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Home My WebLink About20221576 Ver 1_HE-0006 and Vinfast - City of Sanford Response RFI #3_Part 1_202306191017 Main Campus Dr., Suite 1200 + Raleigh, North Carolina 27606 + 919-582-5850 + FAX 817-735-7491 www.freese.com June 1, 2023 Mr. David Bailey US Army Corps of Engineers Raleigh Regulatory Field Office 3331 Heritage Trade Drive, Suite 105 Wake Forest, NC 27587 Ms. Sue Homewood North Carolina Department of Environmental Quality 401 and Permitting Branch 1617 Mail Service Center Raleigh, NC 27699 Re: Action ID SAW-2014-00610; NCDWR No. 20221576 Response to USACE Comments Vinfast Manufacturing Facility — City of Sanford Utility Lines, Project Blue Chatham County, North Carolian Dear Mr. Bailey and Ms. Homewood: On behalf of the City of Sanford, Vinfast Manufacturing US, LLC, and the North Carolina Department of Transportation, and their consultant RK&K, Freese and Nichols is submitting the attached information for the above referenced project per the US Army Corps of Engineers (USACE) email dated April 27, 2023. The USACE email was issued following the receipt of the previous response to agency and public comments, dated March 10, 2023. The additional information attached is also an addendum to the response provided by Kimley-Horn on May 19, 2023 (reference document Project Blue HE-0006 — USACE NCDWR RFI 2- Response Package 20230519). Below are the received comments (black text) along with a brief narrative addressing each comment (blue text). USACE Comments A. Please revise the delineation of potential waters of the US within the Utility corridors to match overlapping previously Corps -verified delineations in the following locations: a. Phase 1 Water Line Sta 137+00 to Sta 192+00 (Pages 10-14 of the "Phase I Water Line WOTUS Impacts") should match NCDOT's HE-0006 delineation, field verified by the Corps in 2022; NCDOT HE-0006 features have been included for all project areas north of Old US-1. Areas within TIP East (provided by Kimley-Horn) match the NCDOT HE-0006 features. The NCDOT HE-0006 features have been included in the updated delineation and subsequent impact mapping. Page 2 of 4 FREESE b. Phase 2 Water Line Sta 1+00 to Sta 75+00 and adjacent Avents Ferry Rd access (Pages 1- 64 of the "Phase II Water Line WOTUS Impacts") should match the Corps field -verified delineation by Hazen & Sawyer for the adjacent Sanford Water Filtration Facility water intake and upgrades (SAW-2023-00134), field verified by the Corps on 4/25/2023; The Hazen and Sawyer features for the section of Phase 2 Water alignment along Avents Ferry Road have been included in the updated delineation and impact mapping. The alignment for Phase 2 Water was modified from RFI #2 for the area starting at Gulf Creek and following along the eastern shoulder of Corinth Road to the HDD area under Shaddox Creek. The previous alignment in this area was in the center of the northbound lane of Corinth Road, however, constructability analysis indicated that this section required moving the line outside of the pavement in order to meet the project timeline. The delineation of this area was conducted on April 27, 2023. Two additional wetland features were identified — the data sheets supporting these features are included with the updated WOTUS mapping attached. c. Phase 2 Sewer Line - features in the following locations should match the Corps field - verified delineation by EEE Consulting for the partially co -located City of Sanford Moncure Sewer Extension (SAW-2018-00269), field verified by the Corps on 10/31/2017 and 11/2/2017, and included as the basis for NWP 12 authorization for that project on 3/29/2018: i. Sta 0+00 to Sta 15+00 (Page 10 of the "Phase II Sewer Line WOTUS Impacts"); ii. Sta 139+00 to Sta 337+00 (Pages 22-37 of the "Phase II Sewer Line WOTUS Impacts"), and iii. Sta 0+00 to Sta 209+00 (Pages 37-54 of the "Phase II Sewer Line WOTUS Impacts"); The features that were confirmed under SAW-2018-00269 have been included in the updated delineation and impact mapping. d. Please note that additional modifications to the proposed route of any utilities may warrant additional review including delineation verification site visits; B. For all utilities, please ensure that project plans/profiles clearly distinguish which permanent impacts are proposed as no loss (e.g. embedded rip rap) vs. permanent loss (e.g. road fill); Project impacts have been updated to include the following impact classifications: o Streams ■ Temporary ■ Permanent, No Loss of Aquatic Function ■ Permanent o Wetlands ■ Temporary ■ Permanent, Cover Conversion ■ Permanent C. Phase 1 Water Line: a. Based on QL2 LiDAR review, several portions of stream channels and associated impacts on Pages 3-7 of the "Phase I Water Line WOTUS Impacts" appear to occur within uplands Page 3 of 4 areas (i.e. within the road shoulder). This appears to be a mapping issue. Please ensure that these features have been geolocated with sufficient accuracy to calculate proposed impacts for permitting purposes; The Phase 1 Water alignment has been amended to remove the area referenced in C(a). The western terminus of the alignment is now Pea Ridge Road. b. It appears that Impact 5-12 (permanent) on Page 9 of the "Phase I Water Line WOTUS Impacts" could be avoided by moving the LOD a few feet to the north; The Phase 1 Water alignment has been amended to remove the area referenced in C(a). The western terminus of the alignment is now Pea Ridge Road. D. Phase 1 Sewer Line: a. Pages 4-6 and 9 of the "Phase I Sewer Line WOTUS Impacts" shows proposed permanent wetland impacts with "strips" of temporary impacts through their center. As the proposed activity appears to be a permanent access/maintenance road, please consider whether or not the impacts labeled temporary would actually be permanent as revise the project plans and impact proposals accordingly; The impacts associated with the implementation of the road have been updated to remove the temporary impacts. The road design has also been amended to remove the large fill areas b. It appears that Impact W-65 (temporary) on Page 9 of the "Phase I Sewer Line WOTUS Impacts" could be avoided by moving the LOD a few feet to the west; The LOD was updated to remove temporary impacts associated with W-65 E. Phase 2 Sewer Line: a. "City of Sanford, Triangle Innovation Point Water & Sewer Improvements Phase 2" plans indicate that permanent above -grade fill is proposed between Sta 10+00 and Sta 92+00 (Pages 2-7 of the "Phase II Sewer Line WOTUS Impacts"). Our understanding is that a permanent road may be proposed as part of a future unrelated project in this location. Please note that the Corps would be unable to authorize impacts to WOUS resulting in