- F W O U Cl) =D WU v Z o Uo Q??tLL iZWU ZZ?LU W O 0 2 d ?? = U J m ?o o? M Q p 0 , V W M Z ? LL W -- a O 3 L fA W 0 cD 0 U- 0 0 H w w U) p Of a W W J (~!J p LLJ N LL _ O N W O N N Lo N ? Z p N ? af P- M 04 -,t ' ZrnC ?! . - O M - Lr) ? Z L.LI 9ti Sbl bP Ebl Z Z 65l Os? ? Bbl L?1 , 6? - 991 J 04 I W a OL7 8,g 69 co 1 I 0 I '49? 6 99l 697 £91 Z9, Q 00 I X6 I N I Cl) ? W M ? I ? U Q I I I p I / I / I w U ? r? O J ? AgON-GINO / / / w W N ? OQ ~ ? CV O Q o °v W a O J U a c:v , J Q Q z Q N U p LU 0 ? O O U C7 N QzOUo W o Co w w - LU Z > ° p o LU LLI o 0 Q L- 0 w U) W a- W W C-U O ~ F- ' ? U U O > ? m wR Z w j *k M J LL J Fe w m W H O U M C O W Z O c) p Q> LL. Z W- U ZZ?w?UW -s O - 1 2 W ?? = J m ?o 0U) p C,) 0 g -j Z ?Y Q j W 0 U O - ?3 co LU / o co ti O M tf ) V M N 000, 00 U- / O rl- H w / w s8 ?Z bo [r) ? M„ss s , 'D , la s o(31 - N N / Z W IN, N J M J L / J r J / 11 LU ?w C) ? lb ° N O O CD 00 / 21g o ° ? N N O) / d7 Z ' W M \ \ \ \ JE90N - ONE) iD o o ° v Z m 16 16 Q N o M o a U CV cD ° V U3 ? p Z Z Z U3 Z g = ~ ? O M I--cr w Z O m M O W J ? m W cmD cmD o? ? Z J J - J J 0o b) O) i? I? W i? Cn o0 I?% 0 O b) eY i? M M m co No Z Q 1- 00 M m w a w v a a CC') O U 00 ao N M O N LO In In O M a0 O m V N O O CmO M N LO W E p Z o m N m C7 <{ Z o_ Z o M Z Cm") Z N Z M Z M Z Z Z Z ° Z Z 04 CD V 1? m cD N 1? 1? M ? O Cl') O m M Cl) O N W M m O O r- N w Z O m m M D ? I 7 O Lo CD r-.: O M O N 4 I- m M m J M W Z J J ? J J ? J ? J r.- J J N J m J ao J 000 J o o J (a(??0 J oo J m J Z O f) O N C") M M c00 N ? N n ? cmD M I- O (mD ? m d' ? tmD ? O O C') O c,? cD co N I- N O N 00 m il' of N O ? co m ? M w O ? m U ? CV M ? ?['? Cn CV M M O O cA CD ? CO N N ? <D ? - M CV M OO Ln a0 N m ? O R M N F-- N O F, V m O Q Q' O Z ° Z Z M Z I? Z m Z N Z Co Z Z Z Z Z Z Z Z N Z m Z N Z Cl') Z (D Z N Z Cl Z M Z m Z m U Z W Z J O I? R (D N N 00 m ll? M N m ? if i m M ? D M m (T M O ? ? Cn ? Lo O V: N M r M cD r M O CD M O M cq 00 l j 1It It N m 00 't m O (D N O OD M N (D N m ? m O Cn CMD 00 ? N W J M J V' J CO CVNO J m T J Nr J W R J m V J O l J J N U') J M U') J J tO J tD J - J CO u? J m In J O cD J cD J N c0 J M co J J cD J cD I'D J , co J W W W W W W W W W W W W W W W z Q U cD O 00 m CD c? M O P-: N Q U t` R O 17 O V: N N n N N m FD V :;: V M 47 O M N OD m OV V I? N N N M N O m F- cD Lmn F c0 C07 M o? ? N N O N O ? N Cn v Cn N Zo c) O o N .4 °Dn N mO N M M p w m Lo Z N Z cc = Z 04 Q. p U) m m Cn m N m N_ ° N O 4 Cn O m N a,) M (n (D Y) (NO o LO Z N Z N Z