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I <br /> II <br /> SOIL Sampling Point: DP6Wet <br /> Profile Description: (Describe to the depth needed to document the indicator or confirm the absence of indicators.) <br /> I <br /> Depth Matrix Redox Features <br /> (inches) Color(moist) % Color(moist) % Type' Loc2 Texture3 Remarks <br /> 0-12 10 YR 3/1 95 5 C PL CL <br /> I <br /> I <br /> I <br /> 'Type: C=Concentration,D=Depletion,RM=Reduced Matrix. 2Location: PL=Pore Lining, RC=Root Channel,M=Matrix. <br /> I3Soil Textures: Clay,Silty Clay,Sandy Clay,Loam,Sandy Clay Loam,Sandy Loam,Clay Loam,Silty Clay Loam,Silt Loam,Silt, Loamy Sand,Sand. <br /> Hydric Soil Indicators: (Applicable to all LRRs,unless otherwise noted.) Indicators for Problematic Hydric Soils: <br /> ❑ Histosol(Al) H Sandy Redox(S5) n 2 cm Muck(A10) <br /> n Histic Epipedon(A2) ❑ Stripped Matrix(S6) ❑ Red Parent Material(TF2) <br /> I <br /> I Black Histic(A3) Loamy Mucky Mineral(F1)(except MLRA 1) ❑ Other(Explain in Remarks) <br /> ❑ Hydrogen Sulfide(A4) H Loamy Gleyed Matrix(F2) <br /> I I Depleted Below Dark Surface(A11) ❑ Depleted Matrix(F3) ' <br /> H Thick Dark Surface(Al2) © Redox Dark Surface(F6) 3lndicators of hydrophytic vegetation and <br /> I I Sandy Mucky Mineral(Si) H Depleted Dark Surface(F7) wetland hydrology must be present, <br /> ❑ Sandy Gleyed Matrix(S4) I I Redox Depressions(F8) unless distrubed or problematic. <br /> Restrictive Layer(if present): <br /> I <br /> Type: <br /> Depth(inches): Hydric Soil Present? Yes(I No t <br /> Remarks: <br /> I <br /> HYDROLOGY <br /> Wetland Hydrology Indicators: <br /> Primary Indicators(any one indicator is sufficient) Secondary Indicators(2 or more required) ' <br /> ❑ Surface Water(Al) n Water-Stained Leaves(B9)(no MLRA 1,2,4 A&B[ Water Stained Leaves(B9)(MLRA 1,2,4 <br /> ❑ High Water Table(A2) ❑ Salt Crust(B11) A&B <br /> ❑ Saturation(A3) H Aquatic Invertebrates(B13) H Drainage Patterns(B10) <br /> 111 Water Water Marks(B1) Hydrogen Sulfide Odor(C1) ❑ Dry-Season Water Table(C2) <br /> ❑ Sediment Deposits(B2) n Oxidized Rhizospheres along Living Roots(C3) n Saturation Visible on Aerial Imagery(C9) <br /> ❑ Drift Deposits(B3) ❑ Presence of Reduced Iron(C4) ❑ Geomorphic Position(D2) <br /> ❑ <br /> I <br /> Algal Mat or Crust(B6) I Recent Iron Reduction in Tilled Soils(C6) ❑ Shallow Aquitard(D3) <br /> ❑ Iron Deposits(B6) I I Stunted or Stressed Plants(D1)(LRR A) ❑ FAC-Neutral Test(D5) <br /> ❑ Surface Soil Cracks(B6) n Other(Explain in Remarks) n Raised Ant Mounds(D6)(LRR A) <br /> H Inundation Visible on Aerial Imagery(B7) ❑ Frost-Heave Hummucks(D7) <br /> II <br /> L Sparsely Vegetated Concave Surface(B8) <br /> Field Observations: <br /> Surface Water Present? Yes (` No C Depth(inches): <br /> I <br /> Water Table Present? Yes r No (- Depth(inches): Wetland Hydrology Present? Yes (i No C <br /> Saturation Present? Yes r No t: Depth(inches): <br /> (includes capillary fringe) <br /> I <br /> Describe Recorded Data(stream gauge,monitoring well,aerial photos,previous inspections),if available: <br /> Remarks: Know the area is inundated by reservoir during growing season. Water is released for irrigation and takes an average of 4 <br /> weeks to drain from the new high water mark to the old high water mark. Exact dates of the growing season have not been I <br /> determined,but believe a conservative date lame is June L5 through September L <br /> US Army Corps of Engineers Western Mountains,Valleys,and Coast-Interim Version <br /> I <br />