permanent loss justified only by an as -yet unpermitted and unrelated project. Please modify the project design and impact proposal accordingly to those that could be attributable to the project purpose and need, and defendable as the project least environmentally damaging practicable alternative; Culverts are required on four unnamed tributaries due to the steep topography and narrow stream valleys that require grading outside of the jurisdictional areas to facilitate equipment access for utility construction and future maintenance. The alignment area will be graded to reduce burial depths of the utility line between stream crossings — the stream crossings will be trenched as previously described in other RFI and the project approach. All trenching will occur in the dry and will utilize a pump around and coffer dams as part of the project approach. b. It appears that Impact 5-32 on Page 14 of the "Phase I Water Line WOTUS Impacts" could be avoided by moving the LOD a few feet to the south; The Phase 1 Water alignment has been amended to remove the area referenced in E(b). The western terminus of the alignment is now Pea Ridge Road. F. Based on QL2 LiDAR review the LOD appears to encroach into stream channel at Sta 147+00 (Page 22 of the "Phase I Water Line WOTUS Impacts") and Sta 160+00- Sta 161+00 (Page 23 of the "Phase I Water Line WOTUS Impacts"). Page 4 of 4 We believe that the Phase 1 Water alignment has been amended to remove the areas referenced, as the stationing referenced was updated in the RFI #1 re -submittal. The western terminus of the alignment is now Pea Ridge Road. If you need additional information to assist in the review of this response package, please feel free to contact me at Jason.Steele@freese.com. Sincerely, Jason Steele, PhD, PWS Senior Environmental Scientist City of Sanford TIP Water and Sewer Improvements Updated Delineation Features, Tables, and New Wetland Determination Data Point Forms Waters Name Cowardin Class HGM Code Measure Type Amount Wetlands WOTUS Sheet WWAK PFO Wetland Area 0.19 Acre 35.6157 -79.0402 Phase 1 Sewer, Page 1 WWAW PFO Wetland Area 0.17 Acre 35.6155 -79.0476 Phase 1 Sewer, Page 2 Phase 2 Water, Page 28 AR-501 WD PFO Wetland Area 0.024 Acre 35.6079 -79.0196 Phase 1 Sewer, Page 12, 13 AR-501_WB PFO Wetland Area 0.018 Acre 35.6069 -79.0115 Phase 1 Sewer, Page 14 AR-501_WC PFO Wetland Area 0.016 Acre 35.6065 -79.0151 Phase 1 Sewer, Page 14 AR-501_WA PFO Wetland Area 0.019 Acre 35.6069 -79.0077 Phase 1 Sewer, Page 15 WWA PEM Wetland Area 0.48 Acre 35.6160 -79.0398 Phase 1 Sewer, Page 3 WWA 1 PEM Wetland Area 0.66 Acre 35.6165 -79.0385 Phase 1 Sewer, Page 3, 4 P1S_WA1 PFO Wetland Area 0.20 Acre 35.6177 -79.0333 Phase 1 Sewer, Page 5 P1S_WB PFO Wetland Area 0.69 Acre 35.6153 -79.0321 Phase 1 Sewer, Page 5, 6 P1S_WD PFO Wetland Area 0.014 Acre 35.6158 -79.0149 Phase 1 Sewer, Page 7 P2S_WS PFO Wetland Area 0.08 Acre 35.5495 -79.1868 Phase 2 Sewer, Page 11, 12 RD_0509_WA PFO Wetland Area 0.003 Acre 35.5447 -79.2172 Phase 2 Sewer, Page 2, 3 P2S_WO PEM Wetland Area 0.03 Acre 35.5657 -79.1045 Phase 2 Sewer, Page 31 P2S_WM PEM Wetland Area 0.001 Acre 35.5642 -79.0936 Phase 2 Sewer, Page 33, 34 P2S_WN PEM Wetland Area 0.05 Acre 35.5643 -79.0956 Phase 2 Sewer, Page 33, 34 P2S_WL PEM Wetland Area 0.06 Acre 35.5742 -79.0783 Phase 2 Sewer, Page 38, 39 P2S_WK PFO Wetland Area 0.02 Acre 35.5773 -79.0734 Phase 2 Sewer, Page 39, 40 P2S_WK PEM Wetland Area 0.02 Acre 35.5742 -79.0783 Phase 2 Sewer, Page 39, 40 P2S_WI PEM Wetland Area 0.001 Acre 35.5821 -79.0664 Phase 2 Sewer, Page 41, 42 P2S_WJ PEM Wetland Area 0.48 Acre 35.5810 -79.0681 Phase 2 Sewer, Page 41, 42 P2S_WH PEM Wetland Area 0.05 Acre 35.5837 -79.0640 Phase 2 Sewer, Page 42, 43 P2S_WG PFO Wetland Area 0.02 Acre 35.5865 -79.0603 Phase 2 Sewer, Page 43, 44 P2S_WE PEM Wetland Area 0.12 Acre 35.5889 -79.0564 Phase 2 Sewer, Page 44, 45 P2S_WD PEM Wetland Area 0.002 Acre 35.5899 -79.0550 Phase 2 Sewer, Page 45 P2S_WC PEM Wetland Area 0.16 Acre 35.5922 -79.0534 Phase 2 Sewer, Page 45, 46 P2S_WB PSS Wetland Area 0.03 Acre 35.5990 -79.0478 Phase 2 Sewer, Page 47, 49 Phase 1 Water, Page 24 P2S_WA PFO Wetland Area 0.11 Acre 35.5989 -79.0464 Phase 2 Sewer, Page 49 Phase 1 Water, Page 24 P2W_A_WB PEM Wetland Area 0.28 Acre 35.5206 -79.0358 Phase 2 Water Page 20, 21 RD_P2W_WA PEM Wetland Area 0.06 Acre 35.5656 -79.0277 Phase 2 Water, Page 12, 13 P2W_A_WA PFO Wetland Area 0.21 Acre 35.5932 -79.0405 Phase 2 Water, Page 22 P2W_WD PFO Wetland Area 0.10 Acre 35.5998 -79.0462 Phase 2 Water, Page 24 Phase 2 Sewer, Page 49 P2W_WC PFO Wetland Area 0.21 Acre 35.6047 -79.0469 Phase 2 Water, Page 25, 26 P2W_WB PFO Wetland Area 0.38 Acre 35.6093 -79.0473 Phase 2 Water, Page 27 WWAL PFO Wetland Area 0.07 Acre 35.6149 -79.0478 Phase 2 Water, Page 28 Phase 1 Sewer, Page 1 P2W_WG PFO Wetland Area 0.82 Acre 35.5447 -79.0334 Phase 2 Water, Page 5, 6 P2W_WH PFO Wetland Area 0.33 Acre 35.5467 -79.0300 Phase 2 Water, Page 6 RD_P2W_WHA2 PEM Wetland Area 0.14 Acre 35.5478 -79.0281 Phase 2 Water, Page 6, 7 RD_P2W_WHA1 PFO Wetland Area 0.10 Acre 35.5482 -79.0262 Phase 2 Water, Page 7 P2W WE PFO Wetland Area 5.06 Acre 35.5630 79.0254 Phase 2 Water, Page 8, 9, 10, 11, 12 Waters Name CowardinClass HGMCode MeasureType Amount Units Latitude Longitude Waters Name CowardinClass HGMCocb,��WM Units Latitude Longitude Streams WOTUS Sheet am A WOTUS Sheet dam P1W_S7 R5 Riverine Linear 145 Foot 35.6156 -79.0395 Phase 1 Sewer, Page 3 P1S_S2 R5 Riverine Linear 229 Foot 35.6146 -79.0306 Phase 1 Sewer, Page 5, 6 P1S_S6 R5 Riverine Linear 33 Foot 35.6153 -79.0158 Phase 1 Sewer, Page 7 P1S_S5 R5 Riverine Linear 80 Foot 35.6153 -79.0158 Phase 1 Sewer, Page 10, 11 P2S_S25 R6 Riverine Linear 61 Foot 35.5524 -79.1760 Phase 2 Sewer, Page 13, 14 P2S_S24 R4 Riverine Linear 45 Foot 35.5530 -79.1713 Phase 2 Sewer, Page 15 P2S_S23 R4 Riverine Linear 46 Foot 35.5534 -79.1674 Phase 2 Sewer, Page 16 P2S_S22 R5 Riverine Linear 30 Foot 35.5537 -79.1647 Phase 2 Sewer, Page 17 P2S_S21 R4 Riverine Linear 57 Foot 35.5564 -79.1592 Phase 2 Sewer, Page 18 P2S_S20 R5 Riverine Linear 58 Foot 35.5574 -79.1571 Phase 2 Sewer, Page 18, 19 P2S_S18 R5 Riverine Linear 54 Foot 35.5580 -79.1551 Phase 2 Sewer, Page 19 RD_P2S_SB R6 Riverine Linear 32 Foot 35.5447 -79.2172 Phase 2 Sewer, Page 2, 3 P2S_S17 R5 Riverine Linear 51 Foot 35.5582 -79.1520 Phase 2 Sewer, Page 20 P2S_S16 R5 Riverine Linear 50 Foot 35.5589 -79.1494 Phase 2 Sewer, Page 20, 21 P2S_S15 R4 Riverine Linear 44 Foot 35.5609 -79.1450 Phase 2 Sewer, Page 21, 22 P2S_S14 R4 Riverine Linear 40 Foot 35.5632 -79.1401 Phase 2 Sewer, Page 22, 23 P2S_S13 R4 Riverine Linear 73 Foot 35.5664 -79.1184 Phase 2 Sewer, Page 24 P2S_S12 R4 Riverine Linear 59 Foot 35.5655 -79.1152 Phase 2 Sewer, Page 