Z M Z M Z N Z Z (7 Z W o N m O CD Ici N Z r H (? z W p) co m sf O Q7 o 00 N N m (D m m P- t` ? m CD m o CO M m co ?2 M O r m m m (D M CO O V: 00 Cl') m CD V N O CO M m co M m aT o N C) I? N M m W c`7 v lf) CD w CL? a J w J W Z J N J CO N J m N J N J # W Z J OD N J m N J O N N J N N J N N N J M N N J V N N J CO N N J (D N ((?? J I? N N J W N N J m N N J O M N J M N J N M N J M M N J N J CO M N J (D M N J I? M N J co M N J m M N J O -ql N J N J N N J W W 3: W W 2i 2i 2i 2i Z Q CV M M M - CO M CDM l O M R M M j M M O (n M cC O O ^ M ?y r, O N N fV m cD W CV O) CO CD M cD N N Cn CO V I? O M N ` N M m C!) N O N I? Q N N 00 O N O m V N CV a0 1. M m cD CO m V' N 1- O M M 00 M N N M CV cD Cn CD O c0 M O Cn CD m M tD m LO M O W m CD 4'1 I? Cn M lt'1 O N N CO m 00 O V CD N F- (.) Cn M .Cr M SO O N LO U N M d' Cn O O M iD M OO V On O O N N V N i?- O O M M N d' m M O D --t F, CO CP O FD M m in Cn M M Cn Cn Cn CO N N M 00 CD M O o W p m o Z om Z Z o Z o Z Z Z CV Z Z °? Z V Z ?_ Z V Z Z I? Z Z O Z cD Z o Z 00 Z 0 Z o Z m Z an Z o Z Ln Z <f Z N Z * Z o Z ° Z m (n (D Z M Z ?O Z Z O Z f? Z m Z Z S H 0 Z W V v ? m M m Cl) d. m M m m ? O m N O N N O 00 D2 r M r M r m O N r I? 00 O N n v , m N N f M r.- I? 00 r co CO N r O ? co N OR r m r lf) "J r N N m 00 I? m M CD CD KN N ` O M O r C2 r m a0 It r m O r O W li") r V' N O r m m N r CD I? m M CO CO N N CO m N N OD C7 N M m M co m N LO O M (D C') LO f) M ? M M V C`•) O N M ? N W m N J W Z J N I? J M J V J CO f` J CD J I? J w J m r J O OD J a0 J N CO J M O J J CO O J CD O J f.- W J m DD J m 00 J O m J m J N m J M m J g m J u') m J CO m J f? m J m m J m m J O O J O J N O J M O J J CO (OD N (D O J I? O J OD O J m O J O J J N J _M (N? J Z U r M W Cn Cn m O O r W CO m N W C14 N ? r ? - N N W (n N O N CO W CD O W 00 DD f") CO O ? - CD m W r CV CD O W m I? ? ? N V W O l(') ti O V N W N co cNi N W CD O lf) CD V W CO r-: M W O M CCi f? ? N M W I? N N O M M W m CD th M W ° 00 0' M M r W M m r- In O r W Cl') M M O ? - Cn M W 00 lf> M CD ? CO M C.-j ? ^ 0 W N cD M N ? ?j M CD M ? M ^ W (D O N M CV o ? m ?. ? N - Cf) ? p m 00 O ? - N ? CD Cn - N W I? Cl m Cn ?j m O M O ° W p N W W m r-- O w r O M O Elf _ p GO N Z O V Z f? W Z (D Z M N Z fV Z o CD Z OD CD Z N Z O Z ° Z _? Z [V Z O N Z Z Z n M Z N_ Z m Z W N Z O Z N Z Z gL Z R Z M CC') Z m Z '9 Z V V Z M Z N Z °_ Z N Z M N Z Z O " Z z -p z O Z Cn M z ° Z 2 Z W m M M N 1? CO M r tD m r W m 1? M ?- CO : N I? V: O r W M CD r O M cD r N CO r N I'- CO r CO N V M O CD N N CO m r f- M V N CD 00 Q N m 00 O M 't N r*-? i?• r M O O N CD 00 CD N CD r N N m CO m N N C(> m r m CO CO N co N M N N r N M m N N V N m CD V r aV M CO r Cl) 00 m r CO M CO M O M N M N 00 ?-- m O? N I? ?- W c- N N N 0 CO c`') M m c N O '- J W O M M N M M M CO M CD M I- M co M m M O N M V CO V m V r'. V 00 V m V O CO Cl') N C[J M CO CO l[') m Cn CO 00 ll") m O m (D co m Z J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J J W W W W j - N Z C m OO m 00 06 Q ?t N O O ~ N ° j c T o _ W W N (D p C% Cn r- co Cl) Cn cl g ~ = O N ( C? Z O N M CO m W w V J W M r m J J J J J CO 00 I.- V I? M CD M M OO tD CO I? O Cn M I? O m N m O W M O OD m O O _ N N Z O m CV 00 Lri I? O W CV M M M O O m t` m Cn Q O O M M O M O V CO -.4- l1') N N V N O N N CV O N N F- a0 f?- Cn CO I- Z. m M Cc7 N M l1") cD N CO V M V M N N O V W N 1? o M O m ° N CO M m Cf) oo ° 00 V Ly m CC') CO c0 M a0 1? CO Io <{ V cD 00 W CO W 00 p Z Z Z Z Z Z w w Z Z Z Z w z Z N w u) N :tt H _ H CSC M Cn O O N m N V N O m m m M O Cl M m I? CO m M CD I? U? CO LL') M O Cn I- N Z W v Cf) N N M M M N N N CON C2 C2 ? I? O M M M V c`') m Ct) J W t• m m N 0r-0 OmD OmO m m m ? N m N O J J J J J J J J J J J J ( ? N J J J J J Z O 2r M C" 00 W O N O C%) N cD n Cn CC') CD N N O CO O N CO m Lo Cn 3: H'1 O_ i?r O M N N i?: O O 3: CD m _m 3: O m Cf> i?: O CD (D N i?: N I? 00 M i?: V N i: O OR m 3 M W M N O P-: N 3: V N C[') 3: (D m m O 3: V' m r N Cn m m W M m m M W O M N Cn W r : M M W M Cn CO V W N V ? N W m O co CC') W O W m M W N m N W CO N co O W N m m W r- M W Cn m CO O W w q co O W CC, I? m ? W CD m cD W 1? m M M W CD m M N W N I? O W ?O N I-- O _ H U CV Cn - ;r CD 'Cf Cn N CD CO 00 O M N O Cn CO N N O O O M CO ;r r N M O I_ M CD CO O N CD CO ep R - N O CD O ; En Cn M O N O M V CD O V' ao N o OO ;t Cn N CO N M M cl? E5 CO Cn N Z 00 Z Cn Z O Z tO Z cD Z m Z V' Z I? u) V U V Z I? Z Z. w (D w I? w m w O w m z OO w U Z 00 Z f? N z N W Z ° m Z c0 CO Z M W z w z z m z Z ° ~ to m (n f.- m z m m m ? Cn iA U U) m Cn n O) Cn U) V aD 4 M Z wn m 0 Z Q S H CD Z W J m I? CCy M m 6 m m N m Lo CO M lf7 au Cn O cc N M ? m m cD N m m w M w N I? ' m m M N N m W O Cn D M I? M (p m m m m N N a0 O O O V O N OD 00 N O r CO O O m M N N N N N N O N N D ? M CO O N m N N N W N cq CD CO D Cl) M m M CO M Cl) CO N O Cl) f? W M M CD Z J N J M r J J cf) J CD n J 1? J CO J m n J O m J 00 J N m J M m J w w J m O J m O J m O J m m J m 00 J O m J m J N m J M m J m m J m m J m m J M m J m m J m m J O O J O J O J O J J O J O J O J O J O J J J J J w W !u 3;: W ?j W ?i 2? lJJ LL LL W w 2i O I? M m Cn O m N (n V I? Cn N O O O O t• ? N O C„p n M 00 I? (-,i O Cn ? m .N--. N 00 O O M m M M N ? m N co M V w CC') CO - N M O O c0 Cn - V' M .