28 P2S_S36 R4 Riverine Linear 41 Foot 35.5665 -79.1184 Phase 2 Sewer, Page 28 P2S_S30 R5 Riverine Linear 290 Foot 35.5428 -79.2121 Phase 2 Sewer, Page 3, 4 P2S_Sll R4 Riverine Linear 76 Foot 35.5653 -79.1094 Phase 2 Sewer, Page 30 P2S_S8 R4 Riverine Linear 74 Foot 35.5641 -79.0979 Phase 2 Sewer, Page 32 P2S_S7 R4 Riverine Linear 51 Foot 35.5641 -79.0936 Phase 2 Sewer, Page 33, 34 P2S_S5 R4 Riverine Linear 41 Foot 35.5675 -79.0877 Phase 2 Sewer, Page 35, 36 P2S_S4 R4 Riverine Linear 31 Foot 35.5774 -79.0734 Phase 2 Sewer, Page 40 P2S_S3 R6 Riverine Linear 82 Foot 35.5818 -79.0671 Phase 2 Sewer, Page 41, 42 P2S_S33 R5 Riverine Linear 30 Foot 35.5866 -79.0601 Phase 2 Sewer, Page 43, 44 P2S_S1 R5 Riverine Linear 108 Foot 35.5991 -79.0508 Phase 2 Sewer, Page 47, 48 P2S_S2 R5 Riverine Linear 51 Foot 35.5969 -79.0539 Phase 2 Sewer, Page 47, 48 P2S_S28 R6 Riverine Linear 400 Foot 35.5421 -79.2060 Phase 2 Sewer, Page 5 P2S_S29 R5 Riverine Linear 478 Foot 35.5422 -79.2069 Phase 2 Sewer, Page 5 P2S_S26 R5 Riverine Linear 468 Foot 35.5426 -79.2026 Phase 2 Sewer, Page 6 P2S_S27 R6 Riverine Linear 367 Foot 35.5423 -79.2045 Phase 2 Sewer, Page 6 RD_P2S_SD R5 Riverine Linear 916 Foot 35.5434 -79.2002 Phase 2 Sewer, Page 6, 7 P2W_S7 R4 Riverine Linear 76 Foot 35.5601 -79.0226 Phase 2 Water, Page 11 P2W_S6 R4 Riverine Linear 29 Foot 35.5864 -79.0266 Phase 2 Water, Page 18, 19 P2W_S5 R4 Riverine Linear 30 Foot 35.5896 -79.0342 Phase 2 Water, Page 20 P2W_S12 R4 Riverine Linear 67 Foot 35.5382 -79.0406 Phase 2 Water, Page 3 P2W_Sll R5 Riverine Linear 67 Foot 35.5412 -79.0379 Phase 2 Water, Page 4 P2W_S10 R5 Riverine Linear 85 Foot 35.5485 -79.0273 Phase 2 Water, Page 7 P2W_S9 R4 Riverine Linear 80 Foot 35.5412 -79.0379 Phase 2 Water, Page 7, 8 P2W S8 R5 Riverine Linear 40 Foot 35.5512 79.0245 Phase 2 Water, Page 8 WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Region Project/Site: Project Blue - Phase 2 Water Realign City/County: Chatham County Sampling Date: 2023-04-27 Applicant/Owner: State: NofthCaroha Sampling Point: P2w_A_WB_UP Investigator(s): Section, Township, Range: Landform (hillslope, terrace, etc.): Open Depression Local relief (concave, convex, none): Concave Subregion (LRR or MLRA): P 136 Lat: 35.59117306 Long:-79.03581166 Soil Map Unit Name: ChA - Chewacla and Wehadkee soils, 0 to 2 percent slopes, frequently flooded NWI classification: - Slope (%): Datum: NAD 83 Are climatic / hydrologic conditions on the site typical for this time of year? Yes ✓ No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes ✓ No Are Vegetation Soil or Hydrology naturally problematic? (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 V H dric Soil Present? Yes No ✓ Is the Sampled Area y — — within a Wetland? Yes No Wetland Hydrology Present? Yes No v/ Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136) _ Surface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (138) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (1310) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry -Season Water Table (C2) Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) _ Iron Deposits (135) _ Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3) Water -Stained Leaves (139) _ Microtopographic Relief (D4) Aquatic Fauna (1313) _ FAC-Neutral Test (D5) Field Observations: Surface Water Present? Yes No ✓ Depth (inches): Water Table Present? Yes No ✓ Depth (inches): Saturation Present? Yes 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 — Version 2.0 VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: P2W_A-WB_UP Absolute Dominant Indicator Dominance Testworksheet: Tree Stratum (Plot size: 30 ft r ) % Cover Species? Status Number of Dominant Species 1. That Are OBL, FACW, or FAC: 0 (A) 2. Total Number of Dominant 3. Species Across All Strata: 1 (B) 4. Percent of Dominant Species 5. That Are OBL, FACW, or FAC: 0 (A/B) 6. Prevalence Index worksheet: 7 = Total Cover Total % Cover of: Multiply by: 50% of total cover: 20% of total cover: OBL species 0 x 1 = 0 Saplinq/Shrub Stratum (Plot size: 15 ft r ) FACW species 0 x 2 = 0 1 FAC species 10 x 3 = 30 2 FACU species 80 x 4 = 320 3 UPL species 0 x 5= 0 4 Column Totals: 90 (A) 350 (B) 5. Prevalence Index = B/A = 3.89 6. Hydrophytic Vegetation Indicators: 7. _ 1 - Rapid Test for Hydrophytic Vegetation 8. 2 -Dominance Test is >50°k 9. _ 3 - Prevalence Index is <-3.0' = Total Cover _ 4 - Morphological Adaptations' (Provide supporting 50% of total cover: 20% of total cover: 5 ft r data in Remarks or on a separate sheet) Herb Stratum (Plot size: ) 1. Schedonorus arundinaceus 80 1/ FACU - Problematic Hydrophytic Vegetation' (Explain) 2. Ranunculus bulbosus 10 FAC Indicators of hydric soil and wetland hydrology must 3. be present, unless disturbed or problematic. 4. Definitions of Four Vegetation Strata: 5. 7. 8. 9. 10. 11. 50% of total cover: 45.0 Woody Vine Stratum (Plot size: 30 ft r ) 1. 2. 5. 50% of total cover: numpers nere or on a sepa Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/Shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than or equal to 3.28 ft (1 m) tall. Herb - All herbaceous (non -woody) plants, regardless 90Yo = Total Cover of size, and woody plants less than 3.28 ft tall. 20% of total cover: 18.0 - Woody vine -All woody vines greater than 3.28 ft in heiaht. Hydrophytic Vegetation = Total Cover Present? 20% of total cover: Yes No ✓ US Army Corps of Engineers Eastern Mountains and Piedmont - Version 2.0 SOIL Sampling Point: Pew-A_wB_UP 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) % Type Loc Texture Remarks 0-3 10YR 5/2 100 Clay Loam 3 -12 10YR 6/6 100 Clay Loam 'Type: C=Concentration, D=Depletion, RM=Reduced Matrix, MS=Masked Sand Grains. `Location: PL=Pore Lining, M=Matrix Hydric Soil Indicators: Indicators for Problematic Hydric Soils3: Histosol (Al) _ Dark 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) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147) 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Very Shallow Dark Surface (TF12) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Other (Explain in Remarks) _ Thick Dark Surface (Al 2) _ Redox Depressions (F8) Sandy Mucky Mineral (S1) (LRR N, _ Iron -Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) _ Red Parent Material (F21) (MLRA 127, 147) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes No Remarks US Army Corps of Engineers Eastern Mountains and Piedmont — Version 2.0 WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Region Project/Site: Project Blue - Phase 2 Water Realign City/County: Chatham County Sampling Date: 2023-04-27 Applicant/Owner: State: NofthCaroha Sampling Point: Pew-A_wA_UP Investigator(s): Section, Township, Range: Landform (hillslope, terrace, etc.): Hillslope Local relief (concave, convex, none): Convex Slope (%): 3 Subregion (LRR or MLRA): P 136 Lat: 35.59334785 Long:-79.03992044 Datum: NAD 83 Soil Map Unit Name: PcA - Peawick fine sandy loam, 0 to 2 percent slopes, rarely flooded NWI classification: PF04C Are climatic / hydrologic conditions on the site typical for this time of year? Yes ✓ No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes ✓ No Are Vegetation Soil or Hydrology naturally problematic? (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 V H dric Soil Present? Yes No ✓ Is the Sampled Area y — — within a Wetland? Yes No Wetland Hydrology Present? Yes No v/ Remarks: HYDROLOGY Wetland Hydrology Indicators: Secondary Indicators (minimum of two required) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136) _ Surface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (138) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (1310) _ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry -Season Water Table (C2) Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) _ Iron Deposits (135) _ Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3) Water -Stained Leaves (139) _ Microtopographic Relief (D4) Aquatic Fauna (1313) _ FAC-Neutral Test (D5) Field Observations: Surface Water Present? Yes No ✓ Depth (inches): Water Table Present? Yes No ✓ Depth (inches): Saturation Present? Yes 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 — Version 2.0 VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: P2W-A-WA-UP Absolute Dominant Indicator Tree Stratum (Plot size: 30 ft r ) % Cover Species? Status 1. Pinus taeda 20 ✓ FAC 2. Ulmus americana 20 ✓ FACW 3. Quercus phellos 10 ✓ FAC 4. 6. 7. 50% of total cover: 25.0 Saplinq/Shrub Stratum (Plot size: 15 ft r ) 1 Ulmus americana 9 Morus rubra 4. 5. 7. 8. 9. 50% of total cover: 12.5 Herb Stratum (Plot size: 5 ft r ) 1. Parthenocissus quinquefolia 2. Lonicera japonica 3. Vitis rotundifolia 4. 5. 7. 8. 9. 10. 11. 50% of total cover: 10.0 Woody Vine Stratum (Plot size: 30 ft r ) 1 Toxicodendron radicans 2 Vitis rotundifolia 5. 50% of total cover: 5.0 numpers nere or on a sepa 50% = Total Cover 20% of total cover: 10.0 20 ✓ FACW 5 ✓ FACU 25% = Total Cover 20% of total cover: 5.0 10 ✓ FACU 5 ✓ FACU 5 ✓ FAC Dominance Test worksheet: Number of Dominant Species That Are OBL, FACW, or FAC: 7 (A) Total Number of Dominant Species Across All Strata: 10 (B) Percent of Dominant Species That Are OBL, FACW, or FAC: 70 (A/B) Prevalence Index worksheet: Total % Cover of: Multiply by: OBL species 0 x 1 = 0 FACW species 40 x 2 = 80 FAC species 45 x 3 = 135 FACU species 20 x 4 = 80 UPL species 0 x 5 = 0 Column Totals: 105 (A) 295 (B) Prevalence Index = B/A = 2.81 Hydrophytic Vegetation Indicators: 1 - Rapid Test for Hydrophytic Vegetation ✓ 2 - Dominance Test is >50% _ 3 - Prevalence Index is <-3.0' _ 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 Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/Shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than or equal to 3.28 ft (1 m) tall. Herb - All herbaceous (non -woody) plants, regardless 20% = Total Cover of size, and woody plants less than 3.28 ft tall. 20% of total cover: 4.0 - Woody vine -All woody vines greater than 3.28 ft in heiaht. 5 ✓ FAC 5 ✓ FAC Hydrophytic Vegetation 10% = Total Cover Present? Yes No ✓ 20% of total cover: 2.0 US Army Corps of Engineers Eastern Mountains and Piedmont - Version 2.0 SOIL Sampling Point: P2WAw/_UP 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) % Type Loc Texture Remarks 0 -12 10YR 4/3 100 'Type: C=Concentration, D=Depletion, RM=Reduced Matrix, MS=Masked Sand Grains. `Location: PL=Pore Lining, M=Matrix Hydric Soil Indicators: Indicators for Problematic Hydric Soils3: Histosol (Al) _ Dark 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) _ Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) _ Depleted Matrix (F3) (MLRA 136, 147) 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Very Shallow Dark Surface (TF12) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Other (Explain in Remarks) _ Thick Dark Surface (Al 2) _ Redox Depressions (F8) Sandy Mucky Mineral (S1) (LRR N, _ Iron -Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) _ Red Parent Material (F21) (MLRA 127, 147) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes No Remarks US Army Corps of Engineers Eastern Mountains and Piedmont — Version 2.0 WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Region Project/Site: Project Blue - Phase 2 Water Realign City/County: Chatham County Sampling Date: 2023-04-27 Applicant/Owner: State: NofthCaroha Sampling Point: P2w_a-wa-w°P Investigator(s): Section, Township, Range: Landform (hillslope, terrace, etc.): Depression Local relief (concave, convex, none): Concave Slope (%): 2 Subregion (LRR or MLRA): P 136 Lat: 35.59328972 Long:-79.04005099 Datum: NAD 83 Soil Map Unit Name: PcA - Peawick fine sandy loam, 0 to 2 percent slopes, rarely flooded NWI classification: PF04C Are climatic / hydrologic conditions on the site typical for this time of year? Yes ✓ No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes ✓ No Are Vegetation Soil or Hydrology naturally problematic? (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) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136) ✓ Surface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (138) _ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (1310) ✓ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry -Season Water Table (C2) Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) _ Iron Deposits (135) _ Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3) Water -Stained Leaves (139) _ Microtopographic Relief (D4) Aquatic Fauna (1313) ✓ FAC-Neutral Test (D5) Field Observations: Surface Water Present? Yes ✓ No Depth (inches): 6 Water Table Present? Yes ✓ No Depth (inches): 0 Saturation Present? Yes ✓ No Depth (inches): 0 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 — Version 2.0 VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: P2W_A_WA_WDP Tree Stratum (Plot size: 30 ft r ) 1. Acer rubrum 2. Fraxinus pennsylvanica 3. Platanus occidentalis 4. 6. 7. 50% of total cover: 25.0 Sapling/Shrub Stratum (Plot size: 15 ft r ) Acer rubrum 2. Liquidambar styraciflua i Quercus phellos 4. 5. 7. 8. 9. 50% of total cover: 15.0 Herb Stratum (Plot size: 5 ft r ) 1. Carex stipata 2. Lonicera japonica 3. Parthenocissus quinquefolia 4. Saururus cernuus 5. 7. 8. 9. 10. 11. 50% of total cover: 27.5 Woody Vine Stratum (Plot size: 30 ft r ) 1 Vitis rotundifolia 2. 5. 