-- ? N W N m r m N O Obi _ m CO N ?2 Z O N W M M O> v Cn 1- O v C I? M N M N M O V Cn F- U w p m Z CD N N Z Cn M Z C1') Cn Z N N ° Z I? V Z M m V CZ O Z O M Z ° Z O Z O M N Z - O Cn Z Cn CO Z. <{ Z Cn M M to Z (n W N c`•) N W Z (n W M Z O Cn N Z m Z ?_ Z N M O Z CO CC') O M Z M W N Z m N Z °?{ Z O Z H U p ^ O r- Z N Cn n Z 00 CC") O m Z CD N O ? (n O et N m Z CD O M m Z m m Z CD M CO CD Cn O m m m Cl) H (7 Z W ? m ? (D N m CO 1? N M V O CO M N CD CD CO NN N MN I? N M CO CO N N r N M M N N m f? O V' N CD N CD O tD mm r ? a0N V N M c0 CO N CD m CD m N 1? ? N N M CO O n M M N CO ?- Q ~ Z W 00 M m m OD N m m O M m c 00 Cf) O N V: V Oi M m cD V m tt7 CO J J W J J Cn .p J m J t` n J co V J m } J O In J CO J N CO J M tO J Cc') J CO CO J cD CO J I? CO J m CO J m CO J O CD J CD J N CD J M CD J V (D J Cn CD J cD cD J I? cD J m m J m m J O ? J W J N J N J N J N J N J N J N J N J N J Y Z Q ?•- U W _ p I? N Oi M i-- M p _ Z W 6) V O M Cn N_ Z W - ? CD :T I? Z W O) .- Cn C7 M : Co M Z lO M CO N_ CV M Z (D p O _O ° M Z W C? m CV Cn N N M Z M Cn m O CD M C°y Z W M 'It O N CD O M Z W CD CD M V (n M M Z ?j M CD Oi ti') Cp ? Z M CC') cc? M Z W CV r CV N f? N N Z - 1? V or °_ Z W M r-: V CC') M I? V Z W (D r tri O 80 O V Z W Cn 00 CV m N M Z W N ";t O CO M In m M Z O N N Z W Cn tD N m N O M Z W - ? 00 O O O Z W Cn cD M M Cn M (D N Z W (D O R N w V Z W CD 1? Cn M m N 1? m 0 W CO N ? O m V N Z W M m m O (D O I? M Z W N m M Cn (n LO m Z W - ? n Z O I, M pp N r Z M N O v O N Z M r-? v 0 I? Z O N N N N M N C.0 Z W CA O N N m N Z W V ? C") N N M C) Z W n m 00 O M V I? Z W W M ci 2 Cn U') N N Z M 00 O CD M ?O Z W ? CA O a N M V Z W O R aO M O) _ Z W 1? ? CO to CO t`•) CO Z W CD i{ N Cl) 7 m _ Z N 7 Z _ 1- ZD 2 H (,7 Z W N I- N V O V Cp O N m N m m CO CO O Oj m O CO CO N O 119 N m N N r- m M m M N 00 00 N d' N M m I? N N CD O (D M Cf7 M N N O 00 O O O a0 I- O Cl') V CC'7 M 00 N N N CO O m I? N O N O CO N O N N N I? co M N m V O O O N CO 47 O m N CO I? M O O O N M m M O V sf N O m CO r- I? cD N J W Z J N J M J V J Cf) J m J n J co J m J O J J N J M J of J CO J cD J I? J m J m J O (? J ? N N J M N J L[') N J (D ((?? J I? N J CO N J m N J O M J M J N M J M M J J -j CO M J cD M J I? M J (D co J m M J O J J N n J M J J LL co w W