50% of total cover: 2.5 numpers nere or on a sepa Absolute Dominant Indicator Dominance Testworksheet: % Cover Species? Status Number of Dominant Species 40 ✓ FAC That Are OBL, FACW, or FAC: 4 (A) 5 FACW 5 FACW Total Number of Dominant 4 Species Across All Strata: (B) Percent of Dominant Species That Are OBL, FACW, or FAC: 100 (A/B) Prevalence Index worksheet: 50% = Total Cover Total % Cover of: Multiply by: 20% of total cover: 10.0 OBL species 40 x 1 = 40 _ FACW species 10 x 2 = 20 20 ✓ FAC FAC species 75 x 3 = 225 5 FAC FACU species 15 x 4 = 60 5 FAC UPL species 0 x 5= 0 Column Totals: 140 (A) 345 (B) Prevalence Index = B/A = 2.46 Hydrophytic Vegetation Indicators: _ 1 - Rapid Test for Hydrophytic Vegetation ✓ 2 - Dominance Test is >50% ✓ 3 - Prevalence Index is <-3.0' 30% = Total Cover 4 -Morphological Adaptations (Provide supporting 20% of total cover: 6.0 - - data in Remarks or on a separate sheet) 35 ✓ OBL - Problematic Hydrophytic Vegetation' (Explain) 10 FACU 5 FACU 'Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. 5 OBL Definitions of Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/Shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than or equal to 3.28 ft (1 m) tall. Herb - All herbaceous (non -woody) plants, regardless 55% = Total Cover of size, and woody plants less than 3.28 ft tall. 20% of total cover: 11.0 - Woody vine -All woody vines greater than 3.28 ft in height. 5 ✓ FAC Hydrophytic Vegetation 5% = Total Cover Present? 20% of total cover: 1.0 Yes ✓ No US Army Corps of Engineers Eastern Mountains and Piedmont - Version 2.0 SOIL Sampling Point: P2wAwP-wDP 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) % Type Loc Texture Remarks 0-4 10YR 5/2 95 7.5YR 4/6 5 C M silty clay Loam 4 -12 10YR 5/2 70 7.5YR 4/6 30 C M 'Type: C=Concentration, D=Depletion, RM=Reduced Matrix, MS=Masked Sand Grains. `Location: PL=Pore Lining, M=Matrix Hydric Soil Indicators: Indicators for Problematic Hydric Soils3: Histosol (Al) _ Dark 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) Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) ✓ Depleted Matrix (F3) (MLRA 136, 147) 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Very Shallow Dark Surface (TF12) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Other (Explain in Remarks) _ Thick Dark Surface (Al 2) _ Redox Depressions (F8) Sandy Mucky Mineral (S1) (LRR N, _ Iron -Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) _ Red Parent Material (F21) (MLRA 127, 147) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? Yes ✓ No Remarks US Army Corps of Engineers Eastern Mountains and Piedmont — Version 2.0 WETLAND DETERMINATION DATA FORM — Eastern Mountains and Piedmont Region Project/Site: Project Blue - Phase 2 Water Realign City/County: Chatham County Sampling Date: 2023-04-27 Applicant/Owner: State: North Caroha Sampling Point: P2wJ\_wB_wDP Investigator(s):FNI Section, Township, Range: Landform (hillslope, terrace, etc.): Open Depression Local relief (concave, convex, none): Concave Slope (%): 3 Subregion (LRR or MLRA): P 136 Lat: 35.59063187 Long:-79.03586529 Datum: NAD 83 Soil Map Unit Name: ChA - Chewacla and Wehadkee soils, 0 to 2 percent slopes, frequently flooded NWI classification: Are climatic / hydrologic conditions on the site typical for this time of year? Yes ✓ No (If no, explain in Remarks.) Are Vegetation Soil or Hydrology significantly disturbed? Are "Normal Circumstances" present? Yes ✓ No Are Vegetation Soil or Hydrology naturally problematic? (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) Primary Indicators (minimum of one is required: check all that apply) _ Surface Soil Cracks (136) ✓ Surface Water (Al) _ True Aquatic Plants (1314) _ Sparsely Vegetated Concave Surface (138) ✓ High Water Table (A2) _ Hydrogen Sulfide Odor (Cl) _ Drainage Patterns (1310) ✓ Saturation (A3) _ Oxidized Rhizospheres on Living Roots (C3) _ Moss Trim Lines (B16) Water Marks (131) _ Presence of Reduced Iron (C4) _ Dry -Season Water Table (C2) Sediment Deposits (132) _ Recent Iron Reduction in Tilled Soils (C6) _ Crayfish Burrows (C8) Drift Deposits (133) _ Thin Muck Surface (C7) _ Saturation Visible on Aerial Imagery (C9) _ Algal Mat or Crust (134) _ Other (Explain in Remarks) _ Stunted or Stressed Plants (D1) _ Iron Deposits (135) _ Geomorphic Position (D2) _ Inundation Visible on Aerial Imagery (137) _ Shallow Aquitard (D3) Water -Stained Leaves (139) _ Microtopographic Relief (D4) Aquatic Fauna (1313) ✓ FAC-Neutral Test (D5) Field Observations: Surface Water Present? Yes ✓ No Depth (inches): 4 Water Table Present? Yes ✓ No Depth (inches): 0 Saturation Present? Yes ✓ No Depth (inches): 0 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 — Version 2.0 VEGETATION (Four Strata) - Use scientific names of plants. Sampling Point: P2W-A_WB-WDP Tree Stratum (Plot size: 30 ft r ) 1. 2. 3. 4. 6. 7. 50% of total cover: _ Sapling/Shrub Stratum (Plot size: 15 ft r ) 1. 4. 5. 7. 8. 9. 50% of total cover: Herb Stratum (Plot size: 5 ft r ) 1. Leersia oryzoides 2. Galium palustre 3. Juncus effusus 4. 5. 7. 8. 9. 10. 11. 50% of total cover: 45.0 Woody Vine Stratum (Plot size: 30 ft r ) 1. 2. 5. 50% of total cover: numpers nere or on a sepa Absolute Dominant Indicator Dominance Testworksheet: % Cover Species? Status Number of Dominant Species That Are OBL, FACW, or FAC: 1 (A) Total Number of Dominant Species Across All Strata: 1 (B) Percent of Dominant Species That Are OBL, FACW, or FAC: 100 (A/B) Prevalence Index worksheet: Total % Cover of: Multiply by: = Total Cover 20% of total cover: OBL species 80 x 1 = 80 FACW species 10 x 2 = 20 FAC species 0 x 3 = 0 FACU species 0 x 4 = 0 UPL species 0 x 5 = 0 Column Totals: 90 (A) 100 (B) Prevalence Index = B/A = 1.11 Hydrophytic Vegetation Indicators: ✓ 1 - Rapid Test for Hydrophytic Vegetation ✓ 2 - Dominance Test is >50% ✓ 3 - Prevalence Index is <-3.0' = Total Cover 4 - Morphological Adaptations' (Provide supporting 20%of total cover: - data in Remarks or on a separate sheet) 70 ✓ OBL - Problematic Hydrophytic Vegetation' (Explain) 10 OBL 10 FACW Indicators of hydric soil and wetland hydrology must be present, unless disturbed or problematic. Definitions of Four Vegetation Strata: Tree - Woody plants, excluding vines, 3 in. (7.6 cm) or more in diameter at breast height (DBH), regardless of height. Sapling/Shrub - Woody plants, excluding vines, less than 3 in. DBH and greater than or equal to 3.28 ft (1 m) tall. Herb - All herbaceous (non -woody) plants, regardless 90% = Total Cover of size, and woody plants less than 3.28 ft tall. 20% of total cover: 18.0 - Woody vine -All woody vines greater than 3.28 ft in heiaht. Hydrophytic Vegetation = Total Cover Present? 20% of total cover: Yes ✓ No US Army Corps of Engineers Eastern Mountains and Piedmont - Version 2.0 SOIL Sampling Point: P2w_._wa_wDP 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) % Type Loc Texture Remarks 0 -12 10YR 5/2 80 10YR 4/6 20 C M Silty Clay Loam 'Type: C=Concentration, D=Depletion, RM=Reduced Matrix, MS=Masked Sand Grains. `Location: PL=Pore Lining, M=Matrix Hydric Soil Indicators: Indicators for Problematic Hydric Soils3: Histosol (Al) _ Dark 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) Loamy Gleyed Matrix (F2) _ Piedmont Floodplain Soils (F19) _ Stratified Layers (A5) ✓ Depleted Matrix (F3) (MLRA 136, 147) 2 cm Muck (A10) (LRR N) _ Redox Dark Surface (F6) _ Very Shallow Dark Surface (TF12) _ Depleted Below Dark Surface (A11) _ Depleted Dark Surface (F7) _ Other (Explain in Remarks) _ Thick Dark Surface (Al 2) _ Redox Depressions (F8) Sandy Mucky Mineral (S1) (LRR N, _ Iron -Manganese Masses (F12) (LRR N, MLRA 147, 148) MLRA 136) _ Sandy Gleyed Matrix (S4) _ Umbric Surface (F13) (MLRA 136, 122) 3Indicators of hydrophytic vegetation and Sandy Redox (S5) _ Piedmont Floodplain Soils (F19) (MLRA 148) wetland hydrology must be present, _ Stripped Matrix (S6) _ Red Parent Material (F21) (MLRA 127, 147) unless disturbed or problematic. Restrictive Layer (if observed): Type: Depth (inches): Hydric Soil Present? 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S 1 �y ' • _ Y .h `' �•, • Ni sJ��► _. �, . �♦ T ,_' yr• 'T .- - _!y ;k7 i •�`ii '��._ � _ _ if Mir `,' i2�i._ .+� J. � `If•1 Ar Ix A. LUWI 61 A LLF VO �D E-, O �� Lw O O TO (6TOO-8IOZ-MVS) O sa�ryeaj pa4e llaa ApIll—, _ wea4S Paleaulla �ImO�I-]^a d10a�O Als— )�iOGD- PuellaM p,4...11aa hls—Alld lOaD@l. M sa n PueuaM Paleaullaa Isnolnvd lseJ�lO sp',pmPa4e PaN_ \V` swea-0S PaleaulP, IN- SIOHIIN3�� asaaaa (MO - *A 133_� NI 11VOS oo l 0S 0 3NI'l UHMHS II 3SHHd dI.L-Q2I(0�3'�TNVS 77 7T a N O A NVS 7 O A11 D ways w 4S pa4e ilaa AS1^-d 1-reJIIV uolle6usanul Joe Q W i W LL H O Z '+ rAjj;j� ` leyoil$ % * (6TOO-8IOZ-MVS) O sa�ryeaj pa4e llaa ApIll—, _ wea4S Paleaulla �Im�^a d10a�O Als— )�iOGD- PuellaMPaleaullaahls—AlldlOaD@l.M sa n PueVlaM Paleaullaa Isnolnvd lseJ�IV sp',pmPa4e PaN_ \V` swea-0SPaleaulP,IN- SIOHIIN3�� asaaaa (MO - *A 133_� NI 11VOS ON OOl 0 3NI'l UHMHS II 3SHHd dI.L-Q2I(0�3'�TNVS 77 7T aNOANVS 7O A11D N� sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e i N ALS U U. I 1 G; I_ RIS � � o ao i a� ' I � U - P&�a5eutinyiu oLj - -- �I U I , � 1 1 � , Pj 1 e yf 1 ice/ UNjr d mop mop \ I I I I I I I I I I I I I I I I I _ I I (6TOO-8IOZ-MVS) O sa�ryeaj pa4e llaa ApIll—, _ wea4S Paleaulla �Im�^a d10a�O Als— )�iOGD- PuellaMp,4...11aahls—AlldlOaD@l.M sa n PueVlaM Paleaullaa Isnolnvd lseJ�IV sp',pmPa4e PaN_ \V` swea-0SPaleaulP,IN- SIOHIIN3�� asaaaa (MO - *A 133_� NI 11VOS ool 0S 0 3NI'l UHMHS II 3SHHd dI.L-Q[2JI(OANVS 7 T T QNO.AN\� S JO A11✓ N� sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e _ 7t* ♦ e Y Ylo J 0 f0 •� TIam v ., y ` 0 7 0 (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV N� (MO - *A Als— )�iOGD- sp',pmPa4e PaN_ \V` dI.L-Q2I(OA�NVS 77 7T 00 ool 0S 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV N� (MO - *A Als— )�iOGD- sp',pmPa4e PaN_ \V` dI.L-Q2I(OA�NVS 77 7T ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e (6TOO-8IOZ-MVS) O sa�ryeaj ApIll—, SIOHIIN3�� asaaaa pa4e llaa sa 3NI'l UHMHS II 3SHHd 133_� NI 11VOS (900031-I)=�rVea _ n P�eI1aM Paleaullaa Imolna�d ls��lO N MOA0 A weansp��wlaaAls--diOGDN sp',pmPa4e PaN_ \V` dI.L-CINOdNVS OOZ 00�� 0 (eoo03W s.n - puelaaM p,4...11aa Als—Alld lOaD@O _ swea-0S paaeaulP, IN- (� �Iu 1� n 1✓ M O A T VS J O 7 11 D �..i ways w 4S pa4e ilaa AS-d 1-reJIIV uolle6usanu� Jo e W H W O O Z (6TOO-8IOZ-MVS) O sa�ryeaj ApIll—, SIOHIIN3�� asaaaa pa4e llaa sa 3NI72I3M3SII3SF/Hd 133� NI 11VOS _ �Im�^a n p,,pM p�4 a ijaa Ism—dlseJ�IV (MO *A wea-0S Paleaulla Als— d10a�O sp',pmPa4e PC IN- \V` dI.L-Q2I(OA�NVS -- - oo l 0S 0 )�iOGD- PuellaM p,4...11aa hls—Alld lOaD@l. M Sw 4s Paleaullaa il� — 77 7T a N O A NVS 7 O A11 D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV 1114ebl4S n j Jo ea�V IF 7=__.=—+2^�.`-��' pha � a�ien Rry � (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV b4 l V (MO - *A Als— )�iOGD- sp',pmPa4e PaN_ \V` dI.L-Q2I(OA�NVS 77 7T -- ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e (6TOO-8IOZ-MVS) O sa�ryeaj ApIll S10a]IN3�� asaaaa pa4e llaa , sa 3NI'l UHMHS II 3SHHd 133_� NI 11VOS (900031-I)=�rVea _ A P�eI1aM Paleaullaa Imo,na�d ls��lO N bq M 42I03i� wea4sP�4 �llaan, —diOGD �p�euaMp�eawlaa�� \V` dIIZ�-TQ[2JI(0�3NF7S � ON 00 � 0 (e000aW��ea PuellaM p,4..ullpa A,Sf Alld lOaD@O _ swea qS paaeaulP, IN- /7v 7 T a N O A N V S J O A11 D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV Jo e 'G' .L . 7r. — p Woma ..... aek c T .pJ 1, f / �R Attu t p. k\F�. r.� '�- M (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV b4 (MO - *A Als— )�iOGD- sp',pmPa4e PaN_ \V` dI.L-Q2I(OA�NVS 77 7T -- ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e mop "R. y9. 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(6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa AlpIll—, sa asaaaa 133_� NI 11VOS _ A 3NI'l UHMHS II 3SHHd wea4S Pa4e lla �Alm� ^a d iOGDN PueVlaM Palesp', IsPo4n la N_ l V 42I03i� � (e000aH)�a��aea- �P�euaMPaaeawlaa�� \V` /7v dLIL�-TQ[2JI(0�3NF1S 7 T � ON DO l 0 PueIlaM Paleaullaa Als—Alld lOaD@O _ swea qS paaeaullaa IN- a N O A N V S J O A11 D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV Jo e U � 00 4-J. \ 4-11 \ \ 1333 NI 3lbOS lag oo6 09 0 EG \ ' \ WE \ 4,1, \ \ 1 \ \ 1 1 1 1 1 1 1 7 1 1 1 1 \ice- 1 1 i �• - .•'� •, �I Imo_ -I -I ki 1 1 1 1 1 � 4 I ' i W. 'A (6ROO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa AlpIll—, sa asaaaa 133_� NI 11VOS _ A 3NI'l UHMHS II 3SHHd wea4S Pa4e lla �Alm� ^a d iOGDN PueVlaM Palesp', IsPo4n la N_ l V 42I03i� � (e000aH)�a��aea- �P�euaMPaaeawlaai� \V` v d'TLIL�-TQ�27I(0�3'TNF1S 7 7 � 00 l 0S 0 PueIlaM Paleaul laa Aln, Alld ioaD@� M sweanS PaleaulP, IN- a N O A �1 V S J O A L I D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV uolle6usanul /o e (6R00-2IOZ-MVS) O SIOHIIN3�� sasryea� pa4e llaa nlsnolnas, asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd C900031-I) sa�ryea PueV1aM Paleaullaa Isnolnvd lse.�u10 N (MO - *A wea4sPa4llaaAls--dioa2N spueuaMPa4e PaN_ \V` dI.L-CINOdNVS _ (e000aWs-.n - ''TT 77 T T 1� ON oo l 0 PuelaaM paaeaullaa Msr,olnald i00� M swea-0S PaleaulP, IN- a N O A NVS a O A11 D sau 4e w 4S paaeaullaa AS—n-d 4sreJuIV Jo e (6ROO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa AlpIll—, sa asaaaa 133_� NI 11VOS _ A 3NI'l UHMHS II 3SHHd wea4S Pa4e lla �Alm� ^a d iOGDN PueVlaM Palesp', IsPo4n la N_ l V 42I03i� � (e000aH)�a��aea- �P�euaMPaaeawlaai� \V` v d'TLIL�-TQ�27I(0�3'TNF1S 7 7 � 00 l 0S 0 PueIlaM Paleaul laa Aln, Alld ioaD@� M sweanS PaleaulP, IN- a N O A �1 V S J O A L I D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV uolle6usanul /o e (6ROO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa AlpIll—, sa asaaaa 133_� NI 11VOS _ A 3NI'l UHMHS II 3SHHd wea4S Pa4e lla �Alm� ^a d iOGDN PueVlaM Palesp', IsPo4n la N_ l V 42I03i� � (e000aH)�a��aea- �P�euaMPaaeawlaai� \V` v d'TLIL�-TQ�27I(0�3'TNF1S 7 7 � 00 l 0S 0 PueIlaM Paleaul laa Aln, Alld ioaD@� M sweanS PaleaulP, IN- a N O A �1 V S J O A L I D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV uolle6usanul /o e M (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133� NI 11VOS _ n 3NI72I3M3S II 3SF/Hd wea-0S Paleaulla �Im�^a d10a�O p,,pM p�4 a ijaa Ism—dlseJ�IV l V (MO - *A Als— )�iOGD- sp',pmPa4e PC IN- \V` dI.L-Q2I(OA�NVS 77 7T ool 0S 0 PuellaMPaleaullaahls—AlldlOaD@l.M Sw 4sPaleaullaail� — aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV 1114ebl4S n j Jo ea�V mop n'r 1 1i —fic (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV b4 (MO - *A Als— ) �iOGD- sp',pm Pa4e Pa N_ \V` dI.L-Q2I(OA�NVS 77 7T C ri ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e IN Ak- , 4e-.A , c t*o, ma (6TOO-8IOZ-MVS) O sa�ryeaj ApIll—, SIOHIIN3�� asaaaa pa4e llaa sa 3NI'l UHMHS II 3SHHd 133_� NI 11VOS _ �Im�^a n PueVlaM Paleaullaa Isnolnvd lseJ�IV b4 �LJ (MO *A wea4S Paleaulla Als— d10a�O sp',pm Pa4e Pa N_ \V` dI.L-Q2I(OA�NVS ri - ON OO l 0 ) �iOGD- PuellaM p,4...11aa hls—Alld lOaD@l. M swea-0S PaleaulP, IN- 77 7T a N O A NVS 7 O A11 D C sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e Fd� � o0 ir o o 0 (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV b4 (MO - *A Als— ) �iOGD- sp',pm Pa4e Pa N_ \V` dI.L-Q2I(OA�NVS 77 7T C ri ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e (6ROO-8IOZ-MVS) O SIOHIIN3�� sasry� ps4 llaa nlsnol—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd (900031-I) sa�ryea P�eI1aM Paleaullaa Isnolna�d lsG�l� N (MO - *A wes4sp�4llsaAls--dioa00 sp'eusMps4e PaN_ \V` dI.L-CINOdNVS (9000aws.n - ''TT 77 TT 1 M ON OOl 0 PuellaMPaleaulpahls—Alld10aO0� swea-0SPaleaulP,IN- aNOANVS aO A11D sau 4e w 4S pa4e ilaa AS—^-d 4sreJIIV Jo e �o .. ,gyp. +: � ,. � �°'r.� o a p o o � ♦ ,. - +�i '3�o.Biw_ iY,�. Lam• � a° ♦ ♦ .. _1 (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa AlpIll—, sa asaaaa 133_� NI 11VOS _ A 3NI'l UHMHS II 3SHHd _ wea4S Pa4e lla �Alm� ^a d iOGDN PueVlaM Palesp', IsPo4n la N_ 42I03i� � (e000aH)�a��aea- �P�euaMPaaeawlaa�� \V` /7v dLIL�-TQ[2JI(0�3NF1S 7 T � ON DO l 0 PueIlaM Paleaullaa Als—Alld lOaD@O _ swea qS paaeaullaa IN- a N O A N V S J O A11 D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV Jo e (6TOO-8IOZ-MVS) O sa�ryeaj AlpIll—, SIOHIIN3�� asaaaa pa4e llaa sa 3NI'l UHMHS II 3SHHd 133_� NI 11VOS _ �Alm� ^a A PueVlaM Palesp', IsPo4n la 42I03i� wea4S Pa4e lla d lOaO\ N_ �P�euaMPaaeawlaa�� \V` dLIL�-TQ[2JI(0�3NF1S � ON DO l 0 (e000aH)�a��aea- PueIlaM Paleaullaa Als—Alld lOaO\ _ swea qS paaeaullaa IN- /7v 7 T a N O A N V S J O A11 D � sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV Jo e N \a d ma-W 0�0 n n w 4Al »M r CJ k a 3 .Her River Em 0 Ed Ed M (6ROO-8IOZ-MVS) O sa�ryeaj nlsnol—, SIOHIIN3�� asaaaa pa4e llaa sa 3NI'l UHMHS II 3SHHd 133_� NI 11VOS _ �Im� ^a n PueVlaM Palesp', IsPo4n la 42I03i� wea4S Pa4e lla d iOGDN N_ �P�euaMPaaeawlaa�� \V` d�TL�L-TQ�27I03�TNF1S � ON 006 0 (e000aH)sa�naea- P�euaMpal..WlaaAlm�l^aldloaD@O_ swea�,sPaaeaulP,IN- /7v 7 T T aN�.71�LV S A� A11D � sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e mop ,A (6R00-2IOZ-MVS) O SIOHIIN3�� sasryea� pa4e llaa nlsnolnas, asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd C900031-I) sa�ryea PueV1aM Paleaullaa Isnolnvd lse.�u10 N (MO - *A wea4sPa4llaaAls--dioa2N spueuaMPa4e PaN_ \V` dI.L-CINOdNVS _ (e000aWs-.n - ''TT 77 T T 1� ON oo l 0 PuelaaM paaeaullaa Msr,olnald i00� M swea-0S PaleaulP, IN- a N O A NVS a O A11 D sau 4e w 4S paaeaullaa AS—n-d 4sreJuIV Jo e (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133� NI 11VOS _ n 3NI72I3M3SII3SF/Hd wea-0S Paleaulla �Im�^a d10a�O p,,pM p�4 a ijaa Ism—dlseJ�IV (MO - *A Als— )�iOGD- sp',pmPa4e PC IN- \V` dI.L-Q2I(OA�NVS 77 7T ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M Sw 4sPaleaullaail� — aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV 1114ebl4S n j Jo ea�V (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa AlpIll—, sa asaaaa 133_� NI 11VOS _ A 3NI'l UHMHS II 3SHHd wea4S Pa4e lla �Alm� ^a d iOGDN PueVlaM Palesp', IsPo4n la N_ 42I03i� � (e000aH)�a��aea- �P�euaMPaaeawlaa�� \V` /7v dLIL�-TQ[2JI(0�3NF1S 7 T � ON DO l 0 PueIlaM Paleaullaa Als—Alld lOaD@O _ swea qS paaeaullaa IN- a N O A N V S J O A11 D sau 4e w 4S pa4e ilaa ASI^-d 4sreJIIV Jo e (6TOO-8IOZ-MVS) O SIOHIIN3�� sa�ryeaj pa4e llaa ApIll—, sa asaaaa 133_� NI 11VOS _ n 3NI'l UHMHS II 3SHHd wea4S Paleaulla �Im�^a d10a�O PueVlaM Paleaullaa Isnolnvd lseJ�IV b4 W (MO - *A Als— )�iOGD- sp',pmPa4e PaN_ \V` dI.L-Q2I(OA�NVS 77 7T ON OOl 0 PuellaMPaleaullaahls—AlldlOaD@l.M swea-0SPaleaulP,IN- aNOANVS 7O A11D sau 4e w 4S pa4e ilaa AS1^-d 4sreJIIV Jo e mop N \�aaa a / as i/ as a o / if / w y w LL O J o U O (A / I\ O � 44 Zk s= _ J L � w gyti i 9 off,` dui•, 00 'a 071 1=eev=s=ss4 ro Lu tlCla�lr' / i 44 r sy / s= y mo A' O T S o m° m a y o LJ i O O O N Q Q U cG �i LAIC I I II I -I I I IJ L.! (69MO-2T( -Mvs) O S10X]IN3�� sa�ryea� Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmol—d ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � weans pa4eawlaa nln,ol—d iOGDN .� (I2K)d t� PoeuaMP eaollaal d \ dIZ Q2I03NF7S d p-pm Pao—llaa(Als— Jd lOaOO —4s Pa4—llaa INS Osl SL o Q2IO.�NFIS .�0 A.LID sa�ry weays paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed 'dHI • �. 1.� ♦ ♦ w ♦ ♦ V sy{ ♦ ♦ �L • 1, � . 1 - 1 - f 1 1 1 1 F 1 1 1 1" L 1 1 EU 1 1 Io 1 ka 1 (69MO-2T( -Mvs) O S10X]IN3�� sa�ryeaj Pa(900 as nlsno 4— sa asaaaa 1333 NI 3lb'OS (9ooa3W =��ea p�euaM p��wlaa Mm�l�a�d u�Jwn 3NI'I 2I3.LF1M II 3SF1Hd � C�2il?3—4sv�4-wlaanl—diOGDN l sp,gpmP�4—laaI� \ dLL-(IUOANVS (di�,.s P"14,Mvaaea.11�d09l 9L 0 0aAoad� Swnspaa—IaaINd QNOANVS JO AIID ry—4S pa4—ilaa h—p-d 4se4119 1114ebI4—lj 4, Cri eav (69MO-2T( -Mvs) O S10X]IN3�� sa�ryea� Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmol—d ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � weans pa4eawlaa nln,ol—d iOGDN Q2K)d t� PoeuaMP eaollaal d \ dIZ Q2I03NF7S d p-pm Pao—llaa(Als— Jd lOaOO —4s Pa4—llaa INS Osl SL o Q2IO.�NFIS .�0 A.LID sa�ry weays paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed 1 4 -l♦ ♦ ♦ ♦ ♦ OILa. (69MO-2T( -Mvs) O S10X]IN3�� sa�ryeaj Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (90003W —4ea P-uaM P�4—ilaa Msmh—d u�Jwn 3NI'I 2I3.LF1M II 3SF1Hd � wins p�4-wlaa Als— aid ioadd 6211)3 t�0 P,euaM P�4eawlaa I� \ dLL Q2I03NF1S C P"14,M Paaeaulla (91 0, A.�ds 0a�P swea-0S Paaeaullaa lN� Osl 9L o aNOANVS JO AIID sa�ryeaj —e 4S pa4—ilaa hl—l^�d 4se411A 1114ebI4—lj 4, eav (69MO-2T( -Mvs) O S10X]IN3�� sa�ryea� Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmol—d ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � weans pa4eawlaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d p-pm Pao—llaa(Als— Jd lOaOO —4s Pa4—llaa INS Osl SL o Q2IO.�NFIS .�0 A.LID sa�ry weays paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed (69MO-2T( -Mvs) O sasryeaj ps(9000 a nlsnolnas, (9ooa3W —4ea —4sp�4-wlsaAls--dioadP (90s a1A0a�P ,.�d05� sa P-usM P�4—ilsa Msmhssd u�Jwn sp,gpmPa4—laaINd \ sw4S Palulaa lN� S10X]IN3�� asaaaa (32i1?d t� +� 1333 NI 3lb'OS 5L 0 0P"14,MPal...11 3NI'I 2I3,LF1M II 3SF1Hd dLL-(IUOdNVS Qvv ANVS JO AIID � 00 �-I ry—4S pa4—ilaa h—I—d 4se411A l 1114e6I4—lj to eav � � z 14 (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 31b'OS (9000aW 4ea PuaM Pa4eawlaa nlmelaaad ue+wn 3NI'I 2I3.LF1M II 3SF1Hd � bq 0 (I2K)d t� weans pa4e ijaa nln,oldiOGDN P euaMP -pa l d \ dIZ Q2I03NF7S d Osl SL o pu pm Pa4e 1la (Ajsn,1 Jd lOaOO w 4s Pa,ea pa INS Q2IO.�NFIS .�0 A.LID sa�ry weans pa+ejpa A SS A �d 4se411A 1114ebl4S n j 4, eaed (69MO-2T( -Mvs) O S10X]IN3�� saaryea� Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � weans pa4eawlaa nln,ol—d iOGDN(I2K)d t� PoeuMP alaal d \ dIZ Q203NFS (90 Osl SL o p-pm Pao—lla 1ol—dlOaOO —4s Pa4—laa INSQ2OANFS J0 ALID sry wns paaallaa AIS—A d 4se411A 1014e6I4—lj 40 bdq ^� eaed m AW.L77. A17 ;j 4 (69MO-2T( -Mvs) O S10X]IN3�� .S... sa�ryea� Pa(eaullaa nsno,na�, sa 1333 NI 3lb'OS (9000aW —4ea P-pm Pa4eawlaa n,sr,Oh—d ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq M (I2K)d t� — vs pa4 wlaa n, O, aid iOGD P euaMP ea Vaal d \ dIZ Q2I03NF7S d Osl SL o p-pm Pao—lja (91 --d 1Oa0O —4s Pa4—1 as INS Q2IO.�NFIS .�0 A.LID sa�ry weays paaeaullaa AIS—A �d 4se411A 1114ebI4—lj 4, eaed r. rye. .. .v •_. �4 (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq QNC)d t� weans pa4eawlaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S V d Osl SL o p-pm Pao—lla (Als— Jd lOaOO —4s Pa4—llaa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed w 4W:- - 40 ww #w 1h A�Wr (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlsr,oloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq �ii (I2K)d t� weans pa4eawlaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d Osl SL o p-pm Pao—lla (Als— Jd lOaOO —4s Pa4—llaa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed (69MO-2T( -Mvs) O S10X]IN3�� sa�ryeaj Pa(900 as nlsno 4— sa asaaaa 1333 NI 3lb'OS (9ooa3W =��ea p�euaM p��wlaa Mm�l�a�d u�Jwn 3NI'I 2I3.LF1M II 3SF1Hd � C�2il?3—4sv�4-wlaanl—diOGDN l sp,gpmP�4—laaI� \ dLL-(IUOANVS 10 (di�,.s P"14,Mvaaea.11�d09l 9L 0 0aAoad� Swnspaa—IaaINd QNOANVS JO AIID ry—4S pa4—ilaa h—p-d 4se4119 1114ebI4—lj 4, eav (69Zoo-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 3lb'�S (9ooa3W a-a,ryez= PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq Q2K)d t� weans Pao—llaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d Osl 9L 0 p-pm Pao—lla (910o3 aid loaDN —4s Paaeaullaa INS aNOANVS JO AIID sa�ry weans paaeaullaa AIS—A �d 4se411A uolle6usanul 4, eaed 0 ' r O Q LLI H W � LL N'f H O O Z (69MO-2T( -Mvs) O S10X]IN3�� .S... saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 31b'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq (I2K)d t� weans pa4eawlaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d Osl SL o p-pm Pao—lla (Als— Jd lOaOO —4s Pa4—llaa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaul laa A S—A �d 4se411A 1114e6l4S—j 4, eaed T!1�r � pb 4auuo� -P' (OHO / ••, ti R }. �. .. -. L5 / iy l ` t • t � .. qfK u- (69MO-2T( -Mvs) O sa�ryeaj psa AlsnOlna�, (9000aW 4ea (9000 wins p�4ilaa Al--diOaOA sa P-uaM P�4ilaa Alsnnh—d u�Jwn P�aaa INd S10X]IN3�� asaaaa 6211)3 t� 1333 NI 31b'OS 0PuI1aMPaaeaullaaona 3NI'I 2I3.LF1M II 3SF1Hd dL-203NFS � bq .--I C 9L ] _sP,euM 9000aH� Alsn10a0O d]5� S-4s Palulaa INS nT D Qu0ANVS J0 ryw4S pa4ilaa A-1—d 4se411A l 1114e6l4S j to eav 1 f 3 (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 31b'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq 0 (I2K)d t� weans pa4eawlaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d N Osl SL o p-pm Pao—lla (Als— Jd lOaOO —4s Pa4—llaa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaul laa A S—A �d 4se411A 1114e6l4S—j 4, eaed � r •y ' iF a j5 44 �k �I 4Y1 Y L•„ I lot / -W }LSV QI o0 u O< k y Q0 Uo O Rs.ili� �!'�. �•.�R/ .NM � y �t :- i, 3� wry 'r _.' •� a .Yr P fr' _ 7 - -r _ (69MO-2T( -Mvs) O S10X]IN3�� asaaaa sa�ryeaj Pa(eaullaa Alsnolna�, sa 1333 NI 3lb'OS (90003W —4ea P-uaM P�4—ilaa Msmh—d u�Jwn 3NI'I 2I3.LF1M II 3SF1Hd � bD -- (I2IOd —4sp�4-wlaaAs--diOGDN P,euaMP�eawlaaId dLLQ[2JI03NF1S .., OSl 9L 0 (9ooa3H)-4ea P-pm Pao—llaa Alsno—d lOaOA —4s Pa4—llaa INS 7 T aNOAN V S JO AIID sa�ry —4S pa4—ilaa AISI^-d 4se411A 1114ebI4—lj (o eav (69Z00-2T( -MVS) O SIOHIIN3�� sa�ryeaj pa4—llaa nlsn0l—, sa asaaaa 1333 NI 3lb'OS — (9000aH)-4- p-pMp�4-wlaaAlsm—du�JIln 3NIrl'dH VMII3SHHd wins P��Ilaa nln,0l�a�d i0a00 � N �[�gN0 P�euaMP�eawlaa�� \ dLL Q2I03NF1S C P"14,M Paaeaulla (91 0, A.�ds 0a�P swea-0S Paaeaullaa lN� Osl 9L o aNOANVS JO AIID sa�ryeaj —e 4S pa4—ilaa hl—l^�d 4se411A 1114ebI4—lj 40 eav (69MO-2T( -Mvs) O S10X]IN3�� sa�ryeaj Pa(eaulla nlsnolna�, sa asaaaa 1333 NI 3lb'OS (90003Wsd4ea P-pmP�4—llaanlnmh—du�Jwn 3NI'I2I3.LF1MII3SF1Hd � �[OdN i4sp�4-wlaaAls— dioadd P,euMP�aaaId \ dL Q203NFS ( Osl SL o p-pm Pao—lla Als—JdlOa�N —4s Pa4—1 a INS Q2OANFS J0 ALID —ry —4S pa4—ilaa AIS—A-d 4se411A 1114ebI4—lj 4, �bC-qI C'ri eav (69MO-2T( -Mvs) O S10X]IN3�� saaryea� Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � weans pa4eawlaa nln,ol—d iOGDN bq V Q2K)d t� PoeuaMP eaollaal d \ dIZ Q2I03NF7S d N p-pm Pao—lla (Als— Jd lOaOO —4s Pa4—llaa INS Osl SL o Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq �ii (I2K)d t� weans pa4—ijaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d N Osl SL o p-pm Pao-1la (Als— Jd lOaOO —4s Paaea pa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paa—jpa AIS—A �d 4se411A 1114e6I4—lj 4, eaed a r • sor low I� - -f _ tow fr •-4 T I (69MO-2T( -Mvs) O S10X]IN3�� saaryea� Pa(eaullaa nlsnolna�, sa asaaaa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � weans pa4eawlaa nln,ol—d iOGDN bq (I2K)d t� PoeuaMP eaollaal d \ dIZ Q2I03NF7S d N p-pm Pao—lla 10 (Als— Jd lOaOO —4s Pa4—llaa INS Osl SL o Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq (I2K)d t� weans pa4—ijaa Als--d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d N Osl SL o p-pm Pao-1la (Als— Jd lOaOO —4s Paaea pa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paa—jpa AIS—A �d 4se411A 1114e6I4—lj 4, eaed (69MO-2T( -Mvs) O S10X]IN3�� asaaaa saaryea� Pa(eaullaa nlsnolna�, sa 1333 NI 3lb'OS (9000aW —4ea PoeuaM Pa4eawlaa nlmoloaad ueJwn 3NI'I 2I3.LF1M II 3SF1Hd � bq (I2K)d t� weans pa4—ijaa nln,ol—d iOGDN PoeuaMP eaollaal d \ dIZ Q2I03NF7S d N Osl SL o p-pm Pao—lla (Als— Jd lOaOO —4s Pa4—llaa INS Q2IO.�NFIS .�0 A.LID sa�ry weans paaeaullaa AIS—A �d 4se411A 1114e6I4—lj 